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WO2019180976A1 - Elevator car - Google Patents

Elevator car Download PDF

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Publication number
WO2019180976A1
WO2019180976A1 PCT/JP2018/015162 JP2018015162W WO2019180976A1 WO 2019180976 A1 WO2019180976 A1 WO 2019180976A1 JP 2018015162 W JP2018015162 W JP 2018015162W WO 2019180976 A1 WO2019180976 A1 WO 2019180976A1
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WO
WIPO (PCT)
Prior art keywords
car
sill
floor
car floor
fixed
Prior art date
Application number
PCT/JP2018/015162
Other languages
French (fr)
Japanese (ja)
Inventor
紘暢 鎌田
章吾 森永
純子 若森
嘉仁 赤尾
Original Assignee
三菱電機株式会社
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 三菱電機株式会社 filed Critical 三菱電機株式会社
Publication of WO2019180976A1 publication Critical patent/WO2019180976A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B11/00Main component parts of lifts in, or associated with, buildings or other structures
    • B66B11/02Cages, i.e. cars
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B13/00Doors, gates, or other apparatus controlling access to, or exit from, cages or lift well landings
    • B66B13/30Constructional features of doors or gates

Definitions

  • the present invention relates to a car in which a car floor is supported by a car support frame via an elastic body.
  • the present invention has been made to solve the above-described problems, and its object is to provide a car sill when an anti-vibration rubber (elastic body) provided between a car floor and a car support frame is displaced. It is to provide a car that eliminates the level difference between the car floor and the car floor.
  • the elevator car comprises a car floor on which the car is installed, a car sill that guides the opening and closing of the car door, and a floor support frame that supports the car floor via an elastic body, and supports the car sill.
  • a car that is fixed to the floor support frame and is arranged independently of the car floor, the elastic body is compressed and the car is against the car sill.
  • a closing means for closing a step formed between the car floor and the car sill is provided.
  • Embodiment 1 is a side view showing an entire car according to Embodiment 1 of the present invention. It is an enlarged view (side view) which shows the principal part of the passenger car (no car floor displacement) of FIG. 1 by Embodiment 1 of this invention. It is an enlarged view (side view) which shows the principal part of the passenger car (with a car floor displacement) of FIG. 1 by Embodiment 1 of this invention. It is a side view which shows the principal part of the passenger car (with no car floor displacement) of FIG. 1 by Embodiment 2 of this invention. It is a side view which shows the principal part of the car (with a car floor displacement) of FIG. 1 by Embodiment 2 of this invention.
  • FIG. FIGS. 1 to 3 illustrate an elevator car according to Embodiment 1 of the present invention.
  • FIG. 1 is a side view showing the entire car
  • FIG. 2 is the car of FIG. 1 (no car floor displacement).
  • FIG. 3 is an enlarged view (side view) showing the main part of the car (with car floor displacement) in FIG. 1.
  • a door motor or the like is not shown as an elevator car device.
  • a car 1 includes a car frame 2, a car floor 3, a car room 4, and a car door 5.
  • the car frame 2 is formed by assembling an upper beam 6, a lower beam 7, and a pair of left and right vertical frames 8 into a frame shape.
  • the upper beam 6 extends in the horizontal direction above the cab 4.
  • the lower beam 7 extends in the horizontal direction below the cab 4.
  • the pair of vertical frames 8 extend in the vertical direction between both ends of the upper beam 6 and both ends of the lower beam 7.
  • a car floor support frame 9 on which the car floor 3 can be placed is provided on the lower beam 7 of the car frame 2.
  • the basket car floor 3 is installed on the car floor support frame 9.
  • a vibration isolator 10 formed of an elastic body is provided between the car floor 3 and the car floor support frame 9. Since the lower surface of the car floor 3 is elastically supported by the vibration isolator 10, the car floor 3 is displaced in a direction approaching the car floor support frame 9 when an in-car load, that is, a load in the car room 4 is applied.
  • the car room 4 is formed in a box shape and is installed on the car floor 3.
  • the car room 4 has a car door 5 that opens and closes an entrance through which the user enters and exits the hall 11.
  • the car door 5 is suspended from the car door device 12 and is engaged so as to be openable and closable.
  • a car sill 13 that guides the opening and closing of the car door 5 is provided below the car door 5, a car sill 13 that guides the opening and closing of the car door 5 is provided below the car door 5, a car sill 13 that guides the opening and closing of the car door 5 is provided below the car door 5, a car sill 13 that guides the opening and closing of the car door 5 is provided.
  • the car sill 13 is fixed to the car floor support frame 9 via a sill receiving beam 14, and extends along the frontage direction of the car 1.
  • FIG. 2 shows a state where a load in the car room 4 is not applied to the vibration isolator 10, that is, a state where the car floor 3 is in the normal position.
  • FIG. 3 shows a state where the load in the car room 4 is applied to the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward.
  • a blocking plate 15 is provided between the car sill 13 and the car floor 3.
  • the closing plate 15 is provided with a fixed portion 16 that is fixed to the car sill 13 and an inclined portion 17 that is disposed in contact with the car floor 3 between the fixed portion 16 and the inclined portion 17.
  • the hinge portion 18 is disposed near the car sill 13 between the fixed portion 16 and the inclined portion 17, and supports the fixed portion 16 and the inclined portion 17 so as to be rotatable with respect to each other.
  • the inclined portion 17 is horizontally arranged when the height of the car sill 13 and the car floor 3 is the same, and when the car floor 3 is displaced downward, an inclined surface descending from the car sill 13 toward the car floor 3 is formed. It is formed.
  • the car floor 3 side of the inclined portion 17 is not fixed and is arranged in contact with the car floor 3.
  • the step generated when the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13 is closed by the closing plate 15 and is inclined to the inclined portion 17 of the closing plate 15. Is formed. Therefore, when the user or the like enters / exits the hall 11 from the inside of the car room 4, the user or the like moves along the fixing portion 16 and the inclined portion 17 of the closing plate 15, so that the user can move without going through this step.
  • the car floor 3 is supported via the car floor 3 on which the car 1 is installed, the car sill 13 that guides the opening and closing of the door 5 of the car 1, and the vibration isolator 10.
  • a ride comprising a floor support frame 9 and having a sill receiving beam 14 for supporting a car sill 13, the sill receiving beam 14 being fixed to the floor support frame 9 and arranged independently of the car floor 3.
  • the vibration isolator 10 is compressed by providing the closing plate 15 that closes the step formed between the car floor 3 and the car sill 13, so that the car floor 3 is compressed against the car sill 13.
  • the car 1 that eliminates the step can be provided.
  • the closing plate 15 is arranged such that one is fixed to the car sill 13 and the other is in contact with the car floor 3, and from the car sill 13 side.
  • An inclined portion 17 having an inclined surface descending toward the car floor 3 side, and a hinge portion 18 provided between the fixed portion 16 and the inclined portion 17 and rotatably supporting the fixed portion 16 and the inclined portion 17.
  • FIG. 4 to 5 illustrate an elevator car according to Embodiment 2 of the present invention.
  • FIG. 4 is a side view showing the main part of the car (no car floor displacement) in FIG. 1, and FIG. It is a side view which shows the principal part of 1 riding car (with a car floor displacement).
  • the elevator car according to the second embodiment of the present invention is different from the elevator car according to the second embodiment in that a second fixing portion and a second hinge portion are provided in the main part, and the same symbols are added to the other similar parts. Description is omitted.
  • FIG. 4 shows a state where the load in the car room 4 is not applied to the vibration isolator 10, that is, a state where the car floor 3 is in the normal position.
  • FIG. 5 shows a state where the load in the car room 4 acts on the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward.
  • a blocking plate 19 is provided between the car sill 13 and the car floor 3.
  • the closing plate 19 is provided with a fixed portion 20 that is fixed to the car floor 3 and an inclined portion 17 that is disposed between the fixed portion 16 and the fixed portion 20.
  • a hinge portion 21 is provided between the portion 17.
  • the hinge portion 21 is disposed near the car floor 3 between the fixed portion 20 and the inclined portion 17, and supports the fixed portion 20 and the inclined portion 17 so as to be rotatable with respect to each other.
  • the inclined portion 17 is horizontally arranged when the height of the car sill 13 and the car floor 3 is the same, and when the car floor 3 is displaced downward, an inclined surface descending from the car sill 13 toward the car floor 3 is formed. It is formed.
  • a member that supports the car sill 13 and supports the closing plate 19 is formed on the sill receiving beam 22 fixed to the car floor support frame 9.
  • An elastic body 23 is disposed between the inclined portion 17 and the threshold receiving beam 22 and immediately below the inclined portion 17. The elastic body 23 is always arranged in a compressed state so as to be in close contact with both surfaces of the inclined portion 17 and the threshold receiving beam 22.
  • the step formed when the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13 is closed by the closing plate 19 and is inclined to the inclined portion 17 of the closing plate 19. Therefore, the user or the like moves along the fixed portion 16, the inclined portion 17, and the fixed portion 20 of the closing plate 19 when entering and exiting the landing 11 from the cab 4.
  • the inclined portion 17 may be deformed when a large load is applied to the closing plate 19 such as a wheel such as a carriage passes. Therefore, the elastic body 23 arranged immediately below the inclined portion 17 receives a large load acting by passing a carriage or the like, thereby preventing the inclined portion 17 from being deformed.
  • the closing plate 19 includes one fixed portion 20 that is fixed to the car floor 3, the inclined portion 17 that is disposed between the fixed portion 16 and the fixed portion 20, A hinge portion 21 provided between the fixed portion 20 and the inclined portion 17 and rotatably supporting the fixed portion 20 and the inclined portion 17; and fixed between the inclined portion 17 and the threshold receiving beam 22.
  • the car 1 When entering / exiting the landing 11 from the inside, it can be easily moved without going over the step and the closing plate 19. Further, when a large load is applied to the blocking plate 19 due to the passage of a carriage or the like, the car 1 that can prevent the inclined portion 17 from being deformed by the sill receiving beam 22 receiving the load via the elastic body 23 is provided. be able to.
  • FIG. 6 to 8 illustrate an elevator car according to Embodiment 3 of the present invention.
  • FIG. 6 is a side view showing the main part of the car (no car floor displacement) in FIG. 1, and FIG. It is a side view which shows the principal part of 1 riding car (with a car floor displacement).
  • FIG. 8 is an enlarged view (plan view) showing a main part of the car of FIG.
  • the elevator car according to the third embodiment of the present invention is different in the structure of the blocking means for eliminating the step generated between the car sill and the car floor, and the same symbols are added to the other similar parts and the description is omitted. To do.
  • FIG. 6 shows a state where the load in the car room 4 is not applied to the vibration isolator 10, that is, the car floor 3 is in the normal position.
  • FIG. 7 shows a state where the load in the car room 4 is applied to the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward. Between the car sill 13 and the car floor 3, a pair of a closing body 24 and a closing body 25 are provided.
  • the closing body 24 is provided on the side surface of the car floor 3 disposed to face the car sill 13, and is provided with a comb portion 26 having a horizontal surface formed in a comb shape.
  • the obstruction body 25 is provided on a side surface of the car sill 13 disposed to face the obstruction body 24, can be engaged with the comb portion 26, and has an inclined surface that descends from the car sill 13 side toward the car floor 3.
  • a notch portion 27 is provided.
  • the position of the upper end surface of the comb portion 26 is arranged at substantially the same height as the position of the upper end surface of the car sill 13.
  • the comb portions 26 and the cutout portions 27 are alternately arranged and engaged with each other so as to be movable up and down, and when viewed from the horizontal direction, the inclined surface of the cutout portion 27 substantially overlaps the comb portion 26.
  • the inclined surface of the notch 27 is not substantially exposed when viewed from the upper end surface of the car sill 13. In this state, there is no step between the car sill 13 and the car floor 3 and the inclined surface of the notch 27 is not exposed. , You can easily get in and out of the hall 11 from the car room 4.
  • the comb portion 26 When the position of the car floor 3 is lowered with respect to the car sill 13, the comb portion 26 is also displaced in conjunction with the car floor 3 in the downward direction.
  • the cutout portion 27 is not affected by the displacement of the comb portion 26, and thus the position thereof is maintained. That is, when the comb part 26 is displaced downward, the inclined surface of the notch part 27 is relatively exposed. At this time, when viewed from the horizontal direction, when the horizontal plane of the comb portion 26 is displaced downward, the horizontal plane gradually overlaps the inclined surface of the cutout portion 27 and the cutout portion 27 of the closing body 25 is relatively exposed. Therefore, a downward inclined surface is formed from the car sill 13 side toward the car floor 3 side.
  • the pair of closing bodies 24 that are alternately arranged in the horizontal direction and engage with each other so as to be movable up and down are provided on the side where the closing body 24 is engaged.
  • a comb portion 26 formed in a comb shape and a notch portion 27 engageable with the comb portion 26 on the other side are provided.
  • the comb portion 26 is provided on the car floor 3, and the notch portion 27 is provided on the car sill 13.
  • the notch 27 is provided with an inclined surface descending from the car sill 13 side toward the car floor 3, and the comb portion 26 has a horizontal surface that can be alternately engaged with the inclined surface, whereby the car sill is provided.
  • the inclined portion 17 of the closing plate 15 is disposed in contact with the car floor 3, but a twist spring or the like is provided on the hinge portion 18 so that the inclined portion 17 biases the car floor 3. And may be configured to be pressed. Thereby, when a user etc. pass the obstruction board 15, it can be used stably by suppressing the jumping of the inclined part 17.
  • the notch 27 is provided on the side surface of the car sill 13, but the same operation and effect can be obtained even if it is configured to be directly fixed to the sill receiving beam 14 or the car floor support frame 9. Needless to say.
  • the present invention relates to a car in which a car floor is supported by a car support frame via an elastic body.

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Structural Engineering (AREA)
  • Elevator Door Apparatuses (AREA)

Abstract

This elevator car comprises a car floor where the car is installed, a car sill for guiding opening and closing of the door of the car, and a floor support frame supporting the car floor with an elastic body interposed therebetween, and has a sill beam which supports the car sill, wherein the sill beam is fixed to the floor support frame and is arranged independently of the car floor; the elevator car is characterized by being provided with a closing means for closing the difference in level formed between the car floor and the car sill when the elastic body is compressed and the car floor is positioned lower than the car sill.

Description

エレベータの乗りかごElevator car
この発明は、かご床が弾性体を介してかご支持枠に支持される乗りかごに関するものである。 The present invention relates to a car in which a car floor is supported by a car support frame via an elastic body.
かご敷居をかご床とは別個に固定することにより、乗かご内に乗客がいて防振ゴム(弾性体)が変位しても、かごドアとかご敷居との間隔を一定に保ち得るエレベータ乗かごの敷居取付装置(特許文献1)がある。 By fixing the car sill separately from the car floor, even if there are passengers in the car and the anti-vibration rubber (elastic body) is displaced, the elevator car can keep the distance between the car door and the car sill constant There is a sill mounting device (Patent Document 1).
特開昭52-99545JP 52-99545 A
しかしながら、このようなエレベータの敷居取付装置では、かご床とかご支持枠との間に設けた防振ゴムが変位したとき、かご敷居とかご床との間に設けたバッキング(弾性体)には付勢力が作用する。この付勢力によってバッキングが変位した場合、かご敷居とかご床との間に段差が生じることがある。このとき、利用者が乗りかごを出入する際、この段差に躓いて転倒するという課題があった。 However, in such an elevator sill mounting device, when the anti-vibration rubber provided between the car floor and the car support frame is displaced, the backing (elastic body) provided between the car sill and the car floor A biasing force acts. When the backing is displaced by this urging force, a step may be generated between the car sill and the car floor. At this time, when the user enters and exits the car, there is a problem that the user falls over the step and falls.
この発明は、上記のような課題を解決するためになされたものであり、その目的は、かご床とかご支持枠との間に設けた防振ゴム(弾性体)が変位したとき、かご敷居とかご床との間に生じる段差を解消する乗りかごを提供することである。 The present invention has been made to solve the above-described problems, and its object is to provide a car sill when an anti-vibration rubber (elastic body) provided between a car floor and a car support frame is displaced. It is to provide a car that eliminates the level difference between the car floor and the car floor.
この発明にかかるエレベータの乗りかごは、乗りかごを設置したかご床、乗りかごの戸の開閉を案内するかご敷居、弾性体を介してかご床を支持した床支持枠より成り、かご敷居を支持する敷居受け梁を有し、敷居受け梁は床支持枠に固定されていると共にかご床とは互いに独立して配置されている乗りかごにおいて、弾性体が圧縮されて、かご敷居に対してかご床の位置が低くなったとき、かご床とかご敷居との間に形成される段差を閉塞する閉塞手段を備えたことを特徴とするものである。 The elevator car according to the present invention comprises a car floor on which the car is installed, a car sill that guides the opening and closing of the car door, and a floor support frame that supports the car floor via an elastic body, and supports the car sill. In a car that is fixed to the floor support frame and is arranged independently of the car floor, the elastic body is compressed and the car is against the car sill. When the position of the floor is lowered, a closing means for closing a step formed between the car floor and the car sill is provided.
この発明は、かご床とかご支持枠との間に設けた防振ゴム(弾性体)が変形したとき、かご敷居とかご床との間に生じる段差を解消する乗りかごを実現できる。 According to the present invention, when a vibration-proof rubber (elastic body) provided between the car floor and the car support frame is deformed, a car that eliminates a step generated between the car sill and the car floor can be realized.
この発明の実施の形態1による乗りかご全体を示す側面図である。1 is a side view showing an entire car according to Embodiment 1 of the present invention. この発明の実施の形態1による図1の乗りかご(かご床変位無し)の要部を示す拡大図(側面図)である。It is an enlarged view (side view) which shows the principal part of the passenger car (no car floor displacement) of FIG. 1 by Embodiment 1 of this invention. この発明の実施の形態1による図1の乗りかご(かご床変位有り)の要部を示す拡大図(側面図)である。It is an enlarged view (side view) which shows the principal part of the passenger car (with a car floor displacement) of FIG. 1 by Embodiment 1 of this invention. この発明の実施の形態2による図1の乗りかご(かご床変位無し)の要部を示す側面図である。It is a side view which shows the principal part of the passenger car (with no car floor displacement) of FIG. 1 by Embodiment 2 of this invention. この発明の実施の形態2による図1の乗りかご(かご床変位有り)の要部を示す側面図である。It is a side view which shows the principal part of the car (with a car floor displacement) of FIG. 1 by Embodiment 2 of this invention. この発明の実施の形態3による図1の乗りかご(かご床変位無し)の要部を示す側面図である。It is a side view which shows the principal part of the passenger car (no car floor displacement) of FIG. 1 by Embodiment 3 of this invention. この発明の実施の形態3による図1の乗りかご(かご床変位有り)の要部を示す側面図である。It is a side view which shows the principal part of the car (with a car floor displacement) of FIG. 1 by Embodiment 3 of this invention. この発明の実施の形態3による図1の乗りかごの要部を示す拡大図(平面図)である。It is an enlarged view (plan view) showing a main part of the car of FIG. 1 according to Embodiment 3 of the present invention.
実施の形態1.
図1~3は、この発明の実施の形態1によるエレベータの乗りかごを説明するもので、図1は乗りかご全体を示す側面図、図2は図1の乗りかご(かご床変位無し)の要部を示す拡大図(側面図)、図3は図1の乗りかご(かご床変位有り)の要部を示す拡大図(側面図)である。なお、エレベータのかご機器としてドアモータ等は図示を省略している。
Embodiment 1 FIG.
FIGS. 1 to 3 illustrate an elevator car according to Embodiment 1 of the present invention. FIG. 1 is a side view showing the entire car, and FIG. 2 is the car of FIG. 1 (no car floor displacement). FIG. 3 is an enlarged view (side view) showing the main part of the car (with car floor displacement) in FIG. 1. A door motor or the like is not shown as an elevator car device.
図1において、乗かご1は、かご枠2、かご床3、かご室4、および乗かごドア5を備える。かご枠2は、上梁6、下梁7、および左右一対の縦枠8が枠状に組まれることで形成されている。上梁6は、かご室4の上方において水平方向に延びている。下梁7は、かご室4の下方において水平方向に延びている。一対の縦枠8は、上梁6の両端部と下梁7の両端部との間それぞれに鉛直方向に延びている。かご枠2の下梁7の上には、かご床3が載置可能なかご床支持枠9が設けられている。 かご床3は、かご床支持枠9の上に設置されている。 In FIG. 1, a car 1 includes a car frame 2, a car floor 3, a car room 4, and a car door 5. The car frame 2 is formed by assembling an upper beam 6, a lower beam 7, and a pair of left and right vertical frames 8 into a frame shape. The upper beam 6 extends in the horizontal direction above the cab 4. The lower beam 7 extends in the horizontal direction below the cab 4. The pair of vertical frames 8 extend in the vertical direction between both ends of the upper beam 6 and both ends of the lower beam 7. A car floor support frame 9 on which the car floor 3 can be placed is provided on the lower beam 7 of the car frame 2. The basket car floor 3 is installed on the car floor support frame 9.
かご床3とかご床支持枠9との間には弾性体で形成された防振体10が設けられている。かご床3は、下面が防振体10によって弾性支持されているため、かご内荷重、すなわち、かご室4内の荷重が作用したとき、かご床支持枠9に対して近づく方向に変位する。かご室4は、箱状に形成されるとともに、かご床3の上に設置されている。 A vibration isolator 10 formed of an elastic body is provided between the car floor 3 and the car floor support frame 9. Since the lower surface of the car floor 3 is elastically supported by the vibration isolator 10, the car floor 3 is displaced in a direction approaching the car floor support frame 9 when an in-car load, that is, a load in the car room 4 is applied. The car room 4 is formed in a box shape and is installed on the car floor 3.
かご室4は、利用者が乗場11に出入りする出入口を開閉する乗かごドア5を有する。乗かごドア5は、かごドア装置12に吊られていると共に開閉可能に係合されている。乗かごドア5の下方には、乗りかごドア5の開閉を案内するかご敷居13が設けられている。かご敷居13は、敷居受け梁14を介してかご床支持枠9に固定されているとともに、乗かご1の間口方向に沿って延びている。  The car room 4 has a car door 5 that opens and closes an entrance through which the user enters and exits the hall 11. The car door 5 is suspended from the car door device 12 and is engaged so as to be openable and closable. Below the car door 5, a car sill 13 that guides the opening and closing of the car door 5 is provided. The car sill 13 is fixed to the car floor support frame 9 via a sill receiving beam 14, and extends along the frontage direction of the car 1.
図2は防振体10にかご室4内の荷重が作用していない状態、すなわち、かご床3が通常位置にある状態を示している。図3は防振体10にかご室4内の荷重が作用して、防振体10が圧縮されている状態、すなわち、かご床3が下方に変位した状態を示している。かご敷居13とかご床3との間には、閉塞板15が設けられている。 FIG. 2 shows a state where a load in the car room 4 is not applied to the vibration isolator 10, that is, a state where the car floor 3 is in the normal position. FIG. 3 shows a state where the load in the car room 4 is applied to the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward. A blocking plate 15 is provided between the car sill 13 and the car floor 3.
閉塞板15には、一方がかご敷居13に固定される固定部16と、他方がかご床3に当接して配置される傾斜部17とが設けられ、固定部16と傾斜部17との間にはヒンジ部18が設けられている。ヒンジ部18は、固定部16と傾斜部17との間でかご敷居13側寄りに配置されており、固定部16と傾斜部17とを互いに回動自在に支持している。傾斜部17は、かご敷居13とかご床3との高さが同じ場合は水平に配置され、かご床3が下方に変位した場合、かご敷居13からかご床3に向かって下りの傾斜面が形成される。傾斜部17のかご床3側は固定されておらず、かご床3に当接した状態で配置されている。 The closing plate 15 is provided with a fixed portion 16 that is fixed to the car sill 13 and an inclined portion 17 that is disposed in contact with the car floor 3 between the fixed portion 16 and the inclined portion 17. Is provided with a hinge portion 18. The hinge portion 18 is disposed near the car sill 13 between the fixed portion 16 and the inclined portion 17, and supports the fixed portion 16 and the inclined portion 17 so as to be rotatable with respect to each other. The inclined portion 17 is horizontally arranged when the height of the car sill 13 and the car floor 3 is the same, and when the car floor 3 is displaced downward, an inclined surface descending from the car sill 13 toward the car floor 3 is formed. It is formed. The car floor 3 side of the inclined portion 17 is not fixed and is arranged in contact with the car floor 3.
次に、上記のように構成された実施の形態1の動作について説明する。かご室4内に利用者等が乗降する場合または利用者等がかご室4内で移動した場合、かご床3には下方向に付勢される荷重が作用する。この荷重は、かご床3を介して防振体10を圧縮する方向に作用すると共に、防振体10が圧縮されることで吸収される。ここで、この荷重は、かご床3からかご床支持枠9に作用しないため、かご枠2を懸吊するロープ(図示しない)にも作用しない。これにより、乗りかご1の走行時や利用者の乗降時に発生する振動を抑えられるため、乗り心地を改善している。さらに、かご敷居13は、敷居受け梁14を介してかご床支持枠9に固定されているため、この荷重がかご床支持枠9に作用しない限り、影響を受けることはない。そのため、この荷重がかご床3に作用しても、乗りかごドア5がかご敷居13から外れることなく、安定した開閉動作を実現している。 Next, the operation of the first embodiment configured as described above will be described. When a user or the like gets in or out of the car room 4 or when the user or the like moves in the car room 4, a downwardly biased load is applied to the car floor 3. The load acts in the direction of compressing the vibration isolator 10 via the car floor 3 and is absorbed by the vibration isolator 10 being compressed. Here, since this load does not act on the car floor support frame 9 from the car floor 3, it does not act on a rope (not shown) for suspending the car frame 2. As a result, the vibration generated when the car 1 is traveling or when the user gets on and off can be suppressed, so that the riding comfort is improved. Further, since the car sill 13 is fixed to the car floor support frame 9 via the sill receiving beam 14, it is not affected unless this load acts on the car floor support frame 9. Therefore, even if this load acts on the car floor 3, the car door 5 does not come off from the car sill 13 and a stable opening / closing operation is realized.
一方で、この荷重がかご床3に作用したとき、かご敷居13は変位しないが、かご床3は防振体10が圧縮されると共に下方に変位するため、かご敷居13に対してかご床3の位置が低くなる場合があり、このとき、かご敷居13とかご床3との間に段差が発生する。この段差の直上には、閉塞板15が配置されており、段差が発生したとき、閉塞板15の傾斜部17は、一方がかご床3の上面に当接しながら、固定部16側がヒンジ部18で時計方向に回動する。このとき、閉塞板15の固定部16は、かご敷居13と共に水平状態を維持し、傾斜部17にはヒンジ部18からかご床3側に向かって下りの傾斜面が形成される。すなわち、防振体10が圧縮されて、かご敷居13に対してかご床3の位置が低くなったとき生じる段差は、閉塞板15によって閉塞されると共に、閉塞板15の傾斜部17に傾斜面が形成される。そのため、利用者等はかご室4内から乗場11に出入りするとき、閉塞板15の固定部16及び傾斜部17に沿って移動することにより、この段差に躓くことなく移動できる。 On the other hand, when this load is applied to the car floor 3, the car sill 13 is not displaced, but the car floor 3 is displaced downward as the vibration isolator 10 is compressed. In this case, a step is generated between the car sill 13 and the car floor 3. A closing plate 15 is disposed immediately above the step, and when the step occurs, the inclined portion 17 of the closing plate 15 is in contact with the upper surface of the car floor 3 while the fixed portion 16 side is on the hinge portion 18. To rotate clockwise. At this time, the fixing portion 16 of the closing plate 15 maintains the horizontal state together with the car sill 13, and the inclined portion 17 is formed with a downward inclined surface from the hinge portion 18 toward the car floor 3 side. That is, the step generated when the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13 is closed by the closing plate 15 and is inclined to the inclined portion 17 of the closing plate 15. Is formed. Therefore, when the user or the like enters / exits the hall 11 from the inside of the car room 4, the user or the like moves along the fixing portion 16 and the inclined portion 17 of the closing plate 15, so that the user can move without going through this step.
上記のように実施の形態1によれば、乗りかご1を設置したかご床3、乗りかご1の戸5の開閉を案内するかご敷居13、防振体10を介してかご床3を支持した床支持枠9より成り、かご敷居13を支持する敷居受け梁14を有し、敷居受け梁14は床支持枠9に固定されていると共にかご床3とは互いに独立して配置されている乗りかご1において、かご床3とかご敷居13との間に形成される段差を閉塞する閉塞板15を備えたことによって、防振体10が圧縮されて、かご敷居13に対してかご床3の位置が低くなったとき、かご敷居13とかご床3との間に生じる段差を閉塞することで、この段差を解消する乗りかご1を提供することができる。 As described above, according to the first embodiment, the car floor 3 is supported via the car floor 3 on which the car 1 is installed, the car sill 13 that guides the opening and closing of the door 5 of the car 1, and the vibration isolator 10. A ride comprising a floor support frame 9 and having a sill receiving beam 14 for supporting a car sill 13, the sill receiving beam 14 being fixed to the floor support frame 9 and arranged independently of the car floor 3. In the car 1, the vibration isolator 10 is compressed by providing the closing plate 15 that closes the step formed between the car floor 3 and the car sill 13, so that the car floor 3 is compressed against the car sill 13. When the position is lowered, by closing the step formed between the car sill 13 and the car floor 3, the car 1 that eliminates the step can be provided.
また、上記のように実施の形態1によれば、閉塞板15は、一方がかご敷居13に固定される固定部16と、他方がかご床3に当接して配置され、かご敷居13側からかご床3側に向かって下る傾斜面を有する傾斜部17と、固定部16と傾斜部17との間に設けられ、固定部16と傾斜部17とを互いに回動自在に支持するヒンジ部18と、を備えたことによって、防振体10が圧縮されて、かご敷居13に対してかご床3の位置が低くなったとき、かご敷居13とかご床3との間に生じる段差を解消する乗りかご1を提供することができる。また、この段差が閉塞板15によって閉塞されることによって、利用者等はかご室4内から乗場11に出入りするとき、閉塞板15の傾斜部17に沿って移動するため、この段差に躓くことなく容易に移動できる。 Further, as described above, according to the first embodiment, the closing plate 15 is arranged such that one is fixed to the car sill 13 and the other is in contact with the car floor 3, and from the car sill 13 side. An inclined portion 17 having an inclined surface descending toward the car floor 3 side, and a hinge portion 18 provided between the fixed portion 16 and the inclined portion 17 and rotatably supporting the fixed portion 16 and the inclined portion 17. When the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13, the step generated between the car sill 13 and the car floor 3 is eliminated. A car 1 can be provided. Further, when this step is closed by the closing plate 15, the user or the like moves along the inclined portion 17 of the closing plate 15 when entering or exiting the landing 11 from the inside of the car room 4. Can be moved easily.
実施の形態2.
図4~5は、この発明の実施の形態2によるエレベータの乗りかごを説明するもので、図4は図1の乗りかご(かご床変位無し)の要部を示す側面図、図5は図1の乗りかご(かご床変位有り)の要部を示す側面図である。この発明の実施の形態2によるエレベータの乗りかごは、要部に第二の固定部と第二のヒンジ部とが設けられていることが異なり、それ以外の同様な部分に同じ記号を付記し説明を省略する。
Embodiment 2. FIG.
4 to 5 illustrate an elevator car according to Embodiment 2 of the present invention. FIG. 4 is a side view showing the main part of the car (no car floor displacement) in FIG. 1, and FIG. It is a side view which shows the principal part of 1 riding car (with a car floor displacement). The elevator car according to the second embodiment of the present invention is different from the elevator car according to the second embodiment in that a second fixing portion and a second hinge portion are provided in the main part, and the same symbols are added to the other similar parts. Description is omitted.
図4は防振体10にかご室4内の荷重が作用していない状態、すなわち、かご床3が通常位置にある状態を示している。図5は防振体10にかご室4内の荷重が作用して、防振体10が圧縮されている状態、すなわち、かご床3が下方に変位した状態を示している。かご敷居13とかご床3との間には、閉塞板19が設けられている。 FIG. 4 shows a state where the load in the car room 4 is not applied to the vibration isolator 10, that is, a state where the car floor 3 is in the normal position. FIG. 5 shows a state where the load in the car room 4 acts on the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward. A blocking plate 19 is provided between the car sill 13 and the car floor 3.
図において、閉塞板19には、一方がかご床3に固定される固定部20と、固定部16と固定部20との間に配置される傾斜部17とが設けられ、固定部20と傾斜部17との間にはヒンジ部21が設けられている。ヒンジ部21は、固定部20と傾斜部17との間でかご床3側寄りに配置されており、固定部20と傾斜部17とを互いに回動自在に支持している。傾斜部17は、かご敷居13とかご床3との高さが同じ場合は水平に配置され、かご床3が下方に変位した場合、かご敷居13からかご床3に向かって下りの傾斜面が形成される。 In the figure, the closing plate 19 is provided with a fixed portion 20 that is fixed to the car floor 3 and an inclined portion 17 that is disposed between the fixed portion 16 and the fixed portion 20. A hinge portion 21 is provided between the portion 17. The hinge portion 21 is disposed near the car floor 3 between the fixed portion 20 and the inclined portion 17, and supports the fixed portion 20 and the inclined portion 17 so as to be rotatable with respect to each other. The inclined portion 17 is horizontally arranged when the height of the car sill 13 and the car floor 3 is the same, and when the car floor 3 is displaced downward, an inclined surface descending from the car sill 13 toward the car floor 3 is formed. It is formed.
かご床支持枠9に固定される敷居受け梁22には、かご敷居13を支持すると共に閉塞板19を支持する部材が形成されている。傾斜部17と敷居受け梁22との間であって、傾斜部17の直下には、弾性体23が配置されている。弾性体23は、傾斜部17と敷居受け梁22との両面にそれぞれ密着するように常に圧縮された状態で配置されている。 A member that supports the car sill 13 and supports the closing plate 19 is formed on the sill receiving beam 22 fixed to the car floor support frame 9. An elastic body 23 is disposed between the inclined portion 17 and the threshold receiving beam 22 and immediately below the inclined portion 17. The elastic body 23 is always arranged in a compressed state so as to be in close contact with both surfaces of the inclined portion 17 and the threshold receiving beam 22.
次に、上記のように構成された実施の形態2の動作について説明する。かご敷居13に対してかご床3の位置が低くなったとき、段差が発生する。この段差の直上には、閉塞板19が配置されており、段差が発生したとき、閉塞板19の傾斜部17のヒンジ部18及びヒンジ部21は時計方向に回動する。このとき、固定部16はかご敷居13と共に水平状態を維持し、固定部20はかご床3と共に水平状態を維持し、傾斜部17にはかご敷居13側からかご床3側に向かって下りの傾斜面が形成される。 Next, the operation of the second embodiment configured as described above will be described. When the position of the car floor 3 is lowered with respect to the car sill 13, a step is generated. A closing plate 19 is disposed immediately above the step, and when the step occurs, the hinge portion 18 and the hinge portion 21 of the inclined portion 17 of the closing plate 19 rotate in the clockwise direction. At this time, the fixing part 16 maintains the horizontal state together with the car sill 13, the fixing part 20 maintains the horizontal state together with the car floor 3, and the inclined part 17 descends from the car sill 13 side toward the car floor 3 side. An inclined surface is formed.
すなわち、防振体10が圧縮されて、かご敷居13に対してかご床3の位置が低くなったとき生じる段差は、閉塞板19によって閉塞されると共に、閉塞板19の傾斜部17に傾斜面が形成されるため、利用者等はかご室4内から乗場11に出入りするとき、閉塞板19の固定部16、傾斜部17、固定部20に沿って移動する。このとき、実施の形態1では、台車などの車輪が通過するなど、閉塞板19に大きな荷重が作用したとき、傾斜部17が変形することがある。そこで、傾斜部17の直下に配置した弾性体23が、台車などの通過により作用する大きな荷重を受け止めることにより、傾斜部17の変形を防止する。 In other words, the step formed when the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13 is closed by the closing plate 19 and is inclined to the inclined portion 17 of the closing plate 19. Therefore, the user or the like moves along the fixed portion 16, the inclined portion 17, and the fixed portion 20 of the closing plate 19 when entering and exiting the landing 11 from the cab 4. At this time, in Embodiment 1, the inclined portion 17 may be deformed when a large load is applied to the closing plate 19 such as a wheel such as a carriage passes. Therefore, the elastic body 23 arranged immediately below the inclined portion 17 receives a large load acting by passing a carriage or the like, thereby preventing the inclined portion 17 from being deformed.
上記のように実施の形態2によれば、閉塞板19は、一方がかご床3に固定される固定部20と、固定部16と固定部20との間に配置される傾斜部17と、固定部20と傾斜部17との間に設けられ、固定部20と傾斜部17とを互いに回動自在に支持するヒンジ部21と、傾斜部17と敷居受け梁22との間に固定され、傾斜部17に密着して配置される弾性体23と、を備えたことにより、かご敷居13とかご床3との間に生じる段差を閉塞することで、この段差を解消する乗りかご1を提供することができる。また、かご床3側が固定部20で固定されていることで、台車などの通過により閉塞板19に大きな荷重が作用したとき、閉塞板19の跳ね上がりを防止できるため、利用者等はかご室4内から乗場11に出入りするとき、この段差及び閉塞板19に躓くことなく容易に移動できる。また、台車などの通過により閉塞板19に大きな荷重が作用したとき、弾性体23を介して敷居受け梁22がこの荷重を受け止めることにより、傾斜部17の変形を防止できる乗りかご1を提供することができる。 As described above, according to the second embodiment, the closing plate 19 includes one fixed portion 20 that is fixed to the car floor 3, the inclined portion 17 that is disposed between the fixed portion 16 and the fixed portion 20, A hinge portion 21 provided between the fixed portion 20 and the inclined portion 17 and rotatably supporting the fixed portion 20 and the inclined portion 17; and fixed between the inclined portion 17 and the threshold receiving beam 22. By providing the elastic body 23 disposed in close contact with the inclined portion 17, the car 1 that eliminates the step is provided by closing the step formed between the car sill 13 and the car floor 3. can do. Further, since the car floor 3 side is fixed by the fixing portion 20, when a large load is applied to the closing plate 19 due to the passage of a carriage or the like, the closing plate 19 can be prevented from jumping up. When entering / exiting the landing 11 from the inside, it can be easily moved without going over the step and the closing plate 19. Further, when a large load is applied to the blocking plate 19 due to the passage of a carriage or the like, the car 1 that can prevent the inclined portion 17 from being deformed by the sill receiving beam 22 receiving the load via the elastic body 23 is provided. be able to.
実施の形態3.
図6~8は、この発明の実施の形態3によるエレベータの乗りかごを説明するもので、図6は図1の乗りかご(かご床変位無し)の要部を示す側面図、図7は図1の乗りかご(かご床変位有り)の要部を示す側面図である。図8は図1の乗りかごの要部を示す拡大図(平面図)である。この発明の実施の形態3によるエレベータの乗りかごは、かご敷居とかご床との間に生じる段差を解消する閉塞手段の構成が異なり、それ以外の同様な部分に同じ記号を付記し説明を省略する。
Embodiment 3 FIG.
6 to 8 illustrate an elevator car according to Embodiment 3 of the present invention. FIG. 6 is a side view showing the main part of the car (no car floor displacement) in FIG. 1, and FIG. It is a side view which shows the principal part of 1 riding car (with a car floor displacement). FIG. 8 is an enlarged view (plan view) showing a main part of the car of FIG. The elevator car according to the third embodiment of the present invention is different in the structure of the blocking means for eliminating the step generated between the car sill and the car floor, and the same symbols are added to the other similar parts and the description is omitted. To do.
図6は防振体10にかご室4内の荷重が作用していない状態、すなわち、かご床3が通常位置にある状態を示している。図7は防振体10にかご室4内の荷重が作用して、防振体10が圧縮されている状態、すなわち、かご床3が下方に変位した状態を示している。かご敷居13とかご床3との間には、一対の閉塞体24及び閉塞体25が設けられている。 FIG. 6 shows a state where the load in the car room 4 is not applied to the vibration isolator 10, that is, the car floor 3 is in the normal position. FIG. 7 shows a state where the load in the car room 4 is applied to the vibration isolator 10 and the vibration isolator 10 is compressed, that is, the car floor 3 is displaced downward. Between the car sill 13 and the car floor 3, a pair of a closing body 24 and a closing body 25 are provided.
図8において、閉塞体24は、かご敷居13に対向して配置されるかご床3の側面に設けられ、櫛状に形成された水平面を有する櫛部26が設けられている。閉塞体25は、閉塞体24に対向して配置されるかご敷居13の側面に設けられ、櫛部26と係合可能であり、かつ、かご敷居13側からかご床3に向かって下る傾斜面を有する切り欠き部27が設けられている。 In FIG. 8, the closing body 24 is provided on the side surface of the car floor 3 disposed to face the car sill 13, and is provided with a comb portion 26 having a horizontal surface formed in a comb shape. The obstruction body 25 is provided on a side surface of the car sill 13 disposed to face the obstruction body 24, can be engaged with the comb portion 26, and has an inclined surface that descends from the car sill 13 side toward the car floor 3. A notch portion 27 is provided.
次に、上記のように構成された実施の形態3の動作について説明する。かご床3が通常位置にある場合、櫛部26の上端面の位置は、かご敷居13の上端面の位置とほぼ同じ高さに配置されている。このとき、櫛部26と切り欠き部27とは、交互に配置されると共に互いに上下動可能に係合しており、水平方向から見ると、切り欠き部27の傾斜面は、櫛部26にほぼ重なって配置されている。すなわち、水平方向から見ると、切り欠き部27の傾斜面は、かご敷居13の上端面から見てほぼ露出していない状態である。この状態おいては、かご敷居13とかご床3との間に段差は生じておらず、かつ切り欠き部27の傾斜面も露出していないため、利用者等は櫛部26の上面に沿って、かご室4内から乗場11に容易に出入りできる。 Next, the operation of the third embodiment configured as described above will be described. When the car floor 3 is in the normal position, the position of the upper end surface of the comb portion 26 is arranged at substantially the same height as the position of the upper end surface of the car sill 13. At this time, the comb portions 26 and the cutout portions 27 are alternately arranged and engaged with each other so as to be movable up and down, and when viewed from the horizontal direction, the inclined surface of the cutout portion 27 substantially overlaps the comb portion 26. Are arranged. That is, when viewed from the horizontal direction, the inclined surface of the notch 27 is not substantially exposed when viewed from the upper end surface of the car sill 13. In this state, there is no step between the car sill 13 and the car floor 3 and the inclined surface of the notch 27 is not exposed. , You can easily get in and out of the hall 11 from the car room 4.
かご敷居13に対してかご床3の位置が低くなったとき、かご床3と共に櫛部26も下方向に連動して変位する。一方、切り欠き部27は、櫛部26の変位には影響されないため、その位置が維持される。すなわち、櫛部26が下方向に変位すると、切り欠き部27の傾斜面が相対的に露出することになる。このとき、水平方向から見て、櫛部26の水平面が下方向に変位すると、この水平面が次第に切り欠き部27の傾斜面に重なっていくと共に、閉塞体25の切り欠き部27が相対的に露出するため、かご敷居13側からかご床3側に向かって下りの傾斜面が形成される。 When the position of the car floor 3 is lowered with respect to the car sill 13, the comb portion 26 is also displaced in conjunction with the car floor 3 in the downward direction. On the other hand, the cutout portion 27 is not affected by the displacement of the comb portion 26, and thus the position thereof is maintained. That is, when the comb part 26 is displaced downward, the inclined surface of the notch part 27 is relatively exposed. At this time, when viewed from the horizontal direction, when the horizontal plane of the comb portion 26 is displaced downward, the horizontal plane gradually overlaps the inclined surface of the cutout portion 27 and the cutout portion 27 of the closing body 25 is relatively exposed. Therefore, a downward inclined surface is formed from the car sill 13 side toward the car floor 3 side.
これにより、防振体10が圧縮されて、かご敷居13に対してかご床3の位置が低くなったとき、段差は発生することなく、その代わりに閉塞体24の切り欠き部27によって、かご敷居13側からかご床3側に向かって下りの傾斜面が形成されるため、利用者等はかご室4内から乗場11に出入りするとき、切り欠き部27の傾斜面に沿って躓くことなく容易に移動する。 As a result, when the vibration isolator 10 is compressed and the position of the car floor 3 is lowered with respect to the car sill 13, there is no step, and instead, the car 27 is notched by the notch 27 of the closing body 24. Since a downward inclined surface is formed from the side of the sill 13 toward the side of the car floor 3, a user or the like does not go along the inclined surface of the notch 27 when entering or exiting the landing 11 from the inside of the car room 4. Move easily.
上記のように実施の形態3によれば、水平方向に交互に配置され、互いに上下動可能に係合する一対の閉塞体24と、閉塞体24の係合する側に設けられ、一方には櫛状に形成された櫛部26と、他方には櫛部26と係合可能な切り欠き部27と、を備え、櫛部26はかご床3に設けられ、切り欠き部27はかご敷居13に設けられており、切り欠き部27にはかご敷居13側からかご床3側に向かって下る傾斜面が設けられ、櫛部26にはこの傾斜面と交互に係合可能な水平面を有することにより、かご敷居13に対してかご床3の位置が低くなったとき、かご敷居13とかご床3との間には、段差の代わりに傾斜面が形成される。これにより、段差を解消する乗りかご1を提供することができる。また、閉塞体24及び閉塞体25は板状に形成する必要はないため、台車などの通過により大きな荷重が作用した場合でも、弾性体等を用いることなく、変形し難い形状にすることが容易となる。さらに、閉塞体24及び閉塞体25の構造はシンプルであるため、故障が起き難く、メンテナンスも容易になる。 As described above, according to the third embodiment, the pair of closing bodies 24 that are alternately arranged in the horizontal direction and engage with each other so as to be movable up and down are provided on the side where the closing body 24 is engaged. A comb portion 26 formed in a comb shape and a notch portion 27 engageable with the comb portion 26 on the other side are provided. The comb portion 26 is provided on the car floor 3, and the notch portion 27 is provided on the car sill 13. The notch 27 is provided with an inclined surface descending from the car sill 13 side toward the car floor 3, and the comb portion 26 has a horizontal surface that can be alternately engaged with the inclined surface, whereby the car sill is provided. When the position of the car floor 3 is lowered with respect to 13, an inclined surface is formed between the car threshold 13 and the car floor 3 instead of a step. Thereby, the car 1 that eliminates the step can be provided. Further, since the closing body 24 and the closing body 25 do not need to be formed in a plate shape, even when a large load is applied due to the passage of a carriage or the like, it is easy to make the shape difficult to deform without using an elastic body or the like. It becomes. Furthermore, since the structures of the closing body 24 and the closing body 25 are simple, failure is unlikely to occur and maintenance is facilitated.
なお、実施の形態1では、閉塞板15の傾斜部17はかご床3に当接して配置しているが、ヒンジ部18にひねりバネ等を設けて、傾斜部17がかご床3に付勢されて押し付けられるように構成にしても良い。これにより、閉塞板15を利用者等が通行したとき、傾斜部17の跳ね上がりを抑えることにより、安定的に使用できる。 In the first embodiment, the inclined portion 17 of the closing plate 15 is disposed in contact with the car floor 3, but a twist spring or the like is provided on the hinge portion 18 so that the inclined portion 17 biases the car floor 3. And may be configured to be pressed. Thereby, when a user etc. pass the obstruction board 15, it can be used stably by suppressing the jumping of the inclined part 17.
また、実施の形態3では、切り欠き部27はかご敷居13の側面に設けたが、敷居受け梁14またはかご床支持枠9に直接固定するように構成しても同様の作用・効果を奏することは言うまでもない。 In the third embodiment, the notch 27 is provided on the side surface of the car sill 13, but the same operation and effect can be obtained even if it is configured to be directly fixed to the sill receiving beam 14 or the car floor support frame 9. Needless to say.
1 乗りかご、2 かご枠、3 かご床、4 かご室、5 乗りかごドア、6 上梁、7 下梁、8 縦枠、9 かご床支持枠、10 防振体、11 乗場、12 かごドア装置、13 かご敷居、14,22 敷居受け梁、15,19 閉塞板、16,20 固定部、17 傾斜部、18,21 ヒンジ部、23 弾性体、24,25 閉塞体、26 櫛部、27 切り欠き部   1 car, 2 car frames, 3 car floors, 4 car rooms, 5 car doors, 6 upper beams, 7 lower beams, 8 vertical frames, 9 car floor support frames, 10 anti-vibration bodies, 11 landings, 12 car doors Device, 13 basket sill, 14, 22 sill receiving beam, 15, 19 closing plate, 16, 20 fixing part, 17 inclined part, 18, 21 hinge part, 23 elastic body, 24, 25 closing body, 26 comb part, 27 cutting Missing part
 本発明は、かご床が弾性体を介してかご支持枠に支持される乗りかごに関するものである。 The present invention relates to a car in which a car floor is supported by a car support frame via an elastic body.

Claims (4)

  1. 乗りかごを設置したかご床、前記乗りかごの戸の開閉を案内するかご敷居、弾性体を介して前記かご床を支持した床支持枠より成り、前記かご敷居を支持する敷居受け梁を有し、
    前記敷居受け梁は前記床支持枠に固定されていると共に前記かご床とは互いに独立して配置されている乗りかごにおいて、
    前記弾性体が圧縮されて、前記かご敷居に対して前記かご床の位置が低くなったとき、前記かご床と前記かご敷居との間に形成される段差を閉塞する閉塞手段を備えたことを特徴とするエレベータの乗りかご。
    A car floor on which a car is installed, a car sill that guides the opening and closing of the car door, a floor support frame that supports the car floor via an elastic body, and has a sill receiving beam that supports the car sill ,
    In the car in which the sill receiving beam is fixed to the floor support frame and arranged independently of the car floor,
    When the elastic body is compressed and the position of the car floor is lowered with respect to the car sill, there is provided closing means for closing a step formed between the car floor and the car sill. A featured elevator car.
  2. 前記閉塞手段は、一方が前記かご敷居に固定される第一の固定部と、他方が前記かご床に当接して配置され、前記かご敷居側から前記かご床側に向かって下る傾斜面を有する傾斜部と、前記第一の固定部と前記傾斜部との間に設けられ、前記第一の固定部と前記傾斜部とを互いに回動自在に支持する第一のヒンジ部と、を備えたことを特徴とする請求項1に記載のエレベータの乗りかご。
    The closing means has a first fixing portion, one of which is fixed to the car sill, and the other is disposed in contact with the car floor, and has an inclined surface that descends from the car sill side toward the car floor side. An inclined portion; and a first hinge portion that is provided between the first fixed portion and the inclined portion and rotatably supports the first fixed portion and the inclined portion. The elevator car according to claim 1.
  3. 前記閉塞手段は、一方が前記かご床に固定される第二の固定部と、前記第一の固定部と前記第二の固定部との間に配置される前記傾斜部と、前記第二の固定部と前記傾斜部との間に設けられ、前記第二の固定部と前記傾斜部とを互いに回動自在に支持する第二のヒンジ部と、
    前記傾斜部と前記敷居受け梁との間に固定され、前記傾斜部に密着して配置される弾性体と、
    を備えたことを特徴とする請求項2に記載のエレベータの乗りかご。
    The closing means includes a second fixing portion, one of which is fixed to the car floor, the inclined portion disposed between the first fixing portion and the second fixing portion, and the second fixing portion. A second hinge portion provided between the fixed portion and the inclined portion, and rotatably supporting the second fixed portion and the inclined portion;
    An elastic body fixed between the inclined portion and the threshold receiving beam and disposed in close contact with the inclined portion;
    The elevator car according to claim 2, further comprising:
  4. 前記閉塞手段は、水平方向に交互に配置され、互いに上下動可能に係合する一対の閉塞体と、
    前記閉塞体の係合する側に設けられ、一方には櫛状に形成された櫛部と、他方には前記櫛部と係合可能な切り欠き部と、を備え、
    前記櫛部または前記切り欠き部のいずれか一方が前記かご敷居に設けられ、他方が前記かご床に設けられており、
    前記櫛部または前記切り欠き部のいずれか一方には、前記かご敷居側から前記かご床側に向かって下る傾斜面が設けられ、他方には前記傾斜面と交互に係合可能な水平面を有することを特徴とする請求項1に記載のエレベータの乗りかご。
    The closing means are arranged alternately in the horizontal direction and engage with each other so as to be movable up and down,
    Provided on the engagement side of the closure body, one side is provided with a comb portion formed in a comb shape, and the other side includes a notch portion engageable with the comb portion,
    Either one of the comb part or the notch part is provided in the car sill, the other is provided in the car floor,
    Either one of the comb portion or the notch portion is provided with an inclined surface that descends from the car sill side toward the car floor side, and the other has a horizontal surface that can be alternately engaged with the inclined surface. The elevator car according to claim 1.
PCT/JP2018/015162 2018-03-23 2018-04-11 Elevator car WO2019180976A1 (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS51106465U (en) * 1975-02-25 1976-08-25
JPS5299545A (en) * 1976-02-18 1977-08-20 Toshiba Corp Device for mounting sill of cage for elevator
JPH06234487A (en) * 1993-02-05 1994-08-23 Mitsubishi Denki Bill Techno Service Kk Elevator cage
JPH0977432A (en) * 1995-09-13 1997-03-25 Toshiba Corp Double deck elevator
JP2007521202A (en) * 2003-09-18 2007-08-02 オーチス エレベータ カンパニー Elevator assembly with telescopic sill

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS51106462U (en) * 1975-02-24 1976-08-25

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS51106465U (en) * 1975-02-25 1976-08-25
JPS5299545A (en) * 1976-02-18 1977-08-20 Toshiba Corp Device for mounting sill of cage for elevator
JPH06234487A (en) * 1993-02-05 1994-08-23 Mitsubishi Denki Bill Techno Service Kk Elevator cage
JPH0977432A (en) * 1995-09-13 1997-03-25 Toshiba Corp Double deck elevator
JP2007521202A (en) * 2003-09-18 2007-08-02 オーチス エレベータ カンパニー Elevator assembly with telescopic sill

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