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WO2006072195A1 - A control system and method used for an elevator for preventing accidental injury - Google Patents

A control system and method used for an elevator for preventing accidental injury Download PDF

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Publication number
WO2006072195A1
WO2006072195A1 PCT/CN2005/001060 CN2005001060W WO2006072195A1 WO 2006072195 A1 WO2006072195 A1 WO 2006072195A1 CN 2005001060 W CN2005001060 W CN 2005001060W WO 2006072195 A1 WO2006072195 A1 WO 2006072195A1
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WO
WIPO (PCT)
Prior art keywords
elevator
switch
car
hall door
normal
Prior art date
Application number
PCT/CN2005/001060
Other languages
French (fr)
Chinese (zh)
Inventor
Jinlin Chen
Original Assignee
Jinlin Chen
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 Jinlin Chen filed Critical Jinlin Chen
Publication of WO2006072195A1 publication Critical patent/WO2006072195A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/0006Monitoring devices or performance analysers
    • B66B5/0018Devices monitoring the operating condition of the elevator system
    • B66B5/0031Devices monitoring the operating condition of the elevator system for safety reasons
    • 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
    • B66B13/22Operation of door or gate contacts

Definitions

  • the present invention relates to a control device and a control method for stopping an elevator in a timely manner when the position between the elevator car and the hall door is in an unsafe state.
  • the hall door is normally driven by the car door to drive the passengers in and out of the elevator.
  • the level of the floor should be good.
  • the national safety standard is set within ⁇ 15mm, and the two-speed elevator is within ⁇ 30 awake. Because the level crossing is an important technical indicator of the elevator, if the elevator has a flat over tolerance of more than 15-30 When it is more than mm, it is necessary to carry out work such as maintenance and adjustment on the elevator in time. Otherwise, it is easy to cause the injury of the occupant. In China, such injury incident has not yet been included in the scope of accident statistics.
  • the damage event of the occupant tripping the occupant has become the second type of elevator injury event.
  • the elevator is in the case of abnormality of such leveling, it will be solved by the re-leveling technology, but this re-leveling requires a time process and cannot be timely
  • the elevator is adjusted to a safe range, and it is possible to trip the passengers in and out during this re-leveling process. What is important is that this re-leveling technology is only a kind of compensation measure under such abnormal conditions, and it is not enough to solve the problem that the elevator has already existed between the deceleration and the stop layer. If this problem is not solved, Elevator will frequently appear leveling and re-leveling.
  • the object of the present invention is to improve the above-mentioned deficiencies of the prior art, when the elevator car arrives at the leveling level is too large or the elevator does not close the hall door, the car moves upwards or downwards or When the elevator car is manually opened, the elevator is stopped immediately, and the elevator can only be operated according to the maintenance mode.
  • the elevator hall door and the car are in a safe state and the reset operation is performed in the machine room, the elevator can
  • the normal operation (fast train) mode provides a control device to protect the passenger from the abnormality of the elevator and to prevent the elevator injury event from occurring in the safety of the hoistway and the pit.
  • Another object of the present invention is to provide a control method for preventing an elevator injury event from occurring.
  • a control device for preventing an elevator injury event occurs, wherein a reed switch GB with a wire is installed at a fixed position of each elevator hall door, and a corresponding position is installed on the hall door corresponding to the installed reed pipe
  • the permanent magnet steel is adjusted in position so that when the hall door is normally closed, the attached magnetic steel can act on the installed reed switch to reliably close and close the contact, in the floor of the hall
  • a reed switch GA with a wire attached to one side is also installed, and the wires at both ends of the reed switch GA mounted on the sill of the hall door are connected with the wires at both ends of the reed switch GB installed at the fixed position of the layer.
  • a pair of magnetic steels are installed at a position corresponding to the reed switch GA installed in the hall sill, and the spacing is slightly wider than that of the reed switch GA, so that the reed switch GA can be received when the elevator car reaches the station leveling layer.
  • the magnetic field of the pair of magnetic steels is reliably closed and turned on, and the parallel circuits connected to each other are connected in series through the connecting wires to form a series circuit, and the series circuit is connected to the detecting relay J1 and the power source.
  • the negative pole connected to the power supply is characterized by controlling the relay coil J2 and another contact group J2- 2 and the elevator's "emergency stop” switch (such as the engine room emergency stop switch Kl, the car top emergency stop switch ⁇ 2, the car interior emergency The stop switch ⁇ 3, the pit emergency stop switch, etc. are connected in series, and a set of synchronous switches ⁇ added in the "normal one overhaul" switch of the elevator is connected in parallel with the contact group J2-2.
  • the elevator's "emergency stop” switch such as the engine room emergency stop switch Kl, the car top emergency stop switch ⁇ 2, the car interior emergency
  • the stop switch ⁇ 3, the pit emergency stop switch, etc. are connected in series, and a set of synchronous switches ⁇ added in the "normal one overhaul" switch of the elevator is connected in parallel with the contact group J2-2.
  • the above-mentioned switch ⁇ in the other contact group J2-2 of the control relay coil J2 is a synchronous button switch group added in the elevator "check operation" button switch.
  • the control relay coil J2 has another contact group J2-2 and a parallel switch ⁇ or serially connected to the "safe" circuit of the elevator or serially connected to the elevator motor drive running relay coil circuit or serially connected to the elevator control circuit. Also set to detect a control point.
  • the invention can be implemented by the following methods:
  • a control method for preventing an elevator injury event from occurring detecting a relative position of an elevator hall door and a car, characterized in that, in the event that the car to the station level is too large or the elevator does not close the hall door
  • the elevator is immediately switched from the normal operating state to the "stop" state to realize the elevator stop operation, when the maintenance personnel will lift the elevator"
  • the normal one overhauls the "switch to the "overhaul” position the added pair of synchronous switches will be short-circuited with the contact group in series with the elevator "emergency stop” switch.
  • the invention has the advantages that the control device solves the problem that the elevator passengers and the elevator maintenance personnel are injured by the door opening, the leveling and the other reasons, so that the elevator stops immediately when the unsafe state occurs. OK, waiting for elevator maintenance personnel to confirm the safety status of the elevator, suitable for any elevator application with car and hall door.
  • Figure 1 is a diagram showing the detection device of whether the position between the elevator car and the hall door is in a normal state:
  • Figure 2 is a schematic diagram of the original "emergency stop" switch of the elevator control system;
  • FIG. 3 is a schematic diagram of the control portion indicated in the present invention.
  • FIG. 4 is a wiring diagram of the control relay contact group in series with the elevator "emergency stop" switch in the present invention.
  • GA is a reed switch installed on the side of the hall door
  • GB is a reed switch installed on the side of the fixed position of the landing door
  • J1 is the detection relay coil: J2 is the control relay coil: J1-1 is a pair of normally open contacts in the detection relay J1; J2-1 is the control relay J2 One of the normally open contacts; AN is the normally open push button switch for reset; A and B are the contacts of the detecting device; V+ is the positive pole of the power supply; GND is the negative pole of the power supply: J2-2 is the other pair of the control relay J2 Contact group; Kx is a set of synchronous switches added to the "normal one overhaul" switch of the elevator; K1 is the emergency stop switch of the engine room, ⁇ 2 is the emergency stop switch at the top of the car, and ⁇ 3 is the emergency stop of the car.
  • a connected reed pipe (GBn, GBn-1%) is installed at a fixed position on each floor of the elevator door, at the corresponding position of the installed reed pipe, on each floor.
  • the permanent magnet steel induced by the reed switch is installed on the door of the hall to adjust its position so that when the hall door is normally closed, the attached magnet can act on the reed switch installed to reliably close the contact.
  • the position of the reed pipe at both ends of the wire is connected in parallel, and the position of the reed switch installed in the hall door sill is installed in the car sill to install a pair of permanent magnets for the sensing application, the spacing is slightly wider than the reed switch , so that the reed switch can be reliably closed and turned on by the magnetic field of the pair of permanent magnet steel when the elevator car arrives at the leveling level.
  • the reed switches are connected in the same way as above, and then connected together to form a passage through A and B.
  • the two points of the detection circuits A and B shown in Fig. 1 are always a closed circuit when the elevator is in normal operation.
  • the battery voltage for the emergency lighting supply of the elevator is connected to the circuit of Fig. 3, and the detection relay J1 connected in series is in In the working state of the suction, the contact Jl-1 is sucked.
  • the normally open button switch AN is pressed, the working voltage is obtained at both ends of the control relay J2 coil, the contact is sucked, and the contact J2 in parallel with the push button switch AN is connected.
  • the detection circuit detects that the elevator landing door and the car position are not in a safe state, the ⁇ and ⁇ open circuit, the detection relay J1 has no voltage, the contact Jl-1 is open, the control relay coil J2 loses the working voltage, the armature is released, and The circuit of the elevator "emergency stop” switch (such as Kl, ⁇ 2, ⁇ 3, etc.) is in an open state, so that the elevator is in a stop state.
  • the maintenance personnel put the "normal one run” switch to the "overhaul” position, the increase is increased.
  • a pair of synchronous switch Kx will short-circuit the contact J2-2 in series with the elevator "emergency stop” switch, so that the operator can only move the car in the hoistway according to the maintenance mode, only when the elevator is "normal one" Overhaul the "switch to the "running" position, the operator leaves the pit sump, the elevator hall door is closed, and after the reset operation in the machine room, the elevator can operate in the "normal operation” mode to eliminate the car to enter the hoistway bottom Pit workers have the purpose of harm.
  • the specific operation steps of the control method for preventing the occurrence of an elevator injury event in this embodiment may be: a.
  • a set of parallel detecting devices are arranged on the hall door and the ground sill of each floor elevator, correspondingly in the hall door and the car Inductive mounting corresponding to the detecting device is respectively disposed at the position, and the parallel detection of each layer is performed After the device is connected in series, it is connected between the detecting relay J1 and the power source, and a set of contacts in the detecting relay J1 is connected between the control relay coil J2 and the positive pole of the power supply, and the other end of the control relay coil J2 is connected to its own set.
  • the normally open contact J2- 1 and the button switch AN- are connected to the negative pole of the power supply, and the other contact group J2 of the control relay coil J2 is connected in series with the "emergency stop" of the elevator.
  • a maintenance switch "additional switch Kx connected in parallel with the contact group J2- 2 is added to the switch circuit;
  • the relative position of the elevator hall door and the car is detected by the above detecting device and the sensing device.
  • the elevator is not closed.
  • the above-mentioned detecting device sends a signal to immediately change the elevator from the normal operating state to the "stop" state to realize the elevator stop operation, to be repaired. After the personnel overhaul and go to the machine room and press the reset operation button, the operation can be started normally;
  • the detecting device is composed of a reed switch and corresponding connecting wires, and the reed pipes are respectively disposed at corresponding positions of the elevator hall door and the hall door sill, and the reed switches are arranged on the elevator hall door and the hall door sill of each floor. Then, the wires are connected in parallel to form a parallel circuit, and the parallel circuits of each floor are connected in series to form a series circuit, and then the series circuit is connected to the detection relay J1 and the control relay coil J2 according to the above method.
  • the sensing device is magnetic steel, and the spacing of the magnetic steel installed at the corresponding position of the car sill is slightly wider than the reed switch provided on the sill of the hall door.

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  • Elevator Door Apparatuses (AREA)

Abstract

The invention disclosed a control system and a method used for an elevator for preventing accidental injury, wherein the elevator is conversed its status from 'normal operation' state to 'stop' state in the event that the landing error is excess or the car is moving without closing the landing door or that the landing door in multi-storey with no elevator cage is opened, so that the operator in hoistway can operate the elevator only under the inspection mode, and the operator can operate the elevator normally only after the normal/inspection switch is placed in 'normal' position the operator leaves the hoistway, the landing door is closed and the resume operation is done. The system is provided to reduce accidental injury of passenger or operator due to the car moving without closing the landing door or the landing error being excess or other reasons, the system can stop or avoid the unsafety of the elevator.

Description

防止电梯伤害事件发生的控制装置及方法 技术领域  Control device and method for preventing elevator injury event from occurring
本发明涉及一种用于电梯轿厢与厅门间位置处于非安全状态时, 使电梯及 时停止运行的控制装置和控制方法。  The present invention relates to a control device and a control method for stopping an elevator in a timely manner when the position between the elevator car and the hall door is in an unsafe state.
背景技术 Background technique
目前, 在维修电梯的过程中, 由于人员在井道或底坑操作, 此时电梯如果 处在 "正常运行"而不是 "急停"或 "检修"的状态下, 一旦厅门关闭, 符合 电梯运行条件时, 轿厢就能够以正常运行速度运行, 这将可能对位于井道及底 坑的人员产生伤害, 这种伤害事故至今在舅内外都还时有发生, 为此, 有些国 家的电梯安装和安全使用规范明确规定安装在住宅能够自动打开层门的电梯应 当装备当外人进入电梯的井道时能切断控制电路的装置, 并且只能由机房来恢 复电梯的运行。  At present, in the process of repairing the elevator, since the personnel are operating in the hoistway or the pit, the elevator is in the "normal operation" rather than the "emergency stop" or "overhaul" state, once the hall door is closed, it is in line with the elevator operation. Under conditions, the car can run at normal operating speed, which may cause damage to personnel located in the hoistway and pit. This kind of injury accident has occurred both inside and outside the shackles. For this reason, elevator installations in some countries and The safe use specification clearly stipulates that an elevator installed in a house that can automatically open a landing door should be equipped with a device that can cut off the control circuit when an outsider enters the hoistway of the elevator, and can only resume the operation of the elevator by the machine room.
公开号板 CN 1286208A (进入电梯井道的安全装置和方法, 1999. 8. 30, OTIS 公司申请)它解决的是在井道操作的人员免受运行的轿厢伤害的问题,该方法实 际上是通过电梯控制的计算机程序的设置来进行, 采用连续监测厅门与轿门间 相互关系来实现的, 那么这项技术就有一个不能够忽视的缺陷: 如果操作人员 要进入电梯井道或底坑工作, 势必要通过外呼按钮作用将电梯轿厢运行至其他 层停层, 电梯轿厢在到达门区且门在自动打开后操作者再打开底层的厅门, 实 际上该程序就不能检测到这一情况的出现了, 而这种情况所占的比例又很大, 当操作人员进入底坑并且关闭厅门时, 电梯也就能够运行快车了, 此时也就达 不到该技术设计者的目的。 虽然该技术在电梯上得到了实际应用, 并且在国外 "提供一种足够安全的竖井进入控制,使得作为法规被批准。 "但认为有改进和 完善的必要。  Publication No. CN 1286208A (Safety Devices and Methods for Accessing Elevator Shafts, 1999. 8. 30, OTIS Company Application) It solves the problem of personnel operating in the hoistway being protected from the operating car, which is actually passed The setting of the computer program of the elevator control is carried out by using the relationship between the continuous monitoring hall door and the car door. Then this technology has a defect that cannot be ignored: If the operator wants to enter the elevator shaft or the pit, It is necessary to operate the elevator car to the other floor stop layer by the action of the outbound button. When the elevator car reaches the door area and the door is automatically opened, the operator opens the lower floor door. In fact, the program cannot detect this. The situation has arisen, and the proportion of this situation is very large. When the operator enters the pit and closes the hall door, the elevator can run the express train, and the purpose of the technical designer is not achieved at this time. . Although the technology has been put into practical use in elevators, and "providing a sufficiently safe shaft access control in foreign countries, it has been approved as a regulation." However, it is considered necessary to improve and perfect.
另一方面是作为电梯而言, 厅门正常情况下是在轿门带动下打幵, 供乘用 者进出电梯, 当轿厢到达相应的楼层开门后, 应当平层情况良好。 对于调速电 梯而言, 国家安全标准制定的是 ± 15mm以内, 双速电梯是 ±30醒以内, 由于平 层超差是电梯重要的一个技术指标, 如果电梯出现平层超差超过 15-30 mm以上 时, 就需要及时地对电梯进行诸如维修、 调整之类的工作, 否则就易出现絆倒 乘员的伤害事件, 在我国这种伤害事件暂时还没有列入事故统计的范畴, 在欧 洲电梯绊倒乘员的伤害事件, 根据统计其数量已成为排列第二位的电梯伤害事 件类型。 对于某些调速电梯来说, 如果电梯在出现这类平层超差不正常的情况 时会釆用再平层技术来解决, 但这种再平层需要一个时间过程, 不能够及时地 将电梯调整到安全的范围内,在这一再平层的过程中就有可能绊倒进出的乘客。 重要的是这种再平层技术只是在这种不正常的情况下的一种弥补措施, 并不够 真正解决电梯已经存在减速与停层之间存在调整失当的问题, 如果这一问题不 解决, 电梯会频繁地出现平层超差及再平层现象。 On the other hand, as an elevator, the hall door is normally driven by the car door to drive the passengers in and out of the elevator. When the car reaches the corresponding floor to open the door, the level of the floor should be good. For the speed control elevator, the national safety standard is set within ± 15mm, and the two-speed elevator is within ±30 awake. Because the level crossing is an important technical indicator of the elevator, if the elevator has a flat over tolerance of more than 15-30 When it is more than mm, it is necessary to carry out work such as maintenance and adjustment on the elevator in time. Otherwise, it is easy to cause the injury of the occupant. In China, such injury incident has not yet been included in the scope of accident statistics. The damage event of the occupant tripping the occupant, according to statistics, has become the second type of elevator injury event. For some speed control elevators, if the elevator is in the case of abnormality of such leveling, it will be solved by the re-leveling technology, but this re-leveling requires a time process and cannot be timely The elevator is adjusted to a safe range, and it is possible to trip the passengers in and out during this re-leveling process. What is important is that this re-leveling technology is only a kind of compensation measure under such abnormal conditions, and it is not enough to solve the problem that the elevator has already existed between the deceleration and the stop layer. If this problem is not solved, Elevator will frequently appear leveling and re-leveling.
还有一方面, 电梯因为某些原因会在开门的情况下发生轿厢运行的情况, 至今这两种问题在国内外还都时有发生, 难以杜绝, 一旦发生将可能威胁到人 的生命安全, 会造成严重的事故, 虽然现代技术的发展, 使得电梯控制能力得 到空前的提高, 但幵门的情况下发生轿厢运行的情况却客观存在, 需要对这一 区域的安全状态在原有方式基础上, 采用冗余技术, 再增加安全环节, 实现双 重的监测和控制。  On the other hand, for some reasons, the elevator will operate in the case of opening the door. So far, these two problems have occurred at home and abroad, and it is difficult to prevent it. If it happens, it may threaten people's lives. , it will cause serious accidents. Although the development of modern technology has made the elevator control ability unprecedentedly improved, the situation of the car operation in the case of the door is objective, and the security state of this area needs to be based on the original mode. In the above, redundant technology is adopted, and safety links are added to achieve dual monitoring and control.
发明内容 Summary of the invention
本发明的目的在于改进上述现有技术存在的不足之处, 当电梯轿厢到站平 层超差过大或是电梯在未关闭厅门的情况下出现轿厢向上、 向下方向的移动或 是人工打开电梯轿厢非所在层厅门时, 立刻使电梯停止运行, 且只能按检修方 式操纵电梯, 当电梯厅门与轿厢处于安全状态并且在机房进行复位操作之后, 电梯方能够以正常运行 (快车)方式运行, 提供一种保护乘客免受电梯非正常时 的伤害、 保障处于井道及底坑工作人员安全的防止电梯伤害事件发生的控制装 置。  The object of the present invention is to improve the above-mentioned deficiencies of the prior art, when the elevator car arrives at the leveling level is too large or the elevator does not close the hall door, the car moves upwards or downwards or When the elevator car is manually opened, the elevator is stopped immediately, and the elevator can only be operated according to the maintenance mode. When the elevator hall door and the car are in a safe state and the reset operation is performed in the machine room, the elevator can The normal operation (fast train) mode provides a control device to protect the passenger from the abnormality of the elevator and to prevent the elevator injury event from occurring in the safety of the hoistway and the pit.
本发明的另一目的是提供一种防止电梯伤害事件发生的控制方法。  Another object of the present invention is to provide a control method for preventing an elevator injury event from occurring.
本发明的技术方案是:  The technical solution of the present invention is:
一种防止电梯伤害事件发生的控制装置, 在每层电梯厅门的固定位置处安 装一接有导线的干簧管 GB, 在该厅门上与所安装的干簧管对应位置处安装有相 应的永磁钢, 调整其位置, 使其当厅门正常闭合时, 所附的磁钢能够对所安装 的干簧管作用而使其触点可靠闭合、 导通, 在该层厅门地坎一侧位置处也安装 一接有导线的干簧管 GA, 将安装在厅门地坎上的干簧管 GA两端导线与安装在 该层固定位置处的干簧管 GB两端导线相并接形成楼层并接回路;在轿厢地坎中 与厅门地坎所安装的干簧管 GA相对应的位置处安装有一对磁钢,其间距比干簧 管 GA略宽, 使其能够在电梯轿厢到站平层时干簧管 GA受到这一对磁钢的磁场 作用而可靠闭合、 导通, 将各层已并接好的并接回路通过连接导线串接在一起 形成串接回路, 将该串接回路连接于检测继电器 J1 与电源之间, 检测继电器 J1中的一组触点接于控制继电器线圈 J2和电源正极之间, 控制继电器线圈 J2 的另一端接其本身的一组常开触点 J2- 1并且和按钮开关 AN—同接于供电电源 的负极, 其特征是控制继电器线圈 J2另外一触点组 J2- 2与电梯的 "急停"开 关 (如机房急停开关 Kl、 轿顶急停开关 Κ2、 轿厢内部急停开关 Κ3、 底坑急停开 关等)相串联, 通过电梯 "正常一检修"开关中所增设的一组同步开关 Κχ与该 触点组 J2- 2相并联。 A control device for preventing an elevator injury event occurs, wherein a reed switch GB with a wire is installed at a fixed position of each elevator hall door, and a corresponding position is installed on the hall door corresponding to the installed reed pipe The permanent magnet steel is adjusted in position so that when the hall door is normally closed, the attached magnetic steel can act on the installed reed switch to reliably close and close the contact, in the floor of the hall A reed switch GA with a wire attached to one side is also installed, and the wires at both ends of the reed switch GA mounted on the sill of the hall door are connected with the wires at both ends of the reed switch GB installed at the fixed position of the layer. Connected to form a floor and connect the circuit; in the car sill A pair of magnetic steels are installed at a position corresponding to the reed switch GA installed in the hall sill, and the spacing is slightly wider than that of the reed switch GA, so that the reed switch GA can be received when the elevator car reaches the station leveling layer. The magnetic field of the pair of magnetic steels is reliably closed and turned on, and the parallel circuits connected to each other are connected in series through the connecting wires to form a series circuit, and the series circuit is connected to the detecting relay J1 and the power source. Between the detection relay J1 is connected between the control relay coil J2 and the positive pole of the power supply, and the other end of the control relay coil J2 is connected to its own set of normally open contacts J2-1 and the button switch AN. The negative pole connected to the power supply is characterized by controlling the relay coil J2 and another contact group J2- 2 and the elevator's "emergency stop" switch (such as the engine room emergency stop switch Kl, the car top emergency stop switch Κ 2, the car interior emergency The stop switch Κ3, the pit emergency stop switch, etc. are connected in series, and a set of synchronous switches 增 added in the "normal one overhaul" switch of the elevator is connected in parallel with the contact group J2-2.
上述的并联在控制继电器线圈 J2另外一触点组 J2-2的开关 Κχ为电梯 "检 修运行"按钮开关中所增设的一个同步按钮开关组。  The above-mentioned switch □ in the other contact group J2-2 of the control relay coil J2 is a synchronous button switch group added in the elevator "check operation" button switch.
所述的控制继电器线圈 J2另外一触点组 J2- 2及并联的开关 Κχ或串接于电 梯的 "安全"回路或串接于电梯电机驱动运行继电器线圈回路或串接于电梯控 制电路中的另外设置的检测一控制点。  The control relay coil J2 has another contact group J2-2 and a parallel switch Κχ or serially connected to the "safe" circuit of the elevator or serially connected to the elevator motor drive running relay coil circuit or serially connected to the elevator control circuit. Also set to detect a control point.
本发明可采用下述方法实现:  The invention can be implemented by the following methods:
一种防止电梯伤害事件发生的控制方法, 对电梯厅门与轿厢的相对位置进 行检测, 其特征在于一旦出现轿厢到站平层超差过大或是电梯在未关闭厅门的 情况下轿厢出现向上、 向下方向的移动时或是人工打开其他楼层电梯厅门时, 立即将电梯由原来的正常运行状态转换为 "停止"状态来实现电梯停止运行, 当维修人员将电梯的 "正常一检修"开关拨到 "检修"位置时, 所增加的一副 同步开关又将与电梯 "急停"开关相串联的触点组短路, 其操作人员在井道内 操纵电梯轿厢时, 只能够在电梯厅门关闭时在轿顶按检修方式来使轿厢移动, 只有当将电梯 "正常一检修"幵关拨到 "正常"位置, 作业的人员离幵井道或 底坑, 电梯厅门关闭, 并且到机房进行复位操作之后, 电梯方能够以正常运行 方式运行。  A control method for preventing an elevator injury event from occurring, detecting a relative position of an elevator hall door and a car, characterized in that, in the event that the car to the station level is too large or the elevator does not close the hall door When the car moves in the upward or downward direction or manually opens the elevator hall door on other floors, the elevator is immediately switched from the normal operating state to the "stop" state to realize the elevator stop operation, when the maintenance personnel will lift the elevator" When the normal one overhauls the "switch to the "overhaul" position, the added pair of synchronous switches will be short-circuited with the contact group in series with the elevator "emergency stop" switch. When the operator operates the elevator car in the hoistway, only It is possible to move the car in the maintenance mode when the elevator hall door is closed. Only when the elevator "normal one overhaul" is turned to the "normal" position, the working personnel are away from the shaft or the pit, the elevator hall door After the shutdown, and after the reset operation to the equipment room, the elevator can operate in normal operation mode.
本发明的有益效果- 采用一套控制装置解决了开门走梯、 平层超差和其他原因给电梯乘客、 电 梯维修人员带来伤害的问题, 使得电梯一旦出现不安全的状态时, 立刻停止运 行, 等待电梯维修人员对电梯安全状态的确认, 适合于任何有轿厢、 厅门的电 梯应用。 The invention has the advantages that the control device solves the problem that the elevator passengers and the elevator maintenance personnel are injured by the door opening, the leveling and the other reasons, so that the elevator stops immediately when the unsafe state occurs. OK, waiting for elevator maintenance personnel to confirm the safety status of the elevator, suitable for any elevator application with car and hall door.
附图说明 DRAWINGS
图 1是电梯轿厢与厅门间位置是否处于正常状态的检测装置图: 图 2是电梯控制系统原有的 "急停"开关示意图;  Figure 1 is a diagram showing the detection device of whether the position between the elevator car and the hall door is in a normal state: Figure 2 is a schematic diagram of the original "emergency stop" switch of the elevator control system;
图 3是本发明中所指出的控制部分原理图;  Figure 3 is a schematic diagram of the control portion indicated in the present invention;
图 4是本发明中控制继电器触点组与电梯 "急停"开关相串联的接线图。 图中: GA是安装在厅门地坎一侧的干簧管; GB是安装在层门固定位置一侧 的干簧管; GA、 GB后面的 n、 n- 1、 n- 2……为电梯厅门楼层数; N、 S是永磁钢 磁极; J1是检测继电器线圈: J2是控制继电器线圈: J1-1是检测继电器 J1中 的一副常开触点; J2-1是控制继电器 J2中的一副常开触点; AN为复位用的常 开型按钮开关; A与 B是检测装置的接点; V+是电源正极; GND为电源负极: J2-2 是控制继电器 J2的另一副触点组; Kx是增设在电梯 "正常一检修"开关中的 一组同步开关; K1为机房急停开关、 Κ2为轿厢顶部急停开关、 Κ3为轿厢内部 急停幵关。  Figure 4 is a wiring diagram of the control relay contact group in series with the elevator "emergency stop" switch in the present invention. In the figure: GA is a reed switch installed on the side of the hall door; GB is a reed switch installed on the side of the fixed position of the landing door; n, n-1, n- 2... behind GA, GB... Number of floors in the elevator hall; N, S are permanent magnet steel poles; J1 is the detection relay coil: J2 is the control relay coil: J1-1 is a pair of normally open contacts in the detection relay J1; J2-1 is the control relay J2 One of the normally open contacts; AN is the normally open push button switch for reset; A and B are the contacts of the detecting device; V+ is the positive pole of the power supply; GND is the negative pole of the power supply: J2-2 is the other pair of the control relay J2 Contact group; Kx is a set of synchronous switches added to the "normal one overhaul" switch of the elevator; K1 is the emergency stop switch of the engine room, Κ2 is the emergency stop switch at the top of the car, and Κ3 is the emergency stop of the car.
具体实施方式 detailed description
下面结合附图和实施例对本发明作进一步的说明。  The invention will now be further described with reference to the accompanying drawings and embodiments.
如图 1一 4所示, 在电梯每层厅门的固定位置安装一接有连线的干簧管 (GBn、 GBn-1……), 于所安装的干簧管对应位置, 在每层厅门上安装与干簧管 相感应的永磁钢, 调整其位置, 使其当厅门正常闭合时, 所附的磁钢能够对所 安装的干簧管作用而使其触点可靠闭合、 导通。 在该层厅门地坎一侧位置安装 一接有导线的干簧管 (GAn、 GAn-1…… ), 将安装在厅门地坎上的干簧管两端导 线与安装在该层固定位置上的干簧管两端导线相并接, 于厅门地坎所安装的千 簧管对应位置, 在轿厢地坎安装一对感应用的永磁钢, 其间距比干簧管略宽, 使其能够在电梯轿厢到站平层时干簧管受到这一对永磁钢的磁场作用而可靠闭 合、 导通。 将已并接好的两个干簧管两端连线通过导线与上、 下楼层所有楼层 按上述同样方法安装、 连接的干簧管再串接在一起, 构成一个通路, 通过 A、 B 两点与控制电路相接, 这样若每层厅门都关闭到位时其若干个干簧管 (GBn、 GBn-1……)均受到各自楼层厅门所附的磁钢作用而闭合, 呈通路状态, 如若轿 厢到达任意一楼层平层开门时 (如到达 n- 3层时), 虽然厅门上的磁钢位置随之 移动、所安装的干簧管 (GBn-3)得不到磁场作用, 触点开路时, 但电流仍能通过 安装在厅门地坎上的干簧管 (GAn- 3)因轿厢地坎所附的一对磁钢作用而导通,构 成回路, 因此无论厅门是闭合还是打开着, 只要轿厢和厅门相对位置处于正常 (安全)位置时, A、 B间始终处于闭合的导通状态, 当下列情况出现时, A、 B两 点为幵路: ①电梯厅门没有关闭到位时轿厢发生移动 (开门走梯现象), 附在轿 厢上的磁钢一同被移开; ②电梯到站停层后, 轿厢平层超差过大, 厅门上的磁 钢又随厅门一同被移开时, 干簧管不能接收到相应的感应信号, 从而使 A、 B .间 呈开路状态。 As shown in Figure 1-4, a connected reed pipe (GBn, GBn-1...) is installed at a fixed position on each floor of the elevator door, at the corresponding position of the installed reed pipe, on each floor. The permanent magnet steel induced by the reed switch is installed on the door of the hall to adjust its position so that when the hall door is normally closed, the attached magnet can act on the reed switch installed to reliably close the contact. Turn on. Install a wire reed switch (GAn, GAn-1...) on the side of the floor door of the hall door, and fix the wire at both ends of the reed pipe installed on the hall door sill and install it on the floor. The position of the reed pipe at both ends of the wire is connected in parallel, and the position of the reed switch installed in the hall door sill is installed in the car sill to install a pair of permanent magnets for the sensing application, the spacing is slightly wider than the reed switch , so that the reed switch can be reliably closed and turned on by the magnetic field of the pair of permanent magnet steel when the elevator car arrives at the leveling level. Connect the two ends of the two reed pipes that have been connected to each other through the wires and all the floors on the upper and lower floors. The reed switches are connected in the same way as above, and then connected together to form a passage through A and B. The point is connected to the control circuit, so that if each floor door is closed in place, several of the reed switches (GBn, GBn-1, ...) are closed by the magnetic steel attached to the respective floor hall door, and are in a path state. , if the car When the car arrives on any floor to open the door (if it reaches the n-3 floor), although the position of the magnetic steel on the hall door moves with it, the installed reed switch (GBn-3) does not have a magnetic field, the contact When the circuit is open, the current can still be turned on by the reed switch (GAn-3) installed on the sill of the hall door due to the action of a pair of magnetic steel attached to the car sill, thus forming a loop, so that the hall door is closed. Still open, as long as the relative position of the car and the hall door is in the normal (safe) position, the gap between A and B is always in the closed state. When the following conditions occur, the two points A and B are the road: 1 elevator hall When the door is not closed, the car moves (opening the door), and the magnet attached to the car is removed together. 2 After the elevator stops at the station, the car level is too large, and the door is on the door. When the magnetic steel is removed together with the hall door, the reed switch cannot receive the corresponding sensing signal, so that A and B are in an open state.
图 1所示的检测电路 A、 B两点在电梯正常运行时始终是一个闭合的回路, 用于电梯应急照明供电的蓄电池电压一旦接入图 3电路, 与之相串联的检测继 电器 J1便处于吸合的工作状态,触点 Jl- 1吸合,当按下常开的按钮开关 AN时, 控制继电器 J2线圈两端得到工作电压, 触点吸合, 与按钮开关 AN相并联的触 点 J2-1是控制继电器 J2的自锁触点组,在控制继电器 J2线圈得到电压,触点 吸合后完成自锁、自保的过程,控制继电器 J2的另一组触点 J2- 2与电梯的"急 停"开关相串联, 通过电梯 "正常一捡修"开关中所增设的一组同步开关 Kx与 J2 - 2触点相并联, 如图 4所示。  The two points of the detection circuits A and B shown in Fig. 1 are always a closed circuit when the elevator is in normal operation. The battery voltage for the emergency lighting supply of the elevator is connected to the circuit of Fig. 3, and the detection relay J1 connected in series is in In the working state of the suction, the contact Jl-1 is sucked. When the normally open button switch AN is pressed, the working voltage is obtained at both ends of the control relay J2 coil, the contact is sucked, and the contact J2 in parallel with the push button switch AN is connected. -1 is the self-locking contact group of control relay J2, the voltage is obtained in the control relay J2 coil, the self-locking and self-protection process is completed after the contact is sucked, and another set of contacts J2- 2 of the control relay J2 and the elevator are The "emergency stop" switches are connected in series, and a set of synchronous switches Kx and J2 - 2 contacts added in the "normal one-time repair" switch of the elevator are connected in parallel, as shown in Fig. 4.
一旦检测电路检测到电梯层门与轿厢位置不在安全状态时, Α、 Β间开路, 检测继电器 J1无电压, 触点 Jl- 1开路, 控制继电器线圈 J2随之失去 工作电 压, 衔铁释放, 与电梯 "急停"开关 (如 Kl、 Κ2、 Κ3等)相串联的回路呈开路状 态, 使电梯处于停止运行状态, 当维修人员将 "正常一运行"开关拨到 "检修" 位置时,所增加的一副同步开关 Kx又将与电梯 "急停"开关相串联的触点 J2-2 短路, 使其操作人员只能够在井道内按检修方式来使轿厢移动, 只有当将电梯 "正常一检修"开关拨到 "运行"位置, 作业的人员离开井道底坑, 电梯厅门 关闭, 并且在机房进行复位操作之后, 电梯方能够以 "正常运行"方式运行, 达到消除轿厢对进入井道底坑作业人员产生伤害的目的。  Once the detection circuit detects that the elevator landing door and the car position are not in a safe state, the Α and Β open circuit, the detection relay J1 has no voltage, the contact Jl-1 is open, the control relay coil J2 loses the working voltage, the armature is released, and The circuit of the elevator "emergency stop" switch (such as Kl, Κ2, Κ3, etc.) is in an open state, so that the elevator is in a stop state. When the maintenance personnel put the "normal one run" switch to the "overhaul" position, the increase is increased. A pair of synchronous switch Kx will short-circuit the contact J2-2 in series with the elevator "emergency stop" switch, so that the operator can only move the car in the hoistway according to the maintenance mode, only when the elevator is "normal one" Overhaul the "switch to the "running" position, the operator leaves the pit sump, the elevator hall door is closed, and after the reset operation in the machine room, the elevator can operate in the "normal operation" mode to eliminate the car to enter the hoistway bottom Pit workers have the purpose of harm.
本实施例的防止电梯伤害事件发生的控制方法的具体的操作步骤可为: a、在每层电梯的厅门、地坎上设置一组相互并联的检测装置, 在厅门和轿 厢中相应位置处分别设置与检测装置对应的感应装簟, 将各层所述并联的检测 装置串接后串接于检测继电器 Jl与电源之间, 将检测继电器 J1中的一组触点 接于控制继电器线圈 J2和电源正极之间, 控制继电器线圈 J2的另一端接其本 身的一组常开触点 J2- 1并且和按钮开关 AN—同接于供电电源的负极, 将控制 继电器线圈 J2另外一触点组 J2- 2与电梯的 "急停"幵关相串联, 在电梯 "正 常一检修"开关回路中增设一组与该触点组 J2- 2相并联的同步开关 Kx; The specific operation steps of the control method for preventing the occurrence of an elevator injury event in this embodiment may be: a. A set of parallel detecting devices are arranged on the hall door and the ground sill of each floor elevator, correspondingly in the hall door and the car Inductive mounting corresponding to the detecting device is respectively disposed at the position, and the parallel detection of each layer is performed After the device is connected in series, it is connected between the detecting relay J1 and the power source, and a set of contacts in the detecting relay J1 is connected between the control relay coil J2 and the positive pole of the power supply, and the other end of the control relay coil J2 is connected to its own set. The normally open contact J2- 1 and the button switch AN- are connected to the negative pole of the power supply, and the other contact group J2 of the control relay coil J2 is connected in series with the "emergency stop" of the elevator. A maintenance switch "additional switch Kx connected in parallel with the contact group J2- 2 is added to the switch circuit;
b、 由上述的检测装置及感应装置对电梯厅门与轿厢的相对位置进行检测.; c、当出现轿厢到站平层超差过大或是电梯在未关闭厅门的情况下轿厢出现 向上、 向下方向移动时或是人工打开其他楼层电梯厅门时, 上述的检测装置发 出信号, 立即将电梯由原来的正常运行状态转换为 "停止"状态来实现电梯停 止运行, 待维修人员检修并到机房按动复位操作键后才能正常启动运行;  b. The relative position of the elevator hall door and the car is detected by the above detecting device and the sensing device. c. When the car is too wide or the elevator is not closed, the elevator is not closed. When the car moves upwards or downwards or manually opens the elevator doors of other floors, the above-mentioned detecting device sends a signal to immediately change the elevator from the normal operating state to the "stop" state to realize the elevator stop operation, to be repaired. After the personnel overhaul and go to the machine room and press the reset operation button, the operation can be started normally;
d、 当维修人员将电梯的 "正常一检修"开关拨到 "检修"位置时, 与控制 继电器线圈 J2的一组触点组 J2- 2相并联的同步开关 Kx将与电梯 "急停"开关 相串联的触点组 J2-2短路,操作人员在井道内操纵电梯轿厢时,只能够在电梯 厅门关闭的情况下在轿顶按检修方式来使轿厢移动, 只有当将电梯 "正常一检 修"开关拨到 "正常"位置, 作业的人员离开井道或底坑, 电梯厅门关闭, 并 且到机房进行复位操作之后, 电梯方能够以正常运行方式运行。  d. When the maintenance personnel dials the "normal one overhaul" switch of the elevator to the "overhaul" position, the synchronous switch Kx in parallel with the set of contact groups J2- 2 of the control relay coil J2 will be connected with the "emergency stop" switch of the elevator. The series contact group J2-2 is short-circuited. When the operator operates the elevator car in the hoistway, the car can only be moved in the maintenance mode when the elevator hall door is closed. Only when the elevator is "normal" When the maintenance switch is turned to the "normal" position, the operator leaves the hoistway or the pit, the elevator hall door is closed, and after the reset operation to the machine room, the elevator can operate in the normal operation mode.
所述的检测装置由干簧管及相应的连接导线组成, 干簧管分别设置在电梯 厅门和厅门地坎相应位置处, 设置在每层电梯厅门和厅门地坎的干簧管再用导 线并接后形成并接回路, 各楼层的并接回路相互串接后形成一串接回路, '再将 该串接回路按上述方法与检测继电器 J1及控制继电器线圈 J2相连。  The detecting device is composed of a reed switch and corresponding connecting wires, and the reed pipes are respectively disposed at corresponding positions of the elevator hall door and the hall door sill, and the reed switches are arranged on the elevator hall door and the hall door sill of each floor. Then, the wires are connected in parallel to form a parallel circuit, and the parallel circuits of each floor are connected in series to form a series circuit, and then the series circuit is connected to the detection relay J1 and the control relay coil J2 according to the above method.
所述的感应装置为磁钢, 安装在轿厢地坎相应处的磁钢的间距比设置在厅 门地坎上的干簧管略宽。  The sensing device is magnetic steel, and the spacing of the magnetic steel installed at the corresponding position of the car sill is slightly wider than the reed switch provided on the sill of the hall door.

Claims

权 利 要 求 Rights request
1、一种防止电梯伤害事件发生的控制装置,在每层电梯厅门的固定位置处安 装一接有导线的干簧管 GB,在该厅门上与所安装的干簧管对应位置处安装有相应 的永磁钢, 在该层厅门地坎一侧位置处也安装一接有导线的干簧管 GA, 将安装在 厅门地坎上的干簧管 GA两端导线与安装在该层固定位置处的干簧管 GB两端导线 相并接形成楼层并接回路;在轿厢地坎中与厅门地坎所安装的干簧管 GA相对应的 位置处安装有一对磁钢,其间距比干簧管 GA略宽,将各层已并接好的并接回路串 接后形成串接回路,将该串接回路连接于检测继电器 J1与电源之间,检测继电器 J1中的一组触点接于控制继电器线圈 J2和电源正极之间,控制继电器线圈 J2的 另一端接其本身的一组常开触点 J2-1并且和按钮开关 AN—同接于供电电源的负 极, 其特征是控制继电器线圈 J2另外一触点组 J2- 2与电梯的 "急停"开关相串 联, 通过电梯 "正常一检修"开关中所增设的一组同步开关 Kx与该触点组 J2-2 相并联。  1. A control device for preventing an elevator injury event from occurring. A reed pipe GB with a wire is installed at a fixed position of each elevator hall door, and is installed at a position corresponding to the installed reed pipe on the hall door. There is a corresponding permanent magnet steel, and a reed pipe GA connected with a wire is also installed at a side of the floor of the hall door, and the wire at both ends of the reed pipe GA installed on the hall door sill is installed The two ends of the reed switch GB at the fixed position of the layer are connected to form a floor and connected to the circuit; in the car sill, a pair of magnetic steel is installed at a position corresponding to the reed switch GA installed in the hall sill. The spacing is slightly wider than that of the reed switch GA, and the parallel connection of the layers is connected to form a series circuit, and the series circuit is connected between the detection relay J1 and the power source, and one of the relays J1 is detected. The group contact is connected between the control relay coil J2 and the positive pole of the power supply, and the other end of the control relay coil J2 is connected to its own set of normally open contacts J2-1 and is connected to the negative pole of the power supply with the push button switch AN. Characteristic is to control relay coil J2 another contact group J2- 2 is connected in series with the "Emergency Stop" switch of the elevator, and a set of synchronous switch Kx added in the "normal one-over" switch of the elevator is connected in parallel with the contact group J2-2.
2、根据权利要求 1所述的防止电梯伤害事件发生的控制装置,其特征是并联 在控制继电器线圈 J2另外一触点组 J2- 2的开关 Kx为电梯 "检修运行"按钮开关 中所增设的一个同步按钮开关组。  2. The control device for preventing the occurrence of an elevator injury event according to claim 1, wherein the switch Kx connected in parallel to the other contact group J2 of the control relay coil J2 is added in the elevator "overhaul operation" button switch. A sync button switch group.
3、根据权利要求 1所述的防止电梯伤害事件发生的控制装置,其特征是控制 继电器线圈 J2另外一触点组 J2-2及并联的开关 Kx或串接于电梯的 "安全"回路 或串接于电梯电机驱动运行继电器线圈回路或串接于电梯控制电路中的另外设置 的检测一控制点。  3. The control device for preventing the occurrence of an elevator injury event according to claim 1, wherein the control relay coil J2 has another contact group J2-2 and a parallel switch Kx or a "safe" circuit or string connected in series to the elevator. An additional detection detection point is connected to the elevator motor drive running relay coil circuit or serially connected to the elevator control circuit.
4、一种防止电梯伤害事件发生的控制方法,对电梯厅门与轿厢的相对位置进 行检测, 其特征在于一旦出现轿厢到站平层超差过大或是电梯在未关闭厅门的情 况下轿厢出现向上、 向下方向的移动时或是人工打开其他楼层电梯厅门时, 立即 将电梯由原来的正常运行状态转换为 "停止"状态来实现电梯停止运行, 当维修 人员将电梯的 "正常一检修"幵关拨到 "检修"位置时, 所增加的一副同步开关 又将与电梯 "急停"开关相串联的触点组短路, 其操作人员在井道内操纵电梯轿 厢时, 只能够在电梯厅门关闭时在轿顶按检修方式来使轿厢移动, 只有当将电梯 "正常一检修"开关拨到 "正常"位置, 作业的人员离开井道或底坑, 电梯厅门 关闭, 并且到机房进行复位操作之后, 电梯方能够以正常运行方式运行。  4. A control method for preventing an elevator injury event from occurring, detecting a relative position of an elevator hall door and a car, characterized in that once the car arrives at the station level, the over-range is too large or the elevator does not close the hall door. In the case where the car moves upwards or downwards or manually opens the elevator doors of other floors, the elevator is immediately switched from the normal operating state to the "stop" state to stop the elevator, when the maintenance personnel will lift the elevator When the "normal one overhaul" is turned to the "overhaul" position, the added synchronous switch will be short-circuited with the contact group in series with the elevator "emergency stop" switch, and the operator operates the elevator car in the hoistway. At the time of the elevator hall door, the car can only be moved in the maintenance mode when the elevator hall door is closed. Only when the elevator "normal one overhaul" switch is turned to the "normal" position, the working personnel leaves the hoistway or the pit, the elevator hall After the door is closed and the reset operation is performed in the machine room, the elevator can operate in normal operation.
PCT/CN2005/001060 2005-01-07 2005-07-18 A control system and method used for an elevator for preventing accidental injury WO2006072195A1 (en)

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