KR100891035B1 - Pipe for prevention of stopping water supply including cover with check valve - Google Patents

Abstract

A knife stopping water pipe including a check valve type sealing cover is provided to simplify the combining processing of a sealing cover and branch unit. A knife stopping water pipe including a check valve type sealing cover comprises: a lower part contacting to the diameter surface of piping in order to surround the piping; a top unit including a branch unit(12); a sealing cover hermetically sealing the branch unit; an equipment combining unit formed in the end external diameter of the branch unit; and a sealing cover combining unit combining with the sealing cover is formed in the end inside diameter of the branch unit.

Description

Activation pipe for water pipe including check valve type sealing cover {PIPE FOR PREVENTION OF STOPPING WATER SUPPLY INCLUDING COVER WITH CHECK VALVE}

The method of the present invention includes a check valve type closed type active pipe for the sub-water method, which is used in the sub-water method using a fluid blocking device for piping, and the lower part and the branch part which are in contact with the outer diameter surface of the pipe and surround the pipe. It is formed of a closed cover for sealing the upper portion and the branch formed, and forms an equipment coupling portion in the outer diameter of the end of the branch portion to be combined with the device used according to the process of the sub water-cutting method, the seal in the terminal inner diameter of the branch portion The present invention relates to an active magnet tube that forms an airtight cover coupling part to be coupled to a cover to be closed by being coupled to the airtight cover, and more particularly, to a structure of the airtight cover and a coupling form of the branch and the airtight cover.

First, the description of the second step method, as shown in the drawings for explaining the existing single step method of the conventional pipe replacement method, such as a water supply pipe as shown in Figure 1 (a) is a part of the replacement work section Despite being a section, as the dividing of the replacement work section is possible only by the fresh water valve 1 and the fresh water valve 2, there is a problem in that the whole section is not a replacement work section, as shown in FIG.

Since the separation valve is usually 1km to 3km, there is a problem in that the number of inhabitants is considerably wider, causing the inconvenience of living due to the number of people and damage to living. In addition, there is a problem of increasing the number of sections or increasing the replacement work time due to the defective order and the poor operation of the distillation valve, and thereby the inconvenience and damage caused by the increase in the number of hours.

In order to solve this problem, as shown in the figure for explaining the concept of the secondary water method as the secondary water method, as shown in the drawings, the fluid blocking device for piping is installed on both sides for the order of the replacement work section. do. That is, the fluid blocking device for the pipe serves as a dilution valve, so that only the replacement work section is cut as shown in FIG. 2 and the other regions are not affected.

Due to this feature, the water cutting method can be cut to a minimum section only, and can work independently of the previously installed distillation valve, thereby reducing the replacement time of the pipe, and various problems of the conventional water cutting method. Solve.

Specifically, when describing the work process according to the water-refining method, as shown in the figure for explaining the process of the water-refining method is installed in the pipe adjacent to the work area installation replacement work section is installed (S1) that is 4 shows the upper part 10 and the lower part 20 in which the branch part 12 is formed in the pipe 1, as shown in (a) of the drawing for explaining the installation of the active pipe and the dilution valve. Install as described above and combine the upper portion 10 and the lower portion 20 using a coupling means such as bolts or nuts. The combination of the upper portion 10 and the lower portion 20 constituting such a bowel pipe is installed on the pipe (1).

Subsequently, the dividing edge 2 is installed at the branch portion 12 of the upper portion 10 of the bowel tube (S2), that is, as shown in FIG. 4 (b), the upper portion 10 of the pipe 1. ) And the lower part 20 is installed on the dividing part 12 as shown in the state where the dividing side 2 is installed, and the coupling is coupled by a coupling means such as a bolt or a nut. Therefore, according to the opening and closing of the dividing valve 2, the sperm tube can be closed and opened repeatedly.

As shown in FIG. 4 (b), after the dividing edge 2 is installed at the branch portion 12 of the upper portion 10 of the active magnet pipe, a diagram for explaining the installation and drilling process of FIG. 5 is provided. As shown in FIG. 3, the drilling device 3 is combined with the dividing edge 2 to drill holes in the pipe 1.

That is, as shown in FIG. 5 (a), the drilling device 3 for forming a hole in the pipe 1 is coupled with the dividing edge 2, and the drilling device 3 as shown in FIG. 5 (b). Perforations are formed in the pipe (1) using. Subsequently, the drilling device 3 is removed by closing the dividing edge 2 as shown in FIG. 5 (c) to close the branch 12 of the bowel tube and as shown in FIG. 5 (d). Remove the drilling device 3 coupled to 2).

After the punching operation using the punching device 3 is completed by the method as shown in FIG. 5, the punching device 3 is removed and the pipe fluid shutoff device 4 is installed therein. And it is installed as shown in the drawings for explaining the fluid blocking process, (S4) by using the installed fluid blocking device for the pipe 4 is sealed in one direction of the pipe 1 to block the fluid. (S5 )

That is, as shown in Fig. 6 (a), the fluid blocking device 4 for piping is installed in the dividing valve 2 in the closed state, and then the dipping valve 2 is opened as shown in Fig. 6 (b). . As a result, a space in which the fluid blocking part of the pipe fluid shutoff device 4 can be inserted into the pipe 1 is formed, and as shown in FIG. 6C, the fluid shutoff part of the pipe fluid shutoff device 4 is connected to the pipe. (1) It is inserted into to block the fluid in one direction.

In this way, the operation of replacing the pipe in the section in which the fluid is blocked.

When the replacement of the pipe is completed, as shown in the figure for explaining the removal of the fluid blocking device for the pipe and the sealing cover coupling, remove the pipe fluid blocking device (4), the sealing cover for coupling the sealing cover Install a sealed cover coupling device (5) to which (30) is attached. (S7)

Thereafter, the sealing cover 30 is coupled to the branch portion 12 through the sealing cover coupling device 5 to seal the bowel tube.

That is, as shown in Fig. 7 (a), after taking in the fluid blocking part of the fluid blocking device 4 for piping, the dividing valve 2 is closed. Thereafter, the sealing cover 30 is coupled to the dividing side 2 with the sealing cover coupling device 5 attached thereto as shown in FIG. 7B, and the dividing side 2 is opened.

The water rises up to the sealing cover coupling device 5 by the opening of the dilution valve 2, and uses the sealing cover coupling device 5 to slide the sealing cover 30 as shown in FIG. 7 (c). It is coupled to the upper branch of the (12).

As a result, the branch portion 12 of the bowel tube is sealed by the sealing cover 30, and when the sealing is completed in this way, as shown in FIG. 7 (d), the dilution valve 2 and the sealing cover coupling device ( 5) Remove.

As described above, the sub-stage method has a minimum number of stages as compared to the conventional single-stage method, and can work independently of a previously installed distillation valve and has an effect of reducing the time required for replacing pipes. This has the effect of solving the problem you had.

However, in the case of a bowel pipe used in the conventional water-retaining method, there is a problem in that the coupling between the branch and the sealing cover of the bowel pipe is not easy.

That is, as shown in the figure for explaining the combination of the conventional cover and the branch of the gasket and the sealing cover of the conventional sealing cover 30 is in contact with the branch 12 in the installation line (H1). The sealing start line (H2) can be lowered without a great resistance, but from the sealing start line (H2) to the sealing completion line (H3), the sealing cover 30 starts the sealing of the branch 12, the sealing cover (30) There is a problem that it is quite difficult to combine by lowering the sealing cover 30 to the sealing completion line (H3) because it receives the water pressure itself. This problem occurs because the larger the diameter of the pipe, the greater the hydraulic pressure.

In more detail, as shown in (a) of FIG. 9 for explaining the coupling of the branch and the sealing cover of the bowel tube in detail, the sealing cover 30 is attached to the dividing cover 2 in the closed state. The cover coupling device 5 is coupled, and the height of the airtight cover 30 becomes the installation line H1. Then, when the dividing side 2 is opened, as shown in FIG. 9 (b), water rises up to the sealing cover coupling device 3, and the water pressure is received by the sealing cover coupling device 3 to install the sealing cover 30. It can be easily lowered by using the sealing cover coupling device 5 from the line (H1) to the sealing start line (H2), as shown in Figure 9 (c) the sealing cover 30 is a branch 12 Since the sealing cover 30 itself receives water pressure from the sealing start line (H2) to start the sealing by combining with) it becomes difficult to couple the sealing cover 30 to the branch portion (12). As a result, a large hydraulic pressure difference occurs around the sealing cover 30.

In order to solve this problem, as shown in FIG. 9 (d), gas is injected into the closed cover coupling device 5 at a high pressure to reduce the pressure difference, thereby facilitating the coupling to the sealed completion line H3. The same method is useful in places where the pressure difference is small, but does not exert great effects in places where the water pressure is strong, such as large pipes, and there is a problem that may cause an accident due to high pressure gas.

The method of the present invention includes a check valve type closed cover type active pipe for the water-retaining method, which is designed to solve the problem caused by the difficulty of coupling the closed cover and the branch part due to the structure of the conventional closed cover as described above. It is an object of the present invention to provide a device capable of easily engaging a sealing cover to a branch without injection.

As a problem solving means for achieving the problem to be solved by the present invention as described above, the lubrication tube for the part-water method including the check valve type airtight cover of the present invention is connected to the part-water method using a fluid shutoff device for piping. Applied to the outer diameter of the pipe wraps around the pipe and the lower part and the branch formed in order to seal the coupling and the sealing cover for sealing the branch, and forming a device coupling portion in the terminal outer diameter of the branch portion of the In the gypsum tube which is combined with the apparatus used in accordance with the process in the process, and formed in the end inner diameter of the branch portion to form a sealing cover coupling portion to be combined with the sealing cover to be combined with the sealing cover,

The closed cover is characterized in that the check valve type closed cover including a check valve for relatively reducing the pressure difference when combined with the branch.

That is, the present invention includes a check valve for draining the sealing cover itself in a process in which the sealing cover is coupled to the branch to reduce the pressure difference in order to solve the difficulty of coupling the branch and the sealing cover by the hydraulic pressure difference. It features.

At this time, the check valve type sealing cover forms a check valve insertion groove for inserting and installing the check valve in the center of the cover, the drain hole for draining the water flowing through the check valve insertion groove and the check valve; Characterized in that the pressing projection through-holes through which the pressing projection for opening the check valve is formed.

In addition, the coupling of the branch portion and the check valve type sealing cover is a screw thread formed on the inner surface of the engaging portion of the branch portion, the thread corresponding to the thread formed on the inner surface of the coupling portion on the outer surface of the check valve type sealing cover. It characterized in that the screw is coupled to each other, wherein the check valve type closed cover is formed in the center of the sealed cover to form a check valve insertion groove for inserting and installing the check valve, the check valve insertion groove penetrates the check And a pressurizing protrusion through-hole through which a pressurizing protrusion for opening the check valve and a drain hole for draining water introduced through the valve.

That is, the technical characteristics of the screw coupled by a screw thread formed between the branch and the check valve type sealing cover, wherein the check valve type sealing cover has a check valve insertion groove so that the check valve is inserted into the center of the sealing cover. And a drain hole and a push-through hole communicating with the check valve insertion groove.

In addition, forming a side coupling groove in the coupling portion of the branch comprises a coupling screw coupled thereto, and forming a screw engaging groove along the side of the check valve type sealing cover, the coupling coupled to the side coupling groove And a screw is inserted into the screw locking groove to be coupled to each other. In this case, the check valve type sealing cover forms a check valve insertion groove for inserting and installing a check valve in the center of the sealing cover, and the check valve insertion groove. And a pressurizing protrusion through hole through which a drain hole for draining water introduced through the check valve and a push protrusion for opening the check valve.

That is, the technical features that the branch portion and the check valve type sealing cover is mutually coupled by a coupling screw coupled from the side, wherein the check valve type sealing cover is a check valve so that the check valve is inserted into the center of the sealing cover Forming an insertion groove, it is characterized in that to form a drain hole and a push-through hole through the check valve insertion groove.

At this time, the check valve type sealing cover is characterized in that the packing groove is located at the lower end of the screw engaging groove, the inner diameter surface of the branch portion corresponding to the packing groove has a tapered shape that narrows downward diameter.

According to the technical features of the present invention as described above, when the branch and the sealing cover are combined, the branch and the sealing cover are combined by correcting the hydraulic pressure difference by a check valve without a separate operation such as high pressure gas injection for the correction of the hydraulic pressure difference. The work itself is easy, and the effect is particularly applicable to large pipes with large hydraulic pressures, and it is effective to secure safety and reduce working time by not requiring work such as injection of high pressure gas.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe specific embodiments for carrying out the present invention. However, the present invention is not limited to the following embodiments, and is generally used in the art. Those skilled in the art can implement the present invention in various other forms without departing from the technical spirit of the present invention.

10 is a view for explaining the role of the check valve closed cover of the present invention, Figure 11 is a view for explaining a preferred embodiment of the check valve closed cover of the present invention, Figure 12 is a check valve closed cover and the branch of the present invention It is a figure for demonstrating the form which mutually couples by the coupling screw couple | bonded from the side.

As shown in FIG. 10 (a), the check valve type sealing cover 40 includes a check valve 45 and is attached to the sealing cover coupling device 5. The closed cover coupling device 5 has a structure that can be attached to the check valve type sealing cover 40 by a screw thread method or a magnet method, so that the check valve 45 is opened in the attached state. It has a structure including a pressing protrusion.

That is, as shown in FIG. 10 (a), the check valve 45 is opened in the state in which the airtight cover coupling device 5 is attached.

In this case, the check valve 45 is not limited to a check valve having any particular structure or shape, and is a check valve having a conventional concept that can normally open and close the valve from the outside.

Subsequently, when the dividing side 2 is opened as shown in FIG. 10 (b), water flows into the sealing cover coupling device 5 and the sealing cover coupling device 5 receives water pressure.

Therefore, the installation line H1 to the seal start line H2 are not significantly different from the conventional seal cover 30 shown in FIG. 9, but as shown in FIG. 10 (c), the seal is completed from the seal start line H2. Unlike the conventional closed cover 30 while the inflow of water is blocked while moving to the line (H3), the check valve type closed cover 40 has a water continuously through the check valve 45 into the sealed cover coupling device (5) As shown in FIG. 9, the conventional hermetic cover 30 directly receives water pressure due to the pressure difference due to the movement of the hermetic cover, whereas the check valve type hermetic cover 40 of the present invention has a check valve 45. Water is introduced into the sealed cover coupling device (5) to reduce the water pressure differential, thereby easily moving (falling) to the sealed completion line (H3) and engaging with the branch portion (12).

Thereafter, as shown in (d) of FIG. 10, after the check valve type sealing cover 40 is completely coupled to the branch 12, the sealing cover coupling device 5 and the check valve type sealing cover 40 are removed. When separated, the check valve 45 is closed as shown, and the branch 12 is sealed by the check valve type sealing cover 40.

The check valve type sealing cover 40 having such a technical feature has a check valve inserting groove 41 for inserting and installing the check valve 45 in the center of the sealing cover as shown in FIG. And a drain hole 42 through which the check valve insertion groove 41 penetrates and drains the water introduced through the check valve, and a push protrusion through hole 43 through which the push protrusion for opening the check valve passes. It is desirable to.

The check valve type sealing cover 40 shown in FIG. 11 forms a thread 44 on the inner side of the coupling portion of the branch 12 as shown in FIGS. 10 to 11, and the check valve type sealing cover 40 is closed. The check valve 45 is inserted into the check valve type sealing cover 40 having a structure in which a screw thread 44 corresponding to the screw thread 44 formed on the inner surface of the coupling part is formed on the outer surface of the cover and is screwed together. It is preferable that the check valve insertion groove 41 is formed below, and forms a pressing protrusion through hole 43 in the center where the pressing protrusion for pressing the check valve 45 is inserted in the center thereof, and the check valve insertion groove is formed around the check valve insertion groove 41. It is preferable to form two to six drain holes 42 therethrough.

In addition, after the check valve 45 is inserted and installed, the check valve 45 is coupled with the check valve type sealing cover 45 and fixed by fixing means for fixing the inserted check valve 45. For example, as shown in FIG. 12B, a donut cover covering the edge of the check valve 45 and the donut cover with the check valve 45 in the state where the check valve 45 is inserted into the check valve closed cover. The check valve 45 is inserted into the check valve insertion groove 41 and fixed by fixing means 45-1 made of a screw to engage.

In addition to the screw coupling described in Figures 10 to 11 described above in another preferred coupling form as shown in FIG. 12 to form a lateral coupling groove 14 in the coupling portion of the branch portion 12 is coupled to the coupling Comprising a screw 16, and forming a screw engaging groove 46 along the side of the check valve type sealing cover 40, the coupling screw 16 coupled to the side coupling groove 14 is the screw locking It is inserted into the groove 46 and mutually coupled.

Specifically, when explaining the structure of the branch portion 12, as shown in Figure 12 (a) to form a plurality of side coupling grooves 14 as shown in the coupling portion of the branch portion 12 and coupled thereto Engage the screws (16).

At this time, the coupling screw 16 may use a conventional screw, but it is preferable to use a column-shaped screw coupled to a tool such as a wrench without a screw head as shown.

As shown in FIG. 12B, when the packing groove 47 is located at the lower end of the screw catching groove 46, the inner diameter surface of the branch 12 corresponding to the packing groove 47 may be formed. It is preferable that 12-1) has a tapered shape whose diameter is narrow below. This is to increase the sealability when the packing 50 inserted into the packing groove 47 at the time of coupling is inserted into the branch 12 of the check valve type sealing cover 40 as shown in Fig. 12 (c). to be.

As shown in FIG. 12 (b), the check valve type sealing cover 40 inserted into and coupled to the branch 12 is screwed along the side of the check valve type sealing cover 40 ( 46). The screw catching groove 46 is formed as shown in FIG. 12 (b), and as shown in FIG. 12 (c), after the insertion with the branch 12 is completed, The role of providing a space in which the combined coupling screw 16 can be inserted, and when the coupling screw 16 is inserted, the check valve type sealing cover 40 is caught by the engagement screw 16. 12).

At this time, the packing groove 47 into which the packing 50 is inserted is preferably formed at the lower end of the screw catching groove 46 as shown in FIG.

As shown in FIG. 12 (c), the combination of the branch 12 as shown in FIG. 12 (a) and the check valve type sealing cover 40 as shown in FIG. 12 (b) is performed. After the check valve sealing cover 40 is inserted into the branch 12, the coupling screw 16 is screwed into the check valve sealing cover 40 through the side coupling groove 14 of the branch 12. The insertion is completed by the engaging groove 46 is completed.

1 is a view for explaining an existing singular construction method,

2 is a view for explaining the concept of the division method;

3 is a view for explaining a step of the step-by-step method;

4 is a view for explaining the installation of the bow and the combination of the dividing valve;

5 is a view for explaining the installation and drilling process of the drilling apparatus,

6 is a view for explaining the installation and fluid blocking process of the pipe fluid blocking device,

7 is a view for explaining the removal of the fluid blocking device for piping and the sealing cover coupling

8 is a view for explaining the combination of the sealing cover and the branch of the conventional sealing cover and the bowel tube;

9 is a view for explaining in detail the coupling of the branch and the sealing cover of the bowel tube;

10 is a view for explaining the role of the check valve type closed cover of the present invention;

11 is a view for explaining a preferred embodiment of the check valve type closed cover of the present invention;

12 is a view for explaining a form in which the check valve type sealing cover and the branch portion of the present invention are mutually coupled by a coupling screw coupled from the side.

*** Explanation of reference numerals for the main parts of the drawing ***

1: piping 2: dike side

3: drilling device 4: fluid blocking device for piping

5: sealing cover coupling device

10: upper side 20: lower side

12: branch portion 14: side coupling groove

16: Coupling Screw

30: airtight cover

40: check valve sealing cover 41: check valve insertion groove

42: drain hole 43: push-through hole

44: thread 45: check valve

46: screwing groove 47: packing groove

50: Packing

Claims (5)

It is applied to the water cutting method using a fluid blocking device for piping, and consists of a sealing cover for sealing the upper part and the upper part formed with a lower part and a branch part to surround and join the pipe in contact with the outer diameter surface of the pipe, The equipment coupling part is formed at the distal end diameter of the branch part to be combined with the apparatus used according to the process in the sub-stage method, and the sealing cover is formed at the end inner diameter of the branch part to form a sealing cover coupling part to be combined with the sealing cover. In the sperm tube is sealed by combining, The sealing cover is a check valve type sealing cover including a check valve type sealing cover comprising a check valve for relatively reducing the pressure difference when combined with the branch; The method of claim 1, wherein the check valve type sealing cover A check valve insertion groove for inserting and installing a check valve in the center of the sealing cover, a drain hole for draining water flowing through the check valve through the check valve insertion groove, and a push protrusion for opening the check valve. And a check valve type sealing cover for forming a pressurizing penetrating through hole, wherein the lubrication tube for the cutout method is characterized in that it comprises a cover. According to claim 1 or 2, wherein the combination of the branch and the check valve type sealing cover is Forming a screw thread on the inner surface of the engaging portion of the branch, and forming a screw thread corresponding to the screw thread formed on the inner surface of the engaging portion on the outer surface of the check valve type sealing cover to mutually screw the check valve; Slide type pipe for part number method including type sealing cover. The method of claim 1 or claim 2, wherein the combination of the branch and the check valve type sealing cover is And a coupling screw coupled thereto by forming a lateral coupling groove at the coupling portion of the branch, and forming a screwing groove along the side of the check valve type sealing cover, and coupling screw coupled to the lateral coupling groove. Inserted into the threading groove and coupled to each other; a check valve type lubrication tube including a check valve type sealing cover, characterized in that the. The method of claim 4, wherein The check valve type sealing cover has a packing groove located at a lower end of the screw locking groove, and the inner diameter surface of the branch portion corresponding to the packing groove has a tapered shape of which the diameter is narrowed downwardly. Bower pipes for part-time construction including sealing covers.

Images