FI106735B - Combined suction fan-water turbine sewer unit and suction sewer system - Google Patents

Description

t 1 106735

This invention relates to a suction fan, in particular to a suction fan drive system.

Background of the Invention

Vacuum fans are commonly used in the home environment, especially in kitchens, bathrooms and toilets, not only to remove vapors and odors, but also to remove steam from bathrooms and showers. They are also used in public buildings, such as bathrooms and toilets in hotels, motels and apartment hotels. In humid areas, such as the tropics, it is known to use such fans mounted on the ceiling to perform an outflow mounted on the ceiling or outside wall directly outside the building.

Such suction fans are driven by an electric motor and this electric motor must operate all the time in humid air and especially in tropical-15 areas where the relative humidity of the atmosphere is constantly high, the electric motor, fan, mounts and electrical wiring cannot dry. This is detrimental not only to the electric motor but also to the metal fasteners and fan blades and shields, which are often made of metal, resulting in corrosion 20 and rusting of the fan and other metal parts and fasteners.

Units for venting the toilets are known as a prime sign in AU-24 999/84 for a toilet fan provided that: ** ·· the electric fan inlet is connected to a pipe which is between the water tank and the flush pipe of the toilet basin. The manual switch turns on the fan and the 25 flushing pipes have a valve that opens when the water flows and when the flushing water stops, the valve closes and the switch switches off the fan.

. ···. AU 14 859/88 discloses a similar rigid system in which the switch is manually operated to start the • fan but in the switch. is the time delay to turn it off automatically after a preset time of 30.

A · "· 1 However, these suction fans are also driven by electric motors and ·: ··: thus also have the aforementioned disadvantages. In addition, the fan motors also burn electricity, which is mainly produced by fossil fuels.

Accordingly, it is an object of the present invention to provide a suction fan that eliminates one or more of the above-mentioned drawbacks.

Another object of the present invention is to provide a suction fan which is not driven by an electric motor.

Another object of the present invention is to provide a suction fan which is less sensitive to rust and corrosion problems.

BRIEF DESCRIPTION OF THE INVENTION Thus, the present invention provides a combined suction fan-water turbine exhaust unit adapted for installation in a building, the outlet unit comprising (a) a water turbine comprising a jacket having a water inlet in one wall and 10, characterized in that the discharge unit comprises a rotor disposed on said first shell on a first end of the shaft, the shaft extending along said shell wall; said rotor 15 comprising a plurality of helical channels extending radially from an axially inlet water inlet on a second side of the rotor opposite to said first side, a circumference of the rotor wherein said rotary axial water inlet conduit is provided at said water inlet to the jacket wall such that water fed through the water inlet passes through the spiral channels of the rotor for said drainage; and (b) a suction fan coupled to one end of said shaft of said turbine v: said rotor such that the water passing through the turbine causes the turbine to rotate the fan.

Additionally, according to the present invention, there is provided a suction exhaust system 25 comprising a suction fan adapted to be installed in a building; a water-connected turbine with a fan inlet and a drainage jacket connected to a fan for operating the water, a water supply connected to the water inlet by a first pipe, which-. said drainage is connected by a second pipe to a point of use of water,] .. * 30 and characterized in that the turbine comprises a rotor in said casing, each rotor being supported on a first side by an axis extending through the casing and ·: · · At one end of which a fan is connected, said rotor having a second side provided with an axial water inlet channel for said water inlet of said jacket, said axial water inlet extending to a plurality of helical channels extending radially. • · * ··· * completely from the center of the rotor towards the periphery of the rotor, said water inlet in the direction of axis 3 106735 being arranged so that water passes through the spiral channels and drainage of the rotor, a control valve arranged between the water distribution and water application point, that whenever water is used at the water application point, the suction fan is driven by a turbine rotor, wherein said 5 turbines are under water pressure each time the water is used at the water application point.

In a preferred form of the present invention, water is taken to the location of the fan in the building.

In yet another preferred embodiment of the present invention, the water turbine 10 is connected to the fan by means of a drive that ensures that the fan operates at a rate suitable for removing air from the area.

Preferred embodiments of the exhaust unit and the suction and exhaust system of the invention are apparent from the appended dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS In order to more fully illustrate the present invention, reference is made to the following accompanying drawings, in which:

Figure 1 is a schematic view of the present invention used in the bathroom and toilet.

Figure 2 is a view of the fan and drive unit.

Figure 3 is a cross-sectional view of one form of a water turbine.

Figure 4 is a view of a turbine rotor.

<I <•:: Figure 5 is a view of another water turbine, and 4 <:, '«* Figure 6 is a view of another turbine rotor.

DESCRIPTION OF THE PREFERRED EMBODIMENTS: Figure 1 shows an example of the use and installation of the present invention. It shows a bathroom 1 with a shower 2 and a hand wash basin 3 and also a toilet 4 with a toilet basin 5 with water tanks 5 from which water is supplied to the · · · toilet basin. The hot water supply pipe 7 is provided to the shower 2 and is also provided. it is clear that the hot water supply pipe (not shown in the figure) also leads to the hand wash basin 3.

··· * Bathroom 1 is equipped with a suction fan 8 which is operated by a water turbine ♦: ··: a bin 9 and a toilet 4 is equipped with a suction fan 10 which is operated by a water turbine 11. The cold water supply pipe 12 runs along the ceiling and is connected via a branch pipe 13 to the inlet of the water turbine 9, the pipe 12 leading to the inlet of the water turbine 35 11. The outlet pipe of the water turbine 9 is connected by means of a pipe 14 to the cold water faucet 15 of the hands 15 and is also connected by means of a branch pipe 16 to the jet 1710. The outlet pipe of the turbine 11 is connected to the inlet 5 of the water tank.

Thus, it is seen that the water supply pipe entering the shower 2 and the wash basin 3 is connected via a turbine 9 which operates the suction fan 8 so that if one of the taps 15 or 17 is opened, the water flow through the water turbine 9 immediately drives the suction fan 8 .

Similarly, it is seen that when the toilet water tank is flushed, the water flow through the turbine 11 to refill the tank uses a suction blower 10 11 to exchange air in the toilet.

Fig. 2 is a view of a combined suction fan 10 and a water-driven turbine 11 in which the fan impeller 18 is connected directly to the drive shaft 19 of the water turbine 11.

Figure 3 is a cross-sectional view of one form of a water turbine 20, the jacket 21 having a water inlet 22 and a water outlet 23, the inlet 22 conveying water axially to the rotor 24. The rotor 24 may have a plurality of spiral channels extending from its center. One form of such a rotor is shown in Fig. 4, where the vane 25 has channels 26 that extend from the central inlet 27.

Fig. 5 shows another form of a turbine, whereby the water inlet 28 again is axial to the rotor 29 and the arcuate or spiral channels 30

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v: Starting from the axial inlet to the radial and tangential exit I · V '· 31. Another form of rotor 32 is shown in Fig. 6, in which the water: jälleen *: again enters axially and leaves tangential to the rotor.

25 As shown, the tap 6, 15, 17 is positioned at the operating point and turbine • ·:; *; and, as can be seen, the turbine 9, 11 is always under water supply pressure.

It also follows that the turbine thus operates under water pressure and remains • up to the operating point.

. Thus, the suction fan can be used with any of these water turbines.

30 It will be understood that the suction fan may be placed in the room, if desired, either on a wall or ceiling to remove steam, water vapor or other gases and odors from the room.

While it is desirable to connect the fan directly to the turbine shaft, it is clear that in some cases, the water turbine and the fan may: · * 35 be either a reduction or promotion gear depending on the turbine and fan size.

«·« »« ♦ · 5 106735 Thus, the interface between the water turbine and the fan can be belt driven or a geared gearbox.

Thus, when it comes to installing a fan in a bathroom with a shower, bath, toilet, bidet and hand basin, the cold water supply to each of the 5 mentioned points comes from one entry point and passes through the water turbine before branching to these different operating points. This way, no matter which unit uses cold water, the water turbine works and uses a suction fan.

The components of the water turbine and fan can all be produced from a suitable plastic material so that rust and corrosion can be eliminated. In this way, the turbine sheath and also the rotor itself can be made of plastic material as well as the fan blades and the surrounding sheath and protective grille.

Although various embodiments of the present invention have been described in detail, it is understood that the present invention is not limited thereto, but may include all modifications and modifications within the scope and spirit of the present invention.

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Claims (10)

A combined suction fan-water turbine drainage unit arranged to be installed in a building, said drainage unit comprising (a) a water turbine (20) comprising a sheath (21) having in one of its adjacent walls a water inlet (22, 28) and which is arranged to be connected by a pipe to a water distribution, and a water drain (23) in a wall of men, which water drain is arranged to be connected by a pipe to at least one water consumption site (2, 5) characterized by the drain unit 10 comprises a rotor (25, 29) arranged in said sheath, which is supported on a first side with the first end of a shaft, said shaft extending through the wall of said sheath, said rotor comprising several helical channels (26, 30) extending radially from a water inlet channel (27) in the direction of the shaft on the other side of the rotor, which is opposite in relation to said first side, to a rotor circumference, said water inlet channel in the direction of the torque shaft is arranged in said water inlet (22, 28) at a casing wall such that the water supplied through the water inlet passes through the helical channels of the rotor to said water outlet; and (b) a suction fan (10) coupled to a second end of said shaft of said turbine's said rotor such that the water passing through the turbine causes the turbine to rotate the fan. v : 2. A drain unit according to claim 1, characterized in that <i V ·: said water inlet (22, 28) is concentric with the center of said turbine rotor and said water outlet (23) is arranged radially from said center. A drainage unit according to claim 1, characterized in that said rotor comprises several helical channels. A suction sewer system comprising a suction fan (10) arranged to be installed in a building for removing meadows from the building, a water turbine (20) coupled to drive the fan And which turbine has a jacket (21) provided with a water inlet (22, 28) *: **: and with a water outlet (23), a water distribution (12) coupled to the water inlet with a first pipe, said water drain being coupled to a second pipe to a water consumption site (2, 3, 5), characterized in that the turbine comprises a rotor (25, 32) in said sheath, which rotor is supported on A first side having a shaft extending through the manifold and tile whose second end of the fan (10) is coupled, said rotor having a second side provided with a water supply channel (27) in the direction of the shaft , which channel is arranged in the said jacket a water inlet (22, 28), which water inlet in the direction of the shaft opens in several helical channels (26, 30) extending radially from the center of the rotor to the rotor circumference, said water inlet in the direction of the shaft being arranged so that the water travels through the the helical channels of the rotor and to the water drain, a control tap (6,15,17) arranged between the water distribution and the water consumption site, so that whenever water is used in the water consumption site, the suction fan is driven by the turbine rotor, said turbine being always under the pressure of water. water is used in the water consumption site Suction drainage system according to claim 4, characterized in that the suction fan is arranged to be installed in a bath or toilet room, in which each has a water consumption point and said water distribution is connected to the water turbine inlet and the water drain is connected to the consumption stand. , which is a bath, a shower (2), a hand wash basin (3), a toilet water container (5) or several of them, so that whenever water is used in said water consumption place, the suction fan is driven by the water turbine. Suction drainage system according to claim 4, characterized in that the suction fan and the water turbine are connected to each other to form a unitary unit. <t ';' ] 7. Suction drainage system according to claim 4, characterized by <“· that the water turbine is a back pressure turbine or an overpressure turbine. «« <V : 8. Suction sewer system according to claim 4, characterized in that said water sewer is connected to several consumable points. in.:': 9. The suction drainage system according to claim 4, characterized in: T: that the control tap is arranged in said second pipe between said water drain and the consuming point so that the turbine is constantly under the pressure of the water distribution. • ·. · ... 30 10. A suction drainage system according to claim 4, characterized in that a first and a second water distribution are connected to said water inlet. • · · «· · · · · · · · · · · · · · · · · ·