JP4444242B2 - Underground container integrated garage - Google Patents

Description

  The present invention relates to an underground garage integrated with a subterranean container and a garage constructed on the ground, which can be constructed integrally using a member in which a submerged buried part and a ground protruding part are formed in series. Is.

  As an example of a structure that effectively uses the underground space of the garage by providing an underground container that can be used as a storeroom, a water storage tank, a snow storage room, etc. in the underground part of the garage, a garage disclosed in Japanese Utility Model Publication No. 3-31271 There is a snow storage with a garage, a water storage tank with a garage and the like disclosed in JP-A-11-303154.

  The former snow garage with a garage has a structure in which a snow storage room and a water storage room are provided in the basement of the garage provided on the ground, and the whole is constructed integrally by on-site construction. In such a garage-equipped snow underground storage, the construction of the underground container and the garage on the ground is constructed in an integrated manner by on-site construction by concrete placement, requiring a lot of time and labor for construction. There was a problem with poor efficiency.

  The latter garage-equipped water storage tank includes a tank body buried underground, a pillar standing upward from the tank body, and a roof attached to the pillar. The upper surface of the main body was finished with concrete tiles or the like to form a finished surface. And this finished surface was finished flush with the ground, and this finished surface was configured to be used as a parking space. A water storage tank with a garage having such a structure, after constructing the tank main body part, requires a separate construction for the underground part and the ground part because it goes through a construction process in which a column is erected and a roof is provided on the upper part. Also in this case, there was a problem that the construction efficiency was poor because much time and labor were required.

Japanese Utility Model Publication No. 3-31271 (1 page, FIG. 1) JP-A-11-303154 (page 2-3, FIG. 1)

  The present invention was developed in view of the above-mentioned conventional problems, and can be constructed integrally with an underground container buried underground and a garage built on the ground with a high construction efficiency, yet excellent in strength. The object is to provide an integrated garage. In addition, an object of the present invention is to provide an underground garage integrated with an underground container capable of constructing an underground container while making the most effective use of the site and facilitating taking in and out of an automobile. Furthermore, it is an object of the present invention to provide a garage integrated with a subterranean container that can easily enter and exit the subterranean container and that can also effectively use the internal space of the subterranean container.

In order to solve the above problems, the present invention employs the following means.
That is, the underground container-integrated garage according to the present invention has an underground container buried underground, and is built on the ground integrally with the underground container, and is provided with an entrance in a state of being retracted backward from the front end of the underground container. A garage with an integrated underground container comprising a first strut member, a second strut member, a first wall plate member, and a second wall plate member, The underground container has an underground rectangular frame having a required width in the front-rear direction and the left-right direction in a plan view, and the garage has a required width in the front-rear direction and the left-right direction in a plan view and accommodates an automobile. It has a rectangular frame on the ground.
And as for the said 1st support | pillar member, each front-end | tip of two standing piece parts which form a L-shaped part by planar view is a joint surface part, and a bottom part is provided in the lower end of the corner part of this L-shaped part, And the whole 2nd support | pillar member is embed | buried underground, and each front-end | tip of two standing piece parts which form an L-shaped part by planar view becomes a joint surface part, This L-shaped part The bottom portion is provided at the lower end of the corner portion, and the L-shaped portion is embedded in the basement with the lower end side protruding in the ground with the upper end side protruding to the ground, and the first wall plate member is A bottom plate portion projecting inward is provided at the lower end of the wall plate portion having a vertically long rectangular plate shape, both end portions are joint surface portions, and the whole is buried underground, and The second wall plate member is provided with a bottom plate portion projecting inward at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, Side edge is the joint surface, and the wall plate portion are those that lower end is buried underground in a state where the upper end side protrudes on the ground.

  The underground container is positioned at the left and right corners of the front end of the underground rectangular frame to be constructed, and the first column member is erected with the corner portion facing inward. A plurality of the first wall plate members are brought into contact with each other with the bottom plate portion facing inward, and are positioned at both ends between the left and right first column members. The underground rectangular frame to be constructed and to be constructed with the joint surface portion at the side end of the first wall plate member and the joint surface portion facing the first column member facing each other. The second strut member is erected in a state where the corner portion of the second strut member is directed inward, and is positioned between the left and right second strut members. A plurality of wall plate members are brought into contact with each other with the bottom plate portion facing inward, and positioned at both ends. And the joint surface of the joint surface portions of the side edge of the second wall plate member facing the said second strut member in the contact state is erected to. In addition, a plurality of the second wall plate members are in contact with each other between the first strut member and the second strut member with the bottom plate portion facing inward. In addition, the joint surface portion at the side end of the second wall plate member positioned at the front end and the joint surface portion facing the first support column member are in contact with each other and are positioned at the rear end. The joint wall portion at the side end of the second wall plate member and the joint surface portion facing the second column member are in contact with each other. Then, the first column member, the lower end side of the second column member, the first wall plate member, and the lower end side of the second wall plate member are integrated. The underground rectangular frame is constructed, bottom concrete is placed on the bottom of the underground rectangular frame, and the upper end of the rectangular frame is closed with a lower cover plate. ing.

  In the garage, the closed lower cover plate is used as a garage floor, and the upper end side of the second column member and the upper end side of the second wall plate member are integrated. The upper end of the above-mentioned rectangular frame body constituted by the above is closed by the upper cover plate. The garage floor is provided with an entrance / exit opening communicating with the underground container at either the left or right corner of the rear part of the garage floor.

Another embodiment of the underground garage with an integrated underground container according to the present invention includes an underground container embedded in the underground, an entrance that is constructed on the ground integrally with the underground container, and is recessed backward from the front end of the underground container. A garage with an integrated underground container comprising a garage provided with a first strut member, a second strut member, a first wall plate member, and a second wall plate member. The underground container has an underground rectangular frame having a required width in the front-rear direction and the left-right direction in plan view.
And as for the said 1st support | pillar member, each front-end | tip of two standing piece parts which form a L-shaped part by planar view is a joint surface part, and a bottom part is provided in the lower end of the corner part of this L-shaped part, And the whole 2nd support | pillar member is embed | buried underground, and each front-end | tip of two standing piece parts which form an L-shaped part by planar view becomes a joint surface part, This L-shaped part The bottom portion is provided at the lower end of the corner portion, and the L-shaped portion is embedded in the basement with the lower end side protruding in the ground with the upper end side protruding to the ground, and the first wall plate member is A bottom plate portion projecting inward is provided at the lower end of the wall plate portion having a vertically long rectangular plate shape, both end portions are joint surface portions, and the whole is buried underground, and The second wall plate member is provided with a bottom plate portion projecting inward at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, Side edge is the joint surface, and the wall plate portion are those that lower end is buried underground in a state where the upper end side protrudes on the ground.

The underground container is positioned at the left and right corners of the front end of the underground rectangular frame to be constructed, and the first column member is erected with the corner portion facing inward. A plurality of the first wall plate members are brought into contact with each other with the bottom plate portion facing inward, and are positioned at both ends between the left and right first column members. The underground rectangular frame to be constructed and to be constructed with the joint surface portion at the side end of the first wall plate member and the joint surface portion facing the first column member facing each other. The second strut member is erected in a state where the corner portion of the second strut member is directed inward, and is positioned between the left and right second strut members. A plurality of wall plate members are brought into contact with each other with the bottom plate portion facing inward, and positioned at both ends. And the joint surface of the joint surface portions of the side edge of the second wall plate member facing the said second strut member in the contact state is erected to. In addition, a plurality of the first wall plate members are disposed inside the bottom plate portion between one of the left and right first column members positioned at the front end and the second column member positioned on the rear side. The joint surface portions are brought into contact with each other in a state of being directed toward each other, and the joint surface portion at the side end of the first wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. The joint wall portion at the front end of the first wall plate member located at the rear end and the joint surface portion facing the second column member are in contact with each other. In addition, a plurality of the second wall plate members are disposed between the other of the left and right first column members positioned at the front end and the second column member positioned on the rear side so that the bottom plate portion is disposed inside. The joint surface portions are brought into contact with each other in a state of being directed toward each other, and the joint surface portion at the side end of the second wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. The joint wall portion at the side end of the second wall plate member located at the rear end and the joint surface portion facing the second column member are in contact with each other. . Then, the first column member, the lower end side of the second column member, the first wall plate member, and the lower end side of the second wall plate member are integrated. The underground rectangular frame is constructed, bottom concrete is placed on the bottom of the underground rectangular frame, and the upper end of the rectangular frame is closed with a lower cover plate. ing.

  The garage is a plan view formed by the upper lid side of the second wall plate member and the upper end side of the second column member formed by the lower lid plate being the garage floor portion. The L-shaped standing wall having an L-shape is constructed by being erected at one side edge and the rear edge of the garage floor. The garage floor is provided with an entrance / exit opening communicating with the underground container at either the left or right corner of the rear part of the garage floor.

Another aspect of the underground container-integrated garage according to the present invention is the underground container embedded in the underground, and the entrance / exit in a state of being built on the ground integrally with the underground container and retracted rearward from the front end of the underground container A garage with an integrated underground container comprising a garage provided with a first strut member, a second strut member, a first wall plate member, and a second wall plate member. The underground container has an underground rectangular frame having a required width in the front-rear direction and the left-right direction in plan view, and the first support member forms an L-shaped part in plan view. The front ends of the two standing piece portions are joint surface portions, the bottom portion is provided at the lower end of the corner portion of the L-shaped portion, and the whole is embedded in the basement. In addition, each tip of the two upright pieces forming the L-shaped part in plan view is a joint surface part, and the L-shaped part Bottom portion is provided at the lower end of the corner portion, and, said L-shaped portion is for lower side is buried underground in a state where the upper end side protrudes on the ground. In addition, the first wall plate member is provided with a bottom plate portion projecting inward at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, both end portions are joint surface portions, and the whole is underground. The second wall plate member is provided with a bottom plate portion projecting inward at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, and both side ends are joint surface portions. And the said wall board part is embed | buried under the bottom in the state which the upper end side protruded on the ground.

The underground container is positioned at the left and right corners of the front end of the underground rectangular frame to be constructed, and the first column member is erected with the corner portion facing inward. A plurality of the first wall plate members are brought into contact with each other with the bottom plate portion facing inward between the left and right first strut members, and at both ends. The basement rectangular frame to be constructed while being erected with the joint surface portion at the side end of the first wall plate member positioned and the joint surface portion facing the first column member facing each other. Positioned at one of the left and right corners at the rear end of the body, the first column member is erected with the corner portion facing inward, and positioned at the other of the left and right corners, The second strut member is erected with the corner of the second strut member facing inward, and the first strut member at the rear end and the first strut member A plurality of the first wall plate members are in contact with each other with the bottom plate portion facing inward, and the first wall plate member is positioned at one end between the two strut members. of the with the joint surface in the contact state upright facing of the a joint surface of the side edge of the wall plate member first strut member, the side edge of the first wall plate member located at the other end The joint surface portion is erected with the joint surface portion facing the second strut member in a contact state. Further, between the one of the left and right first column members positioned at the front end and the first column member existing on the rear side, a plurality of the first wall plate members have the bottom plate portion inward. The joint surface portions are brought into contact with each other in the state of being directed, and the joint surface portion at the side end of the first wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. The joint wall portion at the side end of the first wall plate member located at the rear end and the joint surface portion facing the first column member are in contact with each other. . Further, a plurality of the second wall plate members inwardly connect the bottom plate portion between the other of the left and right first column members positioned at the front end and the second column member positioned on the rear side. The joint surface portions are brought into contact with each other in a state of being directed to the surface, and the joint surface portion at the side end of the second wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. The joint wall portion at the side end of the second wall plate member located at the rear end and the joint surface portion facing the second column member are in contact with each other. . Then, the first column member, the lower end side of the second column member, the first wall plate member, and the lower end side of the second wall plate member are integrated. The underground rectangular frame is configured, and bottom concrete is placed on the bottom of the underground rectangular frame, and the upper end of the rectangular frame is closed by a lower cover plate. It is configured.

  The garage is a plan view formed by the upper lid side of the second wall plate member and the upper end side of the second column member formed by the lower lid plate closed as the garage floor portion. A straight standing wall having a straight shape is constructed by being erected at one side edge of the garage floor. The garage floor is provided with an entrance / exit opening communicating with the underground container at either the left or right corner of the rear part of the garage floor.

The present invention has the following excellent effects.
(1) The underground container-integrated garage according to the present invention has a second support member in which the lower end side is buried underground with the upper end side protruding above the ground, and the lower end side buried underground in the state where the upper end side protrudes above the ground. Therefore, if the underground rectangular frame is constructed, the side wall and the rear wall of the garage can be formed at the same time. Therefore, it is possible to achieve an improvement in the construction efficiency of the underground garage integrated with the underground garage as compared with the case where the underground garage and the garage are constructed integrally by on-site construction as in the past, or when the underground container and garage are separately constructed. It becomes.

  Also, the underground container-integrated garage according to the present invention is different from the conventional case where the garage is constructed by on-site construction, and the first strut member, the second strut member, the first wall plate member, It is constructed by appropriately combining two wall plate members. Therefore, according to the present invention, the first wall plate member or the second wall plate member disposed between the first column members, between the second column members, or between the first column member and the second column member. By appropriately setting the number, the underground container-integrated garage having garages with different lateral widths and the underground container-integrated garage having garages with different longitudinal widths can be easily constructed.

  In addition, the underground container-integrated garage according to the present invention is constructed using the second support member and the second wall plate member in which the upper end side and the lower end side are integrally formed, so that the underground container and the garage are vertically integrated. It can be constructed with excellent structural strength.

(2) The underground container-integrated garage according to the present invention includes a first support column member having two upright portions that form an L-shaped portion in plan view. Since it is located in the left and right corners of the front end, and the whole is erected underground, the garage doorway is in a state of retreating backward from the front end of the underground container to be constructed as shown in FIG. It is formed. Thereby, the width | variety of an entrance / exit can be ensured as much as possible, without being restrict | limited by the 1st support | pillar member of the right and left of a front end.

  Therefore, when building a garage with an integrated underground container facing the road, the garage can be built further away from the road by the retreated length while the underground container can be buried in a state closer to the road. Become. This makes it possible to construct an underground container while making the most effective use of the site, and to construct a garage that facilitates the taking in and out of automobiles.

(3) In addition, the underground container-integrated garage according to the present invention is provided with an entrance / exit opening communicating with the underground container at either the left or right corner of the rear part of the garage floor. An operator can enter and leave the underground container through the entrance / exit opening without causing any obstacle to the automobile.

  In addition, by providing an opening / exit opening at the rear corner of the garage floor, a stairway for entering and exiting the underground container is provided in the left / right and front / rear directions along the inner wall surface of the underground container. Therefore, the staircase portion hardly becomes an obstacle, and the internal space of the underground container can be used more effectively.

(4) An upper end having an L-shaped standing wall, wherein a side wall is formed upright on one side edge of the garage floor, and a rear wall is formed upright on the rear edge of the garage floor In an open underground container-integrated garage or an open top underground container-integrated garage having a straight standing wall formed in a standing state on one side edge of the garage floor, the L-shaped Since the second upright member that forms the L-shaped part in the plan view is connected to the vertical standing wall or the straight vertical wall, the L-shaped vertical wall or the straight vertical wall has high strength stability. Excellent.

  1 to 3, a garage 1 with an integrated underground container according to the present invention includes an underground container 2 that is buried underground, and is constructed on the ground integrally with the underground container 2 and behind the front end 3 of the underground container 2. The garage 6 is provided with a doorway 5 provided in a retracted state, and is constructed on the foundation concrete 4.

  As shown in FIGS. 1 to 4, the underground container 2 includes a first column member 7, a second column member 9, a first wall plate member 10, and a second wall plate member 11. And has an underground rectangular frame 12 having a required width in the front-rear direction F1 and the left-right direction F2 in plan view, and the garage 6 is a second one as shown in FIGS. The column member 9 and the second wall plate member 11 have a rectangular frame 13 on the ground for accommodating a vehicle having a required width in the front-rear direction F1 and the left-right direction F2 in plan view. is doing.

  As shown in FIG. 6, each side end of the two upright pieces 15, 15 forming the L-shaped portion 8 in a plan view is formed as joint surface portions 16, 16. A bottom portion 17 is provided at the lower end of the corner portion 14 of the character-shaped portion 8, and a lower lid receiving portion 20 is projected from a portion on the upper end side of the inner surface 19, so that the whole is buried underground. .

  In addition, as shown in FIG. 7, the second column member 9 has joint surface portions 22 and 22 at the side ends of the two standing pieces 21 and 21 forming the L-shaped portion 24 in plan view, The bottom 23 is provided at the lower end of the L-shaped corner portion 18 and the lower end 26 is buried underground with the upper end 25 protruding above the ground. The lower lid receiving portion 20 projects from the middle portion of the inner surface 27, and the upper lid receiving portion 30 projects from the upper end side portion of the inner surface 27.

  Further, as shown in FIG. 8, the first wall plate member 10 is provided with a bottom plate portion 33 projecting inwardly at the lower end of the inner surface 32 of the wall plate portion 31 having a vertically long rectangular plate shape. The ends are joint surface portions 35, 35, and the whole is buried underground. The lower lid receiving portion 20 is projected from the upper end portion of the inner surface 32.

  Further, as shown in FIG. 9, the second wall plate member 11 is provided with a bottom plate portion 39 projecting inwardly at the lower end of the inner surface 37 of the wall plate portion 36 having a vertically long rectangular plate shape, Both side ends are joint surface portions 40, 40, and the wall plate portion 36 is such that the lower end side 42 is buried underground with the upper end side 41 protruding above the ground. The lower lid receiving portion 20 projects from the middle portion of the inner surface 37, and the upper lid receiving portion 30 projects from the upper end side portion of the inner surface 37.

  As shown in FIGS. 10 and 4 to 5, the underground container 2 and the garage 6 include the first column member 7, the second column member 9, the first wall plate member 10, and the second The wall plate member 11 is used as follows. That is, the first column members 7 and 7 are positioned at the left and right corners of the front end of the underground rectangular frame 12 to be constructed, and the corner portions 14 and 14 thereof face inward. A plurality of the first wall plate members 10, two in the present embodiment, face the bottom plate portion 33 inwardly between the left and right first column members 7, 7. The joint surface portions 35 and 35 are brought into contact with each other, and the joint surface portion 35 at the side end of the first wall plate member 10 and the joint surface portion 16 facing the first column member 7 are in contact with each other. And standing up.

  In addition, the second column members 9 and 9 are positioned at the left and right corners at the rear end of the underground rectangular frame 12 to be constructed, and the corner portions 18 and 18 thereof face inward. A plurality of the second wall plate members 11 in the present embodiment, two in the present embodiment, face the bottom plate portion 39 inwardly between the left and right second column members 9, 9. In this state, the joint surface portions 40 and 40 are brought into contact with each other, and the joint surface portion 40 at the side end of the second wall plate member 11 is brought into contact with the joint surface portion 22 facing the second column member 9. Standing in a state.

  Further, a plurality of the second wall plate members 11, in the present embodiment, five between the first column members 7 and the second column members 9, have the bottom plate portion 39 inward. The joint surface portions 40, 40 are brought into contact with each other in a state of being directed, and the joint surface portion 40 of the second wall plate member 11 located at the front end and the joint surface portion 16 of the first column member 7 facing each other. And the joint surface portion 40 at the rear end of the second wall plate member 11 located at the rear end and the joint surface portion 22 facing the second column member 9 are in contact with each other. Standing in a state.

  The whole of these members are appropriately connected by using a connecting device 43 as shown in FIGS. 10 and 12, so that the first column members 7 and 7 and the first wall plate members 10 and 10 are connected. And the respective lower end sides 26 of the second column members 9, 9 and the respective lower end sides 42 of the second wall plate members 11 constitute the underground rectangular frame 12, and the second The above-described rectangular frame 13 is constituted by the upper end sides 25 of the support members 9 and 9 and the upper end sides 41 of the second wall plate members 11. Then, as shown in FIG. 11, the bottom portion 45 of the lower rectangular frame 12 is appropriately laid 44 and the bottom concrete 46 (FIG. 10) is placed to form the bottom 47 of the underground container 2. Is done. The bar arrangement 44 is performed by screwing the end portion of the reinforcing bar 51 into the insert 50 embedded in the end surface 49 of the lower end portion of the first wall plate member 9 and the second wall plate member 11.

  Further, on the inner surface side of the underground rectangular frame 12, the lower lid receiving portion 20 located at the same height is continuously annularly formed in the circumferential direction to form a lower lid receiving surface 53. At the same time, the upper lid receiving portion 30 located at the same height is continuously formed in a U shape in the circumferential direction to form the upper lid receiving surface 55.

  FIG. 12 shows a state in which the left and right first support members 7 and 7 and the first wall plate members 10 and 10 are integrated using the connecting device 43. In the present embodiment, the connecting device 43 includes a first support member 7A located on the left, a first wall plate member 10A located on the left, a first wall plate member 10B located on the right, A left-end connecting bolt 57a that is inserted through bolt insertion holes 56, 56, 56, and 56 that are horizontally inserted at the same height in the first column member 7B that is positioned on the right, and an intermediate connection Bolts 57b, 57c, right end connecting bolt 57d, end nuts 60 screwed to the outer ends 59, 59 of the end connecting bolts 57a, 57d, and end portions 61 of adjacent connecting bolts 57, 57 61, and a connecting nut 62 for connecting the two.

  The end nut 60 is accommodated in a recess 63 provided on the outer end side of the bolt insertion hole 56 provided in the left and right first support members 7 and 7, and the connection nut 62 is , And are accommodated in a hollow portion 65 formed by matching of the concave portions 64 and 64 provided in the joint surface portions facing each other. The left end connecting bolt 57a is inserted into the left end bolt insertion hole 56, the end nut 60 is screwed into the outer end portion 59, and one end portion of the connecting nut 62 is connected to the inner end portion 61 thereof. Screwed and tightened.

  One end 61 of the intermediate connecting bolt 57b located on the left is screwed into the other end of the connecting nut 62, and the other end 61 is screwed into one end of another connecting nut 62. 62 is tightened. One end 61 of the intermediate connection bolt 57c located on the right is screwed to the other end of the connection nut 62, and one end of another connection nut 62 is screwed to the other end 61. Is tightened. The inner end 61 of the right connection bolt 57d is screwed to the other end of the connection nut 62, and the end nut 60 is screwed to the outer end 59 and tightened. In this way, the four members 7A, 10A, 10B, 7B are connected and integrated.

  Such connection integration is for the purpose of connecting the left and right second column members 9 and 9 and the two second wall plate members 11 and 11 disposed between them, and the first column member 7 and the first column member 7. It is similarly adopted for the connection of the two strut members 9 and the five second wall plate members 11, 11, 11, 11, 11 disposed therebetween. Such a connection, as shown in part in FIG. 10, in the height direction of the first column member 7, the second column member 9, the first wall plate member 10, the second wall plate member 11, For example, it is performed in a plurality of stages at intervals of about 1 m. The bolt insertion hole 56 and the hollow portion 65 are appropriately filled with grout, and the concave portion 63 is appropriately filled with mortar.

  As shown in FIGS. 1 to 3, the peripheral portion 71 of the lower cover plate 70 is supported on the lower cover receiving surface 53 from below, and the peripheral edge of the upper cover plate 72 on the upper cover receiving surface 55. The portion 73 is supported from below, and the upper surface 75 of the lower cover plate 70 is flush with the upper surface 76 of the first column member 7 and the upper surface 77 of the first wall plate member 10. The upper surface 79 of the upper cover plate 72 is flush with the upper surface 80 of the second column member 9 and the upper surface 81 of the second wall plate member 11 which are flush with each other. The lower cover plate 70 and the upper cover plate 72 are formed by a half precast method in this embodiment.

  With this configuration, as shown in FIG. 2, the underground container 2 is configured by the underground rectangular frame 12, the bottom 47, and the lower cover plate 70. In addition, as shown in FIGS. 2 to 3, 5, and 13, the rectangular frame 13 on the ground, the lower cover plate 70, and the upper cover plate 72 provide an entrance / exit 5 at the front end, The garage 6 is configured such that the left and right sides are closed by side walls 82, 82, the rear end is closed by a rear wall 83, and the upper end is closed by an upper cover plate 72. Further, an entrance / exit 86 that communicates with the underground container 2 is provided at one of the left and right corners of the rear part of the garage floor 85 formed by the lower cover plate 70. As shown in FIG. 13, the entrance / exit opening 86 is formed as a square opening having a side length of 90 cm, for example, so that an operator can easily enter and exit the work in the underground container 2 and maintenance of the underground container 2. The lid plate 87 can be opened and closed. The entrance / exit opening 86 is provided with a step portion (not shown) along the inner wall surface 89 of the underground container 2, or an elevation step is attached to the inner wall surface 89. Since the entrance / exit opening 86 is provided at one of the left and right corners of the rear part of the garage floor 85, the staircase leading to the entrance / exit opening 86 extends along the inner wall surface 89 (FIG. 2) of the underground container 2. Thus, effective use of the internal space of the underground container 2 can be achieved.

  Further, as shown in FIG. 5, the entrance / exit 5 is formed between the front inner edges 90, 90 of the upper end sides 41, 41 of the left and right second wall plate members 11, 11 located at the front end. The entrance / exit 5 is provided in a state of being retracted backward from the front end 3 of the underground container 2. In this embodiment, as shown in FIG. 14, a shutter 92 is attached to the entrance / exit 5, and the garage 6 can be opened as shown in FIG. 1 by raising the shutter 92.

  2 and 15 show a parking state of the automobile 93 in the garage 6. As is apparent from FIG. 15 showing the parking state plan view, the entrance / exit opening 86 is located in a place where it is easy to secure a space even when the automobile 93 is parked in the garage 6, that is, as described above. It is provided at one of the left and right corners of the rear portion 85. Therefore, the operator can go in and out of the underground container 2 through the access opening 86 without being substantially affected by the parked automobile.

  The underground container 2 can be used as a water tank, a warehouse, a storage, or the like, but in this embodiment, it is used as the water tank 2a. The water tank 2a is provided with an inflow opening and a water intake opening (not shown), and can store rainwater that has fallen on the roof of the garage 6 or the roof of the house. This stored water can be used for car washing, watering, planting, etc. Available to:

  The width of the garage 6 in the left-right direction F1 can be set as required according to the number of cars to be parked (may be set to 6 to 10 m depending on the number of cars to be parked). The width in the left-right direction F2 is set as required. The width is set by setting the number of the first wall plate members 10 disposed between the first column members 7 and 7 and the second wall plate member disposed between the second column members 9 and 9. 11, and the width of the garage 6 in the front-rear direction F <b> 1 is also arranged between the first column member 7 and the second column member 9. It can be easily set as required according to the number of the two wall plate members 11.

  In the present embodiment, the garage 6 is configured to park a single automobile. For example, the width in the left-right direction F2 is 4000 mm, the width in the front-rear direction F1 is 6500 mm, and the height is set to 2800 mm. . The width of the F2 in the left-right direction is set to 4000 mm, the width in the front-rear direction F1 is set to 7300 mm, and the vertical height is set to 2650 mm. There are two types of width dimensions of the first wall plate member 10 that are one of the elements that determine the size of the garage 6 in plan view, that is, 1200 mm and 1500 mm. The width dimension is set to 1200 mm.

  FIGS. 16 to 18 show the underground container-integrated garage 1 including the garage 6 having an open upper end. In the underground container-integrated garage in the first embodiment, one side wall 82 is removed and the upper end is opened. It has the structure.

  More specifically, as shown in FIG. 19, the first strut member 7, the second strut member 9, the first wall plate member 10, and the second wall plate member 11 are: Both have the same configuration as described above. And the said underground container 2 is comprised as follows using the said 1st support | pillar member 7, the said 2nd support | pillar member 9, the said 1st wall board member 10, and the said 2nd wall board member 11. As shown in FIG. ing. That is, the first column members 7 and 7 are positioned at the left and right corners of the front end of the underground rectangular frame 12 to be constructed, and the corner portions 14 and 14 thereof face inward. A plurality of the first wall plate members 10, two in the present embodiment, face the bottom plate portion 33 inwardly between the left and right first column members 7, 7. The joint surface portions 35 and 35 are brought into contact with each other, and the joint surface portion 35 at the side end of the left and right first wall plate members 10 and the joint surface portion 16 facing the first column member 7 are contacted. Standing in a state.

  In addition, the second column members 9 and 9 are positioned at the left and right corners at the rear end of the underground rectangular frame 12 to be constructed, and the corner portions 18 and 18 thereof face inward. A plurality of the second wall plate members 11 in the present embodiment, two in the present embodiment, face the bottom plate portion 39 inwardly between the left and right second column members 9, 9. In this state, the joint surface portions 40 and 40 are brought into contact with each other, and the joint surface portion 22 facing the second support member 9 and the joint surface portion 40 on the side end of the second wall plate member 11 located at both ends thereof. Are placed in contact with each other.

  Further, the first wall plate member 10 is disposed between any one of the left and right first support members 7 and 7 positioned at the front end and the second support member 9 positioned on the rear side. A plurality, five in the present embodiment, brings the joint surface portions 35 and 35 into contact with each other with the bottom plate portion 33 facing inward, and the first wall plate member 10a located at the front end. The rear end of the first wall plate member 10b is erected with the joint surface portion 35 on the side end thereof and the joint surface portion 16 facing the first support column member 7 in contact with each other. The joint surface part 35 and the joint surface part 22 facing the second column member 9 are brought into contact with each other to stand upright.

  Further, a plurality of the second wall plate members 11 are disposed between the other 7b of the left and right first support members 7 and 7 positioned at the front end and the second support member 9 positioned on the rear side. In the present embodiment, five of the joint plate portions 40 and 40 are in contact with each other with the bottom plate portion 39 facing inward, and the second wall plate member 11a located on the front end side. A joint at the rear end of the second wall plate member 11b which is erected with the joint surface part 40 at the end and the joint surface part 35 facing the first support column member 7 in contact with each other and is positioned at the rear end The surface portion 40 and the joint surface portion 22 facing the second column member 9 are brought into contact with each other to stand.

  Then, these members are appropriately connected using the same connecting device 43 as shown in FIG. 12, so that the first column member 7, the first wall plate member 10, and the second column are connected. Each lower end side 26 of the member 9 and each lower end side 42 of each second wall plate member 11 constitute an underground rectangular frame 12. Then, the bottom 47 of the underground container 2 is formed by appropriately arranging the bottom concrete 45 and placing the bottom concrete 46 on the bottom 45 of the underground rectangular frame 12.

  Further, on the inner surface side of the underground rectangular frame 12, the lower lid receiving portion 20 located at the same height is continuously annularly formed in the circumferential direction to form a lower lid receiving surface 53. Therefore, by supporting the peripheral edge portion 71 of the lower lid plate 70 from below with the lower lid receiving surface 53, the underground rectangular frame 12, the bottom 47, and the lower lid plate 70 form the base plate 70. A container 2 is constructed.

  In the garage 6, the lower cover plate 70 is a garage floor 85, and a side wall 82 is provided upright on one side edge 96, and a rear wall 83 is provided on the rear edge 97. Are provided in an upright state, and the side wall 82 and the rear wall 83 exhibit an L-shaped standing wall 99 that can function as a retaining wall as shown in FIGS. The side wall 82 includes an upper end side 41 of the second wall plate member 11 disposed between the first column member 7 and the second column member 9, and the second column member 9. The rear wall 83 is formed by the upper end side 25 and the upper end sides 25 and 25 of the left and right second support members 9 and the upper ends of the second wall plate members 11 and 11 disposed therebetween. It is comprised by the side parts 41 and 41. FIG. The L-shaped standing wall 99 is connected to the L-shaped corner portion and the end portion of the rear wall 83 by the second support member 9 having an L-shape in plan view. Excellent strength stability. In particular, in the present embodiment, the upper cover receiving portion 30 protrudes from the inner surface 37 on the upper end side of the second wall plate member 11, so that the front-rear direction of the inner surface of the side wall 82 and the inner surface of the rear wall 83. The upper lid receiving part 30 continues in a straight line in the left-right direction, which exhibits a rib effect and improves the rigidity of the L-shaped standing wall 99.

  In the same manner as described above, an opening / exit opening 86 communicating with the underground container 2 is formed in the same manner as described above at the left or right corner of the garage floor 85 formed by the lower cover plate 70. ing.

  20 to 22 show another embodiment of the underground container-integrated garage 1 including the garage 6 having an open upper end. In the underground container-integrated garage 1 in the first embodiment, one side wall 82 and the rear The wall 83 is removed and the upper end is open.

  More specifically, as shown in FIG. 23, the first column member 7, the second column member 9, the first wall plate member 10, and the second wall plate member 11 are: Both have the same configuration as described above. And the said underground container 2 is comprised as follows using the said 1st support | pillar member 7, the said 2nd support | pillar member 9, the said 1st wall board member 10, and the said 2nd wall board member 11. As shown in FIG. ing. That is, the first column members 7 and 7 are positioned on the left and right sides of the front end of the underground rectangular frame 12 to be constructed, with the corner portions 14 and 14 facing inward. The plurality of first wall plate members 10, two in the present embodiment, are disposed between the left and right first column members 7 and 7 with the bottom plate portion 33 facing inward. The joint surface portions 35 and 35 are brought into contact with each other, and the joint surface portion 35 at the side end of the left and right first wall plate members 10 and the joint surface portion 16 facing the first column member 7 are brought into contact with each other. Standing up.

  Further, the first column member 7 is positioned at one of the left and right corners at the rear end of the underground rectangular frame 12 to be constructed, and the corner portion 14 is directed inward. The second strut member 9 is erected with its inner corner 18 facing inward with the second strut member 9 positioned in the other of the left and right corners. Between the column member 7 and the second column member 9, a plurality of the first wall plate members 10, two in the present embodiment, are connected to the joint surface portion with the bottom plate portion 33 facing inward. 35 and 35 are brought into contact with each other, and the joint surface portion 35 at the side end of the first wall plate member 10 located at one end and the joint surface portion 16 facing the first column member 7 are in contact with each other. The joint surface portion 35 at the side end of the first wall plate member 10 located at the other end and the second column member 9 Erected by the said joint surface 22 facing the abutment.

  Further, the first wall plate member 10 is disposed between any one of the left and right first support members 7 and 7 positioned at the front end and the second support member 9 positioned on the rear side. A plurality, five in the present embodiment, brings the joint surface portions 35 and 35 into contact with each other with the bottom plate portion 33 facing inward, and the first wall plate member 10a located at the front end. And the rear end of the first wall plate member 10b positioned at the rear end, with the joint surface portion 35 of the side end of the first wall member 10a and the joint surface portion 16 of the first column member 7a facing each other. The joint surface portion 35 and the joint surface portion 16 facing the first support column member 7 are brought into contact with each other to stand.

  Further, a plurality of the second wall plate members 11 are disposed between the other 7b of the left and right first support members 7 and 7 positioned at the front end and the second support member 9 positioned on the rear side. In the present embodiment, five of the joint plate portions 40 and 40 are in contact with each other with the bottom plate portion 39 facing inward, and the second wall plate member 11a located on the front end side. A joint at the rear end of the second wall plate member 11b which is erected with the joint surface part 40 at the end and the joint surface part 16 at which the first column member 7 faces is in contact with each other and located at the rear end The surface portion 40 and the joint surface portion 22 facing the second column member 9 are brought into contact with each other to stand.

  And these members are appropriately connected using the same connecting device 43 as shown in FIG. 12, so that the first column member 7, the first wall plate member 10, and the second column member are connected. 9 and the lower end sides 42 of the second wall plate members 11 constitute an underground rectangular frame 12. Then, the bottom 47 of the underground container 2 is formed by appropriately arranging the bottom concrete 45 and placing the bottom concrete 46 on the bottom 45 of the underground rectangular frame 12.

  Further, on the inner surface side of the underground rectangular frame 12, the lower lid receiving portion 20 located at the same height is continuously annularly formed in the circumferential direction to form a lower lid receiving surface 53. Therefore, as shown in FIG. 21, by supporting the peripheral portion 71 of the lower cover plate 70 from below with the lower cover receiving surface 53, the underground rectangular frame 12, the bottom 47, and the lower part The underground container 2 is constituted by the cover plate 70.

  In the garage 6, the lower cover plate 70 is used as a garage floor 85, and five side walls 82 are provided upright on one side edge 96 to form a straight standing wall 104. The straight standing wall 104 can function as a retaining wall as shown in FIG. And since the 2nd support | pillar member 9 which shows L shape by planar view is connected with the edge part of the side wall of a rear end, this linear standing wall 104 is excellent in strength stability. In particular, in the present embodiment, since the upper lid receiving portion 30 protrudes from the inner surface 37 on the upper end side of the second wall plate member 11, the upper lid receiving portion extends in the front-rear direction of the inner surface of the side wall 82. 30 will continue in a straight line, and this will exert a rib effect and improve the rigidity of the side wall 82.

  In the same manner as described above, an opening / exit opening 86 communicating with the underground container 2 is formed in the same manner as described above at the left or right corner of the garage floor 85 formed by the lower cover plate 70. ing.

  The present invention is by no means limited to those shown in the above-described embodiments, and it goes without saying that various design changes can be made within the scope of the claims. One example is as follows.

(1) When the first wall plate member 10 and the second wall plate member 11 are both set to have a width dimension of 1500 mm and 1200 mm, the first wall plate member has two width dimensions. By combining the wall plate member 10 and the second wall plate member 11 having two kinds of width dimensions as appropriate to form the underground container integrated garage, the size of the underground container integrated garage can be changed in units of 300 mm. become.

(2) In the underground container-integrated garage 1 including the garage 6 having an open upper end as shown in FIGS. 16 and 20, the upper cover receiving portion 30 of the second wall plate member 11 may be omitted. is there.

(3) In the present invention, the underground rectangular frame 12 includes a rectangular shape in plan view and a rectangular frame shape in plan view. Further, the rectangular frame body 13 on the ground includes not only a rectangular shape in plan view but also a square shape in plan view.

(4) When the whole member is appropriately connected by the connecting device 43, the whole member may be tightly integrated using a PC steel bar in addition to connecting using a single reinforcing bar.

It is a perspective view which shows the underground container integrated garage which concerns on this invention. It is the longitudinal cross-sectional view. FIG. It is sectional drawing of the planar view which shows an underground container. It is sectional drawing of the planar view which shows a garage. It is a perspective view which shows a 1st support | pillar member. It is a perspective view which shows a 2nd support | pillar member. It is a perspective view which shows a 1st wall board member. It is a perspective view which shows a 2nd wall board member. It is a fragmentary perspective view explaining an underground rectangular frame and a ground rectangular frame. It is a fragmentary perspective view which shows the bar arrangement state in the bottom part of a lower rectangular frame. It is sectional drawing which shows the state which connected and integrated the whole left and right 1st support | pillar member and the left and right 1st wall board member with the connection apparatus. It is a perspective view explaining an underground container. It is a perspective view which shows the state which lowered the shutter of the entrance / exit of the garage. It is a top view which shows the parking state of the motor vehicle in a garage. It is a perspective view which shows the other Example of a basement body integrated garage. It is the longitudinal cross-sectional view. FIG. It is a perspective view which shows the underground rectangular frame and L-shaped standing wall which comprise the underground container integrated garage. It is a perspective view which shows the other Example of the underground container integrated garage. It is the longitudinal cross-sectional view. FIG. It is a perspective view which shows the underground rectangular frame and linear standing wall which comprise the underground container integrated garage.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Basement integrated garage 2 Basement 5 Entrance / exit 6 Garage 7 1st support | pillar member 8 L-shaped part 9 2nd support | pillar member 10 1st wall board member 11 2nd wall board member 12 Underground rectangular frame Body 13 Ground rectangular frame 15 Standing piece portion 16 Joint surface portion 17 Bottom portion 19 Inner surface 20 Lower lid receiving portion 21 Standing piece portion 22 Joint surface portion 23 Bottom portion 24 L-shaped portion 25 Upper end side 26 Lower end side 27 Inner surface 30 Upper Lid receiving portion 31 Wall plate portion 32 Inner surface 33 Bottom plate portion 35 Joint surface portion 36 Wall plate portion 37 Inner surface 39 Bottom plate portion 41 Upper end side 42 Lower end side 43 Connecting device 47 Bottom portion of underground container 53 Lid receiving surface on lower lid receiving surface 55 70 Lower lid plate 72 Upper lid plate 82 Side wall 83 Rear wall 85 Garage floor 86 Opening / exiting opening 87 Cover plate 99 L-shaped standing wall 104 Straight standing wall

Claims (3)

An underground garage integrated with an underground container comprising: a underground container buried underground; and a garage constructed on the ground integrally with the underground container and provided with a doorway in a state of being retracted rearward from the front end of the underground container. There,
A first support member, a second support member, a first wall plate member, and a second wall plate member are provided, and the underground container has a required width in the front-rear direction and the left-right direction in plan view. The garage has a ground rectangular frame that has a required width in the front-rear direction and the left-right direction in a plan view and accommodates the automobile.
Each of the first strut members has a joint surface portion at each end of two standing piece portions forming an L-shaped portion in plan view, and a bottom portion is provided at a lower end of a corner portion of the L-shaped portion, and The second strut member has a joint surface portion at each end of two standing piece portions that form an L-shaped portion in plan view, and the second strut member has an L-shaped portion. A bottom portion is provided at the lower end of the entrance corner portion, and the L-shaped portion is embedded in the basement with the lower end side being embedded in the basement with the upper end side protruding to the ground, and the first wall plate member is In addition, a bottom plate portion projecting inward is provided at the lower end of the wall plate portion having a long rectangular plate shape, both side ends are joint surface portions, and the whole is buried underground, and The wall plate member 2 is provided with a bottom plate portion projecting inwardly at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, It is the joint surface, and the wall plate portion, which lower side is buried underground in a state where the upper end side protrudes on the ground,
The underground container is
The first strut member is erected with its corners facing inward, at the left and right corners of the front end of the underground rectangular frame to be constructed, A plurality of the first wall plate members are in contact with each other in a state where the bottom plate portion is directed inward, and the first walls located at both ends between the support members. The joint surface portion on the side end of the plate member and the joint surface portion facing the first support column member are brought into contact with each other and are erected,
The second column member is erected in a state where the corner portion is directed inward, at the left and right corners at the rear end of the underground rectangular frame to be configured. A plurality of the second wall plate members are in contact with each other between the second strut members with the bottom plate portion facing inward, and the second wall plates are positioned at both ends. The joint surface portion at the side end of the wall plate member and the joint surface portion facing the second column member are set up in contact with each other,
In addition, a plurality of the second wall plate members are in contact with each other between the first strut member and the second strut member with the bottom plate portion facing inward. In addition, the joint surface portion at the side end of the second wall plate member positioned at the front end and the joint surface portion facing the first support column member are in contact with each other and are positioned at the rear end. The joint wall portion at the side end of the second wall plate member and the joint surface portion facing the second column member are in contact with each other,
The first base member, the lower end side of the second post member, the first wall plate member, and the lower end side of the second wall plate member are integrated to form the basement. The rectangular frame body is constructed, bottom concrete is placed on the bottom portion of the underground rectangular frame body, and the upper end of the rectangular frame body is closed with a lower cover plate. ,
In the garage, the closed lower cover plate is used as a garage floor, and the upper end side of the second column member and the upper end side of the second wall plate member are integrated. The upper end of the above-mentioned rectangular frame body constituted by is closed by the upper cover plate,
An underground garage with an integrated underground container, wherein an opening / exit opening communicating with the underground container is provided at one of the left and right corners of the rear part of the garage floor. An underground garage with an underground container comprising: a underground container buried underground; and a garage constructed on the ground integrally with the underground container and provided with a doorway in a state of being retracted rearward from the front end of the underground container There,
A first support member, a second support member, a first wall plate member, and a second wall plate member are provided, and the underground container has a required width in the front-rear direction and the left-right direction in plan view. Having an underground rectangular frame with
Each of the first strut members has a joint surface portion at each end of two standing piece portions forming an L-shaped portion in plan view, and a bottom portion is provided at a lower end of a corner portion of the L-shaped portion, and The second strut member has a joint surface portion at each end of two standing piece portions that form an L-shaped portion in plan view, and the second strut member has an L-shaped portion. A bottom portion is provided at the lower end of the entrance corner portion, and the L-shaped portion is embedded in the basement with the lower end side being embedded in the basement with the upper end side protruding to the ground, and the first wall plate member is In addition, a bottom plate portion projecting inward is provided at the lower end of the wall plate portion having a long rectangular plate shape, both side ends are joint surface portions, and the whole is buried underground, and The wall plate member 2 is provided with a bottom plate portion projecting inwardly at the lower end of the wall plate portion having a rectangular plate shape that is long in the vertical direction, It is the joint surface, and the wall plate portion, which lower side is buried underground in a state where the upper end side protrudes on the ground,
The underground container is
The first strut member is erected with its corners facing inward, at the left and right corners of the front end of the underground rectangular frame to be constructed, A plurality of the first wall plate members are in contact with each other in a state where the bottom plate portion is directed inward, and the first walls located at both ends between the support members. The joint surface portion on the side end of the plate member and the joint surface portion facing the first support column member are brought into contact with each other and are erected ,
The second column member is erected in a state where the corner portion is directed inward, at the left and right corners at the rear end of the underground rectangular frame to be configured. A plurality of the second wall plate members are in contact with each other between the second strut members with the bottom plate portion facing inward, and the second wall plates are positioned at both ends. The joint surface portion at the side end of the wall plate member and the joint surface portion facing the second column member are set up in contact with each other,
In addition, a plurality of the first wall plate members are disposed inside the bottom plate portion between one of the left and right first column members positioned at the front end and the second column member positioned on the rear side. The joint surface portions are brought into contact with each other in a state of being directed toward each other, and the joint surface portion at the side end of the first wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. The joint wall portion at the side end of the first wall plate member located at the rear end and the joint surface portion facing the second support column member are in contact with each other. Become
In addition, a plurality of the second wall plate members interpose the bottom plate portion between the other of the left and right first column members positioned at the front end and the second column member positioned on the rear side. The joint surface portions are brought into contact with each other in a state of being directed toward each other, and the joint surface portion at the side end of the second wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. In addition to being erected in a state, it is erected with the joint surface part at the side end of the second wall plate member located at the rear end and the joint surface part facing the second column member facing each other,
The first base member, the lower end side of the second post member, the first wall plate member, and the lower end side of the second wall plate member are integrated to form the basement. The rectangular frame body is constructed, bottom concrete is placed on the bottom portion of the underground rectangular frame body, and the upper end of the rectangular frame body is closed with a lower cover plate. ,
The garage is a plan view formed by the upper lid side of the second wall plate member and the upper end side of the second column member formed by the lower lid plate being the garage floor portion. The L-shaped standing wall having an L-shape is constructed by being erected at one side edge and the rear edge of the garage floor,
An underground garage with an integrated underground container, wherein an opening / exit opening communicating with the underground container is provided at one of the left and right corners of the rear part of the garage floor. An underground garage integrated with an underground container comprising: a underground container buried underground; and a garage constructed on the ground integrally with the underground container and provided with a doorway in a state of being retracted rearward from the front end of the underground container. There,
A first support member, a second support member, a first wall plate member, and a second wall plate member are provided, and the underground container has a required width in the front-rear direction and the left-right direction in plan view. Having an underground rectangular frame with
Each of the first strut members has a joint surface portion at each end of two standing piece portions forming an L-shaped portion in plan view, and a bottom portion is provided at a lower end of a corner portion of the L-shaped portion, and The second strut member has a joint surface portion at each end of two standing piece portions that form an L-shaped portion in plan view, and the second strut member has an L-shaped portion. A bottom portion is provided at the lower end of the entrance corner portion, and the L-shaped portion is embedded in the basement with the lower end side being embedded in the basement with the upper end side protruding to the ground, and the first wall plate member is In addition, a bottom plate portion projecting inward is provided at the lower end of the wall plate portion having a long rectangular plate shape, both side ends are joint surface portions, and the whole is buried underground, and 2 wallboard member, the lower end of the wall plate portion exhibiting a vertically long rectangular shape, with a bottom plate portion projecting inwardly is provided, each side It is the joint surface, and the wall plate portion, which lower side is buried underground in a state where the upper end side protrudes on the ground,
The underground container is
The first strut member is erected with its corners facing inward, at the left and right corners of the front end of the underground rectangular frame to be constructed, A plurality of the first wall plate members are placed in contact with each other with the bottom plate portion facing inward, and the first wall plate members located at both ends are disposed between the support members. The joint surface portion at the side end of the wall plate member and the joint surface portion facing the first strut member are set up in contact with each other, and
The first strut member is erected in a state where its corner portion is directed inward, positioned at one of the left and right corners at the rear end of the underground rectangular frame to be configured, The second strut member is erected in a state where the corner portion of the second strut member is directed inward, positioned at the other of the left and right corners, and the first strut member and the second strut member at the rear end The plurality of first wall plate members are in contact with each other with the joint plate portions in contact with each other with the bottom plate portion facing inward, and the first wall plate members are positioned at one end. together with the said joint surface where the joint surface portions of the side end opposite of said first strut member in the contact state erected of the a joint surface of the side edge of the first wall plate member located at the other end The joint surface portion facing the second support member is in a contact state and is erected,
Further, between the one of the left and right first column members positioned at the front end and the first column member existing on the rear side, a plurality of the first wall plate members have the bottom plate portion inward. The joint surface portions are brought into contact with each other in the state of being directed, and the joint surface portion at the side end of the first wall plate member located at the front end is brought into contact with the joint surface portion facing the first column member. In addition to being erected in a state, the joint surface portion at the side end of the first wall plate member located at the rear end and the joint surface portion facing the first strut member are in contact with each other,
Further, between the other of the left and right first column members positioned at the front end and the second column member positioned on the rear side, a plurality of the second wall plate members have the bottom plate portion inward. The joint surface portions are brought into contact with each other in a state of being directed, and the joint surface portion at the side end of the second wall plate member located at the front end is in contact with the joint surface portion facing the first support column member. The joint wall portion at the side end of the second wall plate member located at the rear end and the joint surface portion facing the second column member are in contact with each other,
The first base member, the lower end side of the second post member, the first wall plate member, and the lower end side of the second wall plate member are integrated to form the basement. The rectangular frame is constructed, and bottom concrete is placed on the bottom of the underground rectangular frame, and the upper end of the rectangular frame is closed by a lower cover plate. And
The garage is a plan view formed by the upper lid side of the second wall plate member and the upper end side of the second column member formed by the lower lid plate being the garage floor portion. A straight standing wall having a straight shape is constructed by being erected on one side edge of the garage floor,
An underground garage with an integrated underground container, wherein an opening / exit opening communicating with the underground container is provided at one of the left and right corners of the rear part of the garage floor.

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