摘要:
A device and a method for informing passengers of an elevator installation in a building includes at least one information display at at least one start floor and/or at least one second information display in at least one car. The first information display indicates the arrival time of a car at a start or destination floor and the second information display indicates the arrival time of the car at a destination floor.
摘要:
A device and a method for informing passengers of an elevator installation in a building includes at least one information display at at least one start floor and/or at least one second information display in at least one car. The first information display indicates the arrival time of a car at a start or destination floor and the second information display indicates the arrival time of the car at a destination floor.
摘要:
An elevator installation has braking equipment for braking and holding an elevator car which moves in vertical direction within guide tracks or rails. The braking equipment consists of at least two brake units each comprising a normal force regulation device that sets a normal force (FN) in correspondence with a normal force value determined by a brake control unit and/or a locking device that locks the brake unit in a set braking position and which preferably maintains the set braking position in the case of an interrupted energy supply. The braking equipment provides a gentle braking or holding of the elevator car, which corresponds with the operational state of the elevator installation, with a low energy requirement.
摘要:
A circuit for the limitation of over-voltages in energy storage modules having a series circuit of energy storage elements connected between a first potential and a second potential includes voltage-limiting elements associated with combinations of the energy storage elements. Where “M” is the maximum number of directly interconnected energy storage elements of a predetermined combination, wherein for M≧2 a voltage-limiting element is connected in parallel with each combination and a respective voltage-limiting element is connected in parallel with a first energy storage element connected to the first potential and with an nth energy storage element connected to the second potential. For M>2 a respective voltage-limiting element is connected in parallel with each sub-combination of at least two directly interconnected energy storage elements of the combination having an energy storage element connected to the first potential or to the second potential.
摘要:
The invention relates to a lift system having a lift car (4) which can move vertically and horizontally, wherein vertical movement takes place along a vertical track (3) having a vertical guide rail (5), and horizontal movement is carried out by utilizing a car transfer device (13). The car transfer device has a horizontal displacement unit (16) into which a vertical guide rail piece (18) can be integrated, said guide rail piece guiding the lift car (4) in the horizontal displacement unit (16). The horizontal displacement unit can be positioned in such a manner that the guide rail piece (18) forms a section of the vertical guide rail (5). The lift cabin (4) can be fixed on the guide rail piece (18) during the horizontal displacement by means of a brake device (20).
摘要:
An elevator installation has braking equipment for braking and holding an elevator car which moves in vertical direction within guide tracks or rails. The braking equipment consists of at least two brake units each comprising a normal force regulation device that sets a normal force (FN) in correspondence with a normal force value determined by a brake control unit and/or a locking device that locks the brake unit in a set braking position and which preferably maintains the set braking position in the case of an interrupted energy supply. The braking equipment provides a gentle braking or holding of the elevator car, which corresponds with the operational state of the elevator installation, with a low energy requirement.
摘要翻译:电梯安装具有用于制动和保持电梯轿厢的制动设备,所述电梯轿厢在导轨或轨道内沿垂直方向移动。 制动设备包括至少两个制动单元,每个制动单元包括法向力调节装置,该法向力调节装置与由制动控制单元确定的法向力值相对应地设定法向力(F N N N),和/或 锁定装置将制动单元锁定在设定的制动位置,并且在中断的能量供应的情况下优选地保持制动位置。 制动设备以低能量需求提供对应于电梯安装的操作状态的电梯轿厢的缓和制动或保持。
摘要:
An elevator system has an elevator car which can move vertically along a vertical track having a vertical guide rail, and can move horizontally utilizing a car transfer device. The car transfer device has a horizontal displacement unit into which a vertical guide rail piece can be integrated, the guide rail piece guiding the elevator car in the horizontal displacement unit. The horizontal displacement unit can be positioned so that the guide rail piece forms a section of the vertical guide rail. The elevator car can be fixed on the guide rail piece during the horizontal displacement by a brake device.
摘要:
An elevator installation includes a first elevator car and a second elevator car, each having a respective braking device, and a safety system that monitors the elevator cars. The safety system has for each braking device a braking force regulating device for regulating a braking force of the respective braking device. The safety system activates at least one of the braking devices by the associated braking force regulating device in order to prevent collision of the first elevator car with the second elevator car.
摘要:
A lift car with a brake device which is arranged in the region of the lift car for holding and braking the latter; the brake device includes a brake unit which can interact with a brake rail, an actuating device which can generate an actuator force, and a connector which connects the actuating device to the brake unit in a force-active manner in order to transmit the actuator force, wherein the brake unit is in its open position in the unloaded position.
摘要:
A door controller and a method for inputting or adjusting one or more reference positions into the door controller have the controller connected to a door drive for moving a door and utilize a pulse encoder for monitoring a position of the door and a non-volatile memory for storing the reference position. In a learning mode a control force signal to the drive is reduced. Then the door is moved to the reference position and finally the reference position as recorded by the pulse encoder is registered in the memory of the controller.