FI89102C - KAOPA FOER SPIS - Google Patents

Description

89102

Cooking hood Käpa för spis 5

The invention relates to a cooker hood provided with a volume flow measuring and regulating device comprising two interconnected air volume flow regulators connected to Saija, one of which can be set to a maximum cooker hood airflow, the control resistances of which together limit a perforated pipe with a routed jacket and a measuring chamber fitted as an air flow setting device and fitted to the extract air chamber of the cooker hood.

The most typical ventilation disadvantages in houses with mechanical extraction 15 have proven to be draft, room air entanglement, the spread of odors between and inside the apartments, and condensation nuisances in the structures. In houses equipped with mechanical blowing and removal and air heating, the complaints are mainly caused by noise, draft, the spread of odors between the apartments and the difficulty of maintenance and use.

20 With regard to the state of the art related to the present invention, reference is made to RC-Linja Ky's Finnish patent 71,614 and the newspaper article LVI * 2 1990 p. 20-26, Marianna "V Luoma:" New directions in apartment building ventilation ".

____: The main object of the present invention is to further develop prior art cooker hoods while reducing the above drawbacks.

It is a particular object of the invention to provide a new cooker hood in which both the minimum airflow and the maximum airflow of the cooker hood can be controlled so that the cooker hood meets high requirements both in terms of air technology and sound technology. In the case of sound technology, the aim is to provide a cooker hood which does not generate harmful noise and which has a sufficiently high sound attenuation of the cooker hood, taking into account the 1 * sound insulation between the different apartments.

2 89102

It is a particular object of the invention to provide a kitchen hood whose airflow control part allows the user, in addition to normal ventilation, to efficiently and simply, efficiently and energy-efficiently increase the removal of carts during cooking or in general when the need for ventilation in a ventilated space exceeds the need for basic ventilation.

In connection with the above, the object of the invention is to provide such a cooker hood with which the necessary ventilation of kitchens can be implemented also in apartment buildings, so that the sound levels remain sufficiently low regardless of the required high duct pressure 10.

It is a further object of the invention to provide a cooker hood in which the air flows of both basic ventilation and booster ventilation can be measured reliably in a simple manner on the basis of pressure differences and set to the correct values. The cooker hood is also intended to act as a fire choke, if necessary, by means of which the air flow can be limited to the maximum permissible air flow of the fire choke, which is currently 42 dm3 / s with a pressure difference of 100 Pa.

The invention is intended to be suitable for use in both new production and renovation.

In order to achieve the above and later objects, the invention is essentially characterized in that the cooker hood comprises a torn air flap acting as a minimum airflow setting device in its closed position, arranged in connection with the open end of said perforated tube, the flap flap in the maximum and the perforated diameter d of the perforation of said effect flap is in the range d = 3 ... 10 mm and the mutual distribution s of the holes is in the range s = 7 ... 20 mm and the ratio of the hole diameters d to the hole sd / s is in the range d / s <0.4.

The following advantages are realized simultaneously in the cooker hood according to the invention: li 3 89102 necessary ventilation enhancement and, if necessary, return to the basic state, eg controlled by a timer, minimum airflow measurement method limitation of the maximum air flow to a fire choke by limiting the number of holes in the perforated pipe to suit the possibility of detaching the perforated pipe for cleaning from below the hood 10 - by placing a perforated pipe in the chamber connected to the cooker hood.

In the following, the invention will be described in detail with reference to the application examples of the invention shown in the figures of the accompanying drawing, to the details of which the invention 15 is in no way narrowly limited.

Figure 1 shows a kitchen hood according to the invention.

Figure 2 shows a partial vertical section of a cooker hood according to the invention.

20

Fig. 3A shows a schematic side view of a cooker hood according to the invention and its airflow measurement with the booster flap closed.

Fig. 3B shows the same as Fig. 3A with the booster flap in the open position.

....: 25

Figure 4 shows the effect flap according to the invention and the location and dimensioning of its holes.

Figure 5 shows the connection of a cooker hood according to the invention to the ventilation system-30 of an apartment building and its operating principle.

4 89102

The kitchen hood 10 shown in Figures 1 and 2 comprises a chamber part 12, the upper side of which has a pipe connection 11, through which the hood is connected to the exhaust air duct 11a. Connected below the chamber part 12 is a coil-collecting dome part 13 on the hob with a transparent front flap 14. Inside the dome part 13 there is a removable grease filter 3 13. The air flow space 16 above the grease filter 13 is delimited from above by a horizontal wall 17. the effect flap 20 shown in Figures 2 and 3B in the open position 20 '. Above the booster flap 20 is a perforated tube 30 with a vertical central axis. In the invention, the perforated tube 30 and the effect flap 20 are most preferably arranged to each other so that the effect flap 20 is at the lower end of the perforated tube 10. In the closed position, the booster flap 20 is perpendicular to and coaxial with the vertical central axis of the hole tube 30.

The perforated pipe 30 has an evenly spaced perforation 31 which opens into the interior 18 of the housing part 12. At the lower end of the perforated pipe 30 there is a flange 37 through which the perforated pipe 30 is fixed to the horizontal wall 17 of the cooker hood for quick removal from below. The hole at the upper end of the tube 30 is paineenmittauskammiot 32 and 33 and above the closed end wall 38. In the measuring chamber 32 is measured the pressure hole in the tube 30 and the interior chamber mittauskam-hole 33 of the tube 30 outside of the pressure, i.e. the pressure at the top of the space 18. The measuring-20 chambers 32 and 33 can be connected by hoses 32a and 33a according to Figures 3A and 3B to a pressure gauge 35 having measurable pressure differences Δρ0 and Apj.

Figures 1 and 2 show the structure of the opening mechanism of the two-position effect flap 20 with the perforated 21. The booster flap 20 is attached to a U-shaped arm 22, 25 which is connected by flanges and a pivot shaft 23 to the wall 17 of the cooker hood below it. Above the horizontal part of the shaft 22 there is an eccentric body 27 attached to the shaft 26. An outer rotary knob 23 on the front wall of the cooker hood is connected to the outer end of the shaft 26, which can be turned and locked against the force of the spring 24 to the open position 20. an annular edge portion 20a located at a certain small distance a (Fig. 2) from the main plane of the flap seals the flap 20 in a stable closed position against the elastic sealing ring 28 or 89102. The sealing ring 28 is attached to the lower surface of the flange 37 of the wall 17 or the perforated pipe 30 and / or to the edge 20a of the flap 20.

An essential new feature of the invention is both the air-technical and sound-technical dimensioning and matching of the effect flap 20 with the perforated pipe 30. In order to simultaneously provide the flap 20 with a suitable pressure difference Apt (Fig. 3A) and sufficient sound attenuation without disturbing noise generation due to the air flow qt, the division s of the perforation 21 and the diameter d of its holes 21 must be dimensioned within precise limits.

Figure 4 shows a particularly preferred dimensioning example according to which the effect flap 20 has an effective diameter D = 125 mm and has 69 holes with a diameter d = 5 mm and a hole spacing s = 13 mm. The holes 21 of the booster flap 20 are most preferably in rows perpendicular to each other with an even distribution s. In this case, with an air flow qj = 11 dm3 / s, the pressure difference Δρ! «80 Pa. The hole density in the flap 20 according to Fig. 4 is 5.8 holes / dm3 / s relative to the air flow 15 q}. Studies have shown that the dimensioning presented above is both aeronautically and acoustically optimal. Extensive studies have shown that the effect flap 20 operates as intended in the given environment in the following dimensioning range d = 3 ... 10 mm, s = 7 ... 20 mm and in addition the ratio d / s must be d / s <0.4. The above-mentioned dimensioning ensures sufficient flow resistance, sufficient sound attenuation and at the same time a sufficiently small noise generation for the intended use.

With regard to the operation and dimensioning of the perforated pipe 30, reference is made to RC-linja Ky's Finnish patent 71,614 for details. In this connection, it should be noted that the maximum air flow q0 is set by the perforated pipe 30 with a pressure difference Δρ0. The pressure difference Δρ0 can be measured according to Fig. 3B with the booster flap 20 in the open position 20 in the measuring chambers 32 and 33. In the cooker hoods connected according to Fig. 5, Δρ0 is generally Δρ0 * 100 Pa. If necessary, the perforated pipe 30 can be provided with the annular control device shown in the above-mentioned FI patent and application, which is schematically shown in Fig. 2 by reference numeral 39, with which a certain number of holes 31 can be covered to adjust the maximum airflow q0 of the pressure difference Δρ0 6 89102 30 acts as a fire choke with a maximum permissible air flow (¾ = 42 dm1 / s with a pressure difference Δρ0 = 100 Pa. Said adjustment can also be made by closing part of the holes 31 with, for example, plastic plugs 31a. the maximum number of all holes 31 in the hole tube 30 being such that the above.

The 5 maximum permissible airflows (Jq = 42 dm1 / s are not exceeded even if the plastic plugs 31a are lit. Similarly, the flow resistance of the booster flap 20 can be adjusted as desired by closing the required number of holes 21 with plastic plugs 21a or the like.

Figure 5 illustrates the connection of a cooker hood according to the invention to an air-10 exchange system in an apartment building. The ventilation system comprises a fan 40, the suction side of which is connected to a manifold 41, from which branched vertical ducts 42 to different floors of the apartment building. The kitchen hoods connected to the vertical channels 42 by the connecting pipe 11a are marked Kiila. The lower part of Fig. 5 shows the basic "analog connection" of the air control devices 20 and 30 of the kitchen hood K, where the switch kj represents in its closed position the situation where the effect flap 20 is in the open position 20 ', whereby the hood flow resistance consists mainly of perforated pipe 30 and maximum the air flow q0 is usually in the range q0 = 20-40 dm1 / s. To implement the minimum flow qt, the flap 20 is in the closed position (switch kj in the open position), whereby the minimum flow q! is determined by the combined effect of the flow resistances of the perforated tube 30 and the closed booster flap 20.

20

When the perforated pipe 30 is connected to the booster flap 20 described above, the perforated pipe 30 provides sufficient inter-apartment sound attenuation with sufficiently low noise generation when the booster flap 20 is in the open position 20 ', while the perforated pipe 30 acts as a fire choke and preferably can be quickly tuned to work in an appropriate way. In addition, the perforated tube 30 is quickly traced from below for removal for cleaning.

The following claims set forth within the scope of the inventive idea defined by the invention, the various details of the invention may vary and differ from those set forth above by way of example only.

Il.

Claims (10)

1. Fireplace hood provided with a volume flow measuring and control device, which comprises two series-connected control devices (20, 30) for the volume flow 5 (q) of the air, whereby the maximum control device can be set to the maximum the airflow (q0) of the cooker and wherein the flow resistance of the control means (20,30) together limits a minimum airflow (q}) of the cooker, and the cooker comprises a setting device for the maximum airflow (qo) constituted by a heel tube (30). with a perforated jacket and measuring chamber (32 and / or 33), which heel tube is arranged in the outlet air chamber (12) of the cooker, characterized in that the cooker comprises a setting device for the minimum air flow (qt) constituted by a perforated efficiency flap. (20) operating in a closed position, which flap is arranged in communication with the open end of said heel tube (30), wherein a maximum air flow (qo) in the open position (20 ') of the actuating tab (20) and that the heel diameter d of the perforation (21) of said actuating tab (20) is in the range d = 3 ... 10 mm and the mutual distribution s of the heel (21) is in the range s = 7 ... 20 mm and the ratio d / s between the pitch diameters d and the heel distribution s is in the range d / s <0.4. 2. Cooker according to claim 1, characterized in that on top of the cooker part (13) which comes on top of the cooker of the cooker is an outlet air chamber (12), inside which a vertical heel tube (30) is provided, the upper end of which is provided with a closed end ( 38), that in connection with the lower end of said heel tube (30) there is an actuation tab (20) which can be opened and closed outside the cooker with a mechanism and / or a functional device controlled by a timing device and said heel tube (30) and its inductive tab (20) relative to its axis in its closed position are mutually coaxial. Cooker according to claim 1 or 2, characterized in that the diameter d 30 of the heel (21) of the actuation tab (20) is in the range d = 3-6 mm and the heel distribution s in the range s = 10-15 mm and that the ratio d / s <0.35. li π 89102 4. Cooker hood according to any of claims 1-3, characterized in that at the end of the heel tube (30) there are measuring chambers (32,33), between which one can measure the pressure difference (Apg) caused by the heel tube and thereby the maximum air flow (¾) which likes to pass through the stove where the actuating tab (20) is in the open position (Fig. 3B) and that between the one measuring chamber (32) and the outside air one can measure the pressure difference (Δρ ^ caused by the actuating tab (20) in its closed position). position and thereby the minimum air flow (qt) passing through the cooker (Figure 3A). Cooker according to any of claims 1-4, characterized in that the flow resistance of the heel tube (30) and / or the efficiency tab (20) can be adjusted to the desired minimum and maximum air flows (q0, qj) by closing to a portion of the the flow heels (21,31) with plugs (2la, 3la), a cover ring (39) or equivalent. Cooker cover according to any of claims 1-5, characterized in that the heel (21) of the actuating tab (20) is in perpendicular rows to each other, advantageously with even distribution (s). 7. Cooker cover according to any of claims 1-6, characterized in that there is an annular edge part (20a) in the actuating tab (20) which seals tightly in the actuating tab (20) in the closed position against the elastic sealing ring (28). and that said sealing ring (28) is most at the lower surface of the wall (17) of the cutter blade or flange (37) of the heel tube (30) and / or at said edge (20a) of the actuating tab (20). 25 8. Cooker hood according to claims 1-7, characterized in that the maximum current q0 running through the cooker when the actuating tab (20) is in the open position has been adjusted by means of said heel tube (30) to be less than the largest allowable air flow which is required by the fire-technical throttle device, which with the pressure difference Δρ0 = 30 100 Pa is q0 = 42 dm3 / s. 12 89102 9. Cooker hood according to any of claims 1-8, characterized in that the heel tube (30) is fixed in connection with the upper wall (17) of the cover part to be detached with quick-release joints (36) for cleaning and other purposes. open lower end of the heel tube (30) is provided with an actuation tab (20) which is fixed to a shaft S (22) or equivalent to pivot in a stable open and closed position around a guide shaft (23). Cooker according to any one of claims 1-9, characterized in that said heel tube (30) and efficiency tab (20) are so dimensioned that where the efficiency tab (20) is in the closed position, the minimum air flow of the class 10 is dm3 / s and that in this case the pressure difference Apj is caused by the efficiency tab (20) of the class Apj «80 Pa. li