JP3379586B2 - Refueling device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oil supply device having an oil / water separator for recovering oil dropped from an oil supply nozzle. 2. Description of the Related Art In a refueling apparatus, after the refueling operation is completed, the refueling nozzle is hung by a nozzle hook. If it flows to the lever guards or levers, those parts become dirty and uncomfortable for workers. For this reason, the oil supply nozzle is usually hung upward on the nozzle hanger, but still cannot prevent oil dripping. Therefore, various techniques have been developed to prevent oil dripping from the oiling nozzle hung on the nozzle hook from flowing along the oiling nozzle, but conventionally, the aim is to discharge the oil dripping out of the oiling device. And draining oil unnecessarily creates pollution problems. Japanese Patent Publication No. 58-9920 discloses a technique for collecting oil dropped from an oil supply nozzle. However, since the refueling device is installed outdoors, rainwater flows in from the nozzle hook, and measures for that need to be taken. However, it is difficult to completely prevent rainwater from entering. Also, Japanese Utility Model Laid-Open No. 55-129696 discloses a technique for collecting oil dropped from a refueling nozzle. The upper part of a nozzle case for accommodating the nozzle is formed in a roof shape, and a drain edge is formed below. It does not completely prevent rainwater intrusion. Note that Japanese Unexamined Patent Publication No.
Japanese Patent No. 97614 discloses a technique for performing oil / water separation using a water-repellent fibrous structure, but does not relate to an oil supply device. SUMMARY OF THE INVENTION An object of the present invention is to remove and collect rainwater from oil dripping from a refueling nozzle hung on a nozzle hook, and to discharge the rainwater without containing oil. It is an object of the present invention to provide an oil supply device provided with an oil-water separation device in which the above-mentioned problem is prevented. According to the present invention, a nozzle hook (7) is provided, and when a fuel supply nozzle (N) is hung on the nozzle hook (7), the nozzle portion (9) is provided. (A) provided with a hood (10) in which is stored
, An oil / water separator (13) containing an oil / water separator (21) made of a water-repellent net is provided, and the oil dropped from the oil supply nozzle (N) on the nozzle hook (7) into the hood (10) is removed. The recovery pipe (12) to be recovered is connected to the oil-water separator (1).
3), and a line (14) for recovering the oil separated by the oil-water separator (13) is connected to the gas-liquid separation chamber (6) of the pump device (2), so that a replaceable oil adsorbent ( An oil adsorption device (16) provided with an oil adsorption device (1) is provided.
A drain pipe (15) for discharging the rainwater separated by the oil-water separation device (13) is connected to 6), and the rainwater from which the oil has been removed by the oil adsorbent (23) is discharged to the outside of the oil supply device (A). A line (17) is provided. Accordingly, the oil dropped from the oil supply nozzle flows together with the rainwater from the nozzle-mounted hood to the oil-water separator. Since this oil / water separator is an oil / water separator made of a water repellent net, the rainwater and oil that have flowed in are located above the oil because the oil is light, but water cannot pass through the oil / water separator due to the water repellent net. Only oil will pass. To that end, the oil falls down through the oil-water separator and the oil-free rainwater is drained. [0007] Rainwater discharged from the oil-water separator is guided to an oil adsorber, the oil is adsorbed by an oil adsorbent provided in the device, and only the rainwater is discharged to the outside of the oil supply device.
On the other hand, the oil separated by the oil-water separation device is collected in the gas-liquid separation chamber of the pump device. The oil adsorbent that has adsorbed oil is replaced to restore the oil adsorbing function. In this way, oil discharge is prevented and no pollution problems arise. [0008] In carrying out the present invention, the oil separated by the oil-water separator is recovered in the gas-liquid separation chamber of the pump device.
The air containing oil vapor separated in the gas-liquid separation chamber is preferably discharged to a nozzle-mounted hood. In this way, the oil contained in the vapor can be recovered again. An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows an oil supply device A embodying the present invention. Oil from an underground tank (not shown) is pumped through a pumping pipe 3 by a pump device 2 driven by a motor 1, and then passed through a line L1. The flow rate is measured by the flow meter 4 and then flows into the hose H through the line L2 to be supplied to the refueling nozzle N. The refueling amount measured by the flow meter 4 is displayed on the indicator 5. The pump device 2 is disclosed in, for example, JP-A-61-118.
A known technique described in Japanese Patent Application No. 568 is applied, and a gas-liquid separation chamber 6 is provided. On the other hand, the refueling device A is provided with a nozzle hook 7, and a nozzle switch 8 which is activated when the refueling nozzle N is hooked on the nozzle hook 7, is provided. A hood 10 in which N nozzle portions 9 are stored is provided. All of the above belong to known techniques. According to the present invention, the air separated in the gas-liquid separation chamber 6 is discharged to the hood 10 through an air vent pipe 11. The oil dropped on the hood 10 flows into the oil / water separator 13 through the recovery pipe 12, and the oil separated by the oil / water separator 13 is collected in the gas-liquid separation chamber 6 through the line 14. The rainwater enters the oil adsorber 16 through the discharge pipe 15, where a small amount of oil contained in the rainwater, that is, oil not separated by the oil / water separator 13 is adsorbed, and only the rainwater is discharged from the line 17. It is. FIG. 2 shows a main part of an embodiment of the present invention. That is, the collection pipe 12 is connected to the lowermost part of the hood 10. The recovery pipe 12 is connected to an oil / water separator 13. The oil / water separator 13 includes a casing 20 and a cylindrical oil / water separator 21 housed in the casing 20. The oil / water separator 21 is coated with Teflon to increase the water repellency of a wire mesh (for example, 150 mesh). ), The oil-water separator 21 is provided at an angle so that the inlet side 20a to which the recovery pipe 12 is connected is lower than the outlet side 20b to which the discharge pipe 15 is connected. The residence time in the device has been extended.
Therefore, the end of the liquid level LL is in contact with the oil / water separator 21, and heavy water does not pass through the oil / water separator 21 of the water-repellent wire mesh, and light oil is applied to the oil / water separator 21 at the end of the liquid level LL.
Through the lower chamber 20c. The separated oil flowing into the lower chamber 20 flows into the gas-liquid separation chamber 6 of the pump device 2 via the line 14. On the other hand, the rainwater is the highest liquid level H of the oil / water separator 21.
When the liquid accumulates above L, it flows from the outlet side 20b to the discharge pipe 15 and flows into the oil adsorption device 16. The oil adsorbing device 16 has an oil adsorbing material 23 installed in a casing 22, and the oil adsorbing material 23 can be replaced by removing the lid 24 from the casing 22. Therefore, even if a small amount of oil that cannot be separated by the oil-water separator 13 flows out to the discharge pipe 15, the oil is adsorbed by the oil adsorbent 23. Then, only the rainwater is discharged from the line 17 to the outside of the fueling device A. Therefore, there is no pollution problem. The present invention is configured as described above,
The following effects are obtained. (A) Since the oil dripping from the oil supply nozzle is positively collected, there is no waste, and there is no outflow of oil outside the apparatus, so that there is no pollution problem. (B) Even if rainwater flows into the hood, the water is separated by the oil-water separator, so that the water is not collected by being mixed with the oil. (C) The rainwater separated by the oil-water separator is further completely removed of oil by the oil adsorber, and only the water is discharged outside the device, so that the pollution of oil discharge is completely prevented. (D) The adsorbent of the oil adsorbing device is replaceable, so that the deterioration of the adsorbing performance due to oil adhesion can be easily recovered. [0020]

[Brief description of the drawings] FIG. 1 is an explanatory diagram showing the overall configuration of the present invention. FIG. 2 is a sectional side view showing a main part of the present invention. [Explanation of symbols] A: Refueling device N: Refueling nozzle H ・ ・ ・ Hose 1 ... motor 2 ... Pump device 3 ... Pumping pipe 4 ... Flow meter 5 ・ ・ ・ Display gauge 6 ... gas-liquid separation chamber 7 ... Nozzle hook 8 ... Nozzle switch 9 ... Nozzle part 10 Food 13 ・ ・ ・ Oil water separator 16 ・ ・ ・ Oil adsorption device 21 ・ ・ ・ Oil-water separator

Claims (1)

(1) A nozzle hook (7) is provided, and the nozzle portion (9) is housed when the refueling nozzle (N) is hooked on the nozzle hook (7). An oil-water separator (13) in which an oil-water separator (21) made of a water-repellent net is stored in an oil supply device (A) provided with a hood (10);
A collection pipe (12) for collecting oil dropped into the hood (10) from the oil supply nozzle (N) hung on the nozzle hook (7) is connected to the oil / water separator (13), and the oil / water separator (13) A line (14) for collecting the oil separated in step (1) is connected to the gas-liquid separation chamber (6) of the pump device (2), and an oil adsorption device (16) having a replaceable oil adsorbent (23) is provided , The oil-water separation device (1)
A discharge pipe (15) for discharging the rainwater separated in 3) is connected, and a line (17) for discharging the rainwater from which oil has been removed by the oil adsorbent (23) to the outside of the oil supply device (A) is provided. A refueling device characterized by the above-mentioned.