JP2016017351A - Building unit and building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a building unit capable of being well-fitted to a building structure constructed on site.SOLUTION: A building unit 1 which constitutes a part of a building with two or more floors includes: a first unit 11 which is previously assembled at a place other than the construction site, and which constitutes a floor in plural floors; a second unit 12 which is previously assembled at a place other than the construction site, and which constitutes a floor immediately above the first unit 11 in the plural floors; and a spacer 80 which is disposed between the first unit 11 and the second unit 12 at the construction site.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a building unit and a building including the building unit.

  Generally, a building such as a house is built at a construction site. For example, in the case of a wooden house, a building is constructed on a concrete foundation using building materials such as beams and pillars on a concrete foundation, and then housing equipment (equipment equipment) such as watering equipment and electrical equipment is installed. Is done.

  Housing equipment, when installed at a construction site, causes variations in quality and increases costs. Therefore, conventionally, equipment units consisting of bathrooms (unit baths), toilets, etc. are produced in advance in the factory, and the equipment units are transported to the construction site, and other entrances and rooms are constructed on site using conventional construction methods. Is known (Patent Document 1).

JP-A-2-232445

  The building unit assembled at the factory is loaded onto a transport vehicle such as a truck and transported to the construction site. For truck transportation, there is a height restriction according to road traffic laws and regulations. For example, permission is not required at a certain height from the ground, but permission is required at higher heights.

  Also, since the height of the truck bed is at a predetermined height from the ground, the maximum height of a building unit that can be transported by truck is the height of the truck bed from the limit height from the ground according to road traffic regulations. It is the dimension after subtracting.

  As described above, the building unit assembled in the factory cannot be increased in height due to the height restriction according to the road traffic regulations when transported by a truck or the like.

  Therefore, it is necessary to divide the building unit having a high height into a plurality of units and transport it to the construction site. For example, a two-story building unit is transported separately into a first unit on the first floor and a second unit on the second floor. Complete the building unit.

  However, when building a building such as a house by building another building structure at the building site with the building unit as a core (that is, when the building unit is used as a part of a house), the first unit and the second unit When the two-story building unit is assembled by stacking, the floor surface of the second unit, which is the second floor part of the building unit 1, may not coincide with the floor surface of the second floor part of another building structure.

  In this way, when a building unit (equipment unit) assembled at a factory is transported to a building site and another building structure is combined with the building unit at the building site, a building such as a house is completed. It may not fit well with on-site building structures.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a building unit that fits well with an on-site construction structure.

  In order to solve the above problems, one aspect of a building unit according to the present invention is a building unit that constitutes a part of a building having two or more floors, and is pre-assembled outside the construction site, and has a plurality of floors. A first unit that constitutes one of the floors; a second unit that is pre-assembled outside the construction site and that constitutes a floor directly above the first unit of the plurality of floors; and the first unit at the construction site. And a spacer disposed between the second units.

  ADVANTAGE OF THE INVENTION According to this invention, the building unit which adapts well to the building structure constructed on-site in the construction site is realizable.

It is a perspective view when the building unit which concerns on embodiment of this invention is seen from the surface of the indoor side. It is a figure which shows the building structure and installation of the building unit which concerns on embodiment of this invention. It is a perspective view when the building unit which concerns on embodiment of this invention is seen from the surface of the outdoor side. It is a figure which shows the various installation installed in the building unit shown by FIG. It is a plane sectional view of the 1st unit in the building unit concerning an embodiment of the invention. It is a plane sectional view of the 2nd unit in a building unit concerning an embodiment of the invention. It is a sectional side view of the 1st unit and the 2nd unit in a building unit concerning an embodiment of the invention. It is a figure which shows the structure of the spacer used for the building unit which concerns on embodiment of this invention. It is a figure for demonstrating the spacer in the building unit using the spacer shown in FIG. 8, a beam, and a connection method. It is a side view of the building unit which concerns on other embodiment of this invention. It is a top view which shows the structure of the spacer used for the building unit which concerns on other embodiment of this invention. It is a figure which shows the structure of the building which concerns on embodiment of this invention. It is a figure for demonstrating the foundation construction in the building construction method which concerns on embodiment of this invention. It is a figure for demonstrating the 1st unit installation construction in the building construction method which concerns on embodiment of this invention. It is a figure for demonstrating the 2nd unit installation construction in the building construction method which concerns on embodiment of this invention. It is a figure for demonstrating the building construction in the building construction method which concerns on embodiment of this invention. It is a figure for demonstrating the roof construction (building method completion) in the building construction method which concerns on embodiment of this invention. It is a figure for demonstrating the surrounding construction in the building construction method which concerns on embodiment of this invention.

(Embodiment)
Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each of the embodiments described below shows a preferred specific example of the present invention. Accordingly, numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps of assembly and manufacturing (steps) or order of steps shown in the following embodiments are merely examples, and the present invention is not limited thereto. It is not the purpose to limit. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a schematic diagram and is not necessarily illustrated strictly. Moreover, in each figure, the same code | symbol is attached | subjected to the substantially same structure, The overlapping description is abbreviate | omitted or simplified.

(Building unit)
First, the structure of the building unit 1 which concerns on embodiment of this invention is demonstrated using FIGS. 1-3. FIG. 1 is a perspective view of a building unit according to an embodiment of the present invention as viewed from the indoor side. FIG. 2 is a diagram showing the building structure and equipment of the building unit, and shows the wall base material of the building unit shown in FIG. 1 in a transparent manner. FIG. 3 is a perspective view of the same building unit as viewed from the outdoor side.

  A building unit 1 shown in FIG. 1 constitutes a part of a building (building), one or a plurality of units (unit units) assembled in advance outside the construction site, and various facilities related to the building. And have. The building unit 1 in the present embodiment is a core unit for building a building using the building unit 1 as a core. The building is, for example, a house, but may be a non-house such as a store, a factory, or a warehouse.

  As an example, the size of the building unit 1 is a plane size of 3460 mm × 1820 mm (2 tsubo) and an overall height of 3600 mm. In addition, the dashed-dotted line shown by FIG. 1 has shown the building structure body (seven beams in FIG. 1) in the said building at the time of building a building using the building unit 1. FIG.

  The building unit 1 is, for example, a housing unit that constitutes a part of a house having two or more floors, and is configured by stacking a plurality of unit units that constitute each of a plurality of floors. Building unit 1 in the present embodiment constitutes a part of a two-story house, and as shown in FIGS. 1 to 3, two unit units of first unit 11 and second unit 12 are stacked. Is made up of.

  As shown in FIG. 2, the building unit 1 further includes a spacer 80 disposed between the first unit 11 and the second unit 12.

  The building unit 1 is assembled in advance at a place other than the construction site such as a factory (site or building) for each unit unit. That is, each of the first unit 11 and the second unit 12 is assembled in advance at a factory, for example. As described above, since the first unit 11 and the second unit are industrialized units in which various facilities are incorporated in advance in a factory or the like, a high-quality and high-functional unit can be manufactured at a low cost. The spacer 80 is also assembled in advance in a place other than the construction site such as a factory, like the first unit 11 and the second unit 12.

  The first unit 11 and the second unit 12 assembled at the factory and the spacer 80 are transported to a construction site by a truck or the like, stacked on the construction site, and connected and fixed. Specifically, the spacer 80 is placed on the first unit 11 and the second unit 12 is placed on the spacer 80 at the construction site. The stacked first unit 11, spacer 80, and second unit 12 are connected and fixed to each other using bolts or the like. Thus, the spacer 80 is disposed between the first unit 11 and the second unit 12 at the building site.

  The 1st unit 11 is a unit unit which constitutes one floor of a plurality of floors, and is a lower unit which constitutes the 1st floor part of building unit 1 in this embodiment. The 2nd unit 12 is a unit which constitutes the other floor among a plurality of floors, and is an upper unit which constitutes the 2nd floor part of building unit 1 in this embodiment. That is, the second unit 12 is a unit that constitutes a floor above the first unit 11, and is a unit that constitutes a floor directly above the first unit 11 in the present embodiment.

  The height of the first unit 11 and the second unit 12 exceeds the height limit of the Road Traffic Act when the first unit 11 and the second unit 12 are placed on the loading platform of a transport vehicle such as a truck in units of each unit. It is set so that there is no height. In the present embodiment, the height of the first unit 11 and the height of the second unit 12 are the same, and the overall height is 2800 mm as an example.

  The first unit 11 includes a building structure (frame structure) 11a based on, for example, a wooden frame structure. Similar to the first unit 11, the second unit 12 includes a building structure (frame structure) 12a based on a wooden frame structure method, for example. The building structures 11a and 12a are composed of a shaft set made of building materials such as a plurality of pillars and beams and a floor set made of building materials such as joists, and are assembled in advance at a place other than the construction site such as a factory. Yes.

  The building structures 11a and 12a need only have at least pillars, and the beams may be combined at the building site, and are not necessarily required. In this case, it is preferable to fix a plurality of columns other than the beam, for example, fixing a plurality of columns by laying a base material such as a wall base material (such as a structural plywood) on the plurality of columns. Can do.

  The first unit 11 and the second unit 12 can be fixed using, for example, bolts and nuts. In this case, a plurality of bolts are passed through the beam of the building structure 11a in the first unit 11 and the beam of the building structure 12a in the second unit 12, and the first unit and the second unit are tightened with a nut. Can be connected and fixed.

  Hereinafter, the structure of the 1st unit 11 and the 2nd unit 12 is demonstrated in detail using FIGS. 4-7, referring FIGS. 1-3. 4 is a diagram showing various facilities installed in the building unit shown in FIG. 5 is a plan sectional view of the first unit, FIG. 6 is a plan sectional view of the second unit, and FIG. 7 is a side sectional view of the first unit and the second unit.

  In addition, in FIG. 4 etc., the code | symbol attached | subjected to various piping is not attached | subjected to all the piping of the same kind, and even if it is the same kind of piping, the thing which does not attach | subject the code | symbol exists. Moreover, in each figure, the number and shape of the beam and the pillar in the building structures 11a and 12a may not correspond exactly | strictly.

  As shown in FIGS. 1, 3, and 5 to 7, the first unit 11 and the second unit 12 include a wall base material 13 (outer wall base material 13 a and inner wall base material 13 b), a ceiling base material 14, and a floor base. A material 15 is provided. The wall base material 13, the ceiling base material 14, and the floor base material 15 are, for example, plate materials such as structural plywood, boards, or panels, and are attached to the building structures 11a and 12a. The building structures 11a and 12a and the spacer 80 are covered with the wall base material 13, and are not visible from the outside after the wall base material 13 is attached.

  As an example, as shown in FIG.1 and FIG.3, the outer wall base material 13a is attached to one outer side surface in which the recessed part 16 mentioned later was formed among the four outer side surfaces of the building structures 11a and 12a. The inner wall base material 13b is attached to the other three outer surfaces.

  In the first unit 11 and the second unit 12 in the present embodiment, the wall base material 13, the ceiling base material 14, and the floor base material 15 are attached in advance at the factory when the building structures 11a and 12a are constructed. However, it may be installed not at the factory but at the construction site. That is, as shown in FIG. 2, the building unit 1 does not have the wall base material 13, the ceiling base material 14, and the floor base material 15, and may be configured only by the building structures 11a and 12a and the equipment.

  Further, after attaching the outer wall base material 13a, an outer wall such as a plate wall, a painted wall, or a tension wall may be further applied to the outer wall base material 13a. Similarly, after attaching the inner wall base material 13b and the ceiling base material 14, interior materials such as cloth and tiles may be applied to the inner wall base material 13b and the ceiling base material 14, or the floor base material 15 is attached. Later, flooring such as flooring and tatami may be applied to the floor base material 15. In addition, construction of an outer wall, an interior material, and a flooring may be performed in advance at a factory, or may be performed at a construction site.

  In addition, in the present embodiment, as shown in FIG. 1, the first unit 11 has ventilation connected to an indoor door 21 a such as a sliding door and an upper and lower floor air circulation duct 44 (first air circulation duct 44 a). A hole 22a is provided. Further, as shown in FIG. 3, the first unit 11 is provided with an outdoor hood 23a that covers a ventilation hole connected to the first air supply / exhaust duct 45a.

  As shown in FIG. 1, the second unit 12 is provided with an indoor door 21b such as a sliding door and a ventilation hole 22b connected to the upper and lower floor air circulation duct 44 (second air circulation duct 44b). Yes. Further, as shown in FIG. 3, the second unit 12 is provided with four outdoor hoods 23b covering the four ventilation holes connected to the second air supply / exhaust duct 45b, and a window 24b of the unit bath 32. .

  Next, the equipment installed in the building unit 1 will be described in detail.

  The building unit 1 has facilities (housing facilities) such as a watering facility, an air conditioning facility, and an electrical facility, and these facilities are installed in advance in the building unit 1 at a place other than a construction site such as a factory. The building unit 1 only needs to have at least one of these facilities.

  Examples of the watering equipment include equipment used in the user's room such as a unit bath (bathroom), toilet, wash basin, and kitchen, a water heater (hot water supply system) that converts water into hot water, and the ceiling And distribution pipes (drainage pipes, water supply pipes and hot water supply pipes) installed in pipe spaces such as under the floor and inside walls.

  Air conditioning equipment includes, for example, air conditioner indoor units such as air conditioners installed indoors, air conditioner outdoor units installed outdoors, equipment such as heat exchangers installed on the ceiling, etc., and pipe space Various pipes such as ducts to be installed are listed.

  As electrical equipment, distribution boards, information panels, operation panels for operating equipment, creation and cooperation equipment (creation and cooperation system), equipment such as lighting, switches, outlets and wiring (information Wiring equipment such as wiring and electrical wiring). The distribution board, information panel, operation panel, creation and cooperation device, lighting, switch and outlet are installed indoors. In addition, wiring such as information wiring and electric wiring is installed behind the ceiling, under the floor, in the wall, and the like.

  The building unit 1 according to the present embodiment has a configuration in which main equipments of a house are collected in a water core unit that integrates water facilities. Thereby, since most of the equipment installed in the house can be stored in the building unit 1 (2 tsubo in this embodiment), a large living space can be secured even in a small house.

  Specifically, as shown in FIGS. 2, 4, 5 to 7, the building unit 1 includes a toilet 31, a unit bath 32, a wash basin 33, a hot water supply pipe 34, a water supply pipe 35, And it has a drain pipe 36.

  The toilet 31, the unit bath 32, and the wash basin 33 are connected to a hot water storage tank of the hot water heater 60 through a hot water pipe 34. The toilet 31, the unit bath 32, and the washstand 33 are connected to a water supply pipe 35 and a drain pipe 36 by piping.

  More specifically, as shown in FIGS. 4, 5, and 7, a first hot water pipe (lower hot water pipe) 34 a, a first hot water pipe (lower water pipe) ) 35a and a first drain pipe (lower drain pipe) 36a are installed. On the other hand, as shown in FIGS. 4, 6 and 7, the second unit 12 constituting the second floor portion includes a toilet 31, a unit bath 32, a wash basin 33, a second hot water supply pipe (lower hot water supply pipe) 34b, A second water supply pipe (lower water supply pipe) 35b and a second drain pipe (lower drainage pipe) 36b are installed. As shown in FIG. 4, in the present embodiment, a washing machine 37 is installed in the second unit 12, and a second water supply pipe 35 b is connected to the washing machine 37 by piping.

  These watering facilities are incorporated in the building structure 11a or 12a in advance at the factory. In addition, the water supply facility is connected to the water supply via the water supply pipe 35 and connected to the sewerage via the drain pipe 36 by on-site construction at the construction site. In addition, the building unit 1 should just have at least 1 of these watering facilities. Moreover, you may have other watering facilities, such as a kitchen, besides these.

  As shown in FIG. 4, the building unit 1 includes an air conditioner (air conditioner indoor unit) 41, an air conditioner outdoor unit (air conditioner outdoor unit) 42, a total heat exchanger 43, and upper and lower floor air circulation ducts as air conditioning equipment. 44, an air supply / exhaust duct 45, a refrigerant pipe 46, and a drain pipe 47.

  The air conditioner 41 and the air conditioner outdoor unit 42 are connected by a refrigerant pipe 46. A drain pipe 47 is connected to the air conditioner 41 and the air conditioner outdoor unit 42, and unnecessary water generated when the air conditioner is used is discharged to the outside of the building unit 1 through the drain pipe 47.

  More specifically, as shown in FIG. 4 and FIG. 7, a first air circulation duct (lower air circulation duct) 44 a and a first air supply / exhaust duct (lower air supply / exhaust) are provided in the first unit 11 constituting the first floor portion. A duct 45a, a first refrigerant pipe (lower refrigerant pipe) 46a, and a first drain pipe (lower drain pipe) 47a are installed. On the other hand, as shown in FIGS. 4 and 7, the second unit 12 includes a total heat exchanger 43, a second air circulation duct (upper air circulation duct) 44b, and a second air supply / exhaust duct (upper air supply / exhaust duct) 45b. A second refrigerant pipe (upper refrigerant pipe) 46b and a second drain pipe (upper drain pipe) 47b are installed.

  These air conditioning facilities are incorporated in the building structure 11a or 12a in advance at the factory. In addition, the building unit 1 should just have at least 1 of these air conditioning equipment, and may have air conditioning equipment other than these.

  As shown in FIG. 4, the building unit 1 includes a distribution board 51, an information board 52, an operation panel 53, and a creation cooperation device 54 as electrical equipment. Although not shown, the building unit 1 includes lighting, a switch, an outlet, wiring (information wiring, electrical wiring), and the like as electrical equipment.

  More specifically, as shown in FIGS. 4, 5, and 7, a distribution board 51, an information panel 52, an operation panel 53, and a creation / cooperation device 54 are provided in the first unit 11 constituting the first floor portion. is set up. The distribution board 51, the information board 52, the information board 52, and the creation cooperation device 54 are collectively stored in the storage room 17 provided in the first unit 11. The storage chamber 17 is provided beside the recess 16 of the first unit 11.

  These electric facilities are incorporated in the building structure 11a or 12a in advance at the factory. In addition, the building unit 1 should just have at least 1 of these electric equipments, and may have electric equipments other than these.

  As described above, the watering equipment, the air conditioning equipment, and the electrical equipment may be installed in both the first unit 11 and the second unit 12, but may be installed in only one of them. In other words, watering equipment, air conditioning equipment, and electrical equipment may be installed on all floors, may be installed only on any one floor, or in the case of two or more floors, Although not all the floors, they may be installed on a plurality of floors. Moreover, when installing the water-circulating facility in a room on the second floor or higher, the water-circulating facility is connected to a water pipe piped on the lower floor.

Furthermore, the building unit 1 in the present embodiment has a hot water supply facility (hot water supply system) using a heat pump using CO ₂ as a refrigerant. As shown in FIGS. 3 and 4, this hot water supply facility has a hot water heater 60 incorporating a hot water storage tank and a heat pump unit as an outdoor unit. That is, the water heater 60 is installed outdoors. A watering facility installed in the room is connected to a hot water storage tank in the water heater 60 by a hot water pipe 34. Although not shown, the heat pump unit includes a water heat exchanger connected by a hot water storage tank and a water distribution pipe, and an air heat exchanger connected by a water heat exchanger and a refrigerant pipe.

  Furthermore, the building unit 1 in the present embodiment includes a power storage device (power station) 70 connected to the electrical equipment by electrical wiring as shown in FIGS. 3 and 4. The electric power stored in the power storage device 70 is supplied to each electrical facility by electrical wiring as necessary. The power storage device 70 is an outdoor unit and is installed outdoors.

  The various pipes of the first unit 11 correspond to the various pipes of the second unit 12, and when the first unit 11 and the second unit 12 are stacked, the pipes of the first unit 11 and the second unit 12 are stacked. The pipe is connected to the pipe. Specifically, each of the first hot water supply pipe 34a, the first water supply pipe 35a, the first drain pipe 36a, the first air circulation duct 44a, the first air supply / exhaust duct 45a, the first refrigerant pipe 46a, and the first drain pipe 47a. Are connected to the second hot water supply pipe 34b, the second water supply pipe 35b, the second drain pipe 36b, the second air circulation duct 44b, the second air supply / exhaust duct 45b, the second refrigerant pipe 46b, and the second drain pipe 47b, respectively. Is done.

  In this case, each of the first hot water supply pipe 34a, the first water supply pipe 35a, and the first drain pipe 36a is connected to each of the second hot water pipe 34b, the second water supply pipe 35b, and the second drain pipe 36b. As a continuous pipe, a hot water supply pipe 34, a water supply pipe 35 and a drain pipe 36 are configured. A plurality of hot water supply pipes 34, water supply pipes 35, and drain pipes 36 may be provided as necessary.

  Similarly, the first air circulation duct 44a and the second air circulation duct 44b are connected to form one upper and lower floor air circulation duct 44, and the first air supply / exhaust duct 45a and the second air supply / exhaust duct 45b are connected. Thus, one air supply / exhaust duct 45 is formed. Further, the first refrigerant pipe 46a and the second refrigerant pipe 46b are connected to form one refrigerant pipe 46, and the first drain pipe 47a and the second drain pipe 47b are connected to form one drain pipe 47. Is done. The refrigerant tube 46 is filled and sealed with a refrigerant.

  Thus, in the present embodiment, the hot water supply pipe 34, the water supply pipe 35, the drain pipe 36, the upper and lower floor air circulation duct 44, the air supply / exhaust duct 45, the refrigerant pipe 46, and the drain pipe 47 communicate with each other on the upper and lower floors. It is piped over the upper and lower floors.

  In addition, outdoor units such as the air conditioner outdoor unit 42, the water heater 60, and the power storage device 70 are installed outdoors. These outdoor units are connected to each facility at the construction site. For example, the air conditioner outdoor unit 42 is connected to the air conditioner 41 by the refrigerant pipe 46 and the drain pipe 47. In addition, the hot water storage tank of the water heater 60 is connected to a watering facility (unit bath, toilet, washroom, etc.) by a hot water pipe 34. The power storage device 70 is connected to various electric facilities by electric wiring.

  As shown in FIGS. 3-5, the building unit 1 has the recessed part 16 comprised so that it might dent indoors. The recess 16 is provided on a floor other than the top floor of the house. In the present embodiment, the recess 16 is provided in the first unit 11 constituting the first floor portion. Further, the recess 16 is provided so as to dent a part of the outer surface of the first unit 11. Specifically, the concave portion 16 is provided so as to dent other portions of the outer surface of the first unit 11 while leaving a pair of side walls 18b facing the upper portion 18a. The amount of recess (retreat amount) toward the indoor side in the recess 16 is, for example, 600 mm.

  The recessed part 16 is a space area | region comprised by denting a part of building structure which comprises the building unit 1 to the indoor side. In this Embodiment, the recessed part 16 is comprised by the framework of the building structure 11a. Specifically, the recessed part 16 is formed by providing the location where a frame group and a floor group do not exist in a part of building structure 11a. In addition, in the building unit 1, the outer side surface in which the recessed part 16 was formed is a surface of the outdoor side. That is, an outer wall is provided on the inner surface of the recess 16.

  And the outdoor unit is installed in the recessed part 16 comprised in this way. Specifically, as shown in FIGS. 3 to 5, in the recess 16, the air conditioner outdoor unit 42, the water heater 60, and the power storage device 70 are accommodated in the recess 16 so as to fit in the space of the recess 16. . Thus, the recessed part 16 can be used as a space for installing the outdoor unit of a housing facility. In the present embodiment, all the outdoor units connected to the facilities incorporated in the building unit 1 are arranged in the recess 16. In addition, installation in the recessed part 16 of an outdoor unit is performed at a construction site, for example. As described above, by installing the outdoor unit in the concave portion 16, it is possible to avoid the vacant space in the site from being narrowed by installing the outdoor unit outdoors, and the available space in the site can be effectively used.

  Moreover, in this Embodiment, the upper part 18a exists as an upper surface part on the recessed part 16, and the upper part 18a functions as an eaves. Thus, even if the outdoor unit is not provided with a hood or the like, it is possible to prevent the outdoor unit from being exposed to wind and rain or direct sunlight by installing the outdoor unit in the recess 16, so that the outdoor unit may break down. It is possible to suppress the life from being shortened and the functional performance from being lowered.

  As shown in FIGS. 3 and 5, in the present embodiment, the recess 16 is provided with a door 19 that leads to the inside. Thus, indoor and outdoor access can be performed through the door 19. Moreover, when installing an outdoor unit in the recessed part 16, the outdoor unit carried indoors can be carried out outdoors through a door. Therefore, even when the space between the outer wall of the house and the land boundary is narrow and the outdoor unit cannot be transported from the outside to the recess 16, the outdoor unit can be carried out from the indoor to the outdoor through the door 19. An outdoor unit can be installed in the recess.

  Here, the spacer 80 will be described in detail with reference to FIG. FIG. 8 is a diagram showing a configuration of a spacer used in the building unit 1 according to the embodiment of the present invention, where (a) is a plan view, (b) is a side view, and (c) is a diagram of (a). It is sectional drawing in the AA line.

  As shown in FIG. 8A, the spacer 80 has a frame. Specifically, as shown in FIGS. 8A to 8C, the spacer 80 includes a frame made of four pieces of wood arranged in a square shape and a pair of pieces of wood constituting the frame. It is comprised by the beam (horizontal material) which consists of one timber arrange | positioned so that it may mount.

  As described above, the spacer 80 is disposed between the first unit 11 and the second unit 12 as shown in FIGS. 2 and 7. Specifically, the spacer 80 includes a beam (horizontal member) constituting an outer frame on the second unit 12 side in the building structure 11 a of the first unit 11 and the second unit in the building structure 12 a of the second unit 12. It is sandwiched between beams (lateral members) constituting the outer frame on the 12 side.

  The spacer 80 is fixed to at least one of the beam constituting the first unit 11 and the beam constituting the second unit 12. In the present embodiment, the spacer 80 is fixed to both the beam constituting the first unit 11 and the beam constituting the second unit 12.

  In the present embodiment, the spacer 80 can be used as a height adjusting member for adjusting the height of the floor surface of the second unit 12. That is, by inserting the spacer 80 between the first unit 11 and the second unit 12, the height of the floor surface of the second unit 12 can be raised by the height (thickness) of the spacer 80. .

  Furthermore, a plurality of spacers 80 (height adjustment members) having different heights may be prepared in advance so that the height of the floor surface of the second unit 12 can be adjusted in a plurality of stages. Thereby, according to the height of the spacer 80, the height of the floor surface of the 2nd unit 12 can be adjusted. For example, a plurality of spacers 80 having different heights in increments of 5 cm may be prepared. Note that the height of the floor surface of the second unit 12 can also be adjusted by stacking a plurality of spacers 80 between the first unit 11 and the second unit 12.

  When the height of the second unit 12 is increased using the spacer 80, various pipes (the hot water supply pipe 34, the water supply pipe 35, the drain pipe 36, the upper and lower floor air circulation duct 44, the air supply / exhaust duct 45, the building unit 1 are provided. It is necessary to increase the length of the refrigerant pipe 46, the drain pipe 47, etc.) in the height direction. In this case, even if the height of the second unit 12 is increased by providing a part of the pipe with an expansion / contraction structure such as a bellows structure, the extension of the expansion / contraction structure can be used without connecting the pipe separately. The length can be increased.

  Moreover, when building a house by the conventional construction method using the building unit 1 provided with the spacer 80 shown in FIG. 8, the building structure constructed in a construction site may be connected to the spacer 80, for example, FIG. As shown, the beam 3X may be connected to the spacer 80.

  As described above, according to the building unit 1 according to the present embodiment, the spacer 80 can be disposed between the first unit 11 and the second unit 12 in the construction site.

  As a result, even when the height of the first unit 11 and the second unit 12 cannot be increased due to the height restriction by the road traffic regulations in the transport vehicle, the space between the first unit 11 and the second unit 12 By inserting the spacer 80 into the second unit 12, the height of the floor surface of the second unit 12 can be adjusted by raising the height of the floor surface of the second unit 12.

  Therefore, the first unit 11 and the second unit 12 assembled in the factory are transported to the construction site, the building unit 1 is assembled, and the building unit 1 is combined with another building structure (building structure to be constructed on site). Even when a building such as a house is completed, the height of the floor surface of the second floor of another building structure constructed on site can be easily matched with the height of the floor surface of the second unit 12. .

  Thus, according to the building unit 1 in the present embodiment, the building unit 1 and the building structure constructed on site can be well adapted.

  In the present embodiment, the beam of the building unit 1 assembled in the factory and the beam of the building structure constructed on site are separated, but may be integrated.

  In this case, a beam or the like in the building structure to be constructed on site may be connected in advance at the factory as a part of the spacer. For example, the beam 3X shown in FIG. 9 may be connected in advance at the factory as a part of the spacer 80. Alternatively, instead of retrofitting the beam 3X, as a spacer 80A shown in FIGS. 10A and 10B, it is long as a building material for the spacer frame so that a part protrudes as a portion used as a beam at the construction site. A scale-shaped wood or the like may be used. Specifically, the spacer 80A disposed between the first unit 11 and the second unit 12 extends so that a part of the spacer 80A protrudes from the first unit 11 and the second unit 12 in the horizontal direction. It has been configured. Thereby, since the part which protruded among the spacers 80A can be used as a beam of the building structure to be constructed on site, the building unit 1 and the building structure constructed on site can be more appropriately adapted. In other words, the spacer 80A is a part of a beam in a building structure that is constructed at a building site with the building unit 1 as a core.

  In addition, as the spacer 80A, a structure in which the upper and lower parts of the wood beam are sandwiched and strengthened by metal parts may be used.

(building)
Next, the structure of the building 2 which concerns on embodiment of this invention is demonstrated using FIG. FIG. 11 is a diagram showing the structure of a building according to an embodiment of the present invention, in which (a) is a plan view between two floors, (b) is a plan view of the first floor, (c) is a side sectional view, and (d) ) Is a front sectional view, (e) is a side view, and (f) is a front view.

  The building 2 is, for example, a general house built in a residential premises. As shown in FIG. 11, the building unit 1 is transported and installed on the building site, and is constructed on the building site with the building unit 1 as a core. The building structure 3 is provided.

  When building the building unit 1, a spacer 80 or 80A (not shown) may be disposed as necessary. Moreover, the building structure 3 is constructed by a conventional construction method. That is, except the building unit 1, it is constructed by a conventional construction method.

  As shown in FIG. 11, the building unit 1 is provided in the central portion on the rear side of the building 2, but may be installed in a corner portion of the building 2.

(How to build buildings using building units)
Next, how to build the building 2 using the building unit 1 according to the embodiment of the present invention will be described with reference to FIGS. 12A to 12F. 12A to 12F are views for explaining how to build a building using the building unit according to the embodiment of the present invention. In addition, the building 2 is a general house similarly to FIG.

  First, each of the first unit 11 and the second unit 12 and the spacer 80 are assembled in advance at a factory or the like. Then, each of the first unit 11 and the second unit 12 and the spacer 80 are transported from the factory to the construction site by a transport vehicle such as a truck or a trailer. In this way, by transporting the first unit 11 and the second unit 12 in one unit, even if transported by a transport vehicle such as a truck, the transport is performed without exceeding the height limit of the Road Traffic Law. be able to.

  As shown in FIG. 12A, foundation work is performed at the construction site, and a foundation 3a is built in the residential premises. Also, outdoor piping work is being done. An anchor bolt is fixed to the foundation 3a.

  Next, as shown to FIG. 12B, the 1st unit 11 conveyed to the construction site is installed in the predetermined position of the foundation 3a with the crane 100. FIG. At this time, the first unit 11 is fixed to the anchor bolt of the foundation 3a.

  Next, as shown in FIG. 12C, the second unit 12 is installed on the first unit 11 according to the claim 100. At this time, a spacer 80 is disposed between the first unit 11 and the second unit 12 as necessary, for example, when raising the height of the floor surface of the second unit 12. In place of the spacer 80, a spacer 80A may be used. In addition, the second unit 12 and the first unit 11 are connected and fixed using a bolt or the like through the spacer 80. Thereby, the building unit 1 is completed on the foundation 3a.

  Next, as shown in FIG. 12D, a building structure that constitutes a house is constructed using the building unit 1 as a core. The building structure in the present embodiment is constructed by a wooden frame construction method. Specifically, building materials 3b such as columns and beams are installed and fixed on the foundation 3a by the crane 100. At this time, the beam is also connected to the building unit 1. A floorboard will also be installed.

  Next, as shown in FIG. 12E, roof construction is performed to install the roof 3 c on the building material 3 a such as a beam and the building unit 1. In addition, the outer wall will be installed in the building structure by constructing the outer wall.

  Next, as shown in FIG. 12F, peripheral work such as interior work and facility work is performed. Thereby, the building 2 is completed. In addition, an outdoor unit is installed and connected to the facility of the building 2.

(Modifications, etc.)
As mentioned above, although the building unit, the building, etc. which concern on this invention were demonstrated based on embodiment, this invention is not limited to these embodiment.

  For example, in the above embodiment, the spacer 80 is separated from the first unit 11 and the second unit 12, but may be integrated with the first unit 11 or the second unit 12. In this case, the spacer 80 becomes a beam constituting the first unit 11 or the second unit 12.

  In the above embodiment, the hot water supply pipe 34, the water supply pipe 35, the drain pipe 36, the upper and lower floor air circulation duct 44, the refrigerant pipe 46 and the drain pipe 47 are divided into two in the first unit 11 and the second unit 12. Although separated, one pipe may be used without separation.

  Moreover, in the said embodiment, although the building unit 1 was set as the structure which piled up two units, the 1st unit 11 and the 2nd unit 12, up and down, it is not restricted to this. For example, the building unit 1 may be a stack of three or more units, a plurality of units may be arranged two-dimensionally, or a combination thereof.

  Moreover, in the said embodiment, although the building unit 1 installed the household appliances of the air conditioner 41 and the air-conditioner outdoor unit 42, and the washing machine 37 previously in the factory, it is not restricted to this. For example, home appliances are not necessarily installed in a factory, and may be attached after the building 2 is completed. Moreover, even if it is a case where it installs beforehand in a factory, household appliances are not restricted to the air conditioner 41 or the washing machine 37, You may install another household appliance in a factory beforehand. In particular, by installing home appliances of the same manufacturer in the factory in advance, the quality and function of the entire building unit 1 can be improved, and costs can be reduced.

  Moreover, in the said embodiment, although the electrical water heater was demonstrated to the example as the water heater (hot water supply system) 60, it is not restricted to this. For example, instead of an electric water heater, a fuel cell water heater or a gas water heater may be used as the water heater. In either case, a hot water storage tank is provided.

  Moreover, in the said embodiment, although the construction method of the building unit 1 and the building 2 was made into the wooden frame construction method, it is not restricted to this, Other construction methods, such as a wooden frame construction method, 2 * 4 construction method, or steel frame construction ( (Construction method) may be used.

  In addition, the form obtained by making various modifications conceived by those skilled in the art to the embodiment, and the form realized by arbitrarily combining the components and functions in the embodiment without departing from the gist of the present invention. It is included in the present invention.

DESCRIPTION OF SYMBOLS 1 Building unit 2 Building 3, 11a, 12a Building structure 11 1st unit 12 2nd unit 31 Toilet 32 Unit bath 33 Wash basin 60 Water heater 80, 80A Spacer

Claims (10)

A building unit that forms part of a two-story or higher building,
A first unit that is pre-assembled outside the construction site and that constitutes one of a plurality of floors;
A second unit that is pre-assembled outside the construction site and that constitutes a floor directly above the first unit of the plurality of floors;
A building unit having a spacer disposed between the first unit and the second unit at a building site. The building unit according to claim 1, wherein the spacer is a part of a beam in a building structure constructed at a building site with the building unit as a core. The building unit according to claim 1, wherein the spacer is fixed to at least one of a beam configuring the first unit and a beam configuring the second unit. The building unit according to claim 1, wherein the spacer is a beam constituting the first unit or the second unit. The building unit according to claim 1, wherein the spacer is a height adjusting member for adjusting the height of the floor surface of the second unit. The building unit according to any one of claims 1 to 5, wherein a plurality of the spacers having different heights are prepared in advance. The building unit according to claim 1, wherein the spacer has a frame. In addition, it is equipped with pre-installed water facilities outside the construction site,
The building unit according to any one of claims 1 to 7, wherein the water supply facility includes at least one of a bath, a toilet, a wash basin, a kitchen, and a water heater. The watering equipment is installed in a room on the second floor or higher and connected to a water pipe piped on the lower floor,
The building unit according to claim 8, wherein the water pipe has a structure whose length changes. The building unit according to any one of claims 1 to 9, which is transported and installed at a construction site,
An architectural structure constructed at a construction site with the building unit as a core;
A building comprising the first unit and the spacer disposed between the second unit.

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