JP2005193772A - Fuel supply station - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuel supply station capable of securing safety by preventing stay of vapor of fuel oil, even if facilities for supplying the fuel oil and fuel gas are juxtaposed. <P>SOLUTION: A gasoline supply device 11 connected via an oil feeding pipe 13 to an underground tank 12 for storing gasoline and connected with an oil feeding hose 16 having an oil feeding nozzle 17 on the tip, and a gas filling device 20 connected to a gas supply source via a gas pipe 21 and connected with a filling hose 24 having a filling nozzle 25 on the tip, are separately juxtaposed on a site 1. A low vapor shielding wall 30 for isolating the mutual devices, is erected on the site 1 between the gasoline supply device 11 and the gas filling device 20. A vapor sensor 33 for detecting gasoline vapor is arranged on the vapor shielding wall 30, and a vapor recovering pump 32 is driven by a detecting signal of this vapor sensor 33. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a fuel supply station for supplying fuel oil or fuel gas to an automobile.

In recent years, carbon dioxide generated from automobiles that use gasoline fuel has caused problems such as air pollution and global warming. Therefore, instead of automobiles equipped with gasoline engines, natural gas or hydrogen gas is used as fuel. The development of automobiles equipped with such engines is drawing attention. In connection with this, the filling equipment which supplies fuel gas similarly to the conventional gas station which supplies gasoline is needed. Since it is very expensive to install a new filling facility for supplying the fuel gas separately from the filling station, it is considered to install a gas filling facility in the conventional filling station. The present applicant has disclosed a technology relating to a hydrogen fuel supply system that can easily manufacture and supply hydrogen gas used as fuel for a hydrogen automobile (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 2002-180906 (Pages 2 and 3, FIGS. 1 and 2)

  When a gas filling facility such as hydrogen gas is installed in a conventional gas station, for example, when hydrogen gas leaks from the gas filling facility, the hydrogen gas is diffused upward because it is lighter than air. Since the vapor of this was heavy, it stayed on the same site, and there was a risk of causing a serious accident in the gas filling facility due to the staying gasoline vapor.

  The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a fuel supply station that can prevent fuel oil vapor from staying and ensure safety even when facilities for supplying fuel oil and fuel gas are provided. And

  In order to achieve the above object, in the invention described in claim 1, a gasoline supply apparatus connected to an underground tank storing gasoline fuel via an oil supply pipe and connected to an oil supply hose having an oil supply nozzle at the tip; A gas filling device connected to a gas supply source via a gas pipe and connected to a filling hose having a filling nozzle at the tip is provided separately on the site, and in the site between the gasoline supply device and the gas filling device In addition, a low vapor shielding wall that separates them from each other is provided upright. In the site where the gasoline supply device and the gas filling device are provided, a vapor shielding wall is provided so as to isolate each other, so that the fuel oil vapor can be prevented from staying and safety can be ensured.

  According to a second aspect of the present invention, the vapor shielding wall is provided with a vapor sensor that detects gasoline vapor flowing out from the gasoline supply device side, and is driven by a detection signal of the vapor sensor to cause the gasoline vapor to flow. A vapor recovery pump is provided for suction and returning to the underground tank. The vapor recovery pump can be driven and returned to the underground tank by the detection signal of the vapor sensor.

  According to a third aspect of the present invention, the vapor shielding wall is provided with a vapor sensor that detects gasoline vapor flowing out from the gasoline supply device side, and is driven by a detection signal of the vapor sensor to cause the gasoline vapor to flow. A vapor recovery pump is provided which sucks and returns to the vent pipe of the underground tank. The vapor recovery pump can be driven by the detection signal of the vapor sensor to flow through the vent pipe.

  A gasoline supply apparatus connected to an underground tank storing gasoline fuel via an oil supply pipe and connected to an oil supply hose having an oil supply nozzle at the tip, and a filling hose connected to a gas supply source via a gas pipe and having a filling nozzle at the tip And a gas filling device connected to each other on the site, and the site between the gasoline supply device and the gas filling device is provided with a low vapor shielding wall that separates each other, Even if a gasoline supply device and a gas filling device are provided on the premises, a vapor shielding wall that separates them from each other is erected, so that the fuel oil vapor can be prevented from staying and safety can be ensured.

  Hereinafter, the present invention will be specifically described with reference to an illustrated embodiment. 1 to 3 are diagrams for explaining a fuel supply station according to an embodiment of the present invention. FIG. 1 is a front view of the fuel supply station, FIG. 2 is a plan view of the fuel supply station, and FIG. It is a flowchart explaining operation | movement.

  The fuel supply station 10 of this embodiment includes a gasoline supply device 11 connected to an underground tank 12 storing gasoline fuel buried underground through a fuel supply pipe 13, and a gas fuel supply source such as hydrogen gas (not shown). In addition, a gas filling device 20 connected via a gas pipe 21 is arranged on the site 1, and in this site 1, the gasoline vapor leaking from the gasoline supply device 11 is isolated so as not to diffuse to the gas filling device 20 side. When the vapor shielding wall 30 is installed upright and the vapor sensor 33 provided on the vapor shielding wall 30 detects gasoline vapor, the vapor collection pump 32 is driven to return the vapor to the underground tank 12. It has become.

  The site 1 of the fuel supply station 10 is provided with fire walls 2 so as to surround the left and right sides and the back side except for the front side where the automobile enters, and a region 1a where the gasoline supply device 11 is erected, and a gas The region 1b where the filling device 20 is erected is partitioned by a certain distance necessary for safety, and a vapor shielding wall 30 is erected between the regions 1a and 1b. The gasoline supply device 11 is connected to an underground tank 12 through a gas pipe 21 to an oil supply mechanism disposed in a ground-installed supply device main body 15, and is connected to the oil supply mechanism on a side surface of the supply device main body 15. An oil supply hose 16 having an oil supply nozzle 17 at the tip is provided, and the oil supply nozzle 17 is hung on a nozzle hook attached to a side surface of the supply device main body 15. Further, the gasoline flow rate measured by the flow meter of the oil supply mechanism is displayed on a display 18 provided on the front side of the supply device body 15. The underground tank 12 is connected to a vent pipe by a pipe 14.

  The gas filling device 20 is connected to a gas fuel supply source (not shown) such as hydrogen gas via a gas pipe 21 to a filling mechanism disposed in a ground-type filling device body 23, and a side surface of the filling device body 23. Is provided with a filling hose 24 connected to a filling mechanism and having a filling nozzle 25 at the tip, and the filling nozzle 25 is hung on a nozzle hook attached to the side surface of the filling device main body 23. Further, the gas flow rate measured by the flow meter of the filling mechanism is displayed on a display 26 provided on the front side of the filling apparatus main body 23. The gas pipe 21 for gas filling is piped along a groove 22 formed in the area 1 b of the site 1 up to the vicinity of the gas filling device 20.

  The vapor shielding wall 30 erected between the gasoline supply device 11 and the gas filling device 20 has a height of about 60 to 80 cm, for example, from the front side so as to partition the left and right regions 1a and 1b. It is provided up to the vicinity of the side fire wall 2. A shallow groove 34 is formed in the vicinity of the vapor shielding wall 30 on the gasoline supply device 11 side along the vapor shielding wall 30. The groove 34 is for allowing oil such as gasoline leaking from the gasoline supply device 11 to flow into an oil / water separation tank (not shown). A vapor sensor 33 for detecting gasoline vapor is attached to the surface of the vapor shielding wall 30 on the gasoline supply device 11 side. A vapor recovery pump 32 is embedded in the site 1 in the vicinity of the vapor shielding wall 30 on the gas filling device 20 side. A suction pipe 35 is connected to the vapor recovery pump 32, and an end thereof is slightly raised at the upper part of the site 1, penetrates the lower side of the vapor shielding wall 30, and reaches the gasoline supply device 11 side at the upper part of the groove 34. Slightly protruding. A vapor return pipe 31 communicated with the underground tank 12 is connected to the vapor recovery pump 32. The vapor recovery pump 32 is driven by a detection signal from the vapor sensor 33.

  Next, the operation of the vapor recovery pump configured as described above will be described. As shown in FIG. 3, when the vapor sensor 33 detects the gasoline vapor and is turned on (ST1), and when the vapor recovery pump 32 is turned on (ST2), the gasoline vapor staying on the gasoline supply device 11 side. Is sucked by the suction pipe 35 and returned to the underground tank 12 through the vapor return pipe 31. Further, when the vapor sensor 33 is turned off without detecting gasoline vapor (ST3), and when the vapor recovery pump 32 is turned off (ST4), the suction of the gasoline vapor is stopped.

  As described above, in the fuel supply station 10 having the above-described configuration, the gasoline supply device 11 and the gas filling device 20 are arranged on the site 1 at a predetermined distance, and the vapor shielding wall 30 that partitions them is provided. A vapor sensor 33 is provided on the surface of the vapor shielding wall 30 on the gasoline supply device 11 side, and the vapor recovery pump 32 is driven based on the vapor sensor 33 to return the gasoline vapor to the underground tank 12. Gasoline vapor flowing out on the apparatus 11 side is blocked by the vapor shielding wall 30 because it is heavy, stays in the vicinity of the groove 34 on the lower side, does not flow out to the region 1b on the gas filling apparatus 20 side, and the vapor shielding wall 30 When the vapor sensor provided on the wall of the cylinder detects gasoline vapor, the vapor collection pump 32 is driven. It is returned to the underground tank 12 from the suction pipe 35 through the vapor return tube 31. Therefore, even if the gasoline supply device 11 and the gas filling device 20 are provided in the same site 1, it is possible to eliminate the risk of causing a major accident in the gas filling device 20 due to gasoline vapor.

  In the above embodiment, the example in which the vapor recovery pump 32 is driven to return the gasoline vapor to the underground tank 12 has been described. However, if the vapor return pipe 31 communicates with the vent pipe, Can be released. Moreover, the kind and number of the gasoline supply apparatus 11 and the gas filling apparatus 20 can be arbitrarily set, and are not limited to the embodiment.

  The present invention can be used in a fuel supply station equipped with a gasoline supply device and a gas filling device for supplying fuel oil or fuel gas to an automobile.

It is a front view of the fuel supply station of this embodiment. It is a top view of the fuel supply station of embodiment of this invention. It is a flowchart explaining the operation | movement for gasoline vapor collection | recovery of this invention embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Site 1a area | region 1b area | region 2 Firewall 10 Fuel supply station 11 Gasoline supply apparatus 12 Underground tank 13 Oil supply pipe 14 Piping 15 Supply apparatus main body 16 Oil supply hose 17 Oil supply nozzle 18 Indicator 20 Gas filling apparatus 21 Gas pipe 22 Groove 23 Filling apparatus Main body 24 Filling hose 25 Filling nozzle 26 Indicator 30 Vapor shielding wall 31 Vapor return pipe 32 Vapor collection pump 33 Vapor sensor 34 Groove 35 Suction pipe

Claims (3)

A gasoline supply apparatus connected to an underground tank storing gasoline fuel via an oil supply pipe and connected to an oil supply hose having an oil supply nozzle at the tip, and a filling hose connected to a gas supply source via a gas pipe and having a filling nozzle at the tip And a gas filling device connected to each other on the site, and a low vapor shielding wall is provided on the site between the gasoline supply device and the gas filling device so as to isolate each other. Characteristic fuel supply station. The vapor shielding wall is provided with a vapor sensor that detects gasoline vapor flowing out from the gasoline supply device side, and is driven by a detection signal of the vapor sensor to suck the gasoline vapor and return it to the underground tank. The fuel supply station according to claim 1, wherein the fuel supply station is provided. The vapor shielding wall is provided with a vapor sensor for detecting the gasoline vapor flowing out from the gasoline supply device side. The vapor sensor is driven by a detection signal of the vapor sensor and sucks the gasoline vapor and returns it to the vent pipe of the underground tank. The fuel supply station according to claim 1, further comprising a recovery pump.

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