KR100658828B1 - Liquid transfer device through vacuumization of liquid transfer pipe and its use method - Google Patents

Abstract

A liquid feeding apparatus using the vacuum of a liquid feeding pipe and a method for using the same are provided to reduce the cost for a separate pump and a pipe by sucking a liquid using the vacuum of the liquid feeding pipe. A liquid feeding apparatus using the vacuum of a liquid feeding pipe includes a liquid feeding pipe(10), a first air discharge pipe(20), a vacuum pump(30), and a second air discharge pipe(40). The vacuum pump is installed at the tip end of the first air discharge pipe. The second air discharge pipe is separated from the liquid feeding pipe. One side of the second air discharge pipe is communicated with an upper portion of the liquid feeding pipe at the highest point and the other side thereof is communicated with a side surface of the first air discharge pipe. A second control valve is installed in the second air discharge pipe.

Description

Liquid transfer apparatus through vacuumization of liquid transfer tube and its use method {.}

1 is an installation state of the liquid transfer apparatus according to the present invention.

Figure 2 is a flow diagram illustrating a method of using the liquid transfer device according to the present invention.

3a to 3d is a view showing the operation step of the liquid transfer apparatus according to an embodiment of the present invention.

Figure 4 shows another embodiment according to the present invention.

Explanation of symbols on the main parts of the drawings

10: liquid transfer pipe 20: first air discharge pipe

22: first control valve 30: vacuum pump

40: second air discharge pipe 42: second control valve

The present invention relates to a liquid transfer method by evacuating a liquid transfer tube, and more particularly, in a liquid transfer tube installed to transfer the liquid located in the highlands to the highest point and then transfer it to the low ground, Equipped with an air discharge pipe, a vacuum pump, a fluid storage valve and a control valve to further control the control system to control the liquid to transfer the liquid without a separate pumping device and its use method It is about.

In order to transfer the liquid located in the highlands to the low point again, the liquid transport pipe is installed to pass through the terrain, and the valve is installed at a point extended from the highest point to a position lower than the height of the highlands liquid. After the liquid is filled in the liquid conveying tube from the inlet port located in the liquid in the highlands with the valve closed, and the valve is temporarily opened, the liquid in the liquid conveying tube is continuously lifted by gravity without any power. Transported to lowlands.

As a method of filling water in the liquid transfer pipe from the inlet to the valve, there is a method of forming a water inlet on the liquid transfer pipe and filling the liquid using a pump.

However, in order to pump the liquid using the pumping pump, a separate pumping pipe must be additionally installed from the liquid located in the highlands, and the pumping pump does not need to be operated anymore after filling the liquid in a certain section of the liquid transfer pipe. There is a problem to be removed with the pumping pipe.

In addition, since the liquid transfer pipe is opaque, it is cumbersome to directly check the state in which the liquid is stored.

On the other hand, if necessary, after removing the liquid in the liquid transfer pipe, if it needs to be restarted, a problem arises in that the pumping pipe to be removed and reinstalled and pumped to the pump.

The present invention is to solve the problems of the prior art as described above, to communicate the air discharge pipe on the liquid transfer pipe, to install a vacuum pump and a control valve on the air discharge pipe connected, the water level sensor so as to control this And a control box further to provide a liquid transfer device which is operated by a simple operation.

In order to achieve the above object, the present invention provides a liquid transfer pipe installed to transfer the liquid stored in the highlands to the highest point, and then transfers it to the lowland again. And a liquid transfer pipe having a fluid storage valve installed at the outlet side, and a first air discharge pipe communicating with an upper portion of the liquid transfer pipe at a position higher than the fluid storage valve, and having a first control valve installed at an upper portion thereof. The vacuum pump is installed at the front end of the first air discharge pipe and the liquid transfer pipe is installed at intervals, one side is in communication with the upper portion of the liquid transfer pipe at the highest point, the other side is in communication with the side of the first air discharge pipe, And a second air discharge pipe provided with a second control valve.

Preferably, the second air discharge pipe is in communication with the first air discharge pipe at a position higher than the first control valve.

The first water level sensor installed above the first control valve, the second water level sensor installed behind the second control valve, and the electrical signal transmitted from the first and second water level sensor It is characterized in that the first and second control valve is further provided with a control box input circuit diagram to operate.

In addition, a third control valve is further provided below the vacuum pump.

On the other hand, the liquid transfer apparatus according to the present invention having the above configuration, in the use method, the step of blocking the second control valve and the fluid storage valve, the first control valve opening (S1); Operating the vacuum pump to suck the liquid stored in the highlands into the liquid transfer pipe, and reacting the first water level sensor by the sucked liquid (S2); An electrical signal of the first water level sensor is sent to the control box, and the second control valve is opened at the same time as the first control valve is blocked by the electrical signal sent from the control box (S3); The liquid is continuously sucked into the liquid transfer pipe by the operation of the vacuum pump, and when the sucked liquid is detected by the second water level sensor, the control signal is sent to the box and is again sent out by the control box. A step S4 of blocking the second control valve; And opening the fluid storage valve in a state in which the first control valve and the second control valve are shut off so that the liquid is continuously discharged to the low land through the liquid transfer pipe (S5).

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, like reference numerals designate functionally identical or similar parts throughout the drawings.

1 is an installation state of the liquid transfer apparatus according to the present invention, Figure 2 is a flow chart illustrating a method of using the liquid transfer apparatus according to the present invention, Figures 3a to 3d is a liquid according to an embodiment of the present invention 4 is a view showing an operation step of the transfer device, Figure 4 is a view showing another embodiment according to the present invention.

Referring to FIG. 1, the present invention provides a liquid transfer pipe 10 having an inlet 12 located in a liquid stored in a highlands, an outlet 14 located in a low zone, and a fluid storage valve 16 installed at the outlet 14. It is a liquid transfer device consisting of an air discharge pipe (20, 40) including a vacuum pump 30 and a control valve (22, 42) for the vacuum to the upper portion.

The material of the liquid transfer tube 10 is provided with a metal tube or a synthetic resin tube, the length of the liquid transfer tube 10 from the suction port 12 to the highest point (T) is 50m or less and the diameter is Ø200mm or less.

In order for the liquid to be continuously transferred from the high ground to the low point by the liquid transfer device of the present invention to the low land, the fluid storage valve 16 is first installed at a predetermined point of the liquid transfer pipe 10, After the liquid is filled in the section of the liquid transfer pipe 10 from the inlet 12 located to the fluid storage valve 16, the liquid transfer should be started by temporarily opening the fluid storage valve 16. FIG.

The fluid storage valve 16 in the present invention should be installed at a position lower than the level of the liquid stored in the high ground, the inlet 12 of the liquid transfer pipe 10 is located in the liquid stored in the high ground to the inlet 12 The liquid should be continuously sucked by preventing the air from being introduced, and the outlet 14 of the liquid transfer pipe 10 located in the low zone is the liquid descending along the liquid transfer pipe 10 when the fluid storage valve 16 is opened. It is to be installed in such a way that the air in the pipe is allowed to escape to the outside.

The fluid storage valve 16 stores the liquid sucked into the liquid transfer pipe 10 by the vacuum pump 30, which will be described later, and opens the stored liquid at a time so that the continuous liquid transfer proceeds.

In the liquid transfer device according to the present invention, a known vacuum pump 30 is applied as a means for sucking and storing liquid in a section from the suction port 12 to the fluid storage valve 16.

Preferably the vacuum pump 30 is installed between the highest point (T) of the liquid transfer pipe 10 and the fluid storage valve (16). More preferably, the vacuum pump 30 is installed at a point spaced about 1m to 3m from the highest point T of the liquid transfer pipe 10.

The amount of the liquid to be sucked and stored varies depending on the installation position of the vacuum pump 30. When the vacuum pump 30 is installed in close proximity to the fluid storage valve 16, the liquid is discharged from the fluid storage valve 16. Since it starts to be stored, there is a problem that the sucked liquid is discharged through the vacuum pump 30 instead of the air in the liquid transfer pipe 10 is discharged, and the vacuum pump 30 is the highest point T of the liquid transfer pipe 10. If it is installed close to the highest point (T), since the liquid sucked by the gravity does not occur due to the gravity does not fall in the direction of the fluid storage valve 16 is discharged to the outside by the suction force of the vacuum pump 30 Occurs.

The vacuum pump 30 serves to allow the liquid to be easily sucked by vacuuming the inside of the liquid transfer pipe 10.

More preferably, the vacuum pump 30 is formed at the front end of the liquid transfer pipe 10 after forming the first air discharge pipe 20 in communication with the upper portion.

The first air discharge pipe 20 is formed of a cylindrical tube of 50cm ~ 150cm length and serves to minimize the discharge of the liquid sucked into the liquid transfer pipe 10 to the vacuum pump (30). To this end, the first air discharge pipe 20 is installed to communicate with the upper direction of the liquid transfer pipe in the opposite direction of gravity.

In addition, the first air discharge pipe 20 is further provided with a first control valve 22.

The first control valve 22 is installed at an upper portion of the point where the first air discharge pipe 20 and the liquid transfer pipe 10 communicate with each other, and the first control valve 22 has a first air discharge pipe. Blocking after storing to the position of 20 serves to prevent the liquid in the liquid transfer pipe 10 is discharged to the outside through the vacuum pump (30).

In order to start the liquid transfer according to the present invention, the liquid must be filled with the liquid up to the highest point (T) of the liquid transport tube (10), it is installed at intervals with the liquid transport pipe (10) and one side of the liquid at the highest point (T) It is communicated to the upper pipe 10, the other side is further provided with a second air discharge pipe 40 in communication with the side of the first air discharge pipe (20).

In addition, a second control valve 42 is installed on the second air discharge pipe 40.

The second air discharge pipe 40 sucks and stores the liquid up to the height of the first air discharge pipe 20, and then discharges the air in the liquid transport pipe 10 to the outside, and at the same time, the liquid sucked into the liquid transport pipe 10 is vacuumed. Minimizing the discharge to the pump 30, the second control valve 42 is the liquid is sucked to the height of the highest point (T) of the liquid transfer pipe 10, the liquid is blocked by the vacuum pump 30 It plays a role of not being discharged to the outside.

As described above, since the vacuum pump 30 applied to the present invention is installed at the middle point between the highest point T and the fluid storage valve 16, the liquid is sucked and stored up to the highest point T of the liquid transfer pipe 10. In order to operate the vacuum pump 30 in a state in which the first control valve 22 is blocked and the second control valve 42 is opened while the liquid is stored up to a height at which the first air discharge pipe 20 is formed. Let's do it. By the operation of the vacuum pump 30, the air in the liquid transport pipe 10 is discharged to the outside through the second air discharge pipe 40 and the liquid is sucked up to the highest point (T) of the liquid transport pipe (10).

Further, a third control valve 26 is further installed at the lower end of the vacuum pump 30 so that the liquid sucked by blocking the third control valve 26 after the liquid is filled up to the highest point of the liquid transfer pipe is vacuumed. Prevent entry into the pump 30.

As described above, when the liquid is stored in the liquid transfer pipe 10 from the inlet 12 to the fluid storage valve 16, the fluid is stored in a state where the first control valve 22 and the second control valve 42 are blocked. Open the valve 16. When the fluid storage valve 16 is opened, the stored liquid starts to descend along the liquid transfer pipe 10, and a continuous suction force is generated by the lowering, and the liquid stored in the highlands continues to flow into the liquid transfer pipe 10.

Next, a method of using the liquid transfer device according to the present invention and its effects provided with the above components will be described in detail with reference to FIGS. 2 and 3A to 3D.

2 is a flowchart illustrating a method of using a liquid transfer device according to the present invention.

2, the method of using the liquid transfer device according to the present invention comprises the steps of blocking the second control valve 42 and the fluid storage valve 16, opening the first control valve 22 (S1);

Operating the vacuum pump 30 to suck and store the liquid stored in the highlands to the position of the first control valve 22 (S2);

Blocking (22) the first control valve and opening the second control valve (S3);

Operating the vacuum pump (30) to fill the liquid to the position of the second control valve (42) and then blocking the second control valve (42);

Opening the fluid storage valve 16 in a state in which the first control valve 22 and the second control valve 42 are shut off so that the liquid is continuously discharged to the low land through the liquid transfer pipe 10 (S5). Characterized in that comprises a.

3a to 3c is an operating state diagram showing a process of sucking and storing liquid in the liquid transfer pipe 10 according to the present invention, Figure 3d is a liquid storage valve after filling all the liquid in the liquid transfer pipe (10) Figure 16 shows the state where liquid transfer starts by opening.

As described above, in order for the liquid stored in the highlands to be continuously transferred through the liquid transfer pipe 10 to the low point past the highest point T of the liquid transfer pipe 10, first, the fluid from the inlet 12 of the liquid transfer pipe A preliminary procedure is required to fill the liquid in the liquid transfer pipe 10 to the storage valve 16.

To this end, in the steps S1 and S2, the first air discharge pipe is operated by shutting off the fluid storage valve 16 and the second control valve 42 and operating the vacuum pump 30 with the first control valve 22 open. By discharging the air of the liquid transfer pipe 10 to the outside (20) so that the liquid sucked through the inlet 12 of the liquid transfer pipe 10 is filled from the fluid storage valve (16).

In the step S3, when the sucked liquid is filled from the fluid storage valve 16 to the height of the first control valve 22, the first control valve 22 is blocked and the second control valve 42 is opened.

In the step S4 by operating the vacuum pump 30 to discharge the air in the liquid transfer pipe 10 through the second air discharge pipe 40 to the outside to evacuate the liquid transfer pipe 10 to the second control valve 42 Allow liquid to be sucked up to the height of

When the liquid is filled in a predetermined section of the liquid transfer pipe 10 through the above step, in step S5, the fluid storage valve 16 is opened while the first and second control valves 22 and 42 are blocked to open the liquid transfer pipe 10. As the liquid stored along the lowering begins to be discharged to the lowland, the liquid is continuously sucked through the inlet 12 of the liquid transport pipe 10 and the liquid transport proceeds. At this time, the liquid transfer is performed in the vacuum pump 30 is turned off, that is, in a non-powered state.

Since the liquid transfer according to the present invention continuously discharges due to the difference in potential energy of the liquid in the high or low land, the fluid storage valve 16 is shut off when it is necessary to temporarily stop the continuous liquid transfer. When the liquid transfer is resumed, the fluid storage valve 16 may be opened.

Hereinafter, another embodiment according to the present invention will be described with reference to the accompanying drawings.

As described above, in order to start the liquid transfer according to the present invention, the liquid is sucked into the liquid transfer pipe 10 to be temporarily stored, and the fluid storage valve 16 must be opened.

The first and second control valves 22 and 42 in the present invention can facilitate the liquid storage operation from the inlet 12 to the fluid storage valve 16 of the liquid transfer device by applying a solenoid valve.

More preferably, water level detecting sensors 24 and 44 are further provided at positions adjacent to the solenoid valves 22 and 42 to automatically detect the water level in the liquid transfer pipe.

In addition, the control box 50 is a built-in PLC circuit for operating the solenoid valves (22, 42) by the signal of the water level sensor (24, 44). As a result, when the water level in the liquid transfer pipe 10 is confirmed by the water level detection sensors 24 and 44, a signal is sent to the control box 50 and the solenoid valve is again transmitted by an electrical signal transmitted from the control box 50. (22, 42) is selectively opened and closed.

Referring to FIG. 4, the vacuum pump 30 is installed in a state in which a first water level sensor 24 is installed above the first control valve 22 and the second control valve 42 is blocked. ). When the liquid starts to be filled from the fluid storage valve 16 by the operation of the vacuum pump 30 and is filled up to the position where the first level sensor 24 is installed, the first level sensor 24 The generated signal is sent to the control box 50, and the control box 50 transmits an electrical signal again by the signal, and the first control valve 22 is controlled by the electrical signal of the control box 50. And the second control valve 42 is opened.

Subsequently, when the vacuum pump 30 is operated, the liquid is sucked from the first control valve 22 to the uppermost point T of the liquid transfer tube 10 by the vacuum pressure formed in the liquid transfer tube 10. At this time, when the second water level sensor 44 is installed behind the second control valve 42 and the liquid is filled up to the second water level sensor 44, the signal generated by the second water level sensor 44 is generated. It is sent to the control box 50, the control box 50 again sends an electrical signal to the second control valve 42, the second control valve 42 is cut off.

When the liquid is filled in the liquid transfer pipe 10 through the above process, the first and second control valves 22 and 42 are blocked to open the fluid storage valve 16 so that the liquid is discharged to the outlet 14. do.

In this case, the fluid storage valve 16 located at the outlet 14 is installed as a solenoid valve and is connected to the control box 50 so that the second control valve 42 is blocked and at the same time the fluid storage valve 16 is closed. It can also be opened.

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the scope of the claims, and is not limited by the specification text. Again, all variations and modifications belonging to the equivalent scope of the claims are within the scope of the present invention.

According to the present invention as described above, it is possible to reduce the cost for installing a separate pump pump for filling the liquid in the liquid transfer tube and the pipe for pumping by configuring the liquid to be sucked through the vacuum in the liquid transfer tube In addition, in the process of filling the liquid by having a water level sensor and a control device to automatically operate by the signal, there is an effect that can improve the convenience of operation.

In addition, if the liquid transfer is started through the liquid transfer pipe, even if the vacuum pump is not operated continuously, the continuous liquid transfer is performed by natural force, and thus energy saving effect can be obtained, especially when water is supplied to a pond such as a golf course. Can be.

Claims (6)

In the liquid transfer pipe is installed to suck the liquid stored in the highlands from the highest point to a downward position for a certain period, and to transfer back to the low land using the drop of the sucked liquid, A liquid conveying pipe positioned at an inlet port in the liquid stored in the highlands and a discharge port located at the low zone, and having a fluid storage valve installed at the outlet port; A first air discharge pipe communicating with an upper portion of the liquid transfer pipe at a position higher than the fluid storage valve, and having a first control valve installed above the communicating point; A vacuum pump installed at the tip of the first air discharge pipe; Installed at intervals with the liquid transfer pipe, one side is in communication with the upper portion of the liquid transfer pipe at the highest point, the other side is in communication with the side of the first air discharge pipe, the second control valve comprises a second air discharge pipe is installed Liquid transfer apparatus, characterized in that. The method of claim 1, And the second air discharge pipe communicates with the first air discharge pipe at a higher position than the first control valve. The method of claim 2, A first water level sensor installed on the first control valve; A second water level sensor installed behind the second control valve; And a control box having a circuit diagram for operating the first and second control valves by an electrical signal sent from the first and second water level detection sensors. The method of claim 3, wherein And a third control valve installed below the vacuum pump. In the method of using the liquid transfer device according to claim 1, Shutting off the second control valve and the fluid storage valve and opening the first control valve (S1); Operating the vacuum pump to suck the liquid stored in the highlands to the first control valve position (S2); Shutting off the first control valve and opening a second control valve (S3); Operating the vacuum pump to fill the liquid to the position of the second control valve and then blocking the second control valve (S4); And a step (S5) of opening the fluid storage valve in a state in which the first control valve and the second control valve are shut off so that the liquid is continuously discharged to the low land through the liquid transfer pipe. How to use. In the method of using the liquid transfer device according to claim 3, Shutting off the second control valve and the fluid storage valve and opening the first control valve (S1); Operating the vacuum pump to suck the liquid stored in the highlands into the liquid transfer pipe, and reacting the first water level sensor by the sucked liquid (S2); An electrical signal of the first water level sensor is sent to the control box, and the second control valve is opened at the same time as the first control valve is blocked by the electrical signal sent from the control box (S3); The liquid is continuously sucked into the liquid transfer pipe by the operation of the vacuum pump, and when the sucked liquid is detected by the second water level sensor, the control signal is sent to the box, and again by an electrical signal sent from the control box. Blocking the second control valve (S4); And a step (S5) of opening the fluid storage valve in a state in which the first control valve and the second control valve are shut off so that the liquid is continuously discharged to the low level through the liquid transfer pipe. How to use.

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