KR101277187B1 - The calibration device for fluid blocking method - Google Patents

Abstract

PURPOSE: An epicenter device for blocking the fluid in a construction method is provided to correctly install the fitting by correcting a pipe and to smoothly insert a blocking head, and to completely block the water using the blocking head. CONSTITUTION: An epicenter device for blocking the fluid in a construction method comprises a support frame (10) and a hydraulic jockey unit (20). The support frame includes a screw shaft for controlling the length, a screw shaft installing unit, and a pressure auxiliary unit. Each connecting unit of one side frame of the screw shaft installing unit and the other frame are made of a protrusion unit, an inserting unit, and a connecting unit. The screw shaft installing unit is for installing the screw shaft in the support frame. The pressure auxiliary unit includes a pressing unit pressing a pipe in a bent shape corresponding to the inclined surface of the pipe.

Description

Circulating device for fluid blocking method

The present invention relates to an accessory device used for applying a fluid blocking method for blocking a pipeline at an arbitrary position for maintenance of a pipeline through which fluid flows, such as a water supply pipe, a sewer pipe, a heat pipe, an oil pipe, and the like. The present invention relates to a device for correcting a shape of a pipe which is not formed due to earth pressure.

The fluid-cutting method is a method called "end-stopping method" or "line-stopping method". It can be applied to various types and structures such as a pivoting blocking head, a folding blocking head, It is possible to maintain the piping without affecting the fluid supply state of the pipe by arbitrarily blocking the sections of the various pipes such as the water pipe, the heat pipe of the district heating, the oil pipe, and the gas pipe Is a public law.

The pivoting blocking head is also referred to as a " pail head " as a blocking head whose blocking head itself is formed in a disc shape.

An example of such a pivoting blocking head is disclosed in Application No. < RTI ID = 0.0 > 10-2009-0128166 < / RTI >

The pivot-type blocking head has a disc shape so that the blocking head can be brought into close contact with the inner surface of the pipe to be blocked.

Therefore, the insertion port formed for inserting the blocking head into the pipe must be formed to have the same size as the diameter of the pipe.

In order to solve the problem that the insertion port needs to be formed to have the same size as the diameter of the pipe in the case of the pivot type blocking head, the folding type blocking head can be folded so that the insertion port can be made smaller than the diameter of the pipe There are advantages.

An example of such a folding type blocking head is disclosed in Application No. 10-2010-0047151 'Fluid shut-off device inside piping'.

In order to solve the problem of the conventional pivoting type blocking head, the insertion plate-type blocking head must be formed so as to have the same size as the diameter of the piping, as in the case of the folding type blocking head, so that a plurality of the expansion plates can be expanded or collapsed There is an advantage that the insertion port can be formed to be smaller than the diameter of the pipe.

An example of such a deflector type blocking head is disclosed in Application No. 10-2006-0138029 'Fluid Blocker for Piping'.

Referring to the problem of the conventional fluid shut-off method using the folding-type shut-off head as an example, Figure 1 is to explain the cause of the deformation of the underground pipe, it is to be buried in the ground in the case of water pipe Due to the general relationship, as shown in FIG. 1, the pipe 1 embedded in the ground is subjected to earth pressure.

The earth pressure acting on the pipe 1 thus deforms the shape of the pipe.

Normal piping is round, so the height (H) and width (W) of the pipe is the same.

However, in the pipe 1 pressed by earth pressure and deformed in shape, the height H is lower than that of the normal pipe, and the width W is larger than that of the normal pipe.

Thus, when the fluid blocking method is applied to the pipe 1 deformed by the earth pressure causes a variety of problems.

First, there is a problem that it is difficult to correctly install the fitting made for the existing normal form of the pipe when the fitting for forming the working tool when the fitting to the modified pipe by welding or the like.

In general, it is used to cut the bottom of the fitting in the field, but this is difficult to install the exact fitting and may cause leakage problems in the future fitting.

In addition, when the blocking head 3 of the fluid blocking device 4 is inserted, there is a problem in that the intact fluid cannot be blocked, as shown in the drawing for explaining a problem of fluid blocking using the blocking head of FIG. 2.

In general, the blocking head 3 is manufactured to fit the inner diameter of the pipe. For example, the blocking head 3 for blocking the 900mm pipe is manufactured to have a size capable of blocking the 900mm pipe.

Therefore, when deformation occurs in the pipe, that is, when the height H of the pipe is lowered by the earth pressure and the width W is wider, a problem occurs that the insertion of the blocking head 3 does not occur in severe cases. However, when the fluid shutoff device 4 is dismantled up and down severely, the blocking head 3 is inserted into the pipe, causing a big problem, and both sides are leaked because a sufficient degree is not achieved beyond the allowable range of the blocking head. And this causes a problem that the actual fluid is not blocked.

Such a problem occurs more and more toward a large tube over 800mm in diameter, and the problem of the roundness of the pipe necessarily occurs in a large tube such as 1500mm to 2000mm.

An object of the present invention is to provide an apparatus for correcting the shape of a pipe to make the pipe deformed due to earth pressure, which was devised to solve the above problems.

In addition, it is an object of the present invention to provide a device for correct installation of the fitting and complete order of the fitting using the blocking head and smooth insertion and pulling of the blocking head.

In the accessory device used to apply the fluid blocking method to achieve the problem to be solved by the present invention as described above, the support frame is made of a steel material and coupled and separated in the form of a frame surrounding the outside of the pipe; And a pair of hydraulic jockeys installed in a horizontal direction (0 °) relative to a vertical cross section of the pipe inside the support frame, a pair of hydraulic jockeys installed in a direction between -15 ° to -45 ° based on a horizontal direction and 15 °. It consists of a pair of hydraulic jockey which is installed in the direction of ~ 45 °, the hydraulic jockey to pressurize the pipe in the range of at least 30 ° to 90 ° of the horizontal direction center reference; characterized in that it comprises a.

In addition, the support frame is composed of one frame and the other frame is separated into the left and right structure, each coupling portion of the one frame and the other frame is a projection and the insertion portion is inserted into the projection and the protrusion and the insertion state of the insertion portion Fastening means for maintaining; characterized in that consisting of.

In addition, the support frame further comprises a screw shaft mounting portion for installing the screw shaft for adjusting the length and the screw shaft coupled to parallel to each installed hydraulic jockey.

In addition, the support frame further comprises a horizontal support coupling portion for coupling with the horizontal support is installed perpendicular to the support frame in the longitudinal direction of the pipe.

The apparatus may further include a pressure auxiliary unit having a pressure unit coupled to each hydraulic jockey of the hydraulic jockey unit and pressurizing the pipe in a bent form corresponding to the inclined surface of the pipe.

In addition, it is coupled to both sides of the support frame in pairs, the structure having two legs of the '' 'shape of each leg is adjustable in length and swivel holder is coupled to the end to prevent sagging and shaking of the pipe The stabilizer for the fluid blocking method further comprises a stabilizer.

The present invention has the effect that can be corrected by the pipe of the round shape deformed by earth pressure through the means for solving the above problems.

Furthermore, the calibrating of pipes has the effect of providing easy installation of fittings, complete ordering of the blocking heads, and an environment in which easy insertion and towing of the blocking heads can be achieved. By doing this, there is an effect that can prevent the falling out of the pipe or the slide.

1 is a view for explaining the cause of deformation in the underground pipe,
2 is a view for explaining a problem when the fluid blocking using the blocking head,
3 is a view conceptually showing the roundness device for fluid blocking method of the present invention;
Figure 4 is a view for explaining an embodiment of the circular device for fluid blocking method of the present invention,
5 is a view for explaining the installation position of the hydraulic jockey in accordance with the present invention for the fluid shut-off construction method,
Figure 6 is a view for explaining the correction of the pipe using the circular device for fluid blocking method of the present invention,
7 is a view for explaining an installation example of the epitaxial device for the fluid blocking method of the present invention,
8 is a view for explaining the horizontal support function of the circular device for fluid blocking method of the present invention,
Figure 9 is a view for explaining the pressurizing auxiliary portion of the present invention, the fluid shutoff method of the quarantine device;
10 is a view for explaining a stabilizer of the epicenter for the fluid blocking method of the present invention;
It is a figure for demonstrating the application example of the stabilizer of the epicenter device for fluid shutoff methods of this invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

3 is a view conceptually showing the quarantine device for the fluid blocking method of the present invention, FIG. 4 is a view for explaining an embodiment of the quarantine device for the fluid blocking method of the present invention, and FIG. Figure is for explaining the installation position of the hydraulic jockey according.

As shown in FIG. 3, the rounding device according to the present invention is made of a steel material and coupled to and separated from the support frame 10 and the support frame 20, which are coupled and separated in a frame shape surrounding the outside of the pipe. It consists of a hydraulic jockey portion 20 made of a hydraulic jockey.

The support frame 10 may have various shapes in addition to the shape shown in FIG. 3 in the form of a frame that can surround the outside of the pipe.

The support frame 10 is formed by bending, cutting and welding it in a required shape using an H beam or a square steel pipe to wrap it outside the pipe.

In particular, the support frame 10 is composed of one side frame 110 and the other side frame 120 to surround the pipe from the outside has a structure that is separated from the left and right.

 At this time, each coupling portion (J) of the one side frame 110 and the other side frame 120, as shown in Figure 4, the insertion portion 140 is inserted into the protrusion 130 and the protrusion 130 and It consists of a fastening means 150 for maintaining a coupling state of the protrusion 130 and the insertion portion 140.

The structure of the coupling portion J formed of the protrusion 130, the insertion unit 140, and the fastening means 150 stably stabilizes the coupling state of one frame 110 and the other frame 120 of the support frame 10. When the present invention is installed in the holding box and the pipe to facilitate the coupling and separation.

In addition, the support frame 10 has a length adjustment screw shaft 160 and the screw shaft 160 to be coupled in parallel with each of the hydraulic jockey 210 installed as shown in the Figure 4 the support frame 10 It further comprises a screw shaft mounting portion 170 for installing in.

The screw shaft 160 serves to move the position of the hydraulic jockey 210 itself as a way to increase the stroke length because the stroke length of the hydraulic jockey 210 is limited. Through this, it is possible to correct pipes of various sizes with the rounding device according to the present invention.

That is, the position of the hydraulic jockey 210 by moving the screw shaft 160 forward or retracted according to the size of the pipe to be corrected, and then pressurizes the pipe through the hydraulic jockey 210.

The screw shaft mounting portion 170 is a means for installing the screw shaft 160 to the support frame 10 and the screw shaft 160 and screw shaft mounting portion 170 coupled to the support frame 10 and Screw in. Therefore, the screw shaft 160 moves forward or retracts in accordance with the rotation of the screw shaft 160 with respect to the screw shaft mounting unit 170.

The hydraulic jockey portion 20 is made of a conventional hydraulic jockey 210 used for generating a large force in various fields, and is not limited to the hydraulic jockey of any specific structure or form.

3 to 5, the hydraulic jockey 20 has technical features in the number and position of the hydraulic jockey. The hydraulic jockey 20 has six hydraulic jockeys to face each other in pairs. It consists of 210.

That is, the hydraulic jockey 210 forming the hydraulic jockey 20 is installed in pairs so as to face each other inside the support frame 10, and is installed in the horizontal direction (0 °) based on the vertical cross section of the pipe 1. A pair of hydraulic jockeys 20-1, a pair of hydraulic jockeys 20-2 installed in a direction between -15 ° and -45 ° based on the horizontal direction, and a pair of hydraulic jockeys 20-2 installed in a direction between 15 ° and 45 ° It consists of a hydraulic jockey 20-3.

That is, two hydraulic jockeys are installed at the center in the horizontal direction so as to face each other, two hydraulic jockeys are installed at the top of the horizontal center reference, and two hydraulic jockeys are installed at the bottom.

Therefore, the hydraulic jockey part 20 pressurizes the pipe 1 in the range of 30 ° to 90 ° based on the cross-section of the left and right centers and the center of the center due to the hydraulic jockeys 210 installed as described above. The deformed tube is then corrected with a round tube.

In other words, the earth pressure is applied from the upper part of the pipe and the side part of the pipe that is pressed by pushing the side is pushed back so that the upper part and the lower part are restored again, so that the correction is made to the source.

In more detail, the calibration, as shown in Figure 6 for explaining the correction of the pipe using the fluid blocking device for the fluid blocking method of the present invention, the 900mm pipe and 700mm pipe that is pressed through the rounding device according to the present invention for correcting To explain the example, the pipe is pressurized by driving the hydraulic jockey 20 at the left and right portions of the pipe to correct the deformed pipe to the true circle as shown in FIG.

If the same device is used to calibrate the 700 mm pipe, the screw shaft 160 is rotated to move 100 mm in the center direction, and then the hydraulic jockey 20 is driven to press the pipe.

The rounding device according to the present invention described above is used as shown in the figure for explaining an installation example of the rounding device for the fluid blocking method of the present invention. Install the fluid shut-off device 4 to install the rounding device 5 according to the present invention at the point where the pipe 1 is to be blocked to correct the deformed pipe 1, and then install the fitting 2. The gate valve 6 and the fluid shutoff device 4 are installed.

Therefore, the insertion operation is smoothly performed as the blocking head 3 of the fluid shutoff device 4 is inserted into the pipe 1 corrected by the roundness, and then the dismantling operation of the blocking head 3 is also smoothly performed. In addition, fluid blocking using the blocking head 3 can be made completely.

In addition, the support frame 10 is installed vertically to the support frame 10 in the longitudinal direction of the pipe (1) as shown in the figure for explaining the horizontal support function of the circular device for the fluid blocking method of the present invention FIG. It may further include a horizontal support coupling portion 180 to be coupled to the horizontal support (7).

That is, as shown in FIG. 8, when the circular device 5 according to the present invention is installed in pairs, the horizontal support 7 is added between the two circular devices 5 so that the pipe 1 is pushed toward the empty space. prevent.

One end of the horizontal support 7 is coupled to the horizontal support coupling portion 180 added to the support frame 10 of the one side epicenter 5, and the other side of the horizontal support 7 of the other epicenter 5. One end is combined with the horizontal support coupling unit 180 added to the).

Such horizontal support 7 may be a general round bar or a cylindrical pipe, preferably, it is possible to adjust the length.

In addition, the hydraulic jockey portion 20 is coupled to each hydraulic jockey 210, as shown in the figure for explaining the pressure assisting portion of the epitaxial device for fluid blocking method of the present invention, corresponding to the inclined surface of the pipe. It further includes a pressure auxiliary unit 220 having a pressing unit 222 for pressing the pipe in a bent form.

Since the pressure assisting unit 220 has a limited stroke length of the hydraulic jockey 210, the stroke is increased by an additional length of the pressure assisting unit 220 having a predetermined length of the hydraulic jockey 210 as a means for increasing the stroke length. It has the same effect as lengthening.

In addition, by forming the pressing portion 222 having a curvature similar to the curvature of the outer diameter surface of the round, when the force applied to the pipe 1 by the hydraulic jockey 210, it is possible to apply a force evenly to a larger area.

Hereinafter, with respect to the stabilizer that is added to the epicenter device according to the present invention FIG. 10 is a view for explaining a stabilizer of the epicenter device for fluid blocking method of the present invention and FIG. 11 illustrates an example of the stabilizer application of the epicenter device for fluid blocking method of the present invention. It demonstrates with reference to drawings for following.

Stabilizer 30 is coupled to both sides of the support frame 10 in pairs (30L / R), the structure having two legs of the '''shape each leg 310 is adjustable in length and swivel end Holder 320 is coupled.

Accordingly, as shown in FIG. 10, the rounding device 5 to which the stabilizer 30 is added can prevent sagging of the pipe 1 and distribute the load applied to the pipe 1. . That is, when the pipe 1 is coupled to both sides of the source device 5 coupled to the pipe 1 and stably supports the pipe 1 floating on the ground, and the pipe shakes due to external impact or water shock in the pipe. Even during the work, the pipe area can be stably maintained.

In addition, the rounding device 5 according to the present invention installed in pairs in the pipes as shown in FIG. 11, by installing the horizontal support 7 together with the stabilizer 30, both the vertical direction and the horizontal direction stably pipe 1 ), The working area can be secured and the fluid shut-off method can be implemented without overwhelming the piping.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

1: Piping
2: fitting
3: blocking head
4: Fluid shutoff device
5: epicenter
6: gate valve
7: horizontal support
10: Support frame
20: hydraulic jockey
30: Stabilizer
110: one side frame
120: other frame
130: protrusion
140: insertion unit
150: fastening means
160: screw shaft
170: screw shaft mounting portion
180: horizontal support coupling
210: Hydraulic Jockey
220: pressurization auxiliary part
222: pressure unit
310: leg
320: Swivel Holder

Claims (6)

In the accessory device used to apply the fluid blocking method,
Support frame made of a steel material and coupled and separated in the form of a frame surrounding the outside of the pipe; And a pair of hydraulic jockeys installed in a horizontal direction (0 °) relative to a vertical cross section of the pipe inside the support frame, a pair of hydraulic jockeys installed in a direction between -15 ° to -45 ° based on a horizontal direction and 15 °. Comprising a pair of hydraulic jockey which is installed in the direction of ~ 45 °, the hydraulic jockey to pressurize the pipe in the range of at least 30˚ to 90˚ relative to the center of the horizontal direction;
The support frame
Composed of one frame and the other frame is separated into the left and right structure, each coupling portion of the one frame and the other frame is an insertion portion into which the protrusion and the protrusion is inserted and a fastening means for maintaining the engagement state of the protrusion and the insertion portion It further comprises a length adjusting screw shaft for coupling in parallel with each of the hydraulic jockey; and a screw shaft mounting portion for installing the screw shaft to the support frame;
And a pressure auxiliary part having a pressure part coupled to each of the hydraulic jockey parts to the hydraulic jockeys and pressurizing the pipes in a bent form so as to correspond to the inclined surface of the pipes. delete delete The method of claim 1, wherein the support frame
And a horizontal support coupler coupled to a horizontal support installed perpendicular to the support frame in the longitudinal direction of the pipe. delete The method of claim 1,
Coupled to both sides of the support frame in pairs, a structure having two legs of the '''shape of each leg is adjustable in length and stabilizer is coupled to the swivel holder at the end to prevent the sagging and shaking of the pipe; The rounding device for fluid blocking method further comprising a.

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