KR100718697B1 - Fuel Testing Apparatus of Vehicle Mounted Type - Google Patents

Abstract

The present invention is to detect a portion of the fuel fueled at the gas station as a sample and analyze it using a near-infrared spectrophotometer (NIR) mounted on the vehicle to detect and determine whether the fuel supplied to the vehicle is a normal fuel or an abnormal pseudofuel. A vehicle-mounted fuel inspection device, the vehicle-mounted fuel inspection device for determining whether the fuel supplied to the vehicle is normal or abnormal, the fuel injection port and the fuel discharge port is formed in the upper portion and the incoming fuel is accumulated A rectangular fuel chamber disposed between the fuel injection port of the vehicle and the fuel tank of the vehicle; A sampling passage for analyzing the fuel in the fuel chamber to store pseudo fuel determined to be abnormal; An auxiliary fuel tank configured to store fuel determined to be normal by analyzing the fuel in the fuel chamber; A fuel pump for transferring the fuel of the fuel chamber to a sample collection container and an auxiliary fuel tank; A three-way valve for selectively diverting the fuel transferred from the fuel pump to a sampling container or an auxiliary fuel tank; A fuel pump for transferring fuel to the main fuel tank when it is determined that the fuel of the auxiliary fuel tank is normal; A fuel pump for discharging to the outside when the fuel of the auxiliary fuel tank is analyzed as a pseudo fuel and determined to be abnormal; An analysis device for analyzing a component of fuel contained in the fuel chamber; A controller for controlling the above devices; Characterized in that configured to include.

Fuel tank, quasi-fuel, near-infrared spectrophotometer, fuel chamber

Description

Fuel Testing Apparatus of Vehicle Mounted Type

1 is a schematic diagram of a device according to the invention,

2 is a perspective view of a fuel chamber used in the present invention.
<Description of the symbols for the main parts of the drawings>
10: analysis device 12, 14: hose
15 display 18 controller
20: fuel chamber 21, 32, 34: fuel pump
22a: inlet 22b: outlet
23: 3-way valve 25: sampling container
30: auxiliary fuel tank 32, 34: fuel pump
50: fuel tank

The present invention relates to an apparatus for inspecting whether a fuel supplied from a gas station is a normal fuel, and more particularly, by using a near infrared spectrophotometer (NIR) mounted on a vehicle by detecting a portion of fuel supplied from a gas station as a sample. The present invention relates to a vehicle-mounted fuel inspection device for detecting and determining whether fuel supplied to a vehicle is normal fuel or abnormal pseudo fuel.

Recently, the price of oil increases due to oil fluctuations, and similar fuel, which is a kind of alternative fuel, is used.In the case of such fuel, it is possible to trade abnormal fuel at a gas station because the price is cheap and can be traded without data. In order to control this, the oil sold at the gas station should be collected and inspected to determine whether it is normal, and if it is similar fuel, the use of similar fuel should be prevented.

Near-infrared spectrophotometer (NIR), which is commonly used to determine the suitability of oil sold at gas stations, uses the near-infrared spectrum of fuel's aromatic content, oxygen content, alcohol content, benzene, toluene, xylene, olefin and octane number simultaneously. The test method is to measure the spectrum of a vehicle fuel to be evaluated by using a near infrared spectrophotometer, and then the computer calculates the value of the item by a preset calibration equation according to the absorption degree of the spectrum in a specific wavelength region. An improved indirect measurement method that can be obtained at the same time is used.

For this measurement, conventionally, the fuel is collected at a gas station and analyzed using a near-infrared spectrophotometer in a separate measuring room to analyze the fuel component to determine whether the fuel sold at the gas station is a normal fuel or an abnormal pseudofuel.

However, in order to experiment in the measuring room as above, a certain amount of sample must be purchased at each gas station. In this process, gasoline can not be purchased for gasoline except for the purpose of automobile fueling. In order to prevent the use of similar fuels, it was difficult to identify and collect them for inspection.

The present invention has been made in order to solve the above problems by taking a sample in the process of refueling at the gas station using a vehicle equipped with the inspection equipment and analyzing the fuel in real time in the field to determine whether the appropriate fuel oil test time It aims to shorten and allow for on-site crackdown when selling and using similar fuels.

Still another object of the present invention is to alert people who operate gas stations to prevent the sale of similar fuels.

In order to achieve the above object, the present invention provides a vehicle-mounted fuel test device for determining whether the fuel being supplied to a vehicle is normal or abnormal, wherein a fuel inlet and a fuel outlet are formed at an upper portion thereof, A rectangular fuel chamber disposed between the fuel injection port of the vehicle and the fuel tank of the vehicle; A sampling passage for analyzing the fuel in the fuel chamber to store pseudo fuel determined to be abnormal; An auxiliary fuel tank configured to store fuel determined to be normal by analyzing the fuel in the fuel chamber; A fuel pump for transferring the fuel of the fuel chamber to a sample collection container and an auxiliary fuel tank; A three-way valve for selectively diverting the fuel transferred from the fuel pump to a sampling container or an auxiliary fuel tank; A fuel pump for transferring fuel to the main fuel tank when it is determined that the fuel of the auxiliary fuel tank is normal; A fuel pump for discharging to the outside when the fuel of the auxiliary fuel tank is analyzed as a pseudo fuel and determined to be abnormal; An analysis device for analyzing a component of fuel contained in the fuel chamber; A controller for controlling the above devices; Characterized in that configured to include.

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

First, the configuration of the present invention will be described with reference to FIG. 1. A fuel pump 21 is provided in a fuel chamber 20 installed in an oil passage between a fuel injection port of a vehicle and a fuel tank of a vehicle. The fuel pump 21 selectively analyzes the fuel in the fuel chamber 20 in the sampling container 25 for storing the pseudo fuel determined to be abnormal and the auxiliary fuel tank 30 for storing the fuel determined to be normal. Will be transferred. The fuel chamber 20 is formed in a rectangular shape as shown in FIG. 2, and the inlet port 22a and the outlet port 22b are installed above the fuel chamber 20 so that the fuel is drawn upward and discharged from the upper side. The lower portion of the fuel chamber 20 is formed so that the fuel drawn from the filling port is accumulated.

The fuel contained in the fuel chamber 20 is connected to an analysis device 10 for analyzing a component through a hose 12, and the near infrared spectrophotometer (NIR), which is the analysis device 10, is mounted in a vehicle and connected thereto. As an analytical device, light diffusing device uses photodiode array (PDA), and InGaAs (Indium Gallium Arsenic) detector uses aromatic compounds, oxygen, alcohol, benzene, A flow cell module for simultaneously measuring toluene, xylene, olefin and octane number using a near infrared spectrum, and a display 15 for visually confirming the measurement value by the sample measuring unit. Can use a monitor of a portable computer.

The fuel transported from the fuel pump 21 is branched to the sampling chamber 25 or the auxiliary fuel tank 30 by a three-way valve 23 installed on the transport passage to serve to one side, When the fuel of the auxiliary fuel tank 30 is determined to be normal, the fuel is transferred to the main fuel tank 50 by the fuel pump 32, and the fuel of the auxiliary fuel tank 30 is analyzed as pseudo fuel and is abnormal. When determined to be, the fuel pump 34 is configured to operate to discharge the fuel to the outside.

The components are located in the trunk of the vehicle and a controller 18 for controlling them is installed in a position that can be seen from the driver's seat.

According to the present invention configured as described above, when the vehicle equipped with the device is refueled from the gas station to the fuel inlet, the fuel introduced into the fuel inlet is refueled into the main fuel tank 50 through the fuel chamber 20. 20 is formed in a rectangular shape, and since the inlet port 22a and the outlet port 22b are connected to the upper portion of the fuel chamber 20, the fuel being fueled is accumulated in the lower portion of the fuel chamber 20.

In order to determine whether the fueled oil in the above state is a normal oil, the fuel component must be analyzed. At this time, the fuel accumulated at the lower end of the fuel chamber 20 flows into the analyzer 10 through the hose 12. When the analysis device 10 is analyzed by analyzing the components of the oil flowing through the hose 12. In this case, the near-infrared spectrophotometer (NIR) used as the analysis device 10 is a process of simultaneously measuring the aromatic content, oxygen content, alcohol content, benzene, toluene, xylene, olefin, and octane number of fuel by using a near infrared spectrum. Since it is known as a detailed description thereof will be omitted, the analysis value is displayed on the monitor 15 of the driver's seat so that the inspector can check it, the fuel is completed to the auxiliary fuel tank 30 through the hose (14) Transferred.

If it is determined that the contents analyzed through the above process is a normal fuel, the fuel pump 21 in the fuel chamber 20 is operated to transfer the fuel in the fuel chamber 20 to the auxiliary fuel tank 30. In this case, the controller 18 ), The signal is applied to the three-way valve 23 to control the three-way valve 23 to flow the fuel from the fuel chamber 20 to the auxiliary fuel tank 30.

However, if it is determined that the fuel oiled in the analysis process is not a normal fuel but a pseudo fuel, the controller 18 controls the three-way valve 23 so that the flow of fuel flows from the fuel chamber 20 to the sampling chamber 25. To transfer the similar fuel in the fuel chamber 20 to the sampling container 25 so that it can be used as evidence, and when the sampling container 25 is full of fuel, the three-way valve 23 in the controller 18 is filled. The three-way valve 23 is controlled to apply a low signal so that the flow of fuel flows from the fuel chamber 20 to the auxiliary fuel tank 30.

The fuel contained in the auxiliary fuel tank 30 is sent to the main fuel tank 50 by the operation of the fuel pump 32 in the case of normal fuel, and discharged to the outside by the fuel pump 34 when abnormal fuel is abnormal. Do it.

One cycle of the inspection is completed by the above process, and the inspector can then perform the inspection by repeating the above process at the next gas station by operating the vehicle.

As described above, according to the present invention, the sample is taken out from the gas station to the vehicle by using the vehicle equipped with the inspection equipment, and analyzed in the field to determine the appropriate fuel in real time to determine the solvent and petrochemical in the normal fuel. When selling similar fuels by mixing products, or by mixing kerosene and diesel, it is possible to prevent the sale of similar fuels at gas stations by detecting them at the site. By preventing engine wear and engine oil consumption, it is possible to reduce the damage of the vehicle repair costs of consumers, and also environmental pollution due to excessive emission of exhaust gases including pollutants such as carbon monoxide and nitrogen oxides generated when burning similar fuels. This weight can be prevented.

Claims (2)

delete In a vehicle-mounted fuel inspection device for determining whether the fuel supplied to the vehicle is normal or abnormal, A rectangular fuel chamber 20 formed between the fuel inlet of the vehicle and the fuel tank of the vehicle so that the fuel inlet 22a and the fuel outlet 22b are formed in the upper portion and the incoming fuel is accumulated in the lower portion; A sampling container (25) for analyzing the fuel in the fuel chamber (20) to store pseudo fuel determined to be abnormal; An auxiliary fuel tank 30 for storing fuel determined to be normal by analyzing the fuel in the fuel chamber 20; A fuel pump 21 for transferring the fuel in the fuel chamber 20 to the sample collection container 25 and the auxiliary fuel tank 30; A three-way valve (23) for branching the fuel transferred from the fuel pump (21) to a sample collection container (25) or an auxiliary fuel tank (30); A fuel pump 32 for transferring fuel to the main fuel tank 50 when the fuel in the auxiliary fuel tank 30 is determined to be normal; A fuel pump 34 for discharging to the outside when the fuel of the auxiliary fuel tank 30 is analyzed as a pseudo fuel and determined to be abnormal; An analysis device (10) for analyzing the components of the fuel contained in the fuel chamber (20); A controller 18 for controlling the above devices; Vehicle-mounted fuel inspection device, characterized in that configured to include.

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