KR200456935Y1 - Lubricating Oil Tank Apparatus - Google Patents

Abstract

The present invention relates to a lubricating oil supply tank device, pressurized the lubricating oil from the upper portion of the lubricating oil tank to the lubricating oil supply pipe member connected to the pressure plate member and supplied to the lubricator, and finally lubricating the lubricant to the operating part of the machine through the lubricator And, the condensate generated in the lubricant tank can be easily removed through the drain pipe in the lower portion of the lubricant tank.

The present invention discharges the lubricant from the upper part of the lubricant tank to prevent mixing with condensate accumulated in the lower part of the lubricant, and condensate accumulated at the lower part is discharged from the supply and discharge of the lubricant to periodically remove the condensate from the lubricant tank. It is to prevent the interruption of the lubricating oil supply, and to smoothly supply the lubricating oil into the operating part.

In addition, the present invention is to remove the condensed water in the air receiver tank to smoothly supply the air pressure to the pneumatic cylinder to pressurize and compress the lubricating oil in the lubricating oil tank, there is an effect of preventing the malfunction and failure of the pneumatic cylinder.

Description

Lubricating Oil Tank Apparatus

The present invention relates to a lubricating oil supply tank device, and more particularly, to lubricating oil stably.

In general, lubricating oil is periodically supplied to operating parts of machines such as cranes and rolling mills to prevent wear and frictional heat caused by mechanical friction occurring during operation.

The lubricating oil is a grease, which is a liquid state during movement, and loses fluidity when stopped, and becomes a semi-solid. The lubricating oil, such as the grease, is pumped in a state stored in a lubricating oil supply tank and compressed to a high pressure to supply a lubricating oil. It is supplied to the lubricant lubricator through the line.

Then, when the operator opens the flow path after coupling the lubricating oil lubricator to the lubrication port of the operating part, the lubricating oil is supplied into the operating part.

However, the conventional lubricating oil supply tank has a problem in that condensed water is generated during storage of the lubricating oil for a long time, so that the lubricating oil and the condensed water are supplied together into the operation unit during pumping.

In addition, in winter, the condensate generated in the lubricating oil supply tank is cooled, so that the pumping operation is impossible and the supply of the lubricating oil is not smooth.

In addition, condensed water is generated in the air receiver tank providing air pressure into the pneumatic cylinder for pumping the lubricating oil supply tank, and condensed water is supplied together with the compressed air into the hydraulic cylinder, causing malfunction and failure of the pneumatic cylinder.

An object of the present invention is to provide a lubricating oil supply tank device to effectively remove the condensate generated in the tank during lubricating oil storage and to smoothly supply the lubricating oil into the operating part.

The problem of the present invention is a lubricating oil tank formed with a condensate discharge port is connected to the top of the open and the storage compartment is filled with lubricating oil is formed inside, the drain pipe is opened and closed by a valve;

A pressure plate member covering an upper portion of the lubricating oil tank and moving up and down in a sealed state with an inner wall of the lubricating oil tank and having a lubricating oil outlet connected to a storage chamber of the lubricating oil storage tank at one side;

A pneumatic cylinder for pushing the pressure plate member to the piston rod from the upper portion of the pressure plate member;

A lubricating oil supply pipe member connected to a lubricating oil outlet of the pressure plate member and supplying a lubricating oil to an lubricator for lubricating oil into an operating part of the apparatus;

It is solved by providing a lubricating oil supply tank device including an air receiver tank connected to an air supply pipe to the pneumatic cylinder, supplying air pressure into the pneumatic cylinder, and having a drain pipe opened and closed by a valve at the bottom thereof.

The present invention discharges the lubricant from the upper part of the lubricant tank to prevent mixing with condensate accumulated in the lower part of the lubricant oil.The condensate accumulated at the lower part is discharged from the supply and discharge of the lubricant to periodically remove the condensate from the lubricant tank. It is to prevent the interruption of the lubricating oil supply, and to smoothly supply the lubricating oil into the operating part.

In addition, the present invention is to remove the condensed water in the air receiver tank to smoothly supply the air pressure to the pneumatic cylinder to pressurize and compress the lubricating oil in the lubricating oil tank, there is an effect of preventing the malfunction and failure of the pneumatic cylinder.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic view of the present invention, when the piston rod is protruded by the operation of the pneumatic cylinder when the pressure plate member is pressurized lubricating oil stored in the lubricating oil supply is transferred to the lubricating oil supply pipe member through the lubricating oil outlet of the pressure plate member.

Figure 2 is a schematic diagram showing an embodiment of the present invention, showing an example in which condensed water is generated in the lubricating oil tank and the air receiver tank.

Hereinafter, as shown in FIG. 1, the lubricating oil tank 10 of the present invention has a storage compartment filled with lubricating oil therein, and is formed based on a cylindrical body having an open top.

In addition, the lower portion of the lubricating oil tank 10 is formed with a condensate outlet 11 is connected to the drain pipe 10a which is opened and closed by a valve.

The drain pipe (10a) is to open and close the pipe by a valve to control the discharge of the condensate (2) discharged through the condensate outlet (11).

And the upper portion of the lubricating oil tank 10 is provided with a pressure plate member 20 for moving up and down in a sealed state in close contact with the inner wall of the lubricating oil tank 10.

The pressure plate member 20 has a diameter corresponding to the inner circumference of the lubricating oil tank 10, and the O-ring is coupled to the outer circumferential surface to move up and down in a sealed state with the inner wall of the lubricating oil tank 10.

In addition, one side of the pressure plate member 20 is a lubricating oil outlet 21 is communicated to the storage chamber of the lubricating oil tank 10.

The lubricating oil outlet 21 is connected to a lubricating oil supply pipe member 40 which is connected to a lubricating oil lubricator for lubricating the oil 1 into the operating part of the machine.

The lubricating oil lubricator is coupled to an oil inlet provided in the operating part supplied with the lubricating oil (1) in various machines to open and close the flow path by the operator's operation to lubricate the lubricating oil (1) to the operating part, a detailed description thereof will be omitted. Make sure

The pressure plate member 20 is lowered by the pneumatic cylinder 30 provided on the pressure plate member 20 to pressurize the lubricating oil 1 from the top.

The pneumatic cylinder 30 is mounted to the cylinder mount provided on the upper portion of the lubricating oil tank 10, the end of the piston rod is mounted vertically downward.

And the end of the piston rod is mounted to the disk to push down the center of the pressure plate member 20 to increase the pressure area of the pressure plate member 20 so that the pressure plate member 20 can be stably moved downward.

The pneumatic cylinder 30 is connected to the air receiver tank 50 by the air supply pipe 51, the air receiver tank 50 stores the high pressure compressed air therein to operate the pneumatic cylinder 30 It is to circulate and supply air pressure into the cylinder 30.

The lower part of the air receiver tank 50 is provided with a drain pipe 50a for discharging the condensate 2 and a valve 50b for controlling the discharge of the condensate 2 by opening and closing a conduit of the drain pipe 50a. .

That is, when the pneumatic cylinder 30 is supplied with the air pressure from the air receiver tank 50 to operate the piston rod to protrude, the pressure plate member 20 is lowered to store the lubricating oil 1 stored in the storage chamber of the lubricating oil tank 10. Pressurized and compressed, the compressed lubricating oil (1) is supplied to the lubricator through the lubricating oil outlet 21 and the lubricating oil supply pipe member 40 of the pressure plate member 20, and finally is supplied to the operating part of the machine through the lubricator.

On the other hand, the lubricating oil tank 10 and the air receiver tank 50 will generate condensate (2) inside the long-term use.

The condensate 2 generated inside the lubricating oil tank 10 and the condensate 2 generated inside the air receiver tank 50 are formed by the difference in density between the lubricating oil 1 and the condensate (water), air and the condensate (water). As shown in Figure 2 it is collected in the lower portion of the tank.

Since the condensate 2 in the lubricating oil tank 10 is discharged through the lubricating oil supply pipe member 40 together with the lubricating oil 1 and supplied together with the lubricating oil 1 into the operating part of the machine, it may cause malfunction and damage to the machine. The drain pipe 10a provided in the lower part of the lubricating oil tank 10 is opened to periodically remove the pipe.

In addition, the condensed water 2 in the air receiver tank 50 may generate a vortex that obstructs the flow of high pressure air in the air receiver tank 50, and flows into the pneumatic cylinder 30 together with the air, thereby providing a pneumatic cylinder 30. It is possible to damage the by opening the pipe of the drain pipe (50a) provided in the lower portion of the air receiver tank 50 to periodically remove.

And the subject innovation is a condensate sensor 60 for detecting the condensate (2) is mounted on the lower compartment of the lubricating oil tank (10);

It may further include a control unit 61 for controlling the operation of the valve (50a) in connection with the valve (50a) for opening and closing the condensate sensor 60 and the drain pipe (10a) of the lubricating oil tank (10). .

That is, when a predetermined amount or more of condensate 2 is collected in the lower portion of the lubricating oil tank 10, the condensate detection sensor 60 detects this and automatically opens a valve to remove the condensate 2 through the drain pipe 10a. Will be.

  In addition, the present invention is a condensate detection sensor 60 for detecting the condensate (2) gathered in the lower portion of the storage compartment of the air receiver tank 50;

It may further include a control unit 61 for controlling the operation of the valve in connection with the valve (50b) for opening and closing the condensate sensor 60 and the drain pipe (50a) of the air receiver tank (50).

The control unit 61 is connected to the valve for opening and closing the pipeline of the air supply pipe 51 of the pneumatic cylinder 30, and also to control the operation of the pneumatic cylinder (30).

That is, when a certain amount or more of condensate 2 is collected in the lower portion of the air receiver tank 50, the condensate detection sensor 60 detects this and automatically opens the valve 50b to condensate 2 through the drain pipe 50a. ) Will be removed.

As described above, the present invention easily removes the condensate 2 in the lubricating oil tank 10 and the air receiver tank 50, and also supplies the lubricating oil 1 through the lubricating oil outlet 21 formed in the pressure plate member 20. This is to prevent the lubricating oil 1 and the condensate 2 from being supplied together.

The present invention is not limited to the above-described embodiment, it can be carried out in a variety of changes within the scope not departing from the gist of the present invention, which is found to be included in the configuration of the present invention.

1 is a schematic diagram of the present invention

2 is a schematic view showing an embodiment of the present invention

* Description of the major symbols in the drawings *

10: lubricant tank 11: condensate outlet

20 pressure plate member 21 lubricating oil outlet

30: pneumatic cylinder 40: lubricating oil supply pipe member

50: air receiver tank

Claims (3)

A lubricating oil tank formed with a condensate outlet through which an upper part is opened and a storage compartment filled with lubricating oil is formed, and a drain pipe connected to a drain pipe opened and closed by a lower part is formed; A pressure plate member covering an upper portion of the lubricating oil tank and moving up and down in a sealed state with an inner wall of the lubricating oil tank and having a lubricating oil outlet connected to a storage chamber of the lubricating oil storage tank at one side; A pneumatic cylinder for pushing the pressure plate member to the piston rod from the upper portion of the pressure plate member; A lubricating oil supply pipe member connected to a lubricating oil outlet of the pressure plate member and supplying a lubricating oil to an lubricator for lubricating oil into an operating part of the apparatus; Lubricating oil supply tank device characterized in that it comprises an air receiver tank connected to the air supply pipe to the pneumatic cylinder to supply air pressure into the pneumatic cylinder and having a drain pipe opened and closed by a valve at the bottom. The method according to claim 1, A condensate detection sensor mounted at a lower portion of the storage tank of the lubricating oil tank to detect condensate (2); Lubricating oil supply tank device further comprises a control unit for controlling the operation of the valve in connection with the valve for opening and closing the condensate sensor and the drain pipe of the lubricant tank. The method according to claim 1 or 2, A condensate sensor for sensing condensate collected at a lower portion of a storage compartment of the air receiver tank; And a control unit connected to a valve for opening and closing the condensate sensor and the drain pipe of the air receiver tank to control the operation of the valve.

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