KR101365177B1 - Flow Control Device for Pipe Line - Google Patents

Abstract

The present invention is a pipe flow rate adjusting device for controlling to maintain a constant flow rate flowing inside the pipe at all times,
A main body provided with a connecting means at both ends and having a pipe having a predetermined length and diameter; A fixed disc fixedly installed in the main body and having a plurality of through holes; It is installed so as to be rotated at a predetermined interval in front of the fixed disk and the variable disk having a plurality of through holes and rotary blades and the fixed disk and the variable disk to maintain a constant distance and the rotational force of the variable disk by torsion It characterized in that it comprises a plurality of springs to adjust.
Accordingly, according to the pipe flow control device according to an embodiment of the present invention, the set flow rate can be automatically and constantly maintained even without an operation by a separate manpower can reduce the waste of manpower, and to open and close by using electrical force Since no solenoid valve device is used, economics from maintenance can be ensured.
In addition, the present invention has an effect that can be applied to all submarines, ships or offshore structures, as well as all the piping lines need to control the flow rate.

Description

Flow Control Device for Pipe Line

The present invention relates to a flow control device for pipes to be applied to the pipes, such as submarines or ships to adjust the flow rate, and more particularly by providing a flow control means at a certain position on the pipeline to control the flow of the fluid The present invention relates to a pipe flow control device for maintaining a constant discharge amount without being limited to changes in incoming flow rate and flow rate.

In general, a flow control valve device is generally used as a device for supplying and blocking a fluid such as a liquid or adjusting a flow rate when a fluid is supplied. A flow control valve device is a manual control device that opens and closes with human power according to a control power source. It is roughly classified into a control valve device and an electronic control valve device that opens and closes using electric force.

In this case, the electronic control valve device that opens and closes using the electric force requires the purchase cost and installation space of the related equipment, and there are disadvantages such as power loss, and manual control to open and close by human force. In the valve device, there is a disadvantage that it is impossible to exclude the possibility of error caused by waste of manpower and measurement error.

In addition, the general type of flow control valve can be represented by a conventional globe valve and ball valve, the globe valve is a vertical bend in the way of fluid flow in the pipeline, a straight length to connect the valve to the pipe on the valve body In addition, in the fluid control method, the size of the hole is vertically adjusted to interrupt the fluid in the pipeline.

Another type of conventional ball valve is a maximum of 45 degrees in the passage of fluid in the conduit, which requires a constant valve body length for the rotation of the ball on the valve body, and in the fluid adjustment method of the ball according to the direction of rotation By adjusting the hole, it is possible to control the fluid in the pipeline.

Therefore, the above-described globe valve and ball valve have a disadvantage in that the fluid is bent vertically or at an angle in the pipeline in the fluid passing method, and requires a constant space and complicated valve structure for operating the valve on the valve body. Because of this, there is a disadvantage that can not significantly reduce the size and weight of the valve.

No patent literature.

The problem to be solved in the present invention is installed at a certain position on the pipe line to be able to control the flow of the fluid by the flow control means consisting of the body and the fixed plate, variable plate and spring without being limited to the incoming flow rate and flow rate change It is an object of the present invention to provide a flow rate control device for a pipe to maintain a constant discharge amount at all times.

In the present invention proposed for the above object in the pipe flow rate adjusting device for adjusting to maintain a constant flow rate flowing inside the pipe at all times,

A main body provided with a connecting means at both ends and having a pipe having a predetermined length and diameter; A fixed disc fixedly installed in the main body and having a plurality of through holes; It is installed so as to be rotated at a predetermined interval in front of the fixed disk and the variable disk having a plurality of through holes and rotary blades and the fixed disk and the variable disk to maintain a constant distance and the rotational force of the variable disk by torsion It characterized in that it comprises a plurality of springs to adjust.

The present invention is provided with a connecting means at both ends and the main body made of a pipe having a predetermined length and diameter; A fixed disc fixedly installed in the main body and having a plurality of through holes; The variable disk is installed to be movable at a predetermined interval in front of the fixed disk and has a plurality of through holes and the fixed disk and the variable disk to maintain a constant distance and to adjust the moving interval of the variable disk by tension It characterized in that it comprises a plurality of springs.

In the present invention, the variable disk and the fixed disk is installed to be spaced by the spring inside the main body, the plurality of through holes provided in the variable disk and the fixed disk, the holes are consistent with each other when the variable disk does not rotate And, when the variable disk is rotated by the flow rate is characterized in that it is provided in a staggered form.

According to the flow control device for pipes according to an embodiment of the present invention, the set flow rate can be automatically and constantly maintained even without an operation by a separate manpower can reduce the waste of manpower, electronic control to open and close by using electrical force Since no valve device is used, economics from maintenance can be ensured.

In addition, the present invention has an effect that can be applied to all submarines, ships or offshore structures, as well as all the piping lines need to control the flow rate.

1 is a view illustrating an embodiment of a flow control device for piping according to the present invention
Figure 2 is a view illustrating another embodiment of the flow control device for piping according to the present invention
3 is a view illustrating another embodiment of a flow control device for pipes according to the present invention;

With reference to the accompanying drawings, a preferred embodiment of the flow control device for pipes according to the present invention as described above will be described in detail.

1 is a view illustrating an embodiment of a flow control device for piping according to the present invention.

The present invention relates to a flow control device for pipes to adjust the flow rate flowing in the pipe at all times to maintain a constant, the main body 10 made of a pipe having a connecting means (10a) at both ends and having a predetermined length and diameter; The fixed disk 11 is fixedly installed in the main body 10 and has a plurality of through holes 11a, and is rotatably installed at a predetermined interval in front of the fixed disk 11, and has a plurality of through holes. The variable disk 12 having the 12a and the rotary blade 12b, and the fixed disk 11 and the variable disk 12 to maintain a constant interval and the rotation of the variable disk 12 by the twist It comprises a plurality of springs 13 for adjusting the power.

Here, the connecting means (10a) provided at both ends of the main body 10 is illustrated in the embodiment of the present invention to be installed in the pipe line by a bolt or welding in the form of a flange, but is limited to such a flange form Nevertheless, it is also possible to apply a configuration to form a screw thread on the outer periphery of both ends of the main body 10 to connect with the pipe line by screwing.

The stationary disk 11 is fixedly installed by a fixing means such as welding at a predetermined position inside the main body 10, and is provided with a plurality of through holes 11a, the through holes 11a are flow rate adjusting capacity of the pipe line. It is determined by the size and the number of matching.

The variable disk 12 is provided with a plurality of through holes (12a) and the rotary blades (12b), it is installed rotatably at a predetermined interval in front of the fixed disk 11, the through holes (12b) are generally Although preferably arranged in the form having the same number and size as the through holes 11a of the fixed disk 11, it is not necessarily limited to the same shape as the fixed disk 11, for example, the need for flow rate adjustment Depending on the number and diameter of the through holes 12a, 11a provided in the variable disk 12 and the fixed disk 11 may be configured respectively.

The fixed disk 11 and the variable disk 12 provided to be spaced by the spring 13 inside the main body 10 are installed in a vertical form to form a right angle with respect to the inner wall of the main body 10. In this case, the variable disk 12 and the fixed disk 11, the plurality of through holes 12a, 11a provided in the variable disk 12 and the fixed disk 11, the variable disk 12 is not rotated In the state, the positions of the through holes 12a and 11a coincide with each other, and are installed to be in a staggered form when the variable disk 12 is rotated by the flow velocity.

In addition, a plurality of springs 13 provided between the fixed disc 11 and the variable disc 12 may allow the fixed disc 11 and the variable disc 12 to maintain a predetermined interval, and a spring ( It is possible to adjust the rotational force of the variable disk 12 by the torsion of the 13), the spring 13 may be composed of one by increasing the diameter of the torsion spring, but the diameter is small to install at least two or more It is preferable.

2 is a view illustrating another embodiment of a flow rate adjusting device for pipes according to the present invention.

In another embodiment of the present invention, the fixed disc 11 and the variable disc 12 are provided at a right angle with respect to the inner wall of the main body 10 so as to be spaced by the springs 13 inside the main body 10. Unlike the above embodiment, which is installed in a vertical form, the fixed disk 21 and the variable disk 22 which are provided to be spaced by the spring 23 inside the main body 20 are fixed to the inner wall of the main body 20. Except that provided in the inclined form to have an inclination, since the configuration is the same as the above embodiment, a detailed description of the components overlapping with the above embodiment will be omitted.

Therefore, the surface area of the fixed disk 21 and the variable disk 22 can be increased by installing the fixed disk 21 and the variable disk 22 so as to be inclined with respect to the inner wall of the main body 20. By increasing the flow rate and the resistance by the flow rate to facilitate the rotation and movement of the variable disk 22 to improve the flow rate adjusting ability.

3 is a view illustrating another embodiment of a flow rate adjusting device for pipes according to the present invention.

In another embodiment of the present invention, the connecting means 31 is provided at both ends, and the main body 30 is formed of a pipe having a predetermined length and diameter, and is fixedly installed in the main body 30 and has a plurality of through holes 31a. A fixed disk 31 having a), a variable disk 32 and a fixed disk (32) having a plurality of through holes 32a, which are installed to be movable at a predetermined interval in front of the fixed disk 31, and having a plurality of through holes 32a. 31) and the variable disk 32 to maintain a predetermined interval and comprises a plurality of springs 33 to adjust the moving interval of the variable disk 32 by the tension force.

In this case, in the above embodiments and other embodiments, the variable disk is provided with a rotary blade to rotate the variable disk by the flow rate, and the flow rate is adjusted by the operation of staggering the through holes of the variable disk and the fixed disk by the rotational force. However, in another embodiment of the present invention, the variable disk 32 and the fixed disk 31 by arranging the arrangement position of the plurality of through holes 32a, 31a provided in a mutually staggered form from the beginning to the variable disk 32 It is made so that the flow rate can be adjusted only by the movement movement without the rotation movement.

It will be described the effect on the effect and the action for the pipe flow rate control apparatus according to the present invention as described above.

First, referring to FIG. 1 of an embodiment of the present invention, a pipe that does not show the flow rate control device for a pipe according to the present invention by using a connecting means 10a provided at both ends of the main body 10, that is, a flange and a bolt. Connect to the line.

1 is a state in which the normal pressure is acting on the variable disk 12, and at this time, as shown in the lower part, the through holes 12a and 11a of the variable disk 12 and the fixed disk 11 are coincident with each other. The set flow rate is discharged to the rear of the fixed disk 11 without receiving the flow of the fluid.

In this state, when the flow rate or flow rate is increased and the moving pressure of the fluid acts on the rotating blade 12b which is inclined like the blade of the fan, the variable disk 12 rotates and the spring 13 twists accordingly. Then, the variable disk 12 is rotated. (See the right view of FIG. 1).

As the variable disk 12 rotates in this manner, as shown in the lower right side of FIG. 1, as the position of the variable disk 12 and the through holes 12a and 11a formed in the fixed disk 11 are changed in a staggered manner. The flow rate is controlled by reducing the flow rate discharged to the rear of the fixed disc 11 by disturbing the flow of the fluid.

In this state, if the flow rate and flow rate flowing into the front of the variable disk 12 decreases again, the variable disk 12 rotates to its original position by the restoring force of the spring 13 and thus the variable disk 12 and the fixed disk 11 By making the through holes 12a and 11a coincide with each other, the set flow rate can be discharged to the rear of the stationary disk 11 without the flow of the fluid being resisted.

The same operation is also applied to the other embodiment of the present invention in FIG. 2, except that there is a difference between a large and small flow rate which is adjusted when the same pressure is applied due to the difference in the surface area of the fixed disk and the variable disk. The operation is the same.

Referring to FIG. 3, which is another embodiment of the present invention, the left view of FIG. 3 is a state in which normal pressure is acting on the variable disk 32. In this case, the variable disk 32 and the fixed disk 31 are shown as shown below. Since the gap between the () is formed by the tension of the spring 33 is wide, the flow of the fluid is not resisted and the flow rate set through the through holes (32a, 31a) is discharged to the rear of the stationary disk (31).

In this state, when the flow rate or flow rate increases and the moving pressure of the fluid acts on the variable disk 32, the variable disk 32 moves backwards to contract the spring 33, thereby widening the variable disk. The distance between the 32 and the fixed disk 31 becomes narrow. (See the right figure in FIG. 3).

As such, when the gap between the variable disk 32 and the fixed disk 31 is narrowed, the through holes 32a and 31a which are arranged in a staggered manner prevent the flow of fluid and are discharged to the rear of the fixed disk 31. The flow rate is controlled by reducing the flow rate (see the lower right drawing in FIG. 3).

When the flow rate and flow rate flowing into the front of the variable disk 32 in such a state is reduced again, the variable disk 32 is moved to its original position by the restoring force of the spring 33 and the variable disk 32 and the fixed disk 31 By forming a wide interval therebetween, the flow of the fluid is not resisted and the set flow rate can be discharged to the rear of the stationary disk 31.

Therefore, in the above embodiments and other embodiments, the variable disk is provided with a rotary blade to rotate the variable disk by the flow rate and adjust the flow rate by the operation of staggering the through holes of the variable disk and the fixed disk by the rotational force. In another embodiment of the present invention, by arranging the arrangement positions of the plurality of through holes provided in the variable disk and the fixed disk in a staggered form from the beginning, the flow rate can be adjusted only by the movement operation without the rotation operation of the variable disk.

According to the flow control device for pipes according to the embodiment of the present invention as described above, it is possible to constantly maintain a constant flow rate even without the operation of a separate manpower, so as to reduce the waste of manpower, and to open and close by using electric force Since it does not use an electronically controlled valve device, it is possible to secure economics due to maintenance.

In addition, the present invention has an effect that can be applied to all submarines, ships or offshore structures, as well as all the piping lines need to control the flow rate.

So far, the flow rate adjusting apparatus for a pipe according to the present invention has been described. Although the present invention has been described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is not intended to limit the scope. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention as set forth in the following claims.

10, 20, 30: main body 10a, 20a, 30a: connecting means
11, 21, 31: fixed disk 11a, 31a: through hole
12, 22, 32: variable disk 12a, 32a: through hole
13, 23, 33: spring

Claims (6)

In the pipe flow rate adjusting device for controlling to maintain a constant flow rate flowing inside the pipe,
A main body provided with a connecting means at both ends and having a pipe having a predetermined length and diameter;
A fixed disc fixedly installed in the main body and having a plurality of through holes;
It is installed so as to be rotated at a predetermined interval in front of the fixed disk and the variable disk having a plurality of through holes and rotary blades and the fixed disk and the variable disk to maintain a constant distance and the rotational force of the variable disk by torsion It includes a plurality of springs to adjust,
The variable disk and the fixed disk, the plurality of through holes provided in the variable disk and the stationary disk is provided in a form that the through holes coincide with each other when the variable disk is not rotated, and when the variable disk is rotated due to the flow rate Flow rate control device for piping.
The method according to claim 1,
The fixed disk and the variable disk provided to be spaced by the spring in the interior of the main body is a pipe flow control device, characterized in that installed in a vertical form to form a right angle with respect to the inner wall of the main body.
The method according to claim 1,
The fixed disk and the variable disk provided to be spaced by the spring in the interior of the main body is a pipe flow control device characterized in that it is installed in an inclined form to have a constant inclination with respect to the inner wall of the main body.
delete In the pipe flow rate adjusting device for controlling to maintain a constant flow rate flowing inside the pipe,
A main body provided with a connecting means at both ends and having a pipe having a predetermined length and diameter;
A fixed disc fixedly installed in the main body and having a plurality of through holes;
The variable disk is installed to be movable at a predetermined interval in front of the fixed disk and has a plurality of through holes and the fixed disk and the variable disk to maintain a constant distance and to adjust the moving interval of the variable disk by tension Including a plurality of springs,
The variable disk and the fixed disk, the plurality of through-holes provided in a staggered form when the gap between the variable disk and the fixed disk is narrowed as the moving pressure of the fluid acts on the variable disk to block the flow of the fluid flow rate In order to be able to adjust, a plurality of through-holes provided in the variable disk and the stationary disk are provided in the form of staggered with each other characterized in that the flow rate adjusting device for a pipe.






delete

Images