JP2004137027A - Elevator and elevator construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an elevator that allows construction of a building using the elevator from an early stage before a structure of building is constructed, allows reduction in capacity of a crane and time necessary for completion, does not require a temporary hoisting facility and scaffold for it, and can realize improvement of safety. <P>SOLUTION: An elevator pit section unit 24 is built under the lowest floor of the building, an elevator hoistway 47 having size corresponding to one floor of the building is formed of box-shaped elevator units 40, the plurality of elevator units 40 are connected and fixed in a superposition state via a frame 25, and an elevator body is lifted in the elevator hoistway 47 in the superposed, connected and fixed state of the elevator units 40. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an elevator, and more particularly to an elevator structure and a construction method in a relation between the building itself and the elevator when building the building.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, elevators are well-known as a transport means for guiding a user to each floor of a building. In building such an elevator, a technique of building an elevator after the building itself is completed is known (for example, See Patent Document 1.).
[0003]
3 and 4 show the elevator disclosed in Patent Document 1, FIG. 3 is an external perspective view in which a part of the elevator is cut off, and FIG. 4 is an explanatory diagram showing a procedure of building the elevator.
[0004]
In FIG. 3, the elevator 10 is arranged in parallel with a five-story existing low-rise building 1 forming a multi-story building, and is connected to a staircase 2 communicating between floors of the low-rise housing 1.
[0005]
A refraction staircase is provided in the staircase 2, and a landing provided at an intermediate position with each floor is arranged on the outer peripheral side of the low-rise housing 1, and the elevator 10 stops at a position at the same height as the landing. It is set as follows.
[0006]
The elevator 10 mainly includes an elevator shaft 11 having a quadrangular prism shape, a cage 12 that moves up and down inside the elevator shaft, an elevator 13 such as a drive motor that moves the cage 12 up and down, and a counterweight 14.
[0007]
The elevator shaft 11 includes a frame unit 16 that divides an elevating space 15 extending from the lowest stop position where the cage 12 can move up and down to the uppermost stop position, and covers the elevating space 15 attached to the frame unit 16. It is integrally formed with a plurality of film body panels 17 forming an exterior wall and formed in a hollow columnar shape.
[0008]
The frame unit 16 includes four column members 18 made of a large L-shaped steel and having the same length as the height of the elevating space 15. A beam member 19 is interposed between the column members 18 at appropriate intervals along the longitudinal direction of the column members 18.
[0009]
As shown in FIG. 4A, the completed unit-shaped elevator 10 is turned over by an overhead crane installed in the factory 3 after a lifting wire is hung on the frame unit 16 in the loading process. Then, as shown in FIG. 4 (B), it is moved as it is, loaded on the trailer 4 and carried into the installation site 5. At this time, the temporary fixing of the movable parts such as the cage 12 and the counterweight 14 may be performed before the loading step, and may be performed after the assembly of the elevator shaft 11 is completed.
[0010]
On the other hand, as shown in FIG. 4 (C), a basic pit 6 is constructed in the installation site 5 in parallel with the existing building 1 in advance. The loaded elevator 10 is suspended at the foundation pit 6 while being lifted upright from the trailer 4 by a jib crane 7 prepared at the installation site 5 and serving as a lifting device.
[0011]
At this time, the L-shaped steel forming the frame unit 16 can be used as a jig for lifting, so that there is no need to separately install a jig, and the work for attaching and detaching the jig can be omitted. Can be shortened. Then, after inserting the lower end of the column member 18 into the hole 8 formed in the already constructed foundation pit 6, the concrete is filled into the hole 8 and the like, and the elevator 10 is installed. Then, the temporary fixing of the cage 12, the counterweight 14, and the like is removed, and the installation process ends.
[0012]
[Patent Document 1]
JP 2001-191253 A (paragraph number 0017-0037, FIGS. 2 to 3)
[0013]
[Problems to be solved by the invention]
By the way, in the elevator configured as described above, regardless of the existing or new construction, the elevator components that are unitized are loaded and unloaded after the building structure is started up, and the capacity of the crane increases. In addition, it is necessary to secure a crane parking space and a component installation space in addition to the building installation space, and it has been difficult to secure these spaces depending on the work site.
[0014]
In order to solve the problem, the present invention makes it possible to build a building using an elevator from an early stage before the structure of the building starts up, and therefore, it is possible to reduce the capacity of the crane and shorten the construction period. It is another object of the present invention to provide an elevator that can not only eliminate the provision of a temporary elevating facility and a scaffold therefor, but can further improve safety.
[0015]
[Means for Solving the Problems]
In order to achieve the object, an elevator according to the present invention comprises an elevator pit unit constructed below the lowest floor of a building, and a housing shape forming an elevator hoistway having a size corresponding to one level of the building. The elevator unit, a frame for connecting and fixing the elevator units in a superimposed state, and an elevator main body for ascending and descending in an elevator hoistway formed in a connected and fixed state in which the elevator units are superimposed. .
[0016]
In such a configuration, an elevator pit unit is constructed below the lowest floor of the building, and an elevator hoistway having a size corresponding to one floor of the building is formed by a housing-shaped elevator unit and the A plurality of elevator units are connected and fixed in a superimposed state via a frame, and the elevator body moves up and down in the elevator hoistway in a connected and fixed state in which the elevator units are superimposed.
[0017]
Further, in the elevator according to the present invention, the elevator unit includes a frame configured by a plurality of frames extending vertically and horizontally, a guide rail fixed to the frame and guiding up and down of the elevator body, And a panel constituting an outer wall.
[0018]
According to the elevator construction method of the present invention, a plurality of elevator units according to claim 1 or 2 are prepared in advance in accordance with the number of floors of a building to be constructed, and the floor portion of the lowest floor of the building and the pit body are completed. Before the completion of the later building construction, after fixing the elevator pit unit to the pit body, the plurality of elevator units are sequentially connected and fixed from the lowest floor of the building to the top floor according to the number of buildings via the frame. The elevator body is installed so as to be able to ascend and descend in an elevator hoistway spanning the entire building floor formed after the above-mentioned elevator unit is superimposed, and concrete is driven in as a floor portion of each floor as the building is constructed. Thus, the elevator unit is fixed to the building.
[0019]
Further, the method for constructing an elevator according to the present invention is characterized in that the frame and the panel are used as concrete stopper plates on each floor and a rooftop.
[0020]
Further, the elevator construction method according to the present invention is characterized in that an elevator door opening / closing vane installed on the elevator main body is retrofitted to an unfinished story of a building.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of an elevator according to the present invention is applied to a three-story building and will be described with reference to the drawings.
[0022]
FIG. 1 is a front view showing an installed state of an elevator when the elevator of the present invention is applied to a three-story building, and FIG. 2 is a cross-sectional view of the elevator unit.
[0023]
In FIG. 1, reference numeral 21 denotes an uppermost unit of the elevator, 22 denotes an intermediate unit of the elevator, 23 denotes a lowermost unit of the elevator, 24 denotes an elevator pit unit, 25 denotes a rectangular floor concrete receiving frame member, and 26 denotes an anchor for fixing the lowermost portion. , 27 is an anchor for fixing the side of the pit, 28 is an anchor for fixing the bottom of the pit, 29 is the pit body, 30 is the ceiling of the top floor of the building, 31 is the floor of the top floor of the building, 32 is the floor of the middle floor of the building, and 33 is the floor of the building. The lower floor.
[0024]
The elevator top unit 21, the elevator middle unit 22, and the elevator bottom unit 23 are superimposed according to the building floor on which substantially the same unit is constructed (hereinafter, structurally referred to as "elevator unit 40"). ).
[0025]
As shown in FIG. 2, the elevator unit 40 includes a vertical steel member 41 having an H-shaped cross section located at four corners of the floor concrete receiving frame member 25, and a vertical steel member 41 extending along each side of the floor concrete receiving frame member 25. A transverse steel member 42 laid between them, a guide rail 44 having a substantially T-shaped cross section fixed to a pair of opposed transverse steel members 42 of the transverse steel members 42 via a bracket 43, and a pair of opposed transverse steel members 42. Is provided with a guide rail 46 having a substantially T-shaped cross section and fixed via a pair of opposed brackets 45 fixed to another cross steel member 42.
[0026]
When the elevator units 40 are vertically overlapped, the vertical steel members 41 and the guide rails 44 and 46 are connected so as to be linearly continuous.
[0027]
An elevator car 50 is provided between the guide rails 44 so as to be able to move up and down. A counterweight 60 is provided between the guide rails 46 so as to be able to move up and down relative to the elevator car 50.
[0028]
An elevator rope is erected between the elevator car 50 and the counterweight 60 via a lifting device or a control panel, but these are not shown.
[0029]
In such a configuration, when the lowermost floor portion 33 of the building and the pit body 29 are completed, first, the elevator pit unit 24 is fixed to the lowermost anchor 26, the pit side anchor 27, and the pit bottom anchor 28. To fix it to the pit body 29.
[0030]
The lowermost unit 23 of the elevator has a horizontal steel member 42 connected and fixed to the elevator pit unit 24 via a fixing member (not shown) such as a bolt.
[0031]
The horizontal steel member 42 of the intermediate elevator unit 22 is connected and fixed to the horizontal steel member 42 of the lowermost elevator unit 23 via a fixing member (not shown) such as a bolt.
[0032]
At this time, the vertical steel material 41 of the elevator lowermost unit 23 and the vertical steel material 41 of the elevator intermediate unit 22, and the guide rails 44 and 46 of the elevator lowermost unit 23 and the guide rails 44 and 46 of the elevator intermediate unit 22 are formed. It is connected and fixed via a connecting member or the like (not shown).
[0033]
Further, the horizontal steel member 42 of the elevator uppermost unit 21 is connected and fixed to the horizontal steel member 42 of the elevator intermediate unit 22 via a fixing member (not shown) such as a bolt.
[0034]
At this time, the vertical steel material 41 of the elevator uppermost unit 21 and the vertical steel material 41 of the elevator intermediate unit 22, and the guide rails 44 and 46 of the elevator uppermost unit 21 and the guide rails 44 and 46 of the elevator intermediate unit 22. It is connected and fixed via a connecting member or the like (not shown).
[0035]
In the above embodiment, a three-story building is described. However, only the number of the elevator intermediate units 22 increases according to the number of floors of the building, and the actual connection structure is the same.
[0036]
The vertical steel member 41 and the horizontal steel member 42 are connected by welding or bolt fastening, and have an integral structure in which a box-shaped torsion correction as a whole of the elevator unit 40 and a breath (not shown) are attached for reinforcement. An elevator hoistway 47 is formed.
[0037]
In a state where the units 21, 22, and 23 are superimposed, a panel 48 that partitions the elevator hoistway 47 from the outside is fixed to the vertical steel member 41 and the horizontal steel member 42 via fixing members (not shown) such as bolts. . In the state where the elevator unit 40 is superimposed, since the building itself is not completed, a waterproof sheet (not shown) for rain measures should be provided to prevent rainwater or the like from entering the elevator hoistway 47. Is also possible.
[0038]
The elevator control panel described above specifies the number of available floors (for example, the first floor as the lowest floor and the second floor as the middle floor) according to the building construction status, and the number of floors that cannot be used (for example, as the top floor). Electrical connection / disconnection is possible so as not to call or stop the elevator car 50 on the third floor).
[0039]
Also, even if the elevator car 50 stops on a floor that is not completed due to malfunction or the like (for example, the third floor as the top floor), the door opening / closing vanes ( (Not shown) can be retrofitted.
[0040]
The floor concrete receiving frame member 25 and the panel 48 can be used as concrete stopper plates (not shown) on each floor and on the roof.
[0041]
As the building is constructed, concrete is poured in as the floor portions 31, 32, and 33 of each floor, so that the elevator hoistway 47 (the elevator unit 40) is fixed to the building.
[0042]
In this way, the unitized elevator parts (elevator unit 40) with the elevator hoistway 47 are carried in after the completion of the pit main body 29 before the building structure is started up, and are superimposed by a crane, and each is assembled and assembled. With this fixation, the elevator can be used even when all floors of the building are not completed, and can be used as a temporary elevator at the time of building construction. No scaffolding is required, and the construction period can be shortened.
[0043]
In addition, in front of the landing on the floor where the building is not completed, a seat for rain prevention is installed, and a setting that the elevator door 51 is not opened and a countermeasure that the hall call and the car call do not operate are provided to the elevator control panel. The security is ensured by having it.
[0044]
Further, the panel 48 as the outer wall of the elevator hoistway 47 can be used as a concrete stopper plate on the floor or ceiling of each floor, so that simplification of work parts can be realized.
[0045]
The elevator hoistway 47 is fixed to the pit main body 29 when the pit main body 29 is completed, but is fixed to the floor or ceiling of each floor as each floor of the building is completed. Can be maintained.
[0046]
Further, since the elevator unit 40 is superimposed and fixed before the completion of the building, it is not necessary to avoid the beam of the crane from interfering with the building, and a small and small-sized crane can be used. With the availability of the building space, it is easy to secure a crane working space at the building work site.
[0047]
Thus, in the elevator according to the present invention, a long elevator spanning all floors of the middle and low layers as shown in Patent Document 1 of the prior art is constructed in advance, and it is transported to a building site. The structure and construction method of superimposing the elevator unit 40 for each floor before building construction was adopted without using the structure and construction method of standing, so that it can be used as a temporary elevator at the time of building construction, and It is easy to adapt to different buildings.
[0048]
【The invention's effect】
In the elevator according to the present invention, the construction as described above allows the building to be made while using the elevator from an early stage before the structure of the building starts up, thus reducing the capacity of the crane and Not only can the construction period be shortened, but also the temporary elevating equipment and the scaffold therefor can be dispensed with.
[Brief description of the drawings]
FIG. 1 is a front view showing an elevator according to an embodiment of the present invention, showing an elevator mounted state when the elevator of the present invention is applied to a three-story building.
FIG. 2 is a transverse sectional view of the elevator unit.
FIG. 3 is an external perspective view showing a conventional elevator, in which a part of the elevator is broken.
FIGS. 4A to 4C are explanatory views showing a procedure for constructing an elevator.
[Explanation of symbols]
21 elevator top unit (elevator unit 40), 22 elevator middle unit (elevator unit 40), 23 elevator bottom unit (elevator unit 40), 24 elevator pit unit, 25 floor concrete receiving frame (frame), 47 Elevator hoistway.

Claims (5)

An elevator pit unit constructed below the lowest floor of the building, an enclosure-shaped elevator unit constituting an elevator hoistway of a size corresponding to one level of the building, and the elevator units connected in an overlapping state An elevator comprising: a frame to be fixed; and an elevator main body that moves up and down in an elevator hoistway formed in a connected and fixed state in which the elevator units are overlapped. The elevator unit includes a frame constituted by a plurality of frames extending vertically and horizontally, a guide rail fixed to the frame and guiding the elevator body to move up and down, and a panel constituting an outer wall of the frame. The elevator according to claim 1, wherein: A plurality of elevator units according to claim 1 or 2 are prepared in advance according to the number of floors of a building to be constructed, and the elevator pit section is provided before the completion of building construction after the floor section of the lowest floor of the building and the pit body are completed. After fixing the unit to the pit main body, the plurality of elevator units are sequentially connected and fixed from the lowest floor of the building to the top floor according to the number of floors via the frame, and are superimposed, and the elevator main body of the elevator unit is It is installed so that it can be moved up and down in the elevator hoistway that straddles the entire building floor formed after superposition, and as the building is constructed, concrete is poured as the floor of each floor and the elevator unit is fixed to the building. A featured elevator construction method. The method according to claim 3, wherein the frame and the panel are used as concrete stopper plates on each floor and a rooftop. The elevator construction method according to claim 3 or 4, wherein an elevator door opening / closing vane installed on the elevator main body is attached to an unfinished story of the building.

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