EP2574861A1 - Air outlet with ventilator - Google Patents

Abstract

The model has an air filter unit (6) whose filtering effect is monitored by sensors (18). A mechanical drive and pressure sensors of a volumetric flow controller (7) are connected with a control and monitoring component (15). A silencer (9) compensates ventilation noises. The component is provided with terminals for connecting a power source (17) of electronic parts and a bus system (16) for controlling a supply air outlet and outlets of a ventilation system. An interface between the outlet and a supply air distribution system (1) is formed via an asymmetric transition piece (5).

Description

The invention describes an arrangement for an air outlet with fan for preferential use as Zuluftauslass in ventilation systems for buildings with Zuluftverteilsystemen that are installed under the rooms to be supplied. As is known, supply air outlets are used in building ventilation systems for introducing the supply air into the room. The air is first processed in the ventilation units accordingly (by filtering, thermal conditioning, compression, etc.) and then transported via Zuluftverteilsysteme to the outlets. Here then the supply air leaves the ventilation system and is distributed depending on the ventilation design and adjustment of the supply air outlets in the room.

The design of ventilation systems for large-volume rooms, especially in department stores, open-plan offices, railway stations, airports are normally designed so that here the central unit of the ventilation system is positioned in the roof area. There, the conditioning of the fresh outside air or the exhaust air takes place. The treated supply air then passes through roof openings to the room-specific adapted supply air distribution system, which is normally located in the ceiling area. The supply air outlets are then connected to the distribution system so that the air can be introduced at the desired locations in the room.

The energetic disadvantages of these embodiments are obvious. This is on the one hand the energy expenditure for the conditioning of the fresh outside air in the roof area due to the climatically particularly unfavorable conditions there. Furthermore, then the treated supply air is transported in the air distribution system over many times long distances to the air outlets and here already loses a significant part of its energetic components. On the other hand, the supply air must then be pressed with the required pressure from the supply air outlet so that the supply areas below are actually reached.

As an alternative solution to these ventilation systems, systems that use renewable energies have been increasingly used in recent years. Here, the ventilation unit is preceded by, for example, a geothermal heat exchanger, which proportionally assumes the conditioning of the fresh outside air. Thus, the positioning of the ventilation equipment from the roof area in climatically protected areas can be done.

If the structural situation permits, the positioning of the supply air distribution system can also take place underneath the floor. Thus, thermal losses can be further reduced, especially since the supply air is then already at the level of the supply level. The technical design matching air outlets, which are preferably designed in the form of Bodenauslässen, then receives a special meaning.

The aim of the arrangement according to the invention is to describe a universally applicable air passage, with the aid of an energetically optimizable supply air distribution in space is possible.

The invention has for its object to describe an arrangement for an air passage for preferential use as Zuluftauslass in the form of a floor outlet, characterized in that the supply air connection to a Zuluftverteilsystem via a universally shaped connector consisting of an adapter piece, which on the one hand the connection to the Air distribution system manufactures and on the other hand ensures the hygienic safe transition over the bottom or the openings and an asymmetric transition piece through which a structurally easy to produce transition to the ventilation components of Zuluftauslaß can be made.

Due to the fact that the position of the supply air outlets by the structural design in conjunction with furnishings or fixed parts of the building in the room is often already firmly defined and the Zuluftverteilsysteme, which are located below or outside the space to be supplied and already arise in the shell construction phase, it is necessary to establish a connection to Zuluftauslass only after its structural completion. This can lead to dimensional deviations due to inaccuracies in the construction process, which necessitates a shift of initially planned connection points. This necessary flexibility should be achieved by this asymmetrically shaped transition piece, which then compensates for the dimensional tolerances mentioned accordingly.

Subsequently, the supply air is passed through a filter assembly with replaceable filter material. Depending on the execution class of the filter arrangement is carried out here, the cleaning of the incoming air of suspended matter. The technical design of the filter is designed so that the degree of filtering effect can be monitored by means of sensors. When agreed limit values are exceeded, a fault message may be generated requesting the replacement of the filter material. In this case, the filter assembly in cassette format is designed so that exchanged via an adapted closure mechanism, the filter material can be.

Via a subsequently positioned volumetric flow controller, a variable adaptation of the pressure conditions to the set volumetric flow of the outlet can take place. Depending on the required size of the volume flow, the mechanical adjustment of the regulating flap takes place via an electromechanical drive, which receives its actuating information from a central control device. The use of the volumetric flow controller thus forms the prerequisite for variable operation of the supply air outlets. Due to its possible operating modes, it is thus possible to operate only a certain number of decentralized outlets independently of each other, with the objective to operate on the one hand ventilation systems with a needs-based mode of operation and on the other hand, the situatively necessary or desired supply air distribution to the to adapt to spatial requirements.

One or more fans are then connected to the volumetric flow regulator with the task of optimizing air distribution at the location of the supply air outlet. Directly driven, speed-controlled radial, axial or tangential fans with electric motors in the preferred EC version are used here. In the case of several decentralized air outlets, these fans are normally operated in series together with a supply air fan in the ventilation control center, which supplies the supply air distribution system. This interaction of the series connection of the supply air fan in the central ventilation unit with the decentralized fans in the decentralized supply air outlets ensures energy-efficient operation for the entire air transport at all times. Depending on the set operating mode of the ventilation system, the required volume flow at the location of the decentralized supply air outlet can thus be ensured, taking into account an always efficient mode of operation.

Depending on the requirements and application, an adapted silencer can be used on the fan to compensate for disturbing noise levels in the vicinity of the air outlet. Subsequently, the supply air then enters the interior of the outlet housing. Here, the pressure adjustment takes place to the necessary outlet volume flow. In this case, a solution is preferably provided as source air outlet for the ventilation-technical form of Zuluftauslasses.

The mechanical structure and the geometric shape of the outlet housing forms another possibility for a variable use, the arrangement described here. In addition to floor outlets, which can be placed in the middle of the room, there is also the possibility of the outlet housing to components of the building, for example, to Tragsäulenkonstruktionen and adapt walls. Also on subsequent spatial installations such as shopfitting in the form of shelves, counters and other shopfitting installations, various forms of furniture, wall hydrants outlet housing can be physically and constructively adapt.

The advantages of the arrangement according to the invention consist in the fact that it can be used to design ventilation systems that can operate a number of decentralized Zuluftauslässen as needed and depending on the requirements of the user. Depending on the operating situation, it is ensured that both the air transport to the outlet and the local air distribution take place under optimal energy criteria. Due to the variable structure of the arrangement for the Zuluftauslass this can be adapted to existing components of the building or existing fittings in the room.

An embodiment of the inventive arrangement is in FIG. 1 and will be described in more detail below.

It shows FIG. 1 an exemplary scheme for a Zuluftauslass with fan in the form of a bottom outlet with source air function. An air supply connection to the supply air outlet is made via a floor opening (4), which is equipped with an adapter piece (2), to a supply air distribution system (1) laid under the concrete floor (3). By way of an asymmetrical transition piece (5), the detachable connection of the arrangement to the structure (3) or to the outlet housing (10) takes place and, on the other hand, dimensional deviations between the center axis of the bottom opening and the inlet air outlet can be compensated. The air filter (6) with exchangeable filter material cleans the incoming air of suspended matter. Below is a volumetric flow controller (7) arranged to adjust the necessary pressure losses at different operating settings. A speed-controlled fan (8) with adapted muffler (9) forms the conclusion of the active part of the arrangement. From the muffler (9), the supply air flows into the interior of the outlet housing (13) and from there via the outlet openings (14) into the room. To control a possible number of Zuluftauslässen a BUS system (16) is provided which forms the interactive connection to the control module (15) in Zuluftauslass. Pressure-evaluating sensors monitor the filter assembly (6). The control of the mechanical drive and evaluation of the sensors of the volume flow controller (7) via corresponding leads (19). The power supply, speed control, speed and fault monitoring (20) for the fan (8) also takes place via the control module (15).

Explanations

description Part of the arrangement 1 Zuluftverteilsystem 2 adapter piece 3 Concrete floor 4 Floor opening 5 Asymmetrical transition piece 6 filter 7 Volume flow controller 8th fan 9 silencer 10 outlet housing 11 Mechanical device holder 12 Fluidically adapted transition 13 Interior outlet housing 14 outlet 15 control module 16 Connection for BUS system 17 Connection power supply 18 Monitoring filters 19 Control volumetric flow controller 20 Control, monitoring fan

Claims (8)

Design for a ventilated air duct with preferential use as a supply air outlet in the form of a floor outlet in ventilation systems for buildings with supply air distribution systems (1), which are installed outside the rooms to be supplied, characterized in that the execution via adapter pieces (2) as an interface of Structured body breakthroughs (4) to Zuluftverteilsystem (1) of the ventilation system is connected and subsequently contains an asymmetric transition piece (5), which takes over the ventilation and mechanical adjustment and further attachment to the components described below
and is designed so that on the one hand, a flexible mechanical connection is possible when the building process during the installation of the supply air outside the supply level dimensional differences between the bottom perforation (4) for connection to the Zuluftverteilsystem and the planned position of Zuluftauslass in space should give and on the other hand a detachable connection to the building (3), the outlet housing (10) and the mechanical supports (11) of the components air filter (6), volume flow regulator (7), fan (8) and muffler (9) and further includes an air filter unit (6) in cassette format with replaceable filter material, the function of the filter effect by means of sensors (18) and a control and monitoring assembly (15) can be monitored to determine the necessary time for the filter change and also consists of a volume flow controller (7), which by mechanical drive the pressure ratio e adapted to the individual operating cases of the supply air outlet by means of adjustable flap, wherein the mechanical drive and the pressure sensors are connected by control lines (19) with the control module (15)
and further one or more speed-controlled fans (8) with electric motors, preferably in the form of axial, radial or tangential fans, designed to optimize the distribution of supply air at the supply air outlet location, with power supply connection leads (20), Speed control and fault monitoring
and further a matched muffler (9), which is to compensate for the proportionately generated by the fan ventilation noise and subsequently the air overflow adapted passages (12) in the interior (13) of the housing and then via openings in the outlet surface (14) into the space and a control assembly (15) with connections for the power supply (17) of the electronic components and the BUS system (16 ) to control the outlet in conjunction with other outlets of a ventilation system. Execution for an air outlet with fan according to claim 1, characterized in that while maintaining said ventilation arrangement of the air passage and in particular the shape of the outlet housing (10) with the outlet openings (14) is designed so that thus a freestanding floor outlet, a wall outlet or other specific outlets, adapted to different forms of shelving, wall hydrants and concrete columns in department stores or to other in-room facilities, especially in cabinet form in offices can be performed. Design for an air outlet with fan according to claim 1, characterized in that the adapter pieces (2) are designed so that they are also in soil breakthroughs, which are completed after completion of the concrete floor by means of coring, it can be introduced and a subsequent application to the Luftverteilsystem (1) and allow the concrete floor (3), which meets the hygienic requirements for ventilation systems, is possible - designed so that these consist of one or more parts that can be plugged together in the bottom opening to the necessary extent and move and at their connection points a form-fitting sealing surface is present or can be adapted by means of mechanical or thermal deformation so to the gasket that form-fitting seals arise. Design for an air outlet with fan according to claim 1, characterized in that the opening (4) in the floor, made by means of bore or formwork part, is designed so that this breakthrough and the connection to Zuluftverteilsystem can be closed at any time by suitable moldings, designed so that the ventilation of the existing opening in the Zuluftverteilsystems (1) by means of a conical plug, which is pressed via a screw in the opening of the air distribution system (1) and permanently attached and the upper opening in the floor is closed by a positive plate , so that the floor at this point can be used again for other uses without Zuluftauslass. Design for a ventilated air outlet according to claim 1, characterized in that the shape of the asymmetric transition piece (5) is designed so that a dimensional adjustment of the air passage can be made to the room situation, in the form that this transition piece of one or more Component parts and further includes mechanical mounting options to on the one hand a detachable connection to the building (3) and on the other hand a flexible transition to the mechanical brackets (11) of the ventilation components filter (6), volume flow regulator (7), fan (8) Make the muffler (9) and the outlet housing (10). Fan-type diffuser according to claim 1, characterized in that the control assembly (15) with the cable connections (16, 17, 18, 19, 20) and further diagnostic interfaces is fixed to the mechanical support (11) are easy to reach in a system revision without disassembly of the air outlet housing and designed so that they are mounted behind a closable opening in the outlet housing (10). Design for an air outlet with fan according to claim 1, characterized in that the filter assembly (6) equipped with replaceable filter material is attached via a closable flap so that it is easily accessible during filter replacement without disassembly of the air outlet and executed so that this flap behind a closable opening in the outlet housing (10) is mounted. Design for an air outlet with fan according to claim 1, characterized in that the ventilation design for the exhaust opening of the fans (8) and the fluidic transitions (12) into the interior of the outlet housing (13) and the execution of the outlet openings (14) in the outlet housing (10) are designed so that this ventilation technology creates an air outlet with source air function.

Images