KR102177220B1 - Construction method of complex pipe and home pipe with improved reinforcement responsiveness - Google Patents

Abstract

The present invention relates to a method for constructing a complex pipe and a household pipe with improved reinforcement responsiveness, which can simply and rapidly assemble a sewer pipe and a complex pipe while enhancing durability by reinforcing the strength of a fluid inlet part of the complex pipe connecting a main pipe, can fasten a connection part of the complex pipe and a household pipe by a packing to increase watertightness and improve performance, and can monitor whether the conduit is abnormal in real time, and to a method for maintaining and managing a household pipe. According to the present invention, the complex pipe with improved reinforcement responsiveness includes a main pipe, such as water supply, sewage, rainwater, wastewater, and fluid pipes, a complex pipe connected to the main pipe, an installation part for connecting and fixing the complex pipe to the main pipe, and a connection socket for connecting a household pipe to the complex pipe. Therefore, the main pipe and the complex pipe are easily installed to have excellent constructability, such that a construction period can be shortened to reduce construction costs.

Description

Construction method of complex pipe and home pipe with improved reinforcement responsiveness}

The present invention relates to the maintenance of complex pipes and household pipes, and more particularly, reinforcing structural rigidity of complex pipes, improving fast installation and connection structure with household pipes, and real-time monitoring for water supply pipes, sewage pipes, wastewater pipes, other oil pipes, etc. It relates to a method of constructing complex pipes and home pipes with improved reinforcement response applicable to pipe installation and management companies that construct and manage pipes, and pipe maintenance methods of home pipes.

In general, pipes (PIPE: pipes) used to transport fluids or gases are used in various fields including various industrial facilities, water supply and sewage facilities, and various pressure piping facilities, and are made of metal or non-metal (synthetic resin) material depending on the material. Molding is being manufactured.

Pipes (pipes) installed for various purposes in various industrial sites are used to distribute fluid or gas transferred from the main pipe (pipe) to branch pipes (branch pipes) or branch pipes (branch pipes) when transferring fluid or gas. In order to collect the fluid or gas supplied from) into the main pipe, a branch pipe (branch pipe) is connected (connected) to the main pipe.

As described above, the conventional technology related to the branching of the pipe includes a branch branch pipe socket attachment device, a branch pipe connection clamp, a joint (connecting member) between the main sewer pipe and the branch sewer pipe, branch pipe for pipe, watertight branch device for PVC DC. Etc. are known.

Particularly, as the conventional technology related to the branch pipe connector according to the present invention, the branch branch pipe socket attachment device of the domestic utility model 30-159689 and the branch branch pipe socket attachment device of the registered utility model 30-307725 and the registered patent An elastic hinge-type double-walled pipe branch of 10-696448, a branch pipe connector of Patent No. 10-772118, and a branch pipe connector of Registration Patent No. 10-772118 are known.

Each branch branch pipe socket attachment device of the registered utility model No. 30-159689 and the registered utility model No. 30-307725 is connected by inserting an inner washer with a wing piece formed at the lower circumference of the vertical pipe into the inlet hole drilled in the main pipe from the inside to the outside However, the vertical pipe body is connected so that it is exposed to the outside through the inlet hole, and the cover plate (lower side) is integrated at the lower circumference of the connecting pipe body (protrusion frame) in the vertical pipe body of the inner and siamese pipe protruding outward of the main pipe through the inlet hole The branch branch pipe socket is inserted and connected, and in the state in which the branch branch pipe socket is connected, the vertical pipe body of the inner washer and the connecting pipe body (protrusion frame) of the branch branch pipe socket are fastened with bolts to be integrated. It is to be installed by inserting (combining) the end of the connecting plate (branch pipe) into the tube body (protrusion frame).

However, these are inferior in watertightness between the branch pipe socket and the main pipe, and cannot be maintained, and the inner washer (vertical pipe body) and the branch branch pipe socket (connecting pipe body: protruding frame) are connected by bolts to perform the work quickly and easily. Because it cannot be done, the work efficiency of installing the connecting plate (branch pipe) decreases.

In addition, since the inner washer with the wing piece formed on the lower circumference of the vertical pipe is divided left and right and is connected by a hinge (hinge), when it is coupled to the inlet hole drilled in the main pipe, the coupling force and the sealing force fall, so this is a device that can reinforce it. (Means) must be added inevitably, and thus the configuration and workability become complicated, resulting in a decrease in work efficiency.

In addition, since the inner washer and the branch branch pipe socket are fastened with a plurality of bolts, there is a hassle of using a separate bolt tightening tool, and the connection surface between the inner washer and branch branch pipe socket is narrow, so the compression force (sealing force) When the bolt is tightened with excessive force, the male screw portion of the bolt is worn or damaged by the female screw portion of the inner washer, and the tightening force decreases.

In the case of connecting the complex pipe to the sewage pipe according to the prior art, the fastening structure is complicated and time-consuming.

In addition, when connecting a household pipe installed in a home with a small diameter to a conventional complex pipe, the gap due to the difference in the diameter of the connection portion is packed with general concrete, and cracks and separation phenomena occur in the old water channel, causing leakage. There was this.

In addition, according to the related art, when the connection between the complex pipe and the household pipe is packed with concrete, it is easily damaged and difficult to replace when the ground behavior or a slight earthquake occurs.

Due to this, the strength of the flow velocity inlet of the complex pipe is reinforced to increase durability, and the sewer pipe and the complex pipe can be assembled simply. The connection part of the household pipe connected to the complex pipe is simplified and watertight is increased, and it can respond without being damaged by external force. There is an urgent need for an improved connection structure of complex pipes and an improved maintenance method that can inspect each pipe in real time and monitor deformation and breakage in real time.

Registration No. 10-0836834 (Complex pipe for sewage pipe connection) Publication number 10-3008-0033131 (branch pipe connection)

The present invention has been devised to solve the above problems, and it is possible to increase durability by reinforcing the strength of the flow velocity inlet of the connection socket connected to the main pipe, and the installation of the main pipe and the connection socket is easy, so that the construction is excellent. The purpose of this study is to provide a method for constructing complex pipes and home pipes with improved reinforcement response that can shorten the construction period, and a method for maintaining pipe lines for home pipes.

In addition, another object of the present invention is to adopt a structure that can be easily separated when installing a connection socket on the main pipe, so that the replacement work is simple and only a bolt fastening tool is required to increase handling.

In addition, another object of the present invention is to improve the airtightness of a connection portion caused by a difference in diameter between a connection socket and a household pipe.

In addition, another object of the present invention is to form a connection socket made of a material having corrosion resistance and ductility to respond to the behavior of a complex pipe or a household pipe.

On the other hand, another object of the present invention is to be able to detect the main pipe, the connection socket, the home pipe in real time, so that the current state can be easily grasped and initial response is possible.

The complex pipe with improved reinforcement response according to an embodiment of the present invention forms a connection hole in the main pipe such as water, sewage, rainwater, wastewater, and fluid, and the complex pipe inserted into the connection hole, the main pipe and the complex pipe The clamping and airtightness to fix the position, the installation part to fix it, the connection socket to increase the airtightness and fluidity by wrapping the connection part connecting the housing pipe and the household pipe installed in the home at a specific angle, and the installation part is fitted in the lower inner surface of the complex pipe A reinforcing pipe, and a reinforcing ring installed on the lower side of the reinforcing pipe to support stress due to deformation of the complex pipe and rapid flow velocity, and a reinforcing ring having improved reinforcement response is provided.

In the construction method of a complex pipe installed in the main pipe such as water, sewage, rainwater, wastewater, and fluid, and a home pipe connected to discharge various wastewater or rainwater generated in the home, the connection of the main pipe constructed by excavating the ground A socket installation step of inserting and installing one end of the complex pipe into the hole, and after passing through the socket installation step, a sealing part installation step of inserting and installing the sealing part outside the complex pipe in the order of the sealing ring and the support ring of the sealing part, the sealing part After the installation step, the upper end of the clamp part is passed through a through hole formed in the complex pipe, and the lower end is a clamp part installation step that supports the lower end of the complex pipe inserted into the interior of the main pipe and the inner surface of the main pipe, After the clamping part installation step, the fixing part installation step of tightening the bolt of the fixing part to the upper end of the clamp part to pressurize the support ring to compress the sealing ring to seal the contact part between the connection hole of the main pipe and the complex pipe, After going through the fixing part installation step, a home pipe installation step of inserting and fastening a home pipe at the second connection end of the connection socket, and after the home pipe installation step, the main pipe, the complex pipe connection structure, and the embedding step of burying the home pipe. Provide construction method.

In the method of maintaining a pipe line of a complex pipe installed in a main pipe such as water, sewage, rainwater, wastewater, and fluid, and a household pipe connected to discharge various wastewater or rainwater generated at home, the main pipe, the complex pipe, and the household pipe The location information signal acquisition step of receiving power from a solar cell installed on the ground to provide the initial construction location and real-time location information, and receiving wireless signals from the observatory through the first, second, and third transmitters, respectively. After going through the information signal acquisition step, if an abnormal signal is detected among the transmission signals of the 1st, 2nd and 3rd transmitters is a public section, a public observation robot is inserted through the main tube to visualize the state of the main tube and the complex tube at the observatory. After going through the public facility verification step and the location information signal acquisition step, which is checked through the first, second, and third transmitters, if the detection section is a private district, a public observation robot is inserted through the home office After going through the private facility check step, which checks the status of the home and complex pipes through video, the public facilities check step or the private facility check step, excavate the ground in the section where the location change occurred, and then the main pipe, the complex pipe, and the household pipe , A maintenance step of adjusting or replacing each position of the connection socket, and a refilling step of re-filling the excavated ground after passing through the maintenance step. Provides.

According to an embodiment of the present invention, deformation is prevented by reinforcing the strength of the flow velocity inlet of the connection socket connected to the main pipe, and the installation of the main pipe and the connection socket is easy, so that the construction period can be shortened and construction cost is reduced. There is an effect that can be saved.

In addition, when the connection socket is installed in the main pipe, it is adopted as a structure that can be easily separated, so that the replacement work is easy, and only a bolt fastening tool is required, thereby increasing handling.

In addition, there is an effect of improving the airtightness of the connection portion caused by a difference in diameter between the connection socket and the household pipe.

In addition, by forming the connection socket of a material having corrosion resistance and ductility, there is an effect that damage does not occur in response to the behavior of a complex pipe or a household pipe.

On the other hand, since the main pipe, the connection socket, and the home pipe can be detected in real time, there is an effect that an initial response is possible by easily grasping the current state.

1 is an exploded perspective view showing the structure of a complex pipe with improved reinforcement response according to the present invention,
Figure 2 is a perspective view showing the combined structure of the complex pipe with improved reinforcement response according to the present invention,
3 is a combined cross-sectional view showing the structure of a complex pipe with improved reinforcement response according to the present invention;
Figure 4 is a side view showing the structure of the complex pipe with improved reinforcement response according to the present invention;
5 is an operation diagram showing the change of the support protrusion when the connection socket according to the present invention is connected to the main pipe and fastened by the fixing unit
In Figure 6, drawing a is an exploded perspective view of the clamp and the fixing part, drawing b is a plan view of the clamp, and drawing c is a bottom view of the clamp,
7 is a cross-sectional view showing a cross-sectional view and an action force of a reinforcing ring according to the present invention,
8 is a fastening process when the upper end of the clamp passes through the through hole of the complex pipe,
9 is a cross-sectional view illustrating a construction example in which a home pipe with improved responsiveness is constructed according to the present invention,
10 is a construction flow chart of a home pipe with improved responsiveness according to the present invention,
11 is a cross-sectional view illustrating a construction example for maintenance of a home pipe pipeline with improved responsiveness according to the present invention,
12 is a flowchart of maintenance of a home pipe pipeline with improved responsiveness according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various forms and is not limited to the embodiments described herein. The same reference numerals are assigned to similar parts throughout the specification.

1 to 8, referring to the accompanying drawings, the configuration of the present invention, the complex pipe with improved reinforcement is a main pipe 10 such as water, sewage, rainwater, wastewater, and fluid, A connection socket 20 connected to the main pipe 10, an installation part 30 for connecting and fixing the connection socket 20 to the main pipe 10, the connection socket 20 and the installation part 30 It constitutes the complex pipe connection structure 100 with a reinforcing ring 70 fitted in the.

The main pipe 10 is for flowing water, sewage, rainwater, wastewater, and fluid, and forms a connection hole 11 at a selected point.

The number of the connection holes 11 may be formed in plural as necessary, and formed through one side of the main pipe 10.

In addition, a connection socket 20 inserted into the connection hole 11 is formed, and the diameter and length of the connection socket 20 are manufactured to correspond to the diameter and thickness of the connection hole 11.

The connection socket 20 forms a first connection end 21 fitted into the main tube 10.

The first connection end 21 of the connection socket 20 is integrally extended, but the opposite end bent at a straight line or at a specific angle forms a second connection end 22 fitted into the home tube 1.

The bending angles of the first and second connection ends 71 and 72 are manufactured by reflecting the angle of the connection point according to the design drawing when the household pipe 1 and the connection socket 20 are constructed.

When the design of the main pipe 20 and the household pipe 1 is completed, the connection socket 20 may be made of a metal material, a plastic material, or a rubber material (EPDM) to match the diameter, but in the present invention, it is made of a soft synthetic resin material. do.

The first and second connection ends 21 and 22 are connected to form a variable end 23 that maintains a bending angle or corresponds to the behavior of the household pipe 1, wherein the variable end 23 is formed in a tube shape. As a result, the side to which the household pipe (1) is connected has a small height and the other side forms a large height.

The first connection end 21 may have a smooth outer surface, but in the present invention, the first connection end 21 of the connection socket 20 has a ring protrusion 26 facing upward and facing upward. It is formed in multiple numbers.

The ring protrusion 26 may have elasticity or may be made of an inelastic material. In the present invention, it is preferable that the ring protrusion 26 is made of an inelastic material in order to smoothly perform the locking action.

That is, after the connection socket 20 is inserted into the connection hole 11 of the main pipe 10, the ring protrusion 26 is caught on the inner wall of the connection hole 11 by the tightening action of the fixing part 60. To construct.

After the connection socket 20 is connected to the main pipe 10 and the first connection end 21, the household pipe 1 and the second connection end 22, a separate metal tie (a tool to be used when tying round) is attached. Fasten it so that it does not deviate.

The connection socket 20 is not simply connecting the household pipe 1 and the main pipe 10, but when connecting the household pipe 1 and the household pipe 1, the main pipe 10, and the household pipe 1 and other pipes. It can be applied to connect each other using a pair.

The inner surface of the lower end of the connection socket 20 is inserted into the installation part 30 to support the reinforcing ring 70 for supporting the deformation of the connection socket 20 and the stress caused by the rapid flow velocity. To form a support protrusion 25 protruding toward.

The connection socket 20 is formed with a pair of through holes 24 facing each other for fastening of the clamp portion 40.

In addition, clamping and airtight fixing the position of the connection socket 20 to form an installation part 30 fixed.

The installation part 30 forms a clamp part 40 in which a fixing part 60 is installed to fix the position of the main pipe 10 and the connection socket 20.

The clamp part 40 is fixed by a detachment prevention pin 42 formed at both ends by passing through the connection socket 20 from the inside to the outside in the upper end 41 to which the fixing part 60 is fastened in the form of a design It is made to do.

The departure prevention pin 42 prevents the upper end 41 from moving through the through hole 24 after passing through the through hole 24 of the connection socket 20 when projecting the upper end 41 from the plane. In order to do so, the both sides of the passing point are partially cut out and bent outward. When entering through the through hole 24, it is retracted inward, and when the clamp 44 completely passes through the through hole 24, it is restored to its original position and connected. It is formed to support the outer surface of the socket 20.

The lower end 43 formed parallel to the upper end 41 forms a clamp 44 to support the lower end of the connection socket 20.

When the clamp 44 is projected in cross section, the length of the upper end 41 is longer than the length of the lower end 43, and a bolt hole 45 for fastening and positioning the fixing part 60 in the central part To form.

The lower end 43 of the clamp 44 supports the end of the connection socket 20 located inside the main pipe 10 of the connection socket 20 and at the same time supports the main pipe 10 of the connection hole 11 It is formed to support the inner surface.

The clamp 44 may support elastic force or be made of a metal material of non-elastic material.In the present invention, the clamp 44 is made of a non-elastic material and formed so as not to affect the clamping force even though the behavior occurs in the connection socket 20.

On the other hand, it is located between the clamp portion 40 and the main pipe 10 to form a sealing portion 50 to improve airtightness.

The sealing part 50 is fitted to the outside of the connection socket 20 and is located under the upper end 41 of the clamp part 40, and the pressing end 51a pressed by the fixing part 60 and the lower extending The surface forms a ring-shaped support ring 51 forming a curved end 51b so as to be in close contact with the curvature of the main pipe 10.

The support ring 51 has a step shape in cross section and an inner diameter is formed in a size that allows the connection socket 20 to pass, and the pressing end 51a is at the point where the bolt hole 45 of the clamp 44 is located. It is manufactured in a size that is beyond.

The curved end 51b of the support ring 51 is formed in a circumference corresponding to the curvature (outer circumference) of the main pipe 10, and the main pipe 10 of the support ring 51 is formed by the curved end 51b. It is formed to closely adhere to the outer surface.

A sealing ring 52 located between the lower part of the support ring 51 and the outer surface of the main pipe 10 is formed, and the sealing ring 52 has a cross-sectional diameter of about 8mm to 1cm in consideration of the compressibility. It would be desirable.

In addition, a bolt-type fixing part 60 is formed through the clamp part 40 to pressurize and fix the sealing part 50.

The fixing part 60 includes a bolt 61 passing through a bolt hole 45 formed in the clamp 44 of the clamp part 40 and an upper surface and a lower surface of the upper end 41 in the bolt 61 A pair of nuts 61 for fastening and preventing loosening of the bolt 61 are fastened to the bolt 61, and the support ring 51 of the sealing part 50 is When the pressing end 51a is sufficiently pressed, the nut 61 is rotated to press the upper end 41 of the clamp 44.

When the reinforcing ring 70 is installed, the upper end of the reinforcing ring 70 is supported by a separation preventing end 46 protruding toward the center at the lower end of the inner surface of the clamp 44 to prevent movement upward. .

The reinforcing ring 70 may be composed of a metal ring that contacts the connection socket 20 and the clamp 44 of the installation part 30. When the reinforcing ring 70 is made of a metal material, the coefficient of thermal expansion or elongation is reduced. It would be desirable to adopt a small material.

In another embodiment, the reinforcing ring 70 is installed on the inner surface of the outer ring 91 in contact with the connection socket 20 and the clamp 44 of the installation part 30 and expands when absorbing liquid After forming 92, it is installed on the inner surface of the resin material 92, and an inner ring 93 that repels the expansion force of the resin material 92 may be configured.

Looking at the construction method of the home pipe configured as described above with improved responsiveness is as follows.

9 and 10, the connection socket 20 installed in the main pipe 10 such as water, sewage, rainwater, wastewater, and fluid, and connected to discharge various wastewater or rainwater generated in the home. It relates to the construction method of the household pipe (1).

A socket installation step (S1) of inserting and installing the first connection end 21 of the connection socket 20 into the connection hole 11 of the main pipe 10 constructed by excavating the ground is performed.

In the socket installation step (S1), the first connector 21 of the connection socket 20 is inserted and installed into the interior of the connection hole 11 drilled in advance according to the design standard for filling the pipe.

Thereafter, after passing through the socket installation step (S1), the sealing portion installation step (S2) of inserting and installing the sealing ring 52 and the support ring 51 of the sealing portion 50 to the outside of the connection socket 20 in that order (S2) ).

The sealing ring 52 is inserted into the first connection pipe 21 of the connection socket 20 and at the same time inserted into the connection hole 11 to contact the outer surface of the main pipe 10 and seal the support ring 51 Insert it so that it is located at the top of (52).

Next, after passing through the sealing part installation step (S2), the upper end 41 of the clamp part 40 is passed through the through hole 24 formed in the connection socket 20, and the lower end 43 is A clamp part installation step (S3) for supporting the second connection end 22 of the connection socket 20 inserted into the main pipe 10 and the inner surface of the main pipe 10 is performed.

When the installation of the sealing part 50 is completed, a pair of clamps 44 are inserted into the connection socket 20 so that the upper end 41 is inserted into the through hole 24, and the lower end is the connection socket 20. ) In contact with the lower end of the connection socket 20, the clamp 44 is hit or pushed to the outside of the connection socket 20 using a strike tool, the lower end of the clamp 44 is connected to the lower end of the connection socket 20 Passing through the connection hole 11 of the tube 10 is supported on the inner surface of the main tube 10.

The upper end 41 of the clamp 44 is in contact with the upper surface of the support ring 51, and the separation prevention pin 42 passes through the through hole 24 of the connection socket 20, and then both sides Is partially cut and bent outward. When entering through the through hole 24, it is retracted inward, and when the clamp 44 completely passes through the through hole 24, it is restored to its original position, and the outer surface of the connection socket 20 It supports simple and stable installation.

After passing through the clamp unit installation step (S3), reinforcement by inserting and installing a reinforcing ring 70 between the upper part of the support protrusion 25 of the connection socket 20 and the lower side of the detachment preventing end 46 of the clamp 44 Step (S4) is carried out.

The lower inner surface supporting the connection socket 20 so that the fluid inflow portion of the connection socket 20 is not shaken or a gap is generated by the fluid at a high flow rate flowing through the main pipe 10 through the home pipe 1 The reinforcing ring 70 is additionally installed to support the side.

In addition, when the fluid flowing through the main pipe 1 diverges into the connection socket 20 and flows, the main pipe 1 and the connection socket 20 are arranged orthogonally. The faster the flow rate for the fluid, the higher the resistance force and the flow rate. The stress is generated according to the stress is generated by supporting the lower end of the connection socket 20 by the reinforcing ring 70, there is a characteristic that the damage and deformation of the connection socket 20 can be prevented.

In particular, when the resin material 92 is applied to the reinforcing ring 70, the volume increases as the resin material 92 absorbs liquid, and the outer ring 91 and the inner ring 93 are pressed in the horizontal direction. It is characterized by increasing the strength of the reinforcing ring 70 to maintain a stable support state.

Next, after going through the reinforcing step (S4), the bolt 61 of the fixing part 60 is fastened to the upper end 41 of the clamp part 40 to pressurize the support ring 51 and seal the ring ( 52) is pressed to perform a fixing part installation step (S5) of sealing the contact portion between the connection hole 11 of the main pipe 10 and the connection socket 20 to be airtight.

Thereafter, in the fixing part installation step (S5), the bolt 61 to which the nut 61 is fastened is fastened to the bolt hole 45 of the upper end 41 located above the support ring 51, and the support ring ( After pressing 51), the nut 61 is rotated to contact and pressurize the pressing end 51a, thereby preventing loosening by the nut 61.

When the bolt (61) is fastened, the end of the bolt (61) contacts the pressing end (51a) and the connection socket (20) is pulled upward by the fastening force, and the ring protrusion (26) is While being caught on the inner surface of the connection hole 11, it exhibits a strong locking force.

After passing through the fixing part installation step (S5), a home pipe installation step (S6) in which the home pipe 1 is inserted and fastened to the second connection end 72 of the connection socket 20 is performed.

Next, in the home pipe installation step (S6), the connection socket 20 is fastened to prevent separation using a separate metal tie after the home pipe 1 and the second connection end 22 are connected.

At this time, even when the angles met to be connected to the household pipe (1) are varied, the angle can be freely adjusted (bending) even at an unspecified angle and position by the variable end (23) of the connection socket (20). There is a feature that can prevent subsidence (think hole).

Finally, after going through the home pipe installation step (S6), the construction is completed through a burial step (S7) of burying the main pipe 10, the complex pipe connection structure 100, and the home pipe 1.

A method for maintaining a pipe line of a household pipe with improved responsiveness configured as described above is as follows.

11 and 12, a connection socket 20 installed in the main pipe 10 such as water, sewage, rainwater, wastewater, and fluid, and connected to discharge various wastewater or rainwater generated in the home. It is related to the pipe maintenance method of the household pipe (1).

First, the main pipe 10, the connection socket 20, and the home pipe 1 are respectively installed to receive power from the solar cell 200 installed on the ground to provide the initial construction location and real-time location information. The second and third transmitters P1, P2, and P3 perform a position information signal acquisition step (S10) in which a radio signal is transmitted from the observatory 300.

The first, second, and third transmitters P1, P2, and P3 operate by receiving power from the solar cell 200 installed on the ground, and in the observatory 300, the manager can identify the location information by dividing the real-time by section. I can.

Thereafter, after passing through the location information signal acquisition step (S10), if an abnormal signal among the transmission signals of the first, second, and third transmitters P1, P2, and P3 is detected, the main tube 10 Through the public observation robot 400 is put into the observatory 300 performs a common facility check step (S20) to check the state of the main pipe 10 and the connection socket 20 through an image.

The execution subject of the public facility check step (S20) is a step that can be implemented by the government, public institutions, public facility management companies, etc., and checks when abnormal signals are detected by the rainy season or earthquake or other causes through the transmission signal.

The public observation robot 400 is inserted into the interior of the main pipe 10 and moves along the pipe, and an image transmitted to the state of the main pipe 10 and the connection state of the main pipe 10 and the connection socket 20 is displayed. There are features that can be easily grasped through.

Next, after passing through the location information signal acquisition step (S10), if an abnormal signal is detected among the transmission signals of the first, second, and third transmitters (P1), P2, and P3 is a private district, the family officer (1) Through the private land observation robot 500 is introduced, the private facility check step (S30) of checking the state of the household pipe 1 and the connection socket 20 through the image at the observatory 300 is performed.

The execution subject of the private facility verification step (S30) is a step that can be implemented by the government, public institutions, private facilities management business, personal management companies, etc., and confirms when abnormal signals are detected by the rainy season, earthquake or other causes through the transmission signal. to be.

The private land observation robot 500 is put into the inside of the home pipe 1 and moves along the pipe, and the state of the home pipe 1 and the connection state of the home pipe 1 and the connection socket 20 can be easily grasped through the transmitted image. There are features that can be.

Next, after going through the public facilities check step (S20) or the private facilities check step (S30), after excavating the ground of the section where the location change occurred, the main pipe 10, the connection socket 20, and the home pipe (1) )) to adjust or replace each position of the maintenance step (S40).

Finally, after the maintenance step (S40), the reclaiming step (S50) of re-filling the excavated ground is performed to complete the maintenance, and the observatory 300 is in real time through the location information signal acquisition step (S10). It has a characteristic that can thoroughly monitor the condition of the pipeline.

In the description of the complex pipe and home pipe construction method with improved reinforcement response and the method of maintaining the pipe line of the home pipe with reference to the accompanying drawings, the present invention has been described mainly in specific shapes and directions, but the present invention Changes are possible, and these modifications and changes should be construed as being included in the scope of the present invention.

1: family view
10: main building 11: connection hole
20: connection socket 21: first connection end
22: second connection end 23: variable end
24: through hole 25: support protrusion
26: ring protrusion 30: installation part
40: clamp part 41: upper end
42: departure prevention pin 43: lower end
44: clamp 45: bolt hole
46: departure prevention stage
50: sealing portion 51 support ring
51a: pressure end 51b: curved end
52 sealing ring 60: fixed part
61: bolt 62: nut
70: reinforcing ring 71: outer ring
72: resin material 73: inner ring
100: complex pipe connection structure 200: solar cell
300: observatory 400: public observation robot
P1, P2, P3: 1st, 2nd, 3rd transmitter
S1: socket installation step S2: sealing part installation step
S3: Clamp part installation step S4: Reinforcement step
S5: fixing part installation step S6: connecting socket installation step
S7: Landfill stage
S10: Location information signal acquisition step S20: Public facility verification step
S30: Private facility confirmation step S40: Maintenance step
S50: Reclaiming step

Claims (9)

To form a connection hole 11 in the main pipe 10 such as water, sewage, rainwater, wastewater, fluid,
A connection socket 20 that is inserted into the connection hole 11 and wraps a connection part connected to the main pipe 10 and the home pipe 1 installed at a specific angle to increase airtightness and fluidity,
Clamping and airtight fixing the position of the connection socket 20, the installation part 30 to fix,
It is an inner surface of the lower side of the connection socket 20 and includes a reinforcing ring 70 for supporting the stress caused by the deformation of the connection socket 20 and the fast flow velocity by being fitted and installed in the installation part 30,
The reinforcing ring 70 is composed of a metal ring in contact with the connection socket 20 and the clamp 44 of the installation part 30, or the reinforcing ring 70 is a connection socket 20 and an installation part 30 A resin material 92 that is installed on the inner surface of the outer ring 91 in contact with the clamp 44 and expands when absorbing liquid,
A complex pipe having improved reinforcement response, characterized in that it is installed on the inner surface of the resin material (92) and comprises an inner ring (93) that repels the expansion force of the resin material (92).
According to claim 1, wherein the installation part (30) is a clamp part (40) in which a fixing part (60) is installed to fix the position of the main pipe (10) and the connection socket (20),
A sealing part 50 located between the clamp part 40 and the main pipe 10 and improving airtightness,
A complex pipe having improved reinforcement response, characterized in that it constitutes a bolt-type fixing part 60 for pressing and fixing the sealing part 50 through the clamp part 40.
The separation according to claim 2, wherein the clamp part 40 has an upper end 41 to which the fixing part 60 is fastened in a shape of a diguin cross section, and is formed at both ends by passing through the connection socket 20 from the inside to the outside. It is fixed by the prevention pin 42,
The lower end 43 formed in parallel with the upper end 41 constitutes a clamp 44 so as to support the lower end of the connection socket 20.
The pressing end of claim 2, wherein the sealing part (50) is fitted to the outside of the connection socket (20), is located under the upper end (41) of the clamp part (40), and is pressed by the fixing part (60). A support ring 51 in the form of a ring forming a curved end 51b so that the lower surface extending from the 51a is in close contact with the curvature of the main pipe 10,
A complex pipe having improved reinforcement response, characterized in that consisting of a sealing ring (52) positioned between the lower portion of the support ring (51) and the outer surface of the main pipe (10).
The method of claim 1, wherein the connection socket (20) is a first connection end (21) fitted into the main pipe (10),
A second connection end 22 that extends integrally with the first connection end 21, but the opposite end bent in a straight line or at a specific angle is fitted into the home tube 1,
A complex pipe having improved reinforcement response, characterized in that the first and second connection ends (21, 22) are connected to each other but maintain a bending angle or a variable end (23) corresponding to the behavior of the household pipe (1) is formed.
The method of claim 5, wherein the first connection end (21) of the connection socket (20) has a plurality of ring protrusions (26) facing upward and having a circular band shape,
After the connection socket 20 is inserted into the connection hole 11 of the main pipe 10, the ring protrusion 26 is configured to be caught on the inner wall of the connection hole 11 by the tightening action of the fixing part 60. Complex pipe with improved reinforcement response, characterized in that.
delete delete In the pipeline maintenance method of the connection socket 20 installed in the main pipe 10 such as water, sewage, rainwater, wastewater, and fluid, and the household pipe 1 connected to discharge various wastewater or rainwater generated at home ,
The main pipe 10, the connection socket 20, and the home pipe 1 are respectively installed to receive power from the solar cell 200 installed on the ground to provide the initial construction location and real-time location information, and the first and second ,3 Transmitters (P1) (P2) (P3) to receive a wireless signal from the observatory 300, the location information signal acquisition step (S10),
After passing through the location information signal acquisition step (S10), if an abnormal signal among the transmission signals of the first, second, and third transmitters (P1), P2, and P3 is detected, the main tube 10 is used. Public facility confirmation step (S20) of checking the state of the main pipe 10 and the connection socket 20 at the observatory 300 by inserting the public observation robot 400 through an image,
After passing through the location information signal acquisition step (S10), if an abnormal signal is detected among the transmission signals of the first, second, and third transmitters (P1), P2, and P3 is a private district, the private land is used by the family officer (1). Private facility verification step (S30) of checking the state of the household pipe 1 and the connection socket 20 at the observatory 300 by inserting the observation robot 500 through an image,
After going through the public facilities check step (S20) or the private facilities check step (S30), excavate the ground of the section where the location change occurred, and then each of the main pipe 10, the connection socket 20, and the household pipe (1)). Maintenance step (S40) of adjusting or replacing the location,
After passing through the maintenance step (S40), the method for maintaining a pipe line of a home pipe having improved reinforcement response, characterized in that comprising a re-filling step (S50) of re-filling the excavated ground.

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