KR100844012B1 - Terminal Devices for Processing Information Related OBDOn-Board Diagnostics and Program Recording Medium - Google Patents

Abstract

On-Board Diagnostics (OBD) linked information processing terminal device and a program recording medium therefor, The OBD (On-Board Diagnostics) linked information processing terminal device according to the present invention, respectively transmitted from a plurality of base stations After receiving a signal (or radio wave), at least one or more information is acquired in connection with a terrestrial positioning unit for transmitting the corresponding reverse signal data to a server through a base station, and on-board diagnostics (OBD) provided in a vehicle. When an abnormal condition occurs on the smoke reduction device self diagnosis data provided in the information acquisition unit and the vehicle, the self diagnosis data and the information acquired through the information acquisition unit are included in the reverse signal data, or the self diagnosis data and the And a controller for controlling the information acquired through the information acquisition unit to be transmitted to the server through the terrestrial positioning unit.

On-Board Diagnostics (OBD), Vehicles, Smoke, Reduction, Positioning

Description

Terminal Devices for Processing Information Related On-Board Diagnostics (OBD) and Program Recording Medium}

1 is a diagram showing the configuration of a terrestrial LBS terminal device having an OBD associated smoke reduction device monitoring function according to an embodiment of the present invention.

2 is a view illustrating a light absorbing sensor configuration included in the smoke reduction device according to an exemplary embodiment of the present invention.

3 is a diagram illustrating a communication protocol for terrestrial LBS according to an embodiment of the present invention.

4 is a diagram illustrating a synchronization codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

5 is a diagram illustrating an address codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

6 is a diagram illustrating a message codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

7 is a diagram illustrating an idle codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

8 is a diagram illustrating a communication protocol for terrestrial LBS according to another embodiment of the present invention.

9 is a view illustrating a removal process of the smoke reduction device according to an embodiment of the present invention.

FIG. 10 is a view illustrating a smoke reduction device monitoring process of an OBD linked smoke reduction device monitoring terrestrial LBS terminal device according to an exemplary embodiment of the present invention.

FIG. 11 is a diagram illustrating a function configuration of a GPS-based LBS terminal device having an OBD associated smoke reduction device monitoring function according to an exemplary embodiment of the present invention.

12 is a view showing a removal process of the smoke reduction device according to an embodiment of the present invention.

FIG. 13 is a view illustrating a smoke reduction device monitoring process of a GPS-based LBS terminal device for monitoring an OBD-associated smoke reduction device according to an exemplary embodiment of the present invention.

FIG. 14 is a diagram illustrating a function configuration of a GPS-based LBS terminal device having an OBD associated smoke reduction device monitoring function according to another embodiment of the present invention.

15 is a view showing a smoke removal device removal confirmation process according to another embodiment of the present invention.

16 is a view illustrating a process of monitoring a smoke reduction device of a GPS-based LBS terminal device for monitoring an OBD linked smoke reduction device according to another exemplary embodiment of the present invention.

<Description of main parts of drawing>

100: smoke reduction device 105: smoke reduction unit

110: inflow side sensor unit 115: stripping sensor unit

120: outflow side sensor unit 125: interface unit

130 contact point 135 engine part and / or exhaust part

140: power supply unit 145: power supply unit

150: terrestrial LBS terminal device 155: information acquisition unit

160: control unit 165: signal confirmation unit

170: information generating unit 175: information transmitting unit

180: information storage unit 185: signal collection unit

190: terrestrial positioning unit 195: memory unit

197: OBD device 198: positioning server

199: management server

The present invention checks whether there is an abnormality and / or removal of the smoke reduction function using at least one or more sensors, and if there is an abnormality and / or removal of at least one smoke reduction function, OBD (On-Board Diagnostics) provided in the vehicle Monitoring the presence or absence of the smoke reduction device and / or removal of the smoke reduction device provided in the vehicle, and monitoring the OBD linked smoke reduction device transmitting the corresponding information to a predetermined management server through the terrestrial LBS system. The present invention relates to a terrestrial LBS terminal device having a function.

As the standard of living improves, the daily households are becoming more real. However, the increase in the number of vehicles is the stigma that the main cause of air pollution is automobile exhaust.

In order to suppress and control such air pollution, the government reduces the sulfur content in automobile fuel as much as possible, actively induces the spread of eco-friendly fuels (for example, biodiesel), and in vehicles containing a lot of smoke in exhaust gas. It is induced to have a smoke reduction device.

However, the conventional smoke reduction device includes a problem in that when a driver arbitrarily removes the smoke reduction device or is stolen, there is no way to take appropriate measures after checking it.

In addition, the conventional smoke reduction device includes a problem that there is no way to replace the smoke reduction device after checking if the smoke reduction device is broken, or the end of life.

An object of the present invention for solving the problem is to collect the smoke reduction device self-diagnostic data provided in the vehicle, and to check whether the collected self-diagnostic data abnormality, the abnormal condition on the self-diagnosis data In the event of occurrence, at least one or more pieces of information are acquired in association with the on-board diagnostics (OBD) provided in the vehicle, and the on-board diagnostics (OBD) linkage information processing for transmitting the self-diagnosis data and the obtained information to a server on a communication network In providing a terminal device.

The OBD (On-Board Diagnostics) linked information processing terminal device according to the present invention receives a signal (or radio wave) transmitted from each of a plurality of base stations, and then transmits the corresponding reverse signal data to the server through the base station. Positioning; An information obtaining unit obtaining at least one or more information in association with an on-board diagnostics (OBD) provided in a vehicle; And when the abnormal condition occurs on the smoke reduction device self diagnosis data provided in the vehicle, include the self diagnosis data and the information acquired through the information acquisition unit in the inverse signal data, or the self diagnosis data and the information acquisition unit. And a controller for controlling the information obtained through the terrestrial positioning unit to be transmitted to a server.

In addition, the OBD (On-Board Diagnostics) linked information processing terminal apparatus according to the present invention, the signal collection unit for collecting the smoke reduction device self-diagnostic data provided in the vehicle; A signal checking unit to check whether the collected self-diagnosis data is abnormal; An information obtaining unit obtaining at least one or more information in association with an on-board diagnostics (OBD) provided in a vehicle when an abnormal condition occurs on the self-diagnostic data as a result of the checking; And a wireless communication unit transmitting the self-diagnosis data and the information obtained through the information obtaining unit to a server on a communication network.

According to the present invention, the controller checks whether there is an abnormality of the smoke reduction device self-diagnosis data, and if the abnormality is not found, the self-diagnosis according to a predetermined condition (data transmission time interval condition, etc.). It is characterized in that the data is transmitted to the server, and when an abnormal condition is found as a result of the check, the data transmission time interval is automatically adjusted.

According to the present invention, the reverse signal data may include unique information of a base station transmitting a signal (or radio wave), time information at the time of transmitting the signal (or radio wave) from the base station, unique information of the vehicle terminal device, And the time information at the time when the vehicle terminal apparatus receives the signal (or radio wave).

According to the present invention, the OBD (On-Board Diagnostics) linked information processing terminal device, characterized in that further comprises a position location for generating and / or confirming the location information of the vehicle, wherein the wireless communication unit, The vehicle may further transmit location information of the vehicle to the server.

On the other hand, the present invention includes a computer-readable recording medium, characterized in that for recording the program for executing the function of the above-described On-Board Diagnostics (OBD) linked information processing terminal device component.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

In addition, preferred embodiments of the present invention to be carried out below are provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions that are commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention. If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components that are conventionally used among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to appropriately modify the terms so that those skilled in the art to clearly understand the technical features of the present invention to effectively understand, but the present invention It is by no means limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is only.

1 is a diagram illustrating a functional configuration of a terrestrial LBS terminal device 150 having an OBD associated smoke reduction device 100 according to an embodiment of the present invention.

In more detail, FIG. 1 shows at least one sensor using an at least one sensor to determine whether there is an abnormality of smoke reduction and / or removal, and when at least one smoke reduction function is abnormal and / or detachment occurs, the OBD ( In conjunction with On-Board Diagnostics) to monitor the presence or absence of abnormality and / or removal of the smoke reduction device 100, 100 provided in the vehicle, the corresponding information to a predetermined management server through the terrestrial LBS system Regarding the configuration of the terrestrial LBS terminal device 150 having an OBD-associated smoke reduction device 100 for transmitting a function, if the person having ordinary knowledge in the technical field to which the present invention pertains, refer to FIG. It is possible to infer various implementation methods for the functional configuration of terrestrial LBS terminal device 150 having the OBD-associated smoke reduction device 100 monitoring function by changing the present invention. Include all of the exemplary method are derived group, and is not limited to the exemplary method shown in the figure 1.

For example, in FIG. 1, the terrestrial LBS terminal 150 for monitoring the OBD-associated smoke reduction device 100 is provided in an engine unit and / or an exhaust unit 135 provided in a vehicle through a predetermined interface means. Terrestrial LBS terminal connected to the smoke reduction device 100 (and / or various sensors provided in the flame reduction device) for reducing the smoke of the vehicle to perform self-diagnosis and control functions for the smoke reduction device 100. Although illustrated and described as having an apparatus 150, the invention is in no way limited thereto.

For example, the smoke reduction device 100 and the terrestrial LBS terminal device 150 shown in FIG. 1 have a heat dissipation function for heat emitted from an integrated device (eg, the vehicle engine unit and / or the exhaust unit 135). , And / or a device provided in a case having a vibration preventing function), and the present invention is not limited thereto.

In addition, when the self-diagnostic apparatus is separated from the terrestrial LBS terminal apparatus 150 shown in FIG. 1 as described above, the self-diagnostic apparatus and the smoke abatement apparatus 100 are integral devices (for example, the vehicle engine unit and / Or a device provided in a predetermined case (Case) having a heat dissipation function, and / or anti-vibration function for the heat discharged from the exhaust unit 135, thereby limiting the present invention Not.

In addition, the terrestrial LBS terminal device 150 shown in FIG. 1 may be provided integrally with the OBD device 197 (or ECU device) provided in the vehicle, and the present invention is not limited thereto.

In addition, the self-diagnosis for the smoke reduction device 100 is connected to the smoke reduction device 100 (and / or various sensors provided in the printing reduction device) of the terrestrial LBS terminal device 150 shown in FIG. And a function component for performing a control function is separated into a separate self-diagnostic device to self-diagnose the smoke reduction device 100, and the terrestrial LBS terminal device 150 is connected to the self-diagnosis device to reduce the smoke reduction device. It is possible to diagnose the state of the (100) to determine the presence or absence of abnormality and / or removal, thereby the present invention is not limited.

In addition, when the vehicle is provided with a separate communication function in addition to the terrestrial LBS terminal device 150, the terrestrial LBS terminal device 150 has an abnormality and / or the abnormality of the smoke reduction device 100 through the communication function It is possible to be configured in the form of transmitting the information corresponding to the removal to the management server, whereby the present invention is not limited.

Referring to FIG. 1 according to an embodiment of the present invention, the terrestrial LBS terminal device 150 having the OBD associated smoke reduction device 100 monitoring function is provided in a predetermined vehicle through a predetermined interface means. It is connected to the smoke reduction device 100 (and / or various sensors provided in the flame reduction device) provided in the engine and / or exhaust unit 135 to reduce the smoke of the vehicle to the smoke reduction device 100 Performing self-diagnostic and monitoring function, and corresponding to the presence or absence of abnormality and / or removal of the smoke reduction device 100, when at least one smoke reduction function abnormality and / or detachment occurs with respect to the smoke reduction device 100 Characterized in that it comprises a terrestrial LBS (Location Base System) terminal device for transmitting information to a predetermined management server through the terrestrial LBS system.

The vehicle equipped with the terrestrial LBS terminal device 150 equipped with the OBD-associated smoke reduction device 100 according to the present invention has a state of the engine unit and a transmission that may affect the same through at least one sensor. An on-board diagnostics (OBD) device for diagnosing is provided.

Although there are some differences among manufacturers of vehicles, most OBS devices are provided with a serial port for providing the OBD diagnostic information to at least one external device. The terrestrial LBS terminal device 150 according to the present invention is provided. Is connected to the OBD device 197 provided in the vehicle through a predetermined serial communication, thereby obtaining at least one OBD diagnostic information from the OBD device 197.

Referring to the regulations of the currently commercialized OBD-II, the OBD device 197 that satisfies the OBD-II standard diagnoses the parts and the cause when the vehicle exhaust gas increases due to the failure of the parts and the like. Malfunction Indicator Lamp (MIL) should be turned on and fault information corresponding to the above diagnosis result should be confirmed by standard diagnosis equipment.

In more detail, the OBD device 197 that satisfies the OBD-II standard should turn on a warning light before the exhaust gas reaches 1.5 times the legal limit due to the failure or degradation of the following parts provided in the vehicle. II Target parts include catalyst purification rate (except catalyst purification rate is HC emission only, phase-in applied from TLEV to 1.75 times HC limit), MISFIRE, EGR system, O2 sensor, fuel system, secondary Normal operation of all sensors and actuators used in the 2nd Air System, or engine control, and diagnosis of wire breaks or short circuits, or full Evapo. Diagnosis of leaks in the system, or failure diagnosis when the PCV valve and the crankcase are disconnected or between the PCV valve and the intake manifold, or within a certain time after starting the engine This may include thermostat failure diagnosis when the temperature cannot be reached to diagnose the item.

That is, the OBD device 197 is an unburned material of the exhaust gas at the front end of the engine unit and / or the exhaust unit 135 (for example, fuel injection and engine operation and transmission, etc.) equipped with the smoke reduction device according to the present invention. And / or a function of diagnosing an increase in harmful substances.

Those skilled in the art to which the present invention pertains include technical features of the OBD device 197 that satisfies the OBD-II standard, the OBD diagnosis items diagnosed by the OBD device 197, and each diagnosis item. The technical features of the corresponding OBD diagnostic information and the technical features of acquiring at least one OBD diagnostic information through serial communication from the OBD device 197 will be understood. Therefore, a detailed description thereof will be omitted for convenience.

Referring to FIG. 1, the smoke reduction device 100 includes a smoke reduction unit 105 provided in an engine unit and / or an exhaust unit 135 in the vehicle to reduce the smoke of the vehicle, and the smoke reduction unit ( An inlet-side sensor unit 110 provided at an inlet of 105 to sense the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 105, and / or the exhaust gas compound; An outlet side sensor unit 120 provided at an outlet of the smoke reduction unit 105 to sense the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 105 and / or to sense the exhaust gas compound ), A removal sensor unit 115 for sensing whether the smoke reduction device 100 is removed from the engine unit and / or the exhaust unit 135, and at least one sensed by the sensor unit through a predetermined interface means. The terrestrial LBS terminal device (1) It characterized in that it comprises an interface unit 125 provided to 50).

In addition, the smoke reduction device 100 is a power required for the smoke reduction unit 105 to perform the smoke reduction function, and / or the inlet side sensor 110 is introduced into the smoke reduction unit 105. The power required to sense the temperature and / or pressure of the exhaust gas to be exhausted, and / or the exhaust gas compound, and / or the exhaust gas from the exhaust gas reducing unit 105 from the outlet side sensor unit 120 The power required to sense the temperature and / or pressure of the gas, and / or the exhaust gas compound, and / or the stripping sensor unit 115, the smoke reduction device 100, the engine unit and / or The power required to sense whether the air is removed from the exhaust unit 135 and / or the power required to provide at least one sensing signal to the self-diagnostic apparatus by the interface unit 125 may be supplied to the smoke reduction device 100. Authorized It further comprises a power supply.

In general, the power generation principle of a vehicle includes an engine unit having at least one cylinder, a piston, and a device for converting the reciprocating motion of the piston into a rotational motion, injecting air and fuel into the cylinder in the engine, By reciprocating the piston with the explosive force generated by using or by compression ignition, the power transmission device connected to it comprises the rotation of the wheel of the vehicle by transforming the reciprocating motion into a rotational movement, such power generation In the process, about 200-300 ° C. of exhaust gas is generated, and the exhaust gas flows into an exhaust unit provided in the vehicle through an exhaust gas manifold provided in the engine unit, and the introduced exhaust gas flows. Is discharged to the atmosphere through the exhaust pipe and the silencer constituting the exhaust.

According to the exemplary embodiment of the present invention, the smoke reduction device 100 explodes by exploding the mixture of fuel and air by using a spark plug or compression ignition in a cylinder of an engine unit provided in the vehicle, and then exhaust gas corresponding thereto. May be provided anywhere in the engine unit and / or the exhaust unit 135 to reduce the soot of the exhaust gas before it is discharged from the engine unit to the atmosphere via the exhaust unit, thereby limiting the present invention. Not.

According to the exemplary embodiment of the present invention, the smoke reduction device 100 is preferably provided at a position where the exhaust gas generated in the engine unit flows into the exhaust unit, whereby the present invention is not limited thereto.

According to another exemplary embodiment of the present invention, the smoke reduction device 100 is a specific position of the exhaust portion (for example, the exhaust) passing through the exhaust gas generated in the engine portion to the exhaust portion, after being discharged to the atmosphere Exhaust pipe constituting the part, or a silencer), and the present invention is not limited thereby.

According to another exemplary embodiment of the present invention, the exhaust gas reducing device 100 is a terminal end position of the exhaust portion (eg, the exhaust portion) after exhaust gas generated in the engine portion flows into the exhaust portion and is discharged into the atmosphere. Exhaust pipes or exhaust ports of silencers), and the present invention is not limited thereby.

The smoke reduction unit 105 constituting the smoke reduction device 100 performs the function of reducing the smoke contained in the exhaust gas in the engine unit and / or the exhaust unit 135 provided in a predetermined vehicle. It features.

The method for reducing the smoke of the exhaust gas by the smoke reduction unit 105 may include one of a method of reducing smoke through recombustion of the exhaust gas, or a method of reducing smoke through a catalytic converter.

According to an exemplary embodiment of the present invention, the method for reducing smoke through the catalytic converter includes applying a platinum or rare earth metal material, which is a catalyst, to a predetermined ceramic filter in the smoke reduction unit 105, thereby selecting an appropriate temperature (eg, , 200 to 300 ° C.), and a method for reducing the unburned components of the exhaust gas.

In addition, a method for reducing smoke using reburning of the exhaust gas includes a method of conveying a part of the exhaust gas from the smoke reduction unit 105 to the engine unit to reburn unburned components, and the smoke reduction unit 105. The method may include any one of a method of igniting an unburned component of the exhaust gas through a predetermined ceramic filter and then heating (for example, heating it to 550 ° C. or more) to reburn it, thereby limiting the present invention. Not.

According to the exemplary embodiment of the present invention, the soot reduction part 105 may include at least one of a diesel particulate filter (DPF) and / or a diesel oxidation catalyst (DOC).

Those skilled in the art to which the present invention pertains, because the smoke reduction unit 105 will be familiar with the technical features of various implementation methods for reducing the smoke of the exhaust gas, detailed description thereof Although omitted for convenience, the present invention is not limited thereto, and the present invention includes all types of soot reduction methods.

The exhaust gas inlet of the smoke reduction unit 105 constituting the smoke reduction device 100 senses the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 105, and / or the exhaust And an inflow sensor 110 for sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in the gas compound, and the inflow sensor 110 The function of the is characterized in that for the exhaust gas generated in the engine unit senses the exhaust gas state before the unburned component is reduced through the soot reduction unit 105.

According to the embodiment of the present invention, the inlet side sensor unit 110 is characterized in that it comprises a temperature sensor for sensing the temperature of the exhaust gas flowing into the smoke reduction unit 105, wherein the temperature sensor is It is preferable to include an element in which at least one or more electrical characteristics of the resistance value, the current value, or the voltage value are determined in proportion to the temperature.

In addition, the inlet sensor 110 is characterized in that it comprises a pressure sensor for sensing the pressure of the exhaust gas flowing into the smoke reduction unit 105, wherein the pressure sensor is a resistance value in proportion to the pressure Or an element in which at least one or more electrical characteristics of a current value or a voltage value are determined.

In addition, the inlet-side sensor unit 110 is a qualitative analysis signal for checking whether there is a specific hazardous substance corresponding to the unburned component among the compounds corresponding to the exhaust gas flowing into the smoke reduction unit 105, and / or the Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount of a specific hazardous substance.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of the material with respect to light of a particular wavelength) (e.g., infrared, visible, ultraviolet, etc.). Wherein the absorbance sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or measures the absorbance of the light ray. It characterized in that the amount of the harmful substance in the exhaust gas by sensing, a preferred embodiment of the light absorption sensor will be described in detail with reference to FIG.

The exhaust gas outlet of the smoke reduction unit 105 constituting the smoke reduction device 100 senses the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 105 and / or the exhaust And an outflow side sensor unit 120 for sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in the gas compound, and the outflow side sensor unit 120 The function of the after the exhaust gas generated in the engine portion through the soot reduction unit 105 is characterized in that for sensing the exhaust gas state after at least one or more unburned components are reduced.

According to the exemplary embodiment of the present invention, the outlet side sensor unit 120 includes a temperature sensor configured to sense a temperature of the exhaust gas flowing out of the smoke reduction unit 105, wherein the temperature sensor is It is preferable to include an element in which at least one or more electrical characteristics of the resistance value, the current value, or the voltage value are determined in proportion to the temperature.

In addition, the outflow-side sensor unit 120 is characterized in that it comprises a pressure sensor for sensing the pressure of the exhaust gas flowing out of the smoke reduction unit 105, wherein the pressure sensor is a resistance value in proportion to the pressure Or an element in which at least one or more electrical characteristics of a current value or a voltage value are determined.

In addition, the outflow-side sensor unit 120 is a qualitative analysis signal for checking whether there is a specific hazardous substance corresponding to the unburned component among the compounds corresponding to the exhaust gas flowing out of the smoke reduction unit 105, and / or the Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount of a specific hazardous substance.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of the material with respect to light of a particular wavelength) (e.g., infrared, visible, ultraviolet, etc.). Wherein the absorbance sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or measures the absorbance of the light ray. It characterized in that the amount of the harmful substance in the exhaust gas by sensing, a preferred embodiment of the light absorption sensor will be described in detail with reference to FIG.

The stripping sensor unit 115 constituting the smoke reduction device 100 senses whether the smoke reduction device 100 is removed from the engine unit and / or the exhaust unit 135.

According to an exemplary embodiment of the present invention, when the engine part and / or the exhaust part 135 on which the particulate smoke reducing device 100 is mounted are made of a predetermined conductive material, the stripping sensor part 115 may include at least two electrical parts. A contact point 130, and the contact point 130 is electrically connected to the engine part and / or the exhaust part 135 when the smoke reduction device 100 is mounted on the engine part and / or the exhaust part 135. After contact, the predetermined amount of electricity flows to the contact point 130, and by detecting a change in the resistance value, the current value, or the voltage value for the applied electricity, the smoke reduction device 100 is It is preferable to sense whether it is removed from the engine unit and / or the exhaust unit 135.

The sensing signal sensed by the inflow side sensor unit 110, the outflow side sensor unit 120, and the stripping sensor unit 115 may be an analog signal including at least one of a resistance value, a current value, or a voltage value. The interface unit 125 constituting the smoke reduction device 100 is characterized in that it provides the sensing signal to the terrestrial LBS terminal device 150 through a predetermined interface means. .

According to an exemplary embodiment of the present invention, the interface unit 125 providing the sensing signal to the terrestrial LBS terminal device 150 may transmit the sensing signal in the form of the analog signal through an interface means including a predetermined wire. It is preferable to provide to the LBS terminal device 150, wherein the analog signal is preferably converted into a digital signal by a predetermined analog to digital converter (ADC) provided in the terrestrial LBS terminal device (150).

According to another exemplary embodiment of the present invention, the interface unit 125 providing the sensing signal to the terrestrial LBS terminal device 150 converts the sensing signal of the analog signal form into a digital signal through a predetermined ADC. Preferably, the digital signal is provided to the terrestrial LBS terminal device 150 through an interface means including a predetermined wire (or data bus).

The power supply unit provided in the smoke reduction device 100 is a power supply required for the smoke reduction unit 105 to perform the smoke reduction function from a predetermined power supply unit 145 including a battery included in the vehicle, and And / or a power source required for sensing the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 105 and / or sensing the exhaust gas compound, and / or The outlet sensor unit 120 senses the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 105, and / or the power required to sense the exhaust gas compound, and / or the removal The power supply required to sense whether the sensor unit 115 removes the smoke reduction device 100 from the engine unit and / or the exhaust unit 135, and / or the interface unit 125 provides at least one sensing signal.It is characterized in that for applying the power required to provide the self-diagnostic apparatus and the like to the smoke reduction device (100).

According to the exemplary embodiment of the present invention, the power supply unit may further include a function of charging power applied from a predetermined power supply unit 145 including a battery provided in the vehicle, thereby providing the vehicle. Even if power is not supplied from a predetermined power supply unit 145 including the battery, the stripping sensor unit 115 senses whether the smoke reduction device 100 is removed from the engine unit and / or the exhaust unit 135. It is preferable to apply the required power, and / or the power required to provide the self-diagnostic apparatus with at least one sensing signal to the interface unit 125 to the smoke reduction device 100.

According to an embodiment of the present invention, the power supply unit may output a signal including at least one of a current value or a voltage value corresponding to the power applied from a predetermined power supply unit 145 including a battery provided in the vehicle. By providing the terrestrial LBS terminal device 150 through the unit 125, it is confirmed whether a predetermined power is supplied to the smoke reduction device 100 from a predetermined power supply unit 145 including a battery provided in the vehicle. It is preferable to process so that.

Referring to FIG. 1, the terrestrial LBS terminal device 150 is sensed by the terrestrial positioning unit 190 for positioning the current position based on the terrestrial LBS and the smoke reduction device 100 through a predetermined interface means. A signal collector 185 for collecting at least one sensing signal, a memory unit 195 for storing at least one sensing data corresponding to the sensing signals collected by the signal collector 185, and the signal collector At least one sensing signal collected through 185 is read to check whether there is an abnormality and / or detachment of the smoke reduction device 100, and whether or not an abnormality and / or removal of the smoke reduction device 100 is performed. If it is confirmed, terrestrial wave L to generate information corresponding to the abnormality and / or removal of the smoke reduction device 100 to provide to the terrestrial positioning unit 190, and / or stored in the memory unit 195 BS terminal device 150 is characterized by comprising a control unit 160.

According to the present invention, the terrestrial LBS terminal 150 is at least one from the OBD device 197 (for example, OBD device 197 conforming to the OBD-II or higher standard) provided in the vehicle through a predetermined serial communication It is characterized in that it further comprises an information obtaining unit 155 for obtaining the above OBD diagnostic information.

According to an embodiment of the present invention, the information acquisition unit scans at least one information collected by the OBD device from an external communication serial port provided in the OBD device through a predetermined OBD scan protocol standard defined in the OBD device. It is preferable to obtain the OBD diagnostic information.

According to another exemplary embodiment of the present invention, the information acquisition unit is electrically connected to a wire for applying a predetermined MIL lighting power (or signal) to the at least one warning light (MIL) provided in the vehicle in the OBD device. Generating an OBD diagnostic information corresponding to the warning light MIL from the OBD device by generating a trigger corresponding to a power applied to the warning light MIL in the OBD device, and / or in the OBD device; It is preferable to obtain OBD diagnostic information corresponding to the warning light (MIL) from the OBD device through a signal transmitted to MIL).

The terrestrial positioning unit 190 constituting the terrestrial LBS terminal device 150 is characterized in that it comprises a terrestrial LBS chipset for TDOA-based terrestrial LBS, the terrestrial LBS terminal device 150 Receive at least one forward channel message (FCM) signal required for calculating a terrestrial LBS location from at least two terrestrial LBS base stations based on a current location where a vehicle is provided and a reverse channel message (RCM) corresponding to the FCM And / or transmit an Emergency Channel Message (ECM), wherein the position of the terrestrial LBS terminal device 150 is calculated by a predetermined positioning server 198 provided on the terrestrial LBS system. .

According to an embodiment of the present invention, the FCM signal, the RCM signal, and the ECM signal transmitted and received between the terrestrial positioning unit 190 and the terrestrial LBS base station are in a 322 to 328.6 MHz band in a multiple access scheme (eg, FCM signal is FDMA (Frequency). Division Multiple Access (TDMA) and Time Division Multiple Access (TDMA), RCM / ECM signal uses Code Division Multiple Access (CDMA) and TDMA, or FDMA and TDMA (Communication Protocol) Post Office Code Standardization Advisory Group) specifications (or modified POCSAG specifications) are preferred.

However, the FCM signal, the RCM signal, and the ECM signal transmitted and received between the terrestrial positioning unit 190 and the terrestrial LBS base station are not limited to the above-described frequency band, multiple access scheme, and communication protocol. It is also possible to use a frequency band and at least one or more other multiple access ice and communication protocols corresponding thereto, and the present invention is not limited thereto.

In addition, the positioning method for the terrestrial LBS according to the present invention is not limited to the TDOA method, and the positioning method for the terrestrial LBS according to the present invention is a Cell-ID based positioning method, or AOA (Angle Of). Arrival-based positioning method, or Time Of Arrival (TOA), or Enhanced Observed Time Difference (E-OTD) -based positioning method may be included, and the present invention is not limited thereto.

According to an embodiment of the present invention, the RCM / ECM signal transmitted from the terrestrial positioning unit 190 is received on the terrestrial LBS base station and then provided on the terrestrial LBS system via a predetermined terrestrial LBS backbone. It is preferably transmitted to the predetermined location server 198.

Here, the terrestrial LBS backbone includes a Public Switched Telephone Network (PSTN) or an xDSL communication network including at least one ADSL / VDSL, or at least includes a mobile communication network / mobile internet. All can be made including a wireless communication network including at least one, and the present invention is not limited by a specific backbone.

According to the embodiment of the present invention, the terrestrial positioning unit 190 is preferably further provided with a high-precision positioning function within 1m through homing.

Those skilled in the art, the TDOA-based terrestrial LBS scheme (e.g., positioning method for determining the position by measuring the relative difference of the radio wave arrival time from at least two or more signal sources), Since you will be familiar with the multiple access method and standard POCDAG standard, the detailed description thereof will be omitted for convenience.

According to the exemplary embodiment of the present invention, the terrestrial positioning unit 190 preferably transmits the RCM / ECM signal further including information corresponding to abnormality and / or stripping of the smoke reduction device 100. In this case, the information corresponding to the abnormality and / or removal of the smoke reduction device 100 is transmitted to the positioning server 198 via the terrestrial LBS backbone, and then in the positioning server 198 the smoke reduction device Information corresponding to the abnormality and / or detachment of 100 is read out and provided to a predetermined management server.

In addition, the terrestrial positioning unit 190 corresponds to the normal operation of the sensing data (or the smoke reduction device 100) corresponding to the at least one sensing signal sensed by the smoke reduction device 100 in the RCM / ECM signal. It is preferable to further transmit information, in this case, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is transmitted to the positioning server 198 via the terrestrial LBS backbone. Then, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is read from the positioning server 198 and provided to a predetermined management server.

According to another exemplary embodiment of the present invention, the terrestrial positioning unit 190 defines a separate RCM / ECM signal for transmitting information corresponding to abnormality and / or stripping of the smoke reduction device 100. Preferably, in this case, the RCM / ECM signal including the information corresponding to the abnormality and / or removal of the smoke reduction device 100 is transmitted to a predetermined management server via the terrestrial LBS backbone.

In addition, the terrestrial positioning unit 190, the terrestrial positioning unit 190 is the normal operation of the sensing data (or the smoke reduction device 100) corresponding to at least one sensing signal sensed from the smoke reduction device 100 It is preferable to define a separate RCM / ECM signal for transmitting the information corresponding to, in this case RCM / ECM including the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) The signal is transmitted to a predetermined management server via the terrestrial LBS backbone.

The signal collection unit 185 constituting the terrestrial LBS terminal device 150 is electrically connected to the interface unit 125 of the smoke reduction device 100 through a predetermined interface means. At least one sensing signal is collected from the reduction apparatus 100.

According to an embodiment of the present invention, when the terrestrial LBS terminal device 150 is provided with a cradle near the driver's seat of the vehicle (for example, when the terrestrial LBS terminal device 150 includes a navigation function), the terrestrial LBS terminal device is provided. The terminal device 150 further includes a screen output unit for outputting the state of the smoke reduction device 100, or at least one LED (Light Emitting Diode) for checking the state of the smoke reduction device 100. It is possible to achieve, and the present invention is not limited thereby.

In addition, when the terrestrial LBS terminal device 150 is provided with a cradle near the driver's seat of the vehicle (eg, when the terrestrial LBS terminal device 150 includes a navigation function), the terrestrial LBS terminal device 150 is It is possible to further comprise a key input unit for activating / deactivating at least one or more sensor functions of the at least one or more sensors provided in the smoke reduction device 100, by which the present invention is not limited.

According to the exemplary embodiment of the present invention, the sensing signal collected by the signal collection unit 185 from the smoke reduction device 100 through the interface means is the inflow-side sensor unit provided in the smoke reduction device 100. Or a pressure sensing signal sensed by the pressure sensor of the inlet-side sensor unit 110, and / or comprises a temperature sensing signal sensed by the temperature sensor of 110, and / or It is preferable to include a qualitative analysis signal and / or quantitative analysis signal sensed by the light absorption sensor of the inflow side sensor unit (110).

In addition, the sensing signal collected by the signal collection unit 185 from the smoke reduction device 100 through the interface means, the temperature sensor of the outflow side sensor unit 120 provided in the smoke reduction device 100. Or a pressure sensing signal sensed by the pressure sensor of the outlet side sensor unit 120, and / or the outlet side sensor unit 120 It is preferable that the qualitative analysis signal and / or quantitative analysis signal sensed by the absorbance sensor of the).

In addition, the sensing signal collected by the signal collection unit 185 from the smoke reduction device 100 through the interface means is sensed by the stripping sensor unit 115 provided in the smoke reduction device 100. It is preferable to include a stripping sensing signal.

In addition, the sensing signal collected by the signal collection unit 185 from the smoke reduction device 100 through the interface means, the power unit provided in the smoke reduction device 100 includes a battery provided in the vehicle. Preferably, the power supply unit 145 includes a power supply signal for checking whether a predetermined power is effectively applied.

According to the exemplary embodiment of the present invention, the sensing signal collected by the signal collector 185 may include an analog signal including at least one of an electrical resistance value, a current value, or a voltage value. To this end, the signal collector 185 preferably further comprises an ADC for converting the analog signal into a predetermined digital signal.

According to another exemplary embodiment of the present disclosure, the sensing signal collected by the signal collection unit 185 may include a digital signal corresponding to at least one of an electrical resistance value, a current value, or a voltage value. Preferably, the interface means for connecting the signal collection unit 185 and the interface unit 125 of the smoke reduction device 100 comprises an RS-232c-based data signal line (or data bus). Do.

The memory unit 195 constituting the terrestrial LBS terminal device 150 stores at least one sensing data corresponding to a sensing signal collected by the signal collecting unit 185 for a predetermined period of time. / At least one flash memory (Write Memory), EEPROM (Electrically Erasable and Programmable Read Only Memory) and the like.

According to the exemplary embodiment of the present invention, the memory unit 195 reads at least one sensing signal from the controller 160 to check whether the smoke reduction device 100 is abnormal and / or removes the smoke, and removes the smoke. If abnormality and / or removal of the abatement device 100 is confirmed, information corresponding to the abnormality and / or removal of the smoke reduction device 100 is generated and provided to the terrestrial positioning unit 190, and And / or a program routine for performing a function of storing in the memory unit 195 is preferably recorded.

The control unit 160 constituting the terrestrial LBS terminal device 150 includes a processor including a CPU / MPU and execution memory in hardware, and at least one or more recorded in the memory unit 195 (or a memory device). It includes a program routine (Routine) and / or a bus (BUS) for inputting and outputting the program data and a predetermined electronic circuit (or integrated circuit) provided for this, and the memory unit 195 in software ( Or a generic term for program routines and / or program data loaded into the execution memory from the memory device and processed by the processor to perform a specific function (hence, the function of the terrestrial LBS terminal device 150 in the present invention). A program routine recorded on the recording medium to perform the operation is shown as being provided in the controller 160 for convenience. Business card.), By reading at least one sensing signal collected through the signal collection unit 185 to check whether there is an abnormality and / or removal of the smoke reduction device 100, and the smoke reduction device 100 When there is an abnormality and / or removal is confirmed for, the information corresponding to the abnormality and / or removal of the smoke reduction device 100 to generate and provide to the LBS terminal device 150, 190, and / or The memory unit 195 stores a function.

According to the exemplary embodiment of the present invention, the controller 160 interlocks with the ECU provided in the vehicle to determine an operating condition (eg, an initial RPM value, etc.) of the vehicle according to whether or not the smoke reduction device 100 is abnormal. It is preferable to further comprise the function to control.

Referring to FIG. 1, the terrestrial LBS terminal device 150 reads at least one sensing signal collected through the signal collection unit 185 to determine whether there is an abnormality and / or removal of the smoke reduction device 100. When the signal check unit 165 to confirm and abnormality and / or removal of the smoke reduction device 100 is confirmed, generating information corresponding to the abnormality and / or removal of the smoke reduction device 100 At least one information obtained from the OBD device 197 and / or information corresponding to an abnormality and / or removal of the smoke reduction device 100 in association with the information generating unit 170 and the terrestrial positioning unit 190. The above OBD diagnostic information is characterized by comprising an information transmission unit 175 for transmitting to a predetermined management server through a terrestrial LBS-based wireless positioning network.

In addition, the terrestrial LBS terminal device 150 converts sensing data (eg, sensing signals corresponding to analog signals) corresponding to at least one or more sensing signals collected through the signal collection unit 185 through a predetermined ADC. And an information storage unit 180 for storing the digital signal) in the memory unit 195.

The signal checking unit 165 reads sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 110 of the smoke reduction device 100, thereby reducing the smoke reduction device 100. It is preferable to check whether the exhaust gas temperature flowing into the smoke reduction unit 105 includes an appropriate temperature for reducing the smoke.

For example, even after a predetermined time (eg, engine heating time) has elapsed from the engine unit of the vehicle, the exhaust gas temperature flowing into the smoke reduction unit 105 does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). Winter, etc. to maintain the sub-zero temperature range, the signal confirmation unit 165 of the smoke reduction device 100 through the control function (not shown) of the smoke reduction device 100 of the terrestrial LBS terminal device 150; The temperature of the exhaust gas flowing into the smoke reduction unit 105 may be heated (for example, an exhaust gas heating unit (not shown) may be provided on the inflow side of the smoke reduction device 100 to heat the exhaust gas temperature).

In addition, if the temperature of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 even though the ambient temperature of the vehicle maintains room temperature does not include a proper temperature necessary for reducing the smoke, the signal checking unit 165 may determine that an abnormality has occurred in the engine of the vehicle.

When it is determined that the abnormality has occurred in the engine by the signal checking unit 165, the information obtaining unit 155 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the signal checking unit 165 reads the sensing data corresponding to the sensing signal sensed by the temperature sensor of the outflow-side sensor unit 120 of the smoke reduction device 100, thereby reducing the smoke reduction device 100 It is preferable to check whether the exhaust gas temperature flowing out of the smoke reduction unit 105 includes a valid temperature after performing the smoke reduction function of the smoke reduction unit 105.

For example, the smoke reduction unit 105 of the smoke reduction device 100 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to check whether the soot reduction device 100 is abnormal by checking whether the temperature after the reburn corresponds to the heating temperature, and if the temperature after the reburn corresponds to the heating temperature. If not, the signal confirmation unit 165 confirms that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100.

When it is confirmed by the signal confirmation unit 165 that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100, the information acquisition unit 155 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 165 may include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 110 of the smoke reduction device 100, and the outflow sensor unit 120. By comparing the sensing data corresponding to the sensing signal sensed by the temperature sensor of the, by checking the temperature change of the exhaust gas passing through the smoke reduction device 100, the smoke reduction unit 105 of the smoke reduction device 100 It is preferable to check whether an abnormality has occurred in the smoke reduction function according to the respective smoke reduction methods corresponding to).

When it is confirmed by the signal confirmation unit 165 that an abnormality has occurred in the smoke reduction function, the information acquisition unit 155 may acquire at least one or more OBD diagnosis information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 165 reads sensing data corresponding to a sensing signal sensed by the pressure sensor of the inflow sensor unit 110 of the smoke reduction device 100, thereby reducing the smoke reduction device 100. It is preferable to check whether the exhaust gas pressure flowing into the smoke reduction part 105 of the () includes an appropriate pressure necessary for reducing the smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 105 does not include an appropriate pressure required to reduce the smoke, the signal checking unit 165 may reduce the smoke 100 of the terrestrial LBS terminal device 150. Pressurizing the pressure of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 through a control function (not shown) (for example, the exhaust gas pressurization unit (2) on the inflow side of the smoke reduction device 100). (Not shown) to pressurize the exhaust gas pressure.

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 does not include an appropriate pressure necessary for reducing the smoke, the signal checking unit 165 is abnormal in the exhaust pipe of the vehicle. It can be confirmed that this has occurred.

When it is confirmed by the signal checking unit 165 that a malfunction occurs in the exhaust pipe of the vehicle, the information obtaining unit 155 obtains at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to.

In addition, the signal checking unit 165 reads the sensing data corresponding to the sensing signal sensed by the pressure sensor of the outflow-side sensor unit 120 of the smoke reduction device 100, thereby reducing the smoke reduction device 100 It is preferable to check whether the exhaust gas pressure flowing out from the smoke reduction unit 105 of) includes the effective pressure after performing the smoke reduction function of the smoke reduction unit 105.

For example, the smoke reduction unit 105 of the smoke reduction device 100 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 100 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not, the signal checking unit 165 confirms that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100.

When it is confirmed by the signal confirmation unit 165 that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100, the information acquisition unit 155 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 165 is sensing data corresponding to the sensing signal sensed by the pressure sensor of the inlet sensor unit 110 of the smoke reduction device 100, and the outflow sensor unit 120 By comparing the sensing data corresponding to the sensing signal sensed by the pressure sensor of the, by checking the pressure change of the exhaust gas passing through the smoke reduction device 100, the smoke reduction unit 105 of the smoke reduction device 100 It is preferable to check whether an abnormality has occurred in the smoke reduction function according to the respective smoke reduction methods corresponding to).

When it is confirmed by the signal confirmation unit 165 that an abnormality has occurred in the smoke reduction function, the information acquisition unit 155 may acquire at least one or more OBD diagnosis information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 165 reads sensing data corresponding to a sensing signal sensed by the light absorption sensor of the inflow sensor unit 110 of the smoke reduction device 100, thereby reducing the smoke reduction device 100. Check whether there is an unburned component (or harmful substance) to be reduced in the smoke reduction unit 105 among the unburned components (or harmful substances) included in the exhaust gas flowing into the smoke reduction unit 105 of It is desirable to.

For example, when the exhaust gas flowing into the fume reducing unit 105 is absorbed by light of a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the signal checking unit 165 is configured to reduce the smoke. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing into the smoke reduction unit 105 of (100).

In addition, the signal checking unit 165 analyzes the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the inflow sensor 110 of the smoke reduction device 100, thereby reducing the unburned component to be reduced. It is preferable to calculate calculating the amount of (or noxious substances).

For example, when the exhaust gas flowing into the smoke abatement unit 105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the signal checking unit 165 performs a predetermined time period. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

In addition, the signal checking unit 165 reads the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the smoke reduction device 100 After the reduction in the smoke reduction unit 105 of the unburned components (or harmful substances) included in the exhaust gas flowing out from the smoke reduction unit 105 of the ()), the unburned components (or harmful substances) to be reduced exist. It is advisable to check.

For example, when the exhaust gas flowing out to the smoke reduction unit 105 is absorbed by a light ray having a wavelength corresponding to the reduction target unburned component (or noxious substance), the signal confirmation unit 165 is configured to reduce the smoke reduction device. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing out of the smoke reduction unit 105 of (100).

According to the embodiment of the present invention, the smoke reduction unit 105 of the smoke reduction device 100 is designed to remove almost all of the unburned components (or harmful substances) to be reduced, but the smoke reduction device 100 When the exhaust gas flowing out of the smoke reduction unit 105 includes the unburned component (or harmful substance) to be reduced, the signal checking unit 165 is a smoke reduction unit 105 of the smoke reduction device 100. ) Is confirmed to be an abnormality (or replacement of the smoke reduction unit 105 of the smoke reduction device 100).

When the signal checking unit 165 determines that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the information obtaining unit 155 may include the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 165 analyzes the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the unburned component to be reduced. It is preferable to calculate calculating the amount of (or noxious substances).

For example, when the exhaust gas flowing out to the fume reducing unit 105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the signal checking unit 165 performs a predetermined time period. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

According to the embodiment of the present invention, the smoke reduction unit 105 of the smoke reduction device 100 is designed to remove a part of the reduction target unburned components (or harmful substances), but the smoke reduction device 100 When the amount of unburned components (or harmful substances) to be reduced included in the exhaust gas flowing out of the smoke reduction unit 105 does not reduce the designed reference amount, the signal checking unit 165 may include the smoke reduction device ( It is confirmed that an abnormality has occurred in the smoke reduction part 105 of 100 (or that the smoke reduction part 105 of the smoke reduction device 100 needs to be replaced).

When the signal checking unit 165 determines that the amount of at least one unburned component (or noxious substance) to be reduced is included in the exhaust gas by more than a reference amount, the information obtaining unit 155 is provided in the vehicle. It is preferable to obtain at least one or more OBD diagnostic information from the OBD device 197.

In addition, the signal checking unit 165 may include sensing data corresponding to a sensing signal sensed by the light absorption sensor of the inflow sensor unit 110 of the smoke reduction device 100, and the outflow sensor unit 120. By comparing the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the, the performance of the smoke reduction unit 105 of the smoke reduction device 100 is confirmed, and when the performance falls below a reference value, the smoke reduction It is confirmed that an abnormality has occurred in the smoke reduction unit 105 of the device 100 (or that the smoke reduction unit 105 of the smoke reduction unit 100 needs to be replaced).

When it is confirmed by the signal checking unit 165 that the performance of the smoke reducing unit 105 of the smoke reducing device 100 falls below a reference value, the information obtaining unit 155 includes the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 165 reads sensing data corresponding to a sensing signal sensed by the stripping sensor unit 115 of the smoke reduction device 100, thereby providing an engine unit and / or an exhaust unit of the vehicle. At 135, it is preferable to check whether the smoke reduction device 100 is removed.

In addition, the signal confirmation unit 165 reads data corresponding to an electrical signal corresponding to the power supply unit of the smoke reduction device 100, thereby including a battery provided in the vehicle as the smoke reduction device 100. It is preferable to check whether a predetermined power is normally applied from the predetermined power supply unit 145. When the predetermined power is not normally applied to the smoke reduction device 100, the signal checking unit 165 It is preferable to confirm that an abnormality occurs in the smoke reduction device 100 and / or that the smoke reduction device 100 is removed from the engine part and / or the exhaust part 135 of the vehicle.

If abnormality and / or removal of the smoke reduction device 100 is confirmed by the signal checking unit 165, the information generating unit 170 may check whether the smoke reduction device 100 is abnormal and / or And generating information corresponding to the stripping, wherein the information transmitting unit 175 is connected to the terrestrial positioning unit 190 to detect abnormality of the smoke reduction device 100 and / or information corresponding to stripping. And / or transmit at least one OBD diagnostic information obtained from the OBD device 197 to a predetermined management server through a terrestrial LBS based wireless positioning network.

According to an embodiment of the present invention, the information transmitter 175 is the smoke reduction device 100 to the RCM / ECM signal transmitted from the terrestrial positioning unit 190 to the terrestrial LBS base station for TDOA-based terrestrial LBS positioning ) And / or at least one OBD diagnosis information obtained from the OBD device 197 and / or information corresponding to abnormality and / or removal, and in this case, the smoke reduction device 100 And / or information corresponding to abnormality and / or stripping of and / or at least one or more OBD diagnostic information obtained from the OBD device 197 are transmitted to the positioning server 198 via the terrestrial LBS backbone, and then the positioning server In 198, information corresponding to the abnormality and / or removal of the smoke reduction device 100 is read and provided to a predetermined management server.

According to another embodiment of the present invention, at least one or more information obtained from the OBD device 197 and / or information corresponding to the presence or absence of the smoke reduction device 100 and / or the stripping at the terrestrial positioning unit 190. When a separate RCM / ECM signal for transmitting OBD diagnostic information is defined, the information transmitter 175 responds to abnormality and / or removal of the smoke reduction device 100 in the defined RCM / ECM signal. Information and / or at least one OBD diagnostic information obtained from the OBD device 197 is preferably transmitted, and in this case, information corresponding to abnormality and / or removal of the smoke reduction device 100 and RCM / ECM signal including at least one OBD diagnostic information obtained from the OBD device 197 is transmitted to a predetermined management server via the terrestrial LBS backbone.

On the other hand, if there is no abnormality and / or removal of the smoke reduction device 100 by the signal checking unit 165, the information generating unit 170 may not operate normally in the smoke reduction device 100. And generating corresponding information, wherein the information transmitter 175 is connected to the terrestrial positioning unit 190 to detect at least one sensing signal corresponding to at least one sensing signal sensed by the smoke reduction device 100. Or information corresponding to the normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197 to a predetermined management server through a terrestrial LBS-based wireless positioning network. It is characterized by.

According to an embodiment of the present invention, the information transmitter 175 is the smoke reduction device 100 to the RCM / ECM signal transmitted from the terrestrial positioning unit 190 to the terrestrial LBS base station for TDOA-based terrestrial LBS positioning Sensing data (or information corresponding to normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197. In addition, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is transmitted to the positioning server 198 via the terrestrial LBS backbone. In the positioning server 198, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is read out and provided to a predetermined management server.

According to another exemplary embodiment of the present invention, normal operation of sensing data corresponding to at least one or more sensing signals sensed by the smoke reduction device 100 in the terrestrial positioning unit 190 (or the smoke reduction device 100). Information) and / or when a separate RCM / ECM signal for transmitting at least one OBD diagnostic information obtained from the OBD device 197 is defined, the information transmitter 175 may define the defined RCM. It is preferable to transmit the / ECM signal including the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197. In this case, the RCM / ECM signal including the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is transmitted to a predetermined management server through the terrestrial LBS backbone. do.

According to the exemplary embodiment of the present invention, when no abnormality occurs in the smoke reduction device 100 for a predetermined period (or a predetermined number of sensing times), the information transmission unit 175 is abnormal in the smoke reduction device 100. And / or increase a period for transmitting a predetermined management server through the terrestrial LBS-based wireless positioning network through information corresponding to the removal and / or at least one or more OBD diagnostic information obtained from the OBD device 197, and vice versa. If an abnormality does not frequently occur in the smoke reduction device 100 during a period (or a predetermined number of sensing times), the information transmission unit 175 may correspond to an abnormality and / or removal of the smoke reduction device 100. It is desirable to reduce a period in which information and / or at least one OBD diagnostic information obtained from the OBD device 197 is transmitted through a management server via a terrestrial LBS-based wireless positioning network. Preferable.

Alternatively, when it is determined that the vehicle state is good in the process of acquiring the OBD diagnostic information for a certain period (or a certain number of sensing times), the information transmitting unit 175 may detect abnormality and / or remove the smoke reduction device 100. It is preferable to increase a period for transmitting a predetermined management server through the terrestrial LBS-based wireless positioning network to the information corresponding to and / or at least one or more OBD diagnostic information obtained from the OBD device 197, on the contrary If it is determined that the vehicle condition is not good during the OBD diagnostic information acquisition process during the number of sensing), the information transmitter 175 may include information corresponding to abnormality and / or removal of the smoke reduction device 100 and And / or transmit at least one OBD diagnostic information obtained from the OBD device 197 to a predetermined management server through a terrestrial LBS-based wireless positioning network. To reduce the period is preferred to.

When sensing data corresponding to at least one sensing signal collected through the signal collector 185 is generated, the information storage unit 180 may store the sensing data in the memory unit 195.

According to the exemplary embodiment of the present invention, when the sensing data stored in the memory unit 195 corresponds to the normal operation of the smoke reduction device 100, the information transmitter 175 may be connected to the terrestrial positioning unit 190. At least one or more sensing data stored in the memory unit 195 (or information corresponding to the normal operation of the smoke reduction device 100) and / or at least one or more OBD diagnostic information obtained from the OBD device 197. It is characterized by transmitting to a predetermined management server through the terrestrial LBS-based wireless positioning network.

According to an exemplary embodiment of the present invention, the information transmitter 175 stores the memory unit 195 in the RCM / ECM signal transmitted from the terrestrial positioning unit 190 to the terrestrial LBS base station for TDOA based terrestrial LBS positioning. At least one sensing data (or information corresponding to the normal operation of the smoke reduction device 100) stored in the and / or at least one or more OBD diagnostic information obtained from the OBD device 197 is preferably transmitted. In this case, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197 may be transmitted through the terrestrial LBS backbone. Transmitted to the positioning server 198, and then the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is read from the positioning server 198. It is provided to define the management server.

According to another exemplary embodiment of the present invention, at least one or more sensing data (or information corresponding to normal operation of the smoke reduction device 100) and / or stored in the memory unit 195 in the terrestrial positioning unit 190 and / or When a separate RCM / ECM signal for transmitting at least one or more OBD diagnostic information obtained from the OBD device 197 is defined, the information transmitter 175 may transmit the sensing data to the defined RCM / ECM signal. Or information corresponding to the normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197, and in this case, the sensing data ( Or RCM / ECM signal including information corresponding to the normal operation of the smoke reduction device 100) and / or at least one OBD diagnostic information obtained from the OBD device 197. Through the wave LBS backbone it is sent to a given management server.

2 is a diagram illustrating a light absorbing sensor configuration provided in the smoke reduction device 100 according to an exemplary embodiment of the present invention.

In more detail, FIG. 2 shows a qualitative analysis signal and / or quantification of the exhaust gas from the inlet side sensor unit 110 and / or the outlet side sensor unit 120 of the smoke reduction device 100 shown in FIG. As shown in FIG. 1, a structure of a light absorbing sensor for sensing an analysis signal, and a person of ordinary skill in the art to which the present invention pertains, refer to and / or modify the present FIG. Inferring various methods of the absorption sensor configuration for sensing the qualitative analysis signal and / or quantitative analysis signal for the exhaust gas in the inlet sensor unit 110 and / or the outlet sensor unit 120 of (100) It should be noted that the present invention encompasses all of the inferred implementation methods and is not limited to the implementation method shown in FIG.

Referring to FIG. 2, the light absorption sensor includes a light emitting unit 200 having a lamp 205 that emits light having a wavelength corresponding to an unburned component (or harmful substance) 225 of the exhaust gas. And a sensor unit 210 that senses absorbance of light of a specific wavelength emitted from the light emitter 200, wherein the light emitter 200 and the sensor unit 210 are line of light. Sight) is characterized in that to maintain.

Since the light emitting unit 200 and the sensor unit 210 maintain the LOS, the light rays emitted from the light emitting unit 200 are sensed by going straight to the sensor unit 210, and the combustion target is not burned. When the component (or harmful substance) 225 passes through the LOS of the light beam, the sensor unit 210 is characterized in that the absorbance of the unburned component (or harmful substance) 225 to be reduced is sensed. .

Referring to FIG. 2 according to the exemplary embodiment of the present invention, the light emitting unit 200 and the sensor unit 210 may be configured to emit the exhaust gas through the light transmitting material 215 through the light emitting unit 200 and the sensor unit ( 210) to block the flow into.

Here, the light transmissive material 215 is preferably made of a high temperature exhaust gas and a material stable to vibration.

Referring to FIG. 2 according to an embodiment of the present invention, a predetermined light transmissive coating 220 is formed on an upper layer of the light transmissive material 215 provided in the light emitting unit 200 and the sensor unit 210. Preferably, the light transmissive coating 220 is characterized in that the exhaust gas is prevented from complexing with the light transmissive material 215.

Referring to FIG. 2 according to another embodiment of the present invention, an upper layer of the light transmitting material 215 provided in the light emitting unit 200 and the sensor unit 210 is ignited with the light transmitting material 215. It is preferable that the present invention further comprises a light transmitting combustion layer 220 which heats, burns and removes the exhaust gas. Thus, the present invention is not limited thereto.

Those skilled in the art, the light-transmitting material 215, and / or the light-transmitting coating 220, which is stable to the vibration of the high temperature exhaust gas and the engine of the vehicle, and Since various implementation methods for the light transmissive combustion layer 220 may be inferred, a detailed description thereof will be omitted for convenience.

3 is a diagram illustrating a communication protocol for terrestrial LBS according to an embodiment of the present invention.

3 is a terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring the OBD linked smoke reduction device 100 shown in FIG. 1 in the terrestrial LBS base station shown in FIG. POCSAG communication protocol for accommodating the FCM signal transmitted to the, as a person skilled in the art to which the present invention belongs, each terrestrial wave by referring to and / or modifying the communication protocol shown in Figure 3 Various communication protocols corresponding to signal transmission and reception for providing LBS may be inferred, but the present invention includes all the inferred implementation methods, and is not limited to the POCSAG communication protocol shown in FIG.

For example, those skilled in the art to which the present invention pertains can refer to the POCSAG communication protocol for terrestrial LBS shown in FIG. 3, and use FCM signals using standard POCSAG communication protocols, and / or terrestrial waves in addition to the POCSAG communication protocols. Other communication protocols for LBS may be inferred, but the present invention encompasses all such inferred implementation methods.

Referring to FIG. 3, the communication protocol for accommodating the FCM signal in the terrestrial LBS includes 576 bits or more preambles in a form of repeating '0' and '1', and includes 544 bits. It is made by including one batch (Batch), each batch is characterized in that it comprises one synchronization codeword (Syncronization Cordword).

In this case, the preamble length is a length obtained by adding a predetermined codeword corresponding to one 32-bit size to one batch (544 bits).

The arrangement consists of one sync codeword and eight frames (64 bits) from '0' to '7', and each frame consists of two codewords, wherein the codeword is a sync codeword, And at least one of an address codeword, a message codeword, and an idle codeword.

4 is a diagram illustrating a synchronization codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

4 is a terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring the OBD linked smoke reduction device 100 shown in FIG. 1 in the terrestrial LBS base station shown in FIG. As an example of a configuration of a sync codeword corresponding to an FCM signal transmitted to the present invention, a person of ordinary skill in the art may refer to and / or modify this drawing to correspond to the FCM signal. Various embodiments of the word configuration may be inferred, but the present invention includes all the inferred embodiments and is not limited to the embodiment shown in FIG.

Referring to FIG. 4, the sync codeword corresponding to the FCM signal is composed of 32 bits, and 24 bits of the MSB (Most Significant Bit) side of the 32 bits correspond to all Metro IDs, and the remaining LSB (Least Significant Bit) side of the 32 bits. 8 bits corresponds to the local metro ID.

5 is a diagram illustrating an address codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

5 is a terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring the OBD linked smoke reduction device 100 shown in FIG. 1 in the terrestrial LBS base station shown in FIG. As an example of an address codeword configuration corresponding to the FCM signal transmitted to the present invention, those skilled in the art to which the present invention pertains may refer to, and / or modify, the address code corresponding to the FCM signal. Various embodiments of the word configuration may be inferred, but the present invention includes all the inferred embodiments and is not limited to the embodiment shown in FIG.

Referring to FIG. 5, an address codeword corresponding to the FCM signal is composed of 32 bits, and one bit of the MSB side of the 32 bits is a flag bit and always includes '0' in the case of the address codeword, and the next MSB side 18 The bit corresponds to the address ID, the next 10 bits correspond to the check parity bit, and the remaining LSB side 1 bit corresponds to the even parity bit.

6 is a diagram illustrating a message codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

6 is a terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. 1 in the terrestrial LBS base station shown in FIG. A message codeword configuration corresponding to the FCM signal transmitted to the above is illustrated, and a person of ordinary skill in the art to which the present invention pertains can refer to and / or modify the present figure 6 to modify the message code corresponding to the FCM signal. Various embodiments of word construction may be inferred, but the present invention includes all the embodiments inferred above and is not limited to the embodiment shown in FIG.

Referring to FIG. 6, the message codeword corresponding to the FCM signal is composed of 32 bits, and one bit of the MSB side of the 32 bits is a flag bit and always includes '1' in the case of the message codeword, and the next MSB side 20 Bit corresponds to the message, the next 10 bits correspond to the check parity bit, and the remaining LSB side 1 bit corresponds to the even parity bit.

Herein, the message may include a numeric message and / or a text message. The numeric message may be 5 characters in length, and the text message may be 2 and 6/7 characters in size. Used to fill whitespace when the last message mode word is not filled.

According to an embodiment of the present invention, the OBD-associated smoke reduction device shown in FIG. 1 in the terrestrial LBS base station shown in FIG. 1 to at least one message codeword conforming to the message codeword standard shown in FIG. 100) Preferably, the TDOA-based positioning message transmitted to the terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring is provided, and the terrestrial positioning unit 190 corresponds to a predetermined RCM. Includes predetermined TDOA-based location information corresponding to the TDOA-based location message in the / ECM signal and transmits it to the terrestrial LBS base station.

According to an embodiment of the present invention, the TDOA-based positioning message transmitted from the terrestrial LBS base station to the terrestrial LBS terminal device 150 for the TDOA-based terrestrial LBS may include unique ID information of the terrestrial LBS base station transmitting the FCM signal. It is preferable that the time information including the transmission of the FCM signal.

7 is a diagram illustrating an idle codeword configuration of a communication protocol for terrestrial LBS according to an embodiment of the present invention.

7 is a terrestrial positioning unit 190 provided in the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. 1 in the terrestrial LBS base station shown in FIG. As an example of an idle codeword configuration corresponding to an FCM signal transmitted to the present invention, those skilled in the art to which the present invention pertains may refer to, and / or modify, the idle code corresponding to the FCM signal with reference to FIG. Various embodiments of the word configuration may be inferred, but the present invention includes all the inferred embodiments and is not limited to the embodiment shown in FIG.

The idle codeword corresponding to the FCM signal is a codeword used to satisfy the 544 bit size of the batch when there is no message codeword or address codeword in a specific batch. The idle codeword corresponding to the FCM signal is It is defined as shown in FIG.

8 illustrates a communication protocol for terrestrial LBS according to another embodiment of the present invention.

More specifically, FIG. 8 shows the terrestrial LBS base station shown in FIG. 1 in the terrestrial positioning unit 190 provided in the terrestrial LBS terminal 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. POCSAG communication protocol for accommodating the RCM / ECM signal transmitted to the present invention, those of ordinary skill in the art, reference and / or modification of the communication protocol shown in FIG. Various communication protocols corresponding to the transmission and reception of signals for providing the terrestrial LBS may be inferred, but the present invention includes all the inferred implementation methods, and is not limited to the POCSAG communication protocol shown in FIG.

For example, those skilled in the art to which the present invention pertains may refer to RCM / ECM signals using standard POCSAG communication protocols and / or the POCSAG communication protocols with reference to the POCSAG communication protocol for terrestrial LBS shown in FIG. In addition to other communication protocols for terrestrial LBS may be inferred, but the present invention includes all implementation methods inferred.

Referring to FIG. 8, a communication protocol for accommodating an RCM / ECM signal in the terrestrial LBS includes a total of 127 bits, and a 34-bit preamble in a form of repeating '0' and '1', and 8 It consists of a bit's metro ID, a 23 bit sync word, a 36 bit message and a 27 bit check parity bit.

Here, the message for the RCM signal basically includes a 24-bit data field, an 8-bit message, and at least one parity bit among the 36 bits, and the message for the ECM signal includes a frame number of 4 bits and 18 bits. It consists of a bit address, a two-bit function, an eight-bit message and at least one parity bit.

The message of the RCM / ECM signal is transmitted including the predetermined TDOA-based positioning information transmitted from the terrestrial positioning unit 190 to the terrestrial LBS base station for TDOA-based positioning.

According to an embodiment of the present invention, the TDOA-based positioning information transmitted from the terrestrial LBS terminal 150 to the terrestrial LBS base station for the TDOA-based terrestrial LBS is a terrestrial LBS terminal for transmitting the RCM / ECM signal. And the unique ID information of 150 and time information of receiving the FCM signal transmitted to the terrestrial LBS base station, whereby the terrestrial LBS terminal device 150 is provided through at least one terrestrial LBS base station. The positioning server 198 receiving the at least one RCM / ECM signal transmitted from the mobile station may calculate a position of the terrestrial LBS terminal device 150.

According to another embodiment of the present invention, the TDOA-based positioning information transmitted from the terrestrial LBS terminal 150 to the terrestrial LBS base station for the TDOA-based terrestrial LBS is a terrestrial LBS terminal transmitting the RCM / ECM signal. And the difference between the unique ID information of the device 150, the time included in the FCM signal transmitted to the terrestrial LBS base station, and the time when the terrestrial LBS terminal device 150 receives the FCM signal. Preferably, whereby the positioning server 198 receiving at least one or more of the above RCM / ECM signal transmitted from the terrestrial LBS terminal 150 through at least one terrestrial LBS base station 150 is the terrestrial LBS terminal 150 It is possible to calculate the position for.

According to an exemplary embodiment of the present invention, when the RCM / ECM signal is transmitted to the RCM / ECM signal further including the presence or absence of the smoke reduction device 100 and / or information corresponding to the stripping, the smoke reduction device 100 is abnormal. And / or the information corresponding to the stripping is preferably included by extending the message of the RCM / ECM signal.

Alternatively, the RCM / ECM signal may further include sensing data (or information corresponding to normal operation of the smoke reduction device 100) corresponding to at least one sensing signal sensed by the smoke reduction device 100. In this case, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is preferably included by extending the message of the RCM / ECM signal.

Alternatively, when the sensing data stored in the memory is further included in the RCM / ECM signal, the sensing data may be extended by including the message of the RCM / ECM signal.

According to another exemplary embodiment of the present invention, when a separate RCM / ECM signal for transmitting information corresponding to abnormality and / or stripping of the smoke reduction device 100 is defined, the smoke reduction device 100 is defined. The information corresponding to the abnormality and / or removal of is preferably included in the message of the RCM / ECM signal defined above.

Alternatively, a separate RCM / ECM signal for transmitting sensing data (or information corresponding to normal operation of the smoke reduction device 100) corresponding to at least one sensing signal sensed by the smoke reduction device 100 may be provided. If defined, the sensing data (or information corresponding to the normal operation of the smoke reduction device 100) is preferably included in the message of the defined RCM / ECM signal.

Alternatively, when a separate RCM / ECM signal for transmitting sensing data stored in the memory is defined, the sensing data is preferably included in a message of the defined RCM / ECM signal.

9 is a view showing a removal process of the smoke reduction device 100 according to an embodiment of the present invention.

In more detail, FIG. 9 shows an engine unit in which the smoke reduction device 100 is mounted on the vehicle in the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. If the exhaust gas reducing device 100 is removed from the engine unit and / or the exhaust unit 135 mounted on the vehicle, the exhaust gas reducing device 100 corresponds to the removal of the exhaust gas reducing device 100. Regarding the process of generating information and transmitting it to a predetermined management server, those skilled in the art to which the present invention pertains, remove and remove the smoke reduction device 100 by referring to and / or modifying the drawing 9. It will be possible to infer various implementation methods to confirm, but the present invention includes all the implementation methods inferred, and is not limited to the implementation method shown in FIG.

Hereinafter, in FIG. 9, the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. 1 is referred to as a "device" for convenience, and a stripping sensor unit of the smoke reduction device 100 ( The sensing signal sensed by 115 is referred to as the " extraction signal " for convenience.

Referring to FIG. 9, the apparatus shown in FIG. 1 checks whether a predetermined power source for performing the smoke reduction function and the self-diagnosis function according to the present invention is normally applied from the battery provided in the vehicle (900).

If the power-up validity is not authenticated (905), the device generates a predetermined power-up validity error information (or smoke warning device removal warning message) (910), provided in the area where the device is located In operation 915, a predetermined FCM signal is received from at least two terrestrial LBS base stations.

If a predetermined FCM signal is received from at least two terrestrial LBS base stations (920), the device is the power supply validity error information (or smoke reduction device 100) generated in the predetermined RCM / ECM signal corresponding to the FCM signal. ) And / or the RCM / ECM signal including the OBD diagnostic information (930) after the power-up validity error information (or smoke reduction device 100 removal warning message) and / or the OBD diagnostic information. The power supply validity error information (or smoke abatement device 100 stripping warning message) and / or the OBD diagnostic information transmitted to the terrestrial base station (935) and included in the RCM / ECM signal are predetermined through the terrestrial LBS backbone. Sent to the management server.

According to an embodiment of the present invention, when the power supply validity error information (or smoke reduction device 100 removal warning message) and / or OBD diagnostic information are further included in the RCM / ECM signal, the power supply validity is transmitted. Error information (or smoke abatement device 100 removal warning message) and / or OBD diagnostic information is preferably included by extending the message of the RCM / ECM signal.

According to another embodiment of the present invention, when a separate RCM / ECM signal for transmitting the power-up validity error information (or smoke reduction device 100 removal warning message) and / or OBD diagnostic information is defined, the power supply Authorization valid error information (or smoke abatement device 100 removal warning message) and / or OBD diagnostic information is preferably included in the message of the RCM / ECM signal defined above.

On the other hand, if the power supply validity is authenticated (905), the device checks whether the removal signal for the smoke reduction device 100 is collected from the stripping sensor unit 115 provided in the smoke reduction device (100) (940). ).

If the removal signal for the smoke reduction device 100 is not collected (945), the device checks the validity of the power supply and periodically checks whether the removal signal for the smoke reduction device 100 is collected. Repeat with

On the other hand, when the stripping signal for the smoke reduction device 100 is collected (945), the device generates information corresponding to the removal of the smoke reduction device 100 (950), and is provided in the area where the device is located In operation 955, it is determined whether a predetermined FCM signal is received from at least two terrestrial LBS base stations.

If a predetermined FCM signal is received from at least two terrestrial LBS base stations (960), the device obtains at least one OBD diagnostic information from an OBD device 197 provided in the vehicle (965), and the FCM signal After the information corresponding to the removal of the smoke reduction device 100 and / or the OBD diagnostic information is included in a predetermined RCM / ECM signal corresponding to 970, information corresponding to the removal of the smoke reduction device 100, and And / or transmit an RCM / ECM signal including OBD diagnostic information to the terrestrial LBS base station (975), and information corresponding to the removal of the smoke reduction device 100 including the RCM / ECM signal and / or OBD diagnosis. Information is transmitted to a predetermined management server via the terrestrial LBS backbone.

According to an exemplary embodiment of the present invention, when the RCM / ECM signal is further transmitted with information corresponding to the removal of the smoke reduction device 100 and / or OBD diagnostic information, the removal of the smoke reduction device 100 is performed. The information corresponding to and / or the OBD diagnostic information is preferably included by extending the message of the RCM / ECM signal.

According to another exemplary embodiment of the present invention, when a separate RCM / ECM signal for transmitting information corresponding to the removal of the smoke reduction device 100 and / or OBD diagnostic information is defined, the smoke reduction device 100 is defined. The information corresponding to the removal of and / or the OBD diagnostic information is preferably included in the message of the RCM / ECM signal defined above.

FIG. 10 is a view illustrating a process of monitoring the smoke reduction device 100 of the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 according to an exemplary embodiment of the present invention.

In more detail, in FIG. 10, the OBD-linked smoke reduction device 100 shown in FIG. 1 diagnoses and confirms an abnormality of the smoke reduction device 100 in the terrestrial LBS terminal device 150 for monitoring. When an abnormality occurs in the smoke reduction device 100, it is a process of generating information corresponding to the smoke reduction device 100 or more and transmitting the same to a predetermined management server. If you have a person, with reference to and / or modifying the present figure 10 can infer various implementation methods for the process of monitoring the smoke reduction device 100 of the terrestrial LBS terminal 150 for monitoring the OBD-associated smoke reduction device (100). As will be appreciated, the present invention includes all the inferred implementation methods, and is not limited to the implementation method illustrated in FIG.

Hereinafter, in FIG. 10, the terrestrial LBS terminal device 150 for monitoring the OBD-associated smoke reduction device 100 shown in FIG. 1 is referred to as a “device” for convenience.

Referring to FIG. 10, the apparatus shown in FIG. 1 periodically checks whether or not a predetermined exhaust gas flows into the smoke reduction device 100 (1000).

According to an exemplary embodiment of the present invention, the apparatus shown in FIG. 1 may periodically check the temperature sensor and / or pressure sensor change of the inflow sensor 110 of the smoke reduction device 100 shown in FIG. In addition, it is preferable to periodically check whether a predetermined exhaust gas flows into the smoke reduction device 100.

If it is confirmed that a predetermined exhaust gas flows into the smoke reduction device 100 (1005), the device is at least one sensing signal (or sensing for checking the smoke reduction function validity of the smoke reduction device 100) Data) is collected (1010) and the collected at least one sensing signal (or sensing data) is read to confirm the effectiveness of the smoke reduction function (1015).

The apparatus is configured to read sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow side sensor unit 110 of the smoke reduction apparatus 100, thereby reducing smoke 105 of the smoke reduction apparatus 100. It is preferable to check whether the exhaust gas temperature flowing into the ()) includes an appropriate temperature for reducing the smoke.

For example, even after a predetermined time (eg, engine heating time) has elapsed from the engine unit of the vehicle, the exhaust gas temperature flowing into the smoke reduction unit 105 does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). In winter, such as to maintain the sub-zero temperature range, the device is a smoke reduction unit 105 of the smoke reduction device 100 through the control function (not shown) of the smoke reduction device 100 of the terrestrial LBS terminal device 150. ), The exhaust gas temperature may be heated (for example, an exhaust gas heater (not shown) may be provided on the inflow side of the smoke reduction device 100 to heat the exhaust gas temperature).

In addition, even if the ambient temperature of the vehicle maintains the room temperature, if the temperature of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 does not include the appropriate temperature required for the reduction of smoke, the device is It can be confirmed that an abnormality has occurred in the engine of the vehicle.

When it is confirmed that an abnormality has occurred in the engine, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the temperature sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the smoke of the smoke reduction device 100 It is preferable to confirm whether the exhaust gas temperature which flows out from the 105 includes the effective temperature after performing the smoke reduction function of the smoke reduction unit 105.

For example, the smoke reduction unit 105 of the smoke reduction device 100 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to check whether the soot reduction device 100 is abnormal by checking whether the temperature after the reburn corresponds to the heating temperature, and if the temperature after the reburn corresponds to the heating temperature. If not, the apparatus confirms that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor 110 of the smoke reduction device 100 and a temperature sensor of the outflow sensor 120. By comparing the sensing data corresponding to the sensed sensing signal, by checking the temperature change of the exhaust gas passing through the smoke reduction device 100, respectively corresponding to the smoke reduction unit 105 of the smoke reduction device 100 It is desirable to check whether any abnormality occurs in the smoke reduction function according to the smoke reduction method.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the pressure sensor of the inflow-side sensor unit 110 of the smoke reduction device 100, thereby reducing the smoke of the smoke reduction device 100 It is preferable to confirm whether the exhaust gas pressure flowing into the 105 includes an appropriate pressure necessary for reducing the smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 105 does not include an appropriate pressure required to reduce the smoke, the device may control the smoke reduction device 100 of the terrestrial LBS terminal device 150 (not shown). Pressurize the pressure of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 through the exhaust gas pressurizing unit (not shown) on the inlet side of the smoke reduction device 100. To pressurize the exhaust gas pressure.

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 105 of the smoke reduction device 100 does not include an appropriate pressure required to reduce the smoke, the device may determine that an abnormality has occurred in the exhaust pipe of the vehicle. have.

When it is confirmed that a malfunction occurs in the exhaust pipe of the vehicle, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by the pressure sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the smoke of the smoke reduction device 100. It is preferable to check whether the exhaust gas pressure which flows out from the 105 includes the effective pressure after performing the smoke reduction function of the smoke reduction unit 105.

For example, the smoke reduction unit 105 of the smoke reduction device 100 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 100 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not corresponding, the apparatus confirms that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 105 of the smoke reduction device 100, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by a pressure sensor of the inflow sensor 110 of the smoke reduction device 100 and a pressure sensor of the outflow sensor 120. By comparing the sensing data corresponding to the sensed sensing signal, by checking the pressure change of the exhaust gas passing through the smoke reduction device 100, respectively corresponding to the smoke reduction unit 105 of the smoke reduction device 100 It is desirable to check whether any abnormality occurs in the smoke reduction function according to the smoke reduction method.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the inflow sensor 110 of the smoke reduction device 100, thereby reducing the smoke of the smoke reduction device 100 It is preferable to check whether there are any unburned components (or harmful substances) to be reduced in the smoke reduction unit 105 among the unburned components (or harmful substances) included in the exhaust gas flowing into the 105.

For example, when the exhaust gas flowing into the smoke reduction unit 105 is absorbed by light of a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the apparatus is configured to filter the smoke of the smoke reduction device 100. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing into the reduction unit 105.

In addition, the device analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the inflow sensor 110 of the smoke reduction device 100, thereby reducing the unburned components (or harmful substances) to be reduced. It is preferable to calculate the amount of.

For example, when the exhaust gas flowing into the fume reducing unit 105 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time period, By substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of the unburned component (or harmful substance) to be reduced is calculated. .

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the smoke of the smoke reduction device 100 Among the unburned components (or harmful substances) contained in the exhaust gas flowing out of the 105, it is preferable to check whether the reduced unburned components (or harmful substances) exist after being reduced by the smoke reduction unit 105. Do.

For example, when the exhaust gas flowing out to the smoke reduction unit 105 is absorbed by light rays having a wavelength corresponding to the reduction target unburned component (or noxious substance), the device is a smoke of the smoke reduction device 100. It is confirmed that the unburned component (or noxious substance) to be reduced is contained in the exhaust gas flowing out from the reduction unit 105.

According to the embodiment of the present invention, the smoke reduction unit 105 of the smoke reduction device 100 is designed to remove almost all of the unburned components (or harmful substances) to be reduced, but the smoke reduction device 100 In the case where the exhaust gas flowing out of the smoke reduction unit 105 includes the unburned component (or harmful substance) to be reduced, the apparatus is abnormal to the smoke reduction unit 105 of the smoke reduction apparatus 100. It is confirmed that it has occurred (or that the smoke reduction unit 105 of the smoke reduction device 100 needs to be replaced).

When it is confirmed that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the device analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the outflow sensor 120 of the smoke reduction device 100, thereby reducing the unburned components (or harmful substances) to be reduced. It is preferable to calculate the amount of.

For example, when the exhaust gas flowing out to the smoke reduction unit 105 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time period, By substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of the unburned component (or harmful substance) to be reduced is calculated. .

According to the embodiment of the present invention, the smoke reduction unit 105 of the smoke reduction device 100 is designed to remove a part of the reduction target unburned components (or harmful substances), but the smoke reduction device 100 If the amount of unburned components (or harmful substances) to be reduced included in the exhaust gas flowing out of the smoke reduction unit 105 does not reduce the designed reference amount, the apparatus reduces the smoke of the smoke reduction device 100. It is confirmed that the abnormality has occurred in the unit 105 (or that the smoke reduction unit 105 of the smoke reduction device 100 needs to be replaced).

If it is determined that the amount of the at least one unburned component (or noxious substance) to be reduced is included in the exhaust gas by more than a reference amount, the device receives at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to obtain.

The apparatus may further include sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inflow sensor 110 of the smoke reduction device 100 and an absorbance sensor of the outflow sensor 120. By comparing the sensing data corresponding to the sensed sensing signal, the performance of the smoke reduction unit 105 of the smoke reduction device 100 is confirmed, and when the performance falls below a reference value, the smoke reduction device 100 It is confirmed that an abnormality has occurred in the smoke reduction unit 105 (or that the smoke reduction unit 105 needs to be replaced in the smoke reduction apparatus 100).

When it is confirmed that the performance of the smoke reduction unit 105 of the smoke reduction device 100 falls below a reference value, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

If the validity of the smoke reduction function is not authenticated (1020), the device generates information corresponding to the smoke reduction function abnormality of the smoke reduction device 100 (1025) and is provided in the area where the device is located. In operation 1030, a predetermined FCM signal is received from at least two terrestrial LBS base stations.

If a predetermined FCM signal is received from at least two terrestrial LBS base stations (1035), the device obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle (1040), and the FCM signal After the information corresponding to the generated smoke reduction function abnormality and / or OBD diagnostic information is included in a predetermined RCM / ECM signal corresponding to 1045, information corresponding to the smoke reduction function abnormality and / or OBD diagnostic information The RCM / ECM signal is transmitted to the terrestrial base station (1050), and the information corresponding to the abnormality reduction function included in the RCM / ECM signal is transmitted to a predetermined management server via the terrestrial LBS backbone.

According to an embodiment of the present invention, when the RCM / ECM signal is further transmitted with information corresponding to the smoke reduction function or more and / or OBD diagnosis information, information corresponding to the smoke reduction function abnormality and / or OBD diagnostic information is preferably included by extending the message of the RCM / ECM signal.

According to another exemplary embodiment of the present invention, when a separate RCM / ECM signal for transmitting information corresponding to the smoke reduction function abnormality and / or OBD diagnostic information is defined, information corresponding to the smoke reduction function abnormality and / Alternatively, the OBD diagnostic information may be included in the message of the RCM / ECM signal defined above.

On the other hand, if the validity of the smoke reduction function is authenticated (1020), the device stores (1055) at least one or more sensing data collected (or corresponding to the normal operation of the smoke reduction function) in the memory. It is checked whether the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory is transmitted to a predetermined management server through the wireless communication network (1060).

If the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory has not yet been transmitted to the management server (1065), the device sends a predetermined exhaust gas to the smoke reduction device 100. The process of acquiring and reading at least one sensing signal (or sensing data) for confirming the flow rate and checking the effectiveness of the smoke reduction function is repeated.

On the other hand, if the sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) is transmitted to the management server (1065), the device is at least two terrestrial LBS base station provided in the area where the device is currently located It is checked whether a predetermined FCM signal is received from 1070.

If a predetermined FCM signal is received from at least two terrestrial LBS base stations (1075), the device obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle (1080), and the FCM signal After the sensing data stored in the generated memory (or information corresponding to the normal operation of the smoke reduction function) and / or OBD diagnostic information is included in a predetermined RCM / ECM signal corresponding to (1085), the stored data is stored in the memory. The RCM / ECM signal including sensing data (or information corresponding to the normal operation of the smoke reduction function) and / or OBD diagnostic information is transmitted to the terrestrial base station (1090), and the RCM / ECM signal is stored in the memory. Stored sensing data (or information corresponding to the normal operation of the smoke reduction function) and / or OBD diagnostic information are transferred to a predetermined management server via the terrestrial LBS backbone. It is.

According to an embodiment of the present invention, when the RCM / ECM signal further includes sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) and / or OBD diagnostic information, the memory is transmitted. Sensing data (or information corresponding to the normal operation of the smoke reduction function) and / or OBD diagnostic information stored in the RCM / ECM signal may be included in the message.

According to another exemplary embodiment of the present invention, when a separate RCM / ECM signal for transmitting sensing data (or information corresponding to normal operation of the smoke reduction function) and / or OBD diagnostic information stored in the memory is defined, The sensing data (or information corresponding to the normal operation of the smoke reduction function) and / or the OBD diagnostic information stored in the memory may be included in the message of the defined RCM / ECM signal.

FIG. 11 is a diagram illustrating a function configuration of a GPS-based LBS terminal device 1150 having an OBD linked smoke reduction device 1100 monitoring function according to an exemplary embodiment of the present invention.

In more detail, FIG. 11 shows whether the smoke reduction function is abnormal and / or is removed by using at least one sensor, and at least one smoke reduction function is abnormal, and / or when the separation occurs, the OBD ( In connection with On-Board Diagnostics, it monitors whether there is an abnormality and / or removal of the smoke reduction device 1100 provided in the vehicle, and transmits corresponding information to a predetermined management server 1198 through a wireless communication network. The OBD-associated smoke reduction device (1100) as a GPS-based LBS terminal device having a monitoring function 1150 function configuration, if the person skilled in the art to which the present invention pertains, refer to this figure 11 It is possible to infer various implementation methods for the GPS-based LBS terminal device 1150 function having the OBD-associated smoke reduction device 1100 monitoring function by modifying it, but the present invention. It includes both embodiments in which the inference method, not limited to the exemplary method shown in the figure 11.

For example, FIG. 11 shows that the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 is connected to an engine unit and / or an exhaust unit 1135 provided in a predetermined vehicle through a predetermined interface means. A GPS-based device which is connected to a smoke reduction device 1100 (and / or various sensors provided in the flame reduction device) to reduce the smoke of the vehicle and performs a self-diagnosis and control function for the smoke reduction device 1100. Although illustrated and described as having an LBS terminal device 1150, the present invention is by no means limited thereto.

For example, the smoke reduction device 1100 and the GPS-based LBS terminal device 1150 illustrated in FIG. 11 may be heat dissipated to heat emitted from an integrated device (eg, the vehicle engine unit and / or the exhaust unit 1135). It is possible to be configured in the form (apparatus provided in a predetermined case) having a function, and / or anti-vibration function, by which the present invention is not limited.

In addition, among the GPS-based LBS terminal device 1150 shown in Figure 11 is connected to the smoke reduction device 1100 (and / or various sensors provided in the flame reduction device) for the smoke reduction device 1100 The functional component for performing the self-diagnostic and control functions is separated into a separate self-diagnostic device to self-diagnose the smoke reduction device 1100, and the GPS-based LBS terminal device 1150 is connected to the self-diagnostic device By diagnosing the state of the smoke reduction device 1100, it is possible to check whether there is an abnormality and / or removal, and the present invention is not limited thereto.

In addition, when the self-diagnostic apparatus is separated from the GPS-based LBS terminal apparatus 1150 illustrated in FIG. 11 as described above, the self-diagnostic apparatus and the smoke abatement apparatus 1100 are integrated into one device (for example, the vehicle engine unit). And / or a device provided in a predetermined case having a heat dissipation function and / or an anti-vibration function for the heat discharged from the exhaust part 1135), whereby the present invention It is not limited.

In addition, the GPS-based LBS terminal device 1150 shown in FIG. 11 may be provided integrally with the OBD device 100 (or ECU device) provided in the vehicle, and thus the present invention is not limited thereto. .

In addition, when the vehicle is equipped with a separate communication function in addition to the GPS-based LBS terminal device 1150, the GPS-based LBS terminal device 1150 is the abnormality of the smoke reduction device 1100 through the communication function and It is possible to be configured in the form of transmitting the information corresponding to the removal to the management server (1198), whereby the present invention is not limited.

Referring to FIG. 11 according to an embodiment of the present invention, the GPS-based LBS terminal apparatus 1150 having the OBD-associated smoke reduction device 1100 monitoring function is provided in a predetermined vehicle through a predetermined interface means. The smoke reduction device 1100 connected to the smoke reduction device 1100 (and / or various sensors included in the emission reduction device) provided in the engine unit and / or the exhaust unit 1135 to reduce the smoke of the vehicle. To perform the self-diagnostic and monitoring function for the smoke reduction device 1100, at least one or more smoke reduction function abnormality and / or when the removal occurs, and responds to the presence or absence of abnormality and / or removal of the smoke reduction device 1100 Characterized in that it comprises a GPS-based Location Base System (LBS) terminal for transmitting the information to a predetermined management server (1198) via a wireless communication network.

The vehicle equipped with the GPS-based LBS terminal device 1150 equipped with the OBD-associated smoke reduction device 1100 according to the present invention monitors the state of the engine unit and the transmission that may affect the at least one sensor. OBD (On-Board Diagnostics) device for self-diagnosis is provided.

Although there are some differences among manufacturers of vehicles, most OBS devices are provided with a serial port for providing the OBD diagnostic information to at least one external device. The GPS-based LBS terminal device 1150 according to the present invention is provided. ) Is connected to the OBD device 197 provided in the vehicle through a predetermined serial communication, thereby obtaining at least one OBD diagnostic information from the OBD device 197.

Referring to the regulations of the currently commercialized OBD-II, the OBD device 197 that satisfies the OBD-II standard diagnoses the parts and the cause when the vehicle exhaust gas increases due to the failure of the parts and the like. Malfunction Indicator Lamp (MIL) should be turned on and fault information corresponding to the above diagnosis result should be confirmed by standard diagnosis equipment.

In more detail, the OBD device 197 that satisfies the OBD-II standard should turn on a warning light before the exhaust gas reaches 1.5 times the legal limit due to the failure or degradation of the following parts provided in the vehicle. II Target parts include catalyst purification rate (except catalyst purification rate is HC emission only, phase-in applied from TLEV to 1.75 times HC limit), MISFIRE, EGR system, O2 sensor, fuel system, secondary Normal operation of all sensors and actuators used in the 2nd Air System, or engine control, and diagnosis of wire breaks or short circuits, or full Evapo. Diagnosis of leaks in the system, or failure diagnosis when the PCV valve and the crankcase are disconnected or between the PCV valve and the intake manifold, or within a certain time after starting the engine This may include thermostat failure diagnosis when the temperature cannot be reached to diagnose the item.

That is, the OBD device 197 is an unburned material of the exhaust gas at the front end of the engine unit and / or the exhaust unit 1135 (for example, fuel injection and engine operation and transmission, etc.) equipped with the smoke reduction device according to the present invention. And / or a function of diagnosing an increase in harmful substances.

Those skilled in the art to which the present invention pertains include technical features of the OBD device 197 that satisfies the OBD-II standard, the OBD diagnosis items diagnosed by the OBD device 197, and each diagnosis item. The technical features of the corresponding OBD diagnostic information and the technical features of acquiring at least one OBD diagnostic information through serial communication from the OBD device 197 will be understood. Therefore, a detailed description thereof will be omitted for convenience.

Referring to FIG. 11, the smoke reduction device 1100 includes a smoke reduction unit 1105 provided in an engine unit and / or an exhaust unit 1135 in the vehicle to reduce the smoke of the vehicle, and the smoke reduction unit ( An inlet side sensor unit 1110 provided at an inlet of 1105 for sensing the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1105, and / or for sensing the exhaust gas compound; An outlet side sensor unit 1120 provided at an outlet of the smoke reduction unit 1105 to sense a temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1105, and / or to sense the exhaust gas compound ), A stripping sensor unit 1115 for sensing whether the smoke reduction device 1100 is removed from the engine unit and / or the exhaust unit 1135, and at least one sensed by the sensor unit through a predetermined interface means. GPS based LBS over sensing signal And an interface unit 1125 provided to the terminal device 1150.

In addition, the smoke reduction device 1100 is a power required for the smoke reduction unit 1105 to perform the smoke reduction function, and / or the inlet side sensor unit 1110 flows into the smoke reduction unit 1105. The power required to sense the temperature and / or pressure of the exhaust gas, and / or the exhaust gas compound, and / or the exhaust gas from the exhaust gas reducing unit 1105 from the outlet side sensor unit 1120. The power required to sense the temperature and / or pressure of the gas, and / or the exhaust gas compound, and / or the stripping sensor unit 1115, the smoke reduction device 1100 is the engine unit and / or A power required to sense whether the exhaust unit 1135 is removed from the exhaust unit 1135, and / or a power required to provide the self-diagnostic apparatus with the interface unit 1125 to at least one sensing signal to the smoke reduction device 1100.And further comprising a power source for applying (1140) characterized by comprising.

In general, the power generation principle of a vehicle includes an engine unit having at least one cylinder, a piston, and a device for converting the reciprocating motion of the piston into a rotational motion, injecting air and fuel into the cylinder in the engine, By reciprocating the piston with the explosive force generated by using or by compression ignition, the power transmission device connected to it comprises the rotation of the wheel of the vehicle by transforming the reciprocating motion into a rotational movement, such power generation In the process, about 200-300 ° C. of exhaust gas is generated, and the exhaust gas flows into an exhaust unit provided in the vehicle through an exhaust gas manifold provided in the engine unit, and the introduced exhaust gas flows. Is discharged to the atmosphere through the exhaust pipe and the silencer constituting the exhaust.

According to the exemplary embodiment of the present invention, the smoke reduction device 1100 explodes by exploding the mixture of fuel and air by using a spark plug or compression ignition in a cylinder of an engine unit provided in the vehicle, and then exhaust gas corresponding thereto. May be provided at any of the engine unit and / or the exhaust unit 1135 to reduce the soot of the exhaust gas before being discharged from the engine unit to the atmosphere via the exhaust unit, whereby the present invention is not limited thereto. No.

According to the exemplary embodiment of the present invention, the smoke reduction device 1100 is preferably provided at a position at which the exhaust gas generated in the engine unit flows into the exhaust unit, whereby the present invention is not limited thereto.

According to another exemplary embodiment of the present invention, the smoke reduction device 1100 may include a specific position of the exhaust portion (eg, the exhaust portion) that passes through the exhaust gas generated from the engine portion to the exhaust portion and then discharges to the atmosphere. Exhaust pipe constituting the part, or a silencer), and the present invention is not limited thereby.

According to another exemplary embodiment of the present invention, the exhaust gas reducing device 1100 is a terminal end position of the exhaust portion (eg, the exhaust portion) after exhaust gas generated in the engine portion flows into the exhaust portion and is discharged to the atmosphere. Exhaust pipes or exhaust ports of silencers), and the present invention is not limited thereby.

The smoke reduction unit 1105 constituting the smoke reduction device 1100 performs a function of reducing the smoke contained in the exhaust gas in the engine unit and / or the exhaust unit 1135 provided in a predetermined vehicle. It features.

The method for reducing the smoke of the exhaust gas by the smoke reduction unit 1105 may include one of a method of reducing smoke through recombustion of the exhaust gas, or a method of reducing smoke through a catalytic converter.

According to an exemplary embodiment of the present invention, the method for reducing smoke through the catalytic converter includes applying a platinum or rare earth metal material, which is a catalyst, to a predetermined ceramic filter in the smoke reduction unit 1105, thereby selecting an appropriate temperature (eg, , 200 to 300 ° C.), and a method for reducing the unburned components of the exhaust gas.

In addition, a method for reducing smoke using reburning of the exhaust gas includes a method of conveying a part of the exhaust gas from the smoke reduction unit 1105 to the engine unit to reburn unburned components, and the smoke reduction unit 1105. The method may include any one of a method of igniting an unburned component of the exhaust gas through a predetermined ceramic filter and then heating (for example, heating it to 550 ° C. or more) to reburn it, thereby limiting the present invention. Not.

According to the exemplary embodiment of the present invention, the soot reduction part 1105 may include at least one of a diesel particulate filter (DPF) and / or a diesel oxidation catalyst (DOC).

Those skilled in the art to which the present invention pertains, since the smoke reduction unit 1105 will be familiar with the technical features of various implementation methods for reducing the smoke of the exhaust gas, a detailed description thereof Although omitted for convenience, the present invention is not limited thereto, and the present invention includes all types of soot reduction methods.

The exhaust gas inlet of the smoke reduction unit 1105 constituting the smoke reduction device 1100 senses the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1105, and / or the exhaust And an inflow sensor unit 1110 for sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in a gas compound, and the inflow sensor unit 1110 The function of the is characterized in that for the exhaust gas generated in the engine unit senses the exhaust gas state before the unburned component is reduced through the soot reduction unit 1105.

According to the exemplary embodiment of the present invention, the inflow-side sensor unit 1110 is provided with a temperature sensor for sensing the temperature of the exhaust gas flowing into the smoke reduction unit 1105, wherein the temperature sensor is It is preferable to include an element in which at least one or more electrical characteristics of the resistance value, the current value, or the voltage value are determined in proportion to the temperature.

In addition, the inlet sensor 1110 is provided with a pressure sensor for sensing the pressure of the exhaust gas flowing into the smoke reduction unit 1105, wherein the pressure sensor is a resistance in proportion to the pressure It is preferable to include an element for determining at least one or more electrical characteristics of a value, a current value, or a voltage value.

In addition, the inlet-side sensor unit 1110 may include a qualitative analysis signal for identifying whether a specific hazardous substance corresponding to an unburned component is present among the compounds corresponding to the exhaust gas flowing into the smoke reduction unit 1105, and / or the Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount of a specific hazardous substance.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of light of a material) for light of a particular wavelength (e.g., infrared, visible, ultraviolet, etc.). The absorption sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or senses the absorbance of the light ray. It is characterized in that for confirming the amount of the harmful substances in the exhaust gas, a preferred embodiment of the light absorption sensor is as shown in FIG.

The exhaust gas outlet of the smoke reduction unit 1105 constituting the smoke reduction device 1100 senses the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1105, and / or the exhaust And an outflow side sensor unit 1120 for sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in the gas compound, and the outflow side sensor unit 1120. The function of the after the exhaust gas generated in the engine is characterized in that for sensing the exhaust gas state after the at least one unburned component is reduced by passing through the soot reduction unit 1105.

According to the method of the present invention, the outflow side sensor unit 1120 is characterized by comprising a temperature sensor for sensing the temperature of the exhaust gas flowing out of the smoke reduction unit 1105, wherein the temperature sensor is It is preferable to include an element in which at least one or more electrical characteristics of the resistance value, the current value, or the voltage value are determined in proportion to the temperature.

In addition, the outflow side sensor unit 1120 is characterized in that it comprises a pressure sensor for sensing the pressure of the exhaust gas flowing out from the smoke reduction unit 1105, wherein the pressure sensor is a resistance in proportion to the pressure It is preferable to include an element for determining at least one or more electrical characteristics of a value, a current value, or a voltage value.

In addition, the outflow-side sensor unit 1120 may include a qualitative analysis signal for identifying whether a specific hazardous substance corresponding to the unburned component is present among the compounds corresponding to the exhaust gas flowing out of the smoke reduction unit 1105, and / or the Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount of a specific hazardous substance.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of light of a material) for light of a particular wavelength (e.g., infrared, visible, ultraviolet, etc.). The absorption sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or senses the absorbance of the light ray. It is characterized in that for confirming the amount of the harmful substances in the exhaust gas, a preferred embodiment of the light absorption sensor is as shown in FIG.

The stripping sensor unit 1115 constituting the smoke reduction device 1100 senses whether the smoke reduction device 1100 is removed from the engine unit and / or the exhaust unit 1135.

According to an exemplary embodiment of the present invention, when the engine part and / or the exhaust part 1135 on which the particulate smoke reducing device 1100 is mounted are made of a predetermined conductive material, the stripping sensor part 1115 may include at least two electrical parts. The contact point 1130 is electrically connected to the engine part and / or the exhaust part 1135 when the smoke reduction device 1100 is mounted on the engine part and / or the exhaust part 1135. After the contact is made, a predetermined electricity flows to the contact point 1130, and the smoke reduction device 1100 detects a change in a resistance value, a current value, or a voltage value with respect to the applied electricity. It is preferable to sense whether the engine unit and / or the exhaust unit 1135 is removed.

The sensing signal sensed by the inflow side sensor unit 1110, the outflow side sensor unit 1120, and the stripping sensor unit 1115 may be an analog signal including at least one of a resistance value, a current value, or a voltage value. The interface unit 1125 constituting the smoke reduction device 1100 provides the sensing signal to the GPS-based LBS terminal device 1150 through a predetermined interface means. do.

According to an exemplary embodiment of the present invention, the interface unit 1125 for providing the sensing signal to the GPS-based LBS terminal device 1150 may provide the sensing signal in the form of the analog signal through an interface means including a predetermined wire. It is preferable to provide to the GPS-based LBS terminal device 1150, wherein the analog signal is converted into a digital signal by a predetermined analog to digital converter (ADC) provided in the GPS-based LBS terminal device (1150) desirable.

According to another exemplary embodiment of the present invention, the interface unit 1125 for providing the sensing signal to the GPS-based LBS terminal device 1150 converts the sensing signal of the analog signal form into a digital signal through a predetermined ADC. Then, it is preferable to provide the digital signal to the GPS-based LBS terminal device 1150 through an interface means including a predetermined wire (or data bus).

The power supply unit 1140 provided in the smoke reduction device 1100 is required for the smoke reduction unit 1105 to perform the smoke reduction function from a predetermined power supply unit 1145 including a battery included in the vehicle. A power source and / or a power source required for sensing the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1105, and / or sensing the exhaust gas compound; And / or the power source required for sensing the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1105 by the outlet side sensor unit 1120 and / or sensing the exhaust gas compound, and / Or a power source required to sense whether the stripping sensor unit 1115 removes the smoke reduction device 1100 from the engine unit and / or the exhaust unit 1135, and / or the interface unit 1125 includes at least one It is characterized in that for applying the power required to provide a sensing signal to the self-diagnostic apparatus, etc. to the smoke reduction device 1100.

According to the exemplary embodiment of the present invention, the power supply unit 1140 may further include a function of charging power applied from a predetermined power supply unit 1145 including a battery provided in the vehicle. Even if power is not applied from a predetermined power supply unit 1145 including a battery provided in a vehicle, the stripping sensor unit 1115 removes the smoke reduction device 1100 from the engine unit and / or the exhaust unit 1135. It is preferable that the power required to sense whether or not, and / or the power required to provide at least one sensing signal to the self-diagnostic apparatus by the interface unit 1125 to the smoke reduction device 1100.

According to the exemplary embodiment of the present invention, the power supply unit 1140 includes at least one of a current value or a voltage value corresponding to the power applied from a predetermined power supply unit 1145 including a battery provided in the vehicle. By providing a signal to the GPS-based LBS terminal device 1150 through the interface unit 1125, a predetermined power supply from the predetermined power supply unit 1145 including a battery provided in the vehicle, the smoke reduction device 1100 It is preferable to process to make sure that is applied.

Referring to FIG. 11, the GPS-based LBS terminal device 1150 may include a location positioning unit 1155 for positioning a current location based on a global positioning system (GPS), and the smoke reduction device 1100 through a predetermined interface means. A signal collection unit 1190 for collecting at least one sensing signal sensed by the first and second communication channels; and a communication channel connected to the management server 1198 through a predetermined wireless communication network, and the management server 1198 through the communication channel. The wireless communication unit 1195 for transmitting and receiving at least one or more information (or data), the memory unit 1196 for storing at least one or more sensing data corresponding to the sensing signal collected by the signal collection unit 1190 and the Read the at least one sensing signal collected through the signal collector 1190 to determine whether the smoke reduction device 1100 abnormality and / or removal, and to the smoke reduction device 1100 If abnormality and / or removal is confirmed, information corresponding to the abnormality and / or removal of the smoke reduction device 1100 is generated and provided to the wireless communication unit 1195, and / or the memory unit 1196. The control unit 1165 comprises a GPS-based LBS terminal device 1150 to store in the.

According to the present invention, the GPS-based LBS terminal device 1150 is at least from the OBD device 197 (for example, OBD device 197 conforming to the OBD-II or higher standard) provided in the vehicle through a predetermined serial communication Characterized in that it further comprises an information acquisition unit 1160 for obtaining one or more OBD diagnostic information.

According to an embodiment of the present invention, the information acquisition unit scans at least one information collected by the OBD device from an external communication serial port provided in the OBD device through a predetermined OBD scan protocol standard defined in the OBD device. It is preferable to obtain the OBD diagnostic information.

According to another exemplary embodiment of the present invention, the information acquisition unit is electrically connected to a wire for applying a predetermined MIL lighting power (or signal) to the at least one warning light (MIL) provided in the vehicle in the OBD device. Generating an OBD diagnostic information corresponding to the warning light MIL from the OBD device by generating a trigger corresponding to a power applied to the warning light MIL in the OBD device, and / or in the OBD device; It is preferable to obtain OBD diagnostic information corresponding to the warning light (MIL) from the OBD device through a signal transmitted to MIL).

Positioning unit 1155 constituting the GPS-based LBS terminal 1150 is characterized in that it comprises a GPS chip set, the horizon of the current location where the vehicle equipped with the GPS-based LBS terminal 1150 is located Receiving at least one satellite transmission signal required for GPS-based position calculation from at least four GPS satellites located in the air based on a coordinate system, and the GPS-based LBS terminal device 1150 is provided from the satellite transmission signal It is characterized by positioning the current position.

Those skilled in the art to which the present invention belongs, the position location unit 1155 receives at least one satellite transmission signal to position the current position of the vehicle equipped with the GPS-based LBS terminal device 1150 Since it will be familiar with the technical features, a detailed description thereof will be omitted for convenience.

In addition, the position location unit 1155 may be positioned based on Assisted Global Positioning System (A-GPS) or positioning based on DGPS (Difference GPS) for more accurate positioning, thereby limiting the present invention. Not.

The signal collection unit 1190 constituting the GPS-based LBS terminal device 1150 is electrically connected to the interface unit 1125 of the smoke reduction device 1100 through a predetermined interface means. Collecting at least one sensing signal from the reduction device 1100.

According to an embodiment of the present invention, when the GPS-based LBS terminal 1150 is provided with a cradle near the driver's seat of the vehicle (eg, when the GPS-based LBS terminal 1150 includes a navigation function), The GPS-based LBS terminal device 1150 may include a screen output unit for outputting the state of the smoke reduction device 1100, or at least one LED (Light Emitting Diode) that can check the state of the smoke reduction device 1100. It is possible to further comprise, and thereby the present invention is not limited.

In addition, when the GPS-based LBS terminal 1150 is provided with a cradle near the driver's seat of the vehicle (eg, when the GPS-based LBS terminal 1150 includes a navigation function), the GPS-based LBS terminal ( 1150 may further include a key input unit for activating / deactivating at least one or more sensor functions among at least one or more sensors included in the smoke reduction device 1100, whereby the present invention is not limited thereto.

According to the exemplary embodiment of the present invention, the sensing signal collected by the signal collection unit 1190 from the smoke reduction device 1100 through the interface means is the inflow-side sensor unit provided in the smoke reduction device 1100. Or a pressure sensing signal sensed by the pressure sensor of the inlet sensor unit 1110, and / or the temperature sensing signal sensed by the temperature sensor of 1110, and / or It is preferable to include a qualitative analysis signal and / or quantitative analysis signal sensed by the light absorption sensor of the inflow side sensor unit 1110.

In addition, the sensing signal collected by the signal collection unit 1190 from the smoke reduction device 1100 through the interface means, the temperature sensor of the outflow side sensor unit 1120 provided in the smoke reduction device 1100. Or a pressure sensing signal sensed by the pressure sensor of the outlet side sensor unit 1120, and / or the outlet side sensor unit 1120. It is preferable that the qualitative analysis signal and / or quantitative analysis signal sensed by the absorbance sensor of the).

In addition, the sensing signal collected by the signal collection unit 1190 from the smoke reduction device 1100 through the interface means is sensed by the stripping sensor unit 1115 provided in the smoke reduction device 1100. It is preferable to include a stripping sensing signal.

In addition, the sensing signal collected by the signal collection unit 1190 from the smoke reduction device 1100 through the interface means is provided in the vehicle by the power supply unit 1140 provided in the smoke reduction device 1100. It is preferable to include a power supply signal for confirming whether the predetermined power is effectively applied from the predetermined power supply 1145 including the battery.

According to an exemplary embodiment of the present invention, the sensing signal collected by the signal collector 1190 may include an analog signal including at least one of an electrical resistance value, a current value, or a voltage value. To this end, the signal collection unit 1190 is preferably further provided with an ADC for converting the analog signal into a predetermined digital signal.

According to another exemplary embodiment of the present disclosure, the sensing signal collected by the signal collection unit 1190 may include a digital signal corresponding to at least one of an electrical resistance value, a current value, or a voltage value. Preferably, the interface means for connecting the signal collection unit 1190 and the interface unit 1125 of the smoke reduction device 1100 comprises an RS-232c based data signal line (or data bus). Do.

The wireless communication unit 1195 constituting the GPS-based LBS terminal device 1150 connects a predetermined management server 1198 and a CDMA stack-based communication channel through a wireless communication network based on a code division multiple access (CDMA) stack, Or connecting a predetermined management server 1198 and an IEEE 802.16x based communication channel through an IEEE 802.16x based wireless communication network, or a predetermined management server 1198 and IEEE 802.11x through an IEEE 802.11x based wireless communication network. To connect a communication channel based on a communication channel, or to a predetermined management server 1198 and a DataTAC / Mobitex based communication channel through a DataTAC / Mobitex-based wireless communication network, or to a Digital Multimedia Brovasting (DMB) -based communication channel. It is characterized by connecting a predetermined management server (1198) and the DMB-based communication channel through the return channel.

According to an embodiment of the present invention, when the GPS-based LBS terminal device 1150 connects a predetermined management server 1198 and a CDMA stack-based communication channel through the CDMA stack-based wireless communication network, the wireless communication unit ( 1195 is characterized in that it comprises a wireless modem chip corresponding to any one of the MSM series of Qualcomm of the United States and the RF communication module based on the CDMA stack, through which the wireless communication unit 1195 moves corresponding to the CDMA stack Provides mobile communication functions including location registration and / or slot mode and / or power control and / or hand-off and / or call processing procedures on the network In the process of providing the mobile communication function, an RF processing function (eg, an antenna) for transmitting and receiving radio frequency signals with a base station corresponding to an end of a mobile communication network For example, by performing modulation, synthesis, amplification, and / or filtering of a radio frequency signal, a communication channel for transmitting and receiving at least one information (or data) with a predetermined management server 1198 through the mobile communication network ( For example, it is preferable to connect a wireless message including a short message or a multimedia message, or a data channel for the wireless Internet.

Alternatively, when the GPS-based LBS terminal device 1150 connects a predetermined management server 1198 and an IEEE 802.16x-based communication channel through an IEEE 802.16x-based wireless communication network, the wireless communication unit 1195 may perform the IEEE communication. And an RF communication module and an RF communication module corresponding to the 802.16x standard. Through this, the wireless communication unit 1195 may perform orthogonal frequency division multiple access (OFDMA) on a mobile Internet (WiBro) corresponding to IEEE 802.16x. A mobile IP (MIP) address is assigned using a time division duplex (TDD) -based broadband wireless transmission technology to transmit / receive at least one information (or data) with a predetermined management server 1198 through the mobile Internet. It is desirable to connect the communication channel for the.

Alternatively, when the GPS-based LBS terminal device 1150 connects a predetermined management server 1198 and an IEEE 802.11x-based communication channel through an IEEE 802.11x-based wireless communication network, the wireless communication unit 1195 may use the IEEE. And a wireless communication chip and an RF communication module corresponding to the 802.11x standard. The wireless communication unit 1119 may be configured to perform wireless communication at a hot spot on a wireless LAN (WiBro) corresponding to IEEE 802.11x. By receiving a LAN-based MIP address, it is preferable to connect a communication channel for transmitting / receiving at least one information (or data) with a predetermined management server 1198 through the WLAN.

Alternatively, when the GPS-based LBS terminal device 1150 connects a predetermined management server 1198 and a dataTAC / Mobitex-based communication channel through a DataTAC / Mobitex-based wireless communication network, the wireless communication unit 1119 may perform the DataTAC. And a wireless communication chip and an RF communication module corresponding to the / Mobitex standard, whereby the wireless communication unit 1195 is connected to a predetermined management server 1198 at least through a wireless data communication network corresponding to DataTAC / Mobitex. It is preferable to connect a communication channel for transmitting and receiving one or more information (or data).

Alternatively, when the GPS-based LBS terminal device 1150 connects a predetermined management server 1118 and a DMB-based communication channel through a DMB-based return channel, the wireless communication unit 1195 returns the DMB standard return channel. And a radio communication chip corresponding to the radio communication module and an RF communication module, through which the radio communication unit 1195 provides at least one information (or data) with a predetermined management server 1198 through a return channel corresponding to the DMB. It is preferable to connect a communication channel for transmission and reception.

Those skilled in the art to which the present invention pertains, the wireless communication unit 1955 is a CDMA stack based wireless communication network, or IEEE 802.16x based wireless communication network, or IEEE 802.11x based wireless communication network, or DataTAC / Communication for transmitting / receiving at least one or more information (or data) with a predetermined management server 1198 through at least one wireless communication network based on a Mobitex-based wireless communication network or a digital multimedia broadcasting (DMB) -based return channel. Since you will be familiar with the technical features of connecting channels, a detailed description thereof will be omitted for convenience.

The memory unit 1196 constituting the GPS-based LBS terminal device 1150 stores at least one sensing data corresponding to a sensing signal collected by the signal collecting unit 1190 for a predetermined period of time. At least one flash memory (FM), an electrically erasable and programmable read only memory (EEPROM), or the like may be included.

According to an embodiment of the present invention, the wireless communication unit 1119 connects a communication channel for transmitting / receiving at least one information (or data) with the management server 1198, and / or at least one or more channels through the communication channel. Transmitting / receiving information (or data) may occur periodically in the GPS-based LBS terminal device 1150 with a period of time as one period, or at least one sensing signal in the smoke reduction device 1100. It is possible to both occur at the same time to provide to the GPS-based LBS terminal 1150.

For example, if at least one sensing signal sensed by the smoke reduction device 1100 and provided to the GPS-based LBS terminal device 1150 is valid, the GPS-based LBS terminal device 1150 may send a message to the management server 1198. It is preferable not to transmit information (or data), and / or to transmit predetermined information (or data) to the management server 1198 periodically.

On the other hand, if at least one or more sensing signals sensed by the smoke reduction device 1100 and provided to the GPS-based LBS terminal device 1150 correspond to abnormality and / or removal of the smoke reduction device 1100, the GPS-based The LBS terminal device 1150 preferably transmits predetermined information (or data) corresponding to the abnormality and / or removal of the smoke reduction device 1100 to the management server 1198 immediately.

According to the exemplary embodiment of the present invention, the memory unit 1196 reads at least one sensing signal from the controller 1165 to check whether the smoke reducing device 1100 is abnormal and / or removes the smoke, and removes the smoke. When abnormality and / or removal of the abatement device 1100 is confirmed, information corresponding to the abnormality and / or removal of the smoke reduction device 1100 is generated and provided to the wireless communication unit 1119, and / Alternatively, a program routine for performing a function of storing in the memory unit 1196 is preferably recorded.

The control unit 1165 constituting the GPS-based LBS terminal device 1150 includes a processor and an execution memory that includes a CPU / MPU in hardware, and at least one recorded in the memory unit 1196 (or a memory device). The above-described program routine (Routine) and / or the bus (BUS) for inputting and outputting the program data, and a predetermined electronic circuit (or integrated circuit) provided for this, characterized in that the memory unit 1196 in software (Or a generic term for program routines and / or program data loaded into the execution memory from the memory device and processed by the processor to perform a specific function (hence, in the present invention, the GPS-based LBS terminal device 1150). The program routine recorded on the recording medium for performing the function of the control unit 1165 is shown for convenience. By reading at least one sensing signal collected through the signal collection unit 1190 to determine whether there is an abnormality and / or removal of the smoke reduction device 1100, and the smoke reduction device ( When it is confirmed that there is an abnormality and / or removal of the error 1100, information corresponding to the abnormality and / or removal of the smoke reduction device 1100 is generated and provided to the wireless communication unit 1149, and / or the memory A function of storing in the unit 1196 is performed.

According to the exemplary embodiment of the present invention, the controller 1165 interlocks with the ECU provided in the vehicle to determine an operating condition (eg, an initial RPM value, etc.) of the vehicle according to whether or not the smoke reducing device 1100 is abnormal. It is preferable to further comprise the function to control.

Referring to FIG. 11, the GPS-based LBS terminal device 1150 reads at least one or more sensing signals collected through the signal collection unit 1190 and whether the smoke reduction device 1100 is abnormal and / or is removed. When the signal check unit 1170 and the smoke reduction device 1100 check whether there is an abnormality and / or removal, the controller generates information corresponding to the abnormality and / or removal of the smoke reduction device 1100. The GPS generated by the location positioning unit 1155 and information corresponding to an abnormality and / or removal of the smoke reduction device 1100 in association with the information generating unit 1175 and the wireless communication unit 1119. And an information transmitter 1180 for transmitting the location information of the base LBS terminal device 1150 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 to a predetermined management server 1198. It features.

In addition, the GPS-based LBS terminal device 1150 converts sensing data (eg, sensing signals corresponding to analog signals) corresponding to at least one or more sensing signals collected through the signal collector 1190 through a predetermined ADC. And an information storage unit 1185 for storing one digital signal) in the memory unit 1196.

The signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. It is preferable to check whether the exhaust gas temperature flowing into the smoke reduction unit 1105 includes an appropriate temperature for reducing the smoke.

For example, if the exhaust gas temperature flowing into the smoke reduction unit 1105 even after a predetermined time (for example, engine heating time) has elapsed from the engine unit of the vehicle does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). Winter, etc. to maintain the sub-zero temperature range, the signal check unit 1170 is the smoke reduction device 1100 through the control function (not shown) of the smoke reduction device 1100 of the GPS-based LBS terminal device 1150 (not shown) The temperature of the exhaust gas flowing into the smoke reduction unit 1105 may be heated (for example, an exhaust gas heating unit (not shown) may be provided on the inlet side of the smoke reduction apparatus 1100 to heat the exhaust gas temperature).

In addition, if the temperature of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction device 1100 even if the ambient temperature of the vehicle maintains room temperature does not include a proper temperature necessary for reducing the smoke, the signal checking unit 1170 may determine that an abnormality has occurred in the engine of the vehicle.

When it is confirmed that the abnormality has occurred in the engine by the signal checking unit 1170, the information obtaining unit 1160 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by the temperature sensor of the outflow-side sensor unit 1120 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. It is preferable to check whether the exhaust gas temperature flowing out of the smoke reduction unit 1105 includes the effective temperature after the smoke reduction unit 1105 performs the smoke reduction function.

For example, the smoke reduction unit 1105 of the smoke reduction device 1100 complexes the exhaust gas through a predetermined ceramic filter and heats the unburned component in the exhaust gas (for example, by heating to 550 ° C. or higher). In the case of recombustion, it is preferable to check whether the soot reduction device 1100 is abnormal by checking whether the temperature after the reburn corresponds to the heating temperature, and if the temperature after the reburn corresponds to the heating temperature. If not, the signal checking unit 1170 confirms that an abnormality has occurred in the smoke reducing unit 1105 of the smoke reducing apparatus 1100.

When it is confirmed by the signal confirming unit 1170 that an abnormality has occurred in the smoke reducing unit 1105 of the smoke reducing apparatus 1100, the information obtaining unit 1160 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1170 may include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, and the outflow sensor unit 1120. By comparing the sensing data corresponding to the sensing signal sensed by the temperature sensor of the, by checking the temperature change of the exhaust gas passing through the smoke reduction device 1100, the smoke reduction unit of the smoke reduction device 1100 ( It is preferable to check whether an abnormality has occurred in the smoke reduction function according to each smoke reduction scheme corresponding to 1105).

When it is confirmed by the signal checking unit 1170 that an abnormality has occurred in the smoke reducing function, the information obtaining unit 1160 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by the pressure sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. It is preferable to check whether the exhaust gas pressure flowing into the particulate smoke reducing unit 1105 includes an appropriate pressure necessary for reducing the particulate smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 1105 does not include a proper pressure required to reduce the smoke, the signal checking unit 1170 may include a smoke reduction device of the GPS-based LBS terminal device 1150 ( 1100 pressurizes the pressure of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction apparatus 1100 through a control function (not shown) (for example, the exhaust gas pressurization unit on the inflow side of the smoke reduction apparatus 1100). (Not shown) to pressurize the exhaust gas pressure.

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction device 1100 does not include an appropriate pressure necessary for reducing the smoke, the signal checking unit 1170 may be abnormal to the exhaust pipe of the vehicle. It can be confirmed that this has occurred.

When it is confirmed by the signal checking unit 1170 that an abnormality has occurred in a function of the exhaust pipe of the vehicle, the information obtaining unit 1160 obtains at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to.

In addition, the signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by the pressure sensor of the outflow side sensor unit 1120 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. It is preferable to check whether the exhaust gas pressure flowing out of the smoke reduction unit 1105 includes the effective pressure after the smoke reduction unit 1105 performs the smoke reduction function.

For example, the smoke reduction unit 1105 of the smoke reduction device 1100 complexes the exhaust gas through a predetermined ceramic filter and heats the unburned component in the exhaust gas (for example, by heating to 550 ° C. or higher). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 1100 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not, the signal checking unit 1170 confirms that an abnormality has occurred in the smoke reducing unit 1105 of the smoke reducing device 1100.

When it is confirmed by the signal confirming unit 1170 that an abnormality has occurred in the smoke reducing unit 1105 of the smoke reducing apparatus 1100, the information obtaining unit 1160 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1170 may include sensing data corresponding to a sensing signal sensed by a pressure sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, and the outflow sensor unit 1120. By comparing the sensing data corresponding to the sensing signal sensed by the pressure sensor of the, by checking the pressure change of the exhaust gas passing through the smoke reduction device 1100, the smoke reduction unit 1105 of the smoke reduction device 1100 It is preferable to check whether an abnormality has occurred in the smoke reduction function according to the respective smoke reduction methods corresponding to).

When it is confirmed by the signal checking unit 1170 that an abnormality has occurred in the smoke reducing function, the information obtaining unit 1160 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by the light absorption sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. Check whether there is an unburned component (or harmful substance) to be reduced in the smoke reduction unit 1105 among the unburned components (or harmful substances) included in the exhaust gas flowing into the smoke reduction unit 1105 It is desirable to.

For example, when the exhaust gas flowing into the fume reducing unit 1105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the signal checking unit 1170 is configured to reduce the smoke. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing into the smoke reduction unit 1105 of 1100.

In addition, the signal checking unit 1170 analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the inflow sensor unit 1110 of the smoke reduction device 1100, thereby reducing the unburned component to be reduced. It is preferable to calculate calculating the amount of (or noxious substances).

For example, when the exhaust gas flowing into the smoke reduction unit 1105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the signal confirmation unit 1170 may be configured for a predetermined time. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

In addition, the signal checking unit 1170 reads the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow side sensor unit 1120 of the smoke reduction device 1100, thereby reducing the smoke reduction device 1100. After the reduction in the smoke reduction unit 1105 of the unburned components (or harmful substances) included in the exhaust gas flowing out from the smoke reduction unit 1105 of the It is advisable to check.

For example, when the exhaust gas flowing out to the smoke reduction unit 1105 is absorbed by a light ray having a wavelength corresponding to the reduction target unburned component (or noxious substance), the signal checking unit 1170 may include the smoke reduction device. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing out of the smoke reduction unit 1105 of 1100.

According to the method of the present invention, the smoke reduction unit 1105 of the smoke reduction device 1100 is designed to remove almost all of the unburned components (or harmful substances) to be reduced, but the smoke reduction device 1100 When the exhaust gas flowing out of the smoke reduction unit 1105 includes the unburned component (or harmful substance) to be reduced, the signal checking unit 1170 is a smoke reduction unit 1105 of the smoke reduction device 1100. ) Is confirmed to be an abnormality (or to replace the smoke reduction unit 1105 of the smoke reduction device 1100).

When the signal checking unit 1170 determines that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the information obtaining unit 1160 may include the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1170 analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the outflow sensor unit 1120 of the smoke reduction device 1100, thereby reducing the unburned component to be reduced. It is preferable to calculate calculating the amount of (or noxious substances).

For example, when the exhaust gas flowing out to the fume reducing unit 1105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the signal checking unit 1170 may be configured for a predetermined time. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

According to the exemplary embodiment of the present invention, the smoke reduction unit 1105 of the smoke reduction device 1100 is designed to remove a part of the reduction target unburned component (or harmful substance), but the smoke reduction device 1100 If the amount of unburned components (or harmful substances) to be reduced included in the exhaust gas flowing out of the smoke reduction unit 1105 does not reduce the designed reference amount, the signal checking unit 1170 may include the smoke reduction device ( It is confirmed that an abnormality has occurred in the smoke reduction unit 1105 of 1100 (or that the smoke reduction unit 1105 of the smoke reduction unit 1100 needs to be replaced).

When the signal checking unit 1170 determines that the amount of at least one unburned component (or noxious substance) to be reduced is included in the exhaust gas by more than a reference amount, the information obtaining unit 1160 is provided in the vehicle. It is preferable to obtain at least one or more OBD diagnostic information from the OBD device 197.

In addition, the signal checking unit 1170 may include sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inlet sensor unit 1110 of the smoke reduction device 1100, and the outlet sensor unit 1120. By comparing the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the, the performance of the smoke reduction unit 1105 of the smoke reduction device 1100 is confirmed, and when the performance falls below a reference value, the smoke reduction It is confirmed that an abnormality has occurred in the smoke reduction unit 1105 of the device 1100 (or that the smoke reduction unit 1105 of the smoke reduction unit 1100 needs to be replaced).

When it is confirmed by the signal confirming unit 1170 that the performance of the smoke reducing unit 1105 of the smoke reducing device 1100 falls below a reference value, the information obtaining unit 1160 may include the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1170 reads sensing data corresponding to a sensing signal sensed by the stripping sensor unit 1115 of the smoke reduction device 1100, thereby providing an engine unit and / or an exhaust unit of the vehicle. In 1135, it is preferable to check whether the smoke reducing device 1100 is removed.

In addition, the signal check unit 1170 reads data corresponding to an electrical signal corresponding to the power supply unit 1140 of the smoke reduction device 1100, thereby providing a battery provided in the vehicle with the smoke reduction device 1100. It is preferable to check whether a predetermined power is normally applied from a predetermined power supply unit 1145 including a. When the predetermined power is not normally applied to the smoke reduction device 1100, the signal checking unit 1170 It is preferable to confirm that an abnormality occurs in the smoke reduction device 1100 and / or the smoke reduction device 1100 is removed from the engine unit and / or the exhaust unit 1135 of the vehicle.

If there is an abnormality and / or removal of the smoke reduction device 1100 by the signal checking unit 1170, the information generating unit 1175 may check whether the smoke reduction device 1100 is abnormal and / or And generating information corresponding to the removal, wherein the information transmitting unit 1180 is an abnormality of the smoke reduction device 1100 generated by the information generating unit 1175 in association with the wireless communication unit 1119. At least one OBD diagnosis obtained from the OBD device 197 and / or information corresponding to the presence and / or detachment and location information of the GPS-based LBS terminal device 1150 positioned by the location location unit 1155. Information is transmitted to the management server (1198) through a predetermined wireless communication network.

Here, the information corresponding to the abnormality and / or the removal of the smoke reduction device 1100 is the information transmission unit 1180 in conjunction with the wireless communication unit 1149 through the predetermined wireless communication network to the management server (1198) It is preferable to include a data structure that can be transmitted to.

For example, when the wireless communication unit 1119 is equipped with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information generator 1175 may include a short message (SMS) and a short message. And / or generate information corresponding to abnormality and / or removal of the smoke reduction device 1100 in response to a message structure including a multimedia message (MMS), and the information transmission unit 1180 may perform wireless The GPS-based LBS terminal device 1150 that is located by the location positioning unit 1155 and information corresponding to the abnormality and / or detachment of the smoke reduction device 1100 through the wireless message function of the communication unit 1195. Location information and / or at least one or more OBD diagnostic information obtained from the OBD device 197 is preferably transmitted to a predetermined management server 1198.

Alternatively, when the wireless communication unit 1149 has a predetermined wireless Internet function, the information generating unit 1175 may have an abnormality of the smoke reduction device 1100 in response to a data structure based on the wireless Internet protocol. And / or to generate information corresponding to the stripping, wherein the information transmitting unit 1180 may detect abnormality and / or stripping of the smoke reduction device 1100 through a wireless Internet function of the wireless communication unit 1119. It is preferable to transmit the corresponding information and the location information of the GPS-based LBS terminal device 1150, which is located by the location positioning unit 1155, to a predetermined management server 1198.

Alternatively, when the wireless communication unit 1149 includes a predetermined instant messaging function, the information generating unit 1175 may have an abnormality of the smoke reduction device 1100 in response to a data structure based on the instant messaging protocol. And / or to generate information corresponding to the stripping, and the information transmitting unit 1180 may detect abnormality and / or stripping of the smoke reduction device 1100 through an instant messaging function of the wireless communication unit 1119. A predetermined management server may display corresponding information and location information of the GPS-based LBS terminal device 1150, which is located by the location location unit 1155, and / or at least one OBD diagnostic information obtained from the OBD device 197. It is desirable to send to (1198).

Alternatively, when a predetermined mail function is provided in the wireless communication unit 1149, the information generating unit 1175 may have an abnormality of the smoke reduction device 1100 in response to a data structure based on the mail protocol. Alternatively, it is preferable to generate the information corresponding to the stripping, and the information transmitting unit 1180 is the abnormality of the smoke reduction device 1100 and / or the information corresponding to the stripping through the mail function of the wireless communication unit 1149 And location information of the GPS-based LBS terminal device 1150 positioned by the location positioning unit 1155 and / or at least one OBD diagnostic information obtained from the OBD device 197. It is desirable to send to.

On the other hand, if there is no abnormality and / or removal of the smoke reduction device 1100 by the signal checking unit 1170, the information generating unit 1175 corresponds to the normal operation of the smoke reduction device 1100. And the information transmitter 1180 corresponds to the normal operation of the smoke reduction device 1100 generated by the information generator 1175 in association with the wireless communication unit 1955. Information and the location information of the GPS-based LBS terminal device 1150 positioned by the location location unit 1155 and / or at least one or more OBD diagnosis information obtained from the OBD device 197. It is characterized in that for transmitting to the management server (1198).

Here, the information (or sensing data) corresponding to the normal operation of the smoke reduction device 1100 is the information transmission unit 1180 in conjunction with the wireless communication unit 1149 through the predetermined wireless communication network through the management server (1198) It is preferable to include a data structure that can be transmitted to).

For example, when the wireless communication unit 1119 is equipped with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information generator 1175 may include a short message (SMS) and a short message. And / or generating information (or sensing data) corresponding to the normal operation of the smoke reduction device 1100 in response to a message structure including a multimedia message (MMS), and the information transmission unit 1180 Information (or sensing data) corresponding to normal operation of the smoke reduction device 1100 and the GPS-based LBS terminal device 1150 measured by the position location unit 1155 through a wireless message function of the wireless communication unit 1119. ) Location information and / or at least one or more OBD diagnostic information obtained from the OBD device 197 is transmitted to a predetermined management server (1198).

Alternatively, when the wireless communication unit 1149 is equipped with a predetermined wireless Internet function, the information generating unit 1175 may normally operate the smoke reduction device 1100 in response to a data structure based on the wireless Internet protocol. It is preferable to generate information (or sensing data) corresponding to the information transmitting unit 1180, the information corresponding to the normal operation of the smoke reduction device 1100 through the wireless Internet function of the wireless communication unit 1149 (Or sensing data) and location information of the GPS-based LBS terminal device 1150, which is located by the location location unit 1155, and / or at least one or more OBD diagnostic information obtained from the OBD device 197. It is preferable to transmit to the management server (1198).

Alternatively, when the wireless communication unit 1149 is equipped with a predetermined instant messaging function, the information generating unit 1175 may normally operate the smoke reduction device 1100 in response to a data structure based on the instant messaging protocol. It is preferable to generate the information (or sensing data) corresponding to the information, the information transmitting unit 1180 is information corresponding to the normal operation of the smoke reduction device 1100 through the instant messaging function of the wireless communication unit (1195). (Or sensing data) and location information of the GPS-based LBS terminal device 1150, which is located by the location location unit 1155, and / or at least one or more OBD diagnostic information obtained from the OBD device 197. It is preferable to transmit to the management server (1198).

Alternatively, when a predetermined mail function is provided in the wireless communication unit 1149, the information generating unit 1175 may not operate properly in response to the data structure based on the mail protocol. It is preferable to generate corresponding information (or sensing data), and the information transmission unit 1180 may correspond to the normal operation of the smoke reduction device 1100 through the mail function of the wireless communication unit 1119. Sensing data) and location information of the GPS-based LBS terminal device 1150, which is located by the location location unit 1155, and / or at least one OBD diagnostic information obtained from the OBD device 197. It is desirable to send to (1198).

According to the exemplary embodiment of the present invention, when no abnormality occurs in the fume reducing apparatus 1100 for a predetermined period (or a predetermined number of sensing times), the information transmitting unit 1180 may have an abnormality of the fume reducing apparatus 1100. And / or increase the period for transmitting the predetermined management server 1198 via the wireless communication network to the information corresponding to the removal and / or at least one or more OBD diagnostic information obtained from the OBD device 197, on the contrary If the smoke reduction device 1100 does not frequently generate an error during a predetermined number of times of sensing, the information transmission unit 1180 may provide information corresponding to abnormality and / or removal of the smoke reduction device 1100. And / or reduce a period of transmitting at least one OBD diagnostic information obtained from the OBD device 197 through a wireless communication network to a predetermined management server 1118.

Alternatively, when it is determined that the vehicle state is good in the process of acquiring the OBD diagnostic information for a certain period (or a certain number of sensing times), the information transmitting unit 1180 may detect an abnormality of the smoke reduction device 1100 and / or It is preferable to increase the period in which the predetermined management server 1198 transmits the information corresponding to the removal and / or at least one or more OBD diagnostic information obtained from the OBD device 197 through a wireless communication network. If it is determined that the vehicle state is not good during the OBD diagnostic information acquisition process during the number of sensing), the information transmitter 1180 may include information corresponding to abnormality and / or removal of the smoke reduction device 1100 and And / or reduce a period of transmitting at least one OBD diagnostic information obtained from the OBD device 197 through a wireless communication network to a predetermined management server 1118. It is desirable.

When sensing data corresponding to at least one sensing signal collected through the signal collector 1190 is generated, the information storage unit 1185 preferably stores the sensing data in the memory unit 1196.

According to the exemplary embodiment of the present invention, when the sensing data stored in the memory unit 1196 corresponds to the normal operation of the smoke reduction device 1100, the information transmitting unit 1180 is associated with the wireless communication unit 1195. At least one of the sensing data stored in the memory unit 1196 and the position information of the GPS-based LBS terminal device 1150 positioned by the location positioning unit 1155 and / or the OBD device 197. It is preferable to periodically transmit the above OBD diagnostic information to a predetermined management server 1198.

For example, when the wireless communication unit 1119 is equipped with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information transmitter 1180 may be stored in the memory unit 1196. The wireless communication unit may store the sensing data and the location information of the GPS-based LBS terminal device 1150, which is located by the location positioning unit 1155, and / or at least one OBD diagnosis information obtained from the OBD device 197. It is preferable to periodically transmit to the predetermined management server (1198) through the wireless message function of (1195).

Alternatively, when the wireless communication unit 1195 is provided with a predetermined wireless Internet function, the information transmitter 1180 may be configured to measure the sensing data and the position location unit 1155 stored in the memory unit 1196. Location information of the GPS-based LBS terminal device 1150 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 are periodically managed through a wireless Internet function of the wireless communication unit 1195. Is preferred.

Alternatively, when a predetermined instant messaging function is provided in the wireless communication unit 1195, the information transmission unit 1180 may be configured to measure the sensing data and the location location unit 1155 stored in the memory unit 1196. Location information of the GPS-based LBS terminal device 1150 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 are periodically managed through the instant messaging function of the wireless communication unit 1195. Is preferred.

Alternatively, when a predetermined mail function is provided in the wireless communication unit 1195, the information transmission unit 1180 may be configured to sense the sensing data stored in the memory unit 1196 and the GPS positioned by the location positioning unit 1155. Location information of the base LBS terminal device 1150 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 to a predetermined management server 1118 periodically through the mail function of the wireless communication unit 1119 It is desirable to transmit.

12 is a view illustrating a removal process of the smoke reduction device 1100 according to an exemplary embodiment of the present invention.

In more detail, FIG. 12 illustrates an engine unit in which the smoke reduction device 1100 is mounted on the vehicle in the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 shown in FIG. Or whether the exhaust gas reducing device 1100 is removed from the engine unit and / or the exhaust unit 1135 mounted on the vehicle, and the exhaust gas reducing device 1100 is removed. The process of generating information and transmitting the predetermined information to a predetermined management server 1198. Those skilled in the art to which the present invention pertains may refer to and / or modify this drawing 12 to reduce the smoke reduction device ( Various implementation methods for confirming the removal of 1100 may be inferred, but the present invention includes all the implementation methods inferred above and is not limited to the implementation method shown in FIG.

Hereinafter, in FIG. 12, the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 illustrated in FIG. 11 is referred to as a “device” for convenience, and the stripping sensor unit of the smoke reduction device 1100 is illustrated. The sensing signal sensed by 1115 is referred to as a "detachment signal" for convenience.

Referring to FIG. 12, the apparatus illustrated in FIG. 11 checks whether or not a predetermined power source for performing the smoke reduction function and the self-diagnosis function according to the present invention is normally applied from a battery provided in the vehicle (1200).

If the power-up validity is not authenticated (1205), the device generates predetermined power-up validity error information (or a smoke reduction device 1100 removal warning message) (1210), and the OBD device provided in the vehicle. Obtain at least one OBD diagnostic information from 197 (1215), and generate (or calculate) location information corresponding to the current location of the device (1215) through the GPS-based positioning function shown in FIG. In operation 1220, the power supply validity error information (or the smoke abatement device 1100 removal warning message) and the location information and / or the OBD diagnosis information are transmitted to a predetermined management server through a predetermined wireless communication network.

According to the exemplary embodiment of the present invention, the power supply validity error information (or the smoke removal device 1100 removal warning message) and the location information and / or the OBD diagnostic information of the smoke reduction device 1100 are provided in the wireless communication. It is preferable to include a data structure corresponding to a function.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may be short message (SMS) and / or multimedia. It is preferable to generate the power-up validity error information (or the smoke reduction device 1100 removal warning message) of the smoke reduction device 1100 in response to the message structure including the message MMS. Through the wireless messaging function, the power supply validity error information (or the smoke removal device 1100 removal warning message) of the smoke reduction device 1100 and the current location information and / or OBD diagnosis information of the device are determined by a predetermined management server 1198. Is preferred.

Or, if the wireless communication function provided in the device includes a predetermined wireless Internet function, the device is the power supply validity error information of the smoke reduction device 1100 in response to a data structure based on the wireless Internet protocol. It is preferable to generate the warning message (or smoke removal device 1100) removal, and the power supply validity error information (or smoke reduction device 1100) of the smoke reduction device 1100 through the wireless Internet function of the wireless communication function. Stripping alert message) and the current location information of the device to a predetermined management server (1198).

Or, if the wireless communication function provided in the device includes a predetermined instant messaging function, the device is the power-up validity error information of the smoke reduction device 1100 in response to a data structure based on the instant messaging protocol. (Or a smoke reduction device 1100 removal warning message) is preferably generated, and the power supply validity error information (or smoke reduction device 1100) of the smoke reduction device 1100 through the instant messaging function of the wireless communication function. Stripping alert message) and the current location information and / or OBD diagnostic information of the device to a predetermined management server (1198).

Or, if the wireless communication function provided in the device includes a predetermined mail function, the device corresponds to the data structure based on the mail protocol, the power supply validity error information (or It is preferable to generate a smoke reduction device 1100 removal warning message, and the power-up validity error information (or smoke reduction device 1100 removal removal warning) of the smoke reduction device 1100 through the mail function of the wireless communication function. Message) and the current location information and / or OBD diagnostic information of the device to a predetermined management server (1198).

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

On the other hand, if the power supply validity is authenticated (1205), the apparatus checks whether a stripping signal for the smoke reduction device 1100 is collected from the stripping sensor unit 1115 provided in the smoke reduction device 1100 (1230). ).

If the removal signal for the smoke reduction device 1100 is not collected (1235), the device periodically checks the validity of the power supply, and checks whether the removal signal for the smoke reduction device 1100 is collected. Repeat with

On the other hand, if the removal signal for the smoke reduction device 1100 is collected (1235), the device generates information corresponding to the removal of the smoke reduction device 1100 (1240), the OBD device provided in the vehicle Obtain at least one OBD diagnostic information from 197 (1245), and generate (or calculate) location information corresponding to the current location of the device (1250) through the GPS-based positioning function shown in FIG. In operation 1255, information corresponding to the removal of the smoke reduction device 1100, location information, and / or OBD diagnosis information may be transmitted to a predetermined management server through a predetermined wireless communication network.

According to the method of the present invention, the information and location information corresponding to the removal of the smoke reduction device 1100 preferably include a data structure corresponding to the wireless communication function provided in the device.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may be short message (SMS) and / or multimedia. Preferably, the smoke reduction device 1100 generates information corresponding to the removal of the smoke reduction device 1100 in response to the message structure including the message MMS. Also, the smoke reduction device 1100 may be generated through a wireless messaging function of the wireless communication function. It is preferable to transmit the information corresponding to the removal of and the current location information and / or OBD diagnostic information of the device to a predetermined management server (1198).

Alternatively, when the wireless communication function provided in the device includes a predetermined wireless Internet function, the device may correspond to the removal of the smoke reduction device 1100 in response to a data structure based on the wireless Internet protocol. It is preferable to generate a, and through the wireless Internet function of the wireless communication function, the information corresponding to the removal of the smoke reduction device 1100 and the current location information and / or OBD diagnostic information of the device to a predetermined management server ( 1198).

Or, if the wireless communication function provided in the device includes a predetermined instant messaging function, the device corresponds to the information corresponding to the removal of the smoke reduction device 1100 in response to a data structure based on the instant messaging protocol. It is preferable to generate a, and through the instant messaging function of the wireless communication function, the information corresponding to the removal of the smoke reduction device 1100 and the current location information and / or OBD diagnostic information of the device to a predetermined management server ( 1198).

Alternatively, when the wireless communication function provided in the device includes a predetermined mail function, the device generates information corresponding to the removal of the smoke reduction device 1100 in response to a data structure based on the mail protocol. Preferably, the information corresponding to the removal of the smoke reduction device 1100, the current location information and / or the OBD diagnostic information of the device through the mail function of the wireless communication function to a predetermined management server (1198). It is desirable to transmit.

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

FIG. 13 is a view illustrating a process of monitoring the smoke reduction device 1100 of the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 according to an exemplary embodiment of the present invention.

In more detail, in FIG. 13, in the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 illustrated in FIG. 11, the smoke reduction device 1100 may be diagnosed and checked. When an error occurs in the smoke reduction device 1100, the process for generating information corresponding to the smoke reduction device 1100 or more to transmit to a predetermined management server (1198), in the technical field to which the present invention belongs Those skilled in the art may refer to and / or modify this drawing 13 to implement various monitoring processes for monitoring the GPS-based LBS terminal device 1150 and the smoke reduction device 1100 for monitoring the OBD-associated smoke reduction device 1100. The method may be inferred, but the present invention includes all the inferred implementation methods, and is not limited to the implementation method shown in FIG.

Hereinafter, in FIG. 13, the GPS-based LBS terminal device 1150 for monitoring the OBD-associated smoke reduction device 1100 illustrated in FIG. 11 is referred to as a “device” for convenience.

Referring to FIG. 13, the apparatus shown in FIG. 11 periodically checks whether a predetermined exhaust gas flows into the smoke reduction device 1100 (1300).

According to an embodiment of the present invention, the apparatus shown in FIG. 11 may periodically check the temperature sensor and / or pressure sensor change of the inlet sensor unit 1110 of the smoke reduction device 1100 shown in FIG. In addition, it is preferable to periodically check whether a predetermined exhaust gas flows into the smoke reduction device 1100.

If it is confirmed that a predetermined exhaust gas flows into the smoke reduction device 1100 (1305), the device includes at least one sensing signal (or sensing data) for checking the effectiveness of the smoke reduction function of the smoke reduction device 1100. ) And determine the validity of the smoke reduction function by reading the collected at least one sensing signal (or sensing data) (1315).

The apparatus is configured to read sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 1110 of the smoke reduction apparatus 1100, thereby reducing smoke 1105 of the smoke reduction apparatus 1100. It is preferable to check whether the exhaust gas temperature flowing into the ()) includes an appropriate temperature for reducing the smoke.

For example, if the exhaust gas temperature flowing into the smoke reduction unit 1105 even after a predetermined time (for example, engine heating time) has elapsed from the engine unit of the vehicle does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). In winter, etc. to maintain the sub-zero temperature range, the device is a smoke reduction unit of the smoke reduction device 1100 through the control function (not shown) of the smoke reduction device 1100 of the GPS-based LBS terminal device 1150 (not shown) The temperature of the exhaust gas flowing into 1105 may be heated (for example, an exhaust gas heating part (not shown) may be provided on the inflow side of the smoke reduction device 1100 to heat the exhaust gas temperature).

In addition, if the temperature of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction device 1100 even if the ambient temperature of the vehicle maintains the room temperature does not include a proper temperature necessary for reducing the smoke, the device may be It can be confirmed that an error has occurred in the engine of the vehicle.

When it is confirmed that an abnormality has occurred in the engine, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the temperature sensor of the outflow-side sensor unit 1120 of the smoke reduction device 1100, thereby reducing the smoke of the smoke reduction device 1100 It is preferable to check whether the exhaust gas temperature which flows out from the 1105 includes the effective temperature after performing the smoke reduction function of the smoke reduction unit 1105.

For example, the smoke reduction unit 1105 of the smoke reduction device 1100 complexes the exhaust gas through a predetermined ceramic filter and heats the unburned component in the exhaust gas (for example, by heating to 550 ° C. or higher). In the case of recombustion, it is preferable to check whether the soot reduction device 1100 is abnormal by checking whether the temperature after the reburn corresponds to the heating temperature, and if the temperature after the reburn corresponds to the heating temperature. If not, the apparatus determines that an abnormality has occurred in the smoke reduction unit 1105 of the smoke reduction apparatus 1100.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 1105 of the smoke reduction device 1100, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor 1110 of the smoke reduction device 1100 and a temperature sensor of the outflow sensor 1120. By comparing the sensing data corresponding to the sensed sensing signal, by checking the temperature change of the exhaust gas passing through the smoke reduction device 1100, respectively corresponding to the smoke reduction unit 1105 of the smoke reduction device 1100 It is desirable to check whether any abnormality occurs in the smoke reduction function according to the smoke reduction method.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by the pressure sensor of the inflow sensor 1110 of the smoke reduction device 1100, thereby reducing the smoke of the smoke reduction device 1100. It is preferable to confirm whether the exhaust gas pressure flowing into the 1105 includes an appropriate pressure necessary for reducing the smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 1105 does not include an appropriate pressure required to reduce the smoke, the device may control the smoke reduction device 1100 of the GPS-based LBS terminal device 1150 ( Press the pressure of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction device 1100 (not shown) (eg, exhaust gas pressurization unit (not shown) on the inflow side of the smoke reduction device 1100). And pressurized exhaust gas pressure).

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 1105 of the smoke reduction device 1100 does not include an appropriate pressure required to reduce the smoke, the device may determine that an abnormality has occurred in the exhaust pipe of the vehicle. have.

When it is confirmed that a malfunction occurs in the exhaust pipe of the vehicle, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by the pressure sensor of the outflow sensor unit 1120 of the smoke reduction device 1100, thereby reducing the smoke of the smoke reduction device 1100. It is preferable to check whether the exhaust gas pressure which flows out from 1105 includes the effective pressure after the smoke reduction function of the smoke reduction part 1105 is performed.

For example, the smoke reduction unit 1105 of the smoke reduction device 1100 complexes the exhaust gas through a predetermined ceramic filter and heats the unburned component in the exhaust gas (for example, by heating to 550 ° C. or higher). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 1100 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not, the apparatus determines that an abnormality has occurred in the smoke reduction unit 1105 of the smoke reduction apparatus 1100.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 1105 of the smoke reduction device 1100, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by the pressure sensor of the inflow sensor 1110 of the smoke reduction device 1100 and a pressure sensor of the outflow sensor 1120. By comparing the sensing data corresponding to the sensed sensing signal, by checking the pressure change of the exhaust gas passing through the smoke reduction device 1100, respectively corresponding to the smoke reduction unit 1105 of the smoke reduction device 1100 It is desirable to check whether any abnormality occurs in the smoke reduction function according to the smoke reduction method.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by the light absorption sensor of the inflow sensor 1110 of the smoke reduction device 1100, thereby reducing the smoke of the smoke reduction device 1100. It is preferable to check whether there are any unburned components (or harmful substances) to be reduced in the smoke reduction unit 1105 among the unburned components (or harmful substances) included in the exhaust gas introduced into 1105.

For example, when the exhaust gas flowing into the smoke reduction unit 1105 is absorbed by a light ray having a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the apparatus smokes the smoke reduction device 1100. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing into the reduction unit 1105.

In addition, the device analyzes the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the inflow sensor 1110 of the smoke reduction device 1100, thereby reducing the unburned components (or harmful substances) to be reduced. It is preferable to calculate the amount of.

For example, when the exhaust gas flowing into the fume reducing unit 1105 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time period, By substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of the unburned component (or harmful substance) to be reduced is calculated. .

In addition, the apparatus is configured to read the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow sensor 1120 of the smoke reduction device 1100, thereby reducing the smoke of the smoke reduction device 1100 It is preferable to check whether the reduction target unburned component (or harmful substance) is present after the reduction in the smoke reduction unit 1105 among the unburned components (or harmful substance) included in the exhaust gas flowing out from 1105. Do.

For example, when the exhaust gas flowing out to the smoke reduction unit 1105 is absorbed by light rays having a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the apparatus is configured to filter the smoke of the smoke reduction apparatus 1100. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing out from the reduction unit 1105.

According to the method of the present invention, the smoke reduction unit 1105 of the smoke reduction device 1100 is designed to remove almost all of the unburned components (or harmful substances) to be reduced, but the smoke reduction device 1100 When the exhaust gas flowing out of the smoke reduction unit 1105 includes the unburned component (or harmful substance) to be reduced, the apparatus generates an abnormality in the smoke reduction unit 1105 of the smoke reduction apparatus 1100. It is confirmed that the (or the smoke reduction unit 1105 of the smoke reduction device 1100 needs to be replaced).

When it is confirmed that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the device analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the outflow sensor unit 1120 of the smoke reduction device 1100, thereby reducing the unburned components (or harmful substances) to be reduced. It is preferable to calculate the amount of.

For example, when the exhaust gas flowing out to the fume reducing unit 1105 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time period, By substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of the unburned component (or harmful substance) to be reduced is calculated. .

According to the exemplary embodiment of the present invention, the smoke reduction unit 1105 of the smoke reduction device 1100 is designed to remove a part of the reduction target unburned component (or harmful substance), but the smoke reduction device 1100 If the amount of the unburned component (or noxious substance) to be included in the exhaust gas flowing out of the smoke reduction unit 1105 does not reduce the designed reference amount, the apparatus reduces the smoke of the smoke reduction apparatus 1100. It is confirmed that an abnormality has occurred in the unit 1105 (or that the smoke reduction unit 1105 of the smoke reduction device 1100 needs to be replaced).

If it is determined that the amount of the at least one unburned component (or noxious substance) to be reduced is included in the exhaust gas by more than a reference amount, the device receives at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to obtain.

The apparatus may further include sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inflow sensor 1110 of the smoke reduction device 1100 and an absorbance sensor of the outflow sensor 1120. By comparing the sensing data corresponding to the sensed sensing signal, the performance of the smoke reduction unit 1105 of the smoke reduction device 1100 is checked, and when the performance falls below a reference value, the smoke reduction device 1100 Confirm that an abnormality has occurred in the smoke reduction unit 1105 (or that the smoke reduction unit 1105 needs to be replaced by the smoke reduction unit 1100).

When it is confirmed that the performance of the smoke reduction unit 1105 of the smoke reduction device 1100 falls below a reference value, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

If the validity of the smoke reduction function is not authenticated (1320), the device generates information corresponding to the smoke reduction function abnormality of the smoke reduction device 1100 (1325), and the OBD device provided in the vehicle Obtaining at least one OBD diagnostic information from (197) (1330), and generates (or calculates) location information corresponding to the current location of the device (1335) via the GPS-based positioning function shown in FIG. In operation 1335, information corresponding to the smoke reduction function abnormality, location information, and / or OBD diagnosis information are transmitted to a predetermined management server through a predetermined wireless communication network.

According to an embodiment of the present invention, the information corresponding to the smoke reduction function abnormality and the location information and / or the OBD diagnostic information preferably include a data structure corresponding to the wireless communication function provided in the device.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may be short message (SMS) and / or multimedia. Preferably, information corresponding to the smoke reduction function abnormality is generated in response to a message structure including a message (MMS), and information corresponding to the smoke reduction function abnormality through the wireless messaging function of the wireless communication function; It is desirable to transmit the current location information of the device and / or the OBD diagnostic information to a predetermined management server 1198.

Alternatively, when the wireless communication unit 1149 includes a predetermined wireless Internet function, the device may generate information corresponding to the smoke reduction function in response to a data structure based on the wireless Internet protocol. In addition, it is preferable to transmit the information corresponding to the smoke reduction function and the current location information and / or OBD diagnostic information of the device to a predetermined management server (1198) through the wireless Internet function of the wireless communication function.

Alternatively, when the wireless communication unit 1149 includes a predetermined instant messaging function, the device may generate information corresponding to the smoke reduction function corresponding to a data structure based on the instant messaging protocol. In addition, it is preferable to transmit the information corresponding to the smoke reduction function and the current location information and / or OBD diagnostic information of the device to a predetermined management server 1198 through the instant messaging function of the wireless communication function.

Alternatively, when the wireless communication unit 1149 includes a predetermined mail function, the device preferably generates information corresponding to the abnormal smoke reduction function in response to a data structure based on the mail protocol. The mail function of the wireless communication function may transmit information corresponding to the smoke reduction function abnormality, current location information of the device, and / or OBD diagnosis information to a predetermined management server 1198.

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

On the other hand, if the validity of the smoke reduction function is authenticated (1320), the device stores (1345) at least one or more sensing data collected (or corresponding to the normal operation of the smoke reduction function) in the memory. It is determined whether the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory is transmitted to a predetermined management server 1118 through a wireless communication network (1350).

If the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory has not yet been transmitted to the management server 1198 (1355), the device is predetermined to the smoke reduction device 1100. Check whether the exhaust gas flows in, and repeats the process of collecting and reading at least one sensing signal (or sensing data) for confirming the effectiveness of the smoke reduction function.

On the other hand, if the sensing data stored in the memory (or the information corresponding to the normal operation of the smoke reduction function) is transmitted to the management server 198 (1355), the device from the OBD device 197 provided in the vehicle Acquire at least one OBD diagnostic information (1360), generate (or calculate) position information corresponding to the current position of the device (1365) through the GPS-based positioning function shown in FIG. The stored sensing data (or information corresponding to the normal operation of the smoke reduction function), location information, and / or OBD diagnostic information are transmitted to a predetermined management server through a predetermined wireless communication network (1370).

According to an embodiment of the present invention, the sensing data (or information corresponding to the normal operation of the smoke reduction function) and the location information and / or the OBD diagnostic information stored in the memory correspond to data corresponding to a wireless communication function provided in the device. It is preferable to comprise a structure.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may include a short message (SMS) and / Or generating sensing data (or information corresponding to normal operation of the smoke reduction function) stored in the memory in response to a message structure including a multimedia message (MMS), and furthermore, a wireless messaging function of the wireless communication function. It is preferable to transmit the sensing data (or information corresponding to the normal operation of the smoke reduction function) and the current location information and / or OBD diagnostic information of the device stored in the memory to a predetermined management server (1198).

Alternatively, when the wireless communication unit 1119 includes a predetermined wireless Internet function, the device may be configured to perform sensing data (or normal operation of the smoke reduction function) stored in the memory in response to a data structure based on the wireless Internet protocol. And information corresponding to normal operation of the smoke reduction function and current location information of the device and the sensing data stored in the memory through the wireless Internet function of the wireless communication function. And / or transmit the OBD diagnostic information to a predetermined management server 1198.

Alternatively, when the wireless communication unit 1955 includes a predetermined instant messaging function, the device may operate in response to a data structure based on the instant messaging protocol, and sense data stored in the memory (or normal operation of the smoke reduction function). And information on the sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) and the current location of the device through the instant messaging function of the wireless communication function. It is preferable to transmit the information and / or OBD diagnostic information to a predetermined management server (1198).

Alternatively, when the wireless communication unit 1195 includes a predetermined mail function, the device corresponds to the normal operation of the sensing data (or the smoke reduction function) stored in the memory in response to a data structure based on the mail protocol. And sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) and the current position information of the device and / or through the mail function of the wireless communication function. It is preferable to transmit the OBD diagnostic information to a predetermined management server 1198.

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

14 is a diagram illustrating a function configuration of a GPS-based LBS terminal device 1450 having an OBD linked smoke reduction device 1400 monitoring function according to another exemplary embodiment of the present invention.

In more detail, FIG. 14 shows whether the smoke reduction function is abnormal and / or is removed by using at least one or more sensors, and at least one smoke reduction function is abnormal and / or is removed, when the OBD ( In connection with On-Board Diagnostics, it monitors whether there is an abnormality and / or removal of the smoke reduction device 1400 provided in the vehicle, and the corresponding communication device 1497 provided in the vehicle for information corresponding thereto. GPS-based LBS terminal device 1450 having a function of monitoring OBD-associated smoke reduction device 1400 that transmits to a predetermined management server 1198 through a wireless communication based navigation device provided in a vehicle. As to those skilled in the art to which the present invention pertains, GPS with an OBD associated smoke reduction device (1400) monitoring function by referring to and / or modified in Figure 14 Would be able to infer a variety of exemplary methods for the semi-LBS terminal apparatus 1450. functional structure, the present invention includes all the embodiments in which the inference method, not limited to the exemplary method shown in the figure 14.

For example, FIG. 14 shows that the GPS-based LBS terminal device 1450 for monitoring the OBD-associated smoke reduction device 1400 is provided to an engine unit and / or an exhaust unit 1435 provided in a predetermined vehicle through a predetermined interface means. A GPS-based device which is connected to a smoke reduction device 1400 (and / or various sensors provided in the flame reduction device) to reduce the smoke of the vehicle and performs a self-diagnosis and control function for the smoke reduction device 1400. Although illustrated and described as having an LBS terminal device 1450, the present invention is by no means limited thereto.

For example, the smoke reduction device 1400 and the GPS-based LBS terminal device 1450 shown in FIG. 14 are integrated devices (eg, heat dissipation for heat emitted from the vehicle engine unit and / or the exhaust unit 1435). It is possible to be configured in the form (apparatus provided in a predetermined case) having a function, and / or anti-vibration function, by which the present invention is not limited.

In addition, among the GPS-based LBS terminal device 1450 shown in FIG. 14, the smoke reduction device 1400 (and / or various sensors provided in the flame reduction device) is connected to the smoke reduction device 1400. A functional component for performing a diagnosis and control function is separated into a separate self-diagnostic device to self-diagnose the smoke reduction device 1400, and the GPS-based LBS terminal device 1450 is connected to the self-diagnostic device. By diagnosing the state of the abatement device 1400, it is possible to confirm whether there is an abnormality and / or removal, and the present invention is not limited thereto.

In addition, when the self-diagnostic apparatus is separated from the GPS-based LBS terminal apparatus 1450 illustrated in FIG. 11 as described above, the self-diagnostic apparatus and the smoke reduction apparatus 1400 are integrated into a device (for example, the vehicle engine unit). And / or a device provided in a predetermined case having a heat dissipation function and / or an anti-vibration function for the heat discharged from the exhaust part 1435), whereby the present invention It is not limited.

In addition, the GPS-based LBS terminal device 1450 shown in FIG. 14 may be provided integrally with the OBD device 197 (or ECU device) provided in the vehicle, and the present invention is not limited thereto. .

In addition, when the vehicle is provided with a separate communication function in addition to the GPS-based LBS terminal device 1450, the GPS-based LBS terminal device 1450 is the abnormality of the smoke reduction device 1400 through the communication function and It is possible to be configured in the form of transmitting the information corresponding to the removal to the management server (1198), whereby the present invention is not limited.

Referring to FIG. 14 according to an embodiment of the present invention, the GPS-based LBS terminal device 1450 having the OBD-associated smoke reduction device 1400 monitoring function is provided in a predetermined vehicle through a predetermined interface means. The smoke reduction device 1400 connected to the smoke reduction device 1400 (and / or various sensors included in the flame reduction device) provided in the engine unit and / or the exhaust unit 1435 to reduce the smoke of the vehicle. To perform the self-diagnostic and monitoring function for the smoke reduction device 1400, at least one smoke reduction function abnormality and / or when the removal occurs, the smoke reduction device 1400 if there is an abnormality and / or removal GPS-based Location Base System (LBS) terminal head which transmits the information to the predetermined management server 1198 through a communication device 1497 (eg, a wireless communication based navigation device provided in the vehicle) provided in the vehicle. It is characterized by comprising a tooth.

The vehicle equipped with the terrestrial LBS terminal device 150 equipped with the OBD-associated smoke reduction device 1400 monitoring function according to the present invention is the engine unit through at least one or more sensors and the state of the transmission that may affect it. An on-board diagnostics (OBD) device for diagnosing is provided.

Although there are some differences among manufacturers of vehicles, most OBS devices are provided with a serial port for providing the OBD diagnostic information to at least one external device. The GPS-based LBS terminal device 1450 according to the present invention is provided. ) Is connected to the OBD device 197 provided in the vehicle through a predetermined serial communication, thereby obtaining at least one OBD diagnostic information from the OBD device 197.

Referring to the regulations of the currently commercialized OBD-II, the OBD device 197 that satisfies the OBD-II standard diagnoses the parts and the cause when the vehicle exhaust gas increases due to the failure of the parts and the like. Malfunction Indicator Lamp (MIL) should be turned on and fault information corresponding to the above diagnosis result should be confirmed by standard diagnosis equipment.

In more detail, the OBD device 197 that satisfies the OBD-II standard should turn on a warning light before the exhaust gas reaches 1.5 times the legal limit due to the failure or degradation of the following parts provided in the vehicle. II Target parts include catalyst purification rate (except catalyst purification rate is HC emission only, phase-in applied from TLEV to 1.75 times HC limit), MISFIRE, EGR system, O2 sensor, fuel system, secondary Normal operation of all sensors and actuators used in the 2nd Air System, or engine control, and diagnosis of wire breaks or short circuits, or full Evapo. Diagnosis of leaks in the system, or failure diagnosis when the PCV valve and the crankcase are disconnected or between the PCV valve and the intake manifold, or within a certain time after starting the engine This may include thermostat failure diagnosis when the temperature cannot be reached to diagnose the item.

That is, the OBD device 197 is an unburned material of the exhaust gas at the front end of the engine unit and / or the exhaust unit 1435 (for example, fuel injection and engine operation and transmission, etc.) equipped with the smoke reduction device according to the present invention. And / or a function of diagnosing an increase in harmful substances.

Those skilled in the art to which the present invention pertains, the technical features of the OBD device 197 that satisfies the OBD-II standard, the OBD diagnosis items diagnosed by the OBD device 197 and each diagnostic item The technical features of the corresponding OBD diagnostic information and the technical features of acquiring at least one OBD diagnostic information through serial communication from the OBD device 197 will be understood. Therefore, a detailed description thereof will be omitted for convenience.

Referring to FIG. 14, the smoke reduction device 1400 includes a smoke reduction unit 1405 provided in an engine unit and / or an exhaust unit 1435 in the vehicle to reduce the smoke of the vehicle, and the smoke reduction unit ( An inlet-side sensor unit 1410 provided at an inlet of 1405 to sense the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1405, and / or to sense the exhaust gas compound; An outlet side sensor unit provided at an outlet of the smoke reduction unit 1405 to sense the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1405, and / or to sense the exhaust gas compound; A stripping sensor unit 1415 for sensing whether the smoke reduction device 1400 is removed from the engine unit and / or the exhaust unit 1435, and at least one sensing signal sensed by the sensor unit through a predetermined interface means; GPS based LBS terminal And an interface unit 1425 provided to the device 1450.

In addition, the smoke reduction device 1400 is a power required for the smoke reduction unit 1405 to perform the smoke reduction function, and / or the inlet side sensor unit 1410 flows into the smoke reduction unit 1405. The power required to sense the temperature and / or pressure of the exhaust gas, and / or the exhaust gas compound, and / or the temperature of the exhaust gas flowing out of the smoke reduction unit 1405 And / or a power source required to sense pressure and / or to sense the exhaust gas compound, and / or the stripping sensor unit 1415 may include the smoke reduction device 1400 in the engine unit and / or the exhaust unit 1435. Power required to sense whether the sensor is removed from the device, and / or power required to provide at least one sensing signal to the self-diagnostic apparatus by the interface unit 1425 to the smoke reduction device 1400. It is characterized in that it comprises the further power supply (1440).

In general, the power generation principle of a vehicle includes an engine unit having at least one cylinder, a piston, and a device for converting the reciprocating motion of the piston into a rotational motion, injecting air and fuel into the cylinder in the engine, By reciprocating the piston with the explosive force generated by using or by compression ignition, the power transmission device connected to it comprises the rotation of the wheel of the vehicle by transforming the reciprocating motion into a rotational movement, such power generation In the process, about 200-300 ° C. of exhaust gas is generated, and the exhaust gas flows into an exhaust unit provided in the vehicle through an exhaust gas manifold provided in the engine unit, and the introduced exhaust gas flows. Is discharged to the atmosphere through the exhaust pipe and the silencer constituting the exhaust.

According to the exemplary embodiment of the present invention, the smoke reduction device 1400 explodes by using a spark plug or compression ignition of a mixture of fuel and air in a cylinder of an engine unit provided in the vehicle, and then exploding the corresponding exhaust gas. May be provided in any of the engine unit and / or the exhaust unit 1435 to reduce the soot of the exhaust gas before being discharged from the engine unit to the atmosphere via the exhaust unit, thereby limiting the present invention. No.

According to the exemplary embodiment of the present invention, the smoke reduction device 1400 is preferably provided at a position at which the exhaust gas generated in the engine unit flows into the exhaust unit, whereby the present invention is not limited thereto.

According to another exemplary embodiment of the present invention, the smoke reduction device 1400 may include a specific position of the exhaust portion (eg, the exhaust portion) that passes through the exhaust gas generated in the engine portion to be discharged into the atmosphere after being introduced into the exhaust portion. Exhaust pipe constituting the part, or a silencer), and the present invention is not limited thereby.

According to another exemplary embodiment of the present invention, the smoke reduction device 1400 is a terminal position of the exhaust portion (eg, the exhaust portion) after exhaust gas generated in the engine portion flows into the exhaust portion and is discharged to the atmosphere. Exhaust pipe, or a discharge port such as a silencer), and the present invention is not limited thereby.

The smoke reduction unit 1405 constituting the smoke reduction device 1400 performs a function of reducing smoke contained in the exhaust gas in an engine unit and / or an exhaust unit 1435 provided in a predetermined vehicle. It features.

The method for reducing the smoke of the exhaust gas by the smoke reduction unit 1405 is characterized in that it comprises any one of a method for reducing the smoke through the reburn of the exhaust gas, or a method for reducing the smoke through a catalytic converter.

According to an exemplary embodiment of the present invention, the method for reducing smoke through the catalytic converter includes applying a platinum or rare earth metal material, which is a catalyst, to a predetermined ceramic filter in the smoke reduction unit 1405, thereby selecting an appropriate temperature (eg, , 200 to 300 ° C.), and a method for reducing the unburned components of the exhaust gas.

In addition, the method for reducing smoke using reburning of the exhaust gas includes a method of conveying a part of the exhaust gas from the smoke reduction unit 1405 to the engine unit to reburn unburned components, and the smoke reduction unit 1405. The method may include any one of a method of igniting an unburned component of the exhaust gas through a predetermined ceramic filter and then heating (for example, heating it to 550 ° C. or higher) to reburn it. It is not limited.

According to the exemplary embodiment of the present invention, the soot reduction part 1405 preferably includes at least one of a diesel particulate filter (DPF) and / or a diesel oxidation catalyst (DOC).

Those skilled in the art to which the present invention pertains, since the soot reduction unit 1405 will be familiar with the technical features of various implementation methods for reducing the soot of the exhaust gas, a detailed description thereof Although omitted for convenience, the present invention is not limited thereto, and the present invention includes all types of soot reduction methods.

The exhaust gas inlet of the smoke reduction unit 1405 constituting the smoke reduction device 1400 senses the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1405, and / or the exhaust And an inflow sensor unit 1410 for sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in a gas compound, and the inflow sensor unit 1410. The function of is characterized in that for the exhaust gas generated in the engine unit senses the exhaust gas state before the unburned component is reduced through the soot reduction unit 1405.

According to the exemplary embodiment of the present invention, the inlet-side sensor unit 1410 is characterized by including a temperature sensor for sensing the temperature of the exhaust gas flowing into the smoke reduction unit 1405, wherein the temperature sensor is It is preferable to include an element in which at least one or more electrical characteristics of the resistance value, the current value, or the voltage value are determined in proportion to the temperature.

In addition, the inlet-side sensor unit 1410 is characterized by comprising a pressure sensor for sensing the pressure of the exhaust gas flowing into the smoke reduction unit 1405, wherein the pressure sensor is a resistance value in proportion to the pressure Or an element in which at least one or more electrical characteristics of a current value or a voltage value are determined.

In addition, the inlet-side sensor unit 1410 may include a qualitative analysis signal for identifying whether a specific hazardous substance corresponding to an unburned component is present among the compounds corresponding to the exhaust gas flowing into the smoke reduction unit 1405, and / or the Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount of a specific hazardous substance.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of light of a material) for light of a particular wavelength (e.g. infrared, visible, ultraviolet, etc.). The absorption sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or senses the absorbance of the light ray. It is characterized in that for confirming the amount of the harmful substances in the exhaust gas, a preferred embodiment of the light absorption sensor is as shown in FIG.

The exhaust gas outlet of the smoke reduction unit 1405 constituting the smoke reduction device 1400 senses the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1405, and / or the exhaust And an outflow side sensor unit sensing a qualitative analysis signal and / or a quantitative analysis signal of an unburned component (eg, a hazardous substance) included in a gas compound, and the outflow side sensor unit has a function generated in the engine unit. After the exhaust gas passes through the soot reduction unit 1405 and at least one or more unburned components are reduced, the exhaust gas state is sensed.

According to the exemplary embodiment of the present invention, the outlet side sensor unit may include a temperature sensor configured to sense a temperature of the exhaust gas flowing out of the smoke reduction unit 1405, wherein the temperature sensor is proportional to the temperature. It is preferable to include an element for determining at least one or more electrical characteristics of the resistance value, the current value, or the voltage value.

In addition, the outflow side sensor unit is characterized in that it comprises a pressure sensor for sensing the pressure of the exhaust gas flowing out of the smoke reduction unit 1405, wherein the pressure sensor is a resistance value or a current value in proportion to the pressure Or an element in which at least one or more electrical characteristics of the voltage value are determined.

In addition, the outflow-side sensor unit is a qualitative analysis signal for checking whether there is a specific hazardous substance corresponding to the unburned component among the compounds corresponding to the exhaust gas flowing out from the smoke reduction unit 1405, and / or of the specific hazardous substance Characterized in that it comprises a light absorption sensor for sensing a quantitative analysis signal for confirming the amount.

However, the sensor is never comprised of only the temperature sensor and / or pressure sensor and / or absorbance sensor, and the sensor according to the present invention is a PM (Particle Matter) sensor and / or an oxygen (O 2) sensor and / or a flow. It is characterized by including all kinds of sensors that can be attached to the vehicle, such as (Flow) sensor, it will be apparent that the present invention is not limited by the sensor type.

Each component constituting the compound corresponding to the exhaust gas is characterized by its characteristic absorbance (e.g., the reciprocal of the reciprocal of the transmittance of light of a material) for light of a particular wavelength (e.g. infrared, visible, ultraviolet, etc.). The absorption sensor senses whether the exhaust gas contains the harmful substance through a light beam having a wavelength absorbance characteristic of the specific harmful substance to be detected in the exhaust gas, and / or senses the absorbance of the light ray. It is characterized in that for confirming the amount of the harmful substances in the exhaust gas, a preferred embodiment of the light absorption sensor is as shown in FIG.

The stripping sensor unit 1415 constituting the smoke reduction device 1400 may detect whether the smoke reduction device 1400 is removed from the engine unit and / or the exhaust unit 1435.

According to an exemplary embodiment of the present invention, when the engine unit and / or the exhaust unit 1435 on which the particulate smoke reducing device 1400 is mounted is made of a predetermined conductive material, the stripping sensor unit 1415 may include at least two electrical parts. The contact point 1430 is electrically connected to the engine part and / or the exhaust part 1435 when the smoke reduction device 1400 is mounted on the engine part and / or the exhaust part 1435. By applying a predetermined electricity to flow into the contact point 1430, and detecting a change in a resistance value, a current value, or a voltage value with respect to the applied electricity, thereby preventing the smoke reduction device 1400. It is preferable to sense whether is removed from the engine unit and / or the exhaust unit 1435.

The sensing signal sensed by the inflow side sensor unit 1410, the outflow side sensor unit and the stripping sensor unit 1415 includes an analog signal including at least one of a resistance value, a current value, or a voltage value. The interface unit 1425 constituting the smoke reduction device 1400 may provide the sensing signal to the GPS-based LBS terminal device 1450 through a predetermined interface means.

According to an embodiment of the present invention, the interface unit 1425 for providing the sensing signal to the GPS-based LBS terminal device 1450 may provide the sensing signal in the form of the analog signal through an interface means including a predetermined wire. It is preferable to provide to the GPS-based LBS terminal device 1450, wherein the analog signal is converted into a digital signal by a predetermined analog to digital converter (ADC) provided in the GPS-based LBS terminal device (1450) desirable.

According to another exemplary embodiment of the present invention, the interface unit 1425 providing the sensing signal to the GPS-based LBS terminal device 1450 converts the sensing signal in the form of the analog signal into a digital signal through a predetermined ADC. Then, it is preferable to provide the digital signal to the GPS-based LBS terminal device 1450 through an interface means including a predetermined wire (or data bus).

The power supply unit 1440 included in the smoke reduction device 1400 is required for the smoke reduction unit 1405 to perform the smoke reduction function from a predetermined power supply unit 1445 including a battery included in the vehicle. A power source and / or a power source required for sensing the temperature and / or pressure of the exhaust gas flowing into the smoke reduction unit 1405 and / or sensing the exhaust gas compound; And / or a power source required for sensing the temperature and / or pressure of the exhaust gas flowing out of the smoke reduction unit 1405 and / or sensing the exhaust gas compound, and / or the stripping sensor The power supply required to sense whether the unit 1415 is removed from the engine unit and / or the exhaust unit 1435, and / or the interface unit 1425 is sensed by at least one. It is characterized in that for applying the power, etc. required to provide a signal to the self-diagnostic apparatus to the soot reduction device 1400.

According to the exemplary embodiment of the present invention, the power supply unit 1440 may further include a function of charging power applied from a predetermined power supply unit 1445 including a battery provided in the vehicle. Even if power is not applied from a predetermined power supply unit 1445 including a battery provided in the vehicle, the stripping sensor unit 1415 may cause the smoke reduction device 1400 to be removed from the engine unit and / or the exhaust unit 1435. It is preferable that the power required to sense whether or not to be removed, and / or the power required to provide at least one sensing signal to the self-diagnostic apparatus by the interface unit 1425 may be applied to the smoke reduction device 1400.

According to the exemplary embodiment of the present invention, the power supply unit 1440 may include a signal including at least one of a current value and a voltage value corresponding to the power applied from a predetermined power supply unit 1445 including a battery provided in the vehicle. By providing the GPS-based LBS terminal device 1450 through the interface unit 1425, a predetermined power source is supplied from the predetermined power supply unit 1445 including a battery included in the vehicle. It is preferable to process to confirm that it is applied.

Referring to FIG. 14, the GPS-based LBS terminal device 1450 includes a location positioning unit 1455 for positioning a current location based on a global positioning system (GPS), and the smoke reduction device 1400 through a predetermined interface means. The signal collection unit 1490 for collecting at least one sensing signal sensed by the) and through a predetermined communication device 1497 (eg, wireless communication based navigation provided in the vehicle) provided in the vehicle A communication processing unit 1495 for connecting a communication channel with the management server 1198, and transmitting and receiving at least one information (or data) to the management server 1198 through the communication channel, and the signal collection unit 1490. The memory unit 1496 storing at least one sensing data corresponding to the sensing signal collected by the at least one sensing signal and the at least one sensing signal collected through the signal collecting unit 1490. Check whether there is an abnormality and / or removal of the device 1400, and if there is an abnormality and / or removal of the smoke reduction device 1400, if there is an abnormality and / or removal of the smoke reduction device 1400 And a GPS-based LBS terminal apparatus 1450 controller 1465 for generating corresponding information and providing the information to the communication processor 1495 and / or storing the corresponding information in the memory processor 1496.

According to the present invention, the GPS-based LBS terminal device 1450 is at least from the OBD device 197 (e.g., OBD device 197 conforming to OBD-II or higher standard) provided in the vehicle through a predetermined serial communication. And an information acquisition unit 1460 for acquiring one or more OBD diagnostic information.

According to an embodiment of the present invention, the information acquisition unit scans at least one information collected by the OBD device from an external communication serial port provided in the OBD device through a predetermined OBD scan protocol standard defined in the OBD device. It is preferable to obtain the OBD diagnostic information.

According to another exemplary embodiment of the present invention, the information acquisition unit is electrically connected to a wire for applying a predetermined MIL lighting power (or signal) to the at least one warning light (MIL) provided in the vehicle in the OBD device. Generating an OBD diagnostic information corresponding to the warning light MIL from the OBD device by generating a trigger corresponding to a power applied to the warning light MIL in the OBD device, and / or in the OBD device; It is preferable to obtain OBD diagnostic information corresponding to the warning light (MIL) from the OBD device through a signal transmitted to MIL).

Positioning unit 1455 constituting the GPS-based LBS terminal device 1450 is characterized in that it comprises a GPS chipset, the horizontal coordinate system of the current location where the vehicle is equipped with the GPS-based LBS terminal device 1450 Receive at least one satellite transmission signal required for GPS-based position calculation from at least four or more GPS satellites located in the air based on the, and the current of the vehicle equipped with the GPS-based LBS terminal device 1450 from the satellite transmission signal It is characterized by positioning the position.

Those skilled in the art to which the present invention belongs, the position location unit 1455 receives at least one satellite transmission signal to position the current position of the vehicle equipped with the GPS-based LBS terminal device 1450 Since it will be familiar with the technical features, a detailed description thereof will be omitted for convenience.

In addition, the position location unit 1155 may be positioned based on Assisted Global Positioning System (A-GPS) or positioning based on DGPS (Difference GPS) for more accurate positioning, thereby limiting the present invention. Not.

The signal collection unit 1490 constituting the GPS-based LBS terminal device 1450 is electrically connected to the interface unit 1425 of the smoke reduction device 1400 through a predetermined interface means. Collecting at least one sensing signal from the reduction device 1400.

According to an embodiment of the present invention, when the GPS-based LBS terminal device 1450 is provided with a cradle near the driver's seat of the vehicle, the GPS-based LBS terminal device 1450 outputs the state of the smoke reduction device 1400. It is possible to further comprise a screen output unit, or at least one or more LED (Light Emitting Diode) that can check the state of the smoke reduction device 1400, and the present invention is not limited thereby.

In addition, when the GPS-based LBS terminal device 1450 is provided with a cradle near the driver's seat of the vehicle, the GPS-based LBS terminal device 1450 is at least one of the at least one sensor provided in the smoke reduction device 1400 It is possible to further comprise a key input for activating / deactivating the above sensor function, by which the present invention is not limited.

According to the exemplary embodiment of the present invention, the sensing signal collected by the signal collection unit 1490 from the smoke reduction device 1400 through the interface means is the inflow sensor unit provided in the smoke reduction device 1400. Or a pressure sensing signal sensed by the pressure sensor of the inlet sensor unit 1410, and / or the temperature sensing signal sensed by the temperature sensor of 1410, and / or It is preferable to include a qualitative analysis signal and / or quantitative analysis signal sensed by the light absorption sensor of the inlet-side sensor unit 1410.

In addition, the sensing signal collected by the signal collection unit 1490 from the smoke reduction device 1400 through the interface means is sensed by the temperature sensor of the outflow side sensor unit provided in the smoke reduction device 1400. A qualitative analysis signal including a temperature sensing signal and / or a pressure sensing signal sensed by a pressure sensor of the outflow sensor and / or sensed by an absorbance sensor of the outflow sensor and And / or a quantitative signal.

In addition, the sensing signal collected by the signal collection unit 1490 from the smoke reduction device 1400 through the interface means is sensed by the stripping sensor unit 1415 provided in the smoke reduction device 1400. It is preferable to include the stripped sensing signal.

In addition, the sensing signal collected by the signal collection unit 1490 from the smoke reduction device 1400 through the interface means is provided in the vehicle by the power supply unit 1440 provided in the smoke reduction device 1400. It is preferable to include a power supply signal for confirming whether a predetermined power is effectively applied from a predetermined power supply unit 1445 including a battery.

According to the exemplary embodiment of the present invention, the sensing signal collected by the signal collection unit 1490 may include an analog signal including at least one of an electrical resistance value, a current value, or a voltage value. To this end, the signal collection unit 1490 preferably further comprises an ADC for converting the analog signal into a predetermined digital signal.

According to another exemplary embodiment of the present disclosure, the sensing signal collected by the signal collection unit 1490 may include a digital signal corresponding to at least one of an electrical resistance value, a current value, or a voltage value. Preferably, the interface means for connecting the signal collection unit 1490 and the interface unit 1425 of the smoke reduction device 1400 comprises an RS-232c-based data signal line (or data bus) It is preferable.

The communication device 1497 provided in the vehicle (eg, the wireless communication based navigation provided in the vehicle) is based on a predetermined management server 1198 and a CDMA stack through a wireless communication network based on a code division multiple access (CDMA) stack. A management server 1198 and an IEEE 802.16x based communication channel through an IEEE 802.16x based wireless communication network, or a predetermined management server through an IEEE 802.11x based wireless communication network. 1198 and IEEE 802.11x-based communication channel, or connect a predetermined management server (1198) and DataTAC / Mobitex-based communication channel through a DataTAC / Mobitex-based wireless communication network, or digital multimedia broadcasting (Digital DMB-based communication channel is connected to a predetermined management server 1198 through a multimedia brovasting (DMB) -based return channel, or through a wireless positioning network based on a terrestrial location base system (LBS). It is characterized by connecting a predetermined management server (1198) and a terrestrial LBS-based communication channel.

According to an embodiment of the present invention, when the communication device 1497 provided in the vehicle connects a predetermined management server 1198 and a CDMA stack-based communication channel through the CDMA stack-based wireless communication network, the communication Device 1497 is characterized in that it comprises a wireless modem chip corresponding to any one of the MSM series of Qualcomm of the United States and the RF communication module based on the CDMA stack, through which the communication device 1497 corresponds to the CDMA stack Mobile communication function including location registration and / or slot mode and / or power control and / or hand-off and / or call processing procedures on a mobile communication network And a RF processing function (eg, an antenna) for transmitting and receiving radio frequency signals with a base station corresponding to an end of a mobile communication network in a process of providing the mobile communication function. Control, modulating, synthesizing, amplifying, and / or filtering the radio frequency signal) to transmit and receive at least one or more information (or data) with a predetermined management server 1198 through the mobile communication network. For example, it is desirable to connect a wireless message including a short message or a multimedia message, or a data channel for the wireless Internet.

Alternatively, when the communication device 1497 provided in the vehicle connects a predetermined management server 1198 and an IEEE 802.16x based communication channel through an IEEE 802.16x based wireless communication network, the communication device 1497 And an RF communication module and a wireless communication chip corresponding to the IEEE 802.16x standard. Through this, the communication device 1497 is capable of orthogonal frequency division multiplexing (OFDMA) on a mobile Internet (WiBro) corresponding to IEEE 802.16x. By assigning a Mobile IP (MIP) address using an Access / TDD (Time Division Duplex) wideband wireless transmission technology, a predetermined management server 1198 and at least one information (or data) are transmitted through the mobile Internet. It is preferable to connect a communication channel for transmission and reception.

Alternatively, when the communication device 1497 provided in the vehicle connects a predetermined management server 1198 and an IEEE 802.11x-based communication channel through an IEEE 802.11x-based wireless communication network, the communication device 1497 And a wireless communication chip and an RF communication module corresponding to the IEEE 802.11x standard. The communication device 1497 may be configured in a hot spot on a wireless LAN (WiBro) corresponding to IEEE 802.11x. By receiving the WLAN-based MIP address, it is preferable to connect a communication channel for transmitting and receiving at least one or more information (or data) with a predetermined management server 1198 through the WLAN.

Alternatively, when the communication device 1497 provided in the vehicle connects a predetermined management server 1118 and a DataTAC / Mobitex-based communication channel through a DataTAC / Mobitex-based wireless communication network, the communication device 1497 is And a radio communication chip and an RF communication module corresponding to the DataTAC / Mobitex standard, through which the communication device 1497 uses a predetermined management server 1198 through a wireless data communication network corresponding to DataTAC / Mobitex. It is preferable to connect a communication channel for transmitting and receiving at least one information (or data).

Alternatively, when the communication device 1497 provided in the vehicle connects a predetermined management server 1118 and a DMB-based communication channel through a DMB-based return channel, the communication device 1497 may be configured according to the DMB standard. And a radio communication chip corresponding to a return channel and an RF communication module, through which the communication device 1497 communicates with the predetermined management server 1198 and at least one or more information through a return channel corresponding to the DMB. Or data) it is preferable to connect a communication channel for transmission and reception.

Alternatively, when the communication device 1497 provided in the vehicle connects a predetermined management server 1118 and a terrestrial LBS-based communication channel through a terrestrial LBS-based wireless positioning network, the communication device 1497 may be used. And a radio communication chip and an RF communication module corresponding to the terrestrial LBS standard, whereby the communication device 1497 is provided with at least one of a predetermined management server 1198 through a radio positioning network corresponding to the terrestrial LBS. A communication channel for transmitting and receiving the above information (or data) (for example, a communication channel including at least one or more information (or data) in a wireless communication protocol between a terrestrial LBS terminal and a terrestrial LBS base station for terrestrial LBS-based wireless positioning). It is preferable to connect.

Those skilled in the art, the communication device 1497 is a CDMA stack-based wireless communication network, or IEEE 802.16x-based wireless communication network, or IEEE 802.11x-based wireless communication network, or DataTAC / A predetermined management server 1198 through at least one of a Mobitex-based wireless communication network, a digital multimedia broadcasting (DMB) -based return channel, or a terrestrial location base system (LBS) based wireless positioning network. Since it will be familiar with the technical features for connecting a communication channel for transmitting and receiving at least one or more information (or data), a detailed description thereof will be omitted for convenience.

The memory unit 1496 constituting the GPS-based LBS terminal device 1450 stores at least one sensing data corresponding to a sensing signal collected by the signal collection unit 1490 for a predetermined period of time. At least one flash memory (FM), an electrically erasable and programmable read only memory (EEPROM), or the like may be included.

According to an embodiment of the present invention, the communication processing unit 1495 is connected to the management server 1198 at least through a predetermined communication device 1497 (eg, wireless communication based navigation provided in the vehicle) provided in the vehicle. Connecting a communication channel for transmitting and receiving one or more information (or data), and / or transmitting and receiving at least one or more information (or data) through the communication channel may be performed for a predetermined time in the GPS-based LBS terminal device 1450. It is possible to generate the signal periodically as one period, or simultaneously generate the at least one sensing signal from the smoke reduction device 1400 to the GPS-based LBS terminal device 1450.

For example, if at least one sensing signal sensed by the smoke reduction device 1400 and provided to the GPS-based LBS terminal device 1450 is valid, the GPS-based LBS terminal device 1450 may be connected to the management server 1198. It is preferable not to transmit information (or data), and / or to transmit predetermined information (or data) to the management server 1198 periodically.

On the other hand, if at least one or more sensing signals sensed by the smoke reduction device 1400 and provided to the GPS-based LBS terminal device 1450 correspond to abnormality and / or removal of the smoke reduction device 1400, the GPS-based The LBS terminal device 1450 preferably transmits predetermined information (or data) corresponding to the presence or absence of an abnormality and / or removal of the smoke reduction device 1400 to the management server 1198 immediately.

According to the exemplary embodiment of the present invention, the memory unit 1496 reads at least one sensing signal from the control unit 1465 to check whether the smoke reducing device 1400 is abnormal and / or removes the smoke, and removes the smoke. If abnormality and / or removal of the abatement device 1400 is confirmed, information corresponding to the abnormality and / or removal of the smoke reduction device 1400 is generated and provided to the communication processor 1495, and / Alternatively, a program routine for performing a function of storing in the memory unit 1496 is recorded.

The control unit 1465 constituting the GPS-based LBS terminal device 1450 includes a processor and an execution memory that includes a CPU / MPU in hardware, and includes at least one recorded in the memory unit 1496 (or a memory device). The above-described program routine (Routine) and / or a bus (BUS) for inputting and outputting the program data and a predetermined electronic circuit (or integrated circuit) provided for this, characterized in that the memory unit 1496 in software (Or a generic term for program routines and / or program data loaded into the execution memory from the memory device and processed by the processor to perform a specific function (hence, in the present invention, the GPS-based LBS terminal device 1450). A program routine recorded on the recording medium for performing the function of the control unit 1465 is shown for convenience. By reading at least one sensing signal collected through the signal collection unit 1490 to check whether there is an abnormality and / or removal of the smoke reduction device 1400, and the smoke reduction device ( If the abnormality and / or removal of the abnormality of the 1400 is confirmed, the information corresponding to the abnormality and / or the removal of the smoke reduction device 1400 is generated and provided to the communication processor 1495, and / or the memory. A function to store in the unit 1496 is performed.

According to the exemplary embodiment of the present invention, the controller 1465 may operate in conjunction with the ECU provided in the vehicle to determine an operating condition (eg, an initial RPM value, etc.) of the vehicle according to whether or not the smoke reducing device 1400 is abnormal. It is preferable to further comprise the function to control.

Referring to FIG. 14, the GPS-based LBS terminal device 1450 reads at least one or more sensing signals collected through the signal collection unit 1490 and whether the smoke reduction device 1400 is abnormal and / or is removed. When the signal check unit 1470 confirms that there is an abnormality and / or removal of the smoke reduction device 1400, and generates information corresponding to the abnormality and / or removal of the smoke reduction device 1400. The GPS generated by the location positioning unit 1455 and information corresponding to an abnormality and / or removal of the smoke reduction device 1400 in association with the information generating unit 1475 and the communication processing unit 1495. And an information transmitter 1480 for transmitting the location information of the base LBS terminal device 1450 and / or the at least one OBD diagnosis information obtained from the OBD device 197 to a predetermined management server 1198. It features.

In addition, the GPS-based LBS terminal device 1450 converts sensing data (eg, sensing signals corresponding to analog signals) corresponding to at least one or more sensing signals collected through the signal collection unit 1490 through a predetermined ADC. And an information storage unit for storing one digital signal) in the memory unit 1496.

The signal checking unit 1470 reads sensing data corresponding to a sensing signal sensed by the temperature sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the smoke reduction device 1400. It is preferable to check whether the exhaust gas temperature flowing into the smoke reduction unit 1405 includes an appropriate temperature for reducing the smoke.

For example, even after a predetermined time (for example, an engine heating time) has elapsed from the engine unit of the vehicle, the exhaust gas temperature flowing into the smoke reduction unit 1405 does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). Winter, etc. to maintain the sub-zero temperature range, the signal check unit 1470 through the smoke reduction device 1400 control function (not shown) of the GPS-based LBS terminal device 1450 (not shown) the smoke reduction device 1400 The temperature of the exhaust gas flowing into the smoke reduction unit 1405 may be heated (for example, an exhaust gas heating unit (not shown) may be provided on the inlet side of the smoke reduction apparatus 1400 to heat the exhaust gas temperature).

In addition, when the ambient temperature of the vehicle maintains room temperature, the signal checking unit does not include an appropriate temperature for reducing the smoke when the temperature of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction device 1400 is reduced. 1470 may determine that an abnormality has occurred in the engine of the vehicle.

When it is confirmed that the abnormality has occurred in the engine by the signal checking unit 1470, the information obtaining unit 1460 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the signal checking unit 1470 reads sensing data corresponding to a sensing signal sensed by the temperature sensor of the outflow side sensor unit of the smoke reduction apparatus 1400, thereby suppressing smoke of the smoke reduction apparatus 1400. It is preferable to check whether the exhaust gas temperature flowing out from the reduction unit 1405 includes the effective temperature after performing the smoke reduction function of the smoke reduction unit 1405.

For example, the smoke reduction unit 1405 of the smoke reduction device 1400 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of re-burning, it is preferable to check whether the soot reduction device 1400 is abnormal by checking whether the temperature after the reburning corresponds to the heating temperature, and if the temperature after the reburning corresponds to the heating temperature. If not, the signal checking unit 1470 confirms that an abnormality has occurred in the smoke reducing unit 1405 of the smoke reducing apparatus 1400.

When it is confirmed by the signal confirming unit 1470 that an abnormality has occurred in the smoke reducing unit 1405 of the smoke reducing apparatus 1400, the information obtaining unit 1460 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1470 may include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, and a temperature sensor of the outflow sensor unit. By comparing the sensing data corresponding to the sensing signal sensed by the above, by checking the temperature change of the exhaust gas passing through the smoke reduction device 1400, corresponding to the smoke reduction unit 1405 of the smoke reduction device 1400 It is preferable to check whether any abnormality occurs in the smoke reduction function according to each smoke reduction method.

When it is confirmed by the signal checking unit 1470 that an error occurs in the smoke reduction function, the information obtaining unit 1460 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 1470 reads sensing data corresponding to a sensing signal sensed by the pressure sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the smoke reduction device 1400. It is preferable to check whether the exhaust gas pressure flowing into the smoke reduction unit 1405 of the () includes an appropriate pressure required to reduce the smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 1405 does not include a proper pressure required to reduce the smoke, the signal checking unit 1470 may include the smoke reduction device of the GPS-based LBS terminal device 1450. 1400 pressurizes the pressure of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction apparatus 1400 through a control function (not shown) (for example, the exhaust gas pressurization unit at the inflow side of the smoke reduction apparatus 1400). (Not shown) to pressurize the exhaust gas pressure.

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction device 1400 does not include an appropriate pressure necessary for reducing the smoke, the signal checking unit 1470 is abnormal to the exhaust pipe of the vehicle. It can be confirmed that this has occurred.

When it is confirmed by the signal confirming unit 1470 that a malfunction occurs in the exhaust pipe of the vehicle, the information obtaining unit 1460 obtains at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to.

In addition, the signal checking unit 1470 reduces the smoke of the smoke reducing apparatus 1400 by reading sensing data corresponding to a sensing signal sensed by the pressure sensor of the outflow side sensor of the smoke reducing apparatus 1400. It is preferable to check whether the exhaust gas pressure flowing out from the unit 1405 includes the effective pressure after performing the smoke reduction function of the smoke reduction unit 1405.

For example, the smoke reduction unit 1405 of the smoke reduction device 1400 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 1400 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not, the signal checking unit 1470 confirms that an abnormality has occurred in the smoke reducing unit 1405 of the smoke reducing device 1400.

When it is confirmed by the signal confirming unit 1470 that an abnormality has occurred in the smoke reducing unit 1405 of the smoke reducing apparatus 1400, the information obtaining unit 1460 is provided from the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1470 may include sensing data corresponding to a sensing signal sensed by the pressure sensor of the inlet sensor unit 1410 of the smoke reduction device 1400, and a pressure sensor of the outlet sensor unit. By comparing the sensing data corresponding to the sensing signal sensed by the, by checking the pressure change of the exhaust gas passing through the smoke reduction device 1400, corresponding to the smoke reduction unit 1405 of the smoke reduction device 1400 It is preferable to check whether an abnormality occurs in the smoke reduction function according to each smoke reduction method.

When it is confirmed by the signal checking unit 1470 that an error occurs in the smoke reduction function, the information obtaining unit 1460 may obtain at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle. desirable.

In addition, the signal checking unit 1470 reads sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the smoke reduction device 1400. Check whether there is an unburned component (or harmful substance) to be reduced in the smoke reduction unit 1405 among the unburned components (or harmful substances) included in the exhaust gas flowing into the smoke reduction unit 1405). It is desirable to.

For example, when the exhaust gas flowing into the smoke reduction unit 1405 is absorbed by a light ray having a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the signal checking unit 1470 is configured to reduce the smoke. The exhaust gas flowing into the smoke reduction unit 1405 of 1400 includes the unburned component (or harmful substance) to be reduced.

In addition, the signal checking unit 1470 analyzes the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the unburned component to be reduced. It is preferable to calculate calculating the amount of (or noxious substances).

For example, when the exhaust gas flowing into the smoke abatement unit 1405 is absorbed by light of a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the signal checking unit 1470 may be configured for a predetermined time. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

In addition, the signal checking unit 1470 reduces the smoke of the smoke reducing device 1400 by reading sensing data corresponding to a sensing signal sensed by the light absorption sensor of the outflow side sensor of the smoke reducing device 1400. Among the unburned components (or harmful substances) included in the exhaust gas flowing out of the unit 1405, after the reduction in the smoke reduction unit 1405 is performed, it is determined whether the reduced unburned components (or harmful substances) are present. desirable.

For example, when the exhaust gas flowing out to the smoke reduction unit 1405 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the signal confirmation unit 1470 may be configured to reduce the smoke. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing out of the smoke reduction unit 1405 of 1400.

According to the exemplary embodiment of the present invention, the smoke reduction unit 1405 of the smoke reduction device 1400 is designed to remove almost all of the reduction target unburned components (or harmful substances), but the smoke reduction device 1400 When the exhaust gas flowing out of the smoke reduction unit 1405 contains the target unburned component (or harmful substance), the signal checking unit 1470 is a smoke reduction unit 1405 of the smoke reduction device 1400. ) Is confirmed to be an abnormality (or to replace the smoke reduction unit 1405 of the smoke reduction device 1400).

When the signal confirming unit 1470 determines that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the information obtaining unit 1460 includes the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1470 analyzes the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the outflow sensor unit of the smoke reduction device 1400, thereby reducing the unburned component (or harmful substance) to be reduced. It is preferable to calculate the amount of).

For example, when the exhaust gas flowing out to the smoke reduction unit 1405 is absorbed by a light ray having a wavelength corresponding to the reduction target unburned component (or noxious substance), the signal checking unit 1470 performs a predetermined time. By integrating absorbance and substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, the amount of the unburned component (or harmful substance) to be reduced is calculated. Can be calculated.

According to the exemplary embodiment of the present invention, although the smoke reduction unit 1405 of the smoke reduction device 1400 is designed to remove a part of the reduction target unburned component (or harmful substance), the smoke reduction device 1400 If the amount of the unburned component (or noxious substance) to be reduced included in the exhaust gas flowing out of the smoke reduction unit 1405 does not reduce the designed reference amount, the signal checking unit 1470 may include the smoke reduction device ( It is confirmed that an abnormality has occurred in the smoke reduction unit 1405 of 1400 (or that the smoke reduction unit 1405 of the smoke reduction unit 1400 needs to be replaced).

When the signal checking unit 1470 determines that the amount of at least one unburned component (or harmful substance) to be reduced is included in the exhaust gas by more than a reference amount, the information obtaining unit 1460 is provided in the vehicle. It is preferable to obtain at least one or more OBD diagnostic information from the OBD device 197.

In addition, the signal checking unit 1470 may include sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, and an absorbance sensor of the outflow sensor unit. By comparing the sensing data corresponding to the sensed signal sensed by the check, the performance of the smoke reduction unit 1405 of the smoke reduction device 1400 is confirmed, and if the performance falls below a reference value, the smoke reduction device 1400 Is confirmed that an abnormality has occurred in the smoke reduction unit 1405 (or that the smoke reduction unit 1405 needs to be replaced by the smoke reduction unit 1400).

When it is confirmed by the signal confirming unit 1470 that the performance of the smoke reducing unit 1405 of the smoke reducing device 1400 falls below a reference value, the information obtaining unit 1460 includes the OBD device 197 provided in the vehicle. It is desirable to obtain at least one OBD diagnostic information.

In addition, the signal checking unit 1470 reads sensing data corresponding to a sensing signal sensed by the stripping sensor unit 1415 of the smoke reduction device 1400, thereby providing an engine unit and / or an exhaust unit of the vehicle. In 1435, it is preferable to check whether the smoke reducing device 1400 is removed.

In addition, the signal checking unit 1470 reads data corresponding to an electrical signal corresponding to the power supply unit 1440 of the smoke reduction device 1400, thereby providing a battery provided in the vehicle with the smoke reduction device 1400. It is preferable to check whether a predetermined power is normally applied from a predetermined power supply unit 1445 including a. When the predetermined power is not normally applied to the smoke reduction device 1400, the signal checking unit 1470 It is preferable to confirm that an abnormality occurs in the smoke reduction device 1400 and / or the smoke reduction device 1400 is removed from the engine unit and / or the exhaust unit 1435 of the vehicle.

If there is an abnormality and / or removal of the smoke reduction device 1400 by the signal checking unit 1470, the information generating unit 1475 may determine whether or not the smoke reduction device 1400 is abnormal. And generating information corresponding to the removal, wherein the information transmitting unit 1480 is connected to the communication processing unit 1495 of the smoke reduction device 1400 generated by the information generating unit 1475. At least one OBD obtained from the OBD device 197 and / or information corresponding to abnormality and / or removal and location information of the GPS-based LBS terminal device 1450 positioned by the location location unit 1455. The diagnostic information is transmitted to the management server 1198 through a predetermined communication device 1497 provided in the vehicle.

Here, the information corresponding to the abnormality and / or removal of the smoke reduction device 1400 is a predetermined communication device 1497 that the information transmission unit 1480 is provided in the vehicle in cooperation with the communication processing unit 1495. It is preferable to include a data structure that can be transmitted to the management server (1198) through.

For example, when the predetermined communication device 1497 provided in the vehicle is provided with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information generator 1475 In response to the message structure including a short message (SMS) and / or multimedia message (MMS) it is preferable to generate the information corresponding to the abnormality and / or removal of the smoke reduction device 1400, the information transmission The unit 1480 includes information corresponding to the abnormality and / or detachment of the smoke reduction device 1400 and the GPS-based positioning by the location positioning unit 1455 through the wireless message function of the communication device 1497. Location information of the LBS terminal device 1450 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 is preferably transmitted to a predetermined management server (1198).

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined wireless internet function, the information generator 1475 may reduce the smoke in response to a data structure based on the wireless internet protocol. It is preferable to generate the information corresponding to the abnormality and / or removal of the device 1400, the information transmitting unit 1480 of the smoke reduction device 1400 through the wireless Internet function of the communication device 1497 At least one OBD obtained from the OBD device 197 and / or information corresponding to abnormality and / or removal and location information of the GPS-based LBS terminal device 1450 positioned by the location location unit 1455. It is preferable to transmit the diagnostic information to a predetermined management server (1198).

Alternatively, when a predetermined communication device 1497 provided in the vehicle is provided with a predetermined instant messaging function, the information generator 1475 may reduce the smoke in response to a data structure based on the instant messaging protocol. It is preferable to generate the information corresponding to the abnormality and / or removal of the device 1400, the information transmitting unit 1480 of the smoke reduction device 1400 through the instant messaging function of the communication device (1497) At least one or more information obtained from the OBD device 197 and / or information corresponding to abnormality and / or removal and location information of the GPS-based LBS terminal device 1450 positioned by the location positioning unit 1455. It is preferable to transmit the OBD diagnostic information to a predetermined management server 1198.

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined mail function, the information generation unit 1475 corresponds to the smoke reduction device corresponding to the data structure based on the mail protocol. It is preferable to generate the information corresponding to the abnormality and / or removal of the 1400, the information transmission unit 1480 is the abnormality of the smoke reduction device 1400 through the mail function of the communication device 1497 and And / or information corresponding to the removal and location information of the GPS-based LBS terminal device 1450 positioned by the location location unit 1455 and / or at least one OBD diagnostic information obtained from the OBD device 197. It is preferable to transmit to a predetermined management server 1118.

Alternatively, when a predetermined terrestrial LBS function is provided in a predetermined communication device 1497 provided in the vehicle, the information generator 1475 may reduce the smoke corresponding to a data structure based on the terrestrial LBS protocol. It is preferable to generate the information corresponding to the abnormality and / or removal of the device 1400, the information transmission unit 1480 of the smoke reduction device 1400 through the terrestrial LBS function of the communication device 1497 At least one OBD obtained from the OBD device 197 and / or information corresponding to abnormality and / or removal and location information of the GPS-based LBS terminal device 1450 positioned by the location location unit 1455. It is preferable to transmit the diagnostic information to a predetermined management server (1198).

On the other hand, if there is no abnormality and / or removal of the smoke reduction device 1400 by the signal checking unit 1470, the information generating unit 1475 corresponds to the normal operation of the smoke reduction device 1400. And the information transmitter 1480 corresponds to the normal operation of the smoke reduction device 1400 generated by the information generator 1475 in association with the communication processor 1495. The vehicle is provided with at least one or more OBD diagnostic information obtained from the OBD device 197 and / or the location information of the GPS-based LBS terminal device 1450 that is located by the location positioning unit 1455. Characterized in that it is transmitted to the management server (1198) through a predetermined communication device (1497).

Here, the information (or sensing data) corresponding to the normal operation of the smoke reduction device 1400 is a data structure that the information transmission unit 1480 can transmit to the management server 1198 in association with the communication processing unit 1495. It is preferable to comprise a.

For example, when the predetermined communication device 1497 provided in the vehicle is provided with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information generator 1475 In response to the message structure including a short message (SMS) and / or multimedia message (MMS) it is preferable to generate information (or sensing data) corresponding to the normal operation of the smoke reduction device 1400, The information transmission unit 1480 is positioned by the position location unit 1455 and information (or sensing data) corresponding to the normal operation of the smoke reduction device 1400 through the wireless message function of the communication device 1497. It is preferable to transmit the location information of the GPS-based LBS terminal device 1450 and / or at least one or more OBD diagnosis information obtained from the OBD device 197 to a predetermined management server 1198.

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined wireless internet function, the information generator 1475 may reduce the smoke in response to a data structure based on the wireless internet protocol. It is preferable to generate information (or sensing data) corresponding to the normal operation of the device 1400, and the information transmitting unit 1480 is the smoke reduction device 1400 through the wireless Internet function of the communication device 1497 At least one obtained from the OBD device 197 and / or information corresponding to the normal operation of the data (or sensing data) and the location information of the GPS-based LBS terminal device 1450 positioned by the location positioning unit 1455. It is preferable to transmit the above OBD diagnostic information to a predetermined management server 1118.

Alternatively, when a predetermined communication device 1497 provided in the vehicle is provided with a predetermined instant messaging function, the information generator 1475 may reduce the smoke in response to a data structure based on the instant messaging protocol. It is preferable to generate information (or sensing data) corresponding to the normal operation of the device 1400, and the information transmitting unit 1480 is the smoke reduction device 1400 through the instant messaging function of the communication device 1497 At least one obtained from the OBD device 197 and / or information corresponding to the normal operation of the data (or sensing data) and the location information of the GPS-based LBS terminal device 1450 positioned by the location positioning unit 1455. It is preferable to transmit the above OBD diagnostic information to a predetermined management server 1118.

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined mail function, the information generation unit 1475 corresponds to the smoke reduction device corresponding to the data structure based on the mail protocol. It is preferable to generate information (or sensing data) corresponding to the normal operation of the 1400, the information transmission unit 1480 is the normal operation of the smoke reduction device 1400 through the mail function of the communication device 1497 At least one OBD diagnosis acquired from the OBD device 197 and / or information corresponding to the information (or sensing data) and the location information of the GPS-based LBS terminal device 1450 positioned by the location location unit 1455. It is preferable to transmit the information to the predetermined management server 1118.

According to the exemplary embodiment of the present invention, when no abnormality occurs in the fume reducing apparatus 1400 for a predetermined period (or a predetermined number of sensing times), the information transmitting unit 1480 may have an abnormality of the fume reducing apparatus 1400. And / or increase the period for transmitting the predetermined management server 1198 via the wireless communication network to the information corresponding to the removal and / or at least one or more OBD diagnostic information obtained from the OBD device 197, and vice versa If an abnormality does not frequently occur in the smoke reduction device 1400 during a period (or a predetermined number of sensing times), the information transmission unit 1480 may correspond to an abnormality and / or removal of the smoke reduction device 1400. It is preferable to shorten the period for transmitting the predetermined management server 1198 through the wireless communication network and at least one or more OBD diagnostic information obtained from the OBD device 197.

Alternatively, when it is determined that the vehicle state is good in the process of acquiring the OBD diagnostic information for a predetermined period (or a certain number of sensing times), the information transmitting unit 1480 may have an abnormality and / or detachment of the smoke reduction device 1400. It is preferable to increase the period for transmitting the predetermined management server 198 through the wireless communication network and information corresponding to and / or at least one or more OBD diagnostic information obtained from the OBD device 197, on the contrary for a certain period (or constant sensing If it is determined that the vehicle condition is not good in the process of obtaining the OBD diagnostic information, the information transmitting unit 1480 is the information corresponding to the abnormality and / or removal of the smoke reduction device 1400 and / or Alternatively, the period in which at least one OBD diagnosis information obtained from the OBD device 197 is transmitted through a wireless communication network may be reduced. It is desirable.

When sensing data corresponding to at least one sensing signal collected through the signal collector 1490 is generated, the information storage unit preferably stores the sensing data in the memory unit 1496.

According to the exemplary embodiment of the present invention, when the sensing data stored in the memory unit 1496 corresponds to the normal operation of the smoke reduction device 1400, the information transmitting unit 1480 is connected to the communication processing unit 1495. At least one of the sensing data stored in the memory unit 1496 and the position information of the GPS-based LBS terminal device 1450 positioned by the location positioning unit 1455 and / or the OBD device 197. It is preferable to periodically transmit the above OBD diagnostic information to a predetermined management server 1118.

For example, when the predetermined communication device 1497 provided in the vehicle is provided with at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the information transmitting unit 1480 is provided. Is at least one obtained from the sensing data stored in the memory unit 1496 and the position information of the GPS-based LBS terminal device 1450 positioned by the position location unit 1455 and / or the OBD device 197. It is preferable to periodically transmit the OBD diagnostic information to a predetermined management server 1198 through the wireless message function of the communication device 1497.

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined wireless Internet function, the information transmission unit 1480 may include the sensing data and the location positioning unit stored in the memory unit 1496. Location information of the GPS-based LBS terminal device 1450 and / or at least one or more OBD diagnostic information obtained from the OBD device 197, which are determined by the location 1455, may be transmitted through a wireless Internet function of the communication device 1497. It is desirable to periodically transmit to a predetermined management server (1198).

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined instant messaging function, the information transmitting unit 1480 may include the sensing data and the position location unit (stored in the memory unit 1496). Location information of the GPS-based LBS terminal device 1450 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 through the instant messaging function of the communication device 1497. It is preferable to transmit to a predetermined management server (1198).

Alternatively, when the predetermined communication device 1497 provided in the vehicle is provided with a predetermined mail function, the information transmission unit 1480 may include the sensing data and the position location unit 1455 stored in the memory unit 1496. Location information of the GPS-based LBS terminal device 1450 and / or at least one or more OBD diagnostic information obtained from the OBD device 197 are periodically determined through a mail function of the communication device 1497. It is preferable to transmit to the management server (1198).

15 is a view showing a removal process of the smoke reduction device 1400 according to another embodiment of the present invention.

More specifically, FIG. 15 shows an engine unit in which the smoke reduction device 1400 is mounted on the vehicle in the GPS-based LBS terminal device 1450 for monitoring the OBD-associated smoke reduction device 1400 shown in FIG. Alternatively, it is checked whether the exhaust unit 1435 is removed. If the smoke reduction device 1400 is removed from the engine unit and / or the exhaust unit 1435 mounted on the vehicle, the smoke reduction device 1400 may be removed. The process of generating information and transmitting the same information to a predetermined management server 1198 through the predetermined communication device 1497 provided in the vehicle, and those skilled in the art to which the present invention pertains, Although various implementation methods for confirming removal of the particulate matter reducing apparatus 1400 may be inferred by referring to and / or modifying FIG. 15, the present invention includes all of the inferred implementation methods, as shown in FIG. By way of implementation Shall not.

Hereinafter, the GPS-based LBS terminal device 1450 for monitoring the OBD-associated smoke reduction device 1400 shown in FIG. 14 is referred to as a "device" for convenience, and the removal sensor unit of the smoke reduction device 1400 is shown in FIG. The sensing signal sensed by 1415 is referred to as the "elimination signal" for convenience.

Referring to FIG. 15, the apparatus shown in FIG. 14 checks whether a predetermined power source for performing the smoke reduction function and the self-diagnosis function according to the present invention is normally applied from a battery provided in the vehicle (1500).

If the power-up validity is not authenticated (1505), the device generates predetermined power-up validity error information (or smoke removal device 1400 removal warning message) (1510), and the OBD device provided in the vehicle Obtaining at least one OBD diagnostic information from (197) (1515), and after generating (or calculating) the position information corresponding to the current position of the device through the GPS-based positioning function shown in Figure 14 (1520) ), When the power supply validity error information (or the smoke reduction device 1400 removal warning message) and the location information are provided to the communication device 1497 provided in the vehicle (1525), the communication device 1497 determines Through the wireless communication function of the power-up validity error information (or smoke reduction device 1400 removal warning message) and location information and / or OBD diagnostic information is transmitted to a predetermined management server (1530).

According to an embodiment of the present invention, the power supply validity error information (or smoke removal device 1400 removal warning message) and location information and / or OBD diagnostic information of the smoke reduction device 1400 are provided in the wireless communication. It is preferable to include a data structure corresponding to a function.

For example, if the wireless communication function of the communication device 1497 provided in the vehicle includes at least one wireless messaging function including a short message (SMS) and / or a multimedia message (MMS), the device may be short. It is preferable to generate power-up validity error information (or smoke removal device 1400 removal warning message) of the smoke reduction device 1400 in response to a message structure including a message SMS and / or a multimedia message MMS. In addition, through the wireless messaging function of the communication device 1497 provided in the vehicle power supply validity error information (or smoke reduction device 1400 removal warning message) of the smoke reduction device 1400 and the current of the device It is preferable to transmit the location information and / or OBD diagnostic information to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined wireless Internet function, the device corresponds to the smoke reduction device 1400 in response to a data structure based on the wireless Internet protocol. Power supply validity error information (or smoke warning device 1400 removal warning message) is generated, and the smoke reduction device 1400 is provided through a wireless Internet function of the communication device 1497 provided in the vehicle. Power supply validity error information (or smoke reduction device 1400 removal warning message) and the current location information and / or OBD diagnostic information of the device is preferably transmitted to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined instant messaging function, the device corresponds to the smoke reduction device 1400 in response to a data structure based on the instant messaging protocol. It is preferable to generate the validity error information (or smoke warning device 1400 removal warning message) of the power supply, and through the instant messaging function of the communication device 1497 provided in the vehicle. It is preferable to transmit the power-up validity error information (or smoke reduction device 1400 removal warning message) of the 1400 and the current location information and / or OBD diagnostic information of the device to a predetermined management server 1198.

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined mail function, the device corresponds to a data structure based on the mail protocol. Preferably, the power supply validity error information (or the smoke reduction device 1400 removal warning message) is generated, and the power supply of the smoke reduction device 1400 is provided through a mail function of the communication device 1497 provided in the vehicle. It is preferable to transmit the authorization validity error information (or the smoke reduction device 1400 removal warning message) and the current location information and / or the OBD diagnostic information of the device to a predetermined management server 1198.

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

On the other hand, if the power supply validity is authenticated (1505), the device checks whether the removal signal for the smoke reduction device 1400 is collected from the removal sensor unit 1415 provided in the smoke reduction device 1400 (1535). ).

If the removal signal for the smoke reduction device 1400 is not collected (1540), the device checks the validity of the power supply and periodically checks whether the removal signal for the smoke reduction device 1400 is collected. Repeat with

On the other hand, if the removal signal for the smoke reduction device 1400 is collected (1540), the device generates information corresponding to the removal of the smoke reduction device 1400 (1545), the OBD device provided in the vehicle Obtain at least one OBD diagnostic information from 197 (1550), and generate (or calculate) location information corresponding to the current location of the device (1555) via the GPS-based positioning function shown in FIG. When the information and location information corresponding to the removal of the smoke reduction device 1400 are provided to the communication device 1497 provided in the vehicle (1560), the communication device 1497 performs a predetermined wireless communication function. Information and location information corresponding to the removal of the smoke reduction device 1400 is transmitted to a predetermined management server (1565).

According to the method of the present invention, the information corresponding to the removal of the smoke reduction device 1400 and the location information and / or the OBD diagnostic information preferably include a data structure corresponding to the wireless communication function provided in the device. Do.

For example, if the wireless communication function of the communication device 1497 provided in the vehicle includes at least one or more wireless messaging functions including a short message (SMS) and / or a multimedia message (MMS), the device may be a short message. Preferably, information corresponding to the removal of the smoke reduction device 1400 is generated in response to a message structure including an SMS and / or a multimedia message. It is preferable to transmit the information corresponding to the removal of the smoke reduction device 1400 and the current location information and / or OBD diagnostic information of the device to a predetermined management server (1198) through a wireless messaging function of the).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined wireless Internet function, the device corresponds to the smoke reduction device 1400 in response to a data structure based on the wireless Internet protocol. Information corresponding to the removal of the smoke reduction device 1400 and the current of the device through the wireless Internet function of the communication device 1497 provided in the vehicle. It is preferable to transmit the location information and / or OBD diagnostic information to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined instant messaging function, the device corresponds to the smoke reduction device 1400 in response to a data structure based on the instant messaging protocol. Information corresponding to the removal of the smoke reduction device 1400 and the current of the device through the instant messaging function of the communication device 1497 provided in the vehicle. It is preferable to transmit the location information and / or OBD diagnostic information to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined mail function, the device corresponds to a data structure based on the mail protocol. Preferably, information corresponding to the removal is generated, and information corresponding to the removal of the smoke reduction device 1400, current location information of the device, and the like through the mail function of the communication device 1497 provided in the vehicle. It is preferable to transmit the OBD diagnostic information to a predetermined management server (1198).

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

16 is a view illustrating a process of monitoring the smoke reduction device 1400 of the GPS-based LBS terminal device 1450 for monitoring the OBD linked smoke reduction device 1400 according to another exemplary embodiment of the present invention.

In more detail, FIG. 16 diagnoses and confirms an abnormality of the smoke reduction device 1400 in the GPS-based LBS terminal device 1450 for monitoring the OBD-associated smoke reduction device 1400 shown in FIG. If an abnormality occurs in the smoke reduction device 1400, the management server 1198 generates information corresponding to the smoke reduction device 1400 or more through a predetermined communication device 1497 provided in the vehicle. As a person having ordinary knowledge in the technical field to which the present invention pertains, the terrestrial LBS terminal device for monitoring the OBD-associated smoke reduction device 1400 may be Although it is possible to infer various implementation methods for the smoke reduction device 1400 monitoring process of 150), the present invention includes all the inferred implementation methods, and is not limited to the implementation method shown in FIG.

Hereinafter, in FIG. 16, the GPS-based LBS terminal device 1450 for monitoring the OBD-associated smoke reduction device 1400 illustrated in FIG. 14 is referred to as a “device” for convenience.

Referring to FIG. 16, the apparatus illustrated in FIG. 14 periodically checks whether a predetermined exhaust gas flows into the smoke reduction device 1400 (1600).

According to an embodiment of the present invention, the apparatus shown in FIG. 14 may periodically check the temperature sensor and / or pressure sensor changes of the inlet sensor unit 1410 of the smoke reduction device 1400 shown in FIG. In addition, it is preferable to periodically check whether a predetermined exhaust gas flows into the smoke reduction device 1400.

If it is confirmed that a predetermined exhaust gas flows into the smoke reduction device 1400 (1605), the device includes at least one sensing signal (or sensing data) for checking the effectiveness of the smoke reduction function of the smoke reduction device 1400. ) And determine the validity of the smoke reduction function by reading the collected at least one sensing signal (or sensing data) (1615).

The apparatus is configured to read sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow-side sensor unit 1410 of the smoke reduction apparatus 1400, thereby reducing smoke 1405 of the smoke reduction apparatus 1400. It is preferable to check whether the exhaust gas temperature flowing into the ()) includes an appropriate temperature for reducing the smoke.

For example, even after a predetermined time (for example, an engine heating time) has elapsed from the engine unit of the vehicle, the exhaust gas temperature flowing into the smoke reduction unit 1405 does not include an appropriate temperature necessary for reducing the smoke (eg, the vehicle). In winter, such as to maintain the sub-zero temperature range, the device is a smoke reduction unit of the smoke reduction device 1400 (not shown) through the control function (not shown) of the smoke reduction device 1400 of the GPS-based LBS terminal device 1450 ( The temperature of the exhaust gas introduced into the 1405 may be heated (for example, an exhaust gas heating part (not shown) may be provided on the inflow side of the smoke reduction device 1400 to heat the exhaust gas temperature).

In addition, if the temperature of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction device 1400 even if the ambient temperature of the vehicle maintains room temperature does not include an appropriate temperature for reducing the smoke, the device may be It can be confirmed that an abnormality has occurred in the engine of the vehicle.

When it is confirmed that an abnormality has occurred in the engine, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus reads sensing data corresponding to a sensing signal sensed by the temperature sensor of the outflow side sensor unit of the smoke reduction device 1400, thereby removing the smoke reduction unit 1405 of the smoke reduction device 1400. It is preferable to check whether the exhaust gas temperature which flows out includes the effective temperature after the smoke reduction function of the smoke reduction part 1405 is performed.

For example, the smoke reduction unit 1405 of the smoke reduction device 1400 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to check whether the soot reduction device 1400 is abnormal by checking whether the temperature after the reburn corresponds to the heating temperature, and if the temperature after the reburn is equal to the heating temperature. If not, the apparatus determines that an abnormality has occurred in the smoke reduction unit 1405 of the smoke reduction device 1400.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 1405 of the smoke reduction device 1400, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by a temperature sensor of the inflow sensor unit 1410 of the smoke reduction device 1400 and a sensing signal sensed by a temperature sensor of the outflow sensor unit. By comparing the sensing data corresponding to each other, by checking the temperature change of the exhaust gas passing through the smoke reduction device 1400, each smoke reduction method corresponding to the smoke reduction unit 1405 of the smoke reduction device 1400 It is preferable to check whether any abnormality occurs in the smoke reduction function.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by a pressure sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the smoke of the smoke reduction device 1400. It is preferable to check whether the exhaust gas pressure introduced into the 1405 includes an appropriate pressure required to reduce the smoke.

For example, if the exhaust gas pressure flowing into the smoke reduction unit 1405 does not include an appropriate pressure required to reduce the smoke, the device may control the smoke reduction device 1400 of the GPS-based LBS terminal device 1450 ( Press the pressure of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction device 1400 (not shown) (eg, exhaust gas pressurization unit (not shown) on the inlet side of the smoke reduction device 1400). And pressurized exhaust gas pressure).

In addition, if the pressure of the exhaust gas flowing into the smoke reduction unit 1405 of the smoke reduction device 1400 does not include an appropriate pressure required to reduce the smoke, the device may determine that an abnormality has occurred in the exhaust pipe of the vehicle. have.

When it is confirmed that a malfunction occurs in the exhaust pipe of the vehicle, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus reads sensing data corresponding to a sensing signal sensed by the pressure sensor of the outflow-side sensor unit of the smoke reduction device 1400, thereby reducing the smoke reduction unit 1405 of the smoke reduction device 1400. It is preferable to check whether the exhaust gas pressure that flows out includes the effective pressure after performing the smoke reduction function of the smoke reduction unit 1405.

For example, the smoke reduction unit 1405 of the smoke reduction device 1400 ignites the unburned components in the exhaust gas through a predetermined ceramic filter and heats them (for example, by heating to 550 ° C. or more). In the case of recombustion, it is preferable to confirm whether an abnormality occurs in the smoke reduction device 1400 by checking whether the pressure after recombustion corresponds to the explosion pressure during recombustion, and if the pressure after recombustion is the explosion pressure If not, the apparatus determines that an abnormality has occurred in the smoke reduction unit 1405 of the smoke reduction apparatus 1400.

When it is confirmed that an abnormality has occurred in the smoke reduction unit 1405 of the smoke reduction device 1400, the device preferably acquires at least one OBD diagnosis information from the OBD device 197 provided in the vehicle.

The apparatus may further include sensing data corresponding to a sensing signal sensed by a pressure sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, and a sensing signal sensed by a pressure sensor of the outflow sensor unit. By comparing the sensing data corresponding to each other, by checking the pressure change of the exhaust gas passing through the smoke reduction device 1400, each smoke reduction corresponding to the smoke reduction unit 1405 of the smoke reduction device 1400. It is desirable to check whether any abnormality occurs in the smoke reduction function according to the method.

When it is confirmed that an abnormality has occurred in the smoke reduction function, the device preferably acquires at least one or more OBD diagnostic information from the OBD device 197 provided in the vehicle.

In addition, the apparatus is configured to read sensing data corresponding to a sensing signal sensed by the light absorption sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the smoke of the smoke reduction device 1400. It is preferable to check whether there are any unburned components (or harmful substances) to be reduced in the smoke reduction unit 1405 among the unburned components (or harmful substances) included in the exhaust gas flowing into the 1405.

For example, when the exhaust gas flowing into the smoke abatement unit 1405 is absorbed by light rays having a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus is configured to filter the smoke of the smoke abatement apparatus 1400. The exhaust gas flowing into the abatement unit 1405 is confirmed to contain the unburned components (or harmful substances) to be reduced.

In addition, the device analyzes the sensing data corresponding to the sensing signal sensed by the light absorption sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, thereby reducing the unburned components (or harmful substances) to be reduced. It is preferable to calculate the amount of.

For example, when the exhaust gas flowing into the fume reducing unit 1405 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time period, By substituting the integrated value into a predetermined calculation formula for calculating the amount of the unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of the unburned component (or harmful substance) to be reduced is calculated. .

In addition, the apparatus reads sensing data corresponding to a sensing signal sensed by the light absorption sensor of the outflow side sensor unit of the smoke reduction device 1400, thereby reducing the smoke reduction unit 1400 of the smoke reduction device 1400. Among the unburned components (or harmful substances) included in the outflow gas, it is preferable to check whether the reduced unburned components (or harmful substances) exist after being reduced by the smoke reduction unit 1405.

For example, when the exhaust gas flowing out to the smoke reduction unit 1405 is absorbed by a light ray having a wavelength corresponding to the unburned component (or noxious substance) to be reduced, the apparatus is configured to filter the smoke of the smoke reduction device 1400. It is confirmed that the unburned component (or harmful substance) to be reduced is contained in the exhaust gas flowing out from the reduction unit 1405.

According to the exemplary embodiment of the present invention, the smoke reduction unit 1405 of the smoke reduction device 1400 is designed to remove almost all of the reduction target unburned components (or harmful substances), but the smoke reduction device 1400 When the exhaust gas flowing out of the smoke reduction unit 1405 includes the unburned component (or harmful substance) to be reduced, the apparatus generates an abnormality in the smoke reduction unit 1405 of the smoke reduction apparatus 1400. It is confirmed that the (or smoke reduction unit 1405 of the smoke reduction device 1400 needs to be replaced).

When it is confirmed that the exhaust gas contains at least one unburned component (or harmful substance) to be reduced, the device preferably obtains at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

In addition, the device calculates the amount of the unburned component (or noxious substance) to be reduced by analyzing the sensing data corresponding to the sensing signal sensed by the absorbance sensor of the outflow side sensor portion of the smoke reduction device 1400. It is preferable to calculate what it does.

For example, when the exhaust gas flowing out to the fume reducing unit 1405 is absorbed by light of a wavelength corresponding to the unburned component (or harmful substance) to be reduced, the apparatus integrates absorbance for a predetermined time, By substituting the integrated value into a predetermined calculation formula for calculating the amount of unburned component (or harmful substance) to be reduced, it is possible to calculate that the amount of unburned component (or harmful substance) on the reduction target is calculated. have.

According to the exemplary embodiment of the present invention, although the smoke reduction unit 1405 of the smoke reduction device 1400 is designed to remove a part of the reduction target unburned component (or harmful substance), the smoke reduction device 1400 If the amount of the unburned component (or noxious substance) to be reduced included in the exhaust gas flowing out of the smoke reduction unit 1405 does not reduce the designed reference amount, the apparatus reduces the smoke of the smoke reduction device 1400. It is confirmed that an abnormality has occurred in the unit 1405 (or that the smoke reduction unit 1405 of the smoke reduction device 1400 needs to be replaced).

If it is determined that the amount of the at least one unburned component (or noxious substance) to be reduced is included in the exhaust gas by more than a reference amount, the device receives at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. It is desirable to obtain.

The apparatus may further include sensing data corresponding to a sensing signal sensed by an absorbance sensor of the inflow sensor unit 1410 of the smoke reduction device 1400, and a sensing signal sensed by an absorbance sensor of the outflow sensor unit. By comparing the sensing data corresponding to, the performance of the smoke reduction unit 1405 of the smoke reduction apparatus 1400 is confirmed, and when the performance falls below a reference value, the smoke reduction unit of the smoke reduction apparatus 1400 ( Check that the abnormality occurred in 1405 (or need to replace the smoke reduction unit 1405 of the smoke reduction device 1400).

When it is confirmed that the performance of the smoke reduction unit 1405 of the smoke reduction device 1400 falls below a reference value, the device preferably acquires at least one OBD diagnostic information from the OBD device 197 provided in the vehicle. .

If the validity of the smoke reduction function is not authenticated (1620), the device generates information corresponding to the smoke reduction function abnormality of the smoke reduction device 1400 (1625), and the OBD device provided in the vehicle After obtaining at least one OBD diagnostic information from 197 (1630) and generating (or calculating) position information corresponding to the current position of the device through the GPS-based positioning function shown in FIG. 14 (1635) When the information and location information corresponding to the smoke reduction function abnormality are provided to the communication device 1497 provided in the vehicle (1640), a predetermined wireless communication function is provided by the communication device 1497 provided in the vehicle. In operation 1645, information corresponding to the smoke reduction function abnormality, location information, and / or OBD diagnosis information are transmitted to a predetermined management server 1198.

According to an embodiment of the present invention, the information corresponding to the smoke reduction function abnormality and the location information and / or the OBD diagnostic information preferably include a data structure corresponding to the wireless communication function provided in the device.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may be short message (SMS) and / or multimedia. In response to the message structure including the message MMS, it is preferable to generate information corresponding to the abnormality of the smoke reduction function, and the smoke reduction function through the wireless messaging function of the communication device 1497 provided in the vehicle. It is preferable to transmit the information corresponding to the above, the current location information of the device and / or the OBD diagnostic information to a predetermined management server 1118.

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined wireless internet function, the device corresponds to a data reduction function based on the wireless internet protocol. Preferably, corresponding information is generated, and information corresponding to the abnormality of the smoke reduction function and current location information and / or OBD diagnostic information of the device through the wireless Internet function of the communication device 1497 provided in the vehicle. It is preferable to transmit to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined instant messaging function, the device may be configured to perform at least the smoke reduction function in response to a data structure based on the instant messaging protocol. Preferably, the corresponding information is generated, and information corresponding to the smoke reduction function abnormality and current location information and / or OBD diagnostic information of the device through the instant messaging function of the communication device 1497 provided in the vehicle. It is preferable to transmit to a predetermined management server (1198).

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined mail function, the device corresponds to an abnormality in the smoke reduction function in response to a data structure based on the mail protocol. It is preferable to generate the information, and through the mail function of the communication device 1497 provided in the vehicle, the information corresponding to the abnormality of the smoke reduction function and the current location information and / or the OBD diagnosis information of the device are predetermined. It is preferable to transmit to the management server (1198).

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

On the other hand, if the validity of the smoke reduction function is authenticated (1620), the device stores (1650) at least one or more sensing data collected in the memory (or corresponding to the normal operation of the smoke reduction function). It is checked whether the sensing data (or the information corresponding to the normal operation of the smoke reduction function) stored in the memory is transmitted to the predetermined management server 1198 through the communication device 1497 provided in the vehicle (1655). .

If the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory has not yet been transmitted to the management server 1198 (1660), the device may have a predetermined value to the smoke reduction device 1400. The process of checking whether the exhaust gas is introduced and collecting and reading at least one sensing signal (or sensing data) for checking the effectiveness of the smoke reduction function is repeated.

On the other hand, if the sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) is transmitted to the management server 1986 (1660), the device is from the OBD device 197 provided in the vehicle After obtaining at least one OBD diagnostic information (1665) and generating (or calculating) position information corresponding to the current position of the device (1670) through the GPS-based positioning function shown in FIG. 14, the vehicle When the sensing device (or information corresponding to the normal operation of the smoke reduction function) and the location information stored in the memory are provided to the communication device 1497 provided therein (1675), the communication device 1497 provided in the vehicle is provided. ) The sensing data stored in the memory (or information corresponding to the normal operation of the smoke reduction function) and the location information and / or the OBD diagnostic information through a predetermined wireless communication function. (1680).

According to the method of the present invention, the sensing data (or information corresponding to the normal operation of the smoke reduction function) and the location information and / or the OBD diagnostic information stored in the memory correspond to the wireless communication function provided in the device. It is preferable to include a data structure.

For example, if the wireless communication function provided in the device includes at least one or more wireless messaging functions including short message (SMS) and / or multimedia message (MMS), the device may be short message (SMS) and / or multimedia. It is preferable to generate the sensing data (or information corresponding to the normal operation of the smoke reduction function) stored in the memory in response to the message structure including the message MMS, and further comprising a communication device 1497 provided in the vehicle. Transmits sensing data (or information corresponding to the normal operation of the smoke reduction function) and current location information and / or OBD diagnostic information of the device to a predetermined management server 1198 through a wireless messaging function of It is desirable to.

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined wireless internet function, the device corresponds to a data structure based on the wireless internet protocol and senses data stored in the memory. (Or information corresponding to the normal operation of the smoke reduction function), and also sensing data (or the smoke reduction) stored in the memory through the wireless Internet function of the communication device 1497 provided in the vehicle. Information corresponding to the normal operation of the function) and the current location information and / or the OBD diagnostic information of the device is preferably transmitted to a predetermined management server 1198.

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined instant messaging function, the device may sense data stored in the memory in response to a data structure based on the instant messaging protocol. (Or information corresponding to the normal operation of the smoke reduction function), and the sensing data (or the smoke reduction) stored in the memory through the instant messaging function of the communication device 1497 provided in the vehicle. Information corresponding to the normal operation of the function) and the current location information and / or the OBD diagnostic information of the device is preferably transmitted to a predetermined management server 1198.

Alternatively, when the wireless communication function of the communication device 1497 provided in the vehicle includes a predetermined mail function, the device corresponds to a data structure based on the mail protocol, and the sensing data (or It is preferable to generate the information corresponding to the normal operation of the smoke reduction function), and also the sensing data (or normality of the smoke reduction function) stored in the memory through the mail function of the communication device 1497 provided in the vehicle. Information corresponding to the operation) and the current location information of the device and / or the OBD diagnostic information is preferably transmitted to a predetermined management server 1198.

According to another embodiment of the present invention, the current position information of the device may be omitted according to the intention of the skilled person, and the present invention is not limited thereto.

According to the present invention, if the driver of the vehicle equipped with the smoke reduction device arbitrarily removes or stolen the smoke reduction device, immediately confirm the removal and / or theft of the smoke reduction device remotely through the LBS terminal device. And there is an advantage that can be recovered by tracking the location.

According to the present invention, if the smoke reduction device is broken or at the end of its life, after checking whether the smoke reduction device is broken and / or replaced remotely through an LBS terminal device, the failure and / or aging smoke reduction The advantage is that the device can be replaced with a new smoke reduction device.

According to the present invention, when an accident occurs in the vehicle equipped with the smoke reduction device or when the vehicle is dismantled, the accident and / or the abandoned vehicle of the vehicle equipped with the smoke reduction device is checked remotely through an LBS terminal device, and the location is tracked to determine There is an advantage to recover the smoke reduction device.

Claims (6)

By transmitting a signal (or radio wave) including reverse signal (or emergency signal) data including positioning information for terrestrial-based wireless positioning to a plurality of base stations, positioning information included in the reverse signal (or emergency signal) data is transmitted. In the terminal device having a terrestrial positioning unit for transmitting to the server, A signal collector configured to collect self-diagnosis data of the smoke reduction device provided in the vehicle; A signal checking unit to check whether the collected self-diagnosis data is abnormal; As a result of the check, when an abnormal condition occurs on the self-diagnosis data, diagnostic information about one or more on-vehicle devices related to the exhaust of a plurality of devices mounted on the vehicle in connection with OBD (On-Board Diagnostics) included in the vehicle An information obtaining unit obtaining the information; And When an abnormal condition occurs on the self-diagnosis data of the smoke reduction device provided in the vehicle, the self-diagnosis data and the diagnostic information obtained through the information acquisition unit are included in the reverse signal (or emergency signal) data or the self-diagnosis. And a control unit for controlling data and information obtained through the information acquisition unit to be transmitted to a server through the terrestrial positioning unit. delete The method of claim 1, wherein the control unit, Check the abnormality of the self-diagnosis data of the smoke reduction device, As a result of the check, if no abnormal condition is found, the self-diagnosis data is transmitted according to a predetermined condition (data transmission time interval condition, etc.), The on-board diagnostics (OBD) linked information processing terminal device, characterized in that, when an abnormal condition is found, the data transmission time interval is automatically adjusted. The method of claim 1, wherein the reverse signal (or emergency signal) data, Unique information of a base station transmitting a signal (or radio wave), time information at the time of transmitting the signal (or radio wave) from the base station, unique information of the vehicle terminal device, and the signal (or radio wave) at the vehicle terminal device On-Board Diagnostics (OBD) linked information processing terminal device, characterized in that it comprises the time information of the time point at which it was received. delete A computer-readable recording medium having recorded thereon a program for executing a function of the apparatus component of claim 1.

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