KR20220028336A - Tunnel Segment Connection Device with Thread - Google Patents

Abstract

The present invention relates to a device for connecting a gap between PC segments used for tunnel excavation construction, wherein an inner circumferential surface of a socket has screw threads to be easily separated from a mold after the socket is injected. Moreover, male screw threads of a centering pin and female screw threads of the socket have different diameters from a midpoint to facilitate temporary mounting of the centering pin.

Description

Tunnel Segment Connection Device with Thread

The present invention relates to a device for interconnecting PC segments used in tunnel excavation.

The TBM method is one of the methods used in the construction of ultra-long tunnels. The TBM method is a method of forming a tunnel wall by assembling pre-made concrete PC segments (hereinafter simply referred to as 'segments') at the rear while excavating with a TBM machine.

Since this TBM method is suitable for tunnel construction such as soft ground containing a lot of moisture, it is particularly widely used for undersea tunnel construction.

The TBM method has recently significantly reduced the price of the TBM machine, which was an expensive equipment, and since it does not require blasting, it has low noise and is suitable for urban tunnel construction, and its use is increasing.

When connecting the current segment in the circumferential direction, use the bolt and nut connection through a metal fixture. When connecting in the longitudinal direction (tunnel progress direction), the socket is buried and cured when the segment is cured. It is connected by inserting a centering pin into the The centering pin connects between the segments while both sides are coupled to each socket embedded in the two connected segments. At this time, the socket is designed not to fall out after the centering pin is inserted.

For this reason, the centering pin and the socket must have anti-reverse means to prevent them from falling out once they are inserted, but when such means are provided in the socket, they cannot be separated from the mold during injection molding, so manufacturing is difficult.

In addition, in order to bury and cure the socket during curing of the segment, the socket must be fixed at a fixed position in the mold. I need this.

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be taken as acknowledging that they correspond to the prior art already known to those of ordinary skill in the art.

An object of the present invention is to solve at least one of the problems of the prior art described above.

According to the present invention, anti-reverse means are provided to prevent the centering pin from falling off once it is coupled to the socket embedded in the segment. An object of the present invention is to provide a segment connecting device.

A tunnel segment connecting device according to an embodiment of the present invention is inserted into a socket buried in each side of a tunnel segment and sockets of two adjacent segments when a tunnel wall is formed to connect a segment to a tunnel by inserting it from both sides. In the segment connecting device, the centering pin is provided with male threads on both outer surfaces, the socket has one side of the centering pin inserted therein and a female thread engaged with the male thread is provided on the inner surface of the socket, and the male and female threads are Allows the straight insertion of the centering pin in the insertion direction, but prevents the reverse movement by a locking action for straight retraction in the reverse direction, and the socket has a fixing part for being fixed to the mold during segment curing.

In at least one embodiment of the present invention, the male thread includes a first thread formed outward from the center and a second thread extending from an end of the first thread and having a smaller diameter than the first thread, , The female thread includes a third thread formed from one side to the other side and a fourth thread extending from an end of the third thread and having a smaller diameter than the third thread.

In at least one embodiment of the present invention, the first screw thread and the second screw thread are continuously connected to each other, and the third screw thread and the fourth screw thread are also continuously connected to the screw thread.

In at least one embodiment of the present invention, the first screw thread is formed to be longer than the second screw thread in the longitudinal direction, and the third screw thread is formed to be longer than the fourth screw thread in the longitudinal direction.

In at least one embodiment of the present invention, the fixing portion of the socket comprises at least a portion of the female thread.

In at least one embodiment of the present invention, the socket is made by injection molding, with the end closed at the end opposite to which the centering pin is inserted.

In at least one embodiment of the present invention, the width of the male thread is formed to be smaller than the width of the female thread, so that a play in the insertion direction of the centering pin is formed.

In at least one embodiment of the present invention, the centering pin includes a central member and a shell having the male thread, and the shell is injection molded in a state in which the central member is inserted into an injection molding mold.

In the method for manufacturing a tunnel segment in which a socket of a tunnel segment connecting device is embedded, one end is opened and the other end is closed, a centering pin is inserted into the open end, and the male thread of the inserted centering pin is inserted into the inner surface. providing a socket equipped with amsanasan in the longitudinal direction while wrapping the inner surface so as to be caught and prevented from moving backwards; A fixing rod having a central through hole and having a male thread formed on a part of the outer surface so as to be inserted into the mold and screwed with a female thread formed on the inner surface of the socket through a penetrating portion protruding from the inner wall surface of the mold and the penetrating portion to be inserted and detached. fixing the socket to a mold having a; It provides a tunnel segment manufacturing method comprising the step of injecting a cement curing agent into the mold to create a segment in which the socket is embedded.

According to the threaded tunnel segment connecting device having the structure as described above, it is possible to achieve the effect of easily separating the socket from the mold after injection molding.

In addition, since the diameters of the male thread of the centering pin and the female thread of the socket are different from the midpoint, it is possible to achieve the effect of facilitating the mounting of the centering pin.

1 is a view showing a tunnel segment connecting device provided with a screw thread according to an embodiment of the present invention.
2 is a view showing a cross-section of a tunnel segment connecting device provided with a screw thread according to an embodiment of the present invention.
3 is a view showing a centering pin of a tunnel segment connecting device provided with a thread according to an embodiment of the present invention.
4 is a cross-sectional view of a centering pin of a tunnel segment connecting device provided with a thread according to an embodiment of the present invention.
5 is a view showing a socket of a tunnel segment connecting device provided with a screw thread according to an embodiment of the present invention.
6 is a cross-sectional view of a socket of a tunnel segment connecting device provided with a thread according to an embodiment of the present invention.
7 is a view showing a state in which the centering pin of the tunnel segment connecting device having a screw thread according to an embodiment of the present invention is inserted into the socket.
8 is a view showing a state in which the socket of the tunnel segment connecting device having a screw thread according to an embodiment of the present invention is fixed to a mold.
9 is a view showing a state in which the socket of the tunnel segment connecting device having a screw thread according to an embodiment of the present invention is embedded in concrete.
10 is a view illustrating a state in which the embedded socket is separated from the mold in the threaded tunnel segment connecting device according to the embodiment of the present invention.

Hereinafter, a threaded tunnel segment connecting device according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

A tunnel segment connecting device having a thread that is inserted from both sides into the socket 180 embedded in each side of the tunnel segment and the sockets 180 of two adjacent segments when the tunnel wall is formed to connect the segment to the segment is centering It includes a pin 100 and a socket 180 .

1 to 4 , the centering pin 100 is provided with external threaded threads 110 and 120 on the outer surface, and the external threaded threads 110 and 120 are first threaded threads 110 formed in an outward direction from the central part 130 . ) and a second screw thread 120 extending from the end of the first screw thread 110 and having a smaller diameter than the first screw thread 110 . The first screw thread 110 and the second screw thread 120 are continuously connected. A first inclined surface 140 is formed at a portion where the first screw thread 110 and the second screw thread 120 are connected, and a first connection screw thread 150 is formed on the outer surface of the first inclined surface 140 . The first connection screw thread 150 is formed in such a way that the first screw thread 110 is extended and connected to the second screw thread 120 , or the second screw thread 120 is extended and connected to the end point of the first screw thread 110 . can be The reason is that when the first screw thread 110 and the second screw thread 120 are continuously connected, an effect of easy separation from the mold after injection can be achieved.

The centering pin 100 includes a central material 160 and an outer shell 170 having a first screw thread 110 and a second screw thread 120 , and the outer shell 170 is a center material 160 formed by injection molding. It is injection-molded in the state inserted in (280).

The first screw thread 110 and the second screw thread 120 are equally formed on both sides with respect to the central portion 130 as shown in FIGS. 3 and 4 . Preferably, the threads 110 and 120 are provided in the same right-hand or left-hand direction on both sides.

As shown in FIGS. 5 and 6 , the socket 180 is provided with one side of the centering pin 100 and internally provided with male threaded threads 110 and 120 and female threaded threads 190 and 200 that engage and engage. The socket 180 is closed at the opposite end to which the centering pin 100 is inserted, and is made by injection molding.

The male threads 110 and 120 formed in the centering pin 100 and the female threads 190 and 200 formed in the socket 180 allow straight insertion in the insertion direction of the centering pin 100 but go straight in the reverse direction. As for the retreat, it acts as a jamming action to prevent the reverse movement.

Referring to FIG. 6 , the female threaded threads 190 and 200 of the socket 180 are formed extending from the ends of the third threaded thread 190 and the third threaded thread 190 formed from one side to the other side than the third threaded thread 190 . It includes a fourth screw thread 200 having a small diameter. A description of the difference in diameter between the third screw thread 190 and the fourth screw thread 200 will be described later.

The third screw thread 190 and the fourth screw thread 200 are continuously connected. A second inclined surface 210 is formed at a portion where the third screw thread 190 and the fourth screw thread 200 are connected, and a second connection screw thread 220 is formed on the outer surface of the second inclined surface 210 . The second connection screw thread 220 is formed in such a way that the third screw thread 190 is extended and connected to the fourth screw thread 200 , or the fourth screw thread 200 is extended and connected to the end point of the third screw thread 190 . can be The reason is the same as the reason why the first screw thread 110 and the second screw thread 120 are connected.

The socket 180 includes a fixing part 230 for being fixed to the mold 280 when the segment is cured. The fixing part 230 of the socket 180 may include at least a portion of the third screw thread 190 . Specifically, the fixing part 230 may be a part of the third screw thread 190 coupled to the fixing screw thread 320 formed on the outer surface of the mold 280 fixing rod 310 as shown in FIG. not.

4, in the first screw thread 110, the first screw thread 111 is formed between the screw thread and the screw thread, in the second screw thread 120, the second screw bone 121 is formed, and the third screw thread ( 190), the third screw bone 191 is formed, and in the fourth screw thread 200, the fourth screw bone 201 is formed.

The width D1 of the first screw thread 110 and the second screw thread 120 is formed smaller than the corresponding width D2 of the third screw thread 191 and the fourth screw thread 201, so that the gap as shown in FIG. (G) is formed.

Due to the clearance G, when the centering pin 100 is pushed into the socket 180 in the straight direction and inserted, the deformation space of the tip of the third screw thread 190 and the fourth screw thread 200 is secured.

That is, the gap G formed due to the difference between the width D1 of the first screw thread 110 and the second screw thread 120 and the width D2 of the corresponding third screw thread 191 and the fourth screw thread 201 . ) is the first thread 110 and the second thread 120 of the centering pin 100 or the third thread 190 and the fourth thread 200 of the socket 180 are deformed when the erector presses the segment. It is possible to achieve the effect that the centering pin 100 can be inserted without rotating by providing a space so that it can be.

Referring to FIG. 7 , the length A of the first screw thread 110 formed on the centering pin 100 is longer than the length B of the second screw thread 120 . In addition, the length C of the third screw thread 190 formed in the socket 180 is longer than the length D of the fourth screw thread 200 .

The diameter (b) of the second screw thread 120 of the centering pin 100 is smaller than the diameter (a) of the first screw thread 110, and the diameter c of the third screw thread 190 of the socket 180 is also Since it is formed smaller than the diameter (d) of the 4-thread thread 200, the second thread 120 of the centering pin 100 is inserted to the end of the third thread 190 of the socket 180 without applying a large force to center it. It is possible to achieve the effect of wearing the pin 100 .

The socket 180 is manufactured through injection molding in a mold (not shown), and by rotating the injected socket 180 through a female screw formed on the inner circumferential surface, an effect of easy separation from the mold can be achieved.

The outer surface of the socket 180 is provided with a plurality of flanges 240 in the circumferential direction are provided in the longitudinal direction. The flange 240 also includes a flange vertical surface 260 and a flange inclined surface 250 so as not to fall out in the hardened concrete 340 .

Next, a method of manufacturing a tunnel segment in which the socket 180 of the tunnel segment connecting device is embedded will be described with reference to FIGS. 8 to 10 .

In the tunnel segment manufacturing method, one end is opened and the other end is closed, the centering pin 100 is inserted into the open end, and the male threads 110 and 120 of the inserted centering pin 100 are caught on the inner surface to prevent reverse movement. A socket 180 provided with an amsana mountain in the longitudinal direction is provided while wrapping. Since the specific shape of the socket has been described in detail above, a detailed description thereof will be omitted.

As shown in FIG. 8 , it has a central through hole 290 and protrudes from the inner wall surface of the mold 280 and penetrates the through portion 300 so as to be inserted and detached into the mold 280 . The socket 180 is inserted into a mold 280 having a fixing rod 310 having male threads 110 and 120 formed on a part of the outer surface so as to be screwed with the female threads 190 and 200 formed on the inner surface of the socket 180. Fix it.

A fixing screw 320 is formed on the outer surface of the fixing rod 310 to couple the fixing portion 230 formed in the socket 180 , and the inclined portion 270 of the socket 180 and the inclined portion 270 of the socket 180 on the outer surface of the through portion 300 . However, an O-ring 330 may be installed so that the concrete 340 does not flow into the socket 180 while making contact.

When the socket 180 is rotated after coupling the socket 180 to the fixing rod 310 , the fixing part 230 is screwed to the fixing screw 320 formed in the fixing rod 310 to be fixed.

As shown in FIG. 9 , when the socket 180 is fixed, the concrete 340 curing material is injected into the mold 280 to embed the socket 180 to cure the concrete 340 .

Then, as shown in FIG. 10 , when the bolt 350 formed on the fixing rod 310 is loosened, the fixing rod 310 is rotated and the fixing rod 310 is separated from the socket 180 and the mold 280 is cured. The segment in which the socket 180 is embedded is completed by tearing off the concrete 340 .

Although the present invention has been shown and described in relation to specific embodiments, it is within the art that the present invention can be variously improved and changed without departing from the spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill in the art.

100: centering pin
110: first thread
111: first screw bone
120: second thread
121: second screw bone
130: central part
140: first slope
150: first connection thread
160: core material
170: integument
180: socket
190: third thread
191: 3rd screw bone
200: fourth thread
201: 4th screw bone
210: second slope
220: second connection thread
230: fixed part
240: flange
250: flange bevel
260: flange vertical surface
270: inclined part
280: mold
290: through hole
300: penetrating part
310: fixed rod
320: set screw
330: O-ring
340: concrete
350: volt

Claims (9)

In the tunnel segment connecting device for connecting the segment and the segment by being inserted from both sides into the socket buried in each side of the tunnel segment and the sockets of two adjacent segments when the tunnel wall is formed,
The centering pin is provided with male threads on both outer surfaces, the socket has one side of the centering pin inserted therein, and a female thread engaged with the male thread is provided on the inner surface of the socket, and the male and female threads are in the insertion direction of the centering pin. Allows for straight insertion into the direction, but prevents the backward movement with a jamming action for straight and retreating in the reverse direction.
The socket has a fixing part for being fixed to the mold when the segment is cured,
Tunnel segment connection device, characterized in that. The method of claim 1,
The male screw thread includes a first screw thread formed outward from the central portion and a second screw thread extending from an end of the first screw thread and having a smaller diameter than the first screw thread,
The female screw thread includes a third screw thread formed from the one side to the other side and a fourth screw thread extending from an end of the third screw thread and having a smaller diameter than the third screw thread. 3. The method of claim 2,
Tunnel segment connection device, characterized in that the first screw thread and the second screw thread are continuously connected to each other, and the third screw thread and the fourth screw thread are also continuously connected to the screw thread. 3. The method of claim 2,
The first screw thread is formed to be longer than the second screw thread in the longitudinal direction, and the third screw thread is formed to be longer than the fourth screw thread in the longitudinal direction. The method of claim 1,
Tunnel segment connecting device, characterized in that the fixing portion of the socket includes at least a portion of the female thread. The method of claim 1,
Tunnel segment connecting device, characterized in that the end of the socket is closed at the opposite end to which the centering pin is inserted, and is made by injection molding. The method of claim 1,
Tunnel segment connecting device, characterized in that the width of the male thread is formed to be smaller than the width of the female thread bone to form a play in the insertion direction of the centering pin. The method of claim 1,
The centering pin includes a central member and a shell having the male thread, and the shell is injection-molded while the central member is inserted into an injection molding mold. A method for manufacturing a tunnel segment in which a socket of a tunnel segment connector is embedded, the method comprising:
One end is open and the other end is sealed, a centering pin is inserted into the open end, and the male thread of the inserted centering pin is caught on the inner surface to prevent reversing. to prepare;
A fixing rod having a central through hole and having a male thread formed on a part of the outer surface so as to be inserted into the mold and screwed with a female thread formed on the inner surface of the socket through a penetrating portion protruding from the inner wall surface of the mold and the penetrating portion to be inserted and detached. fixing the socket to a mold having a;
Creating a segment in which the socket is embedded by injecting a cement curing agent into the mold
A tunnel segment manufacturing method comprising a.

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