FI13585Y1 - Dynamic load management system - Google Patents

Abstract

System for dynamic load control (200), which comprises: - one or more energy distribution arrangements (428, 432) connected to the power grid (440), wherein said energy distribution arrangement forms a group (203), wherein each energy distribution arrangement is arranged to provide information about the energy distribution arrangement's outputs and electrical load, - a remote calculation unit (442), which is arranged - to detect the electrical load of each energy distribution arrangement, - to detect the defined position of each energy distribution arrangement and detect a connection between each energy distribution arrangement, - wherein the remote calculation unit (442) is furthermore arranged to define voltage losses between the energy distribution arrangements, the electrical loads of each energy distribution arrangement and the electrical loads of the group of energy distribution arrangements, characterized in that the remote computing unit is also arranged to provide an output, via a terminal or mobile device graphical user interface, in which output is suggested to the user: - to add a new energy distribution arrangement or change outputs to a lower current effects in the energy distribution arrangement, if the voltage losses between the energy distribution arrangements are greater than a predetermined threshold value, and/or - to equalize the energy consumption between the energy distribution arrangements in the group or switch to higher outputs in the energy distribution arrangement, if the energy distribution arrangement's electrical load is too large, and/or - to equalize the energy consumption between the energy distribution arrangements in the group or increase the power of the power grid, in case the electrical load of the group is greater than a predetermined threshold compared to the power of the power grid.

Description

SYSTEM FOR DYNAMIC LOAD MANAGEMENT

Field of invention

The present description generally applies to power distribution and dynamic load management systems. In particular, the present description applies to what is described in the protective claims describing the invention.

Background

The use of power distribution cabinets usually requires safety measures and a qualified electrician. Similarly, making changes to power distribution cabinets is difficult because the arrangements can be rigid — because of the fixed sets of sockets. In addition, dynamic load management of systems containing several power distribution cabinets can be difficult, and not much real-time information is typically available about the operating level and load of individual power distribution cabinets.

For this reason, there is a need for a type of power distribution cabinet and a dynamic load management system containing such cabinets, which are easy and safe to use and which enable real-time control of the cabinets and the electrical network formed by the cabinets.

Summary of the invention < The aim of the invention is to at least alleviate the problems described above, which

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R 20 has not been satisfactorily solved by known arrangements and systems. Above

S mentioned goal is achieved by following the present description

S with embodiments. z © The aim of the present invention is to provide a control panel which

Installing, moving and transporting is easy and can be done

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N 25 installs safely. The aim of the present invention is also

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> to offer a solution that guides the user at the construction site to understand how the electrical network works and, when problems occur, to inform and/or provide guidance to identify and correct electrical network problems.

According to one embodiment of the present invention, the system for dynamic load management comprises: - one or more power distribution arrangements connected to the electrical network, in which case the mentioned power distribution arrangements form a group, in which case each power distribution arrangement is arranged to provide information on the power output and electrical load of the power distribution arrangement, - a remote computing unit which is arranged - to detect the electrical load of each power distribution arrangement, - — to detect the determined location of each power distribution arrangement and to detect the connection between each power distribution arrangement, - where the remote computing unit is additionally arranged to determine the voltage drops between the power distribution arrangements, the electrical loads of each — power distribution arrangement and the electrical loads of the group of power distribution arrangements, - characterized in that the remote computing unit is additionally arranged to provide an output, a graphical user interface of a terminal device or a mobile device through, = . mo line . so-called _

S where the output is suggested to the user for power distribution arrangements

O 20 — relating to: <Q

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© - to add a new power distribution arrangement or change power outputs

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= to yields of lower current in the power distribution arrangement, if © the voltage drops between the power distribution arrangements are predetermined

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S greater than the threshold, and/or

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> 25 - to equalize the power consumption between the power distribution arrangements in the group or to switch to higher power outputs in the power distribution arrangement, if the electrical load of the power distribution arrangement is too high, and/or - to equalize the power consumption between the power distribution arrangements in the group or to increase the yield of the electrical network, if the electrical load of the group is greater than a predetermined threshold compared to the electrical grid yield.

Various embodiments of the present invention are presented in independent claims.

The usefulness of the present disclosure is a result of several factors — depending on each particular embodiment.

The expression "certain amount" here means any positive whole number starting from one (1), e.g. one, two or three.

The expression "several" here means any positive integer starting from two (2), e.g. two, three or four. — Brief description of the attached drawings

The invention is described next in more detail by referring to the accompanying drawings, where x Figure 1 shows an embodiment of the & power distribution arrangement according to the present invention,

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Figure 2 shows one according to the present invention

E embodiment of the power distribution arrangement, a = Figure 3 shows one according to the present invention

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5 embodiments of the power distribution arrangement, 3 Figure 4 shows a flowchart of an embodiment of a dynamic load management system according to the present invention,

figure 5 shows a block diagram of the embodiment of the dynamic load management system according to the present invention.

Detailed description of the implementations

Figures 1-5 show aspects of the embodiment of the power distribution arrangement according to the present invention.

The power distribution arrangement comprises a housing, wherein the inside of the housing comprises at least one power connector and a removable box (100) for the housing, wherein said removable box (100) provides a removable connection to the housing and wherein the removable box (100) comprises a certain number of electrical connectors (102) (to be connected to the to at least one power connector or such power source in the housing, and a certain number of switches between them, whereby the electrical connectors (102) and the switches provide multiple sockets (104). output and the electrical load of the power distribution arrangement. The power distribution arrangement can include, for example, sensors for measuring the voltage and current over the 3-phase power, in which case the current measurement is based on converted low-current signals. The removable box (100) can be connected to the power connector in the housing

S (102) — with quick-connect type — means as described. Tama 3 enables the removable box (100) to be easily connected in the case

S to the power source and disconnecting it from it. Power distribution can

E comprises a certain number of light indicators arranged to point

O 25 electrical load of the power distribution arrangement. The light indicators can be 3, for example LEDs. The power distribution arrangement can also include an LED-based one

N user interface, which can be individual LEDs or a screen, to indicate > current load.

The power distribution arrangement can also include data connection means for sending power output and/or electrical load data to other devices.

The removable connection between the housing and the removable box (100) can be facilitated with a DIN rail in the housing, to which the removable box (100) can be connected. The DIN rail connection can facilitate the easy connection and disconnection of the detachable box (100) so that different detachable boxes equipped with different sockets (104) can be used and changed easily by the user.

The power distribution arrangement preferably comprises insulation (106) between the removable box (100) and the power connector (102) and/or the inner surfaces of the housing.

The isolation of the current enables easy and safe use of the removable box, so that different removable boxes equipped with different sockets (104) can be used and changed easily and safely by the user.

The removable box (100) can comprise a certain number of electrical connectors (102) to be connected to the relevant at least one current connector in the housing, and a certain number of switches between them, whereby the electrical connectors (102) and switches create a certain number of sockets (104). The number of sockets may vary. Thus, the user can select a removable box (100) with the desired number of sockets (104) of a certain type. Removable box

N (100) can comprise, for example, 63 A or 32 A breaker sockets a (104), depending on the purpose of use. The removable box (100) comprises = preferably means for detecting or identifying the = type of sockets and switches of the removable box (100), which information can be transmitted : 25 — to an external device. 3 The power distribution arrangement can also include power switch sockets

To switch N (104) or power output(s) on and off. > The housing of the power distribution arrangement can include means for attaching the power distribution arrangement to a wall, pipe or rack.

Figure 4 shows a flowchart of the embodiment of the dynamic load management system (200) according to the present invention.

In point 202, a certain number of power distribution arrangements connected to the power grid are received, such as the location of the power distribution arrangement is determined, 201 an individual power distribution arrangement is determined,

At 204, breaker data is received for a certain number of power distribution arrangements,

At 206, current, voltage and power data are received from a certain number of power distribution arrangements,

In section 208, the maximum current of the removable box (100) in a certain number of power distribution arrangements is received or determined on the basis of preliminary information obtained from a certain number of power distribution arrangements,

Clause 203 defines a group of power distribution arrangements,

At 210, the combined total current and power of the array is determined,

In point 212, the maximum current output of the socket is detected,

In point 205, a set of power distribution arrangements is defined to the < leg of the switchboard,

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N e Clause 214 defines the power distribution arrangements — combined

N 20 total current and power after the switchboard, = a In point 216, the maximum current output of the switchboard is observed,

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S In section 207, a set of power distribution arrangements is defined in the switchboard

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At 218, the combined total current and power of the set of power distribution arrangements after the switchboard is determined,

In point 220, the maximum current output of the switchboard is observed,

Section 222 compares the determined total combined current and power of the group or set of power distribution arrangements and compares it to the maximum current output detected in the step and informs or warns if the determined total combined current and power of the group or set is close to the maximum current output, and

In section 224, the user is warned or informed if too large a voltage drop is detected.

In the system according to the invention, the steps are performed with — a computer program that can be stored on a permanent computer-readable data medium, which comprises computer-executable program code, which, when executed by at least one processor, causes the device to perform the steps.

Figure 5 shows a block diagram of the embodiment of the dynamic load management system according to the present invention.

At point 402, the power distribution arrangement is installed in place by the user 400,

At 404, a location is determined for the power distribution arrangement, such as a location < in the power grid and/or a location in a location, which may be a 3-dimensional location,

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LÖ 20 At 406, the power distribution arrangement optionally measures current and voltage

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N in real time,

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= In point 408, a certain number of power distribution arrangements are assigned to groups,

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S At 410, a vertical position is determined for the power distribution arrangement

O in a 3-dimensional space, such as a floor at a location that vertical location > 25 can be combined with the location determined at 404 to provide a 3-dimensional location for each power distribution arrangement,

In point 412, the removable box (100) of the power distribution arrangement is detected, whereby the removable box (100) is determined to be, for example, 16 A (414), 32

to A (416) or 63 A (418), with a removable box (100) set by the user at 420,

In point 422, the load and condition of the entire network is measured,

At point 424, a problem can be detected, which may include the following: 426: excessive voltage drop, as a result of which a proposal is made to add a new power distribution arrangement or to change the power outputs to lower current outputs in the power distribution arrangement 428, 430: the electrical load of the power distribution arrangement is too large, as a result of which a proposal is given to equalize the power consumption of the power distribution arrangements of the group — between or switch to higher current power outputs in the power distribution arrangement 432, 434: the group's electrical load is greater than a predetermined threshold compared to the electrical grid's yield, as a result of which it is proposed to equalize the power consumption between the group's power distribution arrangements or to increase the electrical grid's yield,

At 438 , the user can make changes to the power distribution arrangements < based on the suggestions, such as strengthening the network 440 .

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O 20 Power distribution arrangements can be wirelessly connected to each other and they

N can be arranged to communicate using cellular communication or

I other such long-range wireless communication to send information a © to the remote computing unit 442, such as for example

S for cloud computing arrangement, server or edge computing unit.

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N 25 The remote computing unit 442 is preferably arranged to perform the described

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> steps and it can be organized to give output, for example, through the graphical user interface of a terminal or mobile device, such as suggestions to the user regarding power distribution arrangements.

Based on this description and general knowledge, a person skilled in the art can apply the teachings given to implement the protection field of the present invention as defined in the attached protection requirements, with the necessary changes, deletions and additions in each specific use case. +

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Claims (3)

PROTECTION REQUIREMENTS 1. A system for dynamic load management (200), which comprises: - one or more power distribution arrangements (428,432) connected to the electrical network (440), in which case said power distribution arrangements form a group (203), in which case each power distribution arrangement is arranged to provide information on the power output and electrical load of the power distribution arrangement, - a remote computing unit ( 442), which is arranged - to detect the electrical load of each power distribution arrangement, - to detect the determined position of each power distribution arrangement and to detect the connection between each power distribution arrangement, - where the remote calculation unit (442) is additionally arranged to determine the voltage drops between the power distribution arrangements, the electrical loads of each power distribution arrangement and the electrical loads of the group of power distribution arrangements, characterized by, that the remote computing unit is additionally arranged to provide an output, through the graphical user interface of the terminal or mobile device, where the output suggests to the user: S N - to add a new power distribution arrangement or to change power yields = 20 to lower current yields in the power distribution arrangement, if N © the voltage drops between the power distribution arrangements are greater than the predetermined I = threshold, and /or O 3 - to equalize the power consumption between the I O power distribution arrangements in the group or switch to higher power outputs in > 25 power distribution arrangements, if the electrical load of the power distribution arrangement is too high, and/or - to equalize the power consumption between the power distribution arrangements in the group or to increase the yield of the electrical network, if the electrical load of the group is greater than a predetermined threshold compared to the yield of the electrical network. 2. A system according to claim 1 for dynamic load management, characterized = by the fact that the remote computing unit is a cloud computing arrangement. 3. A system according to claim 1 for dynamic load management, characterized in that the remote computing unit is — arranged to provide an output via a graphical user interface. + N O N LÖ <Q N O I = O O = s N O N 5