KR101566889B1 - Fluid flow control device of the tube containing impurities - Google Patents

Abstract

The present invention comprises: a support having a vertical frame, a horizontal frame, and a leg; a first compression unit having a slide bracket, a shaft, and a compression plate; a second compression unit having the slide bracket and the shaft; a link of which both ends are coupled to be rotated to shafts of the first compression unit and the second compression unit; and a crank unit enabling the shaft to be slid toward the left side and the right side. When the shaft of the first compression unit is slid toward the left side, a cross-sectional surface of a pipe is formed to have an elliptical shape. When the shaft of the first compression unit is slid toward the right side, the cross-sectional surface of the pipe is formed to have a circular shape.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for controlling a flow rate of a fluid containing impurities,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a flow rate control device capable of changing the cross-sectional area of a passage of a sewage pipe and a sludge pipe of a sewage disposal apparatus,

More particularly, the present invention is configured to compress the tube on both sides with respect to the center of a circular pipe having good stretchability to reduce the cross-sectional area while deforming the circular cross section to an elliptical cross section within an elastic limit, And more particularly to an apparatus for controlling a flow rate of a fluid including an impurity capable of adjusting a flow rate by increasing a loss head of a pipe by being provided in a pair so as to cross the compression of a mutual pipe.

In recent years, elastic materials such as high-pressure hoses and latex hoses have been produced due to the development of material technology, and piping components made of such materials are inserted in the middle of solid discharge pipes such as steel pipes or the end of pipes.

Such a pipe is provided on the side of the discharge pipe or at the end of various pipes and is mainly provided with a valve capable of controlling the flow rate and is used for the purpose of injecting the same flow rate or reducing the flow rate by operating the valve.

However, in the case of such a pipe, when the impurities, the sludge and the debris flow together with the fluid flowing in the pipe or accumulate in the pipe, the cross sectional area of the pipe becomes narrow to interfere with the flow of the fluid and it is difficult to control the flow rate. This is an impossible problem.

Accordingly, a device capable of adjusting the throttling action so as to accurately and easily control the flow rate of the pipe has been developed.

One of the devices capable of controlling the flow rate by controlling the throttling action has been developed so far that an apparatus for performing throttling action using a valve has been developed. However, in the case where impurities or sludge are contained in a fluid, The inside of the tube is easily clogged due to the bi-axial throttling and the vertical throttling. In the butterfly type, foreign matter such as fiber is caught on the center portion, and the sectional area is reduced.

In order to solve this problem, another one of devices capable of controlling the flow rate by controlling the throttling action is disclosed in Patent Publication No. 10-0334886, which discloses an expansion valve for a turbo refrigerator.

FIG. 1 is a schematic view of a conventional expansion valve for a turbo refrigerating machine, and an enlarged plan view of a substantial portion thereof, which is a throttling device for a turbo refrigerator interposed between a condenser and an evaporator, A throttling piping 52 having a flow area which is the same as the throttling piping 52; A disk-shaped valve disk (54) is rotatably mounted on the refrigerant flow path of the throttle pipe (52), and a density and a sound velocity are calculated on the valve disk (54) And a plurality of holes 55 penetrating in a diameter d according to the puncture rate? Are formed and formed by setting the puncture rate? By the area ratio.

The expansion valve for a turbo refrigerator is configured such that a valve disk is replaced with a perforated plate in a conventional throttle valve type throttling device so that throttling is not applied until the valve is fully closed, And the throttle adjustment can be facilitated.

However, the conventional expansion valve for a turbo refrigerator includes a disk-shaped valve disk 54 having a plurality of holes 55 penetrating through a diaphragm pipe 52 having a flow area of a diameter D, Although it is positive that the flow rate can be controlled by narrowing the cross-sectional area within the throttle pipe 52, that is, the space through which the fluid can flow in the throttle pipe 52 by rotating the disk-shaped valve disk 54, And the sludge or the like are hardened by blocking the plurality of holes 55, the flow of the fluid is interrupted and the throttle pipe 52 is clogged and the flow rate can not be controlled.

On the other hand, if the general flow rate inside the pipe is designed to be 0.7 ~ 1.5m / sec, if the valve is closed to control the flow rate, it is possible to detect that the loss head is increased by closing more than 70% It is difficult to expect to increase the loss head as described above when the cross-sectional area of the tube is narrowed when the impurity is large in the fluid, and the flow of the fluid is obstructed by blocking the inside of the tube.

Patent Registration No. 10-0334886 (Apr. 18, 2002)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a flexible tube, which is capable of compressing a tube at both sides with respect to the center of a circular tube having good stretchability, And the cross-sectional area of the tube is decreased while the pair of tubes are arranged in the longitudinal direction of the tube so as to cross the squeezing of the tubes, thereby increasing the loss head of the tube and controlling the flow rate of the fluid And a pipe flow control device.

In order to solve the above problems, an apparatus for controlling a flow rate of a fluid including impurities according to the present invention comprises a vertical frame provided on each of left and right sides of a tube, a horizontal frame provided on each of upper and lower sides of the tube, A support including a leg coupled to the ground; A slide bracket coupled to each of the vertical frames and having a long type slide groove formed in the left and right direction, a shaft inserted into the slide groove and slidable in the left and right directions, and a compression plate coupled to the outer tip of the shaft, A pressing part; A second squeeze unit coupled to each of the horizontal frames and including a slide bracket having a slide groove of an elongated shape in an upward and downward direction and a shaft slidably moved in an upward and downward direction by being inserted in the slide groove; A link which is rotatably coupled at both ends to an axis of the first pressing portion and an axis of the second pressing portion; And a crank for slidably moving the shaft provided in the first crushing unit to the left and right sides. When the shaft of the first crushing unit provided on the right side of the pipe by the crank unit is slid to the left, The shaft provided on the upper side of the tube is slid upward by the linking operation, the shaft provided on the lower side of the tube is slid downward, and the shaft provided on the left side of the tube is slid to the right, When the compression plate is formed so that the left and right sides of the pipe are squeezed so that the cross section of the pipe is formed into an ellipse having a long shape upward and downward and the shaft of the first compression section provided on the right side of the pipe by the crank section is slid to the right, The shaft provided on the upper side of the pipe by the four-link operation of the link is slid downward, and the shaft provided on the lower side of the pipe is slid upward Wherein the shaft provided on the left side of the tube is slid to the left so that the crimping by the compression plate coupled to the outer tip of the shaft is released so that the cross section of the tube is formed in a circular shape. So as to solve the technical problem.

The present invention is configured to compress a tube at both sides with respect to the center of a circular pipe having good stretchability to reduce a cross-sectional area while deforming a circular cross section to an elliptical cross section within an elastic limit, So that the flow rate can be controlled by increasing the loss head of the pipe.

Further, according to the present invention, there is provided a pair of constructions for deforming the cross-sectional area of the tube so that the tube is loosened in the backward direction in the longitudinal direction of the tube (squeezing) It is possible to pass impurities and sludge even if it is closed, and to shorten the repetition time when the amount of impurities and sludge are large, so that the flow of the fluid inside the pipe can be smoothly controlled and the flow rate can be easily controlled.

1 is a schematic view of a conventional expansion valve for a turbo refrigerating machine and an enlarged plan view thereof.
2 is a front view of an apparatus for controlling a flow rate of a fluid including impurities according to the present invention.
3 is a front view showing a state in which the compression plate presses the left and right sides of the pipe in the apparatus for controlling the flow rate of a fluid containing impurities according to the present invention.
Fig. 4 is an attempt of the first squeeze portion and the second squeeze portion in an apparatus for controlling the flow rate of a fluid containing an impurity according to the present invention.
FIG. 5 is a plan view showing an operation relationship of a pipe flow rate adjusting apparatus for a fluid including impurities according to the present invention.

Advantages and features of embodiments of the present invention and methods of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

The present invention is configured to compress the tube at both sides with respect to the center of a circular pipe having good stretchability to reduce the cross-sectional area while deforming the circular cross-section to an elliptical cross-section within an elastic limit, To an apparatus for regulating the flow rate of a fluid including impurities capable of increasing the loss head of the tube and adjusting the flow rate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for controlling a flow rate of a fluid including impurities according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a front view of an apparatus for controlling a flow rate of a fluid including impurities according to the present invention.

The apparatus for adjusting the flow rate of a fluid including impurities according to the present invention smoothes the flow of fluid including impurities and sludge flowing through the tube 10 to accurately and easily adjust the flow rate, A first crushing unit 200, a second crushing unit 300, a link 400, and a crank unit 500.

The support 100 is spaced apart from the tube 10 so as to surround the tube 10 and supports the first and second crimping parts 200 and 300, The vertical frame 110, the horizontal frame 120, and the legs 130, as shown in FIG.

2 and 3, the vertical frame 110 is provided on each of the left and right sides of the pipe 10, and functions to support the first press portion 200, which will be described later.

The horizontal frame 120 is coupled to the vertical frame 110 and is provided on the upper and lower sides of the pipe 10 to support a second compression unit 300 to be described later.

The legs 130 are coupled to the lower side of the vertical frame 110 to be in contact with the ground, and function to support the vertical frame 110 and the horizontal frame 120 on the ground.

The leg 130 may be provided with a separate foot (not shown) in contact with the ground, and the support 100 may be installed firmly on the ground through the bolt or anchor coupling, .

Depending on the design conditions, the legs 130 may be configured to adjust the height with respect to the ground, respectively.

Accordingly, the height of the vertical frame 110 and the ground can be adjusted, and it is possible to prevent the vertical frame 110 and the horizontal frame 120, which are coupled in a rectangular shape, from tilting.

For example, they may be constructed of a plurality of pipes having diameters of different sizes, and may be configured to be adjustable in length by being coupled by a telescopic (antenna) method.

Accordingly, by adjusting the lengths of the legs 130 provided on the left and right sides of the support 100, even if the support 100 is installed in a place where the ground is not flat and has a rugged paper surface, 110 and the horizontal frame 120 are not inclined.

Further, since the vertical frame 110 and the horizontal frame 120 are installed so as not to be tilted, the first and second pressing parts 200 and 300 coupled to the vertical frame 110 and the horizontal frame 120, respectively, Can be accurately positioned on the left and right sides and the upper and lower sides of the pipe 10, respectively.

4, the first pressing part 200 is installed on each of the pair of vertical frames 110 and is symmetrically disposed around the tube 10. The first pressing part 200 includes a slide bracket 210, 220 and a compression plate 230. [

The first pressing part 200 functions to press the left and right sides of the pipe 10 to make the cross section of the pipe 10 to be an ellipse of a long shape upward and downward.

The slide bracket 210 is installed in each of the vertical frames 110 and has a slide groove 211 penetrating the inside and the outside of the vertical frame 110. The shaft 220 inserted in the slide groove 211 is slidable And includes a round rod 212. The round rod 212 is formed of a circular rod.

The round bar 212 is provided in the slide bracket 210 in the longitudinal direction of the slide bracket 210 so that the roller 221 described later is supported.

The shaft 220 is inserted into the slide bracket 210 so that a part of the shaft 220 protrudes from the slide bracket 210 and is prevented from disengaging from the slide bracket 210. The shaft 220 is slid in the longitudinal direction of the slide groove 211, And a link 400, which will be described later, is coupled to the protruding portion of the slide groove 211.

4, a roller 221 having four rollers 221 is provided at one end of the shaft 220. When the shaft 220 is inserted into the slide bracket 210, And the slide bracket 210 is supported by the slide bracket 212 so that the slide bracket 210 can slide smoothly.

The roller 221 is rotatably provided and has a roller groove (not shown) of a shape widened inward along the circumference of the roller 221. A part of the round bar 212 is inserted into the roller groove, The slide movement becomes more smooth and the slide bracket 210 and the shaft 220 are not separated from each other.

The compression plate 230 is coupled to the side surface of the shaft 220 so that when the shaft 220 is slid, the left and right sides of the tube 10 are respectively pressed to reduce the cross-sectional area of the tube 10, As shown in FIG. 4, has a cross-sectional shape of 'C' having an arc shape. Thus, when the side surface of the tube 10 is pressed against the side surface of the tube 10 The sectional area of the tube 10 can be changed even with a small force.

That is, when the tube 10 is compressed, the contact area between the outer surface of the tube 10 and the compression plate 230 is increased to minimize the mutual friction, thereby maximizing the service life of the tube. Thereby minimizing the cost incurred.

It is needless to say that the compression plate 230 may be made of rubber having excellent elasticity and restoring force according to design conditions.

The contact area between the outer surface of the tube 10 and the pressing plate 230 at the time of first contact is maximized when the outer surface of the tube 10 is pressed by the pressing plate 230. As the pressing is progressed, And the elastic force of the pressing plate 230 minimizes the area that is separated or separated between the tube 10 and the pressing plate 230. On the contrary, when the pressing is released The shape of the cross-sectional area is deformed into a circular shape, and the contact area between the tube 10 and the compression plate 230 is maintained to be equal to the contact area at the initial contact due to the restoring force of the compression plate 230.

Accordingly, friction is minimized and wear of the tube 10 and the compression plate 230 is minimized, thereby maximizing the service life of the product and minimizing the cost of replacement, repair, and inspection.

The second pressing part 300 is provided on each of the pair of horizontal frames 120 and is symmetrically arranged up and down about the tube 10 and includes a slide bracket 310 and a shaft 320 .

The second crimping portion 300 is spaced apart from the tube 10 and is connected to the first crimping portion 200 provided on the left and right sides of the tube 10 by a link 400 described later.

On the other hand, the structure of the second pressing part 300 is the same as that of the first pressing part 200, but has a structure in which the pressing plate 230 is omitted.

The second pressing part 300 is provided in one of the pair of first pressing parts 200 provided with the pressing plate 230 pressing the left and right sides of the tube 10 Since the shaft 220 provided in the other first pressing portion 200 can be slidably moved only by sliding the shaft 220 which is connected to the first pressing portion 200, Description of the structure of the second crimping portion 300 having the same structure as that of the crimping portion 200 is omitted.

It is needless to say that a compression plate (not shown in the drawing) may be provided in each of the second compression portions 300 according to design conditions.

The link 400 is capable of performing a quadrupole link operation and will be described with reference to the accompanying drawings. The link 400 is provided with the shaft 220 and the second crimping portion 300 provided in the first crimping portion 200 And both ends of the shaft 320 are rotatable.

3, when the shaft 220 of the first crimping portion 200 provided on the right side of the pipe 10 is slid and the right side surface of the pipe 10 is compressed, A pair of links 400 rotatably coupled to the shaft 220 of the first crimping portion 200 provided on the right side of the pipe 10 by the link operation are rotated upward and downward, The shaft 320 of the second crimping portion 300 provided on the upper side and the lower side of the tube 10 is slid to the upper side and the lower side respectively so that the first compression The shaft 220 of the part 200 is slid to the tube 10 so that the pressing plate 230 coupled to the shaft 220 of the first pressing part 200 provided on the left side of the tube 10 Thereby pressing the left side surface of the base 10.

Accordingly, when the shaft 220 provided in one of the pair of first pressing parts 200 is slidably moved, the shafts 220 and 320 are all slid So that the left and right sides of the pipe 10 can be pressed.

The crank portion 500 allows the shaft 220 provided in the first pressing portion 200 to slide and includes a cam 510, an eccentric rod 520, a sliding rod 530, and a spur gear 540 ).

The cam 510 has an eccentric rotation axis 511 formed eccentrically and performs a function of being rotated during operation.

The eccentric rod 520 is rotatably coupled to the eccentric rotation shaft 511 at one side and the eccentric rolling gear 521 is engaged at the other side with the spur gear 540 to be described later, The eccentric rolling gear 521 causes the spur gear 540 to rotate.

The sliding rod 530 is fixed to the shaft 220 provided at the first pressing part 200 and coupled to the sliding rod 530. The other side of the sliding rod 530 is formed with a sliding drag gear 531, The spur gear 540 is engaged.

The spur gear 540 is engaged with the drag gear 531 by a sliding formed on the eccentric rolling gear 521 formed on the eccentric rod 520 and the sliding rod 530. When the cam 510 rotates, The spur gear 540 is rotated in a clockwise and counterclockwise direction while being rotated so that the rotation of the spur gear 540 causes the sliding rod 530 to repeatedly slide left and right.

At this time, the shaft 220 provided in the first pressing portion 200 is slid along the slide groove 211 by the sliding rod 530 repeating the sliding movement, And the left and right sides of the left and right sides are squeezed.

Further, by repeating the sliding movement of the sliding rod 530, the left and right sides of the pipe 10 are pressed and released by the press plate 230. [

That is, the process of pressing the tube 10 so that the cross section of the tube 10 has a long elliptical shape upward and downward, and pressing the tube 10 so that the cross section of the tube 10 is circular is repeated.

The structures of the support 100, first crushing part 200, second crushing part 300, link 400 and crank part 500 are provided forward and backward in the longitudinal direction of the pipe 10 .

At this time, the compression of the left and right sides of the pipe 10 is repeatedly performed by intersecting the front portion and the rear portion of the pipe 10, thereby preventing impurities and sludge contained in the pipe 10 from accumulating, So that the flow rate can be accurately and easily adjusted.

5, the supporting unit 100, the first pressing unit 200, the second pressing unit 300, the link 400, and the crank unit 400 are disposed forward and rearward in the longitudinal direction of the pipe 10, When the left and right sides of the tube 10 are squeezed, the squeezing by the squeezing plate 230 provided on the rear side is released, and on the contrary, When the left and right side surfaces of the tube 10 are compressed, the compression bonding by the compression plate 230 provided at the front is released, and this process is repeated, so that the inside of the tube 10 is instantly closed Impurities and sludge or the like can be passed therethrough.

Furthermore, when the amount of the impurities and sludge is large, the repetition time is shortened to smooth the flow of fluid in the pipe, so that the flow rate can be easily controlled.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It can be seen that branch substitution, modification and modification are possible.

10: tube 100: support
110: vertical frame 120: horizontal frame
130: leg 200: first crimping portion
300: second crimping portion 210, 310: slide bracket
211, 311: slide groove 212, 312: round bar
220, 320: shaft 221, 321: roller
230: compression plate 400: link
500: crank portion 510: cam
511: eccentric pivot shaft 520: eccentric rod
521: eccentric rolling gear 530: sliding rod
531: Sliding drag gear 540: Spur gear

Claims (5)

A vertical frame 110 provided on each of the left and right sides of the pipe 10, a horizontal frame 120 provided on upper and lower sides of the pipe 10, A support (100) comprising a leg (130);
A slide bracket 210 coupled to each of the vertical frames 110 and formed with a long slide groove 211 in the left and right direction and a slide bracket 210 inserted in the slide groove 211 to slide in the left and right directions, (200) including a pressing plate (220) and a pressing plate (230) coupled to the outer end of the shaft (220);
A slide bracket 310 coupled to each of the horizontal frames 120 and having a long slide groove 311 formed in an upper and a lower direction and a shaft bracket 310 inserted in the slide groove 311 and slidable in the upward and downward directions 320); < / RTI >
A link 400 coupled to the shaft 220 of the first pressing part 200 and the shaft 320 of the second pressing part 300 so as to be rotatable at both ends; And
And a crank unit 500 slidably moving the shaft 220 provided in the first crusher 200 to the left and right,
When the shaft 220 of the first crushing part 200 provided on the right side of the pipe 10 is slid to the left by the crank part 500, The shaft 320 provided on the upper side of the pipe 10 is slid upward and the shaft 320 provided on the lower side of the pipe 10 is slid downward and the shaft 220 provided on the left side of the pipe 10 The compression plate 230 coupled to the outer tip of the shaft 220 presses the left and right sides of the tube 10 so that the cross section of the tube 10 is long And a second electrode
When the shaft 220 of the first crushing part 200 provided on the right side of the pipe 10 is slid to the right by the crank part 500, The shaft 320 provided on the upper side of the pipe 10 is slid downward and the shaft 320 provided on the lower side of the pipe 10 is slid upward and the shaft 220 provided on the left side of the pipe 10 ) Is slid to the left so that the compression bonding by the compression plate 230 coupled to the outer tip of the shaft 220 is released to form a circular cross section of the pipe 10,
The first pressing part 200 is provided with a roller 221 which is supported by a round bar 212 provided on a slide bracket 210 and is rotated on a side surface of a shaft 220 slidably moved in the slide groove 211 ,
The second presser 300 is provided with a roller 321 supported by a round bar 312 provided on a slide bracket 310 and provided on a side of a shaft 320 slidably moved in the slide groove 311 And the flow rate of the fluid is controlled by the flow rate controller.
The method according to claim 1,
The structures of the support 100, the first compression part 200, the second compression part 300, the link 400 and the crank part 500 are respectively provided forward and backward in the longitudinal direction of the pipe 10 Wherein the left and right surfaces of the pipe (10) are compressed and repeatedly performed by crossing the front and rear portions of the pipe (10).
The method according to claim 1,
Wherein the side surface of the compression plate (230) is arc-shaped so as to correspond to an outer diameter of the pipe (10).


delete The method according to claim 1,
The crank unit 500 includes:
A cam 510 whose eccentric rotation axis 511 is eccentrically formed;
An eccentric rod 520 coupled to the eccentric rotation shaft 511 such that one side thereof is rotatable and an eccentric drag gear 521 is formed on the other side;
One side is coupled to a shaft 220 provided in one of the first crushing parts 200 of the first crushing parts 200 installed in each of the pair of vertical frames 110 and a sliding drag gear 531 A sliding rod 530 formed on the sliding rod 530; And
And a spur gear 540 engaged with the drag gear 531 by sliding the sliding rod 530 with the eccentric rod 521 of the eccentric rod 520. [ Fluid tube flow regulator.

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