JP4139937B2 - Lubrication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fueling device installed in a fueling station, and more particularly to a fueling device capable of removing static electricity charged on a human body or the like before operation.
[0002]
[Prior art]
Conventionally, fuel oil supplied by a fueling device installed at a gas station has high flammability, and there has been a risk of causing a fire by igniting by static sparks charged in a human body or an automobile. In order to prevent this, the workers at the gas station performed the oiling work by wearing conductive clothes and shoes. In addition, the static electricity charged in the automobile escaped through the discharge pipe of the oil supply nozzle, which is formed entirely of a conductive metal.
[0003]
[Problems to be solved by the invention]
By the way, in recent gas stations, self-service type oiling devices are installed in which customers themselves perform a fueling operation for the purpose of reducing labor costs. The workers at the gas station are wearing clothes and shoes that remove static electricity, but the customer has not made any of these preparations. There was a risk of fire igniting vapor and the like, causing a fire. In addition, since the gripping portion of the oil supply nozzle is made of a non-conductive synthetic resin in order to improve operability and reduce manufacturing costs, charged static electricity may not easily escape.
[0004]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an oil supply apparatus that can reliably remove static electricity charged on a human body or an automobile before an oil supply operation and can prevent an accident such as a fire.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, in the first aspect of the present invention , the discharge pipe portion is attached to the body portion having a valve mechanism made of conductive metal at the tip of the oil supply mechanism, and the grip portion made of synthetic resin. And a data input / output device for inputting / outputting oil setting data for controlling the oil supply mechanism, and an oil supply hose having an oil supply nozzle attached to the elbow via a swivel joint on a side surface of the main body portion. in the oil supply hose refueling device suspended, suspended from a hose processing apparatus customer himself performs refueling operation by refueling setting and filling nozzle according to the data input-output device, it said oil supply nozzle is conducted to the said grip portion with sexual member is attached, select button at hand counter constituting the data input-output device attached to the said body portion Surface portion of the is covered with the material of the metal material or a conductive rubber having a conductivity, and switch cord made of a conductive metal for operating the switch that lowers the oil supply hose grip portion of the oil supply nozzles are provided, The conductive member of the grip portion, the conductive metal material or conductive rubber material of the surface of the operation button, and the switch string are connected to the installation ground portion via a ground wire arranged in the oil supply hose. It is characterized by being. Static electricity charged to the human body or automobile before the refueling operation is discharged from the data input / output device, the conductive member provided in the operation part of the refueling nozzle or the switch string made of conductive metal to the installation ground part via the ground wire. By doing so, it can be removed reliably and accidents such as fire can be prevented. Static electricity can be easily removed by operating the oiling nozzle, data input / output device or switch string.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be specifically described with reference to an illustrated embodiment. 1 to 3 are diagrams for explaining a fueling device according to a first embodiment of the present invention. FIG. 1 is a partial sectional view of the fueling device, FIG. 2 is a front view of the fueling device, and FIG. 3 is a sectional view of a fueling nozzle. is there.
[0009]
In these drawings, the fueling device 10 of the present embodiment is a ground-installed device capable of operating and refueling fuel oil such as regular gasoline, high-octane gasoline, and light oil from the front side and the back side. is there. As shown in FIG. 2, the main body case 11 of the oil supply device 10 is formed of a conductive metal material, and a device case 13 provided on the base plate 12 on the lower side, and on the device case 13 It is comprised from the provided display case 14, the support | pillars 15 and 15 provided in the right and left of the apparatus case 13 and the display case 14, and the top case 16 provided between these support | pillars 15 and 15 upper part. . Housed in the device case 13 are an oil supply pump and a flow meter having a pulse transmitter that constitute an oil supply mechanism for each oil type. An oil supply hose 18 of each oil type having an oil supply nozzle 19 connected to the tip which will be described in detail later is suspended from the top case 16. The oil supply nozzle 19 is adapted to be hung on a nozzle hook 20 provided on the front surface and the back surface of the device case 13. Display panels 17 are provided on the front and back operation surfaces of the display case 14, respectively. The display panel 17 is provided with an oil supply amount indicator 21 for displaying the amount of oil supply at the center, and an alarm device 25 comprising a lamp that is turned on when static elimination is completed is attached to the lower side of the oil supply amount indicator 21. It has been. The other display panel 17 portion (left side portion) has a selection button 22 for selecting one of the oil types to be refueled as a data input / output device for setting refueling data before refueling work, and a refueling amount A keyboard 23 for inputting data is provided. Further, an alarm device 24 is attached to the top of the top case 16 to notify the completion of static elimination and the oil supply state.
[0010]
As shown in FIG. 1, the selection button 22 and the keyboard 23 provided on the display panel 17 of the display case 14 are a metal material or conductive rubber having a conductive surface portion (shaded portion) operated by a person's finger. The surface portions are electrically connected to the support column 15 of the main body case 11 made of, for example, a metal material by ground wires 25 and 26, respectively. Further, a joint box 27 for collecting and connecting ground wires such as an oil pump (not shown) is provided in the device case 13, and the ground wire 28 is electrically connected to the support column 15 in the joint box 27. Yes. A pit (groove) 2 is formed on the site 1 of the gas station at the lower part of the base plate 12, and an installation ground unit 30 is provided with one end portion embedded in the site 1 and the other end projecting into the pit 2. The ground wire 28 is electrically connected to the installation ground portion 30 in the pit 2 through the ground wire 29 together with other ground wires in the joint box 27. An alarm 24 provided on the top case 16 and an alarm 25 provided on the display panel 17 detect a discharge current provided when the selection button 22 or the keyboard 23 is touched or in the middle of the ground wire. Thus, the fact that the static elimination has been completed is notified by lighting or the like.
[0011]
As shown in FIG. 3, the oil supply nozzle 19 has a main body portion 31, a discharge pipe portion 32 attached to the tip of the main body portion 31, and a grip portion 38 attached to the lower portion of the main body portion 31. An elbow 34 is attached to the side surface of the main body portion 31 via a swivel joint 33, and the oil supply hose 18 is connected to the elbow 34.
[0012]
The main body portion 31 is molded from an aluminum casting, which is a conductive metal, and a valve mechanism 35 is provided inside. Similarly, the discharge pipe portion 32 is formed of an aluminum pipe that is a conductive metal, and is connected to the downstream side of the valve mechanism 35 of the main body portion 31. The elbow 34 is molded from a cast iron casting, which is a conductive metal, and is connected to the oil supply hose 18. The oil hose 18 is provided with a ground wire 36, one end of the ground wire 36 is electrically connected to the main body portion 31 via an elbow 34, and the other end of the main body case 11 made of a metal material. It is connected to the top case 16, and is grounded from the top case 16 through the support 15, the ground wire 28, the joint box 27, the ground wire 29, and the installation ground portion 30.
[0013]
The grip portion 38 is formed of a synthetic resin so that the grip is soft touch and the manufacturing cost is low. The grip portion 38 is integrally formed with the lever guard 39 of the opening / closing lever 37 of the valve mechanism 35 and attached to the lower surface of the main body portion 31. . In addition, the grip portion 38 is formed with recesses 40 and 41 to lighten the entire fuel supply nozzle 19. The oil supply nozzle 19 is provided with a conductive member 42 for releasing static electricity charged on the human body when the grip portion 38 is gripped. This conductive member 42 is incorporated in a hole formed in the grip portion 38 and is attached by a bolt 43 inserted through the recess 41. Further, the surface of the conductive material 42 is formed so as to protrude slightly from the surface of the grip portion 38 so as to surely come into contact with the human body when the grip portion 38 is gripped. And between the electroconductive member 42 and the main-body part 31, the substantially Z-shaped electroconductive board 44 which electrically connects between them is arrange | positioned. That is, one end portion of the conductive plate 44 is simultaneously tightened by the bolt 25, and the other end portion is simultaneously tightened and attached by the bolt 45 that attaches the grip portion 38 to the main body portion 31.
[0014]
In the fueling device 10 configured as described above, when the selection button 22 or the keyboard 23 which is a data input / output device is operated before the fueling operation, the surface portion is covered with a material such as a conductive metal material or conductive rubber. Therefore, static electricity charged on the human body is discharged through the ground wires 25 and 26, the support column 15, the joint box 27, the ground wire 28, and the installation ground unit 30. Subsequently, when the fueling nozzle 19 is held and operated, static electricity charged on the automobile is attached to the main body part 31 from the discharge pipe part 32, and static electricity charged on the human body is attached to the grip part 38. The conductive member 42 flows through the conductive plate 44 to the main body portion 31, and the elbow 34, the ground wire 36 of the oil supply hose 18, the top case 16, the support 15, the ground wire 28, the joint box 27, the ground wire 29, It discharges through the installation ground part 30. Therefore, the static electricity charged on the human body or the automobile before the refueling operation is reliably removed, and an accident such as a fire can be prevented in advance. When the static electricity is removed, the alarm 25 provided on the display panel 17 is informed so that the operator can know that the static elimination has been completed and is provided on the top of the top case 16. By notifying the alarm device 24, not only the operator but also the gas station staff can know that the static elimination has been completed.
[0015]
4 and 5 are views for explaining a fueling device according to a second embodiment of the present invention. FIG. 4 is a perspective view of the fueling device, and FIG. 5 is a side view of the fueling nozzle. In addition, the part corresponding to 1st Embodiment describes the same code | symbol.
[0016]
As shown in FIG. 4, the fueling device 50 of this embodiment is provided with a hose processing device 51 at the lower portion of the canopy 3 of the site 1 of the fueling station, and is connected to a fueling mechanism (not shown) from the hose processing case 51. A plurality of oil supply hoses 52 each having an oil supply nozzle 53 are suspended, and the oil supply hoses 52 are lowered at the time of oil supply, and are raised to their original positions after the end of oil supply.
[0017]
As shown in FIG. 5, the oil supply nozzle 53 includes a main body portion 54 having a valve mechanism made of a conductive metal as in the first embodiment, and a conductive discharge pipe portion 55 attached to the tip of the main body portion 54. And a grip portion 56 made of synthetic resin attached to the lower portion of the main body portion 54. An elbow is attached to the side surface of the main body portion 54 via a swivel joint 58, and an oil supply hose 52 is attached to the elbow. A conductive member 57 that is connected and electrically connected to the main body portion 54 is provided in the grip portion 56 as in the first embodiment, and the oil supply hose 52 is provided in the main body portion 54 as in the first embodiment. A ground wire 63 is provided which is electrically connected to. The ground wire 63 is connected to an installation ground portion provided in the site 1 through the hose processing device 51. Further, a hand counter 60 constituting a data input / output device is attached to the main body portion 54, and the selection button 61 is a metal material or conductive rubber having a conductive surface portion, as in the first embodiment. The surface portion is grounded via the ground wire 63. Further, a switch string 62 made of a conductive metal for operating a switch (not shown) for lowering the fuel supply hose 52 is provided on the grip portion 56 of the fuel supply nozzle 53. The switch string 62 is electrically connected to the main body portion 54 and is similarly grounded via the ground wire 63. Reference numeral 59 denotes an opening / closing lever.
[0018]
In the fueling device 50 configured as described above, when the switch string 62 is touched to perform a fueling operation or the selection button 61 of the hand counter 60 that is a data input / output device is operated, the static electricity charged on the human body is switched to the switch string 62 or the selection. Static electricity discharged from the button 61 through the ground wire 63 and charged to the human body or the like before the refueling operation is reliably removed, and an accident such as a fire can be prevented in advance.
[0019]
In the first embodiment, the example in which the oil supply mechanism is housed in the main body case 11 and the data input / output device is provided in the display panel 17 has been described. For example, the oil supply pump is disposed in the underground tank. Alternatively, the data input / output device may be provided separately from the main body case 11. Further, although the ground wires 25, 26, and 28 are connected to the support column 15, the ground wires 25, 26, and 28 may be connected to the main body case 11 made of a conductive metal material, and are not limited to the embodiment. Furthermore, the notification devices 24 and 25 that notify the completion of static elimination can be applied to any notification method other than lighting, and the installation location and the number can also be arbitrarily determined.
[0020]
Further, in the above embodiment, at least before the refueling operation, the static electricity charged in the human body is removed when the switch string 62 is operated to lower the refueling hose 52 or the data input / output device for setting the refueling data is operated. Anything is possible.
[0021]
【The invention's effect】
As described above, in the fueling device of the present invention, a fueling hose having a fueling nozzle at the tip is connected to the fueling mechanism, and a data input / output device that inputs and outputs fueling setting data for controlling the fueling mechanism is provided. In the oil supply device that itself performs the oil supply setting by the data input / output device and the oil supply work by the oil supply nozzle, the data input / output device or the oil supply nozzle is provided with a conductive member in the operation part, and the conductive member is installed through the ground wire By connecting to the grounding part, static electricity charged to the human body or automobile before the refueling operation can be transferred from the conductive member provided in the data input / output device or the operation part of the fueling nozzle to the installation grounding part via the grounding wire. It can be discharged and removed reliably, preventing accidents such as fires.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view of a fueling device according to a first embodiment of the present invention.
FIG. 2 is a front view of the oil supply device according to the first embodiment of the present invention.
FIG. 3 is a sectional view of an oil supply nozzle according to the first embodiment of the present invention.
FIG. 4 is a perspective view of an oil supply device according to a second embodiment of the present invention.
FIG. 5 is a side view of an oil supply nozzle according to a second embodiment of the present invention.
[Explanation of symbols]
1 Site 2 Pit (groove)
DESCRIPTION OF SYMBOLS 10 Oil supply apparatus 11 Main body case 12 Base plate 13 Equipment case 14 Indicator case 15 Support | pillar 16 Top case 17 Display panel 18 Oil supply hose 19 Oil supply nozzle 20 Nozzle hook 21 Oil supply amount indicator 22 Selection button 23 Keyboard 24 Alarm 25 Alarm 25, 26 Ground wire 27 Joint box
28, 29 Ground wire
30 Installation ground part 31 Main body part 32 Discharge pipe part 33 Swivel joint 34 Elbow 35 Valve mechanism 36 Ground wire 37 Opening / closing lever 38 Grip part 39 Lever guard 40, 41 Recess 42 Conductive member 43, 45 Bolt 44 Conductive plate 50 Oil supply device 51 Hose processing device 52 Lubrication hose 53 Lubrication nozzle 54 Main body portion 55 Discharge pipe portion 56 Grasping portion 57 Conductive member 58 Swivel joint 59 Opening / closing lever 60 Hand counter 61 Selection button 62 Switch string 63 Ground wire

Claims (1)

An oil supply hose having an oil supply nozzle in which a discharge pipe part is attached to a main body part having a valve mechanism made of conductive metal at the tip of the oil supply mechanism and a grip part made of synthetic resin is attached to a side surface of the main body part A data input / output device connected to the elbow via a joint and inputting / outputting oil setting data for controlling the oil supply mechanism is provided, and the customer himself performs oil setting by the data input / output device and oil supply work by the oil nozzle. In the suspended oil supply device in which the oil supply hose to be suspended is suspended from the hose processing device,
The oil supply nozzle, with the conductive member is attached to the said grip portion, or a metal material surface portion of the selection buttons on the hand counter constituting the data input-output device attached to the said body portion is electrically conductive A switch string made of a conductive metal that is covered with a conductive rubber material and that operates a switch for lowering the oil supply hose is provided at the grip portion of the fuel supply nozzle, the conductive member of the grip portion, and the operation button An oil supply device, wherein the conductive metal material or the conductive rubber material and the switch string are connected to an installation earth part through an earth wire arranged on the oil supply hose .

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