KR102412563B1 - A drug inlet for filling back-area of segment - Google Patents

Abstract

Disclosed is a medicament inlet for backfilling a segment. A drug injection port for backfilling a segment according to the present invention includes: a hollow body portion that is through-coupled to an injection hole formed in the segment; a sealing member coupled to one end of the main body located inside the segment to prevent reverse flow of the drug for backfilling the segment and leakage of groundwater; And it is detachably coupled to the auxiliary injection hole formed in the sealing member, so that when groundwater leaks due to malfunction or abnormality of the sealing member, it is possible to easily inject the waterproofing agent through the auxiliary injection hole without removing the entire sealing member. including an auxiliary inlet.

Description

A DRUG INLET FOR FILLING BACK-AREA OF SEGMENT

The present invention relates to a drug inlet for backfilling a segment, and more particularly, a drug inlet for backfilling a segment including an auxiliary inlet. It relates to a medicament inlet for backfilling a segment with an auxiliary inlet.

In burying urban infrastructure such as subways, water/sewage, electricity, communication lines, and gas pipelines in the ground, conventionally, the open-cut method of excavating the ground and installing pipelines has been mainly used. However, the open method method has a problem of causing traffic disturbances when construction is performed in an area with a high groundwater level or soft ground, such as noise and dust, and furthermore, when construction is performed in an urban area with complicated traffic.

In recent years, in order to improve this problem, as a non-intercept method, a shield method for making an underground tunnel with an excavator from the ground without excavating above the ground has been developed and widely adopted. The shielding method is mainly used in the construction of large-diameter underground tunnels such as subways or electric power outlets, in order to prevent the collapse of the ground in front of the shield when the shield machine penetrates the stratum in the underground vertical sphere at the location of the departure gate. As a method of forming pressure, a two-water method or an earth-to-earth pressure method is adopted.

In addition, a tunnel formation structure called a segment is used for the tunnel formed by excavation. In general, the segments used in shield tunnel construction are large in size and heavy in structure, so they are produced in pieces and assembled at the site. These segments are made up of half-moon-shaped pieces, and after being first assembled in a cylindrical shape on site, the cylindrically assembled segments are assembled together in the longitudinal direction to form a tunnel.

At this time, tail voids, which are empty spaces generated by over-cutting during excavation, remain on the outside of the segment tunnel. It may cause cracks and breakage.

Therefore, the plastic grout method or the LW method is used to inject the chemical for backfilling into the shallows through the drug inlet and fill it. At this time, there are many cases where the backfill material did not completely fill the shoal, or the backfilling material was washed away by groundwater during the injection process, or voids were not filled.

For this reason, when groundwater penetrates or backflows into the segment surface during the tunnel operation process, if the perfect seal between the main body of the drug inlet and the sealing member is not maintained, contamination of the inside of the tunnel occurs frequently (see FIG. 1a ). In this case, additional work is required to block the leakage of groundwater through the drug inlet, and for this, the conventional sealing member of the drug inlet is separated from the main body and additionally a segment backfilling agent or exponential water supply agent is added to the segment. The situation is that the agent for exponential order is injected by injecting it to the outside of the concrete or drilling a hole in the high-strength thick concrete segment. In the case of the screw thread that connects the main body of the drug inlet and the sealing member (screw cap), various foreign substances may get caught in the working process. However, if components such as calcium contained in the groundwater are inserted between the gap between the sealing member and the body, most of the sealing members are damaged in the process of separating the sealing member from the body, and the damaged sealing member remaining in the body In order to insert a new sealing member after removal, a lot of work and time is required to completely scrape off the residue, so there is a problem in that workability is seriously deteriorated (see FIG. 1b ). Moreover, since the working environment inside the tunnel at high depth is very difficult due to high heat or high altitude work, there is an urgent need for a method to improve workability.

Republic of Korea Patent Registration No. 10-1493038 (2015.02.13.Announcement)

Therefore, the technical problem to be solved by the present invention is a drug inlet for backfilling the segment including an auxiliary inlet that can easily inject a drug for exponential water to the outside of the segment to block groundwater from penetrating or refluxing through the drug inlet of the segment is to provide

According to an aspect of the present invention, a hollow body portion that is through-coupled to the injection hole formed in the segment; a sealing member coupled to one end of the main body located inside the segment to prevent reverse flow of the drug for backfilling the segment and leakage of groundwater; and a water-repellent agent through the auxiliary injection hole without removing the entire sealing member when groundwater leakage occurs due to malfunction or abnormal occurrence of the sealing member by being detachably coupled to the auxiliary injection hole formed in the sealing member. A medicament inlet for backfilling the segment including an auxiliary inlet for easy injection may be provided. This auxiliary injection hole is a bolt shape, and when a water leak occurs in the sealing member, it forms a precision threaded nut structure that can easily and perfectly combine the injection nozzle when injecting an exponential drug, and this patent want to achieve the purpose of

The sealing member may include: a first coupling part inserted into one end of the body part and screwed together; and a flange formed integrally with the first coupling part and disposed outside one end of the body part when the first coupling part is screwed to one end of the body part, wherein the auxiliary injection hole is penetrated through the flange. It may be screwed in close contact with the auxiliary injection hole formed and communicating with the first coupling portion.

A wrench groove may be formed in the auxiliary injection port to have a structure that can be easily removed when injecting a drug.

The first coupling part is formed in a hollow shape, and the sealing member is formed integrally with the first coupling part and is radially disposed inside the first coupling part. A plurality of reinforcing ribs for reinforcing the rigidity of the first coupling part. may include more.

An embodiment of the present invention forms an auxiliary injection hole in the sealing member and provides an auxiliary injection hole that is detachably coupled to the auxiliary injection hole, various problems and serious work occurring in the process of removing the existing sealing member from the body portion After the auxiliary injection port is disconnected from the sealing member without deterioration of properties, the injection nozzle of the exponential water injector for preventing leakage can be easily coupled through the auxiliary injection hole of the present invention formed in the sealing member to inject the drug.

In addition, in the embodiment of the present invention, since only the auxiliary injection port in the sealing member is simply uncoupled and then the exponential water agent can be injected to the outside of the segment, when the sealing member and the body are joined by calcium contained in the groundwater, It is possible to prevent damage to the sealing member that may occur in the process of separating the sealing member, and it is possible to perform exponential operation very easily.

1A is a photograph showing a state in which groundwater flows backward to the surface of a segment.
Figure 1b is a photograph showing a broken state of the sealing member.
Figure 2 is a perspective view showing a drug injection port for backfilling segments according to the present invention.
3 is an exploded perspective view showing a drug injection port for backfilling segments according to the present invention.
4 is a cross-sectional view showing a drug injection port for backfilling segments according to the present invention.
5 is a perspective view illustrating a state in which a reinforcing rib is provided inside the first coupling part according to the present invention.
6 is an enlarged view of part A of FIG. 4 and is a cross-sectional view showing a state in which the sealing member is fastened according to the present invention.
7a and 7b are cross-sectional views showing the backfilling drug injection operation according to the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

Figure 2 is a perspective view showing the drug inlet for backfilling the segment according to the present invention, Figure 3 is an exploded perspective view showing the drug inlet for backfilling the segment according to the present invention, Figure 4 is a cross-sectional view showing the drug inlet for backfilling the segment according to the present invention 5 is a perspective view showing a state in which a reinforcing rib is provided inside the first coupling part according to the present invention, and FIG. 6 is an enlarged view of part A of FIG. 7a and 7b are cross-sectional views showing the backfilling drug injection operation according to the present invention.

The drug injection port 100 for backfilling the segment according to the present invention may be installed to be embedded in the segment (S) by pouring and curing concrete after being installed in a mold for manufacturing the segment. At this time, the injection hole (H) is formed in the portion through which the drug injection port 100 for backfilling the segment is penetrated. And in this embodiment, the agent for backfilling the segment includes a liquid injection material containing various mixed materials according to the ground conditions and purpose, a granular injection material such as mortar having viscosity, concrete, etc.

Referring to FIGS. 2 to 7 , the drug injection port 100 for backfilling the segment according to the present invention includes a main body 110 , a check valve 130 inserted into the body 110 , and a segment S ) and a sealing member 140 that is detachably coupled to one end of the main body 110 located on the inside, and the other end of the main body 110 located on the outside of the segment (S) is detachably coupled to the It includes an end cap 170 and an auxiliary injection hole 160 detachably coupled to the auxiliary injection hole 146 formed in the sealing member 140 .

The body part 110 according to this embodiment is through-coupled to the injection hole (H) formed in the segment (S) to form a movement path of the drug and the drug injection gun (G) for backfilling the segment.

The body part 110 may be formed in a cylindrical shape with a hollow inside. In addition, the main body 110 may be made of synthetic resin, high hardness rubber material, steel, etc., but the scope of the present invention is not limited thereto.

When the body part 110 is through-coupled to the injection hole H of the segment S, one end of the body part 110 is located inside the segment S, and the other end of the body part 110 is connected to the segment S. ) is located outside the

On the other hand, since the material of the segment S and the main body 110 is different, the concrete is contracted while pouring and curing the concrete in the mold for producing the segment between the outer circumferential surface of the main body 110 and the inner circumferential surface of the injection hole H. A crevice is generated, and groundwater flows back into the tunnel through the crevice, which can contaminate the inside of the tunnel.

Accordingly, the drug injection port 100 for backfilling segments according to the present invention further includes a rib 120 protruding from the outer circumferential surface of the main body 110 and continuously formed along the circumferential direction.

The rib 120 according to the present embodiment may be formed in a tapered shape that increases in width in a direction away from the outer circumferential surface of the main body 110 . Specifically, the cross-section of the rib 120 may have a trapezoidal shape. In addition, a plurality of ribs 120 may be formed to be spaced apart from each other in the longitudinal direction of the body portion 110 .

As shown in Figure 4, even if the concrete constituting the segment (S) is contracted during the drying and curing process, the tapered rib 120 according to the present embodiment serves as a clasp on the inner circumferential surface of the injection hole (H). The rib 120 is caught on the inner circumferential surface of the injection hole (H) to suppress a gap from being formed between the outer circumferential surface of the main body 110 and the inner circumferential surface of the injection hole H, and also the outer circumferential surface of the main body 110 and the injection hole H ), it is possible to prevent backflow of groundwater between the outer circumferential surface of the main body 110 and the inner circumferential surface of the injection hole (H) because the inner circumferential surface is sealed.

And the check valve 130 according to this embodiment is inserted into the body part 110, and when the backfilling agent is injected, the body part 110 is opened and the backfilling agent is injected when the main body part ( 110) to prevent the backfilling agent from flowing back.

Referring to FIGS. 3 and 4 , the check valve 130 includes a second coupling part 131 that is inserted into the body part 110 and screw-coupled thereto, and a second coupling part 131 that is in an outer direction of the segment S. ) includes a plurality of wing portions 133 integrally formed in the front portion.

The second coupling part 131 is formed in a hollow cylindrical shape to communicate with the body part 110 . And a screw thread is formed on the outer circumferential surface of the second coupling part 131 to be screwed to the inner circumferential surface of the body part 110 . To this end, a thread corresponding to the thread formed on the outer peripheral surface of the second coupling part 131 is formed on the inner circumferential surface of the main body 110 .

The wing part 133 is formed in a sector shape, and one end is integrally formed with the second coupling part 131 , and the other end is in the direction from the front part of the second coupling part 131 to the other end of the body part 110 . formed to protrude.

A plurality of wing portions 133 are disposed along the outer peripheral surface of the front portion of the second coupling portion 131 . When the backfilling agent is injected, the side portions of the adjacent wing portions 133 are spaced apart from each other to allow the body portion 110 and the second coupling portion 131 to communicate with each other (see FIG. 7a ). And when the injection of the drug for backfilling is completed, the side parts of the adjacent wing parts 133 are in close contact with each other to form a cone to prevent backflow in the opposite direction to the direction in which the backfilling agent is injected (see FIG. 7b ).

In addition, a first groove 134 is formed at one end of each of the wing parts 133 to facilitate movement so that each of the wing parts 133 is spaced apart from or in close contact with each other. That is, when the backfilling agent is injected, the side parts of the wing parts 133 are easily spaced apart from each other, and when the backfilling agent is injected, the side parts of the wing parts 133 are easily brought into close contact with each other.

And the sealing member 140 according to the present embodiment is coupled to one end of the body portion 110 serves to seal the body portion (110). That is, the sealing member 140 is coupled to one end of the main body 110 to prevent backflow of the backfilling agent and leakage of groundwater.

The sealing member 140 includes a first coupling part 141 that is inserted into one end of the body part 110 and screwed together, a flange 145 integrally formed with the first coupling part 141, and a first coupling part. It includes a reinforcing rib 143 provided inside the 141 to reinforce the rigidity of the first coupling portion 141 .

The first coupling part 141 may be inserted into one end of the body part 110 and screw-coupled, and may be formed in a cylindrical shape with a hollow inside. A screw thread is formed on the outer peripheral surface of the first coupling part 141 and is screwed to the inner peripheral surface of the body part 110 . To this end, a thread corresponding to the thread formed on the outer peripheral surface of the first coupling part 141 is formed on the inner peripheral surface of one end of the body part 110 .

The flange 145 is integrally formed with the first coupling part 141 and the horizontal part ( 151) is disposed on the outside of one end of the body portion 110 in the interposed state. That is, one end of the first coupling part 141 is inserted into one end of the main body 110 , and the other end of the first coupling part 141 is integrally formed with the flange 145 . Since the flange 145 is integrally formed with the other end of the first coupling part 141 , the other end of the first coupling part 141 is closed by the flange 145 .

On the other hand, after injecting the backfilling agent to the outside of the segment S, the first coupling part 141 is coupled to the main body 110 to prevent backflow of the backfilling agent and leakage of groundwater, in the tunnel operation process. In the case of injecting a water stop material to the outside of the segment S to additionally block the backflow of groundwater, when the body part 110 and the first coupling part 141 are joined due to calcium contained in the groundwater, In the process of separating the first coupling part 141 from the body part 110 , the first coupling part 141 adjacent to the flange 145 may be damaged. Accordingly, as shown in FIG. 5 , in this embodiment, a plurality of pieces for reinforcing the rigidity of the first coupling part 141 inside the first coupling part 141 in order to prevent damage to the first coupling part 141 . A reinforcing rib 143 is provided. The plurality of reinforcing ribs 143 are integrally formed with the first coupling part 141 and are radially disposed inside the hollow first coupling part 141 .

And, in this embodiment, even when the sealing member 140 is coupled to one end of the body part 110, the backfilling agent may flow back or the groundwater may leak, so a sealing member 150 may be further included to prevent this. can The sealing member 150 is interposed between the first coupling part 141 and one end of the body part 110 when the first coupling part 141 is screwed to one end of the body part 110 .

As an example, the sealing member 150 is engaged with the first coupling part 141 and is continuously disposed along the circumferential direction on the outer circumferential surface of the first coupling part 141 to form a first coupling part at one end of the body part 110 . When the 141 is inserted and coupled, an O-ring (O-ring, not shown) of a rubber material interposed between one end of the body part 110 and the first coupling part 141 may be used.

Also, referring to FIG. 6 , as another example, the sealing member 150 is continuously disposed along the circumferential direction on the outer peripheral surface of the first coupling part 141 in order to further improve the sealing effect, and the upper surface is at one end of the body part 110 . The horizontal portion 151 in contact and the lower surface is in contact with the flange 145 and the horizontal portion 151 is formed to be bent upwardly and disposed to surround the outer circumferential surface of the first coupling portion 141, and one side wall is the first coupling It includes a bent portion 153 that is in close contact with the outer circumferential surface of the portion 141 and the other side wall is in close contact with the inner circumferential surface of one end of the body portion 110 .

And on one wall of the bent portion 153, a locking protrusion 154 that is inserted into and engaged with the third groove 142 continuously formed along the circumferential direction on the outer peripheral surface of the first coupling part 141 is formed.

And irregularities are formed on the lower surface of the horizontal part 151, and at least one groove 152 forming the irregularities is formed on the lower surface of the horizontal part 151, preferably 1 to 5, and more preferably 1 ~3 are formed. And, each of the grooves 152 forming the concavo-convex has various shapes in which the lower part is open. For example, each of the grooves 152 forming the unevenness may have various shapes such as ∩ and ∧, but preferably has a shape of ∩.

In addition, the angle θ between the other side wall of the bent portion 153 and the upper surface of the horizontal portion 151 and/or the other side wall of the bent portion 153 and the lower surface of the horizontal portion 151 is 90° or an obtuse angle. can be formed with This corresponds to an angle at which the inner peripheral surface of one end of the body part 110 coupled to the first coupling part 141 is inclined with respect to the horizontal plane. For example, when the inclination angle of the inner circumferential surface of one end of the body part 110 is greater than 90° and has an angle smaller than 110°, the other side wall of the bent part 153 and the upper surface of the horizontal part 151 and/or the horizontal The angle (θ) formed by the lower surface of the portion 151 is formed to form an angle greater than 90° and smaller than 110°, so that the inner peripheral surface of one end of the body part 110 smoothly contacts the other side wall of the bent portion 153 as if sliding. make it

On the other hand, when the inner peripheral surface of one end of the body part 110 is formed perpendicular to the horizontal plane without being inclined, the other side wall of the bent part 153 and the upper surface of the horizontal part 151 and/or the lower surface of the horizontal part 151 are An angle θ formed is formed at 90°.

And when the first coupling part 141 is screwed to one end of the body part 110 , one end of the body part 110 is in contact with the upper surface of the horizontal part 151 and the upper surface of the horizontal part 151 is screwed. pressurize In addition, as the first coupling part 141 is screwed to one end of the body part 110, one end of the body part 110 presses the upper surface of the horizontal part 151, so the lower surface of the horizontal part 151 is a flange ( 145) and pressurized.

And when the lower surface of the horizontal portion 151 is pressed in contact with the flange 145 , the grooves 152 formed on the lower surface of the horizontal portion 151 have their ends widened and at the same time, the other side wall of the bent portion 153 is the body portion. Since one end of 110 is in contact with the inner circumferential surface, the sealing effect is improved because the contact surface between the main body 110 and the sealing member 140 is increased compared to the O-ring type.

In addition, the end cap 170 according to the present embodiment is coupled to the other end of the main body 110 and serves to surround the other end of the main body 110 .

3 and 4 , on the inner surface of the end cap 170 opposite to the other end of the main body 110 , a second groove 171 is continuously formed along the circumferential direction. This is when the user inserts the injection nozzle (G) of the medicine injector to inject the medicine for backfilling to the outside of the segment (S), the injection nozzle of the medicine injector or the pressure of injecting the medicine for backfilling of the end cap 170 This is to allow the inner surface to be easily pierced, and also to maximize the passage area of the backfilling agent.

In addition, in the present embodiment, as described above, in the case of injecting a water stop material to the outside of the segment S to additionally block the backflow of groundwater, etc. in the tunnel operation process, a plurality of inside the first coupling part 141 Even when the reinforcing rib 143 of the rib 143 is integrally formed, the first coupling part 141 may be damaged in the process of separating the first coupling part 141 from the body part 110 . 2 to 5 , the present embodiment further includes an auxiliary injection port 160 coupled to the auxiliary injection hole 146 formed in the sealing member 140 to easily inject the backfilling agent. The auxiliary injection hole 160 may be formed in a bolt shape to be detachable from the auxiliary injection hole 146 .

Specifically, the flange 145 constituting the sealing member 140 is formed with an auxiliary injection hole 146 that communicates with the first coupling portion 141 and the auxiliary injection port 160 is coupled. And the auxiliary injection hole 160 is screwed to the auxiliary injection hole (146). That is, a screw thread is formed on the outer circumferential surface of the auxiliary injection hole 160 and is screwed to the inner circumferential surface of the auxiliary injection hole 146 . Accordingly, a thread corresponding to the thread formed on the outer peripheral surface of the auxiliary injection hole 160 is formed on the inner circumferential surface of the auxiliary injection hole 146 .

In addition, to prevent the auxiliary injection hole 160 and the auxiliary injection hole 146 from coalescing due to calcium contained in the groundwater, the auxiliary injection hole 160 and the auxiliary injection hole 146 are mutually coupled to prevent a gap from occurring at the mutually coupled portion. tightly screwed together. If necessary, Teflon or the like is wound around the thread formed in the auxiliary injection hole 160 to prevent a gap from occurring between the auxiliary injection hole 160 and the auxiliary injection hole 146 .

And in this embodiment, a wrench groove 161 having any one of straight, cross, and hexagonal cross-sections is formed in the auxiliary injection hole 160 , and the auxiliary injection hole 160 is easily screwed into the auxiliary injection hole 146 . can

As shown in Fig. 7a, in the case of additionally injecting the backfilling agent to the outside of the segment (S), the auxiliary injection hole 146 is uncoupled from the auxiliary injection port 160, and then the injection nozzle (G) of the chemical injector. ) is inserted into the auxiliary injection hole (146). And inject the drug for backfilling to the outside of the segment (S) through the injection nozzle (G) of the drug injector.

And, as shown in Figure 7b, when the injection of the drug for backfilling on the outside of the segment (S) is completed, the injection nozzle (G) of the chemical injector is removed from the auxiliary injection hole 146, and then the auxiliary injection hole 146. The auxiliary injection hole 160 is screwed into the to seal.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations are included in the claims of the present invention.

100: drug inlet 110: body part
120: rib 130: check valve
131: second coupling portion 133: wing portion
134: first groove 140: sealing member
141: first coupling portion 142: third groove
143: reinforcing rib 145: flange
146: auxiliary injection hole 150: sealing member
151: horizontal portion 152: groove
153: bent part 154: stumbling block
160: auxiliary inlet 161: wrench groove
170: end cap 171: second groove

Claims (4)

a hollow body part that is through-coupled to an injection hole formed in the segment;
a sealing member coupled to one end of the main body located inside the segment to prevent reverse flow of the drug for backfilling the segment and leakage of groundwater; and
When the sealing member is detachably coupled to the auxiliary injection hole formed in the sealing member and leakage of groundwater occurs due to the malfunction or abnormality of the sealing member, the waterproofing agent can be easily dispensed through the auxiliary injection hole without removing the entire sealing member. Auxiliary inlet to enable injection;
It is inserted into the inside of the main body part is screwed to the main body part, and when the backfilling agent is injected, the main body part is opened and the backfilling agent is prevented from flowing back when the injection of the backfilling agent is completed. ; and
It is coupled to the other end of the main body and surrounds the other end of the main body, and forms a second groove continuously along the circumferential direction on the inner surface opposite to the other end of the main body to form an injection nozzle of the drug injector or the backfilling agent. A drug inlet for backfilling segments including an end cap whose inner surface is easily pierced by pressure.
According to claim 1,
The sealing member is
a first coupling part having a hollow shape that is inserted into one end of the main body and screwed together; and
a flange formed integrally with the first coupling part and disposed outside one end of the body part when the first coupling part is screwed to one end of the body part; and
and a plurality of reinforcing ribs formed integrally with the first coupling part and radially disposed inside the first coupling part to reinforce the rigidity of the first coupling part,
The auxiliary injection port is formed through the flange and is screwed in close contact with the auxiliary injection hole communicating with the first coupling part for backfilling the drug inlet.
3. The method of claim 2,
The auxiliary injection port is formed with a wrench groove, and the drug injection port for backfilling the segment has a structure that can be easily removed during injection.
According to claim 1,
The check valve is
a second coupling part having a hollow shape that is inserted into and screwed into the body part and communicates with the body part; and
Doedoe formed in a sector shape, one end is integrally formed with the second coupling portion and the other end is formed to protrude in the direction of the other end of the body portion positioned outside the segment, along the outer peripheral surface of the front portion of the second coupling portion In the case of injecting the medicament for backfilling in a plurality, adjacent side parts are spaced apart from each other so that the main body part and the second coupling part communicate with each other, and when the injection of the medicament for backfilling is completed, the adjacent side parts are in close contact with each other It includes a wing portion that prevents backflow in the opposite direction to the direction in which the backfilling agent is injected,
The wing portion has a long first groove along one end of the segment backfilling drug injection port.

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