KR101815041B1 - Fluid Crossing Gate of Air Pressure Style and Method thereof - Google Patents

Abstract

The present invention relates to a blocking method without water outage using compressed air and a blocking apparatus without water outage using compressed air thereof. According to the present invention, the blocking apparatus without water outage using compressed air comprises: a punching unit formed on one side of a duct to insert the blocking apparatus without water outage into the duct; a body unit inserted into a hole formed on one side of the duct to have a partial arc on both sides, to form a half-arc when fastened with an auxiliary body unit, and to have a hose hole inside, through which a hose passes, being in a T shape to be fastened with a hinge unit on an end side in a center of the body unit; the auxiliary body unit fastened with the body unit to have a partial arc formed on one side of the body to from a half-arc; a tire-shaped sealed tube inserted into and fastened with the half-arc formed by the body unit and the auxiliary body unit fastened with each other to be fastened with a hose on one side to inject air; the hinge unit fastened on an end in a center of the body unit; a support shaft without water outage fastened with the hinge unit to rotate with the body unit; the hose fastened with the tube to pass through the hose hole of the body unit and to pass through the hinge unit and an internal hole of the support shaft without water outage, thereby being fastened with an air compressor; and a valve formed on one end of the hose passing through the support shaft without water outage to control an injection of air of the air compressor into the tube. The present invention is to provide the blocking method without water outage using compressed air and the blocking apparatus without water outage using compressed air thereof. which are able to block a fluid flowing in a duct by an expansion of an air tube, thereby having an excellent adherence and completely blocking without water outage.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a compressed air-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] Today, the real-time supply of tap water is important from a hygienic point of view, and the supply of uninterrupted constants is a very important part of apartment living or water-intensive industries. Accordingly, the present invention provides a bypass pipe for supply of the constant water by the pipeline so as not to interrupt the supply of the water supply, and is capable of repairing the leak portion and temporarily blocking a certain section of the pipeline for flushing in the pipeline. ≪ / RTI >

      The prior art related to the present invention is disclosed in Korean Patent Registration No. 10-1180455 (published on Mar. 09, 2012). 1 is a perspective view of an articulated box used in the conventional method of applying the endless water. The conventional method of applying endless water using the method shown in FIG. 1 is a step-and-hold method using a stepped-end module device that cuts a pipe through which a fluid flows and then induces a fluid. In detail, the lower end box for manufacturing and installing the lower box of the module having the end water module is installed according to the standard of the pipe. Then, the sandwich valve 120 is installed on the lower box and the valve plate 122 is pulled back to open. Thereafter, an upper cutting box is installed on the sandwich valve 120. Then, the cutting saw 140 using the hydraulic cylinder as a power source is moved up and down to cut the pipe, and the cut pipe is lifted up to the inside of the upper cutting box and removed. Then, the valve plate 122 of the sandwich valve 120 is pushed forward to shut off the fluid, and the upper cut box is dismantled. A fluid guide box is installed on the upper part of the lower box, which has been removed from the upper cutting box. One end of the induction pipe is connected to the induction valve of the fluid guide box. The other end of the induction pipe is connected to a pipe for supplying water. The induction valve of the guidance box is opened. Thereafter, the sandwich valve 120 is opened to allow the water of the side pipe to supply water to flow in the direction of the pipe through which the water is supplied through the induction valve and induction pipe through the lower box and the upper fluid guide box. Then, the barrier plate is lowered to block the cut portion of the cut tube on the side to which water is supplied. Usually, two articulated-end module devices are installed in a section to be constructed, and tube replacement work or public waterproofing work is performed between the sections. When the construction between the two articulated-end module devices is completed, The blocking plate is opened. After the sandwich valve 120 is shut off, the fluid guide box is removed. As a final step, the shield plate is inserted in place of the sandwich valve 120 and the sandwich valve 120 is removed.

In the conventional end-tapped construction method as described above, since the fluid is blocked by the valve plate, the adhesion between the pipeline and the valve plate is weak, resulting in leakage of water between the gaps. In addition, the conventional method of constructing the endless water as described above has a problem in that the construction is complicated and the manufacturing cost of the cut-off device is excessively increased. In order to solve the problems of the prior art as described above, the present invention provides a compressed air-type end-flow water shut-off device and an end-end water cut-off method using the same, which blocks the fluid flowing in the air channel through expansion of the air tube, . Further, another effect of the present invention is to facilitate interception and opening of the secondary end.

The compressed air type end water blocking device according to the present invention having the above-described object is provided with a perforation for inserting the end water blocking device into the inside of the pipe and a perforation formed on one side of the pipe, A body portion formed with a hose hole through which a hose passes and having a "T" shape, and a hinge portion being fastened to a center end side of the body portion; And a hose is connected to one side of the tire to form a tire to be inserted into a half-shell formed by fastening the body and the auxiliary body, A tube, a hinge portion to be fastened to the center of the body portion, and an endless resin fastened to the hinge portion and coupled to rotate with the body portion A hose connected to the tube, a hose passing through the hose hole of the body and passing through the hinge and passing through the inner end support shaft inner hole and fastened to the air computer, and a hose passing through the end support shaft And a valve for controlling injection of the air of the air compressor into the tube.

The compressed air-type end-tear-off device of the present invention having the above-described structure and the end-tear-off device using the same are capable of perfectly blocking the fluid due to the excellent adhesion because the tube expanding by air closely contacts the inside of the tear- . Further, another effect of the present invention is that the fluid can be effectively cut off by closely contacting the inner wall of the channel even if there is a step due to a foreign substance inside the channel. In addition, another effect of the present invention is that the cost can be reduced and the work can be performed in a short time due to the interruption of the end water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an articulated box used in a conventional method of end-
FIG. 2 is a schematic view of a tube-expanding transfer tube of the compressed air type end-
3 is a cross-sectional view of a tube-expansion front surface of a compressed air type end-
FIG. 4 is a perspective view of a tube-expanding strainer after compressed air type end-
5 is a cross-sectional view of the compressed air type end-flow cutoff device after the tube expansion according to the present invention.
FIG. 6 is a flowchart of a method for shutting off compressed air type end water according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like elements, and in which: FIG.

FIG. 2 is a schematic view of a tube-expanding transfer tube for a compressed air type end-effector according to the present invention. 2, the compressed air type end water blocking device of the present invention includes a cutoff device head 200 inserted into a channel through a perforation formed at one side of a channel 500, a hinge portion 300, and a support shaft 400 which is coupled to the hinge and rotates. The cutout device head 200 is inserted into the perforations 510 formed at one side of the channel, and the partial cutouts 221 are formed on the upper and lower sides to form the upper and lower halves when fastened to the auxiliary body 230. A body portion 220 formed with a hose hole 222 through which a hose passes and having a "T" shape, and a hinge portion 300 is fastened to the T-shaped center end side of the body portion, And an auxiliary body portion 230 having a partial arc 231 formed on the upper and lower sides of the body so as to form a semi-arcuate body. And a tube 240 into which air is injected by an air compressor connected to the hose. When inserted into the perforations formed in the channel, the blocking device head unit 200 configured as described above is inserted in a state in which it is rotated in a straight line with the supporting end support shaft 400, The hinge unit 300 can rotate the shield device head unit 200 by 90 degrees. In addition, the hinge unit 300 is configured as a pneumatic elbow.

3 is a cross-sectional view of the tube expansion front end of the compressed air type end water stop device of the present invention. 3, the compressed air type end water blocking device according to the present invention includes a perforation 510 formed at one side of a conduit for inserting a downstream end water blocking device into a conduit, And a hose hole 222 through which the hose 250 passes is formed therein. The hose hole 222 is formed in a "T" -shaped shape and is formed at the center end side of the body portion A main body 220 to which the hinge 300 is fastened and an auxiliary body 230 having a partial arc 231 formed at one side of the body so as to form a semi-arc, A tube 240 which is hermetically sealed in the formation of the tire to be inserted into the half shell formed by tightening the auxiliary body and the hose 250 is fastened to one side to be injected with air, A hinge unit 300, a hinge unit 300, A support shaft 400 coupled to the support shaft 400 to rotate with respect to the support shaft 400 and a support shaft 400 coupled to the support shaft 400 through the hinge unit 300, An air compressor 600 connected to the other end of the hose 250 and a hose passing through the one end support shaft, And a valve 700 for controlling the injection of the air of the lasher into the tube. In this case, when the air is not injected in the state before the air is injected, the air density inside the tube is low and the fluid flows into the tube, so that the tube is compressed and flattened.

FIG. 4 is a perspective view of a tube-expanding strainer of a compressed air type end-to-end water cutoff device according to the present invention. 4, when the air compressor is operated to blow air into the tube 240 of the end portion shielding device head unit 200, the compressed air type end water stopping device of the present invention operates to expand and expand the tube The tube is in close contact with the inner wall of the conduit 500, so that the fluid can be effectively blocked.

5 is a cross-sectional view of the compressed air type end-tapped water shut-off device after the tube expansion according to the present invention. 5, the compressed air type end water blocking device according to the present invention includes a perforation 510 formed at one side of a conduit for inserting a downstream end water blocking device into a conduit, And a hose hole 222 through which a hose passes is formed. The hose hole 222 is formed in a shape of "T" and has a hinge portion at the center of the T- A main body part 220 to which the main body part 300 is fastened and an auxiliary body part 230 having upper and lower partial arcs 231 formed on one side of the body so as to form a half- A tube 240 which is hermetically sealed in the tire formation to be inserted into the half-shell formed by fastening the body part and which can be inflated and inflated by an air compressor connected to the hose at one side and connected to the hose, Che A support shaft 400 coupled to the hinge unit 300 and coupled to the hinge unit so as to be pivotally coupled to the hinge unit; A hose 250 which passes through the support 300 and passes through the inner shaft of the support shaft and is fastened to the air compressor, an air compressor 600 connected to the other end of the hose, And a valve 700 that is formed in the hose and controls injection of the air of the air compressor into the tube.

FIG. 6 is a flowchart of a method for shutting off compressed air type end water according to the present invention. 6, the method of the present invention includes a step S11 of inserting a cutoff device head portion coupled to a support shaft of a cut end of a perforated line formed at one side of a conduit into a conduit, a step S11 of inserting the cutoff device head into the conduit, (S12) opening the valve formed in the hose and driving the air compressor connected to the tube of the shutoff device head and the hose, (S14) of injecting air into the tube while increasing the air pressure of the air compressor until the tube of the shielding device head is expanded and brought into close contact with the inside of the duct, And a step (S15) of crossing the valve when the expanded tube is in close contact with the inner wall of the conduit to complete the fluid flow interruption The. The reference air pressure to be injected by the air compressor is determined based on the hydraulic pressure of the fluid inside the pipe. The above-mentioned interception of the fluid flowing in the pipeline is performed by interrupting the end portion at both sides of the pipeline of the pipeline work section and performing valve replacement and rehabilitation work within the work section.

200: blocking device head part, 220: body part,
230: auxiliary body part, 240: tube,
250: hose, 300: hinge portion,
400: support shaft, 500: channel,
600: air compressor, 700: valve

Claims (6)

delete delete delete delete CLAIMS What is claimed is: 1. A compressed-air-based end-to-end water cut-off method for a sub-
The compressed air type end water blocking method for the end water of the pipe
And a hose hole 222 through which a hose passes is formed. The hose hole 222 is formed in a "T" -shaped shape. The hose hole 222 is formed in the center of the T- An auxiliary body portion 230 having upper and lower partial arcs 231 formed on one side of the body so as to be coupled to the body portion to form a half shell, And a tube 240 which is airtightly inflated by an air compressor connected to the hose and is connected to the hose at one side of the hermetically sealed tire to be inserted into a half- (S11) of inserting the water into the pipe through a perforation formed on one side of the pipe which is rotated in a straight line with the water support shaft;
(S12) of tilting one end of the supporting shaft, which is fastened to the head of the shielding apparatus, with the hinge unit as an axis, in a state where the shielding device head unit is inserted into the duct,
(S13) opening the valve constituted in the hose in a state in which the blocking device head is rotated by 90 degrees by the hinge part, driving the air compressor connected to the tube of the blocking device head part and the hose to inject air into the tube;
(S14) injecting air into the tube while increasing the air pressure of the air compressor until the tube of the blocking device head is expanded and brought into close contact with the inside of the pipe;
And closing the valve when the expanded tube is in close contact with the inner wall of the conduit and completing the fluid flow interruption (S15).
6. The method of claim 5,
The air pressure of the air-
Wherein the pressure is determined based on the hydraulic pressure of the fluid in the pipe.

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