KR20100088744A - Equipment of discharge and inhalation - Google Patents

Abstract

PURPOSE: A device for discharging and inhaling a liquefied material is provided to inhale a liquefied material into a drum using air supplied from an air compressor, and to discharge the inhaled liquefied material to outside. CONSTITUTION: A device(100) for discharging and inhaling a liquefied material comprises an outer pipe(10), an air nozzle(22), an inner pipe(30), and a ball valve(36). The outer pipe vertically passes through a drum(200). The air nozzle is installed inside the outer pipe and sprays air supplied from an air compressor. The inner pipe is installed inside the outer pipe, and the top of the inner pipe is exposed to the outside the outer pipe. The ball valve is installed on the top of the inner pipe and opens and closes a passage(32) of the inner pipe.

Description

Equipment of discharge and inhalation

The present invention relates to a device for discharging and suctioning liquid materials, and more particularly, to suck liquid materials into a drum or sucked into a drum using an air compressor widely used in industrial fields. It relates to a device for discharging and inhaling a liquid material to discharge the liquid material to the outside.

As is well known, a tank, also called a drum, refers to a container designed to store fuel, lubricating oil, or other liquid substances necessary for operating the machine at various machine shop sites. Pumping device for pumping the material is installed to discharge the liquid material stored in the drum to the outside.

On the other hand, the brief description of the configuration related to the conventional pumping device and a suction pipe for sucking the liquid material in the drum, and a pumping device located on top of the suction pipe to suck up the liquid material by vacuuming the inside of the suction pipe, It consists of a discharge hose which discharges the liquid sucked up through the suction pipe.

However, the conventional pump configured as described above requires continuous consumption of the force by the operator to continuously press the pump when in use, which causes unnecessary labor loss, and the amount of oil pumped compared to the required power is also not satisfactory. As a result, there was a problem that the working efficiency is reduced due to the discharge of oil.

Accordingly, an object of the present invention for solving the above problems, the liquid material to suck the liquid material into the drum with the air supplied from the air compressor or to discharge the liquid material sucked into the drum to the outside To provide a discharge and suction device of.

In order to achieve the above object, the present invention provides a liquid material suction and discharge device for suctioning and discharging a liquid material into a drum, the outer pipe being installed in a vertically penetrating state of the drum, and inside the upper side of the outer pipe. An air nozzle installed to inject air supplied from an air compressor, and installed inside the outer pipe, the upper side of which is configured to be exposed to the outside of the outer pipe while passing through the air nozzle, and the air injected from the air nozzle inside An inner pipe having a flow path through which the flow path is formed, a ball valve installed on an upper side of the inner pipe, and a ball valve for opening and closing the flow path of the inner pipe; According to the opening and closing operation of the air discharged to the inside of the drum or discharged Or a hole through which the air stored in the drum is sucked into the inner pipe and horizontally installed in the circumferential surface of the outer pipe to introduce a liquid material into the drum or a liquid material stored in the drum Characterized in that it comprises a liquid material suction and discharge pipe for discharging to the outside.

The lower side of the inner and outer pipes are connected to each other through the liquid material inlet hole is formed through, the lower side of the inner pipe rises as a buoyancy of the liquid material flowing through the liquid material inlet hole and the hole of the inner pipe It is preferable to further include a floating body to be sealed.

The discharge guide pipe is preferably detachably fastened to the lower side of the outer pipe by a fastener.

Discharge and suction device of the liquid material according to the present invention is connected to the liquid material suction and discharge device installed in the drum, the most common and commonly used air compressor equipment in the field industry, and discharged from the air compressor By using high pressure air pressure, the liquid material is sucked into the drum, or the liquid material sucked into the drum can be discharged to the outside.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 and 2 are views showing in detail the configuration of the discharge and suction device of the liquid material.

As shown, the liquid material discharge and suction device 100 proposed in the present invention is installed on one side upper end of the drum 200, the liquid material to the inner space 202 of the drum 200 by air pressure As a means for inhaling or discharging the liquid material stored in the internal space 202 of the drum 200, having a predetermined length in the form of a cylindrical body and penetrating perpendicularly to the upper end of one side of the drum 200 The outer pipe 10 is configured to have an outer shape, and the inner pipe 30 is configured to be installed inside the outer pipe 10.

The outer pipe 10 is fixed to the fastening bolt 12 in a state of being fitted in the hole formed in the upper end of the drum 200. At this time, the sealing rubber 14 is inserted between the outer pipe 10 and the fastening bolt 12 to have airtightness.

A pressure control valve 16 is installed around the upper side of the outer pipe 10. The pressure regulating valve 16 is configured to be connected to the air compressor 18 and the hose 20, so that the pressure of the air supplied from the air compressor 18 is adjusted to supply the air nozzle 22. .

An air nozzle 22 is installed inside the upper side of the outer pipe 10. A chamber 24 is formed on the circumferential surface of the air nozzle 22, and flow paths 26 communicating with the chamber 24 are formed through the upper circumference thereof. When the air nozzle 22 having the above-described configuration is supplied with air to the chamber 24 through the pressure regulating valve 16, the air nozzle 22 injects air into the inner pipe 30 through the flow path 26.

The periphery of the outer pipe 10 is installed in a state where the liquid material suction and discharge pipes 28 penetrate horizontally. The liquid material intake and discharge pipe 28 is the inside of the drum 200 through the air pressure difference in the drum 200 generated in the process of air is sucked into the drum 200 or exhausted to the outside The liquid material stored in the drum 200 or the drum 200 is discharged to the outside of the drum 200.

The inner pipe 30 is installed in the outer pipe 10 with a space D therebetween, and the upper side of the inner pipe 30 penetrates the air nozzle 22 on the basis of the inclined section of the center. It is configured to be exposed to the outside of the outer pipe 10 in the state, the lower side of the inner pipe 30 is configured to be in close contact with the inner surface of the outer pipe (10).

A connection flow path 34 is formed around the inner pipe 30 passing through the air nozzle 22, and the connection flow path 34 is in communication with the flow path 26 of the air nozzle 22. Air injected from 26 is supplied to the inner flow path 32 of the inner pipe 30.

A ball valve 36 is installed on an upper side of the inner pipe 30 exposed to the outside of the outer pipe 10, and the ball valve 36 selectively opens and closes the flow path 32 of the inner pipe 30. The flow of air supplied to the pipe 30 is interrupted.

That is, when the ball valve 36 is operated to close the flow path 32 of the inner pipe 30, the air supplied to the inner pipe 30 flows to the lower side of the inner pipe 30, and then the inner and outer pipes. Is discharged into the drum 200 through the holes (38, 40) formed in the (10, 30), respectively, in this case stored in the drum 200 due to the pressure of the air supplied into the drum (200) The liquid material is pressurized and exhausted to the outside through the liquid material intake and discharge pipe 28.

On the contrary, when the ball valve 36 is operated to open the flow path 32 of the inner pipe 30, the air supplied to the inner pipe 30 is discharged to the atmosphere through the flow path 32. Due to the pressure difference generated in the air discharge process, the air present in the drum 200 is sucked into the inner pipe 30 through the holes 38 and 40 of the inner and outer pipes 10 and 30. . When the air inside the drum 200 is sucked into the inner pipe 30, the pressure inside the drum 200 is lowered as much as the air leaked out. Accordingly, the external liquid material absorbs the liquid material and discharges the pipe 28. It is sucked into the drum 200 through.

Under the inner and outer pipes 10 and 30, holes 38 and 40 are connected to each other and are formed through. The holes 38 and 40 discharge air supplied to the inner pipe 30 into the drum 200 according to the opening operation of the ball valve 36, or the drum 200 according to the closing operation of the ball valve 36. ) Inside the air is sucked into the inner pipe (30).

In addition, separate liquid material inflow holes 44 and 46 penetrate below the holes 38 and 40, respectively, below the inner and outer pipes 10 and 30. The liquid material inlet holes 44 and 46 are connected to each other to introduce the liquid material stored in the drum 200 into the inner pipe 30.

The floating body 42 is installed in the lower side of the inner pipe 30. The floating body 42 floats due to the buoyancy of the liquid material introduced into the inner pipe 30 through the liquid material inlet holes 44 and 46, and has a hole 38 formed through the lower side of the inner pipe 30. By sealing, the inflow of air or liquid material in the drum 200 is blocked through the hole 38.

In addition, the inner pipe 30 is provided with upper and lower locking frames 50 and 52, respectively. The upper catching frame 50 limits the height of the floating body 42, and the lower catching frame 52 supports the floating body 42 so as not to escape from the inner pipe 30.

On the other hand, the liquid material discharge guide 56 is detachably coupled to the lower side of the above-described outer pipe 10 through the coupler 54. The liquid material discharge guide 56 has one end connected to the coupler 54, and the other end of the liquid material is discharged in the state in contact with the bottom surface of the drum 200, the hole 58 is formed through the other end circumferential surface (58) Received through the liquid material is supplied through the space (D) of the outer pipe 10 is discharged to the liquid material intake and discharge pipe 28. That is, the liquid material discharge guide 56 may be used only when discharging the liquid material stored in the drum 200 to the outside, and separated from the coupler 54 when the liquid material is sucked into the drum 200. Let's do it.

Hereinafter, the operation of the discharge and suction device of the liquid material according to the present invention will be described with reference to FIGS.

3 is a view showing a state of use when discharging the liquid material stored in the drum to the outside.

When discharging the liquid material stored in the drum to the outside, as shown in Figure 3, first, the ball valve is closed to close the flow path of the inner pipe.

Next, when the pressure control valve 16 connected to the air compressor 18 is operated, the air flows through the chamber 24 of the air nozzle 22 and the flow path 26 to the connection pipe 34 of the inner pipe 30. It is introduced into the inner pipe (32) through the inner pipe 30, at which time the introduced air flows to the lower side of the inner pipe 30 in accordance with the closing operation of the ball valve (36).

Subsequently, the air introduced into the lower side of the inner pipe 30 is discharged into the drum 200 through the holes 38 and 40 formed at the lower side of the inner and outer pipes 10 and 30. The liquid material stored in the drum 200 is pressurized due to the pressure of the air supplied into the inside, and then flows into the outer pipe 10 through the holes 58 of the liquid material discharge guide 56, and then By being discharged to the outside through the material suction and discharge pipe 28, it is possible to discharge the liquid material stored in the drum 200 to the outside.

On the other hand, Figure 4 attached is a view showing a state of use when inhaling the external liquid material into the drum.

As shown in FIG. 4, when the liquid material is sucked into the drum 200, first, the ball valve 36 is opened to open the flow path of the inner pipe 30.

Next, when the pressure control valve 16 connected to the air compressor 18 is operated, the air flows through the chamber 24 of the air nozzle 22 and the flow path 26 to the connection pipe 34 of the inner pipe 30. Through the inner pipe 30 is introduced into the inner flow path (32).

Subsequently, the air introduced into the flow path 32 of the inner pipe 30 flows to the upper side of the inner pipe 30 through the opening of the ball valve 36 and then is discharged to the atmosphere, in which the air is discharged to the atmosphere. Due to the pressure difference generated in the air inside the drum 200 is sucked into (intake) into the inner pipe 30 through the holes (38, 40) formed on the lower side of the inner, outer pipe (10, 30). .

When the air inside the drum 200 is sucked into the inner pipe 30, the air pressure is lowered to the inside of the drum 200 as much as the air leaked out. Accordingly, the external liquid material absorbs the liquid material intake and discharge pipe 28. It is sucked into the drum 200 through.

On the other hand, after a predetermined amount of liquid material is filled into the drum 200 as described above, the inner pipe 30 through the liquid material inlet holes 44 and 46 formed through the inner and outer pipes 10 and 30. Liquid material is introduced into the inside, wherein the floating body 42 installed inside the inner pipe 30 floats with buoyancy of the introduced liquid material and is formed through the lower side of the inner pipe 30. 38 is sealed, and thus, the air in the drum 200 no longer exits the inner pipe 30 so that the suction of the liquid material is stopped.

1 is a view showing a liquid material suction and discharge device installed in the drum according to the present invention.

Figure 2 is a view showing in detail the configuration of the liquid material intake and discharge device shown in FIG.

Figure 3 is a view showing a state in which the liquid material stored in the drum is discharged to the outside.

4 is a view showing a state in which the external liquid material is sucked into the drum.

<Description of the symbols for the main parts of the drawings>

10: outer pipe 18: air compressor

22: air nozzle 28: liquid material intake and discharge pipe

30: internal pipe 32: euro

34: connection passage 36: ball valve

38, 40: Hole 42: Floating object

44, 46: liquid material inlet hole 56: discharge guide pipe

200: drum

Claims (3)

In the liquid material suction and discharge device for sucking and discharging the liquid material to the drum 200, An outer pipe 10 installed to vertically penetrate the drum 200; An air nozzle 22 installed inside the outer pipe 10 and injecting air supplied from the air compressor 18; It is installed inside the outer pipe 10 and the upper side is configured to be exposed to the outside of the outer pipe 10 in the state penetrating the air nozzle 22 and to send the air injected from the air nozzle 22 therein An inner pipe 30 in which a flow path 32 is formed; A ball valve (36) installed above the inner pipe (30) to open and close the flow path (32) of the inner pipe (30);  The inner and outer pipes (10, 30) are installed in communication with each other in the lower side and the air supplied to the inner pipe (30) in accordance with the opening and closing operation of the ball valve 36 into the drum 200 Holes 38 and 40 for discharging or sucking air stored in the drum 200 into the inner pipe 30; A liquid material suction for penetrating the horizontal surface of the outer pipe 10 horizontally and introducing liquid material into the drum 200 or discharging the liquid material stored in the drum 200 to the outside; Liquid material suction and discharge device, characterized in that comprising a discharge pipe (28). The method of claim 1, Under the inner and outer pipes 10 and 30, the liquid material inlet holes 44 and 46 are connected to each other, and through the inner pipe 30 and the inner pipe 30, and the inside of the inner pipe 30 and the liquid material inlet holes 44 and 46. Floating through the buoyancy of the liquid material introduced through the) and the liquid material intake and discharge device, characterized in that the installation further comprises a floating body 42 for sealing the hole 38 of the inner pipe (30). The method according to claim 1 or 2, Discharge guide pipe 56 is attached to the lower side of the outer pipe 10, the liquid material intake and discharge device, characterized in that the fastening fastening.

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