JP2021110203A - Water supply tank installation structure in building - Google Patents

Abstract

To provide water supply tank installation structure in a building that can preferably install a water supply tank in the building.SOLUTION: The building is a unit-type building constructed by connecting a plurality of building units 20 to each other. An installation space 37 of a water supply tank 30 is formed inside surrounded with pillars 21A constituting a pillar assembly part 31 where the pillars 21A of four building units 20 assemble, in the pillar assembly part 31. The water supply tank 30 is installed along each pillar 21A in the installation space 37.SELECTED DRAWING: Figure 2

Description

The present invention relates to a water supply tank installation structure in a building.

Patent Document 1 discloses an installation structure of a water supply tank in which an emergency water supply tank is installed in a building. In this installation structure, the water supply tank is installed inside the outer wall or in the attic. According to this installation structure, it is possible to use the water in the water supply tank even if the water supply is cut off in the building due to an earthquake or the like.

Japanese Unexamined Patent Publication No. 8-199634

By the way, when the water supply tank is installed inside the outer wall, it is considered necessary to increase the thickness of the outer wall accordingly. However, in that case, the living space may be narrowed by increasing the thickness of the outer wall.

Further, the attic space may be used as an installation space for installing equipment such as air conditioners, or as a storage space for storing articles. Therefore, when the water supply tank is installed in the attic space, the installation space and the storage space may be narrowed accordingly.

As described above, the water supply tank installation structure of Patent Document 1 is concerned about the influence on other spaces, and it is considered that there is still room for improvement in that respect.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a water supply tank installation structure in a building in which a water supply tank can be suitably installed in the building.

In order to solve the above problems, in the water supply tank installation structure in the building of the first invention, the water supply tank is installed in a unit type building constructed by connecting a plurality of building units having columns and beams to each other. In the water supply tank installation structure in the building, the installation space of the water supply tank is formed between the adjacent pillars or the adjacent beams, and the water supply tank is formed in a long shape. It is characterized in that it is installed along the pillar or the beam in the installation space.

In unit-type buildings, the space between adjacent columns and adjacent beams is often dead space. Therefore, in the first invention, paying attention to this point, the space between the pillars or the beams is used as the installation space for the water supply tank, and the long water supply tank is installed along the pillars or the beams in the installation space. In this case, when installing the water supply tank, it is possible to suppress the influence on other spaces such as the living room space. Therefore, the water supply tank can be suitably installed in the building.

In the water supply tank installation structure in the building of the second invention, the installation space is formed inside the pillar assembly portion where the pillars of the four building units are gathered, and the water supply tank is surrounded by the pillars. , It is characterized in that it is installed along each of the pillars in the installation space.

According to the second invention, an installation space is formed inside the pillar assembly portion where the pillars of the four building units are gathered, and a water supply tank is installed along the pillars in the installation space. In this case, a water supply tank can be installed on the inner side of the building. Therefore, it is possible to suppress the influence of outdoor heat as compared with the case where the water supply tank is installed inside the outer wall or in the attic.

In the water supply tank installation structure in the building of the third invention, the water supply tank has a columnar shape extending vertically, and the outer diameter thereof is larger than the distance between the adjacent pillars on the outer peripheral side of the water supply tank. It is characterized by being.

According to the third invention, in the above-described configuration in which the water supply tank is installed inside the pillar collecting portion (installation space), it is possible to reliably prevent the water supply tank from tipping over through the gap between the pillars. ..

The water supply tank installation structure in the building of the fourth invention is provided over the lower end of each of the pillars constituting the pillar assembly, and includes a connecting plate for connecting the pillars, and the connecting plate is provided with a connecting plate. It is characterized in that a fixing portion for fixing the lower end portion of the water supply tank in a positioned state is provided.

In the column assembly portion, the lower end portions of the columns constituting the column assembly portion may be connected via a connecting plate. Therefore, in the fourth invention, the connecting plate is provided with a fixing portion for fixing the lower end portion of the water supply tank in the positioned state. In the above configuration in which the water supply tank is installed in the inner installation space surrounded by each pillar, the positional relationship between the pillar and the water supply tank is important. In that respect, since the connecting plate connecting the pillars is provided with a fixing portion for positioning the water supply tank, it is possible to easily define the positional relationship between the pillars and the water supply tank.

In the water supply tank installation structure in the building of the fifth invention, the building unit has a plurality of ceiling beams provided side by side and a plurality of floor beams provided side by side as the beams. The installation space is formed between the adjacent ceiling beams or between the adjacent floor beams, and the water supply tank is installed along the ceiling beam or the floor beam in the installation space. It is characterized by that.

According to the fifth invention, the installation space is between the adjacent ceiling beams or the adjacent floor beams, and the water supply tank is installed along the beams in the installation space. In this case, since the width of the installation space is relatively wide, it is possible to install a water supply tank having a large width.

The water supply tank installation structure in the building of the sixth invention includes a support member for supporting the water supply tank, and the support member is provided so as to straddle the adjacent ceiling beam or the adjacent floor beam. It is characterized in that it is fixed to each of those ceiling beams or each of those floor beams.

According to the sixth invention, a support member for supporting the water supply tank is provided straddling each adjacent ceiling beam or each adjacent floor beam, and is fixed to each of the ceiling beams or each floor beam. Has been done. In this case, the load of the water supply tank can be borne by each of the ceiling beams or the floor beams via the support member. Therefore, it is possible to install the water supply tank, which is expected to be heavy, in a stable state.

The perspective view which shows the installation structure of the water supply tank in 1st Embodiment. The plan view which shows the installation structure of a water supply tank. FIG. 2 is a cross-sectional view taken along the line AA of FIG. The perspective view which shows the connecting plate and the bracket fixed to the connecting plate. (A) is a front view showing a connecting plate and a bracket, and (b) is a side view. The perspective view which shows the outline of the unit type building. The perspective view which shows the structure of a building unit. The perspective view which shows the installation structure of the water supply tank in 2nd Embodiment.

[First Embodiment]
Hereinafter, an embodiment embodying the present invention will be described with reference to the drawings. FIG. 6 is a perspective view showing an outline of the unit type building.

As shown in FIG. 6, the building 10 such as a house is a two-story unit type building. The building 10 includes a building main body 12 provided on the foundation 11 (outer peripheral foundation) and a roof portion 13 provided above the building main body 12. The building body 12 is configured by connecting a plurality of rectangular parallelepiped building units 20 to each other.

FIG. 7 is a perspective view showing the configuration of the building unit 20. As shown in FIG. 7, the building unit 20 has four pillars 21 arranged at its four corners, and four ceiling girders 22 and floor girders 23 connecting the upper ends and lower ends of the pillars 21, respectively. And. A rectangular parallelepiped skeleton (frame) is formed by the pillars 21, the ceiling girder 22, and the floor girder 23. The pillar 21 is made of square tubular steel. The ceiling girder 22 and the floor girder 23 are made of channel steel having a U-shaped cross section, and are installed so that their openings face each other.

A plurality of ceiling beams 25 are bridged between the ceiling beams 22 facing each other on the long sides of the building unit 20 at predetermined intervals (specifically, at equal intervals). Further, a plurality of floor beams 26 are bridged between the floor beams 23 facing each other on the long sides of the building unit 20 at predetermined intervals (specifically, at equal intervals). The ceiling surface material 27 is supported from above by the plurality of ceiling beams 25, and the floor surface material 28 is supported from below by the plurality of floor beams 26.

The ceiling beam 22, the floor beam 23, the ceiling beam 25, and the floor beam 26 correspond to the beams, respectively.

Here, an emergency water supply tank 30 is installed in the main building 10. As a result, in the main building 10, even if water is cut off due to an earthquake or the like, the water stored in the water supply tank 30 can be used. Therefore, in the following, the installation structure of the water supply tank 30 in the building 10 will be described.

Further, in the main building 10, the water supply tank 30 is installed in the pillar gathering portion 31 where the pillars 21 of the four building units 20 gather on the first floor. 1 to 3 show an installation structure of the water supply tank 30 in which the water supply tank 30 is installed in the pillar gathering portion 31. FIG. 1 is a perspective view showing the installation structure of the water supply tank 30, and FIG. 2 is a plan view. Further, FIG. 3 is a cross-sectional view taken along the line AA of FIG. Hereinafter, the installation structure of the water supply tank 30 will be described with reference to FIGS. 1 to 3.

As shown in FIGS. 1 to 3, in the pillar gathering portion 31 in which the pillars 21 of the four building units 20 are gathered, each pillar 21 constituting the pillar gathering portion 31 (hereinafter, A is a symbol of these pillars 21). (Attach) is erected on the independent foundation 33. Each pillar 21A is erected on an independent foundation 33 via a connecting plate 35. The connecting plate 35 is formed of a flat steel plate, and has a rectangular shape and a square shape in detail (see also FIGS. 4 and 5). The connecting plate 35 is placed on the upper surface of the independent foundation 33, and each pillar 21A is erected on the upper surface of the mounted connecting plate 35 with the lower end thereof placed. The connecting plate 35 is for connecting the lower ends of the pillars 21A to each other, and the pillars 21A are connected via the connecting plate 35, and the building units 20 are connected to each other. Reference numeral 34 in FIGS. 1 and 2 is a connecting beam connecting the independent foundation 33 and the foundation 11 (outer peripheral foundation).

An installation space 37 for installing the water supply tank 30 is formed inside the pillar collecting portion 31. The installation space 37 is formed as an inner space surrounded by each pillar 21A constituting the pillar gathering portion 31. In other words, the installation space 37 is formed between the pillars 21A located diagonally to each other among the pillars 21A, that is, between the pillars 21A adjacent to each other in the diagonal direction.

A water supply tank 30 is installed in the installation space 37. The water supply tank 30 has a columnar shape extending in the vertical direction, and the length in the vertical direction is substantially the same as the length of the pillar 21A. The water supply tank 30 is installed along each pillar 21A in the installation space 37.

In the pillar collecting portion 31, the distance L between the adjacent pillars 21A on the outer peripheral side of the water supply tank 30 is the same between the adjacent pillars 21A. The pillars 21A adjacent to each other on the outer peripheral side of the water supply tank 30 are arranged so that their side surfaces face each other. The distance L between the side surfaces of each of the facing pillars 21A is the same for each of the adjacent pillars 21A.

The outer diameter D of the water supply tank 30 is larger than the above-mentioned interval L of the adjacent pillars 21A (D> L). As a result, the water supply tank 30 is installed in a state where a part of the water supply tank 30 is inserted between the adjacent pillars 21A.

The water supply tank 30 is provided in the middle of the water pipe. An upstream water pipe 38 is connected to the lower surface (bottom surface) of the water supply tank 30, and a downstream water pipe 39 is connected to the upper surface (top surface). Tap water is supplied to the water supply tank 30 from the water pipe 38, whereby water is stored in the water supply tank 30. Further, the water supply tank 30 is connected to a faucet (not shown) provided in a washbasin, a kitchen, or the like via a water pipe 39. As a result, when the faucet is opened, the water in the water supply tank 30 is supplied to the wash basin or the like via the water pipe 39.

The water supply tank 30 is fixed with its lower end positioned on the connecting plate 35. Therefore, in the following, the configuration around the connecting plate 35 to which the water supply tank 30 is fixed will be described with reference to FIGS. 4 and 5 in addition to FIG. FIG. 4 is a perspective view showing the connecting plate 35 and the bracket 45 fixed to the connecting plate 35. FIG. 5 is a front view showing (a) the connecting plate 35 and the bracket 45, and FIG. 5 (b) is a side view.

As described above, each pillar 21A constituting the pillar assembly portion 31 is mounted on the upper surface of the connecting plate 35, and the lower end portion of each pillar 21A is connected via the connecting plate 35 in the mounted state. There is. Explaining the connection configuration of each pillar 21A via the connecting plate 35, as shown in FIG. 3, metal stacking pins 41 are embedded in the independent foundation 33 at positions corresponding to each pillar 21A. .. The stacking pin 41 extends in the vertical direction, the lower portion thereof is embedded in the independent foundation 33, and the upper portion thereof is a protruding portion 41a protruding above the independent foundation 33.

On the other hand, a flat plate-shaped end plate 42 is fixed to each of the pillars 21A by welding at the lower end. Each pillar 21A is erected with its end plate 42 placed on the upper surface of the connecting plate 35. An insertion hole 42a through which a stacking pin 41 is inserted is formed in the end plate 42 of each pillar 21A. The insertion hole 42a is formed in the central portion of the end plate 42.

Further, as shown in FIGS. 4 and 5 in addition to FIG. 3, the connecting plate 35 is formed with an insertion hole 35a into which the stacking pin 41 is inserted. A plurality (specifically, four) insertion holes 35a are formed for each stacking pin 41, and each of the insertion holes 35a communicates with the insertion holes 42a of the end plate 42 of each pillar 21A.

Each stacking pin 41 (specifically, its protruding portion 41a) is inserted into the insertion hole 35a of the connecting plate 35 and the insertion hole 42a of the end plate 42, respectively. In this case, the pillars 21A are connected to the connecting plate 35 via the stacking pin 41, and as a result, the pillars 21A are connected to each other via the connecting plate 35.

The connecting plate 35 is formed with a notch 35b for wiring through each side. These notches 35b do not necessarily have to be provided in the connecting plate 35, and may not be provided.

The connecting plate 35 is provided with a pair of brackets 45 for fixing the lower end portion of the water supply tank 30 in a positioned state. These brackets 45 are formed in an L shape by a steel plate. Each bracket 45 is arranged on the upper surface of the connecting plate 35 in a state of being separated from each other, and is fixed to the connecting plate 35 in the arranged state. Further, each bracket 45 is arranged at a substantially central portion of the connecting plate 35.

Specifically, each bracket 45 has a horizontal plate portion 45a welded and fixed to the upper surface of the connecting plate 35, and a vertical plate portion 45b extending upward from the horizontal plate portion 45a. The brackets 45 are arranged so that the horizontal plate portions 45a face each other and the vertical plate portions 45b face each other. In this case, the vertical plate portions 45b of each bracket 45 are arranged parallel to each other, and the distance between the vertical plate portions 45b is substantially the same as the outer diameter D of the water supply tank 30.

The lower end of the water supply tank 30 is inserted between the vertical plate portions 45b of each bracket 45. In this case, the lower end portion of the water supply tank 30 is sandwiched between the vertical plate portions 45b, in other words, the lower end portion is fitted between the vertical plate portions 45b. Then, by the fitting, the lower end portion of the water supply tank 30 is fixed in the positioned state. Therefore, in this case, each bracket 45 constitutes a fixed portion.

The vertical plate portion 45b of each bracket 45 is provided with a mounting portion 46 on which the lower surface (bottom surface) of the water supply tank 30 is mounted. The mounting portion 46 is made of, for example, a flat steel plate. The mounting portion 46 is arranged so as to project inward from the vertical plate portion 45b of each bracket 45, and is fixed to the horizontal plate portion 45a by welding in the arranged state. In this case, the mounting portions 46 are arranged at intermediate positions in the vertical direction on the vertical plate portion 45b, and their height positions are set to the same positions.

The lower surface of the water supply tank 30 is mounted so as to straddle the upper surface of each mounting portion 46, and the lower end portion of the water supply tank 30 is fitted between the vertical plate portions 45b of each bracket 45 in the mounted state. ing. In this case, the lower surface of the water supply tank 30 is located higher than the upper surface of the connecting plate 35. As a result, a space under the tank 49 having a predetermined height is secured between the upper surface of the connecting plate 35 and the lower surface of the water supply tank 30. Then, the water pipe 38 extends to the lower surface of the water supply tank 30 through the space 49 under the tank, and is connected to the water supply tank 30 at the lower surface.

Subsequently, a work procedure for installing the water supply tank 30 in the installation space 37 of the pillar collecting portion 31 will be described.

In constructing the unit-type building 10 described above, first, each building unit 20 constituting the building 10 is manufactured in the unit manufacturing factory. After manufacturing, each of these building units 20 is transported to the construction site by a truck or the like. At the construction site, each building unit 20 is installed at a predetermined position, and adjacent building units 20 are connected to each other. As a result, the unit type building 10 is constructed.

The work of installing the water supply tank 30 in the installation space 37 of the pillar collecting portion 31 is performed at the same time as installing the building unit 20 on the first floor at the construction site. Therefore, in the following, the work flow at this time will be described.

First, of the four building units 20 constituting the pillar gathering portion 31 on the first floor, two adjacent building units 20 are installed at predetermined positions. In this case, it is assumed that the connecting plate 35 is pre-mounted on the independent foundation 33 prior to the installation of these building units 20. By installing each building unit 20, the pillars 21A of each of the building units 20 are erected on the connecting plate 35, respectively.

Next, the work of installing the water supply tank 30 along the pillar 21A of each of the building units 20 is performed. In this installation work, the lower end of the water supply tank 30 is fitted between the vertical plate portions 45b of each bracket 45 provided on the connecting plate 35. As a result, the lower end of the water supply tank 30 is fixed in a state of being positioned by each bracket 45.

Next, of the four building units 20 constituting the pillar assembly portion 31, the remaining two building units 20 are installed at predetermined positions. As a result, the pillars 21A of each of the building units 20 are erected on the connecting plate 35, and the pillar collecting portion 31 is formed by the pillars 21A and the pillars 21A already erected on the connecting plate 35. .. Then, the water supply tank 30 is installed in the inner space surrounded by the four pillars 21A constituting the pillar collecting portion 31, that is, the installation space 37. In this way, in the main building 10, the water supply tank 30 is installed in the installation space 37.

Further, as the work procedure when the water supply tank 30 is installed in the installation space 37, the following work procedure may be adopted in addition to the above-mentioned work procedure. The work procedure will be described below.

In this work procedure, first, the four building units 20 constituting the pillar assembly portion 31 are installed at predetermined positions. As a result, the pillars 21A of each of the building units 20 are erected on the connecting plate 35, and the pillar gathering portion 31 is formed by each of the pillars 21A. Then, an installation space 37 is formed inside each pillar 21A constituting the pillar gathering portion 31.

Next, the work of installing the water supply tank 30 in the installation space 37 is performed. In this installation work, the water supply tank 30 is lifted vertically by a crane, and then the water supply tank 30 is inserted into the installation space 37 from above while being lowered and installed. Also during this installation, the lower end of the water supply tank 30 is fitted between the brackets 45 on the connecting plate 35 to be fixed. The water supply tank 30 can be installed in the installation space 37 also by such a work procedure.

According to the configuration of the present embodiment described in detail above, the following excellent effects can be obtained.

In the unit type building 10, the space between the adjacent pillars 21 is often a dead space. Therefore, in the above embodiment, paying attention to this point, the space between the adjacent pillars 21A is set as the installation space 37 of the water supply tank 30, and the long water supply tank 30 is installed along the pillar 21A in the installation space 37. did. In this case, when installing the water supply tank 30, it is possible to suppress the influence on other spaces such as the living room space. Therefore, the water supply tank 30 can be suitably installed in the building 10.

An installation space 37 for the water supply tank 30 was formed inside the pillar gathering portion 31 where the pillars 21A of the four building units 20 gather, and the water supply tank 30 was installed along the pillar 21A in the installation space 37. In this case, the water supply tank 30 can be installed on the inner side of the building 10. Therefore, it is possible to suppress the influence of outdoor heat as compared with the case where the water supply tank 30 is installed inside the outer wall or in the attic.

The water supply tank 30 has a columnar shape extending vertically, and its outer diameter D is made larger than the distance L between adjacent pillars 21A on the outer peripheral side of the water supply tank 30. In this case, the water supply tank 30 is installed inside the pillar collecting portion 31 (installation space 37), and it is possible to reliably prevent the water supply tank 30 from tipping over between the pillars 21A.

In the pillar gathering portion 31, the lower end portions of the pillars 21A constituting the pillar gathering portion 31 are connected via the connecting plate 35. Therefore, in the above embodiment, paying attention to this point, a bracket 45 for fixing the lower end portion of the water supply tank 30 in the positioned state is provided on the connecting plate 35. In the configuration in which the water supply tank 30 is installed in the inner installation space 37 surrounded by each pillar 21A, the positional relationship between the pillar 21A and the water supply tank 30 is important. In that respect, by providing the bracket 45 for positioning and fixing the water supply tank 30 on the connecting plate 35 connecting the pillars 21A, it is possible to easily define the positional relationship between the pillars 21A and the water supply tank 30.

Further, by installing the water supply tank 30 between the adjacent pillars 21A, the water supply tank 30 can be installed in an invisible portion inside the building 10. Therefore, it is possible to obtain the advantage of being invisible and having high crime prevention.

[Second Embodiment]
Next, the second embodiment will be described. In this embodiment, the installation structure of the water supply tank is different from that of the first embodiment. Therefore, in the following, the configuration of the present embodiment will be described with reference to FIG. 8, focusing on the differences. FIG. 8 is a vertical cross-sectional view showing the installation structure of the water supply tank in the present embodiment.

As shown in FIG. 8, a plurality of ceiling beams 25 are arranged side by side at predetermined intervals on the ceiling portion of the building unit 20. Each ceiling beam 25 is made of, for example, square steel. A ceiling surface material 27 is fixed to the lower surface of each ceiling beam 25 with screws or the like. The ceiling surface material 27 is made of, for example, gypsum board. The space above the ceiling surface material 27 is the attic space 55. In addition, each ceiling beam 25 may be made of other shaped steel such as lip channel steel.

On the floor of the building unit 20, a plurality of floor beams 26 are arranged side by side at predetermined intervals. Each floor beam 26 is made of, for example, square steel. A floor material 28 is fixed to the upper surface of each floor beam 26 with screws or the like. The floor material 28 is made of, for example, a particle board. The space below the floor member 28 is the underfloor space 56.

There is a living room space 58 between the floor surface material 28 and the ceiling surface material 27. The living room space 58 is separated from the outside by a wall portion 59.

Here, in the present embodiment, the water supply tanks 60 and 70 are installed in the attic space 55 and the underfloor space 56, respectively. Therefore, the installation structure of the water supply tanks 60 and 70 in the present embodiment will be described below.

First, the installation structure of the water supply tank 60 in the attic space 55 will be described. In the attic space 55, a water supply tank 60 is installed between adjacent ceiling beams 25. That is, in the attic space 55, the space between the adjacent ceiling beams 25 is the installation space 62 for the water supply tank 60, and the water supply tank 60 is installed along the ceiling beam 25 in the installation space 62. The water supply tank 60 has a columnar shape similar to the water supply tank 30 of the first embodiment, and its outer diameter is larger than that of the water supply tank 30. The water supply tank 60 is arranged in the central portion between the ceiling beams 25 in the installation space 62, and extends horizontally along each of the ceiling beams 25.

The water supply tank 60 is fixed to each ceiling beam 25 adjacent to each other with the installation space 62 interposed therebetween by using a fixing band 63. The fixing band 63 includes a pair of band main bodies 64 made of band-shaped sheet metal members. Each band main body 64 sandwiches a water supply tank 60 at the top and bottom, whereby each band main body 64 and thus a fixing band 63 are attached to the water supply tank 60. In this case, the portion of each band main body 64 that sandwiches the water supply tank 60 has an arc shape along the outer circumference of the water supply tank 60. Further, a plurality of fixing bands 63 are arranged in the longitudinal direction of the water supply tank 60.

Each band main body 64 is provided so as to straddle the adjacent ceiling beams 25, and both ends thereof are placed and fixed on the upper surface of each of the ceiling beams 25. In this case, the band main bodies 64 overlap each other on the upper surface of the ceiling beam 25, and the band main bodies 64 are fixed to the ceiling beam 25 by screws 67 in the overlapping state. In such a configuration, the water supply tank 60 is supported by each ceiling beam 25 via the fixing band 63. Therefore, in this case, the fixing band 63 corresponds to the support member. Further, in this supported state, a predetermined gap exists between the water supply tank 60 and the ceiling surface material 27. Therefore, the load of the water supply tank 60 does not act on the ceiling surface material 27.

Subsequently, the installation structure of the water supply tank 70 in the underfloor space 56 will be described. In the underfloor space 56, the water supply tank 70 is installed between the adjacent floor beams 26. That is, in the underfloor space 56, the space between the adjacent floor beams 26 is the installation space 72 for the water supply tank 70, and the water supply tank 70 is installed along the floor beams 26 in the installation space 72. The water supply tank 70 has the same configuration as the water supply tank 60 installed in the attic space 55. The water supply tank 70 is arranged in the central portion between the floor beams 26 in the installation space 72, and extends horizontally along each of the floor beams 26.

The water supply tank 70 is fixed to each floor beam 26 adjacent to each other with the installation space 72 sandwiched by using a fixing band 73. The fixing band 73 has the same configuration as the fixing band 63 described above, and has a pair of band main bodies 74. Each band main body 74 is attached to the water supply tank 70 with the water supply tank 70 sandwiched vertically. Further, a plurality of fixing bands 73 are arranged in the longitudinal direction of the water supply tank 70.

Each band main body 74 is provided so as to straddle the adjacent floor beams 26, and both ends thereof are fixed to the lower surface of each of the floor beams 26. In this case, the band main bodies 74 overlap each other on the lower surface of the floor beam 26, and the band main bodies 74 are fixed to the floor beam 26 by screws 77 in the overlapping state. In such a configuration, the water supply tank 70 is supported by each floor beam 26 via the fixing band 73. Therefore, in this case, the fixing band 73 corresponds to the support member.

According to the configuration of the present embodiment described in detail above, the following excellent effects can be obtained.

The space between the adjacent ceiling beams 25 and the space between the adjacent floor beams 26, which tend to be dead spaces, are set as the installation spaces 62 and 72 of the water supply tanks 60 and 70, respectively. 70 was installed along the beams 25 and 26. Also in this case, as in the first embodiment, when the water supply tanks 60 and 70 are installed, it is possible to suppress the influence on other spaces. Therefore, the water supply tanks 60 and 70 can be suitably installed in the building 10.

The installation space 62 between the adjacent ceiling beams 25 and the installation space 72 between the adjacent floor beams 26 are wider than the installation space 37 between the columns 21A in the first embodiment. It has become. Therefore, in this case, it is possible to install water supply tanks 60 and 70 having a large width.

Fixing bands 63 and 73 as support members for supporting the water supply tanks 60 and 70 were provided straddling the adjacent beams 25 and 26, and fixed to the beams 25 and 26, respectively. In this case, the load of the water supply tanks 60 and 70 can be applied to the adjacent beams 25 and 26 via the fixing bands 63 and 73. Therefore, the water supply tanks 60 and 70, which are expected to be heavy, can be installed in a stable state.

In the above embodiment, the water supply tanks 60 and 70 are installed in the attic space 55 and the underfloor space 56, respectively, but the water supply tank is installed only in any one of the spaces 55 and 56. May be good.

[Other Embodiments]
The present invention is not limited to the above embodiment, and may be implemented as follows, for example.

(1) In the first embodiment, the outer diameter D of the water supply tank 30 is made larger than the distance L between the adjacent pillars 21A on the outer peripheral side of the water supply tank 30, but the outer diameter D of the water supply tank 30 is set to the pillar 21A. It may be the same as or smaller than the distance L between them. Further, in that case, a fall prevention metal fitting may be provided to prevent the water supply tank 30 from tipping over between the pillars 21A. FIG. 1 shows an example of the fall prevention metal fitting 81. The fall prevention metal fitting 81 is made of a steel plate. The fall prevention metal fitting 81 is arranged so as to straddle the outer surface of the adjacent pillars 21A, and is fixed to each of the pillars 21A with screws or the like. In this case, the fall prevention metal fitting 81 can prevent the water supply tank 30 from falling. Further, in the example of FIG. 1, only one fall prevention metal fitting 81 is arranged, but a plurality of fall prevention metal fittings 81 may be arranged for each adjacent pillar 21A.

(2) In the first embodiment, the water supply tank 30 may be assembled to the building unit 20 in advance at the manufacturing factory. That is, the water supply tank 30 may be assembled in advance to any one of the four building units 20 constituting the pillar collecting portion 31. In this case, the water supply tank 30 is assembled near the pillar 21, and the water supply tank 30 is displaced between the position inside the unit arranged in the building unit 20 and the position outside the unit arranged in the installation space 37 in the assembled state. It is possible to make it possible. Then, when the building unit 20 is transported from the manufacturing factory to the construction site, the building unit 20 can be suitably transported by locating the water supply tank 30 in the unit. Further, at the construction site, by moving the water supply tank 30 from the position inside the unit to the position outside the unit, the water supply tank 30 can be easily arranged in the installation space 37.

As a configuration in which the water supply tank 30 can be displaced between the position inside the unit and the position outside the unit, for example, the water supply tank 30 is rotatably attached to a pillar 21 or the like of the building unit 20, and the water supply tank 30 is rotatably attached to the pillar 21 or the like. It is conceivable that the position can be displaced between the position inside the unit and the position outside the unit. Further, it is also conceivable to provide a guide rail for guiding the water supply tank 30 to the position inside the unit and the position outside the unit so that the water supply tank 30 can be displaced to the position inside the unit and the position outside the unit along the guide rail.

(3) For example, the space between the ceiling girders 22 of the adjacent building units 20 may be used as the installation space for the water supply tank. In this case, the water supply tank will be installed along each ceiling girder 22 in the installation space. Further, the space between the floor girders 23 of the adjacent building units 20 may be used as the installation space for the water supply tank. In this case, the water supply tank will be installed along each floor girder 23 in the installation space.

(4) In the above embodiment, the installation space 37 of the water supply tank 30 is formed in the pillar collecting portion 31 where the pillars 21A of the four building units 20 are gathered. For example, the pillars 21 of the two building units 20 are adjacent to each other. An installation space may be formed between the adjacent pillars 21 in the section. In that case, the water supply tank 30 will be installed along each pillar 21 in the installation space.

(5) In each of the above embodiments, the water supply tank 30 is formed in a columnar shape, but the water supply tank 30 may be formed in a shape other than the columnar shape, such as a square columnar shape or a hexagonal columnar shape. good.

10 ... building, 20 ... building unit, 21 ... pillar, 21A ... pillar, 25 ... ceiling beam as beam, 26 ... floor beam as beam, 30 ... water supply tank, 31 ... pillar assembly, 35 ... connecting plate , 37 ... installation space, 60 ... water supply tank, 62 ... installation space, 63 ... fixing band as a support member, 70 ... water supply tank, 72 ... installation space, 73 ... fixing band as a support member.

Claims (6)

It is a water supply tank installation structure in a building where a water supply tank is installed in a unit type building constructed by connecting a plurality of building units having columns and beams to each other.
An installation space for the water supply tank is formed between the adjacent pillars or between the adjacent beams.
A water supply tank installation structure in a building, wherein the water supply tank is formed in a long shape and is installed along the pillar or the beam in the installation space. In the pillar gathering part where the pillars of the four building units are gathered, the installation space is formed inside surrounded by the pillars.
The water supply tank installation structure in a building according to claim 1, wherein the water supply tank is installed along each of the pillars in the installation space. The second aspect of claim 2, wherein the water supply tank has a columnar shape extending vertically, and the outer diameter thereof is larger than the distance between the adjacent pillars on the outer peripheral side of the water supply tank. Water tank installation structure in the building. It is provided so as to straddle the lower end of each of the pillars constituting the pillar assembly, and includes a connecting plate for connecting the pillars.
The water supply tank installation structure in a building according to claim 2 or 3, wherein the connecting plate is provided with a fixing portion for fixing the lower end portion of the water supply tank in a positioned state. The building unit has a plurality of ceiling beams provided side by side and a plurality of floor beams provided side by side as the beams.
The installation space is formed between the adjacent ceiling beams or between the adjacent floor beams, and the water supply tank is installed along the ceiling beam or the floor beam in the installation space. The water supply tank installation structure in the building according to claim 1. A support member for supporting the water supply tank is provided.
The claim is characterized in that the support member is provided so as to straddle the adjacent ceiling beams or the adjacent floor beams, and is fixed to each of the ceiling beams or each of the floor beams. Water supply tank installation structure in the building according to item 5.

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