JP5309929B2 - Filling port connection structure and gas fuel vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connecting structure of a filling port, capable of accurately detecting a connecting state between a receptacle and a nozzle, and a gas fuel vehicle. <P>SOLUTION: The connecting structure includes a receptacle 11 provided at a filling port 1 of the gas fuel vehicle; a filling nozzle of a gas station to be connected to the receptacle 11; and a sensor 32 which optically detects the connecting state of the filling nozzle to the receptacle 11. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a connection structure between a gas fuel vehicle such as a fuel cell vehicle and a filling port thereof.

In recent years, a fuel cell vehicle using a fuel cell that generates power by an electrochemical reaction between a fuel gas and an oxidizing gas as an energy source has attracted attention.
A fuel cell vehicle equipped with this type of fuel cell has a fuel gas filling port, and a filling nozzle of a gas station is connected to a receptacle constituting the filling port, and fuel is fed into a high-pressure tank mounted on the vehicle. Hydrogen gas, which is a gas, is sent in.
In the fuel gas filling line between the vehicle and the filling facility, it is known that an electrical signal connector is provided in the receptacle of the vehicle and a nozzle of the filling facility, and the ground signal and the state signal are transmitted by the electrical signal connector. (For example, refer to Patent Document 1).
JP 2003-104498 A

  By the way, the electrical signal connector is mechanically connected at the same time as the connection between the receptacle and the nozzle, so that the ground signal and the state signal can be transmitted. However, depending on the connection state between the receptacle and the nozzle, the electrical signal may be transmitted. The connection between the connectors becomes insufficient, and there is a possibility that it is determined that the connection is defective although the receptacle and the nozzle are normally connected.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a filling port connection structure and a gas fuel vehicle capable of detecting a connection state between a receptacle and a nozzle with high accuracy.

In order to achieve the above object, the filling port connection structure of the present invention includes a receptacle provided in a filling port of a gas fuel vehicle, a nozzle of a gas filling device connected to the receptacle, and the nozzle to the receptacle. A sensor for optically detecting the connection state of the nozzle and the opening / closing state of the lid of the filling port, and the sensor irradiates light to the light receiving portion of the nozzle and the lid of the filling port and reflects the reflected light. And detecting the connection state of the nozzle to the receptacle and the opening / closing state of the lid of the filling port by measuring the distance from the sensor to the light receiving unit and the lid of the filling port. In addition to being a sensor, it has a communication function of communicating with the gas filling device and transmitting information on a tank mounted on the vehicle to the gas filling device.

According to the filling port connection structure of this configuration, the sensor optically detects the connection state of the nozzle to the receptacle and the opening / closing state of the lid of the filling port, so that the connection between the receptacle and the nozzle is mechanically connected. Compared with an electrical signal connector or the like that detects connection and opening / closing of the filling port lid , the connection state of the nozzle and the opening / closing state of the filling port lid can be detected with higher accuracy.

  According to the connection structure of the filling port of this configuration, the sensor that detects the connection state between the receptacle and the nozzle has a communication function that communicates with the gas filling device and transmits information on the tank mounted on the vehicle to the gas filling device. Since the sensor and the communication device are provided as separate components, the number of components can be reduced and the structure can be simplified.

Receiving irradiation portion before Symbol nozzle, the light from the sensor may be higher reflectivity than the receiving irradiation portion not irradiated.

  According to the filling port connection structure of this configuration, the light receiving / irradiating part of the nozzle that receives light from the sensor has a higher reflectance than the non-irradiating part that is not irradiated with light from the sensor, so it is connected to the receptacle. The detection accuracy of the reflected light when the light receiving / irradiating part of the nozzle is irradiated can be improved, and the connection state of the nozzle to the receptacle can be detected better.

The gas fuel vehicle of the present invention is a gas fuel vehicle comprising a tank for storing gas fuel and a filling port for filling the tank with gas fuel, and the filling port is filled with gas outside the vehicle. A receptacle to which a nozzle of the apparatus is connected, and a sensor for optically detecting the connection state of the nozzle to the receptacle and the opening / closing state of the lid of the filling port, and the sensor receives and irradiates the nozzle And irradiating light to the lid of the filling port, detecting the reflected light reflected, and measuring the distance from the sensor to the light receiving unit and the lid, thereby connecting the nozzle to the receptacle and The reflective sensor detects the open / closed state of the lid of the filling port, and has a communication function of communicating with the gas filling device outside the vehicle and transmitting the tank information to the gas filling device .

  ADVANTAGE OF THE INVENTION According to this invention, the connection structure of the filling port which can detect the connection state of a receptacle and a nozzle with high precision, and a gas fuel vehicle can be provided.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
1 and 2 show a filling port 1 provided in a vehicle body of a fuel cell vehicle (gas fuel vehicle) equipped with a fuel cell that generates power by an electrochemical reaction between a fuel gas and an oxidizing gas as an energy source. The filling port 1 is provided with a filling port lid 2 whose one end is rotatably connected to the vehicle body side. The filling port 1 is closed by the filling port lid 2 as shown in FIG. Yes. When the filling port lid 2 is rotated from this state, the filling port 1 is opened as shown in FIG.
The filling port lid 2 has a lock piece 3, and the lock pin 4 provided on the vehicle body side that can be moved in and out enters the lock hole 3 a of the lock piece 3 to lock the filling port lid 2 in a closed state. It has come to be.

The filling port 1 is provided with a receptacle 11, and a pipe (not shown) connected to a high-pressure tank mounted on the vehicle is connected to the receptacle 11.
The receptacle 11 has a cylindrical connecting portion 13 having a ball lock groove 12 formed on the distal end side. The connecting portion 13 is provided with a gas filling device as shown in FIG. The filling nozzle 10 on the gas station side can be connected.

  The connection portion 13 of the receptacle 11 has a valve mechanism (not shown) formed therein, and when the filling nozzle 10 is joined from the front end side, the valve mechanism in the connection portion 13 opens, and the filling nozzle 10 The gas can be charged. In addition, when the filling nozzle 10 is connected to the connection portion 13 of the receptacle 11 as described above, a ball of a ball lock mechanism (not shown) provided in the filling nozzle 10 enters the ball lock groove 12, and the filling nozzle 10 and the receptacle are connected. 11 is locked in a connected state.

  The receptacle 11 is disposed in openings 21a and 22a formed in the body 21 and the wheel house 22 constituting the vehicle body. Between the openings 21a and 22a of the body 21 and the wheel house 22, For example, it is closed and sealed by a seal member 23 formed of rubber or the like.

A flange 31 having a diameter larger than that of the connection portion 13 is provided on the rear end side of the connection portion 13 of the receptacle 11 having the above structure. A sensor 32 is provided on a part of the upper surface of the flange 31, in other words, a part of the surface facing the distal end side of the receptacle 11.
The sensor 32 includes a light emitting unit 32a that irradiates light toward the distal end side in the extending direction along the extending direction of the connecting unit 13, and a light receiving unit 32b that receives the light reflected by the reflected object. This type of optical sensor has a distance measuring function for converting the light received by the light receiving unit 32b into an electrical signal and measuring the distance to the object to be reflected.

  For the distance measuring function, for example, the time until the infrared light emitted from the light emitting unit 32a is reflected by the reflected object and reaches the light receiving unit 32b is measured, and the distance from the measurement time to the reflected object is measured. There is a method of measuring, or a method of measuring the angle at which the infrared light emitted from the light emitting unit 32a is reflected by the reflected object and incident on the light receiving unit 32b, and measuring the distance from the measured angle to the reflected object. .

  As shown in FIG. 2 (a), the sensor 32 is irradiated with light from the light emitting portion 32a on the filling port lid 2 in a state where the filling port lid 2 is closed, and FIG. 2 (c). As shown in FIG. 3, the end face 10a of the filling nozzle 10 is irradiated with light from the light emitting portion 32a in a state where the filling nozzle 10 is connected to the connection portion 13 of the receptacle 11. Thus, the sensor 32 detects the open / close state of the filling port lid 2 and the connection state of the filling nozzle 10 by converting the light received by the light receiving unit 32b into an electrical signal and measuring the distance to the reflected object. To do.

  Here, the end face 10a of the filling nozzle 10 and the filling port lid 2 have higher light reflectivity than other portions. On the other hand, the sealing member 23 surrounding the peripheral surface 10b of the filling nozzle 10 and the flange 31 has a low light reflectance. In other words, the reflectance of the light receiving unit that receives light from the light emitting unit 32a of the sensor 32 in order to detect the open / closed state of the filling port lid 2 and the connection state of the filling nozzle 10 depends on the open / closed state of the filling port lid 2 and In order to detect the connection state of the filling nozzle 10, the reflectance is set higher than that of the non-irradiation part that does not emit light from the light emitting part 32 a of the sensor 32.

  The sensor 32 has a communication function for performing infrared communication with a communication device (not shown) provided on the gas station side. The sensor 32 detects pressure information and temperature information in the high-pressure tank of the vehicle. Is sent to the gas station side.

  Next, an example of filling the vehicle gas with hydrogen gas, which is fuel gas, will be described with reference to the flowchart shown in FIG.

When the vehicle is stopped at the hydrogen gas station and the ignition switch is turned off to start the hydrogen gas filling operation, it is first determined whether or not the vehicle filling port lid 2 is opened (step S01).
In this determination, if the infrared light is emitted from the light emitting unit 32a of the sensor 32 and the reflected light from the light emitting unit 32a is not received by the light receiving unit 32b, it is determined that the filling port lid 2 is opened. .

When it is determined that the filling port lid 2 is opened (in the case of “YES” in step S01), the communication interval (communication cycle) with the gas station by the vehicle sensor 32 is narrower than the communication interval so far ( Step S02).
Next, tank information including pressure information and temperature information in the high-pressure tank is transmitted from the vehicle sensor 32 to the gas station side (step S03).

Next, it is determined whether or not the filling nozzle 10 is connected to the connection portion 13 of the receptacle 11 of the filling port 1 of the vehicle (step S04).
In this determination, infrared light is emitted from the light emitting unit 32a of the sensor 32, and the reflected light from the light emitting unit 32a is received by the light receiving unit 32b, and the distance to the object to be reflected is measured. It is determined by whether or not it is a predetermined dimension B (see FIG. 2C).

Here, if the filling nozzle 10 is connected to the connecting portion 13, the infrared light from the light emitting portion 32 a is reflected by the end face 10 a of the filling nozzle 10 and received by the light receiving portion 32 b, and the measurement distance is the end face of the filling nozzle 10. Measured as distance B to 10a.
At this time, even when the filling nozzle 10 is not connected to the connecting portion 13 and the filling port lid 2 is closed, the reflected light from the light emitting portion 32a is received by the light receiving portion 32b, but based on the reflected light. The measurement distance is measured as a distance A to the filling port lid 2 (see FIG. 2A). Therefore, in this case, it is determined that the filling nozzle 10 is not connected.

  When it is determined that the filling nozzle 10 is connected to the connection portion 13 of the receptacle 11 (in the case of “YES” in step S04), the user erroneously switches the ignition from OFF to ON on the vehicle side. Even if the ignition switch is performed, the erroneous start prevention process for prohibiting the ignition switch in the OFF state from entering the ON state is started, and the start of the vehicle during the hydrogen gas filling operation is prohibited (step S05).

  Thereafter, the gas station-side filling device is activated in accordance with the gas supply start operation by the user, and the supply of hydrogen gas to the high-pressure tank of the vehicle is started via the filling nozzle 10 connected to the receptacle 11 (step S06). ).

  Here, on the gas station side, the filling required to fill the filling amount of gas that meets the user's request based on the tank information including the pressure information and temperature information in the high pressure tank transmitted from the vehicle sensor 32. The amount (for example, the internal pressure of the high-pressure tank) is calculated, and the filling amount of hydrogen gas is filled into the high-pressure tank of the vehicle.

  Supplying hydrogen gas from the gas station to the high-pressure tank of the vehicle when it is determined that the filling amount corresponding to the user request is satisfied and the hydrogen filling end condition is satisfied (in the case of “YES” in step S07). Ends (step S08).

Then, it is determined whether or not the filling nozzle 10 is connected to the connection portion 13 of the receptacle 11 of the filling port 1 of the vehicle, that is, whether or not the filling nozzle 10 is removed from the connection portion 13 of the receptacle 11 ( Step S09).
In this determination, it is determined whether infrared light is emitted from the light emitting unit 32a of the sensor 32 and whether or not the reflected light from the light emitting unit 32a is received by the light receiving unit 32b.

  Here, if the filling nozzle 10 is removed from the connection part 13, the infrared rays from the light emitting part 32a are not reflected by the end face 10a of the filling nozzle 10, and therefore the reflected light is not received by the light receiving part 32b. Therefore, if no reflected light is received by the light receiving part 32b, it is determined that the filling nozzle 10 has been removed from the connection part 13 of the receptacle 11.

If it is determined that the filling nozzle 10 has been removed ("NO" in step S09), it is further determined whether or not the filling port lid 2 of the vehicle has been closed (step S10).
In this determination, infrared light is emitted from the light emitting unit 32a of the sensor 32, and the reflected light from the light emitting unit 32a is received by the light receiving unit 32b, and the distance to the object to be reflected is measured. Judgment is made based on whether or not the predetermined dimension A is satisfied.

Here, even when the infrared light from the light emitting unit 32a is reflected by some reflected object, the reflected light from the light emitting unit 32a is received by the light receiving unit 32b, but the measurement distance based on the reflected light is the filling port. If it is not the distance A to the lid 2 (see FIG. 2A), it is determined that the filling port lid 2 is not closed.
When it is determined that the filling port lid 2 is closed (in the case of “YES” in step S10), the vehicle side ends the erroneous start prevention process that prohibits the ignition switch from being turned on (step S11).

  By performing the above processing (steps S01 to S11), the high-pressure tank of the vehicle is filled with a hydrogen gas having a filling amount that meets the user request.

  As described above, according to the above-described embodiment, the sensor 32 optically detects the connection state of the filling nozzle 10 to the receptacle 11, so that the connection between the receptacle and the filling nozzle is mechanically connected. Compared with an electrical signal connector or the like that detects the above, the connection state of the filling nozzle 10 can be detected with higher accuracy.

  In addition, the sensor 32 that detects the connection state between the receptacle 11 and the filling nozzle 10 has a communication function for communicating with the gas station side and transmitting information on the high-pressure tank mounted on the vehicle to the gas station side. Therefore, the number of parts can be reduced and the structure can be simplified as compared with the case where the sensor and the communication device are provided as separate parts.

  Further, the light receiving and irradiating unit composed of the end surface 10 a of the filling nozzle 10 irradiated with light from the sensor 32 is not a sealing member 23 or the like surrounding the peripheral surface 10 b of the filling nozzle 10 not irradiated with light from the sensor 32 and the flange 31. Since the reflectance is higher than that of the light receiving portion, the detection accuracy of the reflected light can be increased when the light receiving portion formed of the end face 10a of the filling nozzle 10 connected to the receptacle 11 is irradiated with light. Thus, the connection state of the filling nozzle 10 with respect to the receptacle 11 can be detected better.

It is a perspective view of the filling port of the vehicle explaining one embodiment of the present invention. It is sectional drawing explaining the structure of the filling port of a vehicle, and the connection state of the filling nozzle to a receptacle. It is a flowchart explaining the filling operation of the hydrogen gas to a vehicle.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Filling port, 10 ... Filling nozzle (nozzle), 11 ... Receptacle, 32 ... Sensor.

Claims (3)

A receptacle provided at the filling port of the gas fuel vehicle;
A nozzle of a gas filling device connected to the receptacle;
A sensor for optically detecting the connection state of the nozzle to the receptacle and the open / closed state of the lid of the filling port ;
The sensor irradiates light to the light receiving / irradiating part of the nozzle and the lid of the filling port, detects reflected reflected light, and measures the distance from the sensor to the light receiving / irradiating unit and the lid of the filling port. By this, it is a reflective sensor that detects the connection state of the nozzle to the receptacle and the open / close state of the lid of the filling port, and communicates with the gas filling device to obtain information on the tank mounted on the vehicle. A filling port connection structure having a communication function for transmitting to a gas filling device . Receiving irradiation portion before Symbol nozzle connection structure of the filling port of claim 1, the light from the sensor is higher reflectivity than the receiving irradiation portion not irradiated. A gas fuel vehicle comprising a tank for storing gas fuel and a filling port for filling the tank with gas fuel,
Wherein the filling port comprises a receptacle nozzle vehicle outside of the gas filling device is connected, and a sensor for optically detecting the opening and closing state of the lid of the connection state and the filling port of the nozzle into the receptacle ,
The sensor irradiates light to the light receiving / irradiating part of the nozzle and the lid of the filling port, detects reflected reflected light, and measures the distance from the sensor to the light receiving / irradiating part and the lid, It is a reflective sensor that detects the connection state of the nozzle to the receptacle and the open / close state of the lid of the filling port, and communicates with the gas filling device outside the vehicle to transmit the tank information to the gas filling device. A gas-fueled vehicle having a communication function .

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