EP4077190A1 - Frein de sécurité pour un ascenseur - Google Patents

Frein de sécurité pour un ascenseur

Info

Publication number
EP4077190A1
EP4077190A1 EP20821003.9A EP20821003A EP4077190A1 EP 4077190 A1 EP4077190 A1 EP 4077190A1 EP 20821003 A EP20821003 A EP 20821003A EP 4077190 A1 EP4077190 A1 EP 4077190A1
Authority
EP
European Patent Office
Prior art keywords
guide
braking
guide element
safety device
parallelogram
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP20821003.9A
Other languages
German (de)
English (en)
Other versions
EP4077190B1 (fr
Inventor
Michael Geisshüsler
Faruk Osmanbasic
Adrian Steiner
Julian STÄHLI
Volker Zapf
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Inventio AG
Original Assignee
Inventio AG
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 Inventio AG filed Critical Inventio AG
Publication of EP4077190A1 publication Critical patent/EP4077190A1/fr
Application granted granted Critical
Publication of EP4077190B1 publication Critical patent/EP4077190B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/02Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
    • B66B5/16Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well
    • B66B5/18Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well and applying frictional retarding forces
    • B66B5/22Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well and applying frictional retarding forces by means of linearly-movable wedges

Definitions

  • the present invention relates to a safety gear for an elevator.
  • a moving body in particular a car
  • a moving body is typically displaced vertically along a travel path between different floors or levels within a building.
  • an elevator type is used in which the car is held by rope or belt-like suspension elements and is moved within an elevator shaft by moving the suspension elements by means of a drive machine.
  • a counterweight is usually attached to an opposite end of the support means. Cabins and often also counterweights are protected by safety gears against falling into the shaft, as could occur, for example, due to a break in the suspension element or a lack of drive torque from the drive machine.
  • An electronically triggered safety gear has the advantage over the mechanically triggered safety gear that the relatively complex construction of a mechanical speed limitation system can be dispensed with and that the cause of the trip can be detected quickly by electronic sensors and on any sub-system of the elevator.
  • the electronically triggerable safety gear typically has an energy store, such as a spring, in order to be able to apply enough force or energy to trigger the brake when required. Therefore, electronically releasable safety gears have to be reset differently than conventional mechanical safety gears, since this energy store must be taken into account when resetting.
  • WO 2015 071188 A1 shows a rotatably mounted guide element which, when the safety gear is activated, is first pressed against the rail by a spring force and then pushed away from the rail again by the jammed braking element.
  • the brake element only touches the rail in the Bremsini tialposition at certain points, since the brake element rotates together with the foundedsele element.
  • an additional activation element is provided.
  • One task can be seen in making the triggering of the safety gear safer.
  • a safety gear for an elevator solves the task.
  • the safety gear comprises a first braking element, a first guide element, and an actuating element.
  • the first braking element is slidably mounted on the first guide element in a finear bearing.
  • the first guide element is movable between a position of rest and a braking initial position.
  • the actuating element is designed to move the first guide element from the rest position into the initial braking position, in particular to activate the safety gear.
  • the first braking element can execute a braking movement from the initial braking position into a braking position.
  • the braking movement returns the first guide element to the rest position.
  • the first guide element is guided on a first parallelogram guide.
  • an elevator with a moving body in particular a car, achieves the task.
  • the traveling body moves essentially vertically along a travel path between different floors. Rails are attached along the travel path.
  • the traveling body has a safety device according to the first aspect of the invention, which can brake the traveling body on the rail.
  • the rail is preferably arranged in the elevator in such a way that at least part of the rail is arranged between the braking elements of a safety gear.
  • the rail is arranged between the first braking element and a second braking element.
  • the safety gear comprises a first guide element on which a first braking element is linearly guided and which can be driven by an actuating element. While the safety gear is in use, the safety gear passes through the alternating states of rest position, initial braking position and Brake position up. The states differ in the different positions or positions of the components of the safety gear, in particular in different positions or positions of the first guide element, the first braking element and the actuating element.
  • the actuating element feeds the guide element and the braking element guided on it to the rail if activation of the safety brake is indicated by a signal.
  • the safety gear is moved from the rest position to the initial braking position, in which a brake lining of the braking element comes into full contact with the rail.
  • the brake lining is designed to be pressed against the rail and a friction surface provided for this purpose is oriented essentially parallel to the rail surface.
  • the parallelogram guide essentially comprises four articulated arms, each articulated arm having two joints.
  • the articulated arms are connected to one another at the joints in such a way that a square is formed.
  • the opposing articulated arms have the same distance between the joints, so that the square represents a parallelogram.
  • the articulated arms are typically designed as pendulum supports, that is, as a rod or beam, which preferably has the two joints in the vicinity of its two ends.
  • the housing or the guide element are also considered to be an articulated arm if they have two joints which are arranged and, in particular, are spaced apart such that they are suitable as an articulated arm.
  • articulated arms are on the one hand rods with at least two joints, on the other hand, for example, the housing, if it comprises at least two joints, corresponds to an articulated arm.
  • a parallelogram arm is a special articulated arm of the parallelogram guide which rotates when the parallelogram guide moves. It stands out from the guide elements and the housings, which, relative to the housing, are fixed immovably or are displaced in parallel. In the rest position, the parallelogram arms preferably form an angle of less than 45 °, or a complementary angle of more than 135 °, with the guide element. A movement of the parallelogram guide out of the rest position therefore has an essential movement component normal to a friction surface of the brake lining.
  • the braking element is guided on the guide element via a linear bearing.
  • the linear bearing is used to guide the braking element along a straight line in the direction of extension of the linear bearing.
  • the linear bearing can be installed as a separate structural element between the braking element and the guide element, or the guide element and the braking element are designed in the contact area in such a way that the interaction of the two contact areas results in a linear bearing.
  • guided needle roller bearings and roller bearings are well suited as linear bearings.
  • the linear bearing can also be designed as a sliding surface.
  • the direction of extension of the linear bearing is advantageously slightly inclined with respect to the friction surface of the brake lining, which is advantageously oriented vertically.
  • a displacement of the braking element from the initial braking position into the braking position initially pushes the guide element back into the rest position, and then leads to the rail jamming between the braking elements.
  • the guide element In the braking position, which for the guide element is identical to the rest position, the guide element is in contact with the housing.
  • the normal forces due to the braking, which are transmitted from the braking element to the guide element, are introduced into the housing by the guide element.
  • the housing is preferably designed in such a way that it counteracts the guide element with a predefined force and thereby ensures a predefined normal force on the brake lining of the brake element.
  • the housing can be designed to be flexible due to its construction, or it can have pretensioned springs, in particular pretensioned disc spring assemblies, which yield at the predefined force.
  • the adjustment from the rest position to the initial braking position of the guide element is caused by the actuating element.
  • the actuating element preferably causes a linear or rotary movement, which then occurs directly or via mechanical components such as, for example, gears, lever arms, cables, push rods or hydraulic ones Systems is transferred to the guide element.
  • the movement can also be transmitted indirectly, as will be explained below.
  • the braking movement is the movement that is caused by the frictional engagement of the braking element on the rail. That means the relative movement of the rail relative to the braking element, moves the braking element and the guide element towards the braking position via frictional forces.
  • One advantage of the safety gear is that the braking movement also brings the adjusting element back into a position that corresponds to the rest position. As a result, any spring that may be present in the adjusting element is tensioned again in particular.
  • the parallelogram arms only absorb very small forces.
  • the forces that act on the parallelogram arms only serve to hold the guide element and the braking element and possibly to push back the adjusting element.
  • the large forces such as the normal force on the braking element and the resulting frictional force that arise in the braking position on the braking element, are transmitted directly to the housing from the braking element and the guide element.
  • the normal force on the braking element is introduced into the housing via the guide element.
  • the friction force is transmitted directly from the brake element to the housing via the brake stop.
  • the parallelogram arms are not involved in both power transmissions.
  • the first parallelogram guide guides the first guide element on an adjusting slide.
  • a second parallelogram guide guides a second guide element on the adjusting slide.
  • the safety device can have an adjusting slide which is connected to the first guide element and preferably also to the second guide element via a parallelogram guide.
  • the adjusting slide can be moved by the adjusting element, which leads to an infeed of the two guide elements together with their braking elements on the rail.
  • the adjusting slide is a first indirect type of transmission of the movement from the adjusting element to the guide element.
  • a second braking element is preferably attached to the second guide element.
  • the adjusting element moves the adjusting slide relative to the housing.
  • the adjusting slide is guided in a third linear bearing on the housing.
  • the adjusting element preferably moves the adjusting slide directly.
  • the adjusting element is preferably fastened to the housing and moves the guide elements by means of an adjusting mechanism.
  • the adjusting element can also be attached to the guide element.
  • the actuating mechanism is connected to the housing.
  • the guide elements are preferably also guided in a further guide which guides the guide elements along a direction perpendicular to the friction surface of the brake lining.
  • the guide elements thus each have only one possible direction of movement, and this is a linear displacement perpendicular to the friction surface of the brake lining. Essentially, they are moving towards or away from the rail. Moving the adjusting slide against the braking movement and the additional guide brings the guide elements closer together.
  • the adjusting slide is preferably attached centrally between the two guide elements.
  • the two guide elements can be adjusted synchronously, in particular if the adjusting slide is guided centrally between the two guide elements through the third linear bearing. If the adjusting slide is not guided, the guide elements can be elastically connected to the housing so that the braking elements are kept at a sufficient distance from one another and can be advanced synchronously.
  • the safety device preferably has only a single adjusting slide and a single adjusting element.
  • a third linear bearing has the advantage that the power transmission from the adjusting element to the adjusting slide can be designed more simply. Another advantage is that the adjusting slide guided through the third linear bearing also guides the first and second guide elements in a predetermined, preferably vertical, alignment via the first and second parallelogram guides.
  • the third linear bearing guides the adjusting slide preferably in a central position along the direction of travel.
  • the slide valve is held in a vertical orientation by the linear bearing.
  • the guide elements are connected to the adjusting slide via the parallelogram guide and are therefore also kept in a vertical orientation.
  • the first parallelogram guide guides the first guide element on a housing.
  • the actuating element moves the first guide element directly.
  • the housing has an area which can be attached to a Fahrkör by means of attachment means.
  • bores are preferably provided so that the safety device can be screwed onto the traveling body.
  • the Ge housing is used to accommodate the components of the safety gear.
  • a safety gear according to the second alternative embodiment has a first guide element which is attached to the housing via a parallelogram guide.
  • the adjusting element it can be advantageous for the adjusting element to act directly on the guide element.
  • the safety device according to the second alternative embodiment preferably has only a first guide element. On the opposite side of the rail, only one fixed braking element is then attached. So a braking element that is firmly connected to the housing. As a result, this embodiment of the safety device is less expensive to manufacture, since it has only a few parts.
  • the safety device according to the second alternative embodiment can have a fixed guide element on the side of the rail opposite the first braking element, which guide element comprises a linearly displaceable braking element. The guide element is therefore firmly connected to the housing.
  • the embodiment of the safety device is less expensive to manufacture and is also very easy to release.
  • the actuating element preferably has an actuating element base plate which is firmly connected to the housing of the safety gear and which serves to accommodate the components of the actuating element.
  • the adjusting element comprises an adjusting mechanism to transmit the movement that the adjusting element generates relative to the housing.
  • the adjusting mechanism moves the adjusting slide or a guide element.
  • a counter-bearing stop is designed on the housing for a guide element.
  • the housing of the safety gear can accommodate the guide elements and serves as a counter bearing for the guide elements.
  • the counter bearing has a counter bearing stop.
  • the guide element In the braking position, the guide element is firmly pressed against a counter-bearing stop. In the rest position, the guide element is preferably in contact with the counter-bearing stop.
  • two guide elements, each with a brake element can be mounted on opposite sides of the rail so that the rail can be clamped between the brake elements.
  • the housing can have a fixed braking element which is fixedly mounted on the housing and which is placed opposite the guide element and the braking element assigned to the guide element.
  • the housing is designed so that it can absorb the forces that arise in the braking position.
  • the housing is designed to be flexible in order to generate a normal force on the braking element that is as constant as possible for differently heavily worn braking elements. This also ensures that the normal force and thus also the frictional force remain below a maximum permissible value.
  • the first parallelogram guide guides the first guide element on the second guide element.
  • the second guide element can be firmly attached to the housing. The advantage of this embodiment is that a guide element guides the braking elements on both sides of the rail. This makes it very easy to lift the Fangvor direction out of the braking position. Since both brake pads slide easily along the respective guide element.
  • the parallelogram guide has an actuatable parallelogram arm which is connected to the guide element.
  • the parallelogram arm that can be activated can be activated directly by the adjusting element.
  • the actuatable parallelogram arm preferably has a further joint via which the actuating mechanism on the parallelogram arm transmits the movement.
  • the transmission of the movement by means of the parallelogram arm is a further indirect transmission of the movement from the control element to the guide element.
  • the actuating element can be activated by an electrical or electronic trigger signal.
  • a CAN bus can deliver a data packet, ie an electronic signal, to a control unit of the safety brake, whereby the control unit activates a servomotor that causes the actuating element to move.
  • the servomotor or the electromagnet and the control unit are operated with energy from an external or internal power source of the safety gear.
  • the application of a voltage or a current to an electrical connection, i.e. an electrical signal, a servomotor or an electromagnet can also operate directly.
  • the servomotor or the electromagnet is supplied with power directly via the electrical connection.
  • the actuating element comprises an energy store, a holding element and an electromagnet.
  • the electromagnet holds the holding element against the force of the energy store.
  • the electrical or electronic trigger signal releases the energy store.
  • the electrical or electronic trigger signal releases the energy storage device by switching off the current flow.
  • the energy store is designed as a spring.
  • an energy store typically a tensioned spring, is held by an electromagnet in such a way that it does not move. Due to the constant power supply of the safety gear, the electromagnet can attract the holding element and thereby prevent the movement of the energy store.
  • the electromagnet is preferably firmly connected to the actuating element base plate.
  • the holding element with the spring and the adjusting mechanism are movably attached to the adjusting element base plate.
  • the Halteele element can be firmly connected to the actuating element base plate, and the electromagnet with the spring and the actuating mechanism are movably attached to the actuating element base plate.
  • springs can be understood to mean steel springs, elastomer springs or even gas pressure springs.
  • the springs can be installed as tension springs, compression springs or torsion springs.
  • the parallelogram guide has one or the parallelogram arm which is connected to the guide element.
  • An acute first angle between a direction of extent of the parallelogram arm and a perpendicular to the friction surface of the brake lining in the initial braking position is greater than an acute second angle between the direction of the linear bearing on the guide element and a perpendicular to the friction surface of the brake lining in the initial braking position.
  • the first acute angle is at least 10 ° larger than the second acute angle.
  • FIG. 1a shows a safety device according to the first alternative embodiment in the rest position
  • FIG. 1b shows a safety device according to the first alternative embodiment in the initial braking position
  • Fig. Lc a safety device according to the first alternative embodiment in the braking position
  • FIG. 2a shows a safety device according to the second alternative embodiment in the rest position
  • FIG. 2b shows a safety device according to the second alternative embodiment in the initial braking position
  • FIG. 2c shows a safety device according to the second alternative embodiment in the braking position
  • Fig. 4 shows a safety gear with an adjusting element which is partially in the
  • FIGS. la to lc show a safety gear 1 according to the first alternative Ausrete approximately.
  • the safety gear 1 is designed to clamp a rail 6 if necessary, and thereby achieve a braking effect.
  • the adjusting mechanism 19, which is a Generalkompo component of the adjusting element 15 holds the adjusting slide 18.
  • the two guide elements 12a, 12b are far apart, so that the elements on the Flickele 12a , 12b guided braking elements 1 la, 1 lb are spaced sufficiently far from the rail 6.
  • the guide elements 12a, 12b lie against the counter-bearing stops 27 the counter bearing 25.
  • the counter bearings 25 are part of the housing 13.
  • the parallelogram arms 17 connect the two guide elements 12 a, 12 b to the adjusting slide 18.
  • the actuating element 15 is caused by a signal to move the actuating mechanism 19 in the triggering direction 35, and thereby to move the setting slide 18 in the direction of the triggering movement 37.
  • the initial braking position as shown in FIG. 1b, is reached.
  • the guide elements 12 can only move perpendicular to the direction of the triggering movement 37, they move closer to one another and away from the respective counter-bearing stop 27.
  • the braking elements 1 la, 1 lb are pressed against the rail 6 with a sufficiently large normal force, they move along the guide elements 12a, 12b in the direction of the braking position, as shown in FIG.
  • the guide elements 12a, 12b are pressed away from the rail 6.
  • the guide elements 12a, 12b are pressed as far as the counter bearing stops 27.
  • a further movement of the braking elements 1 la, 1 lb acts be a sharp increase in the normal force on the braking elements 1 la, 1 lb.
  • the braking elements 1 la, 1 lb are shifted further until they reach the two brake stops 21.
  • the housing 13 of the safety brake is designed so that the counter bearing stops 27 yield slightly under the load of the normal forces and thereby a required normal force is kept essentially constant, even if the braking elements 1 la, 1 lb during the braking process or over several braking processes be rubbed off.
  • the braking position is shown in Fig. Lc.
  • the advantage of the invention is shown by the fact that the movement from the initial braking position into the braking position also shifts the actuating mechanism 19 and thus also the actuating element 15.
  • the adjusting mechanism 19 and thus also the adjusting element 15 are again in the same position or position as in the original rest position.
  • the energy store in the actuating element 15 is also tensioned again. No further energy supply is necessary in order to tension the energy store in the actuating element 15 again.
  • FIGS. 2a to 2c show a safety gear 1 according to the second alternative embodiment.
  • the basic functionality is the same as the first one Alternative embodiment.
  • the adjusting element 15 is not shown. Possible configurations for a suitable adjusting element 15 are shown in FIGS. 3, 4 and 5.
  • FIG. 2a shows the rest position of the safety gear 1.
  • the guide element 12 is moved into the initial braking position by the adjusting element (not shown).
  • the braking element 11a is pressed against the rail 6 with a sufficiently large normal force, it moves along the guide element 12 in the direction of the braking position.
  • the braking element 11a of the safety device 1 presses so strongly on the rail 6 that the safety device 1, together with the entire traveling body, moves sideways until the stationary braking element 41 also touches the rail 6.
  • the guide element 12 is displaced as far as the counter bearing stop 27 of the counter bearing 25.
  • the counter bearing 25 is firmly connected to the housing 13.
  • the housing 13 of the safety brake is designed so that the counter-bearing stop 27 and the stationary braking element 41 yield slightly under the load of the normal forces and thereby a required normal force is kept essentially constant, even if the braking elements 11a, 41 during the braking process or over several Braking processes were worn.
  • the force that is carried on the linear bearing between the guide element 12 and the braking element 11 acts perpendicular to the direction of the linear bearing, since the linear bearing is essentially frictionless.
  • the fact that the first angle ⁇ is greater than the second angle ⁇ ensures that the force that is transmitted at the linear bearing between the guide element 12 and the braking element 11 presses on the guide element 12 at an angle, so that the, supported by the parallelogram, Guide element 12 is pushed back towards the rest position.
  • Fig. 3 shows a safety device 1 according to the second alternative embodiment with a first embodiment of the adjusting element 15.
  • the adjusting element acts here an actuatable parallelogram arm 81.
  • the actuatable parallelogram arm 81 is elongated compared to a conventional parallelogram arm 17, which is just long enough to connect the two joints.
  • An electromagnet 101 is designed to hold a holding element 102.
  • the holding element 102 is set under tension via a spring 103.
  • the spring 103 is therefore a tension spring.
  • the power supply to the electromagnet 101 is interrupted as a trigger signal.
  • the holding element 102 is released from the electromagnet 101, and the spring 103 moves the guide element 12a into the Bremsinitialposi tion by means of the actuatable parallelogram arm 81.
  • the guide element 12a is again in contact with the counter-bearing stop 27 of the counter-bearing 25.
  • the actuatable parallelogram arm 81 and the holding element 102 are in the same position as in the original rest position.
  • the electromagnet 101 thus holds the holding element 102 again as soon as it is supplied with power again.
  • FIG. 4 shows a safety device 1 according to the second alternative embodiment with a second embodiment of the actuating element 15.
  • the electromagnet 101 is designed to hold the holding element 102.
  • the holding element 102 is executed on the guide element 12.
  • the guide element 12 is placed under tension via the spring 103.
  • the spring 103 is therefore a tension spring.
  • a spring could be attached to the electric magnet 101, such a spring would then act as a compression spring.
  • the power supply to the electromagnet 101 is interrupted as a trigger signal.
  • the retaining element 102 is released from the electromagnet 101, and the spring 103 moves the guide element 12 into the initial braking position.
  • the guide element 12 In the braking position, the guide element 12 is then again in contact with the counter-bearing stop 27 of the counter-bearing 25. As a result, the holding element 102 is also in the same position as in the original rest position. The electromagnet 101 thus holds the holding element 102 again as soon as it is supplied with power again.
  • FIG. 5 shows an actuating element 15 which, as a modular component for a safety gear 1, can easily be exchanged if necessary.
  • this Swiftle element 15 is suitable for use in the safety gear 1 according to the first alternative embodiment as shown in FIGS. la to lc shown.
  • This adjusting element 15 is also suitable for use in the safety gear 1 according to the second alternative embodiment as shown in FIGS. 2a to 2c shown.
  • the electromagnet 101 is designed for this Holding element 102 to hold.
  • the electromagnet 101 is fastened to the actuating element 15, and the holding element 102 is movably supported together with the actuating mechanism 19.
  • the holding element 102 could also be attached to the actuating element 15, and the electromagnet 101 could be movably mounted on the actuating element guide 104 together with the actuating mechanism 19.
  • the guide element 12 is placed under tension via the spring 103.
  • the spring 103 is therefore a tension spring.
  • the power supply to the electromagnet 101 is interrupted as a trigger signal.
  • the holding element 102 is released from the electromagnet 101, and the spring 103 moves the actuating mechanism 19.
  • the actuating mechanism 19 is moved back again, so that the electromagnet 101, as soon as it is supplied with power again, the holding element 102 can hold.
  • FIG. 6 shows an elevator 201 with a traveling body 202.
  • a drive 204 to which the traveling body 202 is connected to a suspension means 203, the traveling body 202 is displaced along a travel path.
  • Rails 6 are attached along the travel path.
  • the running body is guided on the rail via guide shoes 205.
  • the safety devices 1 are designed to be able to brake the traveling body 202 on the rail 6.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Maintenance And Inspection Apparatuses For Elevators (AREA)
  • Braking Arrangements (AREA)
  • Cage And Drive Apparatuses For Elevators (AREA)
  • Elevator Control (AREA)
  • Lift-Guide Devices, And Elevator Ropes And Cables (AREA)

Abstract

Un frein de sécurité comprend un premier élément de frein, un premier élément de guidage et un élément de réglage. Le premier élément de frein est monté d'une manière déplaçable dans un palier linéaire sur le premier élément de guidage. Le premier élément de guidage peut être déplacé entre une position de repos et une position initiale de freinage. L'élément de réglage est conçu pour déplacer le premier élément de guidage de la position de repos à la position initiale de freinage, plus particulièrement pour activer le frein de sécurité. Le premier élément de freinage peut mettre en œuvre un mouvement de freinage de la position initiale de freinage vers une position de freinage. Le mouvement de freinage rétablit le premier élément de guidage dans la position de repos. Le premier élément de guidage est guidé sur un premier guide en parallélogramme.
EP20821003.9A 2019-12-17 2020-12-11 Dispositif d'arrêt pour un ascenseur Active EP4077190B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP19217111 2019-12-17
PCT/EP2020/085811 WO2021122385A1 (fr) 2019-12-17 2020-12-11 Frein de sécurité pour un ascenseur

Publications (2)

Publication Number Publication Date
EP4077190A1 true EP4077190A1 (fr) 2022-10-26
EP4077190B1 EP4077190B1 (fr) 2023-11-15

Family

ID=68944291

Family Applications (1)

Application Number Title Priority Date Filing Date
EP20821003.9A Active EP4077190B1 (fr) 2019-12-17 2020-12-11 Dispositif d'arrêt pour un ascenseur

Country Status (9)

Country Link
US (1) US11840425B2 (fr)
EP (1) EP4077190B1 (fr)
JP (1) JP2023506904A (fr)
KR (1) KR20220110220A (fr)
CN (1) CN114829283B (fr)
AU (1) AU2020405929B2 (fr)
BR (1) BR112022011686A2 (fr)
ES (1) ES2967052T3 (fr)
WO (1) WO2021122385A1 (fr)

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Publication number Priority date Publication date Assignee Title
WO2021099562A1 (fr) * 2019-11-21 2021-05-27 Inventio Ag Parachute électronique à réarmement aisé
KR102727088B1 (ko) * 2022-11-18 2024-11-06 세메스 주식회사 제동 장치 및 제동 장치를 포함하는 타워리프트
CN117303157A (zh) * 2023-11-27 2023-12-29 江苏省方正电梯有限公司 一种电梯防坠落装置

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EP1205418B1 (fr) 2000-11-13 2010-04-21 Cobianchi Liftteile Ag Dispositif de freinage pour ascenseur
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PL3068719T3 (pl) * 2013-11-15 2019-07-31 Inventio Ag Chwytacz dla dźwigu
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BR112022011686A2 (pt) 2022-09-13
CN114829283A (zh) 2022-07-29
CN114829283B (zh) 2025-04-01
US11840425B2 (en) 2023-12-12
AU2020405929A1 (en) 2022-06-30
EP4077190B1 (fr) 2023-11-15
KR20220110220A (ko) 2022-08-05
ES2967052T3 (es) 2024-04-25
US20220356044A1 (en) 2022-11-10
WO2021122385A1 (fr) 2021-06-24
AU2020405929B2 (en) 2024-07-18

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