Patents by Inventor Pekka Perala
Pekka Perala has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11891272Abstract: A method for allocating capacity of an energy storage associated with at least one passenger transport installation includes continuously monitoring performance data of the energy storage; obtaining first data associated with operating the at least one passenger transport installation; identifying different uses for the energy stored in the energy storage; determining an allocation of energy storage capacity available for the different uses based on the performance data and the first data; and applying the determined allocation.Type: GrantFiled: October 23, 2018Date of Patent: February 6, 2024Assignee: KONE CORPORATIONInventors: Pekka Perunka, Pekka Perälä, Tapio Tyni, Janne Öfversten, Ari Hänninen
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Publication number: 20230032412Abstract: A method of monitors a climate quality within a building having an elevator running between floors of an elevator hoistway. The elevator car of the elevator includes at least an air-quality sensor. The method is characterized in that a fan of the elevator car is running when the door(s) of the car is/are opening at a floor station to suck air from the building's floor level into the elevator car to the vicinity of the air-quality sensor and sensing the air-quality by the sensor preceding to generating data of the air-quality.Type: ApplicationFiled: October 7, 2022Publication date: February 2, 2023Applicant: KONE CorporationInventors: Pekka Perunka, Pekka Perälä
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Publication number: 20220112049Abstract: To have information on power consumption of an elevator, escalator and/or a moving walkway, an apparatus-specific static power consumption model modelling power consumption and being parametrized with apparatus-specific parameter is used with a distance to travel, a time and a load determined from controller events to calculate and output a total power consumed.Type: ApplicationFiled: September 14, 2021Publication date: April 14, 2022Applicant: KONE CorporationInventors: Pekka Perunka, Pekka Perälä, Pasi Raitola, Mirko Ruokokoski, Toni Tukia, Mikael Krantz, Tapio Tyni
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Publication number: 20220106156Abstract: An elevator and a method for determining energy and/or power consumption of an elevator, the elevator comprising a drive system comprising a drive unit for driving an electric motor and an elevator control system for controlling the drive system, wherein at least two different operating states are used for the elevator. The method comprises measuring at least part of power and/or energy consumption of the drive system, at least when the elevator is moving, determining duration which the elevator spends in different operating states of the elevator, and determining energy and/or power consumption of the elevator based at least in part on the measured power and/or energy consumption of the drive system and determined and/or estimated energy and/or power consumption in different operating states of the elevator.Type: ApplicationFiled: September 8, 2021Publication date: April 7, 2022Applicant: KONE CorporationInventors: Pekka Perälä, Pekka Perunka, Juhamatti Nikander, Tapio Tyni
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Patent number: 11001479Abstract: A conveyor arrangement, a conveyor system and a method for determining a load estimate in a people conveyor arrangement, such as an escalator arrangement or horizontal or inclined autowalk arrangement include using a power model of the people conveyor arrangement, which power model includes e.g. motor model components and/or people conveyor model components, having at least a friction monitoring mode, and determining in the friction monitoring mode a friction estimate of the conveyor arrangement based at least in part on the measured or determined motor power, the power model of the people conveyor arrangement, and a speed of the step or pallet chain and/or a speed of the handrail.Type: GrantFiled: September 14, 2020Date of Patent: May 11, 2021Assignee: KONE CORPORATIONInventors: Tapio Tyni, Pekka Perälä
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Publication number: 20210122612Abstract: A conveyor arrangement, a conveyor system and a method for determining a load estimate in a people conveyor arrangement, such as an escalator arrangement or horizontal or inclined autowalk arrangement include using a power model of the people conveyor arrangement, which power model includes e.g. motor model components and/or people conveyor model components, having at least a friction monitoring mode, and determining in the friction monitoring mode a friction estimate of the conveyor arrangement based at least in part on the measured or determined motor power, the power model of the people conveyor arrangement, and a speed of the step or pallet chain and/or a speed of the handrail.Type: ApplicationFiled: September 14, 2020Publication date: April 29, 2021Applicant: KONE CorporationInventors: Tapio Tyni, Pekka Perälä
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Patent number: 10990071Abstract: According to an aspect, there is provided a method for managing power demand of a plurality of passenger transport installations in at least one building. The method comprises obtaining first data on available time-dependent power consumption flexibility capacity from each passenger transport installation; obtaining second data from at least one external data source, the second data being independent from operation of the passenger transport installations; determining an activation order for power demand management of the plurality of passenger transport installations based on the obtained first data and second data; and transmitting a passenger transport installation specific activation signal for the power demand management to at least one passenger transport installation of the plurality of passenger transport installations in accordance with the activation order.Type: GrantFiled: October 23, 2018Date of Patent: April 27, 2021Assignee: KONE CORPORATIONInventors: Pekka Perunka, Pekka Perälä, Tapio Tyni, Janne Öfversten, Ari Hänninen
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Publication number: 20190330016Abstract: A method for determining the mass of a car and counterweight of an elevator, running in an elevator shaft along their traveling paths driven by an elevator motor, in which method at least one test run is performed preferably as complete round trip of the elevator car and counterweight, in which test run a) the hoisting system balance mB, b) the hoisting system friction F?S, and c) the hoisting system compensation ?B is calculated from constant speed data, and in which test run d) the hoisting system inertia mass mI is calculated from constant acceleration/deceleration data. From these parameters the weight of the car and counterweight is calculated without any need of weight measurements, but merely by using the power data of the elevator drive unit.Type: ApplicationFiled: July 5, 2019Publication date: October 31, 2019Applicant: KONE CorporationInventors: Tapio TYNI, Pekka PERÄLÄ
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Publication number: 20190135578Abstract: A method for allocating capacity of an energy storage associated with at least one passenger transport installation includes continuously monitoring performance data of the energy storage; obtaining first data associated with operating the at least one passenger transport installation; identifying different uses for the energy stored in the energy storage; determining an allocation of energy storage capacity available for the different uses based on the performance data and the first data; and applying the determined allocation.Type: ApplicationFiled: October 23, 2018Publication date: May 9, 2019Applicant: KONE CorporationInventors: Pekka PERUNKA, Pekka PERÄLÄ, Tapio TYNI, Janne ÖFVERSTEN, Ari HÄNNINEN
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Publication number: 20190137961Abstract: According to an aspect, there is provided a method for managing power demand of a plurality of passenger transport installations in at least one building. The method comprises obtaining first data on available time-dependent power consumption flexibility capacity from each passenger transport installation; obtaining second data from at least one external data source, the second data being independent from operation of the passenger transport installations; determining an activation order for power demand management of the plurality of passenger transport installations based on the obtained first data and second data; and transmitting a passenger transport installation specific activation signal for the power demand management to at least one passenger transport installation of the plurality of passenger transport installations in accordance with the activation order.Type: ApplicationFiled: October 23, 2018Publication date: May 9, 2019Applicant: KONE CorporationInventors: Pekka Perunka, Pekka Perälä, Tapio Tyni, Janne Öfversten, Ari Hänninen
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Patent number: 9975730Abstract: In a method for performing a balance check with an elevator, a power model of the elevator is established, including the motor power fed to the motor (PM) and power parameters of the motor and the moved components in the hoistway (PK, PP, PFr, PCu, PFe), a test run of the elevator is made, mid motor power values for the up and down direction are determined, i.e. the power fed to the motor at the instant when the car is moving through the middle of the travelling path of the elevator in up and down direction with constant velocity, the difference between the mid power value in up and down direction is determined, the balancing weight difference is obtained from said mid power value difference. This method allows an easy determination of the elevator balance preferably in course of modernizations of an elevator system with a new elevator motor.Type: GrantFiled: July 29, 2015Date of Patent: May 22, 2018Assignee: KONE CORPORATIONInventors: Pekka Perälä, Riku Lampinen, Risto Jokinen, Tapio Tyni
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Patent number: 9586790Abstract: An arrangement and a method for monitoring the operational condition of an automatic door in an elevator, particularly a passenger and/or goods elevator, or in a building, the arrangement includes an automatic door which includes one or more door leaves, which slide horizontally in their location, a door operator, which includes a door motor and a door mechanism for moving the door leaf horizontally in its location, a closing device for closing the automatic door, a control system for the door operator for controlling the door motor, a device configured to define the operational condition of the closing device and the door mechanism of the automatic door, the device configured to define the operational condition of the closing device and the door mechanism of the automatic door includes a mechanism configured to determine the mechanical energy of the shaft in the door motor of the automatic door during an operating cycle.Type: GrantFiled: April 30, 2014Date of Patent: March 7, 2017Assignee: KONE CORPORATIONInventors: Tapio Tyni, Pekka Perälä, Jouko Kinnari
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Publication number: 20150329320Abstract: In a method for performing a balance check with an elevator, a power model of the elevator is established, including the motor power fed to the motor (PM) and power parameters of the motor and the moved components in the hoistway (PK, PP, PFr, PCu, PFe), a test run of the elevator is made, mid motor power values for the up and down direction are determined, i.e. the power fed to the motor at the instant when the car is moving through the middle of the travelling path of the elevator in up and down direction with constant velocity, the difference between the mid power value in up and down direction is determined, the balancing weight difference is obtained from said mid power value difference. This method allows an easy determination of the elevator balance preferably in course of modernizations of an elevator system with a new elevator motor.Type: ApplicationFiled: July 29, 2015Publication date: November 19, 2015Applicant: KONE CorporationInventors: Pekka Perälä, Riku Lampinen, Risto Jokinen, Tapio Tyni
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Publication number: 20150019182Abstract: The invention refers to a method for obtaining the system parameters of a transport system, particularly an elevator, in which method a) at least first and second input parameters of the transport system are determined, b) a power model fitting to the transport is provided, which power model comprises motor model components and hoistway model components, c) model parameters describing power flow in the transport system are fitted into the power model, d) the model parameters are optimized under use of at least one of the input parameters of the elevator, e) the optimized model parameters are post processed to obtain at least one of the system parameters of the transport system. The system provides missing system information about a transport system, particularly in cases in which an existing system is to be renovated with a new motor.Type: ApplicationFiled: July 18, 2014Publication date: January 15, 2015Inventors: Tapio TYNI, Pekka PERÄLÄ
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Publication number: 20140339024Abstract: An arrangement and a method for monitoring the operational condition of an automatic door in an elevator, particularly a passenger and/or goods elevator, or in a building, the arrangement includes an automatic door which includes one or more door leaves, which slide horizontally in their location, a door operator, which includes a door motor and a door mechanism for moving the door leaf horizontally in its location, a closing device for closing the automatic door, a control system for the door operator for controlling the door motor, a device configured to define the operational condition of the closing device and the door mechanism of the automatic door, the device configured to define the operational condition of the closing device and the door mechanism of the automatic door includes a mechanism configured to determine the mechanical energy of the shaft in the door motor of the automatic door during an operating cycle.Type: ApplicationFiled: April 30, 2014Publication date: November 20, 2014Applicant: KONE CorporationInventors: Tapio TYNI, Pekka Perälä, Jouko KINNARI
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Patent number: 7971688Abstract: A system and a method for the adaptation of parameters in a transport system involve a power model which describes power flow in the transport system by means of transport system parameters, which include input parameters and status parameters. The system and method also involve the determination of at least a first and a second input parameter, and the power model is updated on the basis of at least the first input parameter. At least one transport system status parameter is adjusted using at least the updated power model and the second input parameter thus determined.Type: GrantFiled: May 6, 2010Date of Patent: July 5, 2011Assignee: Kone CorporationInventors: Pekka Perälä, Tapio Tyni
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Publication number: 20100276230Abstract: The invention relates to an arrangement and a method for the adaptation of parameters in a transport system. The arrangement of the invention comprises a power model (1), wherein power flow in the transport system is described by means of transport system parameters (2,3,4,13), which include input parameters (2,3,13) and status parameters (4). The arrangement also comprises the determination of at least a first (2) and a second (2) input parameter, and the power model (1) is updated on the basis of at least the first input parameter (2). At least one transport system status parameter (4) is adapted using at least the updated power model (1) and the second input parameter (3) thus determined.Type: ApplicationFiled: May 6, 2010Publication date: November 4, 2010Inventors: Pekka Perälä, Tapio Tyni
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Patent number: 7823706Abstract: The present invention relates to an elevator condition monitoring system, which comprises at least a control unit (104) and a sensor arrangement (250) connected to the control unit, while the elevator comprises an elevator car (100), an elevator drive machine (109) and a control system (110) including the required safety circuit and actuators. The control unit of the condition monitoring system and the sensor arrangement connected to the control unit have been fitted in conjunction with the elevator car. The sensor arrangement comprises at least a sensor which measures the current of the safety circuit and is galvanically separated from the elevator safety circuit and connected to the safety circuit without interrupting the safety circuit wiring.Type: GrantFiled: September 20, 2007Date of Patent: November 2, 2010Assignee: Kone CorporationInventors: Tapio Tyni, Pekka Perälä
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Patent number: 7743891Abstract: The present invention discloses a method, a device, a computer program and a system for detecting the arrival in the elevator car/departure from the elevator car of elevator passengers. In the method the vertical acceleration values of the elevator car are received from the acceleration sensor and the passengers arriving in the elevator car and/or leaving the elevator car are detected on the basis of the vertical acceleration measurements of the acceleration sensor.Type: GrantFiled: May 13, 2009Date of Patent: June 29, 2010Assignee: Kone CorporationInventors: Tapio Tyni, Pekka Perälä
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Publication number: 20100125661Abstract: A method, apparatus, system, and computer program for analyzing properties of an application-specific end-to-end communication connection are presented. In a connection performance analysis apparatus, measurement data messages are received from a plurality of traffic-monitoring nodes arranged at selected intermediate points in a plurality of network segments of the application-specific end-to-end communication connection and from at least one end node of the end-to-end communication connection, wherein a measurement data message comprises information related to a travel time of at least one data packet of the end-to-end communication connection to the traffic-monitoring node or to the end node transmitting the respective measurement data message. Then, the connection performance analysis apparatus analyzes the received measurement data messages in order to determine a bottleneck of the end-to-end communication connection.Type: ApplicationFiled: November 20, 2008Publication date: May 20, 2010Applicant: VALTION TEKNILLINEN TUTKIMUSKESKUInventors: Pekka PERALA, Mikko HANSKI, Marko JURVANSUU, Jarmo PROKKOLA, Jouko SANKALA, Markus AHOKANGAS