FI122285B - Supply and exhaust device - Google Patents

Description

Supply and extract air device

The invention relates to a supply and exhaust air device.

5 Applicant's previous patent application FI 20060035 discloses an supply air device in which the flow of fresh supply air to the room space can be varied according to the purpose of the room. Specifically, the invention relates to a supply air device which recirculates room air through a heat exchanger, whereby the heat exchanger can either cool or heat the room air and wherein the room recirculated air flow mentioned in the device solution is provided and induced by introducing an air flow It has been realized in the invention to use a separate bypass. The apparatus comprises a regulator in connection with the supply air chamber such that said bypass flow Q2 is controlled by a regulator located at the by-pass port. In said device solution 15, the inlet air duct comprises a constant pressure regulator which allows the airflow to be adjusted to the room space while still maintaining the desired pressure in the supply air chamber to produce a certain amount of airflow L1 through nozzles or nozzle gap and induce recirculation airflow L2. The total flow into the room is the sum of the airflow Qi produced through the nozzles or nozzle slot and the Q2 bypass flow 20; Qi + Q2.

The problem with the above system is the controlled removal of exhaust air from the room space as much as fresh air is introduced into the room space. cm The invention has been realized to connect the above-mentioned supply air device to the exhaust air

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an apparatus comprising, on or in connection with the exhaust outlet, a regulating device with which

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cm is adjustable airflow from room space equal to total airflow Q1 + Q2 is introduced into room H. According to the invention, the exhaust air section in the device solution comprises a constant pressure regulator, whereby the airflow c1 Q3 is kept at the desired value 30 flow Qi + Q2 to the room.

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The above solution achieves compact room air inlet and outlet control and, in addition, variable control. As the function of the room changes, for example, a person from room to conference room becomes more airflow, however, the induction ratio in the device must be maintained at its set or set value without causing changes to the aforementioned bypass flow. For best performance, the system requires a zone-specific constant pressure regulator in the inlet duct and a zone-specific constant pressure regulator in the outlet duct. The controller may be, for example, a VAV controller.

The invention is characterized by what is stated in the claims.

The invention will now be described with reference to the accompanying drawings, in which some preferred embodiments of the invention are shown, but are not intended to be limited thereto.

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Figure 1 shows a prior art solution to which the invention is directed.

Fig. 2 is an axonometric view of the supply and exhaust air device according to the invention.

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Figure 3 is a side view of the device of Figure 2. Fig. 4 is a sectional view I-I in Fig. 2.

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Fig. 5 is a sectional view II-II in Fig. 2.

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Figure 6 is a sectional view III-III in Figure 2.

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Fig. 1 illustrates a prior art to which the invention relates, o 30 The airflow into the room is through the supply air device and exits the room through an outlet valve on the wall of the room (not shown).

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Figures 2, 3, 4, 5 and 6 show the supply air and exhaust air device 10 according to the invention. The fan Pi and a constant pressure regulator on its outlet side, for example a VAV regulator. The constant pressure regulator 11 is denoted by reference numeral 11. The constant pressure regulator 11 is located in the duct 12. The fresh air is supplied under constant pressure to the supply and exhaust air device 10 into its supply air chamber 13, from which air flows through the nozzle slot or nozzles 14ai, 14a2, 14a3 ... are indicated by arrows Li. The airflow Li induces the recirculated airflow L2 to flow through the heat exchanger 16. The heat exchanger 16 either circulates or heats the recirculated airflow L2 of room H. The air flow L1 thus induces the recirculated air flow L2 to flow through the heat exchanger 16. In the mixing chamber 15, the air flows L1 and L2 are combined and the combined air flow L1 + L2 flows out of the device from the mixing chamber 15 and preferably to the side of the device in the direction of the ceiling of room H. Other flow directions out of the device are also possible and the device can be applied to a variety of room air recirculating devices comprising nozzles 14aj, 14a2 ... or a nozzle slot.

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According to the invention, the supply air chamber 13 preferably comprises a control device 17 for controlling an airflow L0 (flow rate Q2) from the supply air chamber 13 to the room H through an opening 170. When the supply airflow rate through the nozzles 14ai, 14a2 ... is Qi, the female flow £ Q is supplied to room H via device 10 and is Q1 + Q2. According to the invention, said total current is

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rear £ Q and exhaust air flow Q3 with measurable gauges 18

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13 and 201 based on the observed pressure data. Based on the total flow Q1 + Q2 co2, the exhaust air flow L3, Q3 from room space H through device 10 is controlled.

By means of a regulator such as a valve 19 via the exhaust air chamber 201 through the exhaust air 30 to the duct 20. The control device 17 as well as the control device 19 for the exhaust air are so-called. linea risia controls. In this case, the control message regulating the controller 17 also controls the controller 4 19, whereby the opening change to the controller 17 caused by the change in the control message received by the controller 17 causes an airflow change through the controller 17 which is equal to the airflow flow through the second controller 19. The outlet duct 20 comprises an exhaust air port 200 and 5 at a constant pressure regulator 21 in the outlet duct 20. The regulator 21, preferably a VAV regulator, is on the inlet side of the fan P2. The device solution 10 according to the invention achieves compact room air flow control; comprehensive control of fresh air supply and airflow to and from the room, always according to the purpose of the room and as it changes. The exhaust airflow L3 10 (Q3 = flow rate / time unit) through outlet port 200 to outlet chamber 201 and exhaust duct 20 is preferably adjusted by the same control 19 as the control valve as flow into the room H = XQ = Qi + Q2 = Q3 · The inlets to the exhaust air regulators 17, 19 are linear controllers, whereby the same control message change for the controllers 17 and 19 causes a flow change through the regulators 17, 19 15 which is equal in flow to both the inlet and outlet sides. quantities.

Controllers 17 and 19, such as valves, are typically manual in rooms with constant airflow 20 and electrically operated in rooms with variable airflow (conference rooms). To facilitate flexibility, the controls are such that the manual control can be converted to an electric one by attaching an actuator to it and a T-manual return by removing the actuator. The regulators 17, 19 operate remotely and comprise an adjusting part associated with the regulators of the electric motor, such as

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o 25 to move the damper. The inlet chamber 11 comprises a pressure sensor 18 by means of which

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cm is the airflow through the device.

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Claims (6)

An supply and exhaust air device comprising an inlet air chamber (13), a mixing chamber (15) and a heat exchanger (16) into which the fresh air from the inlet duct (12) is supplied by a fan (Pi) to the supply air chamber (13); 13) comprises nozzles (14ai ...) or nozzle slots / through which air is flowed from the supply air chamber (13) to a mixing chamber (15), which airflow (Li) induces a recirculated air flow (L2) from room (H) to flow into the heat exchanger (16) through the mixing chamber-10 (15), where the flows (L1 and L2) are combined and the combined air flow (L1 + L2) flows out of the supply and extract air device (10), characterized in that the supply and extract air device (10) comprises 17) having an adjustable bypass flow (Lo) to the room space (H) for adjusting the total flow QjQ = Q1 + Q2) to the room space (H), the exhaust air opening (170) connected to the exhaust air duct 15 (20) and (Q3) for adjusting the flow rate, whereby through the control device (17) and the regulator (19) a change in flow rate is obtained which is equal to the flow rate on both the inlet side and the outlet side, whereby the amount of air entering the room. 20 Supply and exhaust air device according to claim 1, characterized in that it further comprises a constant pressure regulator (11) in the inlet duct (12) with adjustable constant pressure in the inlet duct (12) and a constant pressure regulator (21) in the exhaust air duct (20). ιό o 25 i cm Supply and extract air device according to claim 1 or 2, characterized in that the supply and extract air control device (17) and the regulator (19) are linear controllers, whereby the same control signal is provided via the regulators (17, 19). a flow rate change equal to the flow rate for both the inlet side 30 and the outlet side, whereby the amount of air entering the room corresponds to the amount of air being removed from the room. Supply and extract air device according to one of the preceding claims, characterized in that said controls (17, 19) are manual. Supply and exhaust air device according to one of Claims 1 to 3, characterized in that the regulators (17, 19) operate remotely and comprise an electric motor for moving the regulating part, such as the damper. Supply and extract air device according to one of the preceding claims, characterized in that the supply air chamber (13) comprises a pressure sensor (18) for determining air flows through the supply and exhaust air device (10). 15 δ {M tn o i CD {M X en CL CO δ m h- · o o {M