FI79406C - A system for regulating a minimum air flow to a space and / or from a space to be ventilated. - Google Patents

Description

79406 1 Apparatus for adjusting the minimum airflow to and / or from the air-conditioned space Anläggnlng för regiering av en minimiluftström account that utrymme och / eller fran et utrymme 5 som skall ventileras

The invention relates to an apparatus for adjusting the minimum air flow to and / or from a space to be ventilated.

10

Known air conditioners have not been able to take advantage of the cooling effect of outdoor air in spring and autumn and are not sufficiently fresh without the possibility of importing in winter, when outdoor air cannot be produced in summer quantities due to the low outdoor temperature. Device-15 solutions are known which use separate ducts in which the suction side of the fan is connected to the outside air, in which case a flow regulating valve is arranged in said duct. A second duct is further connected to the suction side of the same fan, comprising e.g. a damper through which a larger amount of inlet can be brought into the room and which duct is used especially when the outdoor temperature el is not purple and not purple.

These known solutions are constructively expensive because they require an additional duct for the small amount of air and also for the equipment arrangements in question: · It has not been possible to implement a controlled import of a fresh amount of fresh air. On the air side of the fan, there is a certain amount of vacuum depending on the fan speed and depending on the flow of the recirculation air duct, and thus it has not been possible to adjust the desired and energy-saving air volume value to the fresh air introduced through the small air duct.

The object of the invention is thus such a device solution in which it has been possible to implement the introduction of million ml of raw air into an apartment by the simplest but most reliable device arrangement, whereby in the method and apparatus the so-called summer position and the so-called talvlasento. The object of the invention is thus such a method and a device solution in which it has been possible to implement, taking into account energy-saving aspects, 2 79406 ^ in the summer sufficient fresh air supply to the rooms and in the winter time sufficient fresh air supply to the rooms. It is also an object of the invention to provide such an apparatus which can be simply adapted to conventional and prevailing apparatus without the need for additional arrangements and ducts.

The apparatus according to the invention is mainly characterized in that the second control device part comprises at least one constant air volume controller, and in connection therewith a closing member, and that the control device comprises a flange connected to the control body body. through the opening with the slats in the clinker position and the closure part in the open position.

15

According to the invention, it has been realized to solve the ventilation of the rooms by using only one control device in the supply and / or exhaust air duct. By designing the control device in such a way that the control device comprises two control device parts, the ventilation of the room-20 can be optimized in the most energy-efficient way possible. When the outdoor air conditions are favorable, large amounts of fresh outdoor air can be introduced into the room through the first control device section and the second control device section, which first control device section comprises a larger flow cross section than the second control device section. Air is supplied through the second control unit 25 when the weather conditions are not favorable and, for example, due to the coldness of the outside air, air cannot be led into the room through the first control unit section. The second control device part comprises a constant air volume valve, which may be adjustable in its set value to produce a minimum amount of air in or out of the room. The second device portion for the control u is preferably considerably smaller in its channel portion than its flow cross-sectional area than the first control device portion in its flow cross-sectional area.

. The invention will now be described with reference to the accompanying figures

Some preferred embodiments of the invention disclosed in the supports, to which, however, the invention is not intended to be exclusively limited.

3 79406 1 Figure 1 shows a device solution according to the prior art in a schematic representation.

Figure 2 shows a device solution and method g according to the invention in a schematic representation.

Figure 3 shows a preferred embodiment of the device according to the invention in a cross-sectional view.

Fig. A shows the device according to Fig. 3 from the side.

Figure 5 shows a preferred embodiment of the device according to the invention from the front.

j5 Figure 1 shows a prior art device solution. Duct A is connected to the outside air via a damper, and a large amount of fresh air is brought into the room through that duct. Fresh air is introduced by the suction provided by the fan P ^ as indicated by the arrow. The air in the room is circulated through the recirculating air game S2 as shown by the arrow L2. The room air is removed from the room by means of the exhaust fan P2 as shown by the arrow (damper L1 ') or via the additional duct Cj during the winter. Small amounts of room air are removed via this additional duct Cj. The channel Cj comprises a separate opening damper and a closing damper S1. In winter in particular, a minimum amount of 25 room air is removed and a minimum amount of fresh air is introduced to ensure the lowest possible energy consumption. During the summer, the room air can be removed via a damper with a larger duct opening. In winter, a separate duct Kj (arrow Lj ') is introduced into the room air through the damper of the million-gauge air duct in question. The air enters the room by suction provided by the fan P. In winter time, the damper Sj is kept closed and the air is brought only through the duct Kj and the damper. Correspondingly, during summer time, the damper Sj is open, because infinite amounts of fresh air can be introduced into the rooms and halls without the equipment deteriorating the energy economy of the apartment. 35

Figure 2 shows a method according to the invention. The method uses a single control wave in the air inlet duct A and in the outlet duct 4 79406 1 in the duct B. The air flow control apparatus is denoted by reference numeral 10. Most of the supply air is introduced through outdoor air. By means of the second control device section 12 with a smaller duct cross-section, the desired limited amount of small air is brought into the winter time. In this case, the control device section 12 comprises a blank air volume controller 13, by means of which the desired supply air volume is always brought into the room, regardless of the pressure difference across the control device 10. The control device portion 11 of the control device 10 can be adjustable from the duct opening 11a by separate controls, so that the air supply to the room space can be adjusted manually or by means of a motor as desired. The control device section 12, i.e. the section comprising the constant air volume controller 13, can also be closed and opened separately from its duct opening or duct openings 12a by means of a separate closing part 15. In this way, air can flow into the room only through the control device section 11 and / or the control device section 12.

The second control device section 12 comprises one constant air volume controller 13 or several constant air volume controllers 13. The constant air volume controller 13 may be such a constant air volume valve, the constant value of which can be set as desired and in accordance with the regulations. With the help of an adjustable constant air volume valve, the amount of air entering the room can be adjusted, for example, according to the use of the room.

Fig. 2 further shows slats 14 which can be moved with one actuator or separately. into the room. Figure 2 also shows the inverse step of the method, in which air is removed from the room through a control device 10 'similar to the control device 10. As shown by the arrow L 1', part of the room air is circulated through the clamp air damper 17 so that only part L through hardware 10. In summer the control device sections 11 and 12 of the control device 10 "are open or at least the control device section 11 with a larger flow duct opening is open. In winter only a small part of the room air is removed by then takes place via constant air volume controllers or controller 13.

Fig. 3 shows a device solution according to the invention in a sectional view taken along the section line I-I in Fig. 5. The air flow control apparatus 10 comprises movable slats IA associated with the first control equipment section 11, which are moved by means of a separate slat movement mechanism 17. When the slats are in the open position (dashed lines) 10, the air flow L ^ b enters the room space. The apparatus 10 further comprises a constant air volume controller 13 associated with the second control device section 12, which passes only the desired or predetermined amount of air into or from the room H. When the slats IA close the first control device section 11, fresh air passes through the constant air volume control channel 12a shown by the arrow L1a. In order for this amount of controlled flow to be possible, it is a prerequisite that the closing and opening closing part 15 of the second control latch portion 12 in front of the regulator 13 is in the open position and the slats IA of the control lumen portion 11 in the clown position. The air volume control apparatus 10 further comprises a connection flange 21 of constant air volume controllers 13 associated with the body portion 20 and the body 20 portion 20.

Figure A is a side view of the apparatus of Figure 3. The apparatus comprises a sliding device 18 of the closure part 15, which may comprise an electric motor 19 25 or a manually movable adjustment lever which engages and moves the closure part 15. The movement of the slats IA is provided by a movement mechanism 17 which moves all the slats IA cooperatively. The movement mechanism 17 may comprise a motor 22 which moves the arms 17a and 17b of the mechanism and further the slats.

Figure 5 is a front view of the embodiment of Figures 3 and A.

The flange 21 to which the constant flow controllers 13a and 13b of the second control section 12 are connected is connected to the body 20 of the control device 10. The flange 21 allows air communication over the control device 10 only through the duct openings of the constant flow controllers 13a and 13b. In the figure, two constant flow regulators 13a and 13b are connected to the flange 21. As shown in the figure, the slats IA are in the closed position, in which case the air flow passes only through the constant volume regulators 13a and 13b. The figure also shows a mechanism for moving the slats 14 and a sliding device 18 for the separate shutter part 15 associated with the constant flow part 12. The shutter part 15 is arranged behind the constant air volume regulator 13a and 13b and consists of one long slat 13 the channel holes.

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Claims (2)

7 79406 ^ Claims An air flow control device (10), the control devices comprising a body portion (20) and an associated first control device portion 5 (H) for larger air volumes and a second control device portion (12) for lower air volumes, the first control device portion (11) comprising a plurality of slats (14) , which can be closed and opened cooperatively by means of a sliding mechanism (17), characterized in that the second control device part (12) comprises at least one constant air volume controller (13) and in connection therewith a closing element (15) and that the control device (10) comprises a control device (10) a flange (21) associated with the body part (20), to which the constant air volume controller (13) is connected, the flange (21) enabling air communication over the control device (10) only through the duct opening of the standard air volume controller (13) in the closed position and with the closure part (15) in the open position. 20 25 30 35