Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F24—HEATING; RANGES; VENTILATING
  • F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
  • F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
  • F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
  • F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers

Definitions

• the present invention concerns a ventilation valve, comprising a first louvre component and a second louvre component, at least one of them being movable linearly for diminishing or enlarging the flow gap between said louvre components.
• Ventilators are known in the art in which the ventilation valve is composed of two section parts, that is, of adjustment louvres which can be moved relative to one another.
• the flow cross-section between the louvre componentsdfias been arranged to enlarge in the flow direction. The best possible -jij passage for the air is not guaranteed by said arrangement.
• the aim of the invention is a ventilation valve in which a ventilation valve comprises an extensive adjustment area, enabling the use of a device of the same order for different targets.
• the objective of the 0 invention is specifically a ventilation valve in which measurement and adjustment are easy.
• the aim of the invention is a ventilation valve in which the aerodynamic properties are advantageous and the resonance phenomena have been avoided.
• the aim of the invention is achieved with a means design the basic idea of which is the modification of a flow passage defined between the louvres to be tapering in the flow direction of the air flow.
• At least one of the louvre components is mobile, and therefore, the adjustment of the means of the invention is carried out by moving 0 said louvre component linearly, whereby the angle a of the straight flow surface of the louvre relative to the central axis X of the flow passage is unchanged.
• both of the louvre compo ⁇ nents can be moved linearly relative to one another. 5
• the ventilation valve of the invention is mainly characterized in that the louvre components form an elongated gap therebetween dimin- ishing in flow cross-section area relative to the travelling direction of the flow, and that at least one of the louvre components of the ventilation valve can be moved linearly for diminishing or enlarging the flow gap.
• Fig. lA presents in axonometric image the ventilation valve of the invention when assembled.
• Fig. IB presents in axonometric image the ventilation valve of the -j5 invention with the detachable basic components depicted in separ ⁇ ation.
• Fig. 2 presents in axonometric image the ventilation valve of the invention with the front cover plate removed.
• Fig. 3A presents in principle view the ventilation valve of the invention.
• the image is taken primarily along the section line I-I of Fig. 1, and the image has been simplified with reference to Fig. 2.
• the operational position of a valve implementing the maximal air 5 flow is presented.
• Fig. 3B presents the valve of Fig. 3a in the operational position implementing the minimal air flow.
• Fig. 4 presents the operational graphs of the ventilation valve.
• Fig. 5A presents a first advantageous location of the adjustment scale.
• Fig. 5B presents a second advantageous location of the adjustment scale.
• 1 Fig. 6A presents the louvre component in axonometric image.
• Fig. 6B presents section II-II of Fig. 6A.
• FIG. 1A is presented the ventilation valve 10 of the invention in assembled form.
• the direction of the air flow is indicated by arrow L.
• the ventilation valve 10 comprises an envelope part 11 to which the front cover 13 has been attached.
• the front cover comprises the front part 13a and edges 13b. The entire
• 0 front cover 13 has advantageously been constructed of a similar structure and comprises flow apertures 13c being in shape e.g. gaps, slots, holes, etc.
• the front cover 13 may also be composed of a structure which comprises a pjrfnar, non-apertured plate section in front of the louvre components.
• the flow gap or gaps are hereby
• the front cover 13 may be attached to the envelope part 11 by projecting irons or by equivalent arrange ⁇ ments.
• Fig- IB is presented a ventilation valve with the detachable central components being depicted in separation.
• the ventilation valve comprises an envelope part 11 and an adjustment component 12 attachable thereto, and furthermore, a detachable front cover part 13. 5
• the envelope part 11 comprises a duct part 14, enclosing thereinside a flow duct A ⁇ .
• the flow passage direction is indicated also in Figs 1A and IB by arrow L.
• the envelope 11 comprises a collar part 15 at one end of the duct part 14.
• the collar part comprises an edge 15a, 0 its plane being in the direction of the longitudinal axis X of the duct.
• the collar part 15 also comprises a bottom part 15b which in plane is perpendicular to the longitudinal axis X of the duct portion 14. On top of the bottom part 15b is placed a sealing material layer 15c. 5
• the inner surface 14a of the duct part 14 comprises attaching means 16 attached thereto.
• attaching means 16 There are two pieces of said attaching means 16 1 and they form a hook-like endface part 16a with the aid of which the bodyparts 17 of the adjustment part 12 are compressed against the sealing material layer 15c.
• the attaching means 16 may be made of an elastic plate material and they may be advantageously attached to
• the adjustment part 12 attached to the envelope part 11 with the attaching means 16 has been placed in separation from the envelope part 11.
• the adjustment part 12 comprises two
• the bodypart 17 is advantageously an L-shaped section, comprising, when the adjustment part 12 is set in place, a plate com ⁇ ponent 17a in the direction of the X axis of the envelope part 11 and a plate component 17b at 90° angle relative to the plate component 17a connected thereto.
• the plate component 17b is perpendicular in
• the adjustment part 12 comprises a first louvre component, that is, section 18a, and a second component, that Is, section 18b.
• the louvre component 18b is movable, as 20 shown in Fig. IB, by arrow C.
• the louvre component 18b is movable linearly.
• only one of the louvre components 18 can be moved.
• both of the louvre components are movable relative to one another.
• the location adjustment means 19 of the movable louvre component 18b comprises a rod 20 provided at both ends with drive wheels 21, advan- 0 tageously gears.
• the rod 20 may be a hexagonal sec ⁇ tion rod, whereby it can be turned with a spanner.
• the drive wheels 21 are engaged on the abutment surface 22 of the louvre part 18b.
• the drive wheel 5 21 is a gear and the abutment surface 22 is together with the gear 21 an interacting serration 22.
• the purpose of the rod 20 is to act as a synchronizing rod.
• both ends of the 1 movable louvre component 18b are moved simultaneously.
• the transmission movement is made to be so synchronized that both ends of the louvre component are moved an equivalent length.
• the flow gap defined between the louvre components 18a,18b remains in this case
• a flow gap A2 Between the first louvre component 18a and the second louvre component 18b is defined a flow gap A2. Said flow gap tapers relative to the -
• the location adjustment means 19 comprises an at ⁇ tachment plate 23 attached to the bodypart 17, on its plate section 17a.
• the plate 23 has a hole 24 through which the rod 20 has been 0 disposed to pass.
• the attachment plate 23 serves at the same time as the bearing point for the rod 20.
• the ends of the rod 20 have been disposed to pass in the body 17 through the hole 25 located in its plate section 17a.
• the end of the rod 20 is provided with a notch 26 into which an end of a tool, such as of a screw driver, can 5 be fitted for turning the rod 20 and for moving the section 18b.
• the envelope part 11 has furthermore a notch 27 on the edge part 15a of the collar 15 through which a tool may be fixed to the rod 20.
• the drive wheel 21 is rotated, this being operationally connected to the abutment surface 22 being fixedly attached to the louvre 18b, said abutment surface being advantageously a straight abutment surface.
• the drive wheel 21 is a gear and the abutment surface 22 is a gearrack. Said 5 parts are advantageously made of plastic.
• the abutment stop face 22 is furthermore pressed against the plate section 17b of the body 17 and it can be moved in conformance to said even plate part.
• the abutment stop part 22 may furthermore comprise a separate plate part engaged to the other side of the plate section 17b of the body 17, ensuring the maintaining of the louvre component 18b on the body 17 in all circumstances of use.
• the adjustment part 12 is connected to the body 17 with an attaching member 16.
• the attaching member 16 presses the body 17 fast to the envelope part 11.
• the louvre component 18a is in a fixed position on the body 17.
• the louvre component 18a comprises a fixing plate 29 through which a fixing member 30, for instance a rivet, has been taken and which fixing member is furthermore fixed to the body 17, to its plate section 17b.
• the louvre component 18b is moved linearly and the location of said louvre component can be read on the scale 28, which is advantageously a millimetre scale.
• the scale has been disposed on the inner surface 14a of the duct portion 14.
• a reduced image is presented of the ventilation valve of the invention and included primarily along the section line I-I of the figure.
• the louvre component 18b can be moved linearly.
• the louvre component 18b comprises a portion 31 with a straight surface guiding the air flow, said portion being in plane in angle ⁇ relative to the central axis X of the ventilation valve flow duct £.
• the duct tapers relative to the progression direction L of the air flow.
• the louvre component 18 comprises a smoothly curving preguiding surface 32 of the flow, which later joins the straight flange section 33, said flange section 33 being approximately perpendicular to the axis X.
• the flange section 33 acts as a mobile sealing component and enables the adjustment movement of the section and allows the passage of the air flow merely between the louvres 18b and 18a.
• Fig. 3A is presented an on-position of the ventilation valve in which the flow passage A 1 is maximal .
• Fig. 3A the mobile louvre component 18b has been moved to a pos ⁇ ition implementing a minimal air flow, that is to a position in 5 which the flow cross-section area A2 is minimal.
• arrow c presents the transfer of the mobile section 18b into the position of the ventilation valve implementing said minimal air flow.
• the louvres 18a and 18b are equivalent, and therefore, there is no ⁇
• the louvre compo ⁇ nents 18a and 18b have respectively been so attached to the structure that the main surfaces of the louvre components, or the surface por ⁇ tions " 31, deviating the flow are at respective angle relative to the central axis X of the flow duct A2.
• Angle ⁇ is advantageously in -j5 the range 3-15°.
• the surface portions 31 are advantageously straight surfaces, and hereby, the surface plane is at angle a relative to the central axis X of the flow duct A2.
• ⁇ is within the range 3-15°, advantageously about 7°.
• the operation curves of the ventilation valves of the invention are presented. As taught by the invention, the operation diagram is used in Fig. 4 as follows. On the measurement scale is read the opening position and at the same time, the pressure across the ventilation valve is measured with a pressure connector to be de- 5 scribed later. Thereafter, the volumetric flow corresponding to the opening position may be read on the curves.
• Fig. 5A is presented an advantageous positioning of the scale 28.
• the scale 28 is located on the inner 0 wall 14a of the duct 14.
• the opening position is read at the edge E of the louvre 18b.
• FIG. 6A is presented an embodiment of the louvre 18 in axonometric image.
• the louvre 18 comprises a hollow interior space 34. Into said space 34 the flow passages open through apertures 35 for transmitting the flow pressure to the measuring instrument. Several apertures 35 ⁇ are provided in the adjacency of the trailing edge of the flow. They are located linearly in the section 18, and therefore, a reliable measurement result and average are obtained throughout the whole flow passage. From the distributing chamber 34 is arranged a connector 36 on to the pressure gauge. The connector 36 is normally closed and -
• Fig. 6B is presented a section II-II of Fig. 6A.
• a pressure connector 38 to a sensor.
• a section component 20 made of sheet metal may also be used.
• the pressure In a pressure measuring event is conducted directly through the apertures 35 to the collecting connector 36, and further to a measurement sensor. No distributing chamber is used 5 here.
• the ventilation valve comprises a louvre portion 18 which is provided with a surface 32 guiding the flow, located foremost relative to the flow, and a second flow-guiding surface 31, advantageously a straight surface connected thereto.
• the flow gap A2 tapers, as taught by the invention, more sharply at the 5 foremost flow surface.
• the louvre component of the invention comprises further a curved trailing edge 39 joining to the flow surface 31 of the centremost louvre.
• the ventilation valve of the invention may be installed on a ceiling or on a wall.
• the means may also be connected to pressure distributing boxes known in the art.
• the means of the invention is silent even at high volumetric flow ranges. No resonance occurs.
• the means is simple to dismantle and, therefore, it is easy to clean.
• the front plate 13 of the means is architectonically advantageous.
• the ends 40 of the louvres 18 form a sealing, whereby the variations of longitudinal measuring or setting tolerances are eliminated.
• the ventilation valve of the invention serves both as a ventilation valve and as a control part for the air flow.
• the air speed increases, and at the same time, due to the surface fric ⁇ tion between the air flow and he louvre surface, an adequate static duct pressure is achieved, as regards the measurement. Therefore, when a sufficient measurement of the static pressure of the air flow is achieved, the adjustment can be accomplished for the means, and at the same time, the measurement of the air flow quantity of the room space. Consequently, no separate adjustment component is needed.
• Such ventilation valve is described above that is suitable for an exhaust air means.
• air is drawn off from the room space.
• the ventilation valve is used as an incoming air means.
• the louvres are so positioned relative to one another that the flow gap between the louvres in the flow direction of the air is again tapered.
• the front cover plate 13 in said embodiment is positioned in the air travelling direction after the tapering flow gap.

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• Engineering & Computer Science (AREA)
• Chemical & Material Sciences (AREA)
• Combustion & Propulsion (AREA)
• Mechanical Engineering (AREA)
• General Engineering & Computer Science (AREA)
• Air-Flow Control Members (AREA)

Priority Applications (2)

Applications Claiming Priority (2)

Publications (1)

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ID=8526969

Family Applications (1)

Country Status (4)

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Citations (5)

• 1988
  • 1988-08-30 FI FI883984A patent/FI90140C/fi not_active IP Right Cessation
• 1989
  • 1989-08-25 WO PCT/FI1989/000156 patent/WO1990002296A1/en not_active Application Discontinuation
  • 1989-08-25 EP EP19890909770 patent/EP0383894B1/en not_active Revoked
  • 1989-08-25 DE DE1989609918 patent/DE68909918T2/de not_active Revoked

Patent Citations (5)

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