TWM627093U

TWM627093U - Combined elevator shaft module with electrical circuits of each floor station

Info

Publication number: TWM627093U
Application number: TW111200886U
Authority: TW
Inventors: 簡維漢; 王興星
Original assignee: 錦強企業股份有限公司
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2022-05-11

Abstract

本創作是提供一種組合式含各層站電器線路之電梯井道模組，主要是藉由複數層疊組裝之電梯井道模組，令本創作之該複數電梯井道模組及預先安裝完成的電器設備所包含的樓層外門、樓層顯示器、樓層按鈕及一機電模組所包含的中央控制部、第一線路部及第二線路部，透過組合支架及各該井道本體一端所延伸露出的該第一線路接端以快速線路電訊插接於另一層疊組構的井道本體所延伸露出的該第二線路接端，以達到每一井道本體之各該機電模組所設置的中央控制部能達到統一訊號的連線，以簡單地安裝於室內、室外的適當位置，且電梯為模組化分離，不須對建物進行任何施作的動機而構成本案，且本案所藉由複數層疊組裝之電梯井道模組所相對構成一組合式電梯中，皆將機電模組一併作前置配置完成，故不需再後置層置安裝時作任何機電模組的配置安裝，以降低工安意外的發生。This creation is to provide a combined elevator shaft module including electrical circuits of various floors, mainly through a plurality of elevator shaft modules assembled in layers, so that the plurality of elevator shaft modules and the pre-installed electrical equipment of this creation include The outer door of the floor, the floor display, the floor button and the central control part, the first circuit part and the second circuit part included in an electromechanical module are connected through the combination bracket and the first circuit extended from one end of the well body. The terminal is connected to the second line terminal which is extended and exposed by the hoistway body of another stacked structure by means of a fast line telecommunication, so that the central control part provided by each electromechanical module of each hoistway body can achieve a unified signal. The connection line is simply installed at the appropriate position indoors and outdoors, and the elevator is modularized and separated, and this case is constituted without any motivation to perform any operation on the building, and this case is composed of multiple stacked elevator shaft modules. All the electromechanical modules are pre-configured together in a combined elevator, so there is no need to configure and install any electromechanical modules during the rear-layer installation, so as to reduce the occurrence of work safety accidents.

Description

組合式含各層站電器線路之電梯井道模組Combined elevator shaft module with electrical circuits of various floors

本創作是提供一種組合式含各層站電器線路之電梯井道模組，主要是一種藉由複數層疊組裝之電梯井道模組，令本創作之該複數電梯井道模組及預先安裝完成的電器設備所包含的樓層外門、樓層顯示器、樓層按鈕及一機電模組所包含的中央控制部、第一線路部及第二線路部，透過組合支架及各該井道本體一端所延伸露出的該第一線路接端以快速線路電訊插接於另一層疊組構的井道本體所延伸露出的該第二線路接端，以達到每一井道本體之各該機電模組所設置的中央控制部能達到統一訊號的連線，以簡單地安裝於室內、室外的適當位置，且電梯為模組化分離，不須對建物進行任何施作的動機而構成本案，且本案所藉由複數層疊組裝之電梯井道模組所相對構成一組合式電梯中，皆將機電模組一併作前置配置完成，故不需再後置層置安裝時作任何機電模組的配置安裝，以降低工安意外的發生的結構設計。 This creation is to provide a combined elevator shaft module including electrical circuits of various floors, mainly an elevator shaft module assembled by stacking multiple layers, so that the multiple elevator shaft modules and pre-installed electrical equipment of this creation can be It includes the outer door of the floor, the floor display, the floor button and the central control part, the first circuit part and the second circuit part included in an electromechanical module, through the combination bracket and the first circuit extended from one end of the shaft body The terminal is connected to the second circuit terminal which is extended and exposed by the hoistway body of another stack structure by means of fast line telecommunication, so that the central control part of each electromechanical module of each hoistway body can achieve a unified signal This case is constructed by simply installing the appropriate indoor and outdoor locations, and the elevators are modularized and separated, and there is no need to perform any action on the building. In a combined elevator formed by the group, the electromechanical modules are all pre-configured together, so there is no need to configure and install any electromechanical modules during the post-layer installation, so as to reduce the occurrence of industrial safety accidents. Structural design.

按，一般習知組合式電梯結構，如第1圖所示，其係台灣申請案號第86213428專利所示，其係一種輕便型快速組合電梯，主要係以具有滑軌2及線槽之金屬板桿組各該組合部3呈三面而直接固設於各井道模組1，並於各井道模組1間將其互相鉚合而使之成為由上而下完全貫通之電梯室，再直接置入一具有簡易拉門之電梯車廂，施以配電佈纜並裝潢電梯室外圍後即完成；及一件台灣申請案號88200529，其係一種輕便型快速組合電梯(二)，係針對前案結構衍生之改良創作，主要以金屬骨架預先組裝完成作為電梯室之支撐體，再以調整裝置銜接固置各端滑軌，得以調整維持各樓層骨架之滑軌之垂直度，利用骨架外緣直接固置各種壁板即完成電梯室結構；上述二件習知專利僅是將骨架層疊建構成一電梯室，先以金屬骨架預先組裝完成作為電梯室之支撐體，再以調整裝置銜接固置各端滑軌，得以調整維持各樓層骨架之滑軌之垂直度，利用骨架外緣直接固置各種壁板即完成電梯室結構，然而上述習知專利後續仍需針對機電模組、中央控制部所延伸的複雜線路、樓層外門、樓層顯示器及樓層按鈕進行安裝架設工程，其工程皆屬於後置作業，基本上此種結構工法因受限於多樓層高度，如四~六層高度，或者是七~十層高度，在具有高度危險性質的高度建物的狀態下，容易因施工人員意外墜樓而造成傷亡，此種施工作法較無考慮到工安衍生的問題，對於骨架四周外觀加上壁板後，習知結構也要透過機具昇高人員進入骨架內部的內壁面加上壁板，此種作法在一較小活動範圍的空間中也較難以施工運作。 According to the conventional combined elevator structure, as shown in Figure 1, it is shown in Taiwan Patent Application No. 86213428, which is a portable high-speed combined elevator, mainly made of metal with sliding rails 2 and wire grooves Each of the combined parts 3 of the plate rod group has three sides and is directly fixed to each hoistway module 1, and is riveted with each other between each hoistway module 1 to make it an elevator room that is completely penetrated from top to bottom, and then directly connected to each other. After placing an elevator car with a simple sliding door, applying power distribution cables and decorating the periphery of the elevator room, it is completed; and a Taiwan application case No. 88200529, which is a portable high-speed combination elevator (2), which is aimed at the previous case. The improvement and creation derived from the structure are mainly pre-assembled with a metal frame as the support body of the elevator room, and then adjusted by the adjustment device. Connecting and fixing the slide rails at each end can adjust and maintain the verticality of the slide rails of each floor frame, and use the outer edge of the frame to directly fix various wall panels to complete the elevator cab structure; the above two prior patents are only stacking the frames. To form an elevator room, the metal frame is pre-assembled as the support body of the elevator room, and then the sliding rails at each end are connected and fixed with adjustment devices, so as to adjust and maintain the verticality of the sliding rails of the frame on each floor, and use the outer edge of the frame to directly fix it. The elevator room structure is completed by installing various wall panels. However, the above-mentioned conventional patents still require installation and erection works for the electromechanical modules, the complex circuits extended by the central control unit, the outer doors of the floors, the floor displays and the floor buttons. Post operation, basically this kind of structure construction method is limited by the height of multiple floors, such as the height of four to six floors, or the height of seven to ten floors, in the state of highly dangerous buildings, it is easy to cause accidents by construction personnel. Falling from the building causes casualties. This construction method does not take into account the problems arising from industrial safety. After adding the wall panels to the appearance of the frame, the conventional structure also needs to raise the personnel to enter the inner wall of the frame and add the wall panels through the machine. , this method is also more difficult to construct and operate in a space with a small range of activities.

本創作是提供一種組合式含各層站電器線路之電梯井道模組，包含：複數井道本體，分別概呈具有多邊形的中空形態，內部縱向形成一中空井道，該井道本體上下端部預定位置分別設有複數對應的組合支架，藉由各該組合支架令各該複數的井道本體相對層疊組構固定，另該井道本體其中一內壁預定位置設有複數導槽；各該井道本體之其中一端面預定位置分別設有一電器設備，該電器設備包含有一樓層外門，用以啟閉該井道本體外部與中空井道內部的連通或關閉，該樓層外門之頂端處預定位置設有一樓層顯示器，該樓層外門之一側邊預定位置設有一樓層按鈕；其中各該電器設備係分別電訊連接一機電模組，其中該機電模組包含有一中央控制部，藉由該中央控制部可控制各該井道本體之該樓層外門的自動啟閉，以及該樓層顯示器及該樓層按鈕的電性控制及電性顯示，該中央控制部並分別設有一第一線路部及一第二線路部，其中該第一線路部及該第二線路部之末端位置分別設有一第一線路接端及一第二線路接端，使該第一線路接端及該第二線路接端分別縱向延伸於該電梯井道之上下開口位置，其中該第一線路接端及該第二線路接端係互為公母快速插接頭型態，以使各該井道本體在層疊組構固定時，該其中一井道本體一端所延伸露出的該第一線路接端，係可線路電訊插接於另一層疊組構的井道本體所延伸露出的該第二線路接端，以達到每一井道本體之各該機電模組所設置的中央控制部能達到統一訊號的連線；一機械室，設於各該所層疊組構固定的井道本體最頂端位置，該機械室包含有一馬達驅動一重力輪，該重力輪係導滑作動一鋼索而使該鋼索相對該重力輪分設成二段，該二段分別界定為一第一鋼索段及一第二鋼索段，其中該第一鋼索段末端係連設一受力輪，另該第二鋼索段末端係連結複數重力塊，其中該重力塊兩側係分別導引配置一鋼軌；一車廂，頂端預定位置設一固定支點，該固定支點係固設於該第一鋼索段末端，該車廂對應該鋼軌一側設有相對引導滑動的導引軌，以使該車廂藉由該導引軌可上下直線滑動於該中空井道，且該車廂藉由頂端的固定支點而可受力於馬達及該重力輪驅動進行上下昇降動作，而該車廂對應每一層疊組構的井道本體所設置的樓層外門而設有一內門者；藉此，本創作藉由複數層疊組裝之電梯井道模組，令本創作之該複數電梯井道模組及預先安裝完成的電器設備所包含的樓層外門、樓層顯示器、樓層按鈕及一機電模組所包含的中央控制部、第一線路部及第二線路部，透過組合支架及各該井道本體一端所延伸露出的該第一線路接端以快速線路電訊插接於另一層疊組構的井道本體所延伸露出的該第二線路接端，以達到每一井道本體之各該機電模組所設置的中央控制部能達到統一訊號的連線，以簡單地安裝於室內、室外的適當位置，且電梯為模組化分離，不須對建物進行任何施作的動機而構成本案，且本案所藉由複數層疊組裝之電梯井道模組所相對構成一組合式電梯中，皆將機電模組一併作前置配置完成，故不需再後置層置安裝時作任何機電模組的配置安裝，以降低工安意外的發生。 This creation is to provide a combined elevator hoistway module with electrical circuits of various floors, including: a plurality of hoistway bodies, each of which has a polygonal hollow shape, and a hollow hoistway is formed longitudinally inside, and the upper and lower ends of the hoistway body are respectively set at predetermined positions. There are a plurality of corresponding combination brackets, and the plurality of well bodies are fixed relative to each other in a stacked structure by the combination brackets, and a plurality of guide grooves are arranged at a predetermined position on the inner wall of the well body; one end face of each well body is There is an electrical device at the predetermined position, and the electrical device includes a floor outer door for opening and closing the communication or closing between the outside of the hoistway body and the interior of the hollow hoistway. A floor button is arranged at a predetermined position on one side of the outer door; wherein each of the electrical equipment is connected to an electromechanical module by telecommunication respectively, wherein the electromechanical module includes a central control unit, and each of the wells can be controlled by the central control unit. The automatic opening and closing of the outer door of the floor of the road body, as well as the electrical control and electrical display of the floor indicator and the floor button, the central control part is also provided with a first circuit part and a second circuit part, wherein the The end positions of the first line part and the second line part are respectively provided with a first line end and a second line end, so that the first line end and the second line end respectively extend longitudinally in the elevator shaft The upper and lower opening positions, wherein the first circuit terminal and the second circuit terminal are in the form of male and female quick-plug joints, so that when each of the well bodies is fixed in a stacked configuration, one end of one of the well bodies is connected to each other. The extended and exposed first circuit terminal can be connected to the second circuit terminal extended and exposed by the hoistway body of another stack structure, so as to achieve the setting of each electromechanical module of each hoistway body The central control part can achieve the connection of unified signals; a mechanical room is located at the topmost position of the hoistway body fixed by the stacked structure, and the mechanical room includes a motor to drive a gravity wheel, and the gravity wheel train guides and slides. A steel cable is divided into two sections relative to the gravity wheel, and the two sections are respectively defined as a first cable section and a second cable section, wherein a load-bearing wheel is connected to the end of the first cable section, and the other The end of the second cable segment is connected with a plurality of gravity blocks, wherein two sides of the gravity block are respectively guided and arranged with a steel rail; a carriage has a fixed fulcrum at a predetermined position at the top, and the fixed fulcrum is fastened to the end of the first cable segment. , the side of the carriage corresponding to the rail is provided with a guide rail that guides and slides relatively, so that the carriage can slide up and down in the hollow shaft through the guide rail, and the carriage can be stressed by the fixed fulcrum at the top The motor and the gravity wheel drive up and down movements, and the car is provided with an inner door corresponding to the outer door of the floor set on the hoistway body of each layered structure; thus, this creation uses a plurality of elevator shafts assembled in layers. Modules, which include the floor outer doors, floor displays, floor buttons, and the central control unit, the first line unit, and the first circuit unit included in the multiple elevator shaft modules and the pre-installed electrical equipment in this creation. Two line parts, through the combination bracket and the first line terminal extended and exposed at one end of each well body, through the fast line telecommunication plug Connected to the second circuit terminal that is extended and exposed by the hoistway body of another layered structure, so that the central control part provided by each electromechanical module of each hoistway body can achieve a unified signal connection, so as to simply The elevators are installed at suitable positions indoors and outdoors, and the elevators are modularized and separated, so this case is constituted without any motivation to perform any action on the building. In this case, a plurality of elevator shaft modules assembled on top of each other constitute a combined type. In the elevator, the electromechanical modules are all pre-configured together, so there is no need to configure and install any electromechanical modules during the post-layer installation, so as to reduce the occurrence of industrial safety accidents.

習知部份： Knowledge part:

1:井道模組 1: Well module

2:滑槽 2: Chute

3:組合部 3: Combination Department

本創作部份： This creative part:

A:電梯井道模組 A: Elevator shaft module

10:井道本體 10: Well body

101:井道鋼骨 101: shaft steel frame

102:外飾層板 102: Exterior laminate

103:夾層空間 103: Mezzanine space

11:組合支架 11: Combination bracket

12:導槽 12: Guide groove

13:中空井道 13: Hollow shaft

20:電器設備 20: Electrical equipment

21:樓層顯示器 21: Floor Display

22:樓層外門 22: Floor exterior door

23:樓層按鈕 23: Floor button

30:機電模組 30: Electromechanical modules

31:中央控制部 31: Central Control Department

32:第一線路部 32: First Line Department

33:第一線路接端 33: The first line terminal

34:第二線路部 34: Second line department

35:第二線路接端 35: Second line terminal

40:機械室 40: Mechanical Room

41:馬達 41: Motor

42:重力輪 42: Gravity Wheel

43:第一鋼索段 43: The first cable segment

44:受力輪 44: Forced wheel

45:第二鋼索段 45: Second cable segment

46:鋼軌 46: Rails

47:重力塊 47: Gravity Block

50:車廂 50: Carriage

51:固定支點 51: Fixed pivot

52:導引軌 52: Guide rail

53:內門 53: Inner door

第1圖：係習知電梯井道的分解立體圖。 Figure 1: It is an exploded perspective view of a conventional elevator shaft.

第2圖：係本創作『組合式含各層站電器線路之電梯井道模組』的立體圖。 Picture 2: It is a three-dimensional view of the "Combined Elevator Shaft Module with Electrical Circuits at Various Floors" in this creation.

第3圖：係本創作『組合式含各層站電器線路之電梯井道模組』之分解立體圖。 Figure 3: It is an exploded perspective view of the "Combined Elevator Shaft Module with Electrical Circuits at Various Floors" in this creation.

第4圖：係本創作『組合式含各層站電器線路之電梯井道模組』之組合立體圖。 Figure 4: It is a combined perspective view of the "Combined elevator shaft module with electrical circuits of various floors" in this creation.

第5圖：係本創作『組合式含各層站電器線路之電梯井道模組』之局部剖視圖。 Figure 5: It is a partial cross-sectional view of the "Combined Elevator Shaft Module with Electrical Circuits at Various Floors" in this creation.

請參閱第2~5圖所示，是本創作組合式含各層站電器線路之電梯井道模組的較佳實施例並配合圖式，本創作的結構包含：複數井道本體10，分別概呈具有多邊形的中空形態，內部縱向形成一中空井道13，該井道本體10上下端部預定位置分別設有複數對應的組合支架11，藉由各該組合支架11令各該複數的井道本體10相對層疊組構固定，另該井道本體10其中一內壁預定位置設有複數導槽12；承上，各該井道本體10之其中一端面預定位置分別設有一電器設備20，該電器設備20包含有一樓層外門22，用以啟閉該井道本體10外部與中空井道13內部的連通或關閉，該樓層外門22之頂端處預定位置設有一樓層顯示器21，該樓層外門22之一側邊預定位置設有一樓層按鈕23；承上，其中各該電器設備20係分別電訊連接一機電模組30，其中該機電模組30包含有一中央控制部31，藉由該中央控制部31可控制各該井道本體10之該樓層外門22的自動啟閉，以及該樓層顯示器21及該樓層按鈕23的電性控制及電性顯示，該中央控制部31並分別設有一第一線路部32及一第二線路部34，其中該第一線路部32及該第二線路部34之末端位置分別設有一第一線路接端33及一第二線路接端35，使該第一線路接端33及該第二線路接端35分別縱向延伸於該中空井道13之上下開口位置，其中該第一線路接端33及該第二線路接端35係互為公母快速插接頭型態，以使各該井道本體10在層疊組構固定時，該其中一井道本體10一端所延伸露出的該第一線路接端33，係可線路電訊插接於另一層疊組構的井道本體10所延伸露出的該第二線路接端35，以達到每一井道本體10之各該機電模組30所設置的中央控制部31能達到統一訊號的連線；一機械室40，設於各該所層疊組構固定的井道本體10最頂端位置，該機械室40包含有一馬達41驅動一重力輪42，該重力輪42係導滑作動一鋼索而使該鋼索相對該重力輪42分設成二段，該二段分別界定為一第一鋼索段43及一第二鋼索段45，其中該第一鋼索段43末端係連設一受力輪44，另該第二鋼索段45末端係連結複數重力塊47，其中該重力塊47兩側係分別導引配置一鋼軌46；一車廂50，頂端預定位置設一固定支點51，該固定支點51係固設於該第一鋼索段43末端，該車廂50對應該鋼軌46一側設有相對引導滑動的導引軌52，以使該車廂50藉由該導引軌52可上下直線滑動於該中空井道13，且該車廂50藉由頂端的固定支點51而可受力於馬達41及該重力輪42驅動進行上下昇降動作，而該車廂50對應每一層疊組構的井道本體10所設置的樓層外門22而設有一內門53者。 Please refer to Figures 2 to 5, which are the preferred embodiments of the combined elevator shaft module including electrical circuits of various floors and are matched with the drawings. A polygonal hollow shape, a hollow shaft 13 is formed longitudinally inside, and a plurality of corresponding combination brackets 11 are respectively provided at the upper and lower ends of the hoistway body 10 at predetermined positions. The structure is fixed, and a plurality of guide grooves 12 are arranged at a predetermined position on the inner wall of the hoistway body 10; on the other hand, an electrical equipment 20 is respectively provided on a predetermined position of one end surface of the hoistway body 10, and the electrical equipment 20 includes a floor outside The door 22 is used to open and close the outside and the middle of the hoistway body 10 The interior of the empty shaft 13 is connected or closed, a floor display 21 is provided at a predetermined position at the top of the outer door 22 of the floor, and a floor button 23 is provided at a predetermined position on the side of the outer door 22 of the floor; 20 is respectively connected to an electromechanical module 30 by telecommunication, wherein the electromechanical module 30 includes a central control unit 31, and the central control unit 31 can control the automatic opening and closing of the outer door 22 of the floor of each well body 10, and For the electrical control and electrical display of the floor indicator 21 and the floor button 23 , the central control part 31 is provided with a first circuit part 32 and a second circuit part 34 respectively, wherein the first circuit part 32 and the second circuit part 34 are respectively provided. The end positions of the two line portions 34 are respectively provided with a first line terminal 33 and a second line terminal 35 , so that the first line terminal 33 and the second line terminal 35 extend longitudinally on the hollow shaft 13 respectively. The upper and lower opening positions, wherein the first line terminal 33 and the second line terminal 35 are in the form of male and female quick-plug joints, so that when each of the well bodies 10 is fixed in a stacked configuration, one of the well bodies The first circuit terminal 33 extended and exposed at one end of the 10 can be connected to the second circuit terminal 35 extended and exposed by the hoistway body 10 of another stack structure, so as to achieve the connection between each hoistway body 10 . The central control unit 31 of each of the electromechanical modules 30 can achieve a unified signal connection; a mechanical room 40 is located at the topmost position of each of the hoistway bodies 10 fixed by the stacked structure, and the mechanical room 40 includes a motor 41 drives a gravity wheel 42, the gravity wheel 42 guides and slides a wire rope so that the wire rope is divided into two sections relative to the gravity wheel 42, and the two sections are respectively defined as a first wire rope section 43 and a second wire rope section 45, wherein a force wheel 44 is connected to the end of the first wire rope section 43, and a plurality of gravity blocks 47 are connected to the end of the second wire rope section 45, wherein two sides of the gravity block 47 are respectively guided and arranged with a rail 46; A carriage 50 has a fixed fulcrum 51 at a predetermined position at the top. The fixed fulcrum 51 is fastened to the end of the first wire rope section 43 . The carriage 50 is provided with a guide for sliding relative to the side of the carriage 50 corresponding to the rail 46 . Guide rails 52 , so that the carriage 50 can slide up and down the hollow shaft 13 in a straight line through the guide rails 52 , and the carriage 50 can be driven by the motor 41 and the gravity wheel 42 through the fixed fulcrum 51 at the top The up-and-down movement is performed, and the car 50 is provided with an inner door 53 corresponding to the outer door 22 of the floor provided in the hoistway body 10 of each stacked structure.

繼而，該井道本體10之周邊壁面分別藉由複數井道鋼骨101及內外端面皆覆設有一外飾層板102，各該外飾層板102之間形成有一夾層空間103，令該機電模組30配置於該夾層空間103之預定位置。 Then, the peripheral wall surface of the hoistway body 10 is covered with an outer decorative laminate 102 by a plurality of hoistway steel frames 101 and the inner and outer end surfaces respectively, and an interlayer space 103 is formed between the outer decorative laminates 102, so that the electromechanical module can be installed. 30 is arranged at a predetermined position of the interlayer space 103 .

本創作藉由複數層疊組裝之電梯井道模組A，令本創作之該複數電梯井道模組A及預先安裝完成的電器設備20所包含的樓層外門22、樓層顯示器21、樓層按鈕23及一機電模組30所包含的中央控制部31、第一線路部32及第二線路部34，透過組合支架11及各該井道本體10一端所延伸露出的該第一線路接端33以快速線路電訊插接於另一層疊組構的井道本體10所延伸露出的該第二線路接端35，以達到每一井道本體10之各該機電模組30所設置的中央控制部31能達到統一訊號的連線，以簡單地安裝於室內、室外的適當位置，且電梯為模組化分離，不須對建物進行任何施作的動機而構成本案，且本案所藉由複數層疊組裝之電梯井道模組A所相對構成一組合式電梯中，皆將機電模組30一併作前置配置完成，故不需再後置層置安裝時作任何機電模組30的配置安裝，以降低工安意外的發生。 In this creation, a plurality of elevator shaft modules A are stacked and assembled, so that the plurality of elevator shaft modules A and the pre-installed electrical equipment 20 in this creation include the floor outer door 22, the floor display 21, the floor button 23 and a The central control part 31 , the first circuit part 32 and the second circuit part 34 included in the electromechanical module 30 are used for fast circuit telecommunication through the combination bracket 11 and the first circuit terminal 33 exposed from one end of the hoistway body 10 . The second circuit terminal 35 extended and exposed by the hoistway body 10 of another stacked structure is inserted, so that the central control part 31 of each electromechanical module 30 of each hoistway body 10 can achieve a unified signal. The connection line is simply installed at the appropriate position indoors and outdoors, and the elevator is modularized and separated, and this case is constituted without any motivation to perform any operation on the building, and this case is composed of multiple stacked elevator shaft modules. In a composite elevator formed by the opposite, the electromechanical modules 30 are all pre-configured together, so there is no need to configure and install any electromechanical modules 30 during the rear-layer installation, so as to reduce the risk of industrial safety accidents. occur.

A:電梯井道模組 A: Elevator shaft module

10:井道本體 10: Well body

11:組合支架 11: Combination bracket

12:導槽 12: Guide groove

13:中空井道 13: Hollow shaft

20:電器設備 20: Electrical equipment

21:樓層顯示器 21: Floor Display

22:樓層外門 22: Floor exterior door

23:樓層按鈕 23: Floor button

30:機電模組 30: Electromechanical modules

31:中央控制部 31: Central Control Department

32:第一線路部 32: First Line Department

33:第一線路接端 33: The first line terminal

34:第二線路部 34: Second line department

35:第二線路接端 35: Second line terminal

Claims

一種組合式含各層站電器線路之電梯井道模組，包含：複數井道本體，分別概呈具有多邊形的中空形態，內部縱向形成一中空井道，該井道本體上下端部預定位置分別設有複數對應的組合支架，藉由各該組合支架令各該複數的井道本體相對層疊組構固定，另該井道本體其中一內壁預定位置設有複數導槽；承上，各該井道本體之其中一端面預定位置分別設有一電器設備，該電器設備包含有一樓層外門，用以啟閉該井道本體外部與中空井道內部的連通或關閉，該樓層外門之頂端處預定位置設有一樓層顯示器，該樓層外門之一側邊預定位置設有一樓層按鈕；承上，其中各該電器設備係分別電訊連接一機電模組，其中該機電模組包含有一中央控制部，藉由該中央控制部可控制各該井道本體之該樓層外門的自動啟閉，以及該樓層顯示器及該樓層按鈕的電性控制及電性顯示，該中央控制部並分別設有一第一線路部及一第二線路部，其中該第一線路部及該第二線路部之末端位置分別設有一第一線路接端及一第二線路接端，使該第一線路接端及該第二線路接端分別縱向延伸於該中空井道之上下開口位置，其中該第一線路接端及該第二線路接端係互為公母快速插接頭型態，以使各該井道本體在層疊組構固定時，該其中一井道本體一端所延伸露出的該第一線路接端，係可線路電訊插接於另一層疊組構的井道本體所延伸露出的該第二線路接端，以達到每一井道本體之各該機電模組所設置的中央控制部能達到統一訊號的連線；一機械室，設於各該所層疊組構固定的井道本體最頂端位置，該機械室包含有一馬達驅動一重力輪，該重力輪係導滑作動一鋼索而使該鋼索相對該重力輪分設成二段，該二段分別界定為一第一鋼索段及一第二鋼索段，其中該第一鋼索段末端係連設一受力輪，另該第二鋼索段末端係連結複數重力塊，其中該重力塊兩側係分別導引配置一鋼軌；一車廂，頂端預定位置設一固定支點，該固定支點係固設於該第一鋼索段末端，該車廂對應該鋼軌一側設有相對引導滑動的導引軌，以使該車廂藉由該導引軌可上下直線滑動於該中空井道，且該車廂藉由頂端的固定支點而可受力於馬達及該重力輪驅動進行上下昇降動作，而該車廂對應每一層疊組構的井道本體所設置的樓層外門而設有一內門者。 A combined elevator hoistway module containing electrical circuits of various floors, comprising: a plurality of hoistway bodies, each in a hollow shape with a polygonal shape, a hollow hoistway is formed longitudinally inside, and the upper and lower ends of the hoistway body are respectively provided with a plurality of corresponding Combination brackets, through which the plurality of hoistway bodies are fixed relative to each other in a stacked structure, and a plurality of guide grooves are arranged at a predetermined position on the inner wall of the hoistway body; There is an electrical equipment at each location, and the electrical equipment includes an outer door on the floor to open or close the communication or closing between the outside of the hoistway body and the interior of the hollow hoistway. A floor button is arranged at a predetermined position on one side of the door; on the other hand, each of the electrical equipment is connected to an electromechanical module by telecommunication, wherein the electromechanical module includes a central control unit, through which the central control unit can control each of the The automatic opening and closing of the outer door of the floor of the hoistway body, as well as the electrical control and electrical display of the floor display and the floor button, the central control part is also provided with a first circuit part and a second circuit part, wherein the The end positions of the first line part and the second line part are respectively provided with a first line end and a second line end, so that the first line end and the second line end respectively extend longitudinally in the hollow shaft The upper and lower opening positions, wherein the first circuit terminal and the second circuit terminal are in the form of male and female quick-plug joints, so that when each of the well bodies is fixed in a stacked configuration, one end of one of the well bodies is connected to each other. The extended and exposed first circuit terminal can be connected to the second circuit terminal extended and exposed by the hoistway body of another stack structure, so as to achieve the setting of each electromechanical module of each hoistway body The central control part can achieve the connection of unified signals; a mechanical room is located at the topmost position of the hoistway body fixed by the stacked structure, and the mechanical room includes a motor to drive a gravity wheel, and the gravity wheel train guides and slides. a wire so that the wire is opposed to the gravity The wheel is divided into two sections, and the two sections are respectively defined as a first cable section and a second cable section, wherein the end of the first cable section is connected with a force wheel, and the end of the second cable section is connected with a plurality of A gravity block, wherein two sides of the gravity block are respectively guided and arranged with a steel rail; a carriage, a fixed fulcrum is set at a predetermined position at the top, the fixed fulcrum is fixed at the end of the first steel cable section, and the carriage corresponding to the side of the rail is provided with a fixed fulcrum. There are guide rails that guide and slide relative to each other, so that the carriage can slide up and down in the hollow shaft through the guide rails, and the carriage can be driven by the motor and the gravity wheel to move up and down through the fixed fulcrum at the top. Lifting action, and the car is provided with an inner door corresponding to the outer door of the floor set on the hoistway body of each stacked structure.

如請求項1所述之組合式含各層站電器線路之電梯井道模組，其中該井道本體之周邊壁面分別藉由複數井道鋼骨及內外端面皆覆設有一外飾層板，各該外飾層板之間形成有一夾層空間，令該機電模組配置於該夾層空間之預定位置。 The combined elevator hoistway module with electrical circuits of various floors as described in claim 1, wherein the peripheral wall of the hoistway body is covered with an outer decorative laminate by a plurality of hoistway steel frames and the inner and outer end surfaces, respectively. An interlayer space is formed between the layers, and the electromechanical module is arranged at a predetermined position of the interlayer space.