JPH0797181A - Method for carrying in/out structure - Google Patents
Method for carrying in/out structureInfo
- Publication number
- JPH0797181A JPH0797181A JP5238098A JP23809893A JPH0797181A JP H0797181 A JPH0797181 A JP H0797181A JP 5238098 A JP5238098 A JP 5238098A JP 23809893 A JP23809893 A JP 23809893A JP H0797181 A JPH0797181 A JP H0797181A
- Authority
- JP
- Japan
- Prior art keywords
- frame
- floor
- winch
- rope
- worker
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Lift-Guide Devices, And Elevator Ropes And Cables (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は構造物の搬出入方法に係
わり、特に、エスカレータのフレーム等のように凸部と
凹部とが相対向する側に形成された構造物の搬出入方法
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of loading and unloading a structure, and more particularly to a method of loading and unloading a structure such as a frame of an escalator in which a convex portion and a concave portion are formed on opposite sides.
【0002】[0002]
【従来の技術】従来の相対向する側に凸部と凹部を有す
る構造物、例えばエスカレータのフレームを2階床より
も上階床の据付箇所への搬入、あるいは2階床よりも上
階床で撤去された既設フレームの搬出等を行なう場合
は、既設フレームを分割し、建物に既に備えられている
階段を利用したり、既設フレームを撤去するときに形成
した開口部を利用して行なわれていた。2. Description of the Related Art A conventional structure having a convex portion and a concave portion on opposite sides, for example, a frame of an escalator is carried into an installation place on an upper floor above the second floor, or an upper floor above the second floor. When carrying out the existing frame that has been removed in step 2, the existing frame is divided and the stairs already provided in the building are used, or the opening formed when removing the existing frame is used. Was there.
【0003】[0003]
【発明が解決しようとする課題】しかしながら、上述し
た従来の構造物の搬出入方法のように階段を利用して搬
出入する場合は、階段に合わせてフレームを多数個に分
割しなければならず、特に新設フレームの搬入の場合に
は、各フレームを後で一体に結合できるような構成とし
ておかなければならない。また開口部を利用する場合
は、大掛かりな揚重装置を設置する必要があると共に、
フレームを吊るロープが複数の階床にわたつているので
吊りロープの掛け方が面倒であり、かつ、種々の制限を
受け易く面倒な作業となつていた。However, when carrying in and out using stairs as in the above-described conventional method for carrying in and out a structure, the frame must be divided into a plurality of frames according to the stairs. In particular, in the case of loading a new frame, each frame must be constructed so that they can be joined together later. Also, when using the opening, it is necessary to install a large-scale lifting device,
Since the rope that suspends the frame spans multiple floors, how to hang the suspension rope is troublesome, and various restrictions are imposed, which is a troublesome work.
【0004】本発明の目的は、大掛かりな装置を用いる
ことなく短時間に、相対向する部分に凸部と凹部を有す
る構造物を階床間で移動することができる構造物の搬出
入方法を提供することにある。An object of the present invention is to provide a structure loading / unloading method capable of moving a structure having a convex portion and a concave portion at opposing portions between floors in a short time without using a large-scale device. To provide.
【0005】[0005]
【課題を解決するための手段】本発明は上記目的を達成
するために、相対向する部分に凸部と凹部を形成した構
造物を、水平床とこれに連なつている鉛直空間との間で
搬出入する構造物の搬出入方法において、上記凹部を下
にして上記構造物を第1の階床の水平床に配置し、上記
鉛直空間内の上方に間隔を置いて設けた少なくとも2個
の揚重手段から垂下される連結手段を上記フレームの両
端にそれぞれ連結すると共に、第1の階床の水平床に設
けた他の揚重手段からの連結手段を上記フレームの反鉛
直空間側端に連結し、上記各揚重手段の連結手段を調整
しながら上記構造物の上記凹部側を旋回の中心側にして
旋回させつつ上記鉛直空間内に移動し、次いで、上記少
なくとも2個の揚重手段により上記構造物を第2の階床
の近傍まで移動し、その後、上記少なくとも2個の揚重
手段と、上記第2の階床の水平床に設けられてその連結
手段を上記フレームの反鉛直空間側端に連結した更に他
の揚重手段とにより、上記構造物の上記凹部側を旋回の
中心側にして旋回させつつ上記鉛直空間内から上記第2
の階床へ引き出すようにしたことを特徴とする。In order to achieve the above object, the present invention provides a structure in which a convex portion and a concave portion are formed at opposing portions between a horizontal floor and a vertical space continuous with the horizontal floor. In the method of loading and unloading a structure, the structure is placed on the horizontal floor of the first floor with the concave portion facing downward, and at least two are provided above the vertical space at intervals. Connecting means connected to both ends of the frame, and connecting means from other lifting means provided on the horizontal floor of the first floor to the end of the frame on the side of the anti-vertical space. And moving the inside of the vertical space while turning while making the concave side of the structure the turning center side while adjusting the connecting means of the lifting means, and then moving the at least two lifting means. By means of moving the structure to the vicinity of the second floor After that, by the at least two lifting means and further lifting means provided on the horizontal floor of the second floor and connecting the connecting means to the end of the frame on the side opposite to the vertical space, From the inside of the vertical space, the second portion of the structure is swung while the concave portion side of the structure is swung to the center side of the swiveling.
The feature is that it is pulled out to the floor of.
【0006】[0006]
【作用】本発明による構造物の搬出入方法は、上述の如
く第1の階床の水平床から鉛直空間に構造物を移動する
際、構造物の凹部側が旋回の中心側となるように旋回さ
せ、また鉛直空間を移動後、鉛直空間から第2の階床の
水平床に搬入する際も、構造物の凹部側が旋回の中心側
となるように旋回させているため、凹部から凸部側の最
外方の点の軌跡までの距離を最小とすることができ、水
平床と鉛直空間との境界部の開口寸法に対してより大き
な寸法の構造物を鉛直空間に搬出することが可能とな
り、しかも構造物の旋回のために用いた揚重手段を、鉛
直空間を構造物が移動する際にも共用するようにしたた
め、大掛かりな装置を必要とせずに短時間で効率良く行
なうことができる。According to the method of carrying in and out the structure according to the present invention, as described above, when the structure is moved from the horizontal floor of the first floor to the vertical space, the structure is turned so that the concave side of the structure becomes the center side of the turning. In addition, after moving in the vertical space, even when carrying in from the vertical space to the horizontal floor of the second floor, the structure is swung so that the concave side of the structure becomes the center side of the turning, so the concave side to the convex side The distance to the locus of the outermost point of can be minimized, and it becomes possible to carry out structures with a size larger than the opening size at the boundary between the horizontal floor and the vertical space to the vertical space. Moreover, since the lifting means used for turning the structure is also used when the structure moves in the vertical space, it is possible to efficiently perform it in a short time without requiring a large-scale device. .
【0007】[0007]
【実施例】以下、本発明の実施例を図面によつて説明す
る。図1は本発明の一実施例による構造物の搬出入方法
を採用したエスカレータのフレームの搬入作業を示すフ
ローチヤートである。図1に示すようにエスカレータの
フレームの搬入作業は、先ず、ステツプS1の準備作業
から始め、ステツプS2の荷引き作業、ステツプS3の
昇降路引込み作業、ステツプS4の振止め雇取付作業、
ステツプS5の揚重作業、ステツプS6の振止め雇撤去
作業、ステツプS7の乗り場引出し作業を経て、ステツ
プS8の荷降作業で終わる。Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a flow chart showing an operation of loading and unloading a frame of an escalator adopting a method of loading and unloading a structure according to an embodiment of the present invention. As shown in FIG. 1, the work of loading the frame of the escalator starts with the work of preparing the step S1, the work of loading the step S2, the work of pulling the hoistway of the step S3, and the work of installing the swing stop of the step S4.
After the lifting work of step S5, the swinging work removal work of step S6, the landing work of step S7, the loading work of step S8 ends.
【0008】エスカレータのフレームの搬入作業にエレ
ベータを用いるが、このエレベータは図2に示すように
一般的な構成のものである。つまり、建物に設置されて
いるエレベータの昇降路1内には、建物の最上部の機械
室に設置した巻上機3に巻回した主ロープ5の両端に結
合した乗かご2とつり合いおもり4が配置され、この昇
降路1の内壁の昇降方向には乗かご2を案内する一対の
ガイドレール26,27が図11に示すように固設され
ている。また昇降路1のピツトには乗かご2とつり合い
おもり4の下部位置に対応してそれぞれバツフア6が設
置されている。An elevator is used for the work of loading the frame of the escalator, and this elevator has a general structure as shown in FIG. That is, in the hoistway 1 of the elevator installed in the building, the car 2 and the balance weight 4 connected to both ends of the main rope 5 wound around the hoisting machine 3 installed in the machine room at the top of the building. 11, a pair of guide rails 26 and 27 for guiding the car 2 are fixedly installed in the ascending and descending direction of the inner wall of the hoistway 1 as shown in FIG. Further, buffers 6 are installed on the pits of the hoistway 1 in correspondence with the lower positions of the car 2 and the counterweight 4.
【0009】次に、エスカレータのフレーム9を1階の
床7から3階の床8まで搬入する場合、先ず、ステツプ
S1として運搬のための準備作業を行なう。つまり、図
2に示すように乗かご2を昇降路1の最上部に移動させ
停止させた後、昇降路1内の最上階またはその1階下の
位置に支持床25を設置し、この支持床25の下部の中
央部にウインチ13を設置すると共に、所定の間隔をお
いてつり合いおもり4側にウインチ14を設置する。ま
た1階において、床7にウインチ12を設置すると共
に、搬入口となる1階の乗り場出入口32の上部に滑車
16を設置する。さらに3階においては、床8上にウイ
ンチ15を設置し、搬出口となる3階の天井部分に滑車
17を設置する。Next, when carrying in the escalator frame 9 from the floor 7 on the first floor to the floor 8 on the third floor, first, a preparatory work for transportation is performed as step S1. That is, as shown in FIG. 2, after moving the car 2 to the top of the hoistway 1 and stopping it, the support floor 25 is installed at the top floor or a position one floor below the top floor in the hoistway 1. The winch 13 is installed in the center of the lower part of 25, and the winch 14 is installed on the side of the counterweight 4 at a predetermined interval. Further, on the first floor, a winch 12 is installed on the floor 7, and a pulley 16 is installed above the landing entrance / exit 32 on the first floor, which serves as a carry-in entrance. Further, on the third floor, a winch 15 is installed on the floor 8, and a pulley 17 is installed on the ceiling portion of the third floor that serves as a carry-out exit.
【0010】次のステツプS2は、フレーム9を1階の
乗り場出入口32まで運搬するための荷引き作業であ
る。図2に示すように1階の床7に第一台車10および
第二台車11を準備し、これらの上にフレーム9を搭載
するが、フレーム9の凹部9Aが下になり凸部9Bが上
に向けられた状態にする。次いで、フレーム9の左端9
Cの上部にウインチ12のロープ12Aを掛け、またフ
レーム9の左端9Cの上下部にウインチ14のロープ1
4Aを掛け、さらにフレーム9の右端9Dの上部にウイ
ンチ13のロープ13Aを玉掛けする。その後、作業者
A,Bは1階の図示の位置に立ち、作業者Aがウインチ
13を操作して滑車16を介してフレーム9の右端9D
の上部に連結したロープ13Aを巻き上げると同時に、
作業者Bがウインチ12を操作してロープ13Aの巻き
上げ量と同じ量だけロープ12Aを送り出し、昇降路1
の方向へフレーム9を水平移動させる。The next step S2 is a unloading work for transporting the frame 9 to the platform entrance / exit 32 on the first floor. As shown in FIG. 2, the first truck 10 and the second truck 11 are prepared on the floor 7 on the first floor, and the frame 9 is mounted on them. Be turned to. Next, the left end 9 of the frame 9
The rope 12A of the winch 12 is hung on the upper part of C, and the rope 1 of the winch 14 is installed on the upper and lower parts of the left end 9C of the frame 9.
4A, and the rope 13A of the winch 13 is slung on the upper part of the right end 9D of the frame 9. Then, the workers A and B stand on the illustrated position on the first floor, and the worker A operates the winch 13 to move the pulley 16 to the right end 9D of the frame 9.
At the same time as winding up the rope 13A connected to the upper part of
The worker B operates the winch 12 and sends out the rope 12A by the same amount as the amount of winding of the rope 13A.
The frame 9 is horizontally moved in the direction of.
【0011】次はステツプS3であり、フレーム9を昇
降路1に引き込むための昇降路搬入作業を行なう。作業
者A,B,Cは1階の図3に示した位置にそれぞれ待機
し、フレーム9の右端9Dが1階の乗り場出入口32に
到達したら、先ず作業者Cがウインチ14のロープ14
Aを巻き上げながら、これに合わせて作業者Aがウイン
チ12のロープ12Aを送り出し、さらに作業者Bはウ
インチ13のロープ13Aを送り出す量を調整すること
により、フレーム9を矢印33のように右回り旋回させ
ながらフレーム9の右端9Dを昇降路下部側に落して行
く。このとき、フレーム9の凹部9Aが旋回の内側にな
るように移動するため、フレーム9の下部側が1階の乗
り場出入口32の角部に接触して損傷するのを容易に防
止することができる。これによつてフレーム9は昇降路
1内で図4に示す状態、すなわち左端9Cが上方になつ
て右端9Dが下方になり、ウインチ14のロープ14A
によつて吊下げられた状態となる。Next, in step S3, a hoistway loading operation for pulling the frame 9 into the hoistway 1 is performed. The workers A, B, and C stand by at the positions shown in FIG. 3 on the first floor, and when the right end 9D of the frame 9 reaches the landing entrance / exit 32 on the first floor, the worker C first sets the rope 14 of the winch 14.
While winding A, worker A sends out a rope 12A of winch 12 in accordance with this, and worker B adjusts the amount of send out rope 13A of winch 13 to turn frame 9 clockwise as indicated by arrow 33. While turning, the right end 9D of the frame 9 is dropped to the lower side of the hoistway. At this time, since the recess 9A of the frame 9 moves so as to be inside the turning, it is possible to easily prevent the lower side of the frame 9 from coming into contact with and damaging the corner of the landing entrance / exit 32 on the first floor. As a result, the frame 9 is in the hoistway 1 in the state shown in FIG. 4, that is, the left end 9C is upward and the right end 9D is downward, and the rope 14A of the winch 14 is moved.
It will be in a suspended state.
【0012】ステツプS4は、フレーム9の揚重の際に
生じる振れを防止するための振れ止め雇取付作業であ
る。図4に示した作業者Aは、図示しない昇降手段、例
えば階段を利用して地下1階に降り、一方、作業者B,
Cは1階の図4に示す位置に待機し、作業者Bがウイン
チ13のロープ13Aを送り出し、作業者Cがウインチ
14のロープ14Aを送り出し、図5に示すようにフレ
ーム9を昇降路1の最下部に降ろし、その後、作業者A
がウインチ12のロープ12Aを外す。その後、図5の
要部拡大平面図である図11に示すようにフレーム9に
振れ止め雇23を取り付ける。この振れ止め雇23は、
その両側にそれぞれブラケツト20,21が固定されて
おり、それぞれのブラケツト20,21にはガイドレー
ル26,27を挾むように備えられたローラ20A,2
0Bと、ローラ21A,21Bがそれぞれ設けられてい
る。これら二対のローラ20A,20B,21A,21
Bによつてフレーム9の下部はガイドレール26,27
によつて振れが防止されると共に、ガイドレール26,
27に沿つて案内されることになる。[0012] Step S4 is a steady rest servicing and attaching work for preventing the shake generated when the frame 9 is lifted. The worker A shown in FIG. 4 descends to the first basement floor using an elevating means (not shown) such as stairs, while the worker B,
C stands by at the position shown in FIG. 4 on the first floor, the worker B sends out the rope 13A of the winch 13, the worker C sends out the rope 14A of the winch 14, and the frame 9 moves up and down the frame 9 as shown in FIG. To the bottom of the
Removes the rope 12A of the winch 12. After that, a steady rest 23 is attached to the frame 9 as shown in FIG. 11 which is an enlarged plan view of the main part of FIG. This steady rest 23
Brackets 20 and 21 are fixed to both sides thereof, and rollers 20A and 2 provided so as to sandwich guide rails 26 and 27 in the respective brackets 20 and 21.
0B and rollers 21A and 21B are provided, respectively. These two pairs of rollers 20A, 20B, 21A, 21
By B, the lower part of the frame 9 has guide rails 26, 27.
As a result, runout is prevented and the guide rail 26,
You will be guided along line 27.
【0013】次のステツプS5は揚重作業である。作業
者A,B,Cは、図5の位置から図示しない昇降手段、
例えば階段を利用して3階に移動し、3階の乗り場出入
口28と、昇降路1内のつり合いおもり4側の梁29と
の間に足場板30,31を橋絡し、ガイドレール26側
に足場板30が位置するように、また所定距離を隔てて
ガイドレール27側に足場板31が位置するようにす
る。その後、作業者Aは足場板30上に立ち、作業者B
は足場板31上に立ち、また作業者Cは3階の図6に示
す位置に立つ。次に、作業者Cがウインチ14のロープ
14Aを巻き上げながらフレーム9を引揚げるが、フレ
ーム9の下部はローラ20A,20B,21A,21B
によつてガイドレール26,27に沿つて移動するた
め、振れて昇降路壁やガイドレール26,27にフレー
ム9が当たつて損傷することが防止される。このように
してフレーム9を図6に示す状態、すなわちフレーム9
の左端9Cであつた上部が3階の乗り場出入口28の上
端付近に到達した位置まで揚重する。The next step S5 is a lifting operation. The workers A, B, and C are lifting means (not shown) from the position of FIG.
For example, use the stairs to move to the 3rd floor, bridge the scaffolding plates 30 and 31 between the platform entrance / exit 28 on the 3rd floor and the beam 29 on the counterweight 4 side in the hoistway 1, and on the guide rail 26 side. The scaffold plate 30 is located on the guide rail 27 side, and the scaffold plate 31 is located on the guide rail 27 side at a predetermined distance. After that, the worker A stands on the scaffolding plate 30 and the worker B
Stands on the scaffolding plate 31, and the worker C stands on the third floor in the position shown in FIG. Next, the worker C pulls up the frame 9 while hoisting the rope 14A of the winch 14, but the lower part of the frame 9 has rollers 20A, 20B, 21A, 21B.
Therefore, since the frame 9 moves along the guide rails 26 and 27, it is prevented that the frame 9 hits the hoistway wall or the guide rails 26 and 27 and is damaged by swinging. In this way, the frame 9 is in the state shown in FIG.
Lift up to the position where the upper part, which is the left end 9C, has reached near the upper end of the platform entrance / exit 28 on the third floor.
【0014】次はステツプS6の振れ止め雇撤去作業を
行なう。図6に示すように足場板30および足場板31
上に立つた作業者Aと作業者Bは振れ止め雇23を取り
外し、作業者Aは3階の床8に設置したウインチ15の
ロープ15Aを滑車17を介してフレーム9の左端9C
であつた上部に玉掛けする。Next, the steady rest employment removal work of step S6 is performed. As shown in FIG. 6, scaffolding board 30 and scaffolding board 31
The workers A and B standing on the top remove the steady rests 23, and the worker A attaches the rope 15A of the winch 15 installed on the floor 8 on the third floor via the pulley 17 to the left end 9C of the frame 9.
Slice it on the upper part.
【0015】次に、フレーム9を昇降路1から3階の乗
場に引き出すための乗場搬出作業としてステツプS7を
行なう。作業者A,B,Cは3階の図7に示すそれぞれ
の位置に立ち、作業者Bはウインチ13のロープ13A
を、また作業者Aはウインチ15のロープ15Aを同時
に巻き上げながら、作業者Cがウインチ14のロープ1
4Aを送り出すと、フレーム9を矢印の方向に旋回させ
ることができる。すなわちフレーム9の凹部9Aが旋回
の内側となるように移動させ、昇降路1内から3階の床
8に向かつて引き出すことができる。この場合もフレー
ム9の凹部9Aが下部となつているため、乗り場出入口
28の角にフレーム9を当てて損傷することなく、容易
にフレーム9を旋回することができる。Next, step S7 is carried out as a landing work for pulling out the frame 9 from the hoistway 1 to the landing on the third floor. The workers A, B, and C stand at the respective positions shown in FIG. 7 on the third floor, and the worker B is the rope 13A of the winch 13.
While the worker A winds up the rope 15A of the winch 15 at the same time, the worker C
When 4A is sent out, the frame 9 can be turned in the direction of the arrow. That is, the concave portion 9A of the frame 9 can be moved so as to be inside the turning, and can be pulled out toward the floor 8 on the third floor from within the hoistway 1. In this case as well, since the concave portion 9A of the frame 9 is located at the bottom, the frame 9 can be easily turned without hitting the corner of the landing entrance 28 and damaging the frame 9.
【0016】次はステツプS8の荷降作業である。図8
に示すように、床8上に第三台車18を配置すると共
に、その輪止めをして移動しないようにする。作業者B
はウインチ13のロープ13Aを、また作業者Aはウイ
ンチ15のロープ15Aを同時に送り出して、フレーム
9を下降させながら、その左端9Cを第三台車18に載
せた後、作業者Cがウインチ14のロープ14Aを取り
外す。次いで、図9に示すように作業者Aがウインチ1
5のロープ15Aを滑車17から外すと共に、作業者B
が第三台車18の輪止めを除去し、その後、作業者Aが
ウインチ15のロープ15Aを巻き上げて第三台車18
に搭載されたフレーム9をウインチ15の方向に引き寄
せながら、作業者Bもしくは作業者Cがウインチ13の
ロープ13Aを送り出し、フレーム9を水平移動させ
る。これによつてフレーム9が昇降路1から完全に引き
出されたなら、作業者Aがウインチ15の巻き上げを止
め、作業者Cが図10に示す所定の位置に第四台車19
を配置した後、作業者Bもしくは作業者Cがウインチ1
3のロープ13Aを送り出して第四台車19上にフレー
ム9の右端9Dを載せる。このようにして、フレーム9
を1階から昇降路1内を経由して3階まで運搬すること
ができる。The next step is the unloading work in step S8. Figure 8
As shown in (3), the third carriage 18 is arranged on the floor 8 and its wheels are locked so that it does not move. Worker B
Simultaneously sends the rope 13A of the winch 13 and the worker A sends the rope 15A of the winch 15 at the same time, lowering the frame 9 and placing the left end 9C thereof on the third carriage 18. Remove the rope 14A. Next, as shown in FIG.
While removing the rope 15A of No. 5 from the pulley 17, the worker B
Removes the wheel stopper of the third carriage 18, and then the worker A winds up the rope 15A of the winch 15 to lift the third carriage 18
While pulling the frame 9 mounted on the winch 15 toward the winch 15, the worker B or the worker C sends out the rope 13A of the winch 13 to horizontally move the frame 9. Accordingly, when the frame 9 is completely pulled out from the hoistway 1, the worker A stops the hoisting of the winch 15, and the worker C places the fourth carriage 19 at a predetermined position shown in FIG.
Worker B or worker C winches 1
The rope 13A of No. 3 is sent out and the right end 9D of the frame 9 is placed on the fourth carriage 19. In this way, the frame 9
Can be transported from the first floor to the third floor via the hoistway 1.
【0017】尚、上述の実施例は1階から3階までの搬
入について説明したが、既設フレームを1階まで搬出す
る場合には上述の手順を逆に行なえば良い。また構造物
としてエスカレータのフレームについて例示したが、他
の構造物であつても同様に適用することができる。さら
に上述の実施例においては、昇降路1を介して異なる階
床へ構造物を移動させたが、昇降路以外の異なる水平床
間を連通させた鉛直空間を利用することができる。さら
に構造物の旋回と揚重のためにウインチとロープを用い
たが、その他の揚重手段と連結手段を用いても良い。In addition, although the above-mentioned embodiment explained the carry-in from the first floor to the third floor, when carrying out the existing frame to the first floor, the above-mentioned procedure may be reversed. Although the escalator frame has been exemplified as the structure, the same can be applied to other structures. Further, in the above-described embodiment, the structure is moved to different floors via the hoistway 1, but a vertical space in which different horizontal floors other than the hoistway are communicated can be used. Further, although the winch and the rope are used for turning and lifting the structure, other lifting means and connecting means may be used.
【0018】[0018]
【発明の効果】以上説明したように本発明は、第1の階
床の水平床から鉛直空間へ、あるいは鉛直空間から第2
の階床の水平床へ構造物を搬出する際、構造物の凹部側
が旋回の中心側となるようにしたため、水平空間と鉛直
空間との間に形成された乗り場出入口等の開口寸法の大
きさに対してより大きな寸法の構造物を搬出することが
可能となり、しかも、このとき構造物の旋回と鉛直空間
内での移動のために、鉛直空間の上部に設けた同じ揚重
手段を用いているため、大掛かりな装置を必要とせずに
短時間で構造物を第1の階床から第2の階床に移動させ
ることができる。As described above, according to the present invention, from the horizontal floor of the first floor to the vertical space, or from the vertical space to the second space.
When the structure is carried out to the horizontal floor of the floor, the concave side of the structure is set to be the center side of the turning, so the size of the opening size of the entrance and exit etc. formed between the horizontal space and the vertical space It is possible to carry out a structure of a larger size, and at the same time, in order to rotate the structure and move it in the vertical space, the same lifting means provided at the upper part of the vertical space is used. Therefore, the structure can be moved from the first floor to the second floor in a short time without requiring a large-scale device.
【図1】本発明の一実施例による構造物の搬出入方法を
エスカレータのフレームの搬入作業に適用した場合のフ
ローチヤートである。FIG. 1 is a flow chart when a method for carrying in and out a structure according to an embodiment of the present invention is applied to a work for carrying in a frame of an escalator.
【図2】エスカレータのフレームの搬入時における荷引
き作業を示す昇降路近傍の断面図である。FIG. 2 is a cross-sectional view in the vicinity of a hoistway showing a work of loading and unloading when the frame of the escalator is loaded.
【図3】エスカレータのフレームの搬入時における昇降
路引込み作業初期を示す昇降路近傍の断面図である。FIG. 3 is a cross-sectional view of the vicinity of the hoistway showing an early stage of hoistway retracting work when the frame of the escalator is carried in.
【図4】エスカレータのフレームの搬入時における昇降
路引込み作業終期を示す昇降路近傍の断面図である。FIG. 4 is a cross-sectional view of the vicinity of the hoistway showing the end of the hoistway retracting work when the frame of the escalator is carried in.
【図5】エスカレータのフレームの搬入時における振止
め雇取付作業を示す昇降路近傍の断面図である。FIG. 5 is a cross-sectional view of the vicinity of a hoistway showing a work for attaching a swing stop when the escalator frame is carried in.
【図6】エスカレータのフレームの搬入時における揚重
作業を示す昇降路近傍の断面図である。FIG. 6 is a cross-sectional view in the vicinity of a hoistway showing a lifting operation at the time of carrying in the frame of the escalator.
【図7】エスカレータのフレームの搬入時における乗り
場引出し作業初期を示す昇降路近傍の断面図である。FIG. 7 is a cross-sectional view of the vicinity of a hoistway showing an initial stage of landing work when the escalator frame is loaded.
【図8】エスカレータのフレームの搬入時における乗り
場引出し作業終期を示す昇降路近傍の断面図である。FIG. 8 is a cross-sectional view in the vicinity of the hoistway showing the final stage of the landing work when the escalator frame is carried in.
【図9】エスカレータのフレームの搬入時における荷降
作業初期を示す昇降路近傍の断面図である。FIG. 9 is a cross-sectional view near the hoistway showing an initial stage of unloading work when the frame of the escalator is carried in.
【図10】エスカレータのフレームの搬入時における荷
降作業終期を示す昇降路近傍の断面図である。FIG. 10 is a cross-sectional view in the vicinity of the hoistway showing the end of the unloading work when the frame of the escalator is carried in.
【図11】図5の要部拡大平面図である。11 is an enlarged plan view of an essential part of FIG.
1 昇降路 2 乗かご 4 つり合いおもり 5 主ロープ 9 フレーム 12,13,14,15 ウインチ 12A,13A,14A,15A ロープ 16,17 滑車 20A,20B,21A,21B ローラ 23 振止め雇 26,27 ガイドレール 1 hoistway 2 car 4 balance weight 5 main rope 9 frame 12, 13, 14, 15 winch 12A, 13A, 14A, 15A rope 16, 17 pulley 20A, 20B, 21A, 21B roller 23 swing stop 26, 27 guide rail
───────────────────────────────────────────────────── フロントページの続き (72)発明者 山本 諭 東京都千代田区神田錦町1丁目6番地 株 式会社日立ビルシステムサービス内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Satoshi Yamamoto 1-6-6 Kandanishikicho, Chiyoda-ku, Tokyo Inside Hitachi Building System Service Co., Ltd.
Claims (1)
構造物を、水平床とこれに連なつている鉛直空間との間
で搬出入する構造物の搬出入方法において、上記凹部を
下にして上記構造物を第1の階床の水平床に配置し、上
記鉛直空間内の上方に間隔を置いて設けた少なくとも2
個の揚重手段から垂下される連結手段を上記フレームの
両端にそれぞれ連結すると共に、第1の階床の水平床に
設けた他の揚重手段からの連結手段を上記フレームの反
鉛直空間側端に連結し、上記各揚重手段の連結手段を調
整しながら上記構造物の上記凹部側を旋回の中心側にし
て旋回させつつ上記鉛直空間内に移動し、次いで、上記
少なくとも2個の揚重手段により上記構造物を第2の階
床の近傍まで移動し、その後、上記少なくとも2個の揚
重手段と、上記第2の階床の水平床に設けられてその連
結手段を上記フレームの反鉛直空間側端に連結した更に
他の揚重手段とにより、上記構造物の上記凹部側を旋回
の中心側にして旋回させつつ上記鉛直空間内から上記第
2の階床へ引き出すようにしたことを特徴とする構造物
の搬出入方法。1. A method of loading and unloading a structure in which a projecting portion and a recessed portion are formed in opposing portions between a horizontal floor and a vertical space connected to the horizontal floor, wherein the recessed portion is formed. At least two of the above-mentioned structures are arranged downward on the horizontal floor of the first floor and are provided above the vertical space at intervals.
Connecting means hanging from the individual lifting means are respectively connected to both ends of the frame, and connecting means from other lifting means provided on the horizontal floor of the first floor are connected to the anti-vertical space side of the frame. The structure is connected to an end, and while adjusting the connecting means of each of the lifting means, the concave side of the structure is moved to the vertical space while being rotated with the concave side of the structure being the center side of the rotation, and then the at least two lifting means are lifted. The structure is moved to the vicinity of the second floor by a weight means, and then the at least two lifting means and the horizontal floor of the second floor are provided with the connecting means of the frame. By further lifting means connected to the end of the anti-vertical space, the concave side of the structure is turned to the center side of turning and the structure is drawn out from the vertical space to the second floor while being turned. A method for carrying in and out a structure, which is characterized in that
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5238098A JPH0797181A (en) | 1993-09-24 | 1993-09-24 | Method for carrying in/out structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5238098A JPH0797181A (en) | 1993-09-24 | 1993-09-24 | Method for carrying in/out structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0797181A true JPH0797181A (en) | 1995-04-11 |
Family
ID=17025147
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP5238098A Pending JPH0797181A (en) | 1993-09-24 | 1993-09-24 | Method for carrying in/out structure |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0797181A (en) |
-
1993
- 1993-09-24 JP JP5238098A patent/JPH0797181A/en active Pending
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