NL2008944C2 - VENTILATION INSTALLATION WITH FLOW CONTROLLERS. - Google Patents

Description

Ventilation installation with flow controllers

The invention relates to a ventilation installation, comprising a central housing with at least one nozzle, an active fan in the housing, a flow controller connected to the nozzle for controlling the air flowing through the nozzle, at least one measuring system for measuring a characteristic of the air at the flow regulator as well as a control system for controlling the flow regulator on the basis of a characteristic of the air measured by the measuring system.

Such a ventilation installation is known, and can for instance be used for the central extraction of air from the different rooms in a building. Depending on the nature of the use of the rooms and the number of people in them, the level of extraction can be set separately for each room. To that end, the flow controller which is located in the relevant channel with which that space is connected to the fan, is controlled in the desired manner by the control system.

Parameters that can play a role in this are the CO2 content, the humidity, temperature and the like. For example, if there are a large number of people in a particular room, the CO2 content may reach undesirable levels. The increase in the CO 2 content is observed by the relevant sensor of the measuring system, such that the software of the control system can set the flow controller to a higher flow. According to another example, the humidity of the air extracted from a wet cell can give rise to an increase in the flow rate. As soon as a decrease in the relevant parameter is observed, the flow can be reduced.

Although the aforementioned has been given as an example for extracting air from the rooms concerned, it is also conceivable with such a ventilation installation to supply air via the flow controllers to the rooms concerned. It is also possible to provide double channels with which on the one hand air can be supplied to a specific space and on the other hand air can be discharged therefrom under the influence of the fan.

US-A-2007/0169927 discloses a ventilation installation with a housing in which there is a sensor. A further ventilation installation is known from NL-C-1018155 in which each nozzle of the housing carries a separate element in which both the flow regulator and a measuring system are included. These measuring systems are all connected via a separate cable to the control system located in the housing. The flow regulator consists of a valve that is rotatably suspended in the element, as well as a motor for rotating the valve. This motor is also connected to the control system via a cable 5.

This known ventilation installation has several disadvantages. Because the measuring system is integrated in the element, it is necessary to exchange the entire element, including the valve and drive motor, in the event of a defect in that measuring system. That is cumbersome and expensive. Moreover, this leads to the necessity of maintaining a relatively large stock of valuable elements. A further disadvantage is that each measuring system must always be connected to the central control system via a separate cable after placing the element on the relevant nozzle of the housing. This is labor intensive and can also lead to errors.

The object of the invention is therefore to provide a ventilation installation with which several spaces can be ventilated separately as required, but whose construction is simpler and more reliable. That object is achieved in that the measuring system is integrated in the housing, that the housing carries at least one foot or seat in which a measuring unit is clicked, and that foot or seat is connected to the control system.

The integrated position of the measuring system in the housing brings several advantages. First of all, the connections between the measuring systems and the central control system can be included in the central housing in advance. This eliminates the need to connect the measuring system to the control system afterwards via a separate loose cable. In addition, a great advantage is that all flow regulators can be of identical design, regardless of whether they are controlled on the basis of the CO2 content of the air, or of the humidity, or of the temperature and the like. This means a rationalization of both production and inventory management, which also benefits the reliability of the installation. This also has a favorable effect on the costs of the installation.

The measuring system is preferably integrated in the mouthpiece. The mouthpiece protrudes slightly relative to the rest of the housing, such that there is sufficient space available for the measuring system. A great advantage is furthermore that the measuring system is easily accessible, such that it can easily be exchanged in the event of a possible defect.

The measuring system may comprise a sensor unit; as mentioned, the sensor unit can be intended for measuring various parameters, such as CO2 content, humidity, temperature and the like. The sensor unit is designed for outputting a signal that is a measure of such a parameter and is connected to the control system. In particular, the sensor unit may comprise a sensor with integrated electronics for issuing a measurement signal, such as a sensor integrated on a printed circuit board. Such a sensor unit can be inserted in a simple manner into said foot or seat on the mouthpiece.

The housing may further have a cover. This cover covers the central part of the housing. At the same time, however, this cover can also be designed for covering the measuring systems integrated in the housing. This also results in a further rationalization of the structure of the installation.

The flow regulator can be designed in many different ways. It preferably comprises a ring element in which a valve is rotatably or slidably suspended, which ring element is releasably connected to the housing, such as with a nozzle thereof. The ring element can also carry a drive for driving the valve. The fan can be designed for sucking in air via each nozzle, or for inversely discharging air via each nozzle.

The invention also relates to a building comprising several spaces, a ventilation installation as described above, comprising a central housing with at least one nozzle, an active fan in the housing, a flow regulator connected to the nozzle for controlling the air flowing through the nozzle flows, at least a measuring system for measuring a characteristic of the air at the flow controller and a control system for controlling the flow controller on the basis of a characteristic of the air measured by the measuring system, as well as channels which each extend between a of those spaces and a mouthpiece of the housing. According to the invention the measuring system is integrated in the housing, wherein the housing carries at least one foot or seat in which a measuring unit is clicked, and the foot or seat is connected to the control system.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the figures.

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Figure 1 shows a schematic view of a ventilation installation.

Figure 2 shows the housing on a larger scale.

Figure 3 shows the housing with lid.

Figures 4 and 5 show a variant of the housing and cover.

The ventilation installation shown in Figure 1 is located in a building, in particular a dwelling 1, which comprises several rooms 2, 2 "and so on. The ventilation installation can be designed for extracting air from the rooms, for supplying air thereto or for both supplying and discharging air. In the latter case, two channels are provided per departure. In the exemplary embodiment shown, each room 2, 2 ", .. is provided with a single channel 3, 3", .. which flows into the room concerned via a valve 4, 4 ", .. The channels 3, 3 ', .. are all connected to a nozzle 5, 5', .. of the central housing 6. In this central housing there is an active fan 7 which is known for sucking in air from the channels. , respectively, provides for the delivery of air to the 15 channels. The air extracted from the rooms can be led out via the outlet 18.

As shown in Figures 2 and 3, a flow regulator 8, 8 ", ... is connected to the nozzles 5, 5", ... of the housing 6. These flow regulators each consist of a ring element 9, a valve 10 pivotally suspended therein, and a motor 11 for driving the valve. On each nozzle 5, 5 ', .. there is a seat 12 with openings 13. In this embodiment the seats are located outside the peripheral walls 19 of the housing 6. In the seats 12 a sensor unit 14 can be accommodated which consists of a printed circuit board with electronic circuits and a solid state sensor. This sensor faces the openings 13, 25 such that the properties of the air flowing past can be measured.

The electronic circuits can convert the measurement of the sensor into a suitable measurement signal that can be processed by the central control system 15 which is connected with permanent connections 16 to the seats 12 and thus to the sensor units 14.

The sensor units can optionally be clicked into the seats, depending on the characteristic to be measured. The seats provide a mechanical holding action to the sensor units, and at the same time ensure signal transmission with the connections 16. The top side of the housing 6 can be covered by means of the cover 17 as shown in Figure 3.

In the variant as shown in Figs. 4 and 5, the sensor units 14 are included within the peripheral walls 19 of the housing 6. The sensor units 14 are included in the seats 19; some sensor units are shown in partially removed condition. The seats connect to the openings in the nozzles 5, 5 ', ... that are not visible in figures 4 and 5, such that the sensor can perform the desired measurements on the air flowing past. In this embodiment the cover 17 also covers the sensor units 14 placed in the seats 12.

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List of reference signs I. Home 2., 2 '., .. Departures 3., 3'., .. Channel 4., 4 '., .. Valve 5., 5'., .. Mouthpiece 6. Housing 7. Active fan 10 8., 8 '., .. Flow controller.

9. Ring valve 10. Valve II. Motor 12. Seat 15 13. Openings 14. Sensor unit 15. Central control system 16. Connection 17. Cover 20 18. Drain 19. Perimeter wall

Claims (12)

A ventilation installation, comprising a central housing (6) with at least one nozzle (5, 5 ', ..), an active fan (7) in the housing, a flow regulator (8, 8') connected to the nozzle. .) for controlling the air flowing through the nozzle, at least one measuring system (14) for measuring a characteristic of the air at the flow controller and a control system (15) for controlling the flow controller on the basis of a measuring system measured property of the air, characterized in that the measuring system (14) is integrated in the housing (6), that the housing carries at least one foot or seat (12) in which a measuring unit (14) is clicked, and that foot or seat is connected to the control system (15). Installation according to claim 1, wherein the measuring system (14) is integrated in the mouthpiece (5, 5 ", ..). 3. Installation as claimed in claim 1 or 2, wherein the measuring system (14) comprises a sensor unit for measuring a property such as the CO2 content, the humidity and the like, which sensor unit issues a signal that is a measure of that property and is connected. with the control system (15). Installation according to claim 3, wherein the sensor unit (14) comprises a sensor with integrated electronics for supplying a measurement signal, such as a sensor integrated on a printed circuit board. 25 Installation according to one of the preceding claims, wherein the housing (6) is provided with a cover (17), which cover also covers the measuring system (14) integrated in the housing. Installation according to claims 2 and 5, wherein the cover (17) covers the measuring system (14) integrated in the nozzle (5, 5 ", ...). An installation according to any one of the preceding claims, wherein the flow regulator (8, 8 ', ...) comprises a ring element (9) in which a valve (10) is suspended rotatably or slidably, which ring element is detachably connected to the housing (6) , such as with a nozzle (5, 5 ', ..) thereof. 5 Installation according to claim 7, wherein the ring element (9) carries a drive (11) for driving the valve (10). 9. Installation as claimed in any of the foregoing claims, wherein a plurality of nozzles (5, 5 ", ..) are provided, each with a respective flow regulator (8, 8", ..) and each with a respective integrated measuring system (14). Installation as claimed in any of the foregoing claims, wherein the fan (7) is designed for sucking in air via each nozzle (5, 5 ', ..) and the housing 15 (6) comprises a discharge (18) for discharging of the air drawn in through each nozzle (5, 5 ', ...). 11. Installation as claimed in any of the foregoing claims, wherein the fan is designed for supplying air via each nozzle and the housing comprises a supply 20 for supplying the air discharged via each nozzle. A building (1) comprising a plurality of spaces (2, 2 ', ..), a ventilation installation according to any one of the preceding claims, comprising a central housing (6) with at least one nozzle (5, 5', ..), an active fan (7) in the housing, a flow regulator (8, 8 ', ...) connected to the nozzle for controlling the air flowing through the nozzle, at least a measuring system (14) for measuring a property of the air at the flow controller and a control system (15) for controlling the flow controller on the basis of a property of the air measured by the measuring system, as well as channels (3, 3 ', ..) each extending between one of 30 said spaces and a mouthpiece of the housing, characterized in that the measuring system (14) is integrated in the housing (6), that the housing carries at least one foot or seat (12) in which a measuring unit (14) is clicked, and that foot or seat is connected to the control system (15).