EP2131113A1 - Room air and air conditioning system with at least one flow channel for a medium flowing in it and with at least two aerodynamic components - Google Patents

Abstract

The system has a flow channel (3) for a medium and two aerodynamic components (1) i.e. volume flow controllers. One of the components has a receiver and other component has a transmitter, where the components are connected to each other by a wireless connection. The transmitter with a subregion (7) projects inside the channel, where the waves sent by the transmitter are guided through the channel. The receiver with a subregion projects inside the channel and receives the waves guided through the channel. The connection is a radio connection or light in visible or invisible wavelength range.

Description

The invention relates to a ventilation and air-conditioning system with at least one flow channel for a medium flowing therein and at least two air-technical components, wherein at least one component of the ambient air and air conditioning system has a receiver and at least one component has a transmitter and both components via a wireless Connection, in particular via a radio link, are interconnected.

Known systems have on the one hand designed as a control unit component, which is installed for example on a room wall, and on the other hand arranged in a flow channel designed as a volume flow controller further component. Both components are connected to each other via a radio link, which is designed so that the signals are transmitted in free space. A disadvantage proves that such radio links have only a very limited range and thus appropriate systems, especially for multi-storey buildings, are only limited use. For example, room walls or other objects lead to a significant impairment of the radio connection. An arrangement of two interconnected via a radio link components in different rooms or even in different floors is therefore almost impossible.

The object of the invention is to avoid the aforementioned disadvantages and to provide a ventilation and air conditioning system, which is independent of the structural conditions of the building in question, in which the system is installed, can be used.

This object is achieved in that at least one of the transmitters projects into the interior of the flow channel at least with a partial region such that the waves emitted by this transmitter are conducted essentially through the flow channel and / or at least one of the receivers at least with a partial region as far in the interior of the flow channel protrudes so that it can receive substantially guided by the flow channel waves.

The arrangement according to the invention uses the flow channel itself for the wireless transmission. Since the waves emitted by the transmitter are conducted essentially through the flow channel and / or the waves are received by the receiver projecting into the interior of the flow channel, at least with a partial region, it is also possible to overcome long distances within the system. Conventional building-side problem areas, such as concrete ceilings or concrete walls, which lead in conventional systems to a strong impairment up to the termination of the radio connection, thus no longer constitute an obstacle.

By means of the solution according to the invention, each suitably designed individual component of a climate control and ventilation system can communicate directly with another or several other components of a central ventilation system. A communication between a central ventilation system and, for example, a decentralized ventilation unit is possible with appropriate design. Due to a direct connection with decentralized ventilation units, a coordination between temperature and volumetric flow demand can be achieved centrally but also decentrally.

The connection may be, for example, a radio connection, an infrared connection, an ultrasonic connection or else a connection by means of light in the visible or invisible wavelength range.

The system can be used without structural changes in existing systems, so that existing systems can be easily retrofitted. The system can have any number of components. In its simplest embodiment, only two components are provided which are wirelessly connected to each other.

Thus, for example, two components arranged one behind the other in a flow channel in the flow direction can communicate with one another, provided that they are equipped accordingly with a transmitter and / or a receiver. The communication between two components can be unidirectional or bidirectional. This can be dispensed with a central building control, since each component itself is assigned depending on the requirement of a transmitter and / or a receiver.

If a building control system is present, it is of course possible that a conventional central unit of the building control system of a ventilation system is also equipped with at least one transmitter and / or at least one receiver. In this way, for example, the speed of a fan formed as a component with the result of energy savings by Entdrosselung the distribution system or the supply air temperature can be adjusted by decoupling temperature control and flow.

At least one component of the ventilation and air-conditioning system can comprise a measuring and / or operating device and in particular have at least one transmitter. This may be, for example, an operating device that is assigned to a room. By way of example, this operating device can have only one switch, so that when the switch position is changed via the transmitter, a corresponding signal is sent to the associated component. The operating device can also have a measuring element. If a setpoint set in the operating device is undershot or exceeded, a corresponding signal is sent to the associated component in the presence of a control device in order to restore the desired setpoint.

At least one component may comprise a volumetric flow regulator, a fire damper, a fan, a heat exchanger or the like and in particular have at least one receiver. Such components usually include an actuator, which is usually designed as a motor. The actuator causes a change in the damper position with a fire damper and serves as a drive for a fan.

If, for example, it is the actuator of a volumetric flow controller, a signal is sent to the corresponding transmitter in that the flap is either opened or closed. Of course, other "queries" can be transmitted wirelessly with the system according to the invention. These are, for example, regularly prescribed protocols of test runs, maintenance work or the like.

At least one of the transmitters can be combined with a receiver and, in particular, also be designed as a repeater. Repeaters receive a signal, reprocess it and send it out again. Repeaters are electrical or optical devices. Simple repeaters do not affect the transmitted information. Rather, the electrical or the optical signal is only processed. Smarter repeaters can re-synchronize an electrical signal.

If a component has a transmitter and a receiver, both receiving and sending are possible. In this case, signals from another component can be received, optionally processed and forwarded, or else own data can be sent. On the basis of these components, a network of a wireless connection thus arises, which can take over the functions of a conventional central building control technology partially or completely.

In such an embodiment, the transmitter and the receiver of a component are functionally connected to each other, so that in this respect receiving and sending is possible. Such a configuration is particularly useful when, for example, in a flow channel several arranged one behind the other components are arranged, which communicate with each other. This allows a particularly energy-optimized operation of the system, since the climate effect of the entire system can be optimally adapted to any point of the system.

If at least one of the transmitters are combined with a receiver and also designed as repeaters, signals can be forwarded to a further component. But it is also quite possible that in such an embodiment, only a portion of the signals received from another component is used or implemented, the remaining part of signals is forwarded to another component.

It is not necessary for a component to find exactly the component with which communication is intended. Rather, it is only necessary for a component to find any other component for communication at all, since this component can forward the relevant signals, in particular due to their property as repeaters, directly or optionally via further components to the relevant component.

If, for example, a component is designed as an operator control device to which three components are assigned, one connection each, for example a radio link, can exist between the operator device and each individual component. But it is also quite possible that the HMI device communicates with only one component and this component forwards the signals that are not intended for this component to the relevant other component or to the other components concerned. So are by means of the components of the invention arbitrarily large and complex systems produced.

Components with repeaters are particularly suitable in complex systems in which, for example, a plurality of parallel bypass ducts extending from each other, each with components therein, such as volumetric flow controllers and fans, are supplied by a main flow duct. If, for example, in the case of a variable volumetric flow at the outlet of a secondary flow channel, an excessively low amount of air is measured by a measuring device, the corresponding measuring device transmits a corresponding signal via the transmitter to change the damper position of the component assigned to this secondary flow channel and designed, for example, as a volumetric flow controller instead of increasing the output of the fan arranged in the main flow passage. This allows an energy-optimized driving style.

At least one component of the ventilation and air-conditioning system may comprise a control device and in particular have at least one transmitter. Of course, it is also possible that a receiver is provided in addition to the transmitter.

At least one component of the ventilation and air-conditioning system may comprise a control device and in particular have at least one transmitter and one receiver.

In the system according to the invention, the control and / or regulating device (s) are decentralized, since each component preferably itself has a corresponding device can be assigned. The corresponding control and / or regulating devices are preferably code-coded, self-recognizing, self-addressing and self-configuring. This simplifies on-site assembly and commissioning because the components within the system identify themselves.

It is obvious that the invention can relate to a complete ventilation system. Of course, island systems, i. H. individual rooms and components associated with these rooms, conceivable.

Fig. 1

einen Schnitt durch eine erfindungsgemäße Komponente mit einem Sender, der wenigstens mit einem Teilbereich in das Innere hineinragt,

Fig. 2

einen Schnitt durch eine erfindungsgemäße Komponente, bei der der Empfänger wenigstens mit einem Teilbereich in das Innere hineinragt,

Fig. 3

einen Schnitt durch eine Komponente, bei der ein Sender und ein Empfänger zumindest mit einem Teilbereich jeweils in das Innere hineinragen,

Fig. 4

eine Skizze einer raumluft- und klimatechnischen Anlage zur Raumbelüftung und Klimatisierung mittels Zuluftanlage mit Volumenstromreglung,

Fig. 5

eine Skizze einer raumluft- und klimatechnischen Anlage mit Raumbelüftung und Klimatisierung mittels zentraler raumlufttechnischer Anlage und

Fig. 6

eine Skizze einer raumluft- und klimatechnischen Anlage zur Raumbelüftung und Klimatisierung mit dezentralem Zuluftgerät und zentralem raumlufttechnischen Gerät für Abluft.

In the following, illustrated embodiments of the invention will be explained in the drawing. Show it:

Fig. 1

a section through a component according to the invention with a transmitter which projects into the interior at least with a partial area,

Fig. 2

3 a section through a component according to the invention, in which the receiver protrudes into the interior at least with a partial area,

Fig. 3

4 a section through a component in which a transmitter and a receiver project into the interior, at least with a partial region in each case,

Fig. 4

a sketch of a ventilation and air conditioning system for room ventilation and air conditioning by means of supply air system with volume flow control,

Fig. 5

a sketch of a ventilation and air conditioning system with room ventilation and air conditioning by means of central air conditioning system and

Fig. 6

a sketch of a ventilation and air conditioning system for room ventilation and air conditioning with decentralized supply air device and central air handling unit for exhaust air.

In all figures the same reference numerals are used for identical or similar components.

The invention is illustrated by means of a designed as a volume flow controller component 1. The FIGS. 1 to 3 show a volumetric flow controller having a damper blade 2, which is mounted in the interior of a flow channel 3 pivotable on a transversely to the flow direction (arrow 4) aligned pivot axis. As actuator, a drive 6 is provided, which is arranged outside of the flow channel 3 and the end acts on the pivot axis 5.

At the in Fig. 1 In the embodiment shown, the volumetric flow controller has a transmitter which projects into the interior of the flow channel 3 with a partial region 7, in the exemplary embodiment shown with an antenna. Thus, the waves emitted by this transmitter are essentially passed through the flow channel 3.

The antenna is in the in the FIGS. 1 to 3 illustrated embodiments via a component 8, which is arranged outside of the flow channel 3, connected to the drive. The drive 6 and the component 8 are arranged in a common housing 9.

The component 8 may be, for example, a converter which, for example, converts a received radio signal into an analog or digital signal or vice versa. It is also possible that the component 8 has an amplifier function, so that an incoming signal can be amplified.

Of course, the component 8 may also be designed as a control device or as a control device, which is particularly suitable for complex systems.

In Fig. 2 an embodiment is shown in which the component 1 has a receiver. In order for the receiver to be able to receive waves and signals emitted by the flow channel 3 from another transmitter, the receiver protrudes into the flow channel 3 at least with a partial region 10 -in the illustrated exemplary embodiment with its antenna.

In Fig. 3 an embodiment is shown in which the component 1 has both a receiver and a transmitter. Both the transmitter and the receiver project into the flow channel 3 with a partial region 7, 10. Thus, the component 1 on the one hand receive signals transmitted by a transmitter, not shown, and on the other hand signals to another component 1, which has a corresponding receiver forward.

In the FIGS. 4 to 6 are the better overview, the components 1 each without a erfindungemäßen transmitter and / or receiver or transmitting and / or receiving device.

In Fig. 4 is a schematic diagram of a room ventilation and air conditioning by means of a supply air system with a volume flow controller shown. In a space 11 opens a flow channel 3 for the supply air with an end-side outlet 12. In the flow channel 3 for the supply air designed as a volume flow regulator component 1 is provided. As a further component 1, a room-side control unit is shown.

The HMI device can, as in Fig. 4 indicated, for example, have a transmitter and the volume flow regulator itself may be provided with a receiver which projects at least with a portion 10 in the flow channel 3. If a signal or a wave is sent from the operating unit to the volume flow controller and received by the receiver of the volume flow controller, the position of the damper blade 2 changes accordingly the other direction possible.

Fig. 5 shows a schematic diagram of a room ventilation and air conditioning by means of a central ventilation system. As can be seen from this figure, a flow channel 3 for the supply air and a flow channel 3 for the exhaust air is provided. On the room side, the flow channel 3 has an inlet 15 for the exhaust air. The flow channels 3 for the supply air and for the exhaust air are supplied to a trained as a central air-conditioning device component 1, which has a transmitter and a receiver in the illustrated embodiment. The exhaust outlet 13 and the air intake 14 are merely indicated.

As in FIG. 5 indicated, the flow channels 3 for the supply air, for example, different rooms or zones, and the flow channels 3 for the exhaust air, such as different rooms or zones, respectively merged. Both in the flow channel 3 for the exhaust air and in the flow channel 3 for the supply air each designed as a volume flow controller component 1 is provided, which can both send and receive in the dargstellten embodiment.

The individual components 1 can communicate with one another arbitrarily within the system via the flow channels 3, since the waves are transmitted through the flow channel 3. It is therefore also possible that the two volumetric flow controller can communicate with each other, for example, to match the position of the damper blade 2 to achieve a balanced air flow balance, the corresponding waves or signals are forwarded through the designed as a central air handling unit component 1. Also, for example, waves can be transmitted from the trained as an HMI device component 1 via a volume flow regulator to the room ventilation device.

In Fig. 6 is a schematic diagram of a room ventilation and air conditioning with a designed as a decentralized air supply unit component 1 and designed as a central air-conditioning device component 1 for the exhaust air shown. In the flow channel 3 for the exhaust air designed as a volumetric flow controller component 1 is provided with a transmitter and a receiver. The flow channel 3 for the exhaust air flows into the central air-conditioning device, which is also equipped in the illustrated embodiment with a transmitter and a receiver. The exhaust outlet 13 is merely indicated. As further indicated, several flow channels 3 are brought together for the exhaust air.

In the space 11 designed as a decentralized supply air unit component 1 is provided for ventilation. In the simplest case, for example, this can have only one receiver. If, for example, a signal sent to the volumetric flow controller is sent from the control unit designed as component 1, the damper blade 2 to increase the exhaust air flow more to move to the open position, a corresponding signal from the control unit is also sent to the decentralized supply air device to increase the supply air. Of course, the decentralized Zuluftgerät, as indicated, also have a transmitter to send in turn signals or waves to another component 1 of the space and air conditioning system.

Claims (6)

Ventilation and air-conditioning system with at least one flow channel (3) for a medium flowing therein and with at least two air-technical components (1), wherein at least one component (1) of the room air and air conditioning system a receiver and at least one component (1) a Transmitter and both components (1) via a wireless connection, in particular via a radio link, are interconnected, characterized in that at least one of the transmitter at least with a portion (7) far into the interior of the flow channel (3) projects that the are transmitted by this transmitter waves substantially through the flow channel (3) and / or at least one of the receivers at least with a portion (10) so far into the interior of the flow channel (3) protrudes, that it substantially through the flow channel (3) can receive guided waves. Ventilation and air-conditioning system according to the preceding claim, characterized in that at least one component (1) of the ventilation and air-conditioning system comprises a measuring and / or operating device and in particular has at least one transmitter. Ventilation and air conditioning system according to one of the preceding claims, characterized in that at least a component (1) comprises a volume flow regulator, fire damper, fan, heat exchanger or the like and in particular has at least one receiver. Ventilation and air-conditioning system according to one of the preceding claims, characterized in that at least one of the transmitters combined with a receiver and in particular also or exclusively designed as a repeater. Ventilation and air conditioning system according to one of the preceding claims, characterized in that at least one component (1) of the air conditioning and air-conditioning system comprises a control device and in particular has at least one transmitter. Ventilation and air-conditioning system according to one of the preceding claims, characterized in that at least one component (1) of the ventilation and air-conditioning system comprises a control device and in particular has at least one transmitter and one receiver.

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