WO2015091848A1

WO2015091848A1 - Electrical voltage control unit

Info

Publication number: WO2015091848A1
Application number: PCT/EP2014/078549
Authority: WO
Inventors: Wolfgang Hauer
Original assignee: Eaton Industries (Austria) Gmbh
Priority date: 2013-12-18
Filing date: 2014-12-18
Publication date: 2015-06-25
Also published as: DE102013114396A1; EP3084911A1

Abstract

The invention relates to an electrical voltage control unit (1) comprising: at least one first input (2) and a second input (3) for connecting the supply lines (4) of an electrical energy supply network (5); and at least one first output (6) and a second output (7) for connecting the conductor (8) of a final distributor network (9), wherein a predeterminable number of capacitors (10) are arranged between the first input (2) and the first output (6), which capacitors are arranged in parallel to one another in terms of the circuit layout, and which capacitors can be selectively connected upstream of the first output (6), for the purposes of reducing an input voltage (11) applied at the inputs (2, 3) and distributing a predetermined output voltage (12) at the outputs (6, 7).

Description

Electric voltage regulation unit

The invention relates to an electrical voltage regulation unit according to the preamble of claim 1.

The electrical voltage at the terminals of an electrical

Power supply network differs in some cases considerably from the respective location of the connection within the relevant network. The nominal electrical voltage of the network in question, as dictated by a standard or an energy supply company, usually hardly coincides with the actual measurable voltages. So that actually points to an end port of the European

Electricity network measurable voltage to a value between about 210V and 260V. The same applies with possibly different voltage levels also to the electricity grids of other continents.

Since electrical appliances for the European market are designed to operate at least from a voltage of 207V, a higher voltage in all non-constant power appliances results in a higher energy consumption than that for the operation of the appliance concerned would be required. This not only leads to higher costs for the respective operator without this would be an additional benefit, it also leads to a higher active power consumption, which must be provided by the energy supply company also. All in all, this has a significant impact on the environment, since the additional power involved must also be generated. In addition, this additional power must also be transferred. In addition to the

Providing functionally inherently unnecessary power plant capacity, there is a significant increase in the burden on the environment, since peak loads are usually covered by coal-fired power plants, which are otherwise not operated due to the outgoing of these environmental pollution or only in the low load range. As a result, this estimated 5% of unnecessary consumption of electrical energy causes a disproportionately high proportion of the total emitted pollutants, in particular with regard to particulate matter pollution and pollution Carbon dioxide.

The object of the invention is therefore to provide an electrical voltage control unit of the type mentioned, with which the mentioned disadvantages can be avoided, with which the power consumption of an electrical device, in particular a household, can be lowered, and with which the equivalent C0 ₂ output of a household can be lowered.

This is achieved by the features of claim 1 according to the invention.

As a result, the emission of pollutants which a building or a household at least indirectly causes due to the consumption of electrical energy can be reduced without functional restrictions for the end customer. This can reduce the network load. In addition, there is a cost reduction, since the voltage is reduced by capacitive way, the energy meter, however, only counts the active power consumption.

The subclaims relate to further advantageous embodiments of the invention.

It is hereby expressly referred to the wording of the claims, whereby the claims at this point are incorporated by reference into the description and are considered to be reproduced verbatim.

The invention will be further described with reference to the accompanying drawings, in which a merely preferred embodiment is shown by way of example. 1 shows a schematic representation of a preferred embodiment of a

representational voltage regulation unit in a typical circuitry environment; and

Fig. 2 is a schematic representation of an energy meter measuring unit with a

1 and 2 each show an electrical voltage regulation unit 1, with at least one first input 2 and a second input 3 for connecting the supply lines 4 of an electrical power supply network 5, and with at least one first output 6 and a second one Output 7 for connecting the conductors 8 of a final distribution network 9, wherein between the first input 2 and the first output 6, a predeterminable number of capacitors 10 arranged in parallel with one another are arranged, which, for lowering an input voltage 11 present at the inputs 2, 3 and outputting a predetermined output voltage 12 at the outputs 6, 7, are selectively switchable before the first output 6.

As a result, the emission of pollutants which a building or a household at least indirectly causes due to the consumption of electrical energy can be reduced without functional restrictions for the end customer. This can reduce the network load. In addition, there is a cost reduction, since the voltage is reduced in a capacitive way, the energy meter 16 counts only the active power consumption.

The subject invention relates to a voltage regulation unit 1, therefore a device for controlling or lowering an electrical voltage, of a

Input voltage 11, which by a power company over a

Power distribution network 5 is provided to an output voltage 12, which is applied to the subsequent inputs of a final distribution network 9, in particular a building-internal power distribution network. The electrical voltage provided by an energy supply company is generally known with regard to a certain expected value range, therefore in which range an electrical input voltage 11 is present as a rule or in the case of proper functioning of the energy supply network 5. The voltage regulation unit 1 is preferably provided for use in the low-voltage range. This means that the voltage range in Europe is about 230V between an outer conductor and a neutral conductor. The voltage regulation unit 1 is intended above all for use in the area of an end customer of a power supply company. In particular, it is provided that the voltage regulation unit 1 is connected upstream of an electrical load 19, 20, 21 or a consumer as a structurally separate device, but is not integrated into the load. The connected to the final distribution 9 loads 19, 20, 21 are therefore structurally unchanged, as these can also be connected to another final distribution 9.

The voltage regulation unit 1 has at least one first input 2 and one second input 3, as well as at least one first output 6 and a second output 7, depending on the number of conductors of a power supply network 5 or of a final distribution network 9 are preferably a corresponding number of inputs 2, 3 and outputs 6, 7 are provided. The inputs 2, 3 and outputs 6, 7 are preferably designed as electrical terminals. The subject invention will be described with reference to an embodiment with only two inputs 2, 3 and two outputs 6, 7. It is envisaged that at the inputs 2, 3, the leads 4 of an electrical

Power supply network 5 are connected. Fig. 1 shows a schematic

Representation of the relevant power supply network 5. The dashed line 24 symbolizes the boundary of a building. In the interior of the building, the supply lines 4 of the electrical energy supply network 5 are connected to a power consumption meter 16 or its energy meter counter inputs 22, which energy consumption meter 16 colloquially is also referred to as an electricity meter. The

Energy meter counter outputs 17 of the energy meter 16 are

circuitically connected to the inputs 2, 3 of the voltage regulation unit 1.

To the outputs 6, 7 of the voltage regulation unit 1 is preferably the entire final distribution network 9, which can also be referred to as a home distribution network connected, to which in turn the individual consumers of the building in question are connected as a load. In Fig. 1 illustrated by the first load 19, the second load 20 and the third load 21, which are preferably unchanged consumer terminals. The voltage regulation unit 1 is preferably not an integrated part of an electrical load, but rather a device which has a

is preceded by the following house installation arrangement. It is preferably provided that the voltage regulation unit 1 is designed for arrangement in a distribution cabinet, and preferably has a latching rail receptacle. Between the first input 2 and the first output 6 of the voltage regulation unit 1, a predeterminable number are arranged in circuit parallel to one another

Capacitors 10 are arranged. The respective parallel connection of said capacitors 10 is arranged as a whole in series in the supply line 23 to the first output 6, therefore

circuitry between the first input 2 and the first output 6. Bei

Designs for a plurality of outer conductors is provided in each of the relevant, an outer conductor associated supply line 23, a corresponding capacitor arrangement to arrange, and preferably also the further described modules.

In each case one switching element 14 is arranged in series with each of the capacitors 10. It is preferably provided that the relevant switching element 14 is formed as a semiconductor switch. It can also be provided, the switching elements 14 as mechanical

Form switching elements. In addition, it is preferably provided that parallel to the

Capacitors 10 a bypass line 15 is arranged, and that in the

Bridging line 15 also a switching element 14 is arranged.

The voltage regulation unit 1 further has a control unit 13, which is connected to the inputs 2, 3 and the outputs 6, 7. The control unit 13 in this case has an unillustrated voltage measuring device, for measuring the input voltage 11 and the output voltage 12. Furthermore, the control unit 13 preferably has a memory in which a target output voltage is stored. It can be provided that the control unit 13 further comprises an interface or a control element for the predefinable change of the target output voltage.

The control unit 13 is further connected to the switching elements 14. In this case, both a mechanical connection, as well as a purely circuit connection can be provided. The relevant active compound is illustrated in FIG. 1 by a dot-dash line 25.

The control unit 13 is designed to operate at a measured output voltage 12, which is higher than the predetermined or preset target output voltage of preferably 216 V, a predeterminable number of switching elements 14 and such a predetermined number of capacitors 10 in the supply line 23 to the first Output 6 to switch.

By closing individual switching elements 14, a different capacitance is connected in the supply line, resulting in a different high lowering of the voltage applied to the inputs 2, 3 input voltage 11 and output of a predetermined and substantially constant output voltage 12 at the outputs 6, 7.

The invention further relates to a combined device, consisting of a

Energy consumption meter 16 with a housing, wherein in the housing an objective electrical voltage control unit 1 is arranged.

Claims

claims

Electric voltage regulation unit (1), with at least one first input (2) and a second input (3) for connecting the supply lines (4) of an electrical power supply network (5), and with at least one first output (6) and a second output (7) for connecting the conductors (8) of a final distribution network (9), characterized in that between the first input (2) and the first output (6) a predetermined number of circuitry parallel to each other capacitors (10) are arranged, which for lowering one at the inputs (2, 3) adjacent

Input voltage (11) and output of a predetermined output voltage (12) at the outputs (6, 7), selectively in front of the first output (6) are switchable.

2. Electrical voltage control unit (1) according to claim 1, characterized

characterized in that it comprises a control unit (13) connected to the inputs (2, 3) and the outputs (6, 7) for measuring the input voltage (11) and the output voltage (12).

3. Electrical voltage regulation unit (1) according to claim 1 or 2, characterized in that for each of the capacitors (10) each have a switching element (14) is arranged serially.

4. Electrical voltage regulation unit (1) according to one of claims 1 to 3, characterized in that parallel to the capacitors (10) has a bypass line (15) is arranged, and in that the bypass line (15), a switching element (14) is arranged.

5. Electrical voltage regulation unit (1) according to one of claims 2 to 4, characterized in that the control unit (13) for actuating the switching elements (14) is connected thereto.

6. Electrical voltage regulation unit (1) according to any one of claims 2 to 5, characterized in that the control unit (13) is adapted to a measured output voltage (12), which is higher than a predetermined

Target output voltage to operate a predetermined number of switching elements (14) and to switch such a predetermined number of capacitors (10) in a supply line (23) to the first output (6).

7. Electrical voltage regulation unit (1) according to one of claims 1 to 6, characterized in that the voltage regulation unit (1) is designed for arrangement in a distribution cabinet.

8. System of an energy meter (16) and an electrical

Voltage regulation unit (1) according to one of claims 1 to 7, wherein

Energy consumption meter outputs (17) of the energy consumption meter (16) with the inputs (2, 3) of the electrical voltage regulation unit (1) are connected by circuitry.

9. energy consumption meter (16) having a housing, wherein in the housing, an electrical voltage regulation unit (1) according to one of claims 1 to 6 is arranged.