KR20150026790A - Nozzle hanger of oil supply apparatus - Google Patents

Abstract

The objective of the present invention is to provide a nozzle hanger of an oil supply device, which allows a nozzle switch to be normally operated and is capable of accurately controlling the oil supply device with no necessity of high precision when the nozzle hanger is installed in a housing. The nozzle hanger comprises: a nozzle hanger body (2) to contain a discharge tube (32) of an oil supply nozzle (31); a support unit (3) to support a lever guard (33) of the oil supply nozzle (31); and a switch operation lever (7). The nozzle hanger further comprises a nozzle switch (18) which is operated when the corresponding switch operation lever (7) is pressurized by the lever guard (33).

Description

[0001] The present invention relates to a nozzle hanger for an oil supply apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a nozzle holder for a fuel supply device for supplying fuel to a vehicle. And more particularly to a nozzle hanger provided with a nozzle switch which is operated in conjunction with the on / off operation of the lubrication nozzle (on / off), wherein the lubrication is controlled by the ON / OFF signal of the nozzle hanger switch .

In the lubrication system provided at a gas station or the like, the lubrication nozzle provided at the tip of the lubrication hose is removed from the nozzle hanger of the lubrication apparatus, and fuel oil is supplied to the fuel tank of the vehicle by inserting the lubrication nozzle into the oil supply port of the vehicle to be lubrication. As described above, the nozzle hanger of the refueling device is provided with a nozzle switch for detecting that the lubrication nozzle is engaged or disengaged, and the nozzle switch operates in conjunction with the lubrication of the lubrication nozzle to generate an on / off signal. The control device of the fuel supply device controls the operation and stop of the fuel supply pump by the ON / OFF signal of the nozzle switch.

In another conventional technology, it is proposed that the nozzle switch is provided on the housing side of the oil supply device, and transmits the movement of the switch operation lever interlocked with the removal of the oil supply nozzle to the nozzle switch through the connection mechanism (see Patent Document 1) . However, in the related art (Patent Document 1), there is a problem in that the oil adhered to the lubricating nozzle returned to the nozzle hanger after lubrication flows away and the hands and clothes of a person (a gas station employee, a customer in a self-service gas station) There is a possibility that oil will be buried. In addition, since the nozzle switch is provided on the housing side of the oil supply device and the operation of the switch operation lever provided on the nozzle hanger is transmitted to the nozzle switch through the connection mechanism, There is a possibility that the accuracy of the mounting position is bad or the nozzle switch does not normally turn on and off, which may interfere with the lubrication operation by the lubrication apparatus.

Japanese Patent Application Laid-Open No. 2003-34397

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems of the prior art, and an object of the present invention is to provide a lubrication apparatus capable of accurately controlling the lubrication apparatus without any need of high accuracy in installation of the nozzle hanger in the housing, The object of the present invention is to provide a nozzle hanger.

The nozzle hanger 1 of the lubrication apparatus of the present invention includes a nozzle hanger main body 2 in which the discharge pipe 32 of the lubrication nozzle 31 is retained, And a nozzle switch 18,44 which has a switch operating lever 7 and also operates when the switch operating lever 7 is pressed by the lever guard 33 with a finger .

In the present invention, the switch operating lever 7 rotates in conjunction with the lifting and lowering of the oil supply nozzle 31 and is provided with the detected piece 14, and the nozzle switch 18 is connected to the switch operating lever It is preferable to have the detection piece 18a contacting with the detection surface 18a. The detection piece 14 provided on the switch operation lever 7 is a leaf spring and the detection piece 18a provided on the nozzle switch 18 is an actuator and the leaf spring 14 is attached to the actuator 18a It is preferable to contact them.

In the present invention, the switch operating lever 7 is provided with a to-be-detected piece 42. The nozzle switch 44 is configured to change the distance to the to-be-detected piece 42 Approach or separation).

In the nozzle hanger 1 of the lubrication apparatus according to the present invention, the nozzle hanger main body 2 is provided with an opening 8, and the switch operating lever 7 is disposed on the upper side of the opening 8 by a shaft So that the switch operating lever 7 is urged so as to protrude from the opening 8.

It is preferable that the receiving portion 3 is provided with a latching piece for engaging and securing the lever guard 33, and the latching piece 20 is rotatable.

In the practice of the present invention, it is preferable that the nozzle hanger main body 2 is integrally formed using an oil-resistant resin, and the hanger part 3 is formed of metal. The metal of the receiving portion 3 is preferably aluminum, aluminum alloy, zinc alloy, or magnesium alloy, for example.

According to the present invention having the above-described configuration, it is possible to form the nozzle hanger main body 2 integrally with a resin, and to make the whole of the nozzle hanger main body 2 flat. In the portion where the lever guard 33 is accommodated, ) Need not be formed. Therefore, even if the oil adhering to the discharge pipe of the oil supply nozzle 33 flows down, the oil is not accumulated in the portion accommodating the lever guard 33, and the lever guard 33 is not dirty with oil . Therefore, it is possible to always carry out a pleasant lubrication operation because there is no risk of oiling the lubrication nozzle 31 or the hand or clothes of the person who has performed the lubrication operation (the gas station staff or the customer in the self-service gas station).

Here, in the prior art, since the nozzle switch is provided on the housing side of the oil supply device, high accuracy is required for mounting the nozzle hanger to the housing, and if the installation accuracy is poor, the movement of the switch operation lever is not easily transmitted to the nozzle switch , The nozzle switch becomes defective and the control of the oil supply device becomes impossible. In contrast, in the present invention, the nozzle switches 18 and 44 are provided in the nozzle holders 1 and 41, and the nozzle switches 18 and 44 and the nozzle holders 1 and 41 can be integrally formed. Therefore, the positional relationship between the switch operation lever 7 and the nozzle switches 18, 44 is always constant, and there is no need to adjust the relative positions of the switch operation lever 7 and the nozzle switches 18, Therefore, installation work is easy.

In the present invention, when the plate spring 14 is provided on the switch operation lever 7 and the nozzle switch 18 is provided with the actuator 18a contacting the leaf spring, The error can be absorbed by the leaf spring 14. Therefore, even if the nozzle hanger 1 is not mounted to the oil supply device housing at a high precision, the oil supply operation by the oil supply device is not hindered. Further, in the present invention, the switch operating lever 7, which rotates in conjunction with the withdrawal of the oil supply nozzle, is provided with a detected piece 42 (for example, a magnet) (For example, a magnetic sensor type) that detects and operates the proximity and separation of the nozzle holder 41. Even if there is a slight difference in the assembly of the nozzle holder 41, The switch 44 operates reliably, thereby making it easier to assemble the nozzle holder.

In the conventional nozzle hanger, since the switch operating lever is supported by the shaft at the upper end of the opening of the nozzle hanger main body, when the snow accumulates on the part of the cold operating lever where the switch operating lever is supported, There is a fear that the rotation of the nozzle switch is disturbed and the nozzle switch is not normally operated. On the other hand, in the nozzle holders 1 and 41 of the lubrication apparatus of the present invention, on the upper side of the opening 8 of the nozzle hanger main body 2 (behind the position for accommodating the nozzle hanger) The switch operation lever 7 is prevented from being covered by the shaft, and the switch operation lever 7 is surely rotated even in the cold region, The nozzle switches 18 and 44 can accurately detect that the fuel supply nozzle 31 is pulled out from the nozzle holders 1 and 41. [

Here, since the fastening piece provided on the receiving portion of the conventional nozzle hanger is fixed to the receiving portion, a person who does not know the existence of the fastening piece (for example, a customer of the self-contained gas station) , The engaging piece is engaged with the lower engaging hole of the nozzle guard, so that it is difficult to remove the lubricating nozzle from the nozzle holder. Since the retaining portion is provided on the receiving portion 3 so as to be engaged with the lever guard 33 so that the retaining piece 20 is pulled out from the nozzle holder 1, So that the engaging state between the engaging piece 20 and the lever guard 33 is released. Therefore, it is possible to easily pull out the oil supply nozzle 31 from the nozzle hanger 1, 41.

1 is an exploded perspective view of a nozzle hanger according to a first embodiment of the present invention.
2 is a perspective view showing the first embodiment.
3 is a sectional view showing a state in which the nozzle hanger of the first embodiment is installed in the housing of the fuel supply device.
4 is a cross-sectional view showing a state in which the lubrication nozzle is hooked on the nozzle hanger of the first embodiment.
5 is a partially enlarged cross-sectional view showing a state in which the lubrication nozzle is removed from the nozzle hanger.
Fig. 6 is a schematic view of a fuel supply device provided with a nozzle hanger according to an embodiment.
7 is an exploded perspective view of the second embodiment.
8 is a cross-sectional view showing a state in which the nozzle hanger according to the second embodiment is installed in the oil supply device.
9 is a cross-sectional view showing a state in which the lubrication nozzle is engaged with the nozzle hanger according to the second embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. First, a first embodiment of the present invention will be described with reference to Figs. 1 to 6. Fig. In the first embodiment, the detected piece provided on the switch operating lever 7 is the leaf spring 14, the detecting piece provided on the nozzle switch 18 is the actuator 18a, and the leaf spring 14 is connected to the actuator 18a. Respectively.

In Fig. 1, the nozzle hanger 1 of the oil supply device is provided with a nozzle hanger main body 2 and a receiving portion 3. A hood 4 is formed on the upper portion of the nozzle hanger main body 2 and the discharge pipe 32 of the lubrication nozzle is stored in the hood 4 as shown in Fig. 1, a hole 5 and a groove 6 are formed in the lower portion of the nozzle hanger main body 2 and a receiving portion 3 is fitted in the hole 5 and the groove 6. [ An opening portion 8 is formed in an upper and lower intermediate region of the nozzle hanger body 2 and a switch operation lever 7 is assembled to the opening portion 8.

The nozzle hanger main body 2 is made of an oil-resistant resin, and the surface of the nozzle hanger main body 2 is formed into a gently curved surface in the area below the hood 4. [ The surface of the nozzle hanger body 2 is formed in a gently curved surface so that even if oil flows out from the discharge pipe 32 (see Fig. 4) of the lubricant nozzle, This makes it possible to keep the nozzle hanger body 2 dirty and to keep the working environment extremely good.

3, a protruding piece 9 is formed on the inside of the opening 8 (on the oil supply device side: right side in Fig. 3), and a pin 10 ), The switch operating lever 7 is pivotally supported. The pin 10 is provided with a spring 11 and the spring 11 is rotated in the clockwise direction about the pin 10 in Fig. 3 so as to project the switch operating lever 7 from the opening 8 I have been trying to force myself. As described above, the mechanism (the projecting piece 9, the pin 10, the spring 11, etc.) for pivotally supporting the switch operating lever 7 is located inside the opening portion 8, (Right side in Fig. 3), the mechanism for supporting the shaft is protected by the nozzle hanger body 2 from snow and wind. Therefore, it is prevented that snow is piled up in the mechanism for supporting the shaft and it is frozen to prevent the rotation of the switch operating lever 7 from interfering with.

1, the pin 10 is fixed to the projecting piece 9 (see Fig. 3: not shown in Fig. 1) by using the washer 12, and a protective cover 13 ) Is covered. A U-shaped leaf spring 14 (to be detected) is mounted on the back surface of the switch operation lever 7 with a screw 15.

A bracket 16 is mounted on the rear surface of the nozzle hanger body 2 with screws. The bracket 16 is provided with a nozzle switch 18 by a screw. The actuator 18a of the nozzle switch 18 and the leaf spring 14 are arranged such that when the lubrication nozzle 31 is hung on the nozzle hanger 1 Quot; on "state in contact therewith. As shown in Figs. 1 to 3, when the fuel supply nozzle 31 is not hooked to the nozzle hanger 1, the actuator 18a and the leaf spring 14 are not brought into contact with each other, Located.

The switch operating lever 7 can always move the nozzle switch 18 to the nozzle hanger body 2 regardless of the accuracy of the mounting of the nozzle hanger 1 on the housing, It is possible to operate normally (on, off). Further, since the nozzle switch 18 is configured to be turned on and off via the leaf spring 14, the plate spring 14 absorbs a slight error, and the nozzle holder can be easily assembled.

Here, the receiving portion 3 is formed of a metal, for example, aluminum, an aluminum alloy, a zinc alloy, or a magnesium alloy. In Fig. 1, a mountain-like (or nail-like) retaining piece 20 is rotatably supported by a pin 21 on the back surface (lower side in Fig. 1) of the receiving portion 3. [ Then, the latching piece 20 is urged by the spring 22 to protrude from the back surface (upper side in Fig. 1) of the receiving portion 3. A rod member (23) and a protruding piece (24) are provided on the receiving portion (3). The rod member 23 is inserted into the hole 5 of the nozzle hanger main body 2 and the projecting piece 24 is engaged with the slit groove 6.

2 shows a state in which the rod member 23 of the receiving portion 3 is inserted into the hole 5 of the nozzle hanger body 2 and the projecting piece 24 is again inserted into the groove 6 . The nozzle hanger main body 2 and the receiving portion 3 in the state shown in Fig. 2 are disposed at predetermined positions of the housing 25 of the fuel supply device. As shown in Fig. 3, the nozzle hanger body 2 and the receiving portion 3 are fixed to the housing 25 with bolts 26, respectively. The signal line 18b of the nozzle switch 18 is connected to the control device 39 (see Fig. 6: not shown in Fig. 3).

The nozzle hanger main body 2 and the receiving portion 3 are constituted by separate members and each is fixed directly to the housing 25 with bolts 26. [ That is, the receiving portion 3 for supporting the oil supply nozzle 31 (Fig. 4) is directly fixed to the housing by the bolts 26. Fig. Therefore, when the fuel supply nozzle 31 is hooked on the nozzle holder 1, the impact acting on the receiver 3 is directly transmitted to the housing 25 without passing through the nozzle holder 1. [ In other words, when the lubrication nozzle 31 is hooked, the impact acting on the receiving portion 3 is dispersed in the housing 25, so that the damage of the nozzle hanger 1 is reduced, Durability is improved.

Next, the operation of the nozzle holder 1 will be described. 4, the discharge pipe 32 of the lubricant supply nozzle 31 is inserted into the hood 4 in a state where the lubricant supply nozzle 31 is hooked on the nozzle holder 1. The lever cover 33, (3). 4, the engaging piece 20 of the receiving portion 3 is subjected to the resilient force by the spring 22 in the state in which the lubricant supplying nozzle 31 is hooked on the nozzle holder 1, The engaging piece 20 is engaged with the engaging hole 33a of the lever cover 33 and engages. Thereby, the fuel supply nozzle 31 is caught by the nozzle holder 1 and is retained. The switch operation lever 7 is pressed by the lever cover 33 and held on the side of the nozzle holder 1 against the repulsive force of the spring 11 The plate spring 14 presses the actuator 18a of the nozzle switch 18 so that the nozzle switch 18 is turned on.

5, when the fuel supply nozzle 31 is pulled toward the near side (left side in FIG. 4) in order to remove the fuel supply nozzle 31 from the nozzle holder 1 from the state of FIG. 4, The engaging piece 20 is pressed (leftward in Fig. 5) so that the engaging piece 20 does not protrude from the lever cover 33, whereby the engaging piece 20 (the counterclockwise direction in Fig. 5) Is not fitted in the locking hole 33a so that the engagement between the lever cover 33 and the locking piece 20 is released.

Next, with reference to Fig. 6, a description will be given of a fuel supply device in which the nozzle hanger 1 shown in Figs. 1 to 5 is assembled. 6, the oil supply pump 36 and the flow meter 37 are provided in the housing 25 of the oil supply device 35 and the oil supply hose 38 connected to the oil supply nozzle 31 is connected to the flow meter 37, As shown in FIG. The nozzle holder 1 is provided in the housing 25 and the signal line 18b of the nozzle switch 18 is connected to the controller 39. [

When the fuel supply nozzle 31 is pulled out from the nozzle holder 1, the fuel supply pump 36 is driven on condition that the nozzle switch 18 sends an ON signal and the corresponding ON signal is input to the control device 39 do. When lubrication is started in the lubrication nozzle 31, the amount of oil supply is measured by the flow meter 37 and displayed on the display device 40. [ When the lubrication is completed and the lubrication nozzle 31 is applied to the nozzle hanger 1, the nozzle switch 18 sends an OFF signal and the lubrication pump 36 stops.

Next, a second embodiment of the present invention will be described with reference to Figs. 7 to 9. Fig. In the description of the second embodiment of Figs. 7 to 9, the same components as those of the first embodiment are denoted by the same reference numerals, and the description thereof is simplified or omitted. In the second embodiment, the detected piece of the switch operating lever 7 is the magnet 42, and the nozzle switch 44 changes the distance from the non-contact type switch, for example, the magnet 42 (the magnet 42) Or a switch of the type which is operated by a switch.

The nozzle hanger 41 according to the second embodiment has the structure of the back side (fuel supply side: left side in Fig. 1) and the structure of the nozzle switch 44 in the switch operation lever 7 in Figs. 1 to 6 Which is different from the first embodiment. 7, a magnet 42 (a piece to be detected) is fixed by a screw 43 to the rear side (oil supply side: left side in Fig. 1) of the switch operation lever 7. [

A bracket 16 is provided with a screw 17 on the rear side of the nozzle hanger main body 2 (on the oil supply side: left side in Fig. 7). A nozzle switch 44 of a non- 19). As described above, the non-contact type nozzle switch 44 is a magnetic sensor type switch of a type that is operated by a change in the magnetic flux density. When the non-detecting magnet 42 is close, 42) are separated from each other.

In the second embodiment, the magnet 42 is provided in the switch operation lever 7, and the nozzle switch 44 is constituted by a switch of a type that is operated (turned on and off) by a change in magnetic flux density, Even if the relative positional relationship between the operating lever 7 and the nozzle switch 44 is not assembled with high precision, the nozzle switch 44 is reliably operated by the change of the magnetic flux density due to the proximity and separation of the magnets 42 Off). Since the relative positional relationship between the switch operation lever 7 and the nozzle switch 44 does not need to be assembled with high accuracy, the nozzle hanger 41 can be assembled easily.

Next, the operation of the second embodiment shown in Figs. 7 to 9 will be described. 9, the discharge tube 32 of the lubricating nozzle 31 is inserted into the hood 4 while the lever guard 33 is engaged with the receiving portion 3 And the engaging piece 20 of the receiving portion 3 is protruded by the spring 22 (upward in Fig. 9) so that the engaging piece 20 is engaged with the engaging hole 33a of the lever guard 33 And inserted. As a result, the oil supply nozzle 31 is retained in the nozzle holder 41. 9, since the switch operating lever 7 is pressed by the lever guard 33 in the state where the lubricant supply nozzle 31 is held by the nozzle holder 41, . Therefore, the magnet 42 moves close to the nozzle switch 44. When the magnet 42 approaches the nozzle switch 44, the nozzle switch 44 senses that the magnetic flux density has increased and the nozzle switch 44 is in the "off" state.

8, when the fuel supply nozzle 31 is removed from the nozzle holder 41, the switch operation lever 7 is rotated by the spring 11 (clockwise in Fig. 8), and the magnet 42 is rotated by the spring 11 And is separated from the switch 44. As a result, the nozzle switch 44 senses that the magnetic flux density has decreased and becomes the "on" state.

As described with reference to Fig. 6, the oil supply device is in a lubrication enabled state by the "on" signal of the nozzle switch 44, and the lubrication pump stops by the "off" Other configurations and operational effects in the second embodiment shown in Figs. 7 to 9 are the same as those in the first embodiment shown in Figs. 1 to 6.

According to the illustrated embodiment, since the nozzle hanger main body 2 is formed in a flat shape, even if the oil adhering to the discharge pipe 32 of the oil supply nozzle 31 flows down, the oil does not accumulate, (33) or the like. As a result, oil does not adhere to the oil supply nozzle 31, and the oil of the worker of the gas station or the hand or the garment of the customer of the self-service gas station does not come into contact with the oil.

In the illustrated embodiment, the nozzle switches 18 and 44 are provided in the nozzle hatches 1 and 41 and the nozzle hatches 18 and 44 and the nozzle hatches 1 and 41 are integrally The positional relationship between the switch operating lever 7 and the nozzle switches 18 and 44 is always constant, so that the installation work is easy. Here, in the first embodiment shown in Figs. 1 to 6, a slight error in assembling is absorbed by the leaf spring 14 of the nozzle switch 18. Fig. 7 to 9, since the nozzle switch 44 can detect the change of the magnetic flux density by the proximity of the magnet 42, the switch operation lever 7 and the nozzle switch 44, The nozzle switch 44 is reliably operated and the lubrication operation by the lubrication apparatus is reliably performed.

In the nozzle hatches 1 and 41 relating to the illustrated embodiment, the switch operation lever 7 is provided above the inside of the opening 8 of the nozzle hitch body 2 (the back side of the position where the nozzle hitch is received) And the shaft-supported portion of the switch operation lever 7 is covered by the nozzle hanger body 2, so that the snow is not covered by the shaft-supported portion, and even in the cold region The switch operation lever 7 rotates surely.

In the illustrated embodiment, when the fuel supply nozzle 31 is pulled out as if it is pulled out from the nozzle hanger 1 (41), the engaging piece 20 is rotated so that the engaging state of the engaging piece 20 and the lever guard 33 Is released. Therefore, it is possible to easily pull the fuel injecting nozzle 31 from the nozzle hanger 1 (41) simply by pulling it.

It should be noted that the illustrated embodiments are illustrative only and are not intended to limit the technical scope of the present invention.

1: Nozzle hook
2: nozzle holder body
3:
4: Hood
5: hole
6: Home
7: Switch operation lever
8: opening
9:
10, 21: pin
11, 22: spring
12: Washer
13: Protective cover
14: Detected piece (leaf spring)
15, 17, 19, 26: screws
16: Bracket
18: Nozzle switch
18a: Detection piece (actuator)
18b: Signal line
20:
23:
24:
25: Housing
31: Lubrication nozzle
32: Discharge tube
33: lever guard
33a:
33P: Pin of lever guard
35: Lubrication device
36: Lubrication pump
37: Flowmeter
38: Oil hose
39: Control device
40: Indicator
41: Nozzle Hanger
42: Detected piece (magnet)
43: Screw
44: Nozzle switch
44b: Signal line

Claims (6)

A nozzle hanger main body in which a discharge pipe of the lubrication nozzle is held, a receiving portion for supporting a lever guard of the lubrication nozzle, and a switch operation lever, which is operated when the switch operation lever is pressed by the lever guard And the nozzle hanger of the oil supply device.
The apparatus according to claim 1, characterized in that the switch operating lever is rotated in association with engagement and disengagement of the oil supply nozzle and has a piece to be detected, and the nozzle switch has a detection piece to be in contact with the piece to be detected Nozzle hanger of lubrication system.
3. The nozzle holder of claim 2, wherein the detected piece provided on the switch operating lever is a leaf spring, and the detecting piece provided on the nozzle switch is an actuator, and the leaf spring contacts the actuator.
The nozzle hanger according to claim 1, wherein the switch operating lever includes a detected piece, and the nozzle switch operates by a variation in distance from the detected piece.
The ink cartridge according to any one of claims 1 to 4, wherein an opening is formed in the nozzle hanger body, the switch operation lever is pivotally supported above the inside of the opening, and the switch operation lever is projected from the opening Wherein the nozzle hanger of the lubricant supply apparatus is received by the nozzle holder.
The nozzle hanger according to any one of claims 1 to 4, wherein the receiving portion is provided with an engaging piece which is engaged with the lever guard to be engaged, and the engaging piece is rotatable.

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