DE102012103597A1 - Climatic system for adjusting climate conditions in inner space of bus, has generator for provision of supply current with supply voltage, and side outputs connected with oil sump heating device and battery charging device of vehicle - Google Patents

Abstract

The system (10) has a generator (20) for provision of supply current with supply voltage. An alternating current (AC) voltage output (36) is provided for a compressor, and a direct current (DC) voltage output (40) is provided for a heating device (16). A DC side output (48) and two side outputs are connected with an oil sump heating device (50) and a battery charging device of a vehicle. A power converter unit (28) is connected with a control device (52) that is connected with the AC voltage outputs. A side output switch (46) of the DC side output is connected with the control device. The power converter unit is designed as a static converter.

Description

The invention relates to a climate system of a vehicle.

Previous air conditioning systems of a vehicle usually include a generator for providing a supply current with a supply voltage. The generator is driven in particular by an engine of the vehicle in question. By way of example, the supply current provided on the output side of bus climate systems has an alternating voltage of 600 V to 700 V. By means of the current provided by the generator, a motor of a compressor of the air conditioning system, a heating system of the air conditioning system and a ventilation system of the air conditioning system can be operated. For this purpose, the supply voltage provided by the generator must be implemented as needed for the respective component. The power consumption of the individual components of the air conditioning system depends on the climate conditions to be set in an interior of the vehicle.

Previous air-conditioning systems work as closed systems in which excess electrical energy remains unused.

The invention has for its object to provide an air conditioning system of a vehicle, in particular a bus with an over the prior art increased energy efficiency.

This object is achieved by the air conditioning system with the features of claim 1.

According to the invention, therefore, an air conditioning system of a vehicle is proposed with a generator for providing a supply current with a supply voltage, wherein a power converter unit is provided which has an input for the supply voltage, an AC output for a compressor, a DC output or an AC output for a heater and at least one secondary output includes, which is connected to at least one climate system foreign consumer of the vehicle. Optionally, the power converter unit may also have a DC or AC output for a ventilation device.

An air conditioning system according to the invention thus comprises a power converter unit (a so-called static converter), on the basis of the supply voltage, the climate system's own consumers, that is the compressor, the heater and optionally the ventilation device, and at least one non-climatic consumer of the vehicle supplied with electrical energy can be. Excess electrical energy that is available to the air conditioning system, so it can be used for devices or consumers of the vehicle in question, the energy supply was previously made by the other present on the vehicle in question network. The previously existing anyway, excess electrical energy can therefore be used by the climate system according to the invention in an environmentally friendly manner, without this being at the expense of the efficiency of the air conditioning system as such.

In order to ensure an efficient control of the various consumers of the air conditioning system and the at least one climate consumer consumer, the power converter unit is provided in a preferred embodiment of the air conditioning system according to the invention with a control device. In particular, the control device is connected via a control line with the AC output, the DC or AC output, the secondary output and optionally the other DC or AC output, wherein the control device in response to an energy requirement at the AC output, at the DC or AC output and optionally on provides the further DC or AC output electrical energy at the secondary output.

To provide only electrical power to the auxiliary output when the electrical energy provided by the generator is not used by the other consumers of the air conditioning system or to provide electrical energy when needed at the auxiliary output, in a preferred embodiment the secondary output preferably comprises a secondary output switch, which is connected to the control device.

In particular, the control device may operate in dependence on the climatic conditions that prevail in an interior of the vehicle in question. In this case, the control device is preferably provided with a temperature sensor, by means of which a temperature actual value in a vehicle interior can be determined. The controller then preferably utilizes the actual temperature value, a desired temperature value, and load values present at the AC output and at the DC and / or AC output to drive the auxiliary output.

The power converter unit is designed in a preferred embodiment of the air conditioning system according to the invention such that it has an input voltage converter, the supply voltage in a base DC voltage in a Base circle implemented. The base circuit represents an internal circuit of the power converter unit, from which energy can be supplied to the various consumers via the various outputs of the power converter unit. The converter unit preferably has a first output voltage converter at the AC output, which converts the DC base voltage into the AC voltage for the compressor, and / or a second output voltage converter, which converts the base voltage into the voltage for the heater at the DC or AC output, and / or at the secondary output to a secondary voltage converter, which converts the base voltage in the secondary voltage for the consumer climate system foreign.

The secondary voltage can be a DC voltage or an AC voltage. In particular, the power converter unit can also have a plurality of secondary outputs which are each designed either as a DC voltage output or as an AC voltage output.

For example, if an AC voltage of 600 V to 700 V is applied to the supply voltage input of the converter unit, a DC voltage of 380 V may be present in the base circuit through a rectifier. Starting from the base DC voltage, for example, a high-voltage AC voltage, a low-voltage DC voltage or the voltage of the base circuit is provided at the secondary output. For this purpose, the power converter unit comprises at the secondary output, if necessary, corresponding voltage converter, which can be followed by an additional voltage converter with galvanic insulation as needed.

The non-climatic consumer is, for example, an oil sump heater of a vehicle engine. Also, the non-climatic consumer may be a battery charger of a vehicle battery. Conceivable as an external climate consumer also another electrical device of the vehicle in question, such as a refrigerator, a lighting device, an entertainment system or the like.

In order to be able to operate the air conditioning system according to the invention even when the vehicle is stationary with the engine switched off, a special embodiment has a power converter unit which has an auxiliary input for an auxiliary supply voltage. For example, the air conditioning system can be connected via the auxiliary input with another, then the supply voltage supplying power network for supplying electrical energy. Thus, any future requirements of the legislature is sufficient, which prohibit a stand-still operation of the drive motor of a bus at rest.

Further advantages and advantageous embodiments of the subject matter of the invention are the description, the drawings and the claims removed.

Embodiments of an air conditioning system according to the invention are shown schematically simplified in the drawing and are explained in more detail below. It shows:

1 an air conditioning system according to the invention with an oil sump heater as an additional consumer;

2 an air conditioning system according to the invention with voltage transformers for additional consumers at a secondary output; and

3 an air conditioning system according to the invention with an AC side and a downstream DC output.

In 1 is a climate system 10 shown, which serves for adjusting the climatic conditions in an interior of a bus otherwise not shown. To set the climatic conditions, the climate system includes 10 As a consumer climate own compressor or a motor 14 the compressor, a heater 16 for the vehicle interior and a ventilation device or a motor 18 the ventilation device, which represents a fan drive.

Furthermore, the climate system includes 10 a generator 20 from a vehicle engine 22 is driven and the output side as the supply voltage an AC voltage of 600 V to 700 V provides.

The supply voltage coming from the generator 20 is delivered via a supply line 24 to an entrance 26 a power converter unit 28 led, which is an AC / DC converter 30 downstream, the output side of a base circle 32 the power converter unit 28 provides a base DC voltage of about 380V.

The base circle 32 is via a DC / AC current transformer 34 with an AC output 36 connected to the electric motor 14 of the compressor is connected. Furthermore, the base circle 32 via a DC / DC current transformer 38 with a DC output 40 connected to the heater 16 of the climate system 10 connected. In addition, the base circle 32 via a DC / AC current transformer 42 with an exit 44 connected to which an AC / DC voltage converter with galvanic isolation is connected downstream, to which the motor 18 the ventilation device is connected.

About a switch 46 is the base circle 32 furthermore with a DC secondary output 48 the power converter unit 28 connected to which a heating device 50 for an oil sump of the vehicle engine 22 connected.

The power converter unit 28 is with a control device 52 provided by a control line 54 with the current transformers 30 . 34 . 38 and 42 and the switch 46 connected is.

Depending on the at the outputs 36 . 40 and 44 required energy requirement or other adapted to the particular application parameters, the control unit 52 the switch 46 Press, so that at the side exit 48 the DC voltage of the base circle 32 to operate the heater 50 for the oil sump of the vehicle engine 22 provided. So if from the generator 20 Excess energy is generated by consumers 14 . 16 and 18 of the air conditioning system is not needed, or if that of the generator 20 generated energy at the given time the consumers 14 . 16 and 18 of the air conditioning system should not be made available, the switch 46 to operate the heater 50 getting closed. This can be a quick heating of the vehicle engine 22 can be achieved, which in turn can lead to a favorable energy consumption.

In 2 is a climate system 60 that is different from the climate system 1 it differs from that with the base circle 32 connected secondary output 48 at the power converter unit 28 comprising a DC / DC current transformer 62 upstream, the component of the power converter unit 28 is and with the control line 54 connected is. The secondary output 48 is a DC / DC current transformer 64 downstream, which includes a galvanic insulation and that with a battery charger 66 connected is. Furthermore, to the current transformer 66 over a capacitor 68 a DC / AC current transformer 70 connected, which has a galvanic isolation and which provides as an output voltage, an AC voltage of, for example, 230 V for consumers of the bus, such as a refrigerator or an entertainment system.

According to the embodiment according to 1 can by means of the control device 52 over the current transformer 62 that's over the control line 54 is connected to the control device, at the secondary output 48 electrical energy is supplied by the generator 20 is generated and by the other consumers 14 . 16 and 18 of the climate system 60 is not needed.

In 3 is another climate system 80 which, in turn, largely follows the one after 2 corresponds to this but differs in that on the current transformer 30 the converter unit is an additional input for an auxiliary voltage is provided by an auxiliary power network 82 provided.

Furthermore, the climate system includes 80 a first side exit 84 for a high-voltage AC voltage, which is a DC / AC current transformer of the power converter unit 28 upstream, which is provided with a galvanic insulation. Next to the first side exit 84 the power converter unit has a second secondary output 28 for a low-voltage DC voltage, which is a DC / DC voltage converter 87 upstream. The current transformers 85 and 87 are each with the base circle 32 the power converter unit 28 connected and can by means of the control device 52 over the control line 54 be controlled.

LIST OF REFERENCE NUMBERS

10

climate system

12

consumer

14

engine

16

heater

18

engine

20

generator

22

vehicle engine

24

supply line

26

entrance

28

Converter unit

30

converter

32

base circle

34

Power converter

36

AC output

38

Power converter

40

DC output

42

Power converter

44

output

46

switch

48

In addition to starting

50

heater

52

control device

54

control line

60

climate system

62

Power converter

64

Power converter

66

Battery charger

68

capacitor

70

Power converter

80

climate system

82

power grid

84

In addition to starting

85

Power converter

86

In addition to starting

87

Power converter

Claims (13)

Climate system of a vehicle, comprising a generator ( 20 ) for providing a supply current with a supply voltage, characterized by a power converter unit ( 28 ) with • one input ( 26 ) for the supply voltage; • an AC output ( 36 ) for a compressor; • a DC or AC output ( 40 ) for a heating device ( 16 ); and • at least one secondary output ( 48 . 84 . 86 ) with at least one non-climate consumer ( 50 . 66 ) of the vehicle is connected. Air conditioning system according to claim 1, characterized in that the power converter unit ( 28 ) with a control device ( 52 ) is provided. Air conditioning system according to claim 2, characterized in that the control device ( 52 ) via a control line ( 54 ) with the AC output ( 36 ), the DC or AC output ( 40 ) and the secondary output ( 48 . 84 . 86 ) and depending on an energy requirement at the AC output ( 36 ) and at the DC output ( 40 ) electrical energy at the secondary output ( 48 . 84 . 86 ). Air conditioning system according to claim 2 or 3, characterized in that the secondary output ( 48 ) a secondary output switch ( 46 ) associated with the control device ( 52 ) connected is. Air conditioning system according to one of claims 2 to 4, characterized in that the control device ( 52 ) is connected to a temperature sensor for determining a temperature in a vehicle interior. Air conditioning system according to one of claims 2 to 5, characterized in that the power converter unit ( 28 ) an input voltage converter ( 30 ), which converts the supply voltage into a base DC voltage in a base circuit ( 32 ), which are connected to the AC output ( 36 ) by means of a first output voltage converter ( 34 ) in the AC voltage for the compressor and / or at the DC or AC output ( 40 ) by means of a second output voltage converter ( 38 ) into the DC or AC voltage for the heater ( 16 ) and / or at the secondary output ( 48 . 84 . 86 ) by means of a secondary voltage converter ( 62 . 85 . 87 ) in the secondary voltage for the non-climate consumer ( 66 ) is implemented. Air conditioning system according to one of claims 1 to 6, characterized in that at the secondary output ( 48 . 86 ) is applied a DC voltage. Air conditioning system according to one of claims 1 to 7, characterized in that at the secondary output ( 84 ) is applied an AC voltage. Air conditioning system according to one of claims 1 to 8, characterized in that the climate system foreign consumer an oil sump heater ( 50 ) of a vehicle engine ( 22 ). Air conditioning system according to one of claims 1 to 9, characterized in that the climate system foreign consumer a battery charging device ( 66 ) is a vehicle battery. Air conditioning system according to one of claims 1 to 10, characterized in that the power converter unit ( 28 ) has an auxiliary input for an auxiliary supply voltage. Air conditioning system according to one of claims 1 to 11, characterized in that the power converter unit ( 28 ) a DC or AC output ( 44 ) for a ventilation device. Air conditioning system according to one of claims 1 to 12, characterized in that the vehicle is a bus.

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