KR100451972B1 - Lubricator - Google Patents

Abstract

The present invention is to confuse between the gasoline vehicle and the diesel vehicle by inserting the fuel nozzle of the gas tanker into the fuel tank of the vehicle, the valve is automatically opened to supply fuel and the fuel nozzle is removed from the fuel inlet to close the valve to shut off the fuel. It is related to a gas tanker to protect the vehicle by preventing mixing due to the fuel injection port and the fuel is sprayed on the floor to prevent the risk of a large fire to provide a stability and convenience when refueling, the lubricator of the present invention In the lubricator is formed by the air inlet hole and the air discharge hole is connected to the transfer pipe to the end of the lubricating nozzle wound the handle and the hanging steel, it is inserted into the lubricating nozzle and the lubricating nozzle formed with a guide groove adjacent to the air inlet hole A spring member to be installed and the end portion of the oil injection nozzle to the center through which the oil injection nozzle Friction adjustment screw for adjusting the frictional force of the operator to form a through-hole in which the spherical ball is installed in one direction and the installation hole in which the pad member is installed adjacent to the through-hole and the ball moved along the guide groove; It includes a soft pad member that is inserted into the installation hole of the operator and a protective plate installed below the pad member to protect the pad member and a fixing plate fixed to the bolt so that the pad member does not leave the installation groove of the operator There is a characteristic.

Description

Lubricator {Lubricator}

According to the present invention, when the fuel nozzle is inserted into the fuel tank of the vehicle, the valve is opened and oiled, and when the oil nozzle is removed, the valve is automatically closed to stop the oil supply, thereby preventing the outflow of fuel due to sub-division and at the same time mixing the gas with the gasoline. It relates to a gas tanker to protect the vehicle to prevent the.

In general, the lubricator is a device for injecting oil from the oil storage tank installed in the basement to supply oil through a hose, etc., which is an oil lubricator main body including the oil intake and various related mechanical devices therein, and the main body and It is composed of a nozzle that is connected by a hose to allow the fuel source to supply the oil sucked by the mechanical operation inside the main body to the fuel tank (not shown) of the vehicle. In addition, the main body is provided with a pump 120 that is operated by the driving force of the motor 100 as shown in Figure 1 to suck the oil from the underground oil storage tank.

The pump 120 is operated by the driving force of the motor 100 as described above, the transmission thereof is a motor pulley 110 and a pump pulley on the rotation shaft of the motor 100 and the rotation shaft of the pump 120, respectively. 130 is installed, and the belt 140 is connected therebetween to transmit the driving force of the motor 100 to the pump 120 by the belt transmission.

In addition, a flow meter 150 is installed at an upper side of the pump 120 to measure oil flowed from the pump 120, and a solenoid valve 180 is installed at an upper side of the flow meter 150. The solenoid valve 180 is installed to control the flow rate or to block the flow path, the inlet pipe 160 is connected to the flow meter 150 on one side of the solenoid valve 180, the other side The discharge pipe 170 is connected to the hose 200.

In addition, as shown in FIG. 1B, the oil lubricator 300 is provided with an oil nozzle 320 so as to protrude in a spout form from the nozzle body 310 formed so that the oil supply source can be easily grasped by hand to form the hose 200. It is configured to discharge the oil flow into the nozzle body 310 through the outside, the lower side of the nozzle body 310 is provided with a lever 330 by the pull and release of the fuel supply source of the solenoid valve ( It is configured to perform the opening and closing operation of the flow path by 180). In addition, the lubricator 300 has an automatic operation means for stopping the lubricating stroke at the completion of lubrication while allowing the refueling source to continue to be made without continually holding and pulling the lever 330 when refueling It is provided.

The automatic operation means to install a sensor 340 at the end of the fuel nozzle 320 of the nozzle body 310 to detect the oil level of the oil filled in the fuel tank (T) of the vehicle by the refueling stroke, On one side of the nozzle body 310 of the lever 330 to lock the lever 330 in a pulled state or to release the latch of the lever 330 by the operation according to the detection signal by the sensor 340. Gwaehaego 350 is provided.

The lubricator configured as described above opens the flow path by the solenoid valve 180 by pulling the lever 330 in a state in which the lubrication nozzle 320 of the lubricator 300 is first inserted into the fuel tank T of the vehicle. At the same time, the motor 100 is driven by an operation command by a controller (not shown). Accordingly, the motor pulley 110 installed on the rotation shaft of the motor 100 rotates, and the rotational force of the motor pulley 110 is transmitted to the pump pulley 130 again by the belt 140 transmission to pump 120. Will be activated. As the pump 120 is operated as described above, the oil in the underground oil storage tank is sucked into the pump 120, and the sucked oil is metered through the flow meter 150 at the pump 120 while the solenoid valve 180 is operated. Flows into the inlet pipe 160. In addition, the oil flowing into the inlet pipe 160 is supplied to the nozzle body 310 through the solenoid valve 180 again through the discharge pipe 170 and the hose 200, and is supplied to the nozzle body 310. The discharged oil is discharged through the oil supply nozzle 320 of the nozzle body 310 to perform the oil supply stroke.

At this time, the fuel supply source performs continuous refueling operation without manual operation in the state of hanging the lever 330 on the rubbing. In this state, when the oil level in the fuel tank T of the vehicle continues to rise to reach the detection sensor 340 installed at the end of the oil supply nozzle 320 of the lubricator 300, the detection sensor 340 is a signal thereof To send to the controller, the controller receives the signal to give the operation command to the ruler / solver 350 to release the latch of the lever 330. Accordingly, as the flow path by the solenoid valve 180 is blocked, the operation of the related devices is stopped and the series of oil supply strokes is automatically stopped.

The conventional lubricator operating as described above can be divided into two types according to the fuel used, because it is divided into a diesel vehicle using diesel as fuel and a gasoline vehicle using gasoline as fuel.

In general, the fuel inlet of the diesel vehicle is made larger than the fuel inlet of the gasoline vehicle, so the oil tanker of the diesel vehicle cannot enter the fuel inlet of the gasoline vehicle, but on the contrary, the gasoline of the gasoline vehicle can enter the fuel inlet of the diesel vehicle. In addition, even gasoline vehicles may be made larger than gasoline ports of vehicles using ordinary gasoline as fuel. (See Tiko Oil Zone.) In addition, in the case of jeep cars, gasoline vehicles and diesel vehicles are used in combination.

According to the type of the vehicle as described above, the appropriate gasoline is used, there is a problem that the gasoline lubricator is lubricated in a diesel vehicle in which the fuel inlet is largely formed by mistake of the gas source, and sometimes the fuel injected is discarded. After dismantling, there is a problem that the work of cleaning and drying the interior and removing the other fuel transferred to the fuel line of the vehicle is not only thrown away, but also may cause damage to the internal combustion engine in severe cases.

Another problem is that the fuel is drained from the fuel inlet and the fuel is sprinkled on the floor when the fuel is pumped out at the same time due to the lack of one hand while setting the fueling amount of the customer. In addition, there was a problem of causing a large fire by static electricity.

The present invention has been made in view of the above problems, and when the fuel injection nozzle of the lubricator is inserted into the fuel container of the vehicle, the valve is automatically opened to supply fuel and the valve is closed when the fuel nozzle is removed from the fuel injection port. It protects the vehicle by preventing mixing due to confusion between gasoline and diesel vehicles and provides safety and convenience when refueling by preventing the risk of large fires by escaping fuel from the fuel inlet. Is to provide an lubricator.

Figure 1a is a perspective view showing the structure of a conventional lubricator and Figure 1b is a state of oil supply using a conventional lubricator showing an example of use.

2 is an exploded perspective view showing the structure of the present invention.

3 is a cross-sectional view of the combination of the present invention.

Fig. 4A is a front sectional view of the operator, which is the main part of the present invention, and Fig. 4B is a cutaway line A-A of Fig. 4A.

Figure 5 is a cross-sectional view showing a state before operation of the present inventors.

Figure 6 is a cross-sectional view showing a state after the operation of the inventor's lubricator.

7 is a cross-sectional view showing another embodiment of the present invention.

8 is an exemplary view showing another embodiment of the present invention.

※ Explanation of symbols about main part of drawing ※

2: Oil nozzle 2a: Air inlet hole

2b: air discharge hole 2c: transfer pipe

3: spring member 4: ball

5 pad member 6 operator

7: Friction adjusting screw 8: Protective plate

9: fixing plate 20: guide groove

61: through hole 62: installation hole

An object of the present invention described above is an oil injector in which an air inlet hole and an air discharge hole are connected to a transfer pipe at an end of an oil injector winding a handle and a hanging iron, and a guide groove is formed adjacent to the air inlet hole. And a spring member fitted to the oil supply nozzle and an end portion of the oil supply nozzle to form a through hole through which a spherical ball is installed in one direction from a center through which the oil supply nozzle passes, and a pad member is installed adjacent to the through hole. A friction adjusting screw for adjusting the frictional force between the ball-forming operator and the ball moving along the guide groove, and a soft pad member inserted into the installation hole of the operator and below the pad member to protect the pad member. The protection plate and the pad member are fixed with bolts to prevent the pad member from being separated from the installation groove of the operator. It is achieved by the gas pumps, characterized in that binary luer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is an exploded perspective view showing the structure of the present invention, Figure 3 is a combined cross-sectional view showing the structure of the present invention according to the structure of the present invention the lubricator end of the lubricating nozzle (2) wound the handle and hanging iron An oil supply nozzle having a guide groove 20 formed in a longitudinal direction to an air inlet hole 2a and an air discharge hole 2b connected to a feed pipe 2c and adjacent to an air inlet hole 2a of an lubricator. The spring member 3 is inserted into 2).

At the end of the oil supply nozzle 2, a through hole 61 is formed which is provided with a spherical ball 4 in one direction from the center where the oil supply nozzle 2 penetrates, and is adjacent to the through hole 61. An operator (6) having a mounting hole (62) in which a pad member (5) is installed is installed, and a friction adjusting screw (7) for adjusting a friction force of the ball (4) moved along the guide groove (20). Is screwed into the through hole 61 is installed. Meanwhile, as shown in FIG. 7, a plurality of guide grooves 20 and balls 4 may be installed to ensure stability.

In the installation hole 62 of the operator 6, a soft pad member 4 is installed above the installation hole 62, and a protective plate for protecting the pad member 5 below the pad member 5 ( 8) is installed, the fixing plate 9 is fixed to the outer circumferential surface of the operator 6 is fixed to the bolt so that the pad member 5 is not separated from the installation hole 62 of the operator 6. On the other hand, it is preferable to provide an elastic member 10 between the fixing plate 9 and the protective plate (8).

On the other hand, even in the gasoline vehicle as shown in Figure 8 guide grooves so that the operator can temporarily lock the operator (6) so that fueling can be supplied to a vehicle made larger than the gas inlet of the vehicle using a normal gasoline as fuel The end of the 20 is formed in the a-shape to form a locking groove (20a).

An example of a vehicle using a gasoline engine having a similar size to the outer diameter of the lubrication nozzle 2 at the time of lubrication using the lubricator to which the technique of the present invention is applied will be described.

Referring to the operation effect of the present invention configured as described above, as shown in FIG. 5, when the fuel injection nozzle 2 is inserted into the fuel inlet of the gasoline engine using vehicle having a similar size to the outer diameter of the fuel injection nozzle 2, the fuel injection nozzle ( 2) is inserted into the fuel inlet and the operator 6 is restricted to be inserted by the vehicle body, that is, the panel, which forms the fuel inlet.

At the same time as the fuel injection nozzle 2 is inserted into the fuel injection port, the operator 6 maintains the state in close contact with the vehicle body forming the fuel injection port. When pushed into the fuel inlet, as shown in FIG. 6, the spring member 3 is compressed, and the oil supply nozzle 2 penetrating the operator 6 is pushed into the fuel inlet.

The body 6 then supports the operator 6 so that the operator 6 compresses the spring member 3. At this time, since the ball 4 installed inside the operator 6 moves along the guide groove 20, the pad member is rotated when the operator 6 is linearly moved to close the air inlet hole 2a ( 5) to prevent the air inlet hole (2a) to be completely closed to prevent the deviation of the center of the center, to the nozzle member (2) by the elastic member 10 provided between the fixing plate (9) and the protective plate (8) The air inlet hole (2a) can be sealed while being in close contact with the sliding.

In addition, when the friction force between the ball 4 and the guide groove 20 is large and affects the operation of the operator 6, the friction force adjusting screw 7 is used to easily guide the spring member 3 by the elastic force. The friction force is adjusted to move along the groove 20.

For example, when the frictional force adjusting screw 7 screwed into the through hole 61 is rotated forward, the frictional force adjusting screw 7 moves forward to increase the frictional force between the ball 4 and the guide groove 20 and thus the operator 6. ), The movement speed is slow (stiff feeling) and reverse rotation decreases the friction force between the ball 4 and the guide groove 20, which increases the movement speed of the operator 6 (7) to adjust the friction between the ball (4) and the guide groove (20).

On the other hand, the fuel nozzle (2) is pushed into the fuel inlet and at the same time air is introduced into the air inlet hole (2a) connected to the detection sensor closed by the pad member (5) is installed inside the fuel nozzle (2) When the air is discharged to the air discharge hole 2b through the transfer pipe 2c, at this time, the detection sensor detects the air inflow and performs normal oiling in the same way as the operation of the normal oil tanker. Closing the air inlet hole (2a) to shut off the oil is the same operation as the general lubricator.

However, the fuel tanker is refueling another vehicle while the fuel tanker is placed on the fuel inlet port due to a user's mistake or lack of work. In this case, the present invention stops the operation of the lubricator.

In more detail, when the oil supply nozzle 2 in the retracted state of the operator 6 is pulled out of the fuel inlet, the operator advances by the elastic force of the spring member 3 by the length of the fuel nozzle. Of course, the ball 4 is inserted into the guide groove 20 also moves along the guide groove (20).

Air inlet by the pad member (5) is provided with the elastic force of the elastic member 10 when the oil supply nozzle (2) is installed is moved away from the fuel inlet as described above is completely removed from the fuel inlet The ball 2a is automatically closed to stop the fuel injected through the lubricator because the sensor does not detect the inflow of air.

As shown in FIG. 8, even when a gasoline vehicle is filled with gas, an operator 6 must be retracted to a handle-equipped side in a vehicle that is made larger than a gasoline of a vehicle using ordinary gasoline as fuel. ) Can be opened so that oiling (lubrication) is possible, and when the operator 6 retreats artificially, the ball 4 moves along the guide groove 20 and then rotates the operator 6 in one direction. When the ball (4) is drawn into the locking groove (20a) formed at the end of the guide groove 20 will be able to be oiled because the restoration of the operator (6) is limited to the original state.

Even in the case of gasoline vehicles as described above, when fueling is completed in a vehicle in which the filling hole is larger than the filling hole of the vehicle using ordinary gasoline as fuel, the operator 6 is rotated in the opposite direction to lock the ball 4 into the locking groove 20a. When moved away from the guide groove 20 is moved to the end of the lubricating nozzle (2) to close the air inlet hole (2a) in the original state by the elastic force of the spring member (3).

On the other hand, when the lubricator of the present invention is inserted into the fuel inlet of a diesel vehicle, the oil supply nozzle (2) and the operator (6) closing the air injection hole (2a0) are inserted together into the fuel inlet, so that the normal oiling (lubrication) operation This prevents oil from being mixed and prevents mixing, thereby preventing damage caused by fuel waste and other fuels entering the internal combustion engine.

According to the present invention operating by such a structure, when the fuel injection nozzle of the lubricator is inserted into the fuel tank of the vehicle, the valve is automatically opened to supply fuel and the valve is closed when the lubrication nozzle is removed from the fuel injection port so that the fuel is shut off. It prevents fueling due to confusion between a vehicle and a diesel vehicle, and prevents the danger of oversizing because fuel is sprayed out of the fuel inlet and prevents the risk of oversizing, thereby providing stability and convenience at the time of fueling.

Claims (4)

In the lubricator which the air inlet hole and the air discharge hole are connected to the transfer pipe at the end of the lubricating nozzle wound the handle and the hanging steel, An oiling nozzle having a guide groove adjacent to the air inlet hole; A spring member fitted to the oil supply nozzle; An operator configured to form a through hole in which a spherical ball is installed in one direction from a center through which the oil nozzle passes, and a pad member is installed adjacent to the through hole; Friction adjusting screw for adjusting the friction force of the ball moved along the guide groove; A soft pad member inserted into the installation hole of the operator; A protective plate installed below the pad member to protect the pad member; Lubricator characterized in that it comprises a fixing plate fixed to the bolt so that the pad member is not separated from the installation groove of the operator. delete delete delete