FI86768C - Air exchange device based on the principle of heat recovery - Google Patents

Description

86768 Ventilation unit operating on the principle of heat recovery. -Luftväxlingsanordning baserad pä principen om värmetillvaratagande.

The invention relates to a ventilation system operating on the principle of heat recovery, comprising inlet and outlet air openings connected to separate ducts by partitions, two fans for providing a supply and exhaust air flow and at least one heat recovery intake cell acting as a heat exchanger for supply and exhaust air flow. between.

It is particularly advantageous to use the so-called the principle of regenerative heat recovery, in which the supply air and the exhaust air come into alternate contact with the same cell parts. The advantages of such ventilation equipment are high efficiency and low sensitivity to freezing, in addition to which the equipment also transfers moisture from the exhaust air to the supply air.

Known heat recovery devices have the limitation that they cannot be used efficiently by the heat provided by a single central heat source, such as a central storage furnace.

The object of the invention is to provide an improved ventilation device which can efficiently utilize the heat provided by a single central heat source, such as a storage central furnace, which can be distributed to different spaces along the supply air ducts while producing heat source ignition and combustion air production.

This object is achieved by a ventilation device according to the invention on the basis of the features set out in the appended claim 1.

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An embodiment of the invention will now be described in more detail with reference to the accompanying drawing, in which Figure 1 shows the apparatus according to the invention in axonometric section and Figure 2 shows a detail section taken along line II-II in Figure 1.

The upper side of the device has supply and exhaust air openings: 1 externally to the heat exchanger; 2 heated fresh air in (replacement air); 3 exhaust air inside the heat exchanger and 4 cooled exhaust air (exhaust air) out. The channels connected to the openings 1-4 are separated from each other inside the device by partitions. In the heat exchanger 9 between the incoming supply air from the outside and the exhaust air leaving from the inside, a rotating honeycomb 10 is used, whereby the supply and exhaust air pass through the same cell ducts in turn. On the exhaust air side, the heated cell ducts give off their heat after transferring to the supply air side.

The device also has a connection opening 5 of the recirculating air duct 15, the associated duct part being separated by a partition 16 from the exhaust air duct 18 and the exhaust air 18 flowing in it. The partition 16 separates the recirculation duct inside the device. the suction side. The control device 20 can be used to adjust the amount of recirculated air flow. After the control device 20, the liquid air flow 17 enters the duct space 11 before the fan 12 and mixes with the fresh air coming from outside.

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By placing the beginning of the recirculating air duct 15 in connection with or in the vicinity of a central heat source such as a storage central furnace, the heat provided by the central heat source can be efficiently utilized and distributed in the heated space using the supply air ducts. By opening the damper 20, the relative proportion of the recirculating air 19 to the replacement replacement air is increased. As a result, the damper 20 is opened more during cold periods. If it is desired to increase the air-conditioning efficiency, the damper 20 is closed, whereby the relative proportion of outdoor air increases.

The antifreeze section 7 is heated by a branch of the recirculating air pipe 15 connected to the opening 6. Reference numeral 8 denotes a supply air filter and reference numeral 22 denotes an exhaust air filter. The internal supply air duct of the device is marked with the reference number 11. After the supply air fan 12, electrostatic precipitators 13 and other air quality treatment components can be placed in the duct 11.

At the bottom of the device, next to the recirculating air duct, there is an electrical device housing 21, the front wall of which has control switches and control knobs (not shown). The damper 20 can be arranged to be adjusted by manual or automatic control, for which the housing 21 has an adjusting member 21 '.

Since the recirculating air arrangement according to the invention serves to utilize the heat provided by a central heat source such as a central furnace, the device is also arranged to take care of the ignition of such a heat source and the production of combustion air. To this end, the rotational powers of the supply and exhaust air fans 12 and 14 are arranged to be differentiated by manual control or by combined manual and time control so that the manual control creates an overpressure in the air-conditioned space which decreases after a certain time and finally changes or can be changed to vacuum. When the manual control button is pressed, the supply air fan 12 starts to rotate with e.g. twice the power of the exhaust air fan 14. The fans rotate in this way, e.g. for 5-10 minutes, whereby sufficient overpressure is generated to produce the central furnace ignition draft. The time control can operate in such a way that the overpressure changes to a lower overpressure, which is maintained for considerably longer than the higher overpressure preceding the adjustment. This lower overpressure takes care of the combustion air output. The power of the supply air fan 12 is then only slightly, e.g. 10-20% higher than the power of the exhaust air fan 14. Finally, a small overpressure is changed to a negative pressure by manual or time control to avoid condensation of moisture in the structures. Preferably, it is possible to remove the overpressure with both manual control and time control verifying manual control, which works if manual control is forgotten without performing.

Claims (2)

Ventilation installation operating according to the heat recovery principle and comprising supply air and extract air openings (1-4) which connect to ducts separated from each other by partitions, two fans (12,14) for providing supply air and exhaust air flows and at least one heat recovery cell system (9,10) which functions as heat exchangers between the supply air and fresh air flows, characterized in that the installation is provided with a per se known heat exchanger (9,10) a circulating air passage (5) (15) and a control means (20) for directing an adjustable circulating air flow (17,19) to the supply air fan (12), and that the rotational effects of the supply air and extract air fans (12,14) are arranged to be controlled differently from each antigen by manual control or combined manual and time control, so that the manual control is achieved in the space to be air conditioned an overpressure is applied, which after a certain time transfers and / or can be changed to suppression. Ventilation installation according to claim 1, characterized in that said control control comprises at least two steps such that in the first control step the overpressure is applied to lower overpressure which is maintained for a significantly longer time than the control preceding the higher overpressure, and finally the said upper overpressure. change or transfer to suppression. in