JP2006283393A - Foundation structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an easily constructible foundation structure excellent in general-purpose properties. <P>SOLUTION: A weight material 7 is integrated with a foundation body 6 with a supporting section 5 for supporting an installation 2. Since the weight material 7, which comprises concrete, is fixed to the foundation body 6 and integrated with it, when hardened, an integration means such as a bolt does not have to be separately provided. This enables the foundation structure 1 to be constructed with ease. The weight material 7 is excellent in the general-purpose properties, because it is deformed by following the foundation body 6, in the construction of the foundation structure 1, and is used in common without reference to the type of the installation 2. Additionally, since the foundation body 6 supports the installation 2 without the presence or absence of the weight material 7, the installation 2 is installed without the need for a waiting time until the hardening of the weight material 7. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a foundation structure for installing an installation.
In the present invention, “integration” is true integration that is fixed to each other to form an integrated object, and is not a true integration, but is a pseudo-integration that supports each other in cooperation with each other. Integration.

  If an installation such as a gas water heater or a vending machine is installed on the ground surface as it is, the installation may sink due to the gravity acting on the installation. In order to prevent such subsidence and to be able to stably install the installation portion, a foundation structure for installing the installation object is formed. The foundation structure is formed, for example, by placing concrete on the site.

  In addition, other conventional foundation structures are configured using foundation blocks. The basic block is configured by laminating a lower layer portion and an upper layer portion, and both the lower layer portion and the upper layer portion are arranged by abutting a plurality of prefabricated blocks. As described above, the basic block is a two-layered base configured by arranging and assembling a plurality of prefabricated blocks (see, for example, Patent Document 1).

Japanese Patent No. 3079422 (FIG. 1, pages 2 to 3)

  The construction in which concrete is placed on site can be formed in accordance with the shape, dimensions, etc. of the installation object, but the installation object cannot be installed until the placed concrete is cured by chemical bonding. Moreover, it takes a long time to cure. In order to harden the installed object to such an extent that it can be installed, for example, it takes at least about 5 days at room temperature. In this way, labor is required for construction.

  In the configuration using the foundation block, the molded prefabricated blocks are carried in and arranged, so there is no need to wait for hardening as in the configuration where concrete is placed on site, but each prefabricated block is simply arranged side by side. Since there is a risk of unequal subsidence in which only some of the prefabricated blocks sink, each prefabricated block must be fastened to each other with bolts or the like. Therefore, although the cause is different from the case of placing concrete on site, extra work is required. In addition, the foundation block has a drawback that it is difficult to use in common for a plurality of types of installations having different shapes and dimensions, and the versatility is poor.

  An object of the present invention is to provide a basic structure that is easy to construct and excellent in versatility.

The present invention is a foundation structure on which an installation object is installed,
A basic body having a support portion for supporting the legs of the installation;
At least when the foundation structure is constructed, the foundation structure is made of a material that deforms following the foundation body, and includes a weight material that is integrated with the foundation body using properties.

  According to this invention, the leg part of an installation thing can be supported by the support part of a foundation main body. A weight material is integrated with the basic body. Since the weight material is integrated with the foundation body in this way, the force that acts on the foundation structure from the installed object can be efficiently shared and supported not only by the foundation body but also by the whole weight material. it can. There is no occurrence of troubles such as the foundation body sinking unequally, and it is possible to suitably resist a moment that causes the installation object to fall. Therefore, the installation object can be installed stably. The weight material is integrated with the base body using its properties, and there is no need to separately provide an integration means such as a bolt. Therefore, the basic structure can be easily constructed. The weight material is made of a material that can be deformed following the foundation body when the foundation structure is constructed. Therefore, at least the weight material can be used in common regardless of the kind of the installation object, and is excellent in versatility.

  Moreover, this invention is a foundation structure characterized by a weight material being integrated with respect to a local board.

  According to the present invention, since the weight material is integrated with the local board, the foundation structure can be constructed stably on the local board. Accordingly, the support stability of the installation can be increased.

  According to the present invention, the weight material is integrated with the base body using its properties, and there is no need to separately provide an integration means such as a bolt. Therefore, the foundation structure can be easily constructed and constructed. The weight material is made of a material that can be deformed following the foundation body when the foundation structure is constructed. Therefore, at least the weight material can be used in common regardless of the kind of the installation object, and is excellent in versatility. In this way, a basic structure that is easy to construct and excellent in versatility can be realized.

  Further, according to the present invention, the foundation structure can be constructed stably on the local board. Accordingly, the support stability of the installation can be increased.

  FIG. 1 is a cross-sectional view showing a basic structure 1 according to an embodiment of the present invention. For example, when the installation structure 2 such as a water heater and a water heater for supplying warm water using gas or the like is installed on the ground surface portion 3, the foundation structure 1 stabilizes the installation object 2 over a long period of time. And installed on the ground surface portion 3. The foundation structure 1 protrudes from the ground surface portion 3 by a predetermined amount H, for example, about 10 cm, in a state of being partially fitted in the installation recess portion 3a formed on the ground surface portion 3. To be provided. An installation object 2 is installed on the foundation structure 1. The foundation structure 1 includes a foundation body 6 having a support portion 5 that supports the legs 4 of the installation object 2 and a material that deforms following the foundation body 6 at least when the foundation structure 1 is constructed. On the other hand, the weight material 7 integrated using the properties is included.

  FIG. 2 is a perspective view showing the outer frame portion 10. FIG. 3 is a perspective view showing the bottom 11. FIG. 4 is a perspective view showing the support portion 5. The basic body 6 includes an outer frame portion 10, a bottom portion 11, and a support portion 5. The outer frame part 10 is formed in a wall shape that extends in a rectangular shape over the entire circumference. The outer frame portion 10 is integrally formed in a rectangular frame shape. The bottom portion 11 has a rectangular lattice shape, and is formed with a plurality of through holes 30 that are inserted in the thickness direction. The bottom part 11 may be configured to be integrally formed in a lattice shape, or may be configured to be assembled in a lattice shape by connecting a plurality of structural members on site. The outer frame portion 10 is provided so that the axis is vertical, and the bottom portion 11 is provided so as to close the outer frame portion 10 from below. The support portion 5 has four support portions 12 that individually correspond to the leg portions 4 of the installation object 2. Each support portion 12 is formed in a rectangular parallelepiped shape, and is formed with a hole 31 for providing a screw member to which the installation object 2 is connected. Each support portion 12 is provided on the inner side of the outer frame portion 10. In this way, the outer frame part 10, the bottom part 11 and the support part 5 are assembled to constitute the basic body 6. The outer frame part 10, the bottom part 11, and each support part 12 are molded articles made of, for example, concrete, resin concrete, metal material, synthetic resin material, wood, and a composite material thereof. In the present embodiment, the outer frame portion 10 and the bottom portion 11 are made of a synthetic resin material, and each support portion 12 is made of a concrete block that is molded in a factory and carried to the site.

  The heavy material 7 is made of concrete that is cast in the field. The weight material 7 is provided on the inner side of the outer frame portion 10 of the foundation body 6 assembled as described above so as to fill the space on the inner side in a state having fluidity before curing. . The weight material 7 is fixed to the outer frame portion 10, the bottom portion 11, and the support portion 5 of the base body 6 by being cured. In this way, the weight material 7 is integrated with the basic body 6. Further, the weight member 7 is also integrated with the local board, that is, the ground surface portion 3 through the lattice of the bottom portion 11. In this way, the weight structure 7 is integrated as a whole, and the foundation structure 1 integrated with the ground surface portion 3 is realized.

  Such a foundation structure 1 can support the leg part 4 of the installation object 2 by the support part 5 of the foundation main body 6. A weight material 7 is integrated with the basic body 6. Since the weight material 7 is integrated with the base body 6 in this way, the force acting on the foundation structure 1 from the installation object 2 is efficiently shared not only by the base body 6 but also by the whole weight material 7. And can be supported. There is no occurrence of problems such as the foundation body 6 sinking unequally, and it is possible to suitably resist a moment that causes the installation object 2 to fall. Therefore, the installation object 2 can be installed stably. The weight member 7 is integrated with the base body 6 by utilizing its properties, specifically by utilizing the property of being fixed to the base body 6 when cured, and an integrated means such as a bolt is used. There is no need to provide it separately. Therefore, the foundation structure 1 can be easily constructed. The weight member 7 is made of a material that can be deformed following the foundation body 6 when the foundation structure 1 is constructed. Therefore, at least the weight member 7 can be used in common regardless of the kind of the installation object, and is excellent in versatility. For example, it is possible to realize the foundation structure 1 on which other types of installation objects 2 can be installed simply by exchanging the outer frame part 10 and the bottom part 11.

  Further, in the foundation structure 1, the bottom portion 11 is formed in a lattice shape, and the weight material 7 that has been fitted into the through-hole 30 and hardened and the bottom portion 11 can be engaged with each other to be firmly integrated with each other. . The weight material 7 provided on the inner side of the outer frame portion 10 passes through each through hole 30 of the bottom portion 11 and is fixed to the ground surface portion 3. As a result, the foundation structure 1 is fixed to the ground surface portion 3, and the stability of the foundation structure 1 can be increased. Thereby, the support stability of the installation object 2 can be made high.

  FIG. 5 is a flowchart showing a construction method for constructing the foundation structure 1. FIG. 6 is a cross-sectional view showing a process of constructing the foundation structure 1. Construction of the foundation structure 1 is started when an installation request for the installation object 2 occurs. First, in the main body laying process in step s1, the base body 6 having the support portion 5 that supports the leg 4 of the installation object 2 is supported at the place where the installation object 2 is to be installed, and the installation object 2 is supported only by the base body 6. Lay as possible. Specifically, first, as shown in FIG. 6 (1), an installation recess 3a is formed in the ground surface portion 3 where the installation object 2 is to be installed. The installation recess portion 3a may be configured simply by excavating, or may be configured by spreading chestnuts or the like.

  Next, as shown in FIG. 6 (2), the bottom 11 is laid on the bottom of the installation recess 3a, and the outer frame 10 is provided along the inner wall of the installation recess 3a. The bottom part 11 is provided so as to be horizontal, and the outer frame part 10 is provided such that the axis is vertical and the surrounding walls are vertically arranged. Then, as shown in FIG. 6 (3), each support portion 12 constituting the support portion 5 is provided on the inner side of the outer frame portion 10 and placed on the bottom portion 11. Each support portion 12 is provided at each corner of the outer frame portion 10, for example. Each support portion 12 has a height equal to or higher than that of the outer frame portion 10. In this way, the foundation body 6 is provided, and in this state, the foundation body 6 is in a state in which the installation object 2 can be installed and supported. That is, in terms of strength, the foundation body 6 can support the installation 2 even without the weight material 7.

After laying the foundation main body 6 in this way, in the weight material laying step of step s2, at least when the foundation structure 1 is constructed, the foundation main body 6 is made of a material that deforms following the foundation main body 6. The heavy material 7 to be integrated by use is laid. The weight material 7 is made of concrete,
When the heavy material laying step, which is the time of constructing the foundation structure 1, is in a state of having fluidity before hardening, it is hardened by chemical bonding between cement and water, that is, hydration of the cement after laying. In this state of fluidity, the weight material 7 is provided so as to fill the space on the inner side of the outer frame portion 10 of the base body 6 as shown in FIG. The weight member 7 has fluidity and is deformed so as to follow the shape of the base body 6 so that the entire space inside the outer frame portion 10 can be completely filled with no gap. Is provided. In this way, the weight member 7 is laid, and the construction of the foundation structure 1 is finished in step s3.

  Immediately after the construction of the foundation structure 1 is completed, the heavy material 7 is cured in about 5 to 7 days, for example, in a state before being cured. The period required for curing the heavy material 7 varies depending on conditions such as temperature, and the number of days is an example for facilitating understanding of the present invention. At this time, the weight material 7 adheres to the base body 6 as it hardens. Thus, the weight material 7 is fixed to the base body 6 and integrated with the base body 6.

  According to such a construction method, in constructing the foundation structure 1 on which the installation object 2 is installed, the foundation body 6 is laid, and the weight material 7 is laid so as to be integrated with the foundation body 6. The foundation body 6 is laid only in the foundation body 6 so that the installation object 2 can be supported for a short period of time. Therefore, the installation object 2 is installed regardless of the integration of the weight material 7 with the foundation body 6. If the integration takes time, that is, even if it takes about 5 to 7 days to cure the weight material 7, the installation 2 can be installed without waiting for the integration. , Can save time. That is, the installation object 2 can be installed without waiting for the heavy material 7 to be cured by chemical bonding. In addition, the weight material 7 is integrated with the base body 6 by utilizing its properties, and there is no need for an operator to perform on-site integration such as fastening with bolts, and unnecessary labor is required. It is. In this way, the foundation structure 1 can be easily constructed and constructed. The weight member 7 is made of a material that can be deformed following the foundation body when the foundation structure 1 is constructed. Thus, the foundation structure 1 which can install an installation thing stably can be constructed | assembled easily, without requiring an effort. Further, at least the weight member 7 can be used in common regardless of the type of the installation object 2, and the foundation structure 1 having excellent versatility can be constructed.

  In the weight material laying step, the weight material 7 having fluidity that hardens by chemical bonding after laying is laid in contact with the base body 6. As a result, the weight material 7 is laid in a shape that follows the foundation body 6 and is integrated with the foundation body 6 by curing after laying. In this way, a foundation structure excellent in versatility can be easily constructed.

  FIG. 7 is a perspective view showing an outer frame portion 10A used for the foundation structure 1 according to another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 6 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. In the embodiment of FIGS. 1 to 6, the outer frame portion 10 is integrally formed in a rectangular frame shape, but the outer frame portion 10 </ b> A in FIG. 7 has four plate-like frame pieces 13 in a rectangular frame shape. It is configured side by side. Moreover, in the construction method, it replaces with the operation | work which provides the integral outer frame part 10, and only performs the operation | work which arranges each plate-shaped frame piece 13 in a frame shape. Even if it is such a structure and construction method, the foundation structure 1 which achieves the effect similar to the above is realizable.

  The outer frame portion 10A can be removed after the weight material 7 is cured. In this case, the foundation structure 1 is a structure which does not have an outer frame part in a completed state. Such a configuration may be adopted.

  FIG. 8 is a perspective view showing a bottom portion 11B used in a foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 6 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. In the embodiment of FIGS. 1 to 6, the lattice-shaped bottom 11 is used, but a flat bottom 11 </ b> B as shown in FIG. 8 may be used. In the construction method, only the operation of providing the flat bottom portion 11B is performed instead of the operation of providing the lattice-shaped bottom portion 11. When such a flat bottom portion 11B is used, the weight material 7 cannot be integrated with the local board like the lattice-shaped bottom portion 11, but other effects can be achieved in the same manner.

  FIG. 9 is a perspective view showing a bottom 11C used in a foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 6 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. In the embodiment of FIGS. 1 to 6, the lattice-shaped bottom portion 11 is used, but a bottom portion 11 </ b> C configured using a netting material as shown in FIG. 9 may be used. The bottom 11C may have a structure having a frame at the peripheral edge. In the construction method, the work of providing the bottom 11C shown in FIG. 9 is merely executed instead of the work of providing the grid-like bottom 11. Even with such a configuration using the mesh-shaped bottom portion 11C, the same effect as the configuration using the grid-shaped bottom portion 11 can be achieved.

  FIG. 10 is a perspective view showing a bottom portion 11Ca used in a foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 6 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. In the embodiment of FIGS. 1 to 6, although the lattice-like bottom portion 11 is used, a plate-like bottom portion 11Ca in which only one through hole 30 is formed in the central portion as shown in FIG. 10 is used. Good. In the construction method, only the operation of providing the bottom portion 11Ca shown in FIG. Even in such a configuration using the bottom portion 11Ca having only one through hole 30 in the central portion, the same effect as the configuration using the grid-like bottom portion 11 can be achieved.

  FIG. 11 is a perspective view showing a support portion 5D used in a foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 6 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. In the embodiment of FIGS. 1 to 6, the support portion 5 having the independent support portion 12 corresponding to each leg portion 4 of the installation object 2 is used. A composite supporting portion 12D in which a portion supporting 4 is integrally formed may be used. The bottom 11C may have a structure having a frame at the peripheral edge. In the construction method, instead of the work of providing the independent support portions 12 for each leg 4, only the work of providing the composite support portions 12D is executed. Even in such a composite configuration, the same effect as that of the independent configuration can be achieved.

  FIG. 12 is a perspective view showing a foundation body 6E used in a foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 10 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. A basic body 6E shown in FIG. 11 is a rectangular parallelepiped housing. Specifically, the lower end portion of the outer frame portion 10 similar to that shown in FIGS. 1 to 6 is closed by the bottom portion 11B similar to that shown in FIG. 8, and the upper end portion of the outer frame portion 10 is a rectangular plate. A hollow casing is formed by being covered by a support portion 5E that is a top plate. In the basic body 6E, the outer frame portion 10, the bottom portion 11B, and the support portion 5E are integrally formed. A hole 20 is formed in the support part 5 </ b> E, and the weight material 7 can be injected through the hole 20.

  The base body 6E is integrated with the base body 6E in a state in which the base material 6E is received from the hole 20 and accommodates the base material 6E. The foundation structure 1 configured using such a foundation body 6E can achieve the same effects except for the effect of integration with the ground surface portion 3.

In constructing the foundation structure 1 using the foundation body 6E, a laying work for laying the foundation body 6E is executed instead of the laying work of the foundation body 6 as described above. In this way, a suitable substructure 1 can be similarly constructed.
FIG. 13 is a perspective view schematically showing a bottom 11F used in a foundation structure 1 according to still another embodiment of the present invention. FIG. 14 is a front view showing a support portion 12F constituting a support portion 5F used in combination with the bottom portion 11F shown in FIG. Components corresponding to those in the embodiment of FIGS. 1 to 12 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted.

  The bottom portion 11F shown in FIG. 13 is similar to the bottom portion 11 shown in FIG. 3, and the remaining portions except for the four corner portions are formed in a lattice shape and have a plurality of through holes 30. At the four corners of the bottom portion 11F, polyhedral projections 35 projecting to one side in the thickness direction, which is upward in the installed state, are formed. Each projection piece 35 is a projection piece 35 constituting positioning means 39 for positioning the support portion 12F, and at least a portion on the distal end side is formed in a tapered shape. In the present embodiment, the shape of the cross section perpendicular to the axis is a trapezoidal prismatic shape having two parallel sides, and of the two parallel sides of the trapezoid, the portion corresponding to the longer side of the bottom 11F It is provided to be connected to the main body. In FIG. 13, only the projection piece 35 at one corner and the through hole 30 in the vicinity thereof are shown, and the projection piece 35 at the remaining corner and the through hole 30 in the vicinity thereof are omitted.

  The support portion 12F shown in FIG. 14 is similar to the support portion 12 shown in FIG. 4, and is configured to support each leg 4 of the installation object 2 one by one. The support portion 12F shown in FIG. 14 is formed in a tapered shape so that the side portion disposed on the inner side of the foundation body 6 protrudes inward from the upper portion in the installed state. Specifically, for example, it is formed in a quadrangular pyramid shape, and is provided such that a large bottom surface is disposed on the lower side and a small bottom surface is disposed on the upper side. A positioning recess 40 constituting positioning means 39 for positioning the support portion 12F in cooperation with the protruding piece 35 of the bottom portion 12F is formed in the portion corresponding to the large bottom surface (the lower portion in the installed state). ing.

  The positioning recess 40 has a shape corresponding to the protruding piece 35 and is formed in a substantially similar shape having a slightly larger dimension than the protruding piece 35, so that the protruding piece 35 fits into the positioning recess 40. By providing the support portion 12F on the bottom portion 11F, it is possible to provide the support portion 12F while preventing horizontal displacement in the direction along the bottom portion 11F with respect to the bottom portion 11F, and thus in the installed state. By providing the positioning means 39 in this manner, the support portion 12F can be easily and accurately positioned with respect to the bottom portion 11F, and workability can be improved. Further, the projecting piece 35 is formed in a tapered shape, and the work of providing the support portion 12F so that the projecting piece 35 fits into the positioning recess 40 is easy. In addition, since the protruding piece 35 and the positioning recess 40 are formed in a prismatic shape and the cross-sectional shape cut by a horizontal plane in the installed state is formed into a non-circular shape, it is perpendicular to the bottom portion 12F with respect to the bottom portion 12F of the support portion 12F. Angular displacement around the axis, and therefore the vertical axis in the installed state, can be prevented. In the state of being positioned in this way, four support portions 12F are respectively provided at the four corners of the bottom portion 11F.

  Further, a member for fastening and fixing the leg portion 4 of the installation object 2, for example, a screw member 41 such as a bolt of an anchor bolt, is provided on a portion corresponding to the small bottom surface of the support portion 12F (upper portion in the installed state). A hole 31 for embedding and fixing in a partially protruding state is formed. Using the screw member 41 provided in the hole portion 31, the leg portion 4 of the installation object 2 is fastened and fixed to the support portion 12F.

  Further, a concave and convex engaging portion is formed on the side portion (the portion excluding the two bottom surfaces) of the support portion 12F. The locking portion may be realized by forming a protrusion or a groove, and in the present embodiment, the locking groove 44 extends in the circumferential direction (a horizontal direction around the vertical axis in the installed state). This locking groove 44 is formed over the entire circumference in the circumferential direction. In addition, a connecting hole 45 extending in a substantially horizontal direction in the installed state is formed on the side portion of the support portion 12F. For example, a metal bar-like locking member 46 can be partially inserted and connected to the connection hole 45.

  Thus, the support portion 12F is formed with a locking portion, specifically, a locking groove 44 on the side, and provided with the locking member 46, so that the support portion 12F is locked to the filler 7 and the support portion 12F is supported. 12F and the filler 7 can be integrated more firmly. Therefore, for example, when the leg portion 4 of the installation object 2 is fastened and fixed to the support portion 12F, even if an external force is applied to the installation object 2 so as to fall down and the support portion 12F is pulled upward, the filler 7 The support portion 12F can be prevented from being pulled out. Further, the support portion 12F is formed in a truncated pyramid shape, which can also be prevented from being pulled out due to the external force to be pulled out as described above. Therefore, it is possible to prevent the installation object 2 from falling over by utilizing the weight of the prosecution structure 1 including the weight material 7, and the installation object 2 can be stably provided.

  As described above, the basic structure 1 of the embodiment shown in FIGS. 13 and 14 achieves the same effect by the same configuration as that of the embodiment shown in FIGS. The effect can be achieved. Further, the structure for preventing the support base 12F from being pulled out, and therefore, the structure for forming the locking part, the structure for providing the locking member 46, and the structure for forming the frustum shape may be configured to provide at least one of them. In this case, it is possible to achieve a pull-out preventing effect. Moreover, the structure which provides only any one among the structure for preventing extraction, and a positioning means may be sufficient.

  FIG. 15 is a cross-sectional view showing a bottom portion 11F on which a protrusion piece 35a is formed instead of the protrusion piece 35 shown in FIG. This projection piece 35a is a projection piece that can be used in place of the projection piece 35 of FIG. 13, has a substantially rectangular parallelepiped shape, and has a tip portion formed in a tapered frustum shape. When this projection piece 35a is used, the positioning recess 40 shown in FIG. 14 is formed in a substantially similar shape having a slightly larger size than the projection piece 35a shown in FIG. Even if it is such a structure, the effect similar to the case where the projection piece 35 and the positioning recess 40 which are shown to FIG. 13 and FIG. 14 is used can be achieved.

  FIG. 16 is a perspective view schematically showing a bottom portion 11G used in a foundation structure 1 according to still another embodiment of the present invention. A bottom portion 11G shown in FIG. 16 is similar to the bottom portion 11F shown in FIG. 13, and the corresponding components are denoted by the same reference numerals, only different configurations are described, and description of similar configurations is omitted. In the bottom portion 11F shown in FIG. 13, the protrusions 35 are formed at the four corners. However, in the bottom portion 12G shown in FIG. 16, a positioning recess 44 is formed at the four corners instead of the protrusion pieces 35. In FIG. 16, only the positioning recess 44 at one corner and the through hole 30 in the vicinity thereof are shown, and the positioning recess 44 at the remaining corner and the through hole 30 in the vicinity thereof are omitted.

  When the bottom portion 11G in which the positioning recess 44 is formed in this way is used, a protruding piece is formed instead of the positioning recess 40 in the support portion 12F used in combination. The shape of the protruding piece formed on the support portion 12 may be the same shape as the protruding piece 35 shown in FIG. 13 or the same shape as the protruding piece 35a shown in FIG. The positioning recess 44 of the bottom portion 11G is formed in a similar shape having a size slightly larger than the protruding piece 45 formed in the support portion 12F. Thus, even in the positioning means 39 having the configuration in which the projecting piece is formed on the support portion 12F and the positioning recess 44 is formed on the bottom portion 11G, the projecting pieces 35 and 35a are formed on the bottom portion 11F and the support portion 12F is formed. The same effect as that of the positioning means 39 having the configuration in which the positioning recess 40 is formed can be achieved.

  Moreover, the positioning means 39 is not limited to the structure shown in FIGS. 13-16, The structure using a cylindrical projection piece and a positioning recess may be sufficient. Moreover, the structure which provides a some protrusion piece and a positioning recess regarding one support part may be sufficient, and in this structure, positioning around a vertical axis line is also possible irrespective of the shape of a protrusion piece and a positioning recess. When the bottom portions 11F to 11H and the support portion 12F of the embodiment shown in FIGS. 13 to 16 are used, the outer frame portion used in combination with these is the outer frame portion 10 shown in FIG. 2 and the outer frame shown in FIG. Any of the part 10A may be sufficient.

  FIG. 17 is a perspective view schematically showing an outer frame portion 10H and a bottom portion 11H used in a foundation structure 1 according to still another embodiment of the present invention. In the embodiment shown in FIG. 17, the outer frame portion 10H and the bottom portion 11H are integrally formed and formed in a box shape. The outer frame portion 10H has the same configuration as the outer frame portion 10 shown in FIG. 2, and the bottom portion 11H has the same configuration as the bottom portion 11F shown in FIG. Therefore, in the present embodiment, the support portion 12F shown in FIG. 14 is used in combination. As described above, even when the outer frame portion 11H is integrated with the bottom portion 11H, the effects described with reference to FIGS. 13 and 14 can be similarly achieved. In addition, by making such a box shape, the weight material 7 does not leak out of the outer frame portion 11H, and a finish with excellent aesthetics can be realized. In FIG. 17, only the protrusion piece 35 at one corner and the through hole 30 in the vicinity thereof are shown, and the protrusion piece 35 at the remaining corner and the through hole 30 in the vicinity thereof are omitted.

  FIG. 18 is a perspective view showing a part of the foundation body 6 used in the foundation structure 1 according to still another embodiment of the present invention. FIG. 19 is a cross-sectional view showing a part of the basic body 6 shown in FIG. Components corresponding to those in the embodiment of FIGS. 1 to 17 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. The base body 6 shown in FIGS. 18 and 19 has a bottom portion 11J in which a support groove portion 50 extending around the entire periphery is formed at the peripheral portion, and each plate-like frame piece 13 of the outer frame portion 10A shown in FIG. 50, and is supported by the bottom portion 11J. The support groove portion 50 protrudes from the main body 55 of the bottom portion 11J to one side in the thickness direction, which is upward in the installed state, and has two protrusions 51 and 52 extending in the entire circumferential direction, and the thickness of each plate-like frame piece 13 in the inner and outer directions. It is formed by providing a slightly larger interval than that. As a result, the outer frame portion 10A and the bottom portion 11J can be easily positioned and assembled, and the work at the site can be facilitated. Even if the outer frame portion 10A and the bottom portion 11J are separated from each other by the configuration in which the outer frame portion 10A is fitted to the support groove portion 50, the weight member 7 is located between the outer frame portion 10A and the bottom portion 11J. Leaking from the outside to the outside is prevented, and an excellent finish can be realized.

  The main body 55 of the bottom portion 11J shown in FIGS. 18 and 19 is any of the bottom portions 11, 11B, 11C, 11Ca, 11F, and 11G shown in FIGS. 3, 8 to 10, 13, 15, and 16. It is the structure similar to. In the case of the same configuration as the bottom portions 11F and 11G shown in FIGS. 13, 15 and 16, the support portions 12F corresponding to the bottom portions 11F and 11G are used in combination.

  FIG. 20 is a plan view showing a part of a plate-like frame piece 13K that can be used in place of the plate-like frame piece 13 when the bottom 11J shown in FIGS. 18 and 19 is used. The plate-like frame piece 13K shown in FIG. 20 has a configuration similar to that of the plate-like frame piece 13 shown in FIG. 7 by aligning a plurality of plate-like members 60 in the longitudinal direction. The number of plate-like members 60 constituting one plate-like frame piece 13K may be two, or may be three or more. End portions 61 of each plate-like member 60 that are opposed to each other are formed so as to fit each other. Specifically, one plate-like member 60 is notched on one side in the thickness direction to form a convex portion 62 on the other side in the thickness direction, and the other plate-like member 60 has a portion on the other side in the thickness direction. The part is notched and a convex part 62 is formed on one side in the thickness direction. Thereby, each convex part 62 is abutted so that it may fit in the notch of the other party. Thus, by making the plate-shaped frame piece 13K into a divided structure, the members constituting the outer frame portion can be made smaller, the handling can be facilitated, and the operation can be facilitated. In addition, by adopting a configuration in which the end portions 61 to be engaged with each other are fitted to each other, the weight material 7 is prevented from leaking out of the outer frame portion 10A from the abutting portion, even in a divided structure, Excellent finish can be achieved.

  FIG. 21 is a perspective view showing a part of the foundation body 6 used in the foundation structure 1 according to still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 20 are denoted by the same reference numerals, only different components will be described, and description of similar components will be omitted. The base body 6 shown in FIG. 21 is provided with a support portion 12L in which an engagement groove 65 is formed. Each support portion 12L is configured to individually support the leg portions 4 of the installation object 2 one by one, and is provided at the four corners of the bottom portion 11L. The bottom portion 11L may have a grid-like configuration as shown in FIG. 3, a plate-like configuration shown in FIG. 8, or a net-like configuration shown in FIG. There may be a configuration in which only one through-hole is formed as shown in FIG. The bottom portion 11L and the support portion 12L are provided with positioning means as described with reference to FIGS. 13 to 16, and the support portion 12L is provided in a state of being positioned on the bottom portion 11L.

  Each support portion 12L is formed with an engaging groove 65 on two adjacent sides. Each engagement groove portion 65 is formed to extend in a substantially vertical direction on the side facing the other support portion 12L adjacent in the circumferential direction in the installed state of each support portion 12L. Each such support portion 12L is provided with a plate-like frame piece 13 of the outer frame portion 10A shown in FIG. 7 between two support portions 12L adjacent in the circumferential direction, and both end portions thereof are fitted in the respective engagement groove portions 65. And is supported by each support portion 12L. Each engagement groove portion 65 has a width dimension slightly larger than the thickness of each plate-like frame piece 13. As a result, the outer frame portion 10A, the bottom portion 11L, and the support portion 12L can be easily positioned and assembled, thereby facilitating on-site work. Further, even when the outer frame portion 10A is engaged with the engaging groove portion 65 and engaged, the outer frame portion 10A is supported by the separate support portion 12L, and the weight member 7 supports the outer frame portion 10A. Leakage from between the portion 12L and the outside is prevented, and a finish with excellent aesthetics can be realized.

  Even when the outer frame portion 10A is configured to be supported by the support portion 12L as described above, the support portion 12L may be provided with a configuration for preventing pull-out as illustrated in FIG.

  FIG. 22 is a cross-sectional view showing a configuration of a bottom portion 11L that can be additionally provided when the base body 6 shown in FIG. 21 is used. As shown in FIG. 22, a fitting groove portion 66 extending so as to connect the engaging groove portion 65 is formed on the peripheral edge portion of the bottom portion 11 </ b> L so as to connect between the supporting portions 12 </ b> L adjacent in the circumferential direction. The lower end may be fitted into the fitting groove 66. The fitting groove 66 is formed to have a width dimension slightly larger than the thickness of each plate-like frame piece 13. With such a configuration, the outer frame portion 10A and the bottom portion 11L can be positioned, and the weight material 7 is prevented from leaking from between the outer frame portion 10A and the bottom portion 11L. Can be realized. In the case where such a fitting groove 66 is provided, a plate-like frame piece 13K as shown in FIG. 20 may be used.

  FIG. 23 is an exploded perspective view showing a part of the base body 6 used in the base structure 1 according to still another embodiment of the present invention. FIG. 24 is a plan view showing a part of the basic body 6 shown in FIG. Components corresponding to those in the embodiment of FIGS. 1 to 22 are denoted by the same reference numerals, only different configurations will be described, and description of similar configurations will be omitted. The basic body 6 shown in FIGS. 23 and 24 has a support portion 12La having a configuration similar to that of the support portion 12L shown in FIG. 23 and 24, a bottom fitting recess 80 having a substantially rectangular parallelepiped shape into which a corner of the bottom 11L is fitted is formed in a lower portion in the installed state. The fitting recess 80 is formed in a range from a portion where each engaging groove portion 65 is formed to an edge portion where each side portion where the engaging groove portion 65 is formed is continuous.

  Each such support portion 12La is positioned and provided with respect to the bottom portion 11L in a state in which the corner portion of the bottom portion 11L is fitted in the bottom portion fitting recess 80. In this state, as shown in FIG. 24, each engagement groove 65 is disposed on the peripheral edge of the bottom 11L. Therefore, when the plate-like frame piece 13 is provided so as to be fitted into the engaging groove portion 65, the plate-like frame piece 13 is disposed at the peripheral edge of the bottom portion 11 </ b> L, and the bottom portion 11 </ b> L is more outward than the plate-like frame piece 13. It will be in the state which does not protrude to. By adopting such a configuration, it is possible to achieve the same effect as the configuration using the support portion 12L shown in FIG. 21 and further reduce the size of the bottom portion 11L as much as possible. Accordingly, such a configuration can be suitably employed when the bottom portion is formed of an expensive material and a valuable material such as resin concrete.

  In the configuration shown in FIGS. 23 and 24, each support portion 12La and the bottom portion 11L are positioned by providing positioning means as described with reference to FIGS. 13 to 16 in addition to positioning by the bottom fitting recess 80. It may be a configuration. Moreover, you may make it provide the structure for drawing-out prevention as shown in FIG. Moreover, you may make it provide the fitting groove part 66 as shown in FIG. 22 in the peripheral part of bottom part 11L.

  FIG. 25 is a cross-sectional view showing a bottom positioning piece 70 used in addition to the foundation structure 1 as still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 22 are denoted by the same reference numerals. The bottom positioning piece 70 can be additionally used as the structure of the foundation structure 1 when the bottoms 11, 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L in which the through holes 30 are formed are used. . FIG. 25 shows the case where the bottom portion 11 shown in FIG. 3 is provided as a bottom portion, and in the following description, the case where the bottom portion 11 is used will be described, but the other bottom portions 11C, 11Ca, 11F, Even if 11G, 11H, 11J, or 11L is used, the same effect can be achieved.

  The bottom positioning piece 70 is provided in a state where a portion on one end side is embedded in the local board 3 and a portion on the other end side protrudes upward from the local board 3. It is inserted through the through-hole 30 and brought into contact with the bottom portion 11 from the horizontal direction so as to restrict the displacement in the horizontal direction. In the present embodiment, the bottom positioning piece 70 is a metal rod-shaped member. By providing such a bottom positioning piece 70, the bottom 11 can be positioned with respect to the local board 3 and the installation position of the foundation structure 1 can be positioned.

  FIG. 26 is a cross-sectional view showing a bottom positioning piece 71 used in addition to the foundation structure 1 as still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 22 are denoted by the same reference numerals. The bottom positioning piece 71 can be additionally used as the structure of the foundation structure 1 when the bottoms 11, 11C, 11F, 11G, 11H, 11J, and 11L formed in a lattice shape or a net shape are used. FIG. 26 shows the case where the bottom portion 11 shown in FIG. 3 is provided as the bottom portion, and in the following description, the case where the bottom portion 11 is used will be described, but the other bottom portions 11C, 11F, 11G, Even if 11H, 11J, or 11L is used, the same effect can be achieved.

  The bottom positioning piece 71 is provided in a state where a portion on one end side is embedded in the local board 3 and a portion on the other end side protrudes upward from the local board 3. Has a hook-like portion 72 that is folded back in a U-shape at the end, and is used to restrict horizontal displacement by engaging the hook-like portion 72 with the bottom portion 11. In the present embodiment, the bottom positioning piece 71 is a metal rod-shaped member. By providing such a bottom positioning piece 71, it is possible to position the bottom 11 with respect to the local board 3, and the installation position of the foundation structure 1 can be determined.

  FIG. 27 is a cross-sectional view showing a bottom engaging means 85 used in addition to the foundation structure 1 as still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 26 are denoted by the same reference numerals. The bottom engaging means 85 is a means for facilitating the engagement of the weight member 7 with the bottom, and can be adopted for each of the aforementioned bottoms 11, 11B, 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L. However, it can be suitably used for the bottom portion 11B in which the through holes 30 are not formed, the bottom portion 11Ca having a small number of through holes 30, and the like. FIG. 27 shows a case where the bottom portion 11B without the through hole 30 shown in FIG. 8 is provided as the bottom portion. In the following description, the case where the bottom portion 11B is used will be described. , 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L can be used to achieve the same effect.

  The bottom engaging means 85 is realized by an internal screw member such as an insert nut that is embedded in the bottom 11B. The bottom engagement means 85 can be provided with an engagement piece 86 made of an external screw member or the like as indicated by a virtual line in FIG. The engagement piece 86 may be a straight bar, but a non-linear shape such as a bent shape having an end portion is preferably used. By providing such an engagement piece 86, the hardened weight material 7 and the engagement piece 86 can be engaged, whereby the weight material 7 and the bottom portion 11B can be firmly integrated with each other.

  FIG. 28 is a cross-sectional view showing a bottom engaging means 90 used in addition to the foundation structure 1 as still another embodiment of the present invention. Components corresponding to those in the embodiment of FIGS. 1 to 27 are denoted by the same reference numerals. The bottom engaging means 85 is a means for facilitating the engagement of the weight member 7 with the bottom, and can be adopted for each of the aforementioned bottoms 11, 11B, 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L. However, it can be suitably used for the bottom portion 11B in which the through holes 30 are not formed, the bottom portion 11Ca having a small number of through holes 30, and the like. FIG. 28 shows the case where the bottom portion 11B without the through hole 30 shown in FIG. 8 is provided as the bottom portion. In the following description, the case where the bottom portion 11B is used will be described. , 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L can be used to achieve the same effect.

  The bottom engaging means 90 is realized by a bottomed hole formed in the bottom 11B. The bottomed hole portion has a hole in which the back portion 92 is wider than the inlet portion 91. In such bottom engaging means 90, when the uncured weight material 7 having fluidity flows and hardens, the weight material 7 and the bottom engaging means 90 engage with each other, whereby the weight material 7 and the bottom portion 11B are engaged. Can be firmly integrated with each other.

  As another embodiment of the present invention, the weight member 7 may be made of a resin other than concrete, metal, water, earth and sand, and a composite material thereof. For example, in the configuration shown in FIGS. 1 to 10, earth and sand containing sand, earth and stone may be used as the weight material 7. In this case, the weight material 7 is integrated with the base body 6 in a pseudo manner by utilizing the mechanical locking force between the weight material 7 and the base body 6 instead of fixing due to the hardening of the weight material 7. is there. Even if it is such a structure, the same effect can be achieved. In the configuration shown in FIG. 11, it is possible to use a liquid such as water as the weight material 7. In this configuration, the base body 6E is pseudo-integrated using the property that water accumulates in the container. Even if it is such a structure, the same effect can be achieved.

  The basic body may be constructed by assembling a plurality of separate members as shown in FIG. 1 to FIG. 10 and FIG. 12 to FIG. 26, or may be integrally formed as shown in FIG. There may be. Furthermore, the outer frame part is not an essential requirement, and when using block material and uncured concrete as the weight material, the block material is arranged in a frame shape without providing the outer frame part, and the concrete is provided on the inner side. There may be. In this case, on-site concrete mixing work can be reduced. In this case, the aesthetic appearance may be improved by using brick or the like as the block material. Moreover, when using concrete as the weight material 7, the adhesive force of the weight material 7 and the foundation main body 6 can be enlarged by forming the surface of the foundation main bodies 6 and 6E into a rough surface shape. By forming the foundation body 6 from concrete or resin concrete, the surface can be formed into a rough surface without processing for roughening the surface.

  As another embodiment of the present invention, the foundation structure 1 may be provided in a place where the installation recess 3a is not formed. For example, you may provide so that it may construct | assemble on the local board 3 hardened by concrete.

  FIG. 29 is a cross-sectional view showing the height adjusting means 75 when the foundation structure 1 is provided on the local board 3 having a gradient. FIG. 30 is a perspective view showing a part of the bottom portion 11M having a configuration in which the height can be adjusted by the height adjusting means 75. FIG. The foundation structure 1 can also be provided on the local board 3 having a gradient called dog running as shown in FIG. A height adjusting hole 77 is formed on one side of the bottom portion 11M. The local board 3 is provided with a rod-like external screw member 79 such as a bolt provided substantially vertically using an anchor 78, for example, and an internal screw member 200 such as a nut is screwed thereto. The bottom portion 11M is arranged so that the side portion on the side where the positioning hole 77 is formed is located on the lower side of the gradient so that the distal end portion of the external screw member 79 is inserted into the positioning hole. Provide. In this state, the bottom portion 11M is supported by the inner screw member 200. By adjusting the position by screwing or screwing the inner screw member 200, the height of one side of the bottom portion 11M can be adjusted, whereby the bottom portion 11M can be provided substantially horizontally. In this way, the foundation structure 1 can be provided on the local board 3 having a gradient.

  The bottom portion 11M has a configuration in which a height adjusting hole 77 is formed in any of the bottom portions 11, 11C, 11Ca, 11F, 11G, 11H, 11J, and 11L of the above-described embodiments. In such a foundation structure 1, a cover that covers the space between the bottom portion 11 </ b> M and the local board 3 from the outside may be further provided, and the weight material 7 may be provided also in this space. As a result, a more stable foundation structure 1 can be realized.

  Further, as still another embodiment of the present invention, the configurations of FIGS. 1 to 30 may be appropriately combined. For example, the base body 6 may be configured by combining the outer frame portion 10A of FIG. 7, the support portion 5D of FIG. 11, and the bottom portion 11C of FIG. Of course, other combinations may be used. Further, for example, the bottom may have a configuration in which two or more of the bottom 11 in FIGS. 1 to 6, the bottom 11B in FIG. 8, the bottom 11C in FIG. 9, and the bottom 11Ca in FIG. Specifically, for example, the configuration may be such that the bottom 11 of FIGS. 1 to 6 is stacked on the bottom 11B of FIG. Thus, it can comprise suitably combining.

  Furthermore, as an example of the combination, any one of the structures for preventing pulling shown in FIG. 14 may be provided on the support portion 12D shown in FIG. For example, as shown by an imaginary line 100 in FIG. 11, in the installed state, the side portion disposed on the inner side of the foundation body 6 is formed in a tapered shape so that the lower portion protrudes inward from the upper portion, and A locking groove 44 extending in the horizontal direction in the installed state may be formed on the side portion. As a result, an anti-drawing effect can be obtained.

  Furthermore, as an example of the combination, any one of the structures for preventing pulling illustrated in FIG. 14 may be provided in the support portion 12La illustrated in FIG. For example, as shown by an imaginary line 101 in FIG. 11, in the installed state, the side portion disposed on the inner side of the base body 6 is formed in a tapered shape so that the lower portion protrudes inward from the upper portion, and A locking groove 44 extending in the horizontal direction in the installed state may be formed on the side portion. As a result, an anti-drawing effect can be obtained.

  The present invention specifically shown in the embodiment as described above has a bottom portion configured to be laminated one or more flat. The bottom part which forms a part of the base body is made of concrete, resin concrete, metal material, resin material, wood, and a composite material thereof. In addition, the bottom portion can be easily adapted to the ground surface portion by forming a shape having a plurality of holes inserted in the thickness direction, such as a net-like shape, a lattice shape, a crosspiece structure, and the weight material to the ground surface portion 3. Integration can be assisted. In addition, the bottom portion includes a means for positioning the support portion, thereby facilitating positioning of the support portion and improving workability. Further, the bottom portion may be configured to have means such as a hole for fixing to the ground surface portion. In this case, the bottom portion can be fixed to the ground surface portion using a jig or the like. is there.

  Moreover, this invention has a support part which has the intensity | strength which can support an installation thing. The support part which forms a part of the basic body is made of concrete, resin concrete, metal material, resin material, wood, and a composite material thereof. The support member can be made to be easily integrated by making the weight material easy to fix or the shape in which the weight material is easily locked by a mechanical locking force. Such integration can improve stability such as earthquake resistance. Moreover, the support part may have an anchor means for fixing an installation object. As a result, the installation work at the site can be facilitated, and a suitable work can be realized with fewer mistakes.

  Moreover, each support part which comprises one foundation main body is the mutually same structure. As a result, all the supporting portions can be molded with one mold, and the productivity is good. Also, in the work at the site, there is no problem even if any support part is arranged at any of the plurality of arrangement positions, and the work is facilitated as compared with the case where the position to be arranged for each support part is specified. be able to.

  Moreover, this invention has an outer frame part which prescribes | regulates the external shape of the whole foundation structure. The outer frame part forming a part of the basic body is made of concrete, resin concrete, metal material, resin material, wood, and a composite material thereof. The outer frame may be used as a part of the foundation structure, but may be configured to be removed after construction and reused. That is, the basic structure 1 has a configuration having an outer frame portion and a configuration having no outer frame portion. The outer frame portion may be made beautiful by using bricks, for example.

  Moreover, this invention has a weight material integrated with a base main body. The weight material is composed of concrete, resin material, metal material, water, earth and sand, and a composite material thereof. These are integrated into the base body using the properties (including true integration such as fixing and quasi-integration such as mechanical locking). When a prefabricated block and concrete are mixed and used as the weight material, the concrete mixing work at the site can be reduced and the time can be shortened. If the block materials are arranged in a frame shape, the outer frame portion need not be provided. Moreover, when using the hardened | cured material, such as concrete, the whole foundation structure can be united and stability can be made high. In addition, if the structure supports the installed object and the weight material is intended to improve stability, the installed object can be installed without waiting for the weight material to harden, and workability can be improved. it can.

It is sectional drawing which shows the basic structure 1 of one Embodiment of this invention. FIG. 3 is a perspective view showing an outer frame portion 10. FIG. 6 is a perspective view showing a bottom part 11. It is a perspective view which shows the support part 5. FIG. 3 is a flowchart showing a construction method for constructing the foundation structure 1. 3 is a cross-sectional view showing a process of constructing the foundation structure 1. FIG. It is a perspective view which shows 10 A of outer frame parts used for the foundation structure 1 of the other form of implementation of this invention. It is a perspective view which shows the bottom part 11B used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which shows 11 C of bottom parts used for the basic structure 1 of other form of implementation of this invention. It is a perspective view which shows bottom part 11Ca used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which shows support part 5D used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which shows the foundation main body 6E used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which simplifies and shows the bottom part 11F used for the foundation structure 1 of the further another form of implementation of this invention. It is a front view which shows the support part 12F which comprises the support part 5F used in combination with the bottom part 11F shown in FIG. It is sectional drawing which shows the bottom part 11F in which the protrusion piece 35a is formed instead of the protrusion piece 35 shown in FIG. It is a perspective view which simplifies and shows the bottom part 11G used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which simplifies and shows the outer-frame part 10H and bottom part 11H used for the foundation structure 1 of the further another form of implementation of this invention. It is a perspective view which shows a part of foundation body 6 used for the foundation structure 1 of the further another form of implementation of this invention. It is sectional drawing which shows a part of basic | foundation main body 6 shown in FIG. It is a top view which shows a part of plate-shaped frame piece 13K which can be used instead of the plate-shaped frame piece 13 when using the bottom part 11J shown in FIG. 18 and FIG.

It is a perspective view which shows a part of foundation body 6 used for the foundation structure 1 of the further another form of implementation of this invention. FIG. 22 is a cross-sectional view illustrating a configuration of a bottom portion 11L that can be additionally provided when the base body 6 illustrated in FIG. 21 is used. It is a perspective view which decomposes | disassembles and shows a part of foundation main body 6 used for the foundation structure 1 of the further another form of implementation of this invention. It is a top view which shows a part of basic | foundation main body 6 shown in FIG. It is sectional drawing which shows the positioning piece 70 for bottom parts used in addition to the foundation structure 1 as another form of implementation of this invention. It is sectional drawing which shows the positioning piece 71 for bottom parts used in addition to the foundation structure 1 as another form of implementation of this invention. It is a cross-sectional part which shows the bottom part engaging means 85 used in addition to the foundation structure 1 as another form of implementation of this invention. It is a cross-sectional part which shows the bottom part engaging means 90 used in addition to the foundation structure 1 as another form of implementation of this invention. It is sectional drawing which shows the height adjustment means 75 in the case of providing the foundation structure 1 on the local board 3 which has a gradient. It is a perspective view which shows a part of bottom part 11M of the structure where height adjustment is possible by the height adjustment means 75. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Foundation structure 2 Installation object 3 Ground surface part 4 Leg part 5,5D Support part 6,6E Foundation main body 7 Weight material 10,10A Outer frame part 11,11B, 11C, 11Ca, 11F, 11G, 11H, 11J, 11L , 11M Bottom 12, 12D, 12F, 12L, 12La Supporting part

Claims (2)

A foundation structure on which the installation object is installed,
A basic body having a support portion for supporting the legs of the installation;
A foundation structure comprising a material that is deformed following the foundation body at least when the foundation structure is constructed, and includes a weight material integrated with the foundation body using properties.   Heavy-weight material is a foundation structure that is integrated with the local board.

Images