JP3261254B2 - Building with elevator and method of forming building with elevator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building with an elevator and a method for forming a building with an elevator.

[0002]

2. Description of the Related Art Conventionally, when an elevator is formed in a building, when a wooden building is formed, a tower dedicated to the elevator is erected on the site independently of the structural members of the building. Further, in a steel-frame building, a structure having the same structure as the above-mentioned steel tower is formed in the building using a steel frame which is a structure of the building. Then, doors of each floor are installed on site for each floor of the elevator tower (or of the same structure as the tower), and guide rails are mounted on the tower vertically at the site to drive hydraulic jacks and hydraulic jacks. A hydraulic drive unit for installation is installed on site, and the platform is movably mounted along the guide rails.
An elevator was formed in a building by connecting a hydraulic jack to the platform and performing various on-site constructions such as placing a car on the platform.

[0003]

In the above-mentioned conventional example, a tower dedicated to an elevator (or a tower having the same structure as a tower) is built on site, and a tower dedicated to an elevator (or a tower having the same structure as a tower) is constructed. ), Doors, guide rails, hydraulic jacks, hydraulic drive units for driving the hydraulic jacks, platforms, and elevator components such as cars are installed on site, so it takes time and effort to perform on-site construction. There was a problem that the cost also increased.

In the case of an elevator for a house, the construction of the building is performed by a construction company. However, a technician of a construction company constructing a general house cannot be said to be proficient in elevator construction technology. There was variation in construction quality in on-site construction. In particular, the accommodation of the doors and the like of the elevator room with respect to the building varied from site to site.

[0005] Further, it is necessary to adjust the steps of the construction of the elevator and the construction of the building itself, and in this respect, it takes time to form the building.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art. It is an object of the present invention to make it possible to construct an elevator apparatus by combining building units in the vertical direction, thereby minimizing work on site. In addition, the construction time can be shortened, the cost can be reduced, and the structure related to the building and the components of the elevator can be kept constant, thereby providing a high quality building with an elevator and a method for forming a building with an elevator. It is in.

[0007]

The building with an elevator according to the present invention is a multi-storey building constructed by combining a plurality of building units 1 in a building unit having a space to be an elevator room 50 and having a plurality of upper and lower floors. 1, the component 3 of the elevator device 2 is attached to the building unit 1 of each floor having a space to be the elevator room 50, and the building unit 1 of each floor to which the component 3 of the elevator device 2 is attached. Hydraulic j
A hydraulic drive unit that constitutes an elevator device 2 that moves up and down by a jack 7, mounts a landing door unit 5 on each floor to a building unit 1 on each floor, and drives a hydraulic jack 7
8 is located next to the landing door unit 5 and the hydraulic drive
Hydraulic drive on front side of landing door unit 5 of moving unit 8
The inspection door 9 of the unit 8 is provided .

In the method of forming a building with an elevator according to the present invention, the building units 1 are vertically stacked in multiple stages to form a building. The component members 3 of the elevator device 2 are attached, respectively, and the building units 1 for each floor, to which the component members 3 of the elevator device 2 are attached, are sequentially stacked from the bottom in order to communicate the space that becomes the elevator room 50 on each floor. In attaching the constituent members 3 of the elevator apparatus 2 to the building units 1 respectively, in the building unit 1 on the lowest floor, a guide rail 6 and a hydraulic jack 7 are attached to the building unit 1 and then the building unit 1
And a hydraulic drive unit 8 for driving a hydraulic jack 7 having an inspection door 9 on the front side adjacent to the landing door unit 5.

In addition, when mounting the constituent members 3 of the elevator apparatus 2 to the building units 1 for each floor, in the building unit 1 on the lowest floor, a guide rail 6 and a hydraulic jack 7 are mounted on the building unit 1, and then It is also preferable to mount a landing door unit 5 and a hydraulic drive unit 8 for driving a hydraulic jack 7 having an inspection door 9 on the front side next to the landing door unit 5 on the building unit 1.

[0010]

According to the present invention having the above-described structure, a multi-storey building constructed by combining a plurality of building units 1 is constructed. At this time, each building unit 1 for each floor is provided with an elevator device. Since the two constituent members 3 are attached, the building unit 1 for each floor provided with the constituent members 3 of the elevator device 2 is vertically combined with a multi-story floor, thereby enabling building of the building and formation of the elevator device 2. Since the constituent members 3 of the elevator device 2 are attached to the building units 1 for each floor, the constituent members of the elevator device 2 can be incorporated in the building units 1 for each floor at a factory. As a result, uniform high-quality products can be provided.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the embodiments shown in the accompanying drawings. The building unit 1 is a pillar 1 as shown in FIG.
3. The beam 14 is constructed in a three-dimensional framework and is not shown, but floors, walls, ceilings, and other housing equipment are incorporated in the factory in advance as needed. A plurality of these building units 1 are combined on a flat surface and a vertical surface to form a multi-story building.
FIG. 1 shows an example, but it goes without saying that various multi-story buildings other than the combination as shown in FIG. 1 can be formed. This is basically the same as the currently known unit-type building, and the building units 1 are connected and integrated by bolts.

A building is constructed by combining a plurality of building units 1 as described above. Among the building units 1 on each floor, in the building unit 1 having a space to be the elevator room 50, as shown in FIG. In the building unit 1 provided with the elevator room 50 for each floor, the constituent members 3 of the elevator apparatus 2 are attached in advance at the factory. Then, the building unit 1 is carried from the factory to the site, and the building unit 1 is simply assembled at the site, and at the same time as the building is constructed, the elevator rooms 50 on each floor are connected to the upper and lower floors to form an elevator apparatus 2 that is connected to the upper and lower floors. Will be done.

The constituent members 3 of the elevator apparatus 2 attached to the building unit 1 on each floor having the elevator room 50 include a landing door unit 5, a car 4, a guide rail 6, a hydraulic jack 7, a hydraulic drive unit 8, a vertical frame. 10,
The members such as the platform 11 are raised. The constituent members 3 of these elevator devices 2 are building units 1 for each floor.
Fixed or temporarily supported at the factory.

When mounting the components 3 of the elevator device 2 on the building units 1 for each floor, the components 3 of the elevator device 2 are mounted on the building unit 1 on the lowest floor as follows. . That is, as shown in FIGS. 3 and 4, one ends of the rail brackets 15 are fixed to the upper and lower beams 14 of the building unit 1 by bolts. And this rail bracket 15
A pair of guide rails 6 are attached to each other by holding brackets 16 so as to face each other in a vertical posture. The holding bracket 16 is attached to the rail bracket 15 by bolting, and the guide rail 6 can be slid up and down by loosening the bolt. In this case, since the guide rails 6 are attached in a state where a floor or the like on the way of transporting the three-dimensionally framed building unit 1 on the production line of the factory is not attached, FIG.
The both ends of the horizontal member 12 serving as temporary support means such as a square member are fitted between beams 14 having a U-shaped cross section as shown below.
The guide rails 6 are attached to the rail brackets 15 with holding brackets 16 in a state where the guide rails 6 are supported upright on the horizontal members 12. A temporary floor 29 is placed below the building unit 1 as shown in FIG. 3 so that members and people do not fall below the building unit 1.

Next, as shown in FIGS. 5 and 6, a jack anti-vibration member 18 is attached to an intermediate frame 17 which is installed at a substantially intermediate portion of the building unit 1 in the vertical direction. The jack anti-vibration member 18 has a U-bolt 19 attached to an end thereof with a nut 20. On the other hand, the hydraulic jack 7 is vertically
The lower end of the hydraulic jack 7 is fitted on a jack receiver 38 fixed by bolts on the horizontal member 12 while hanging the hanging wire 22 of the crane on the suspending tool 21 and hanging the crane with the crane. The hydraulic jack 7 is erected and temporarily held by the U-bolt 19 on the jack rest member 18. Here, jack receiver 38
Is formed with a fitting projection 35, which is fitted into a fitting recess 36 at the lower end of the hydraulic jack 7.

Next, as shown in FIGS. 8, 9 and 10,
The landing door unit 5 is mounted on the building unit 1 on the lowest floor. The landing door unit 5 is a door frame 23 in which a door 24 is freely opened and closed. The lower end of the door frame 23 is placed on a joist 25 provided in the building unit 1 and fixed by bolts. The upper end of the door frame 23 is fixed to the small beam 28 of the building unit 1 by a connecting member 27 with a bolt. After the landing door unit 5 is attached to the building unit 1 in this manner, a hydraulic drive unit 8 for driving the hydraulic jack 7 is arranged next to the landing door unit 5 and the joist 25 is placed on the joist 25 via the spacer member 26. Erect. Joist 25 and spacer member 26, spacer member 26 and hydraulic drive unit 8
Is fixed with bolts. The hydraulic drive unit 8 is shown in FIG.
The above-mentioned erection work is performed in a state of being suspended by the suspension wire 22 of the crane as described above. This hydraulic drive unit 8
An inspection door 9 is provided at the front of the device. Here, the height of the spacer member 26 is set so that at least the floor surface of the lower floor and the lower end of the hydraulic drive unit 8 are located at the same level or at a position higher than the floor surface at the time of construction. This is because when the maintenance door or the like is opened and the inspection door 9 is opened for inspection, the hydraulic drive unit 8 can be easily inspected because the lower end of the hydraulic drive unit 8 is located at the same level or above the floor surface. In order to

In the building unit 1 on the second floor or higher, the guide rails 6 are installed at the factory as shown in FIGS.

Here, one of the building units 1 on the second floor or higher is connected to the guide rail 6 as described above.
In addition to the landing door unit 5, the car 4 is temporarily held at the factory. In this case, it is preferable that the car 4 be temporarily held in the building unit 1 on the top floor, but the building unit 1 on the second floor or higher is not limited to the building unit 1 on the top floor.

The provisional mounting of the car 4 at the factory is performed as follows. 14 to 22 show an example in which the car 4 is temporarily attached to the building unit 1 on the top floor.
In mounting the car 4, first, the rail bracket 15 is mounted as shown in FIG. 14 in the same manner as the guide rail 6 is mounted on the building unit 1 on the lower floor, and the guide rail 6 is mounted on the rail bracket 15. Next, as shown in FIG. 15, the vertical frame 10 is erected on the horizontal member 12. In this case, the guide member 30 is slidably fitted up and down on the guide rail 6 as shown in FIG. 17 and the guide member 30 is fixed to the vertical frame 10 by bolts.
The vertical frame 10 is held slidably with respect to the guide rail 6. With the vertical frame 10 thus attached, one end of the platform 11 is fixed to the vertical frame 10 with bolts. Here, the platform 11 is mounted on another horizontal member 12 and temporarily supported. Thereafter, the car 4 is placed on the platform 11 and the car 4 and the vertical frame 10 are fixed by the fixing bracket 31. Next, the landing door unit 5 is mounted in the same manner as the landing door unit 5 is mounted on the building unit 1 on the lower floor.

The building unit 1 formed at the factory as described above is carried to the site, and the building unit 1 is assembled at the site to form a building. In this case, the foundation work is completed at the site, and A plurality of building units 1 on the lowest floor are arranged on top of each other, adjacent building units 1 are connected to each other by bolts, and building units 1 on the upper floor are sequentially stacked and connected by bolts to form a multi-story building. It is. At this time, among the building units 1 on each floor, the building units 1 having the elevator rooms 50 are stacked and connected so that the elevator rooms 50 on each floor are connected vertically, and as a result, the elevator rooms 5 connected vertically are connected.
0 will be formed. Then, the landing door unit 5 of each floor exists at a predetermined position on each floor.

Here, an elevator device base 32 is formed in advance as a base, and a stand 33 is mounted on the elevator device base 32. After assembling the building unit 1 as described above, the horizontal members 12 temporarily attached to the building unit 1 on the lowermost floor are removed, and the holding by the holding brackets 16 is loosened to attach the building unit 1 on the lowermost floor. The guide rail 6 is slid downward to be fixed to the side walls 34 at both ends of the stand 33 by the holding bracket 16 as shown in FIGS. At this time, when the horizontal members 12 of the building unit 1 on the lowest floor are removed, the lower support of the hydraulic jack 7 is released, so that the hydraulic jack 7 is suspended by the hanging wire 22 of the crane.
26. Loosen the bolt 19 and lower the hydraulic jack 7,
As shown in FIG. 28 through FIG. 28, the fitting recess 36 at the lower end of the hydraulic jack 7 is fitted into the fitting projection 35 provided on the stand 33, and the U-bolt 19 is fastened to fully fix the hydraulic jack 7. When lowering the guide rail 6 and the hydraulic jack 7 by removing the horizontal member 12, either the operation of lowering the guide rail 6 or the operation of lowering the hydraulic jack 7 may be performed first.

Next, the building unit 1 on the second floor from the bottom
Then, the horizontal member 12 temporarily attached to the guide rail 6 is removed, and the guide rail 6 is lowered.
The lower end of the guide rail 6 temporarily attached to the building unit 1 on the second floor from the bottom is brought into contact with the upper end of the guide rail 6, and in this state, the back plate 37 is applied and the two guide rails 6 are permanently fixed by bolts. Next, the horizontal member 12 temporarily attached to the building unit 1 on the third floor from the bottom is removed, and the guide rail 6 is lowered in the same manner so that the lower end of the guide rail 6 becomes the upper end of the lower guide rail 6. The two guide rails 6 are permanently fixed with bolts by abutting the back plate 37. Here, in the case where the car 4 is temporarily supported on the building unit 1, the horizontal member 1
When removing 2, the vertical frame 10 or the platform 11 is suspended by a crane, the transverse member 12 is removed, and the guide rail 6 is lowered to connect the lower rail with the guide rail 6 on the lower floor as described above. The vertical frame 10 or the platform 11 is lifted by a crane and the vertical frame 10 is lowered with the guide member 30 fitted on the guide rail 6, and the upper end of the hydraulic jack 7 is connected to the vertical frame 10. As described above, when the guide rail 6 is lowered and a part of the lower part of the guide rail 6 is inserted into the building unit 1 on the lower floor and connected, the guide rail 6 attached to the topmost building unit 1 at the factory is used. As shown in FIG. 25, a replenishing guide rail 6 'is connected via a back plate 37 to the upper end of the building unit at the site. 1 attached. The hydraulic drive unit 8 and the hydraulic jack 7 are connected by an oil hose, but this connection may be made in advance at a factory or at a site. The temporary floor 29 attached to the building unit 1 is removed at the site.

Each floor building unit 1 is provided with a wall, a floor, a ceiling, or other facilities.
Floors, ceilings or other equipment that can be installed in the factory in advance are installed in the factory, and those that are preferably installed in the field are installed in the field. Here, in the building unit 1, in the building unit 1 including the elevator room 50 and the component member 3 of the elevator device 2 attached, a wall 39 is formed around the landing door unit 5. This wall 39 may also be installed in the factory in advance as described above,
Alternatively, it may be installed on site. Further, a wall 39 is provided in front of the hydraulic drive unit 8, and an opening / closing door (not shown) is provided on the wall 39, and the inspection door 9 is opened by opening the opening / closing door.
And the inspection door 9 is opened so that the inside of the hydraulic drive unit 8 can be inspected. Here, the floor 40 is also formed in advance in a factory or on site,
Since the lower end of the hydraulic drive unit 8 is located above the floor surface of the vehicle, inspection can be easily performed.

FIG. 29 shows a building unit 1 provided with an elevator room 50, which is different from that of FIG.

In the embodiment shown in FIGS. 2 and 29, the building unit 1 to which the constituent members 3 of the elevator device 2 are attached is shown.
Shows an example in which other room spaces such as a living room, a corridor, a kitchen room, a staircase room, an entrance room, a sanitary room and the like are provided in addition to the elevator room 50, but a building unit to which the constituent member 3 of the elevator device 2 is attached. As shown in FIG. 30, only the elevator unit 50 may be provided as 1. In this case, the building unit 1 to which the component 3 of the elevator device 2 is attached and the component 3 of another elevator device 2 are attached. The building unit 1 is combined with the building unit 1 to form a building and the elevator apparatus 2.

In the above embodiment, an example is shown in which the guide rail 6 is slid downward and fixed permanently at the site.
1, the guide rail 6 is fixed permanently at the factory in advance, and the upper and lower ends of the guide rail 6 are
The same level as the upper and lower ends of the building units 1 may be arranged so that when the building units 1 are stacked up and down, the lower end of the upper floor building unit 1 contacts the upper end of the lower floor building unit 1 as shown in FIG. Good. Also in this case, the upper and lower guide rails 6 may be further connected via the back plate 37. Then, another guide rail is attached at the site between the lower end of the guide rail 6 of the lowermost building unit 1 and the elevator device foundation 32 so as to be connected to the guide rail 6.

In the above-described embodiment, an example in which the car 4 is moved up and down by the hydraulic jack 7 has been described.
The car 4 may be moved up and down by suspending the wire as described above. In this embodiment, a hydraulic jack 7 and a hydraulic drive unit 8
Instead of attaching the wire take-up device 41 at the factory in advance and attaching the pulley 42 to the building unit 1 on the top floor in advance, the other configuration is basically the same as the above-described embodiment. . Then, in the on-site construction, instead of the fixing work of the hydraulic jack 7 and the connecting work of the hydraulic jack 7 and the vertical frame 10, the wire led out from the wire winding device 41 is hung on the pulley 42 and attached to the vertical frame 10. The points are different. Here, the shape of the vertical frame 10, the mounting position of the guide rail 6, and the like are appropriately set to a shape and position corresponding to the hanging method of the wire.

[0028]

According to the first aspect of the present invention, in a multi-storey building constructed by combining a plurality of building units, a building unit having a space to be an elevator room and having a plurality of upper and lower floors. The constituent members of the elevator device are respectively attached to the building units of each floor provided with the space to be the elevator room, and the building units of each floor, to which the constituent members of the elevator device are mounted, are vertically combined with a multi-story floor to provide hydraulic pressure. constitutes an elevator apparatus for raising and lowering the jack, so each floor of the building units are attached to each floor landing door units, it can form an elevator apparatus with capable of forming a building by combining building unit, to form an elevator apparatus in the field Labor and time can be greatly reduced, and costs can be reduced. Also, since the structure related to the building and the components of the elevator can be made constant and high quality can be obtained, and since the landing door unit of each floor is attached to the building unit of each floor, it is not necessary to form the door of the elevator room on each floor of the building in the field, become the fit of the door of the elevator chamber is constant for the building, Oh as it can provide you with a high quality no variation in quality
The elevator system is moved up and down by hydraulic jacks.
The elevator car is called a hydraulic jack.
It can be moved up and down with a simple configuration.
And a hydraulic drive unit for driving the hydraulic jack.
Place the knit next to the landing door unit and
Hydraulic drive unit is installed on the front side of the landing unit of the drive unit.
A knit check door is provided, so the landing unit
Use next door, that is, for the door of the building unit
Provide an opening for inspection of the drive unit in the same opening as the opening
Can be provided with opening and closing doors in building units
It is necessary to provide an opening for inspection of the drive unit on
There is no need to provide an opening for inspection of the drive unit
Plane plastics of a building formed by assembling building units
It is possible to eliminate the restriction of the application.

Further , according to the invention of claim 2 of the present invention.
In order to form a building by stacking the building units vertically in multiple stages, the constituent members of the elevator device are attached to building units on the upper and lower floors each having a space serving as an elevator room, and the constituent members of the elevator device are attached. The building units of each floor attached are sequentially stacked from the bottom in order to communicate the space to be the elevator room of each floor, and when mounting the components of the elevator device to the building units of each floor, in the building unit of the lowest floor, A guide rail and a hydraulic jack are attached to the building unit, and then a landing door unit and a hydraulic drive unit for driving a hydraulic jack having an inspection door on the front side are attached to the building unit. Building units by carrying them to the site and stacking them up and down in multiple stages In addition to being able to form, the elevator room communicating with the elevator room and the elevator device equipped with the components of the elevator device on each floor can be formed at the same time, and the installation of the elevator device on site can be performed easily and accurately in a shorter time than the conventional method. In addition, the components necessary for the lowermost floor as an elevator device can be mounted in order, and particularly, the landing door unit and the hydraulic drive unit are mounted after the guide rails and the hydraulic jacks are mounted. Therefore, the landing door unit and the hydraulic drive unit are not damaged when the guide rails and hydraulic jacks are installed, and the positional relationship between the landing door unit and the hydraulic drive unit when they are mounted side by side can be determined accurately. You can do it.

According to the invention of claim 3 of the present invention, in addition to the effect of the invention of claim 2 , when mounting the constituent members of the elevator apparatus to each building unit for each floor, two or more floors are required. In any one of the building units, a guide rail is attached to the building unit, and then a vertical frame is slidably fitted to the guide rail, and the vertical frame is temporarily supported by temporary supporting means, and the platform is mounted on this vertical frame. Since it is fixed, the car is placed on the platform and fixed, and then the landing door unit is mounted on the building unit, the guide rail, the vertical frame, the platform, and the car can be mounted in order.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing an embodiment of a building with an elevator according to the present invention.

FIG. 2 is an exploded perspective view showing a building unit on each floor having a space serving as an elevator room of the above.

FIG. 3 is a sectional view showing a state where a guide rail is temporarily attached to a building unit on the lowest floor of the above.

FIG. 4 is a plan view showing a mounting portion of the above guide rail.

FIG. 5 is a cross-sectional view showing a state where a hydraulic jack is temporarily attached to a building unit on the lowest floor of the same.

FIG. 6 is a plan view showing a portion where the hydraulic jack is attached to a jack steady rest member.

FIG. 7 is a plan view showing a portion where the hydraulic jack is tentatively mounted on a horizontal member.

FIG. 8 is a cross-sectional view of a portion where the landing door unit and the hydraulic drive unit are mounted on the lowest floor building unit of the above.

FIG. 9 is a plan view of the same.

FIG. 10 is a plan view of a portion where a landing door unit is attached to a small beam of the building unit by a connecting member.

FIG. 11 is a cross-sectional view showing a state in which guide rails are temporarily attached to the building units on the second floor and above.

FIG. 12 is a cross-sectional view of a part where a landing door unit is attached to a building unit on the second floor or higher in the above.

FIG. 13 is a plan view of the same.

FIG. 14 is a cross-sectional view showing a state where a guide rail is temporarily attached to the building unit on the top floor of the above.

FIG. 15 is a sectional view showing a state in which the vertical frame is temporarily attached.

FIG. 16 is a plan view of the same.

FIG. 17 is a sectional view showing a state in which the vertical frame is slidably held on a guide rail.

FIG. 18 is a cross-sectional view showing a state where the car is mounted on a platform.

FIG. 19 is a plan view of a portion where the car is fixed to a vertical frame.

FIG. 20 is a sectional view of a portion where the landing door unit is attached to the building unit on the top floor of the above.

FIG. 21 is a plan view of the same.

FIG. 22 is a perspective view showing a vertical frame used in the above and a platform fixed to the vertical frame.

FIG. 23 is a perspective view showing a fully fixed state of the guide rail at the same site.

FIG. 24 is a cross-sectional view showing a fully fixed state of the guide rail at the same site.

FIG. 25 is a cross-sectional view showing a fully fixed state of the guide rail on the top floor of the above.

FIG. 26 is a perspective view showing a permanent fixing state of the hydraulic jack at the same site.

FIG. 27 is a cross-sectional view showing a permanent fixing state of the hydraulic jack at the same site.

FIG. 28 is a plan view of the above.

FIG. 29 is an exploded perspective view of another embodiment showing a building unit on each floor having a space to be an elevator room of the present invention.

FIG. 30 is an exploded perspective view of still another embodiment showing a building unit on each floor having a space to be an elevator room of the present invention.

FIG. 31 is a cross-sectional view showing a different example of mounting the guide rail of the present invention.

FIG. 32 is a cross-sectional view showing a state where the building units are stacked up and down and guide rails are connected up and down.

FIG. 33 is an exploded perspective view showing a building unit on each floor having a space serving as an elevator room according to another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Building unit 2 Elevator apparatus 3 Component 4 Basket 5 Landing door unit 6 Guide rail 7 Hydraulic jack 8 Hydraulic drive unit 9 Inspection door 10 Vertical frame 11 Platform 12 Horizontal member 50 Elevator room

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tadaaki Takano 1048 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Works, Ltd. (72) Inventor Mitsuo Koshiya 1048 Kadoma Kadoma, Kadoma City, Osaka Matsushita Electric Works Co., Ltd. (56) References JP-A-5-193864 (JP, A) JP-A-4-237774 (JP, A) JP-A-2-310277 (JP, A) JP-A-2-163278 (JP, A) JP-A-61 -188381 (JP, A) JP-A-57-27882 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) B66B 1/00-13/30 E04B 1/348

Claims (3)

(57) [Claims] 1. A multi-storey building constructed by combining a plurality of building units, a plurality of upper and lower building units each having an elevator room, and each floor having an elevator room. Attach the constituent members of the elevator apparatus to the building units, respectively, and combine the building units for each floor with the constituent members of the elevator apparatus into upper and lower multi-story floors to ascend and descend with a hydraulic jack . Install the landing door unit on each floor to the building unit on each floor and drive the hydraulic jack.
Hydraulic drive unit next to the landing door unit
And in front of the landing door unit of this hydraulic drive unit
A building with an elevator, characterized in that an inspection door of a hydraulic drive unit is provided on the surface side . 2. Building units are stacked in multiple stages vertically.
In forming the building, a space will be provided for the elevator room.
Elevators in building units on different floors
Attach components of the device, components of the elevator device
Building units on each floor with
The spaces that serve as elevator rooms on each floor are connected to each other,
Elevator equipment components in separate building units
At the time of installation, in the building unit of the lowest floor
Mounted guide rails and hydraulic jacks on building units
Next, the landing door unit and the landing door
Hydraulic jack with inspection door on the front side next to the unit
To install a hydraulic drive unit for driving the
Characteristic method of forming a building with an elevator. 3. An elevator for each building unit on each floor.
When installing the components of the data equipment,
For any one of the physical units,
Attach guide rail, then slide freely on guide rail
Insert the vertical frame into the frame and temporarily support the vertical frame with the temporary support means.
Then, secure the platform to this vertical frame, and
Place on the platform and secure, then ride on the building unit
3. A bay door unit is mounted.
Of building a building with an elevator.