JP2009108602A - Pipe roof and formation method of pipe roof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pipe roof and its formation method by which pipes to be newly installed can be propelled smoothly while engaging joint members of adjacent pipes with each other. <P>SOLUTION: Pipes 1 forming the pipe roof are connected in a manner that the adjacent pipes 1 are connected with each other by joining a male joint member 3 to a female joint member 4. Cutout parts are formed in a male joint body 32 of the male joint member 3 or in a female joint body 42 of the female joint member 4 in a manner of being spaced in an extending direction of a single pipe 2. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a pipe roof formed by a pipe roof construction method and a pipe roof forming method.

  When excavating a tunnel in an urban area, a so-called pipe roof construction method is known in which a pipe roof is formed by arranging a plurality of pipes around a tunnel. In this pipe roof construction method, a plurality of pipes are arranged side by side to improve the strength around the tunnel, so that the plurality of pipes are connected to each other.

In connecting a plurality of pipes, for example, a joint member is provided on the side of the pipe, and the adjacent pipes are connected by joining the joint members (for example, Patent Document 1). In this pipe roof, a first fitting portion having a substantially C-shaped cross section is formed on one side of a steel pipe (pipe) and extending in the direction of replacement, and a T-shaped cross section is formed on the other side. A second fitting portion having a shape is formed. The steel pipes are joined to each other by fitting the second fitting part to the first fitting part.
JP 2002-70473 A

  By the way, when constructing a pipe roof of this type, when a pipe adjacent to an existing pipe is newly installed, the newly installed pipe is propelled along the existing pipe. At this time, in the pipe roof described in Patent Document 1, the new pipe is propelled while the second fitting part of the new pipe is fitted into the first fitting part of the existing pipe.

  However, the fitting part provided in the pipe may be distorted or earth and sand may be bitten by the fitting part. In this case, when a newly installed pipe is propelled, a large propulsive force is required, and there is a problem that the propulsion becomes difficult or further impossible.

  Accordingly, an object of the present invention is to provide a pipe roof and a method for forming the pipe roof that can smoothly push a newly installed pipe while engaging joint members in adjacent pipes.

  The pipe roof according to the present invention that has solved the above problems is a pipe formed by juxtaposing a plurality of pipes along the extending direction thereof and propelling the pipe from the base end side toward the terminal end side. In the roof, a first joint member is formed along the extending direction of the first pipe at a side position on the second pipe side of the first pipe of the adjacent first pipe and second pipe, A second joint member is formed at a side position on the first pipe side along the extending direction of the second pipe, and the first joint member and the second joint member are joined to form the first pipe and the second pipe. It is connected, At least one of the 1st joint member and the 2nd joint is formed with the deficient part separated in the extending direction of the 1st pipe or the 2nd pipe. It is.

  In the pipe roof according to the present invention, the first joint member and the second joint member are joined to connect the first pipe and the second pipe, and at least one of the first joint member and the second joint is connected to the first joint member and the second joint. A missing portion is formed that is spaced apart in the extending direction of the first pipe or the second pipe. By forming the defect portion, the first joint member and the second joint member can be smoothly joined even when the first pipe or the second pipe is distorted. Moreover, the thing with a long distance of the extending direction can be used as a 1st pipe or a 2nd pipe. Furthermore, since the friction between the first joint member and the second joint member can be reduced, it is possible to prevent an excessive driving force when joining the first pipe and the second pipe.

  Here, the joint member is formed from the extending direction end portion position on the proximal end side of the pipe to the extending direction end position position on the terminal end side, and the missing portion in the joint member is one end portion in the extending direction of the joint member. It can be set as the aspect currently formed in the position except.

  As described above, the missing portion in the joint member is formed at a position excluding the end portion in the extending direction of the joint member, thereby ensuring the joining state between the first joint member and the second joint member. Can do.

  Further, the first joint member may be a male joint member in which a protrusion is formed, and the second joint member may be a female joint member into which the male joint member is inserted.

  Thus, the first joint member and the second joint member can be reliably joined by using the male joint member and the female joint member.

  Further, the protrusion in the male joint member is formed along the height direction, the female joint member includes an upper flange portion and a lower flange portion that respectively cover the protrusion from the vertical direction, It can be set as the aspect currently formed in the aspect which an upper flange part lose | deletes.

  As described above, when forming the defect portion in the female joint member including the upper flange portion and the lower flange portion, the defect portion can be easily formed only by losing the upper flange portion.

  Further, the first joint member is a female joint member into which the male joint member is inserted, the second joint member is a male joint member in which a protrusion is formed, and the protrusion is removed from the protrusion. It can be set as the aspect currently formed.

  As described above, when forming the defect portion in the male joint member having the protrusion portion, the defect portion can be easily formed by removing the protrusion portion.

  Furthermore, it can be set as the aspect to which the taper which expands in the extension direction of a protrusion part is provided with respect to the protrusion part which adjoins the defect | deletion part in a male joint member in the direction spaced apart from a defect | deletion part.

  By providing such a taper, the first joint member can be easily and reliably joined to the second joint member when the second pipe is pushed in with the first pipe already provided.

  On the other hand, in the method for forming a pipe roof according to the present invention that solves the above problems, a plurality of pipes are arranged side by side along the extending direction, and the pipes are propelled from the base end side toward the terminal end side. In the pipe roof forming method for forming the pipe roof, the first joint member extends in the first pipe at a lateral position on the second pipe side in the first pipe of the adjacent first pipe and second pipe. The second joint member is formed along the extending direction of the second pipe at a side position on the first pipe side of the second pipe, and at least one of the first joint member and the second joint, A deficient portion that is spaced apart in the extending direction of the first pipe or the second pipe is formed, the first pipe first joint member, the second joint member in the second pipe, Bonding to, those characterized by connecting the first pipe and the second pipe.

  According to the pipe roof and the method for forming the pipe according to the present invention, the newly installed pipe can be smoothly promoted while the joint members in the adjacent pipes are engaged with each other.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In each embodiment, portions having the same function are denoted by the same reference numerals, and redundant description may be omitted.

  1 (a) and 1 (b) are perspective views of a pipe constituting the pipe roof according to the present invention. As shown in FIGS. 1A and 1B, the pipe 1 according to the present embodiment includes a single pipe 2. As shown in FIG. 2, the pipe 1 is formed by arranging a plurality of pipe single pipes 2 in the vertical direction, and a pipe roof is formed by arranging a plurality of pipes 1 along the extending direction thereof. ing. The pipe fool is formed by propelling the pipe 1 from the base end side of the pipe 1 toward the terminal end side. The single pipe 2 has a cylindrical shape, and the length is about 3000 mm and about 6000 mm.

  A plurality of types of pipe single pipes 2 are used. In any pipe single pipe 2, as shown in FIG. 1 (a), a male joint member serving as a first joint member is formed on one side. 3 and a female joint member 4 serving as a second joint member is provided on the other side. Both the male joint member 3 and the female joint member 4 are formed along the extending direction of the pipe single pipe 2 over substantially the entire length excluding the front and rear ends of the pipe single pipe 2, for example, a pipe single pipe 2 of about 3000 mm. About 2700 mm, about 6000 mm pipe single pipe 2 is provided over about 5700 mm. However, the range of about 150 mm at the front and rear end portions is a surplus portion where the male joint member 3 and the female joint member 4 are not provided. These surplus portions are filled in with a distance piece (not shown) interposed at a portion where the pipe single tubes 2 are connected to each other. Further, the surplus portion is left as it is at the front end portion and the rear end portion of the pipe 1.

  In addition, the male joint member 3 and the female joint member 4 in the single pipe 2 are prepared with and without a notch. In the single pipe 2 shown in FIG. 1A, a cutout portion is formed in the male joint member 3, while a cutout portion is not formed in the female joint member 4. In the example shown in FIG. 1B, the male joint member 3 is not formed with a notch, while the female joint member 4 is formed with a notch.

  For example, the pipe single pipe 2 shown in FIG. 1A will be described. The male joint member 3 includes a male joint leg portion 31 and a male joint body portion 32. As shown in FIG. 4A, the male joint leg 31 has a substantially U-shaped cross section. The male joint body 32 has a substantially T-shaped cross section, and includes a shaft 32A and a protrusion 32B. The male joint main body 32 is attached to the tip of the male joint leg 31. On the other hand, the female joint member 4 includes a female joint leg portion 41 and a female joint body portion 42. The female joint leg 41 has a substantially U-shaped cross section. The female joint body 42 has a substantially C-shaped cross section and includes an upper flange portion 42U and a lower flange portion 42D. The female joint body 42 is attached to the tip of the female joint leg 41.

  Further, the male joint main body 32 is formed with a male joint notch 33 which is a missing portion of the present invention. The male joint notch 33 is formed in such a manner that the protrusion 32 </ b> B in the male joint main body 32 is removed so as to be separated in the extending direction of the pipe single pipe 2. The male joint notch 33 is formed with a predetermined length in the longitudinal direction of the pipe single pipe 2 as shown in FIG. When the length of the single pipe 2 is about 6000 mm, the length of the male joint notch 33 is about 4000 mm. In the example shown in FIG. 3A, the male joint main body 32 remains in each of the front end portion and the rear end portion of the pipe single pipe 2. For example, the rear end portion of the pipe single pipe 2 is used. Only the male joint main-body part 32 remains, and the front of the male joint main-body part 32 can be made into the male joint notch part 33 as a whole.

  Further, of the remaining portion from the male joint notch 33 in the male joint main body 32, the tip portion at the rear portion in the digging direction of the pipe single pipe 2 is widened from the inside toward the outside as it moves rearward in the propulsion direction. A taper 32C is provided. The taper 32 </ b> C is widened in the direction away from the male joint notch 33. The male joint notch 33 formed in the male joint main body 32 can be configured to cut out a desired portion after the male joint main body 32 is manufactured by extrusion molding or the like, and is premised on cutting. It is also possible to mold using a mold or the like.

  On the other hand, the female joint main body 42 is formed with a female joint notch 43 which is a missing portion of the present invention. The female joint notch portion 43 is formed in such a manner that the upper flange portion 42U of the female joint main body portion 42 is missing in such a manner as to be separated in the extending direction of the pipe single pipe 2. The female joint notch 43 is formed with a predetermined length in the longitudinal direction of the pipe single pipe 2 as shown in FIG. When the length of the single pipe 2 is about 6000 mm, the length of the female joint notch 43 is about 4000 mm. Similarly to the case of the male joint 3, the female joint 4 is configured such that the female joint body 42 remains in each of the front end portion and the rear end portion of the pipe single pipe 2 in the example shown in FIG. However, for example, the female joint main body 42 may remain only at the rear end of the pipe single pipe 2, and the front of the female joint main body 42 may be a female joint notch 43 as a whole.

  Of the remaining portion from the female joint notch 43 in the female joint main body 42, the tip portion of the pipe single pipe 2 at the rear in the digging direction is moved to the upper flange portion 42 U and the lower portion as it moves rearward in the propulsion direction. A taper 42A is provided to reduce the distance from the flange portion 42D. The taper 42A is widened in the direction in which the space between the upper flange portion 42U and the lower flange portion 42D expands in the direction away from the female joint notch 43. The female joint notch 43 formed in the female joint main body 42 is configured to cut out a desired portion after the female joint main body 42 is manufactured by extrusion or the like, as in the case of the male joint member 3. It is also possible to mold using a mold or the like without assuming resection.

  The single pipe 2 described here is used when the single pipe 2 is moved along the existing pipe. On the other hand, there is also a mode in which a pipe single pipe is inserted after the pipe has been previously constructed as a pipe single pipe. In this case, the rear end portion of the male joint main body 32 in the front portion in the propulsion direction is provided with a taper that widens from the inside toward the outside as it moves forward in the propulsion direction. Further, the rear end portion of the female joint main body portion 42 in the front portion in the propulsion direction is provided with a taper 42A in which the distance between the upper end portion and the lower end portion becomes narrower as it moves rearward in the propulsion direction.

  Of the joint portions between the male joint member 3 and the female joint member 4, in the portion where the notch is not formed, as shown in FIG. The male joint main body 32 in the male joint member 3 is fitted and joined. Here, the upper flange portion 42U and the lower flange portion 42D of the female joint body portion 32 cover the protrusion 32B of the male joint body portion 32.

  Moreover, in the part in which the male joint notch 33 in the male joint member 3 is formed, the male joint main body part 32 with respect to the female joint main body part 42 in the female joint member 4 as shown in FIG. The shaft portion 32A is inserted into the shape. Further, in the portion of the female joint member 4 where the female joint notch portion 43 is formed, the lower end portion of the female joint body portion 42 is the male joint body portion 32 of the male joint member 3 as shown in FIG. It is supposed to be located below.

  In each pipe single pipe 2, a notch is formed in either the male joint main body part 32 or the female joint main body part 42. However, between the adjacent pipe single pipes 2, any one of the longitudinal directions thereof is provided. The joined state shown in FIG. 4A is formed at the position.

  Further, as shown in FIG. 5, the pipe roof is formed by arranging 23 pipes 1 side by side. As shown in FIG. 6, the pipes 1 are connected to each other so that 20 pipe single pipes 2 are along the longitudinal direction. Each pipe 1 uses the same male and female joint member formed on its side surface.

  Specifically, in the pipe single pipes A-1 to A-20 in the pipe 1 in the first row, the left joint member is not formed as viewed from the back in the propulsion direction, and the male joint member 3 is used as the right joint member. A formed pipe single pipe is used. Moreover, the pipe single pipes B-1 to B-20, C-1 to C-20, D-1 to D-20, E-1 to E-20 in the pipes of the 2nd to 5th rows and the 13th to 16th rows. , M-1 to M-20, N-1 to N-20, O-1 to O-20, and P-1 to P-20, the female joint member 4 is the left joint member when viewed from the back in the propulsion direction. A single pipe formed with a male joint member 3 is used as a right joint member.

  Furthermore, the pipe single pipes G-1 to G-20, H-1 to H-20, I-1 to I-20, J-1 in the 7th to 11th rows and the 18th to 22nd rows of pipes. ~ J-20, K-1 to K-20, R-1 to R-20, S-1 to S-20, T-1 to T-20, U-1 to U-20, V-1 to V In −20, a pipe single pipe in which the male joint member 3 is formed as the left joint member when viewed from the back in the propulsion direction and the female joint member 4 is formed as the right joint member is used.

  Moreover, in the pipe single pipes F-1 to F20 and Q1-Q20 in the pipes in the sixth row and the 17th row, the pipes in which the female joint members 4 are formed as both right and left joint members when viewed from the back in the propulsion direction. A single tube is used. And in the pipe single pipes L-1 to L-20 in the twelfth row of pipes, pipe single pipes in which the male joint members 4 are formed as both right and left joint members when viewed from the back in the propulsion direction are used. Yes.

  And in the pipe single pipes W-1 to W-20 in the 23rd row, the right joint member as viewed from the back in the propulsion direction is not formed, and the single pipe member in which the male joint member 3 is formed as the right joint member. A tube is used.

  Moreover, the joining aspect in adjacent pipes is shown in FIG. In FIG. 5, the portion indicated by the joint portion X- 1 is a portion where neither the male joint member 3 nor the female joint member 4 is formed with a notch. Moreover, the part shown by the junction part X-2 is a part by which the male joint notch part 33 is formed in the male joint main-body part 32 in the male joint member 3 among the male joint member 3 and the female joint member 4. FIG. Furthermore, the part shown by the joining part X-3 is a part by which the female joint notch part 43 is formed in the female joint main-body part 42 in the female joint member 4 among the male joint member 3 and the female joint member 4. FIG.

  Next, a method for forming a pipe roof according to the present embodiment will be described. In the present embodiment, when forming the pipe roof, the pipes L in the 12th row shown in FIG. 6 are first constructed. When constructing the pipe L, first, the pipe single pipe L-1 is pushed by a jack from the rear part in the propulsion direction. Thereafter, the pipe single pipes L-2, L-3,... Are sequentially pushed in, and finally the pipe single pipe L20 is pushed in, so that the construction of the 12 rows of pipes L is completed.

  Subsequently, the pipes K and M in the 11th and 13th rows adjacent to the pipe L in the 12th row are constructed at the same time. Here, in constructing the pipe K in the eleventh row, the male joint member formed on the right side of the first pipe single pipe K-1 in the pipe K with respect to the female joint member 4 formed on the left side of the pipe L. 3 is inserted. The rear end portion of the female joint member 4 in the 12th row pipe L and the front end portion of the male joint member 3 provided in the first pipe single pipe K-1 in the 11th row pipe K are both notched. The part is not formed. For this reason, the first pipe single pipe K-1 in the 11th row pipe K can be arranged along the side of the existing 12th row pipe L, and the 12th row pipe L The first pipe single pipe K-1 in the pipe K of the eleventh row can be guided to the joining position.

  Thus, when the first pipe single pipe K-1 in the 11th row pipe K is moved to a position adjacent to the existing pipe L, the pipe single pipe K-1 is pushed in by a jack. Subsequently, the pipe single pipe K-2 is pushed in with a jack. Here, a male joint notch 33 is formed in the male joint body 32 of the male joint member 3 of the pipe single pipe K-2. By forming the male joint notch 33, friction with the female joint member does not occur. Therefore, for example, even when the pipe single pipe K-2 is distorted with respect to the pipe L in the twelfth row, the male joint member 3 in the pipe single pipe K-2 is connected to the pipe L in the twelfth row. The female joint member 4 can be smoothly joined. In addition, a single pipe having a long distance in the propulsion direction can be used. Furthermore, since the friction between the male joint member 3 and the female joint member 4 can be reduced, it is possible to prevent the propulsive force when pushing the single pipe from being excessive.

  Here, when the male joint member 3 is inserted into the female joint member 4, the male joint member 3 is formed with the joint notch 33, so that the male joint notch 33 is inserted into the female joint member 4. There is a concern that it will be an obstacle. In this regard, the male joint body 32 in the male joint member 3 according to the present embodiment is provided with a taper 32C that widens from the inside toward the outside as the pipe K moves rearward in the propulsion direction. The male joint member 3 can be reliably guided to the female joint member 4 by the taper 32C. Therefore, it is possible to prevent the male joint notch 33 from interfering with the insertion into the female joint member 4.

  Further, at the position where the male joint cutout portion 33 is formed, the male joint member 3 does not substantially exhibit the joining force with respect to the female joint member 4. Here, if the male joint member 3 is separated from the female joint member 4, there is a concern that the upper ground in the joint members 3, 4 may drop, but in this embodiment, the female joint member 4 On the other hand, the male joint main body 32 is inserted. For this reason, the fall of the upper ground in both joint members 3 and 4 can be prevented.

  Furthermore, since the male joint notch 33 is formed, there is a concern that the male joint member 3 and the female joint member 4 are separated from each other. In any of K-20, the male joint member 3 in which notched portions are not formed at both front and rear end portions thereof is provided. For this reason, when the 11th row pipe K is constructed, each pipe single pipe K-1 to K-20 can be reliably joined to the female joint member 4 in the 12th row pipe L.

  Thereafter, the pipe single tubes K-3, K-4,..., K-20 are sequentially pushed in with a jack. Thus, the construction of the pipe K is completed. The construction of the pipe M in the 13th row is also completed by the same procedure. In constructing the pipe M in the 13th row, the male joints of the pipe single tubes M1 to M20 in the pipe M with respect to the female joint members 4 provided in the pipe single tubes L1 to L20 in the pipe L in the 12th row. The member 3 is inserted.

  Here, in each of the pipe single pipes L1 to L20 in the pipe L in the twelfth row, a female joint notch 43 is formed in the female joint main body portion 42 of the female joint member 4. When the male joint member 3 is inserted into the female joint member 4, there is a concern that the male joint member 3 is separated from the female joint notch 43. In this regard, the female joint body 42 in the female joint member 4 according to the present embodiment is provided with a taper 42A in which the distance between the upper end and the lower end decreases as the pipe K moves forward in the propulsion direction. The male joint member 3 can be reliably guided to the female joint member 4 by the taper 42A. Therefore, the male joint member 3 can be reliably guided to the female joint member 4.

  Thereafter, pipes J and N in the 10th and 14th rows, pipes I and O in the 9th and 15th rows are sequentially constructed, and pipes A and W in the first and 23rd rows are finally constructed. As a result, a pipe roof is formed.

  As described above, in the method for forming a pipe roof according to the present embodiment, the joint member formed on the pipe is formed with a notch. For this reason, since the frictional force produced between joints becomes small, the propulsion of the pipe can be smoothly performed with a small propulsive force. Also, a long pipe can be used.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to the above embodiment. For example, in the said embodiment, although the thing of the aspect which removed the protrusion part 32B was used as the male joint notch part 33 of the male joint main-body part 32 in the male joint member 3, as shown to Fig.7 (a), One obtained by removing only the upper part of the protruding part 32B or one obtained by removing only the lower part of the protruding part 32B as shown in FIG. 7B can be used. In addition, the female joint notch 43 of the female joint main body 42 in the female joint member 4 is used in which the upper flange 42U is missing, but the lower flange 42D is missing as shown in FIG. 7C. Can be used. In the case where such a member having the lower flange portion 42D is used, the upper flange portion 42U prevents the earth and sand from entering the joint portion between the male joint member 3 and the female joint member 4 from above. it can.

  Moreover, in the said embodiment, the male joint member 3 which has the male joint leg part 31 and the male joint main-body part 32 of a cross-sectional substantially T shape as a joint member, the female joint leg part 41, and the main-body part of a cross-sectional substantially C-shape. Although the female joint member 4 having 42 is used, other types of joint members may be used. For example, as shown in FIG. 8 (a), an embodiment using a male joint member 51 having a substantially T-shaped cross section that does not have a leg portion and a female joint member 52 having a substantially U-shaped cross section that also has no leg portion. can do. In this aspect, when the notch is formed in the male joint member 51, the protrusion 51A indicated by the phantom line can be removed. Moreover, when forming a notch part in the female joint member 52, it can be set as the aspect which lose | disappears one or both of the upper end part 52A and the lower end part 52B which are shown with a virtual line.

  Alternatively, as shown in FIG. 8 (b), it is possible to use a male / female joint 53, 54 having a substantially C-shaped cross section. In this case, in this aspect, when the notch is formed, one or both of the upper end portions 53A and 54A and the lower end portions 53B and 54B indicated by phantom lines can be lost.

  Further, as shown in FIG. 8 (c), a mode in which a male joint member 55 having a substantially T-shaped cross section having no leg portion and a female joint member 56 having a substantially C-shaped cross section having no leg portion is used. can do. In this aspect, when the notch is formed in the male joint member 55, the protrusion 55A indicated by the phantom line can be removed. Moreover, when forming a notch in the female joint member 56, one or both of the upper end portion 56A and the lower end portion 56B indicated by phantom lines can be removed.

(A) (b) is a perspective view of the pipe which comprises a pipe roof. It is the rear view which looked at the adjacent pipe in a pipe roof from the back side. (A) is the side view of the pipe seen from the male joint member side, (b) is the side view of the pipe seen from the female joint member side. (A) is sectional drawing of the junction part of the male joint and female joint in which the notch part is not formed, (b) is the junction part of the male joint and female joint in which the notch part was formed in the male joint member. Sectional drawing (c) is a sectional view of a joint portion between a male joint and a female joint in which a notch is formed in the female joint member. It is the rear view which looked at the pipe roof from the back side. It is a top view of a pipe roof. (A) is sectional drawing of the junction part of the male joint and female joint which shows the other example of the notch part formed in a male joint member, (b) is another example of the notch part formed in a male joint member. Sectional drawing of the junction part of the male joint and female joint which show this, (c) Sectional drawing of the junction part of the male joint and female joint which shows the other example of the notch part formed in a female joint member (A)-(c) is sectional drawing of the junction part of the male coupling and female coupling which show the other example of a coupling member.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Pipe 2 ... Pipe single pipe 3 ... Male joint member 31 ... Male joint leg part 32 ... Female joint main-body part 32A ... Shaft part 32B ... Projection part 32C ... Taper 33 ... Male joint notch part 4 ... Female joint member 41 ... Male joint leg part 42 ... Female joint body part 42 A ... Taper 42 U ... Upper flange part 42 D ... Lower flange part 43 ... Female joint notch parts 51 and 55 ... Male joint members 52 and 56 ... Female joint members 53 and 54 ... Fitting

Claims (7)

In a pipe roof formed by juxtaposing a plurality of pipes along the extending direction thereof, and propelling the pipes from the base end side to the terminal end side of the pipes,
A first joint member is formed in a side position on the second pipe side of the first pipe among the adjacent first pipe and second pipe along the extending direction of the first pipe, and the second pipe A second joint member is formed at a lateral position on the first pipe side along the extending direction of the second pipe, and the first joint member and the second joint member are joined together to form the first pipe. And the second pipe are connected,
A pipe roof, wherein at least one of the first joint member and the second joint is formed with a missing portion that is separated in the extending direction of the first pipe or the second pipe. The joint member is formed from the extending direction end portion position on the base end side in the pipe to the extending direction end portion position on the terminal end side,
The pipe roof according to claim 1, wherein the missing portion of the joint member is formed at a position excluding an end portion in the extending direction of the joint member.   The first joint member is a male joint member in which a protrusion is formed, and the second joint member is a female joint member into which the male joint member is inserted. The pipe roof as described. The protrusion in the male joint member is formed along a height direction, and the female joint member includes an upper flange portion and a lower flange portion that respectively cover the protrusion from above and below.
The pipe roof according to claim 3, wherein the missing portion is formed in a form in which the upper flange portion is missing. The first joint member is a female joint member into which the male joint member is inserted, and the second joint member is a male joint member in which a protrusion is formed,
The pipe roof according to claim 1, wherein the defect portion is formed in a form in which the protrusion is removed.   6. The taper that is widened in the extending direction of the projection as the distance from the defect is increased with respect to the projection near the defect in the male joint member. The pipe roof as described. In a pipe roof forming method in which a plurality of pipes are arranged side by side along the extending direction, and the pipe is formed by propelling the pipe from the base end side to the terminal end side of the pipe,
A first joint member is formed in a side position on the second pipe side of the first pipe among the adjacent first pipe and second pipe along the extending direction of the first pipe, and the second pipe A second joint member is formed along the extending direction of the second pipe at a side position on the first pipe side of the second pipe;
At least one of the first joint member and the second joint is formed with a missing portion that is separated in the extending direction of the first pipe or the second pipe,
A method for forming a pipe roof, wherein the first pipe first joint member and the second joint member of the second pipe are joined to connect the first pipe and the second pipe. .

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