KR100454816B1 - structure for building tunnel under the ground - Google Patents

Abstract

The present invention comprises a bottom plate portion disposed on the basement floor, a pair of side wall portions disposed on both sides with the bottom plate portion interposed therebetween, and an upper plate portion connected to the side wall portion to cover an upper portion of the bottom plate portion. An underground cavity structure forming a pupil, wherein the at least one sidewall portion includes an accessory bottom plate portion disposed on the bottom surface and a longitudinal direction of the accessory cavity in each of the outer upper regions and disposed on both sides in an upright direction with respect to the accessory bottom plate portion. A pair of accessory side wall portions protruding from the plate surface and having support ribs for supporting the upper plate portion, an accessory upper plate portion connected to the accessory side wall portion to cover the accessory bottom plate portion, and the accessory bottom plate portion and the accessory upper plate portion Forming a pair of accessory cavities including a horizontal partition wall interposed between the accessory bottom plate and the accessory upper plate It features. Thereby, the space utilization of the underground joint structure can be improved.

Description

Underground joint structure {structure for building tunnel under the ground}

The present invention relates to an underground cavity structure, and more particularly, to an underground cavity structure capable of performing a complex function by forming an accessory cavity on both sides of the main cavity to increase space utilization.

In general, underground joint structures are used to form waterways such as stormwater, sewage and agricultural industrial water, or to create passageways such as sidewalks and driveways, while underground underground constructions for telecommunications and laying of hot and cold pipelines and agricultural and marine products. It is widely used for the production of storage warehouses and the like.

In particular, the conventional underground cavity structure that forms a hollow hole in the basement so that a vehicle can pass, includes a bottom plate portion disposed on the basement floor, a pair of side wall portions disposed on both sides of the bottom plate portion, and a side wall portion. And an intermediate plate portion interposed between the bottom plate portion and the upper plate portion in an upright direction with respect to the bottom plate portion, the upper plate portion being in contact with the bottom plate portion.

As such, the conventional underground structure simply forms a hollow sphere for vehicle traffic, and only serves as a passage through which the vehicle passes, but was not utilized as another space. In addition, a separate culvert had to be buried if it was necessary to form an underground roadway around a common ward used as a roadway or to bury several types of pipes underground.

Therefore, if multiple joints are formed in underground joint structures that form joint holes that are used only by underground roads, such joint holes can be used as a space for guiding or laying various types of pipes underground. As a result, it will be possible to provide underground joint structures that can perform complex functions.

Accordingly, an object of the present invention is to provide an underground cavity structure capable of performing a complex function by improving space utilization.

1 is an exploded perspective view of an underground joint structure according to a first embodiment of the present invention;

2 is an assembled state diagram of the underground joint structure according to the first embodiment of FIG.

3 is an exploded perspective view of the underground joint structure according to the second embodiment of the present invention;

4 is an assembled state diagram of the underground joint structure according to the second embodiment of FIG.

5 is an exploded perspective view of the underground joint structure according to the third embodiment of the present invention;

6 is an assembled state diagram of the underground joint structure according to the third embodiment of FIG.

7 is an exploded perspective view of the underground joint structure according to the fourth embodiment of the present invention;

8 is an assembled state diagram of the underground joint structure according to the fourth embodiment of FIG.

9 is a cross-sectional view taken along the line VII-VII of FIG. 8;

10 is an exploded perspective view of the underground joint structure according to the fifth embodiment of the present invention;

11 is an assembled perspective view of the underground joint structure according to the fifth embodiment of FIG. 10;

12 is an exploded perspective view of the underground joint structure according to the sixth embodiment of the present invention;

FIG. 13 is an assembled state diagram of the underground joint structure according to the sixth embodiment of FIG. 12.

* Explanation of symbols for the main parts of the drawings

1a: Main common area 3a: Main common area

5a: sub-coast 7a: sub-co-dong

10a: bottom plate portion 20a: top plate portion

30a: intermediate partition 40a: attached bottom plate

50a: Attached side wall part 60a: Attached upper plate part

70a: horizontal bulkhead

The object is, according to the present invention, a bottom plate portion disposed on the basement floor, a pair of side wall portions disposed on both sides with the bottom plate portion interposed therebetween, and an upper plate portion in contact with the side wall portion to cover an upper portion of the bottom plate portion. In an underground cavity structure configured to form a main cavity in the basement, at least one sidewall portion is disposed on the bottom surface and protrudes from the plate surface along the longitudinal direction of the accessory cavity in each outer upper region to support the upper plate portion. A pair of accessory side wall parts having ribs formed therein, an accessory upper plate part connected to the accessory side wall part to cover the accessory bottom plate part, and a horizontal interposed between the accessory bottom plate part and the accessory upper plate part to be parallel to the accessory bottom plate part and the accessory upper plate part. It is achieved by the underground cavity structure, characterized in that to form a pair of accessory cavity including the partition wall.

In addition, the auxiliary bottom plate is preferably formed integrally with the bottom plate.

In addition, the accessory bottom plate portion is provided with an extension portion extending from the end surface on the end surface adjacent to the bottom plate portion, and includes a post grouting portion that is post-grouted and poured between the extension portion and the bottom plate portion.

The side wall portion is preformed integrally with the accessory bottom plate portion, the accessory side wall portion, the accessory upper plate portion, and the horizontal partition wall portion.

The subsidiary side wall portion includes a lower subsidiary side wall which is in contact with the subsidiary bottom plate part with the horizontal partition wall part interposed therebetween, and an upper subsidiary side wall which is in contact with the upper plate part.

On the other hand, the lower attachment side wall is formed integrally with the horizontal partition wall portion, and the upper attachment side wall is formed integrally with the accessory upper plate portion.

On the other hand, the lower attachment side wall is formed integrally with the horizontal partition wall portion and the accessory bottom plate portion, and the upper attachment side wall is formed integrally with the accessory upper plate portion.

The transverse bulkhead portion has a pair of reinforcing ribs formed on both sides of the upper surface along the longitudinal direction of the accessory cavity, and the reinforcing ribs are fitted to be in close contact with the inner surface of the upper side attachment wall.

Here, a cutout portion recessed to a predetermined depth along a longitudinal direction is formed in a contact region of the upper side attachment wall and the horizontal partition wall, and a plate having a plurality of through-holes inserted into the cutout portion and formed through the plate surface. It is preferable to further include a bolt passing through the through-hole of the upper side-side wall and the plate surface of the contact area of the horizontal partition wall portion.

On the other hand, the accessory top plate portion is formed integrally with the top plate portion, the accessory bottom plate portion is formed integrally with the bottom plate portion.

Here, a fastening device is installed in the contact area of the accessory side wall portion and the accessory upper plate, and the fastening device includes an insert nut having a male thread formed therein, and a bolt having a female threaded portion that may be coupled to the male thread of the insert nut. It is desirable to have.

On the other hand, the accessory side wall portion is formed in the inner central region protruding from the plate surface along the longitudinal direction of the accessory cavity is formed with a mounting rib for mounting the horizontal partition wall portion.

On the other hand, the accessory side wall portion is formed integrally with the horizontal partition wall portion.

The accessory side wall part includes a lower part side wall which is in contact with the accessory bottom plate part between the horizontal partition wall part, and an upper part side wall which is in contact with the upper plate part, and the lower part side wall is integrally formed with the horizontal partition wall part. do.

On the other hand, it is preferable to include a post grout reinforcement portion that is post-grouted in the inner lower region of the upper side attachment wall to protrude from the plate surface.

In addition, a cutout portion recessed to a predetermined depth along a longitudinal direction is formed in a contact region of the upper side attachment wall and the horizontal partition wall, and a plurality of through holes inserted into the cutout portion and penetrating a plate surface are formed in the post grouting reinforcement portion. It is preferable that a bolt formed through the plate formed through the through hole and penetrating the plate surface of the contact area between the upper side wall and the horizontal partition wall portion are provided.

On the other hand, the reinforcing bar is preferably disposed inside the post grout reinforcing portion.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of the underground joint structure according to the first embodiment of the present invention, Figure 2 is an assembled state diagram of the underground joint structure according to the first embodiment of FIG. As shown in these figures, the underground cavity structure according to the present invention, the main cavity (1a) to form the main cavity (3a) in the central region, and the auxiliary cavity 7a formed on both sides of the main cavity (3a) It has an attached cavity 5a.

The main cavity 1a is connected to a bottom plate part 10a disposed on the basement floor, an accessory cavity part 5a, which is a side wall part disposed on both sides with the bottom plate part 10a therebetween, and the accessory cavity part 5a. The upper plate portion 20a covering the upper portion of the bottom plate portion 10a and an intermediate partition wall portion 30a interposed between the bottom plate portion 10a and the top plate portion 20a in a standing direction with respect to the bottom plate portion 10a. The copper sphere 3a is formed.

The bottom plate portion 10a is installed on the basement floor in a flat almost rectangular shape, and on one side, the reinforcing bar 11a is exposed for post grouting, and the bottom plate portion rib 12a protruding from the plate surface is formed on the other top surface. It is formed along the longitudinal direction of the copper sphere 3a.

The intermediate bulkhead portion 30a is disposed in an upright direction with respect to the bottom plate portion 10a, and both end portions are formed with flange portions 31a extending in the thickness direction, and the flange portion 31a accommodates ribs recessed from the plate surface. The portions 32a are formed to accommodate the bottom plate ribs 12a of the bottom plate portion 10a and the top plate ribs 21a of the top plate portion 20a to be described later.

The upper plate portion 20a has an almost rectangular shape, and upper side plate ribs 21a are formed at both end portions along the longitudinal direction of the main cavity 3a, and the upper plate portion ribs 21a formed at one end thereof are intermediate partition walls 30a. The upper plate rib 21a, which is accommodated in the rib receiving portion 32a, is formed in the rib coupling portion 52a of the supporting side wall portion 50a and the supporting rib 51a, which will be described later.

The auxiliary cavity part 5a, which is a side wall part, includes an accessory bottom plate part 40a disposed on the basement floor surface adjacent to the bottom plate part 10a, and a pair of accessory side walls formed on both sides in an upright direction with respect to the accessory bottom plate part 40a. The upper plate portion 60a, which is positioned above the portion 50a, the upper side wall portion 50a and connected to the upper plate portion 20a, and is parallel to the upper plate portion 60a and the attached bottom plate portion 40a. ) And the horizontal partition wall part 70a interposed between the bottom plate part 40a, and the accessory bottom plate part 40a, the accessory upper plate part 60a, the accessory side wall part 50a, and the horizontal partition wall part 70a are integrally formed. It is preformed to form two accessory cavities 7a on each side of the main cavity 3a.

The attached bottom plate portion 40a is provided with an extension portion 42a extending from the plate surface at one end of the both ends adjacent to the bottom plate portion 10a toward the bottom plate portion 10a, and at the end of the extension portion 42a. The reinforcing bar 41a for post grouting is exposed together with the reinforcing bar 11a of the plate part 10a.

The accessory side wall portion 50a is formed in an upright direction with respect to the accessory bottom plate portion 40a, and a support rib 51a protruding from the plate surface is formed in the longitudinal direction of the cavity to support the upper plate portion 20a in one outer wall upper region. It is formed along the upper surface of the support rib (51a) is provided with a rib coupling portion (52a) recessed to accommodate the top plate rib (21a).

The attached upper plate portion 60a has an almost rectangular shape and is in contact with one end surface of the upper plate portion 20a placed on the support rib 51a of the attached side wall portion 50a.

The horizontal partition wall part 70a is formed in the inner central region of both accessory side wall parts 50a in parallel with the accessory bottom plate part 40a and the accessory upper plate part 60a, and the accessory bottom plate part 40a and the accessory upper plate part 60a. And the space formed by the accessory side wall portion 50a is divided horizontally.

In the assembling process of the underground cavity structure according to the first embodiment, the two bottom plate portions 10a are arranged to be in contact with each other, and then the ribs of the bottom plate portion ribs 12a and the intermediate partition portion 30a of the bottom plate portion 10a are disposed. The intermediate partition wall portion 30a is erected on the bottom plate portion 10a by engaging the receiving portion 32a. Also, the reinforcing bar 11a of the bottom plate part 10a and the reinforcing bar 41a of the attached bottom plate part 40a are disposed to be adjacent to each other, and have a predetermined width and are recessed from the surface. To form. In addition, one end of the upper plate portion 20a is placed on the support rib 51a of the accessory side wall portion 50a, and the upper plate portion rib 21a of the upper plate portion 20a is coupled to the rib coupling portion 52a of the support rib 51a. The top plate rib 21a of the other end is accommodated in the rib receiving portion 32a of the intermediate partition 30a. Then, grouting is poured into the post grouting groove 80a to form a post grout portion 81a in which the grouting and the reinforcing bars 11a and 41a are assembled. Again, as shown in Fig. 2, the main cavity 3a is formed in the central region, and the accessory cavity 7a is formed on both sides of the main cavity 3a.

3 is an exploded perspective view of the underground joint structure according to the second embodiment of the present invention, Figure 4 is an assembled state diagram of the underground joint structure according to the second embodiment of FIG.

Hereinafter, a description of the same configuration as that of the first embodiment will be omitted, and the same names and reference numbers will be used for the same configuration as the above-described first embodiment among the configurations described in the present embodiment. .

The accessory cavity 5b includes an accessory bottom plate part 40b disposed on the basement floor so as to be adjacent to the bottom plate part 10b, and a pair of accessory side wall parts formed on both sides in an upright direction with respect to the accessory bottom plate part 40b ( 50b), an accessory upper plate portion 60b formed on an upper side of the accessory side wall portion 50b and connected to the upper plate portion 20b, and an accessory upper plate portion 60b so as to be parallel to the accessory upper plate portion 60b and the accessory bottom plate portion 40b. The horizontal partition wall part 70b interposed between the attached bottom plate parts 40b is included.

The horizontal partition wall portion 70b has a coupling rib 71b protruding from the upper surface so as to be engaged with the coupling groove 55b of the upper side wall 54b to be described later on the upper surface, and both coupling ribs 71b inside the coupling rib 71b. A pair of reinforcing ribs 72b are formed along the longitudinal direction of the accessory cavity 7b, and the reinforcing ribs 72b are in close contact with the inner wall of the upper attachment side wall 54b to be forced against the upper attachment side wall 54b. Is fitted.

The accessory side wall portion 50b includes a lower attachment side wall 53b pre-formed integrally with the accessory bottom plate portion 40b and the horizontal partition wall portion 70b, and an upper attachment side wall 54b pre-formed integrally with the accessory top plate portion 60b. It is composed of

The upper side wall 54b is formed integrally with the upper plate portion 60b, and is formed recessed from the plate surface at the contact end portion in contact with the horizontal partition wall portion 70b to accommodate the coupling rib 71b of the horizontal partition wall portion 70b. A coupling groove 55b is provided, and a support rib 51b protruding from the plate surface is formed along the longitudinal direction of the cavity in the upper region of the outer wall to contact and support the upper plate portion 20b, and an upper portion of the support rib 51b. The surface is provided with a rib coupling portion 52b recessed to accommodate the top plate rib 21a.

In the assembling process of the underground cavity structure according to the second embodiment, the two bottom plate portions 10b are arranged to be in contact with each other, and then the ribs of the bottom plate portion rib 12b and the intermediate partition portion 30b of the bottom plate portion 10b are disposed. The intermediate partition wall portion 30b is erected on the bottom plate portion 10b by engaging the receiving portion 32b. In addition, the reinforcing bar 11b of the bottom plate part 10b and the reinforcing bar 41b of the accessory bottom plate part 40b are disposed to be adjacent to each other, and have a predetermined width and are recessed from the surface. To form. In addition, the engagement groove 55b of the upper side wall 54b and the engagement rib 71b of the horizontal bulkhead portion 70b are engaged with each other, so that the reinforcing rib 72b is closely connected to the inner wall of the upper side wall 54b. Make sure that they are in contact and fit. One end of the upper plate 20b is placed on the support rib 51b of the upper side wall 54b to couple the upper plate rib 21b of the upper plate 20b to the rib coupling portion 52b of the support rib 51b. The upper plate rib 21b of the other end is accommodated in the rib receiving portion 32b of the intermediate partition 30b. Then, grouting is poured into the post grouting groove 80b to form a post grout portion 81b in which the grouting and the reinforcing bars 11b and 41b are assembled. As shown in FIG. 4, the main cavity 3b is formed in the central region, and the accessory cavity 7b is formed on both sides of the main cavity 3b.

As in the first embodiment, the accessory cavity 5a may be integrally formed, but as in the present embodiment, only the accessory bottom plate portion 40b, the lower side wall 53b, and the horizontal partition wall portion 70b are integrally formed. It is also possible to form an accessory cavity portion 5b by integrally forming only the upper plate portion 60b and the upper side wall 54b.

5 is an exploded perspective view of the underground joint structure according to the third embodiment of the present invention, Figure 6 is an assembled state diagram of the underground joint structure according to the third embodiment of FIG.

Hereinafter, a description of the same configuration as in the above-described second embodiment will be omitted, and the same name and reference numerals will be used for the same configuration as the above-described second embodiment among the configurations described in the present embodiment. .

The accessory cavity 5c is formed integrally with the bottom plate portion 10c and is disposed on both sides of the base bottom portion 40c, and a pair of accessories disposed on both sides in an upright direction with respect to the accessory bottom plate portion 40c. The upper plate portion 60c formed on the side wall portion 50c, the upper side wall portion 50c and connected to the upper plate portion 20c, and the upper plate portion 60c and the attached upper plate portion 60c so as to be parallel to the lower plate portion 40c. 60c) and the horizontal partition wall part 70c interposed between the attached bottom plate part 40c.

The bottom plate portion 40c is integrally formed with the bottom plate portion 10c, and the upper and lower sides of the bottom plate portion 40c are engaged with the bottom coupling groove 56c of the bottom attachment side wall 53c, which will be described later. The bottom plate part rib 41c is formed along this.

The horizontal partition wall portion 70c is provided with a coupling rib 71c protruding from the plate surface so as to be engaged with the upper coupling groove 55c of the upper side wall 54c to be described later.

The accessory side wall part 50c is composed of a lower accessory side wall 53c pre-formed integrally with the horizontal partition wall part 70c, and an upper accessory side wall 54c pre-formed integrally with the accessory upper plate part 60c. The side wall 53c is formed with a groove coupling groove 56c recessed from the plate surface to accommodate the bottom plate rib 41c at the contact end contacting the bottom plate portion 40c, and the upper side wall 54c. The upper coupling groove 55c which receives the coupling rib 71c of the horizontal partition wall part 70c is formed in the contact end which contacts the horizontal partition wall part 70c.

On the other hand, the inner wall lower region of the upper side wall 54c and the both side edges of the lower side wall 53c are recessed to a predetermined depth along the longitudinal direction of the accessory cavity 7c, and a through hole is formed at the same position as the through hole to be described later. The portion 57c is provided, and the cut-out portion 57c is inserted with a B-shaped plate 58c having a plurality of through-holes formed through the plate surface, and the plate 58c passes through the through-holes of the plate 58c. It is fixed to the cutout part 57c by the bolt 59c inserted into the passage opening of the cutout part 57c.

With this arrangement, the two bottom plate portions 10c are arranged to butt-contact, and then the bottom plate portion ribs 12c of the bottom plate portion 10c and the rib receiving portion 32c of the intermediate partition wall portion 30c are engaged with each other. The intermediate partition wall portion 30c stands up on the bottom plate portion 10c. Then, the bottom plate part rib 41c of the bottom plate part 40c and the bottom coupling groove 56c of the bottom part side wall 53c are engaged with each other, and the joining rib 71c and the top part side wall of the horizontal partition wall part 70c ( The upper coupling groove 55c of 54c is coupled. Further, one end of the upper plate portion 20c is placed on the support rib 51c of the upper side wall 54c to couple the upper plate rib 21c of the upper plate portion 20c to the rib coupling portion 52c of the support rib 51c. The top plate rib 21c of the other end is accommodated in the rib receiving portion 32c of the intermediate partition 30c. Then, the plate 58c is inserted into the cutout 57c, and the bolt 59c is simultaneously passed through the through hole of the plate 58c and the through hole of the cutout 57c, and the plate 58c is passed through the cutout 57c. Fix it. After grouting the mold (not shown) around the cutout 57c, as shown in FIG. 6, the plate 58c fixed by the grouting and the bolt 59c is assembled, and then the grouting reinforcement 101c is provided. Is formed. 6, the main cavity 3c is formed in the central region, and the accessory cavity 7c is formed on both sides of the main cavity 3c.

Figure 7 is an exploded perspective view of the underground joint structure according to the fourth embodiment of the present invention, Figure 8 is an assembled state diagram of the underground joint structure according to the fourth embodiment of Figure 7, Figure 9 is a Ⅸ- Ⅸ line of FIG. In accordance with the cross-sectional view.

Hereinafter, a description of the same configuration as in the above-described third embodiment will be omitted, while using the same name and reference numerals for the same configuration as the above-described third embodiment among the configurations described in the present embodiment. Shall be.

The upper plate portion 20d is formed integrally with the attached upper plate portion 60d and has a substantially rectangular shape. An upper plate portion rib 21d is formed at one end along the longitudinal direction of the main cavity 3d, and the upper plate portion rib 21d is formed. It is accommodated in the rib accommodation part 32d of the intermediate partition part 30d.

The attachment cavity 5d is formed integrally with the bottom plate portion 10d and is disposed on both sides of the base bottom portion 40d, and a pair of attachment parts are disposed on both sides in the standing direction with respect to the attachment bottom plate portion 40d. 50 d of side wall parts, the attached upper plate part 60d formed in the upper part of the attached side wall part 50d integrally with the upper plate part 20d, and the attached upper plate part so that it may be parallel with the attached upper plate part 60d and the attached bottom plate part 40d. The horizontal partition wall part 70d interposed between 60d and the attached bottom plate part 40d is included.

The accessory side wall portion 50d is installed so as to stand on the accessory bottom plate portion 40d, and the inner side wall portion 51d and the inner side wall portion 51d which are arranged at a predetermined interval from the intermediate partition 30d. It consists of the outer side wall part 52d arrange | positioned at predetermined intervals.

The outer side wall portion 52d has a flange 55d extending in the thickness direction only toward the inner side facing the accessory cavity 7d, and is in contact with the bottom plate portion 40d and the top plate portion 60d. The recessed portion 56d recessed from the plate surface is formed therein to accommodate the attached bottom plate rib 41d of the attached bottom plate portion 40d and the attached top plate rib 61d of the attached top plate portion 60d to be described later, respectively.

The inner side wall portion 51d is interposed between the middle partition wall portion 30d and the outer side wall portion 52d, and both side ends extend in the thickness direction to form the flange portion 53d, and the flange portion 53d. The recessed portion 54d recessed from the plate surface is formed in each of the upper and lower portions so as to accommodate the bottom plate portion rib 41d of the bottom plate portion 40d and the bottom plate portion rib 61d of the bottom plate portion 60d to be described later.

The upper plate portion 60d is integrally formed with the upper plate portion 20d, and the upper plate portion ribs can be engaged with the recesses and the recessed portions 54d and 56d at the contact ends with the inner and outer side wall portions 51d and 52d. 61d is formed, and the through hole is formed in the attached upper plate rib 61d on the same axis as the operation part 62d mentioned later.

A fastening device 90d is provided in the engagement area between the accessory upper plate rib 61d and the recessed and recessed portions 54d and 56d, and the accessory upper plate portion 60d penetrates the plate surface and penetrates the upper plate rib 61d. An operating portion 62d is formed in communication with the sphere and capable of fastening the fastening device 90d.

As shown in Fig. 9, the fastening device 90d is embedded in an end region formed with recesses and recesses 54d and 56d of the accessory side wall portion 50d and threaded therein. And a bolt 92d having a female threaded portion inserted into the operating portion 62d and passing through a through hole of the upper plate rib 61d to be coupled to the thread of the insert nut 91d.

The horizontal bulkhead portion 70d is formed integrally with the accessory side wall portion 50d, and is formed parallel to the bottom plate portion 40d and the accessory upper plate portion 60d in the inner central region of both the accessory side wall portions 50d. The space formed by the plate portion 40d, the attached upper plate portion 60d, and the attached side wall portion 50d is horizontally divided.

By such a configuration, after two bottom plate portions 10d are connected to each other such that one end of the bottom plate portion 10d integrally formed with the attached bottom plate portion 40d is brought into butt contact with each other, the bottom plate portion rib of the bottom plate portion 10d ( 12d) and the rib receiving portion 32d of the intermediate partition 30d are engaged to stand up the intermediate partition 30d on the bottom plate portion 10d. Further, the recesses and recesses 54d and 56d of the inner and outer side side wall portions 51d and 52d are engaged with the accessory bottom plate rib 41d of the accessory bottom plate portion 40d. Then, when the upper opening is blocked by the upper plate portion 20d formed integrally with the accessory upper plate portion 60d, the upper plate rib 21d of the upper plate portion 20d is engaged with the rib receiving portion 32d of the intermediate partition 30d. The upper lid portion 61d of the upper lid portion 60d is accommodated in the recesses and recesses 54d and 56d of the inner and outer side wall portions 51d and 52d. As shown in FIG. 9, when the operation part 62d of the upper plate part 60d and the insert nut 91d embedded in the inner and outer side wall portions 51d and 52d communicate with each other, the bolt 92d is inserted into the insert. Engage with the thread of the nut 91d. After that, grouting is poured on the operation portion 62d.

FIG. 10 is an exploded perspective view of the underground cavity structure according to the fifth embodiment of the present invention, and FIG. 11 is an assembled perspective view of the underground cavity structure according to the fifth embodiment of FIG. 10.

Meanwhile, in the above-described fourth embodiment, the horizontal partition wall portion 70d and the accessory side wall portion 50d are integrally formed. As shown in FIGS. 10 and 11, the horizontal partition wall portion 70e is formed inside and outside. It is manufactured separately from the accessory side wall portions 51e and 52e, and the mounting ribs 53e protruding from the plate surface toward the accessory cavity 7e are formed in the central region of each inner wall of the inner and outer side attachment side walls 51e and 52e. In addition, the horizontal partition wall portion 70e may be placed on the mounting rib 53e to form the accessory cavity 7e.

12 is an exploded perspective view of the underground cavity structure according to the sixth embodiment of the present invention, and FIG. 13 is an assembled state diagram of the underground cavity structure according to the sixth embodiment of FIG. 12.

Hereinafter, a description of the same configuration as the above-described fourth embodiment will be omitted, while the same name and reference numerals will be used for the same configuration as the above-described fourth embodiment among the configurations described in the present embodiment. .

The attachment cavity 5f is formed integrally with the bottom plate portion 10f and is disposed on both sides of the base bottom portion 40f, and a pair of accessories disposed on both sides in an upright direction with respect to the attachment bottom plate portion 40f. The accessory upper plate portion 60f, which is located above the side wall portion 50f, the accessory side wall portion 50f, is formed integrally with the upper plate portion 20f, and the accessory upper plate portion parallel to the accessory upper plate portion 60f and the attached bottom plate portion 40f. A horizontal bulkhead portion 70f interposed between 60f and the attached bottom plate portion 40f.

The horizontal bulkhead portion 70f is provided with a coupling rib 71f protruding from the upper surface to be engaged with the upper coupling groove 55f of the upper side wall 52f to be described later.

The attachment side wall portion 50f is composed of a lower attachment side wall 51f, one end of which is in contact with the attachment bottom plate portion 40f, and an upper attachment side wall 52f, whose one end is in contact with the upper plate portion 20f.

The lower side wall 51f is integrally formed with the horizontal partition wall portion 70f, and the flange end portion 53f is formed by extending in the thickness direction at the contact end portion contacting the bottom plate portion 40f. 53f) is formed with a bottom engaging groove 54f recessed from the plate surface to which the accessory bottom plate part rib 41f of the bottom plate part 40f is engaged.

The upper attachment side wall 52f has an upper engagement groove 55f recessed from the plate surface so as to receive a coupling rib 71f formed on the upper surface of the horizontal partition wall portion 70f at a contact end contacting the horizontal partition wall portion 70f. And a flange portion 56f is formed at the contact end portion in contact with the accessory upper plate portion 60f in the thickness direction, and the flange portion 56f is recessed from the plate surface to be engaged with the accessory upper plate rib 61f. A depression 57f is formed.

On the other hand, the reinforcing steel bars 100f exposed toward the auxiliary cavity 7f are provided in the inner lower region of the upper side wall 52f.

With this configuration, the bottom plate portion rib 12f and the intermediate partition wall portion 30f of the bottom plate portion 10f and the rib receiving portion 30f of the bottom plate portion 10f are brought into contact with each other by forming the bottom plate portion 10f integrally in contact with the bottom plate portion 40f. The part 31f is engaged to erect the intermediate partition 30f in the bottom plate part 10f. Further, the bottom plate part rib 41f of the bottom plate part 40f and the bottom coupling groove 54f of the bottom part side wall 51f are engaged with each other, and the coupling rib 71f of the horizontal partition wall part 70f is engaged with the top part. It is inserted into the upper coupling groove 55f of the side wall 52f. Then, the upper opening is blocked by the upper plate portion 20f formed integrally with the accessory upper plate portion 60f, wherein the upper plate rib 21f of the upper plate portion 20f is engaged with the rib receiving portion 31f of the middle partition wall portion 30f. The subsidiary upper plate rib 61f of the subsidiary upper plate part 60f is accommodated in the recessed part 57f of the subsidiary side wall part 50f. In addition, grouting and forming a mold (not shown) around the reinforcing bar (100f) exposed to extend from the upper side wall 52f, as shown in Figure 13, after the grouting and reinforcing bar (100f) is aggregated The grouting reinforcing portion 101f is formed, and the main cavity is formed in the central region, and the accessory cavity 7f is formed on both sides of the main cavity 3f.

Meanwhile, in the second embodiment, the bottom plate part, the lower part side wall, and the horizontal bulkhead part are integrally formed, and the upper part side wall and the accessory top plate part are integrally formed, and a reinforcing rib is formed on the upper surface of the horizontal bulkhead part. Reinforcing ribs may be formed on the lower surface of the horizontal partition wall by integrally forming the upper side wall and the horizontal partition wall. In addition, although the reinforcing ribs are formed in the horizontal partition wall part in the third embodiment, the reinforcing ribs may be removed, and the post grouting reinforcing part may be formed at the position as in the third embodiment.

In the third embodiment, the post grouting part is formed by embedding a plate fixed by a bolt. However, as in the sixth embodiment, a post grouting part may be formed by embedding reinforcing bars.

In the sixth embodiment, the lower side wall and the horizontal partition wall are integrally formed, but the upper side wall and the horizontal partition wall may be integrally formed.

As described above, according to the present invention, by forming a number of accessory holes in the underground joint structure forming the main hole is used only underground roads, to guide the sub-holes, or to bury various types of pipes underground Since it can be utilized as a space, it is possible to provide an underground joint structure that can increase the space utilization and thereby perform a complex function.

Claims (18)

A bottom plate part disposed on the basement floor, a pair of side wall parts disposed on both sides with the bottom plate part interposed therebetween, and an upper plate part connected to the side wall part to cover an upper part of the bottom plate part to form a main cavity in the basement. In underground joint structure, At least one side wall portion is disposed on both sides in an upright direction with respect to the subsidiary bottom plate portion and the subsidiary bottom plate portion, and at least one side wall portion protrudes from the plate surface along the longitudinal direction of the accessory cavity in each outer upper region to contact the top plate portion. A pair of accessory side wall portions having supporting ribs to support the accessory bottom wall portion connected to the accessory side wall portion to cover the accessory bottom plate portion, and between the accessory bottom plate portion and the accessory upper plate portion so as to be parallel to the accessory bottom plate portion and the accessory upper plate portion. Underground joint structure, characterized in that to form a pair of accessory cavity including an interposed partition wall. delete The method of claim 1, Underground joint structure, characterized in that the bottom plate portion formed integrally with the bottom plate portion. The method of claim 1, The accessory base plate portion is provided with an extension portion extending from the end surface on the end surface adjacent to the bottom plate portion, the underground joint structure comprising a post grouting portion is post-grouted between the extension portion and the bottom plate portion. The method of claim 4, wherein The side wall portion, the underground joint structure, characterized in that the auxiliary bottom plate portion, the accessory side wall portion, the accessory upper plate portion and the transverse bulkhead portion integrally preformed. The method according to claim 3 or 4, And the accessory side wall part comprises a lower part side wall contacting the accessory bottom plate part with the horizontal partition wall part interposed therebetween, and an upper part side wall contacting the upper plate part. The method of claim 6, The lower part side wall is formed integrally with the horizontal partition wall portion, the upper part side wall, the underground joint structure, characterized in that formed integrally with the accessory upper plate. The method of claim 6, The lower part side wall is formed integrally with the horizontal partition wall portion and the attached bottom plate, the upper part side wall, the underground joint structure, characterized in that formed integrally with the accessory upper plate. The method according to claim 7 or 8, The transverse bulkhead portion has a pair of reinforcing ribs formed on both sides of the upper surface along the longitudinal direction of the accessory cavity, and the reinforcing ribs are fitted to be in close contact with the inner surface of the upper side attachment wall. Underground joint structures. The method according to claim 7 or 8, In the contact area of the upper side wall portion and the horizontal partition wall portion is formed a cutout recessed to a predetermined depth along the longitudinal direction, the plate is formed with a plurality of through-holes inserted into the cutout and formed through the plate surface, through the plate Underground joint structure, characterized in that it further comprises a bolt passing through the plate surface of the contact area between the upper side wall and the horizontal partition wall portion. The method of claim 1, The accessory upper plate portion is formed integrally with the upper plate portion, and the sub-base plate structure, characterized in that formed integrally with the bottom plate portion. The method of claim 11, A fastening device is installed in the contact area of the accessory side wall part and the upper plate part, and the fastening device has an insert nut having a male thread formed therein and a bolt having a female threaded part that can be engaged with the male thread of the insert nut. Underground joint structure characterized by. The method according to claim 11 or 12, wherein The accessory side wall portion is formed in the inner central area protruding from the plate along the longitudinal direction of the accessory cavity is formed, the mounting ribs for mounting the transverse bulkhead portion. The method according to claim 11 or 12, wherein Underground joint structure, characterized in that the accessory side wall portion is formed integrally with the horizontal partition wall portion. The method according to claim 11 or 12, wherein The accessory side wall part includes a lower part side wall connected to the accessory bottom plate part with the horizontal bulkhead part interposed therebetween, and an upper part side wall connected to the top plate part, and the lower part side wall is integrally formed with the horizontal partition wall part. Underground joint structure. The method of claim 15, Underground joint structure, characterized in that it comprises a post grout reinforcement portion is post-grouted in the inner lower region of the upper side wall to protrude from the plate surface. The method of claim 16, A cutout portion recessed to a predetermined depth is formed in a contact area of the upper side wall portion and the horizontal partition wall portion, and a plurality of through holes inserted into the cutout portion and formed through the plate surface are formed in the post grouting reinforcement portion. Underground joint structure, characterized in that the plate and the bolt passing through the plate through the contact area of the upper side wall and the transverse bulkhead portion through the through hole of the plate. The method of claim 16, Underground joint structure, characterized in that the reinforcing bar is disposed inside the post grout reinforcement.