BE1017738A6 - Disinfectant dispensing system for cleaning application in e.g. industry, has suction chamber in connection with suction mouthpiece, and canal supplying fluid in suction chamber by venturi-effect - Google Patents

Abstract

The system has a venturi element connected to one or more spraying devices for spraying mixed fluids, and a suction mouthpiece including a canal with a narrow end. A suction chamber is in connection with the suction mouthpiece, and another canal supplies a fluid in the suction chamber by venturi-effect created by the narrow end of the canal, where the suction chamber is connected with the suction mouthpiece in an airtight manner.

Description

DOSING SYSTEM. AND A VENTURI ELEMENT AND SELECTION BODY PROVIDED FOR SUCH A DOSING SYSTEM

The invention relates to a dosing system, comprising a supply of one or more first and second liquids to be mixed and dosed relative to each other, one or more spraying devices for spraying the mixed liquids or pure first liquid, and one or more venturi element provided with a suction nozzle provided with a channel for flowing through a first liquid, said channel being provided with a narrowing; at least one suction chamber which is provided to be connected to the suction nozzle; - at least one second channel for supplying a second liquid into the suction chamber by means of the venturi effect created by the narrowing in said channel which is provided for flowing through the first liquid, wherein in the suction chamber a said mixed liquid is formed.

The invention further relates to a venturi element and a selection member provided for use in such a system.

A dosing system known up to now is provided with a substation which is placed between a supply of one or more first and second liquids and one or more spraying devices. This substation comprises different inputs for first and second liquids, in particular an input for water (first fluid), one or more inputs for chemicals (second fluid), an input for air and one or more inputs for disinfectants (second fluid). Each of these inputs is provided with a tap for opening and closing these inputs. In this way a selection can be made of the product to be used.

The chemicals and disinfectants that arrive in this substation have already been mixed with water, this mixing taking place at the location where the stock of chemicals and disinfectants are located. This mixing is usually done by means of suction nozzles.

Inside the housing of this substation a number of pipes are provided that are connected to the said inputs. Outside the housing of the substation, two outlets are provided that are connected to one or more of these pipes, in particular a water outlet connected to the water inlet with one pipe, and a chemical / disinfectant outlet that is connected stands with the inputs for chemicals, air and disinfectants in the following way: the pipes for chemicals and air open out into one pipe which in turn then flows into the pipe that is connected to the one or more inputs of the disinfectants. A mixing unit is provided between the pipes connected to the inputs of the chemicals and the air and the pipe into which these two pipes flow together.

A disadvantage of this dosing system, however, is that the distance for sucking in the chemicals and / or the disinfectants (or in other words the distance between the stock of the chemicals / disinfectants and the substation) can only be very small, in particular between 2 and 5 m.

The object of the invention is therefore to provide a dosing system and a venturi element that can be used in such a system, wherein the distance for sucking in the one or more second liquids for mixing thereof with the first liquids is considerably higher .

This object of the invention is solved on the one hand by providing a dosing system, comprising a supply of one or more first and second liquids to be mixed and dosed relative to each other, one or more spraying devices for spraying the mixed liquids or pure first liquid, and one or more venturi element which are provided with a suction nozzle which is provided with a first channel for flowing through a first liquid, said channel being provided with a narrowing; at least one suction chamber which is provided to be connected to the suction nozzle; at least one second channel for supplying a second liquid into the suction chamber by means of the venturi effect created by the narrowing in said first channel, wherein said mixed fluid is obtained in the suction chamber; wherein the suction nozzle is embodied such that after bringing this suction nozzle into contact with the suction chamber (s), this suction chamber (s) is (are) virtually evacuated.

Due to the fact that these one or more said suction chambers are evacuated, a suction of second liquid can take place which is considerably higher than the suction in the above-mentioned known dosing systems according to the prior art. This suction can be done up to distances of 200 m and more.

In a preferred embodiment of a dosing system according to the invention, said suction nozzle is provided to extend at least partially with one end into the suction chamber (s), said end being at least partially conical.

In a preferred embodiment of a dosing system according to the invention, said suction nozzle is provided for extending at least partially with one end into the suction chamber (s), said end being at least partially conical.

Another drawback of the dosing systems according to the prior art is that for spraying pure first liquid, for example pure water, wherein the pressure of this pure first liquid to be sprayed must remain optimal, a by-pass must be used to become.

It is therefore an additional object of the invention to provide a dosing system with one or more features of this invention, wherein no by-pass is required for spraying pure first liquid.

This object of the invention is solved by providing a dosing system in which the venturi element is connected to the spraying device with which the pure first liquid is to be sprayed with a suction nozzle which has a narrowing such that there is virtually no underpressure. is created in the venturi element and therefore virtually no suction of liquid occurs in the suction chamber (s).

The dosing system is preferably provided with one or more supply channels for supplying compressed air to the liquid to be sprayed, said one or more supply channels being provided with compressed air in the venturi element. The liquid to be sprayed can be mixed liquid or pure first liquid.

With cleaning products a foam or gel effect can be obtained in this way in this liquid.

The venturi element is provided with an inlet side and an outlet side for the first liquid, wherein said one or more supply channels of compressed air are preferably directed obliquely towards the outlet side of the venturi element.

This has the advantage that the pressure and flow rate on the mixture contained in the compressed air chamber (s) is increased, whereby the flow rate of the first liquid is also increased, whereby the negative pressure for sucking in the one or more second liquids is increased. is becoming.

Furthermore, the venturi element is preferably provided with at least one compressed air chamber into which said one or more supply channels open out, wherein said compressed air chamber (s) is (are) connected to the suction chamber (s) by means of one or more connecting channels.

Said suction chamber (s) is (are) preferably provided in the venturi housing of a venturi element.

Said compressed air chamber (s) is (are) preferably provided in an outlet piece which is provided to be arranged on the outlet side of the venturi element, and which is provided to be connected to a respective spraying device.

The venturi housing is thereby preferably provided for insertion into the inlet piece with one end.

In an advantageous embodiment of a dosing system according to the invention, the venturi element is provided on the inlet side with an inlet piece which is provided to be connected to the supply of the first liquid.

In a preferred embodiment of a dosing system according to the invention, the venturi element comprises a housing which is provided for introducing the venturi housing, the inlet piece and the outlet piece.

A further drawback of the known dosing systems according to the prior art is that there are numerous taps to open a supply of a first liquid and to close off another supply of a second liquid. The problem that arises here is that an undesired mixing of liquids can occur. For example, the undesirable mixing of two different liquids can result in an undesired chemical reaction, which can have adverse consequences for the environment in which this occurs.

An additional object of the invention is to provide a dosing system with one or more features of this invention, in which no wrong mixing of liquids can take place, and therefore only one mixed liquid to be sprayed can be selected.

This object of the invention is achieved by providing the dosing system according to the invention with one or more selection members, wherein each selection member is provided for selecting one of the mixed liquids to be sprayed, and wherein each selection member is connected to one venturi element .

In this way two liquids can never be mixed with each other, the intention of which is not to mix them. Furthermore, a compact and simple dosing system is obtained in this way.

A selector here preferably consists of a selector disc on which the possible selections of the mixed liquids to be sprayed are indicated, and is provided with a lever which is arranged on a selector knob and which is provided for selecting said mixed liquids to be sprayed.

In an advantageous embodiment of a dosing system according to the invention, one or more intermediate plates are provided between a venturi element and the respective selection member, which plates are provided with one or more supply openings, said supply openings being provided on the one hand to be brought into connection with the supply of the second liquids and, on the other hand, are provided in connection with the selection of a mixed liquid to be sprayed with the said second channel provided in the venturi housing, whereby the second liquid to be mixed with the first liquid in the suction chamber (s) is sucked.

In a more advantageous embodiment of a system according to the invention, one or more slot disks are provided between the selector button and the one or more intermediate plates which are provided with one or more slots, the one or more slot disks rotatable relative to this one or more intermediate plates are arranged and rotate with the selector knob, whereby, when turning the selector knob to a choice of a mixed liquid to be sprayed, the one or more slotted discs rotate until the one or more slits come into communication with the respective feed opening in the respective intermediate plate .

In a preferred embodiment of a dosing system according to the invention, the second liquids are supplied via said one or more second channels to the suction chamber (s) by means of one or more suction hoses, the dosing of these second liquids being effected by adjusting of the diameter (narrowing or widening) of these suction hose (s).

The dosing system can herein comprise a pressure booster and / or air pressure compressor for increasing the flow and pressure of the first liquid.

The dosing system is thereby provided for exerting a pressure on the first liquid between 0.2 and 15 mPa.

When the dosing system according to the invention is used in the cleaning sector, the second liquids preferably consist of different cleaning products comprising chemicals, disinfectants, etc. and the first liquid consists of water.

A preferred dosing system according to the invention is a central dosing system which is provided for cleaning one or more spaces in a building, each of these spaces being provided with one or more selection members which are each connected to one venturi element that is located on in turn is connected to one spraying device, and wherein in another room in the building a supply of liquids is provided which is connected to each said venturi element which are located in the respective rooms to be cleaned.

On the other hand, the object of the invention is solved by providing a venturi element for a dosing system which is provided with a supply of one or more first and second liquids to be mixed and dosed relative to each other, and which is provided with one or more spraying devices for spraying the mixed liquids or pure first liquid, comprising a suction nozzle which is provided with a first channel for flowing through a first liquid, said channel being provided with a narrowing; - at least one suction chamber which is provided for connection to the suction nozzle; - at least one second channel for supplying a second liquid into the suction chamber by means of the venturi effect created by the narrowing in said first channel, wherein said mixed fluid is formed in the suction chamber; wherein the suction nozzle is embodied such that after bringing this suction nozzle into contact with the suction chamber (s), this suction chamber (s) is (are) virtually evacuated.

The venturi element is preferably provided for use in a dosing system according to the invention as described above.

Finally, the additional object of the invention is solved by providing a selector for a dosing system which is provided with a supply of one or more first and second liquids to be mixed and dosed relative to each other, and which is provided with one or more spraying devices for spraying the mixed liquids or pure first liquid, and provided with one or more venturi elements which are provided with - a suction nozzle provided with a first channel for flowing through a first liquid, said channel is provided with a narrowing; - at least one suction chamber which is provided for connection to the suction nozzle; - at least one second channel for supplying a second liquid into the suction chamber by means of the venturi effect created by the narrowing in said first channel, said mixed fluid being formed in the suction chamber; wherein the selector is provided for selecting one of the mixed liquids to be sprayed.

The selection member is preferably provided for use in a dosing system according to the invention as described above.

This invention will now be further elucidated with reference to the following detailed description of a preferred device according to the invention. The purpose of this description is only to provide a clarifying example and to indicate further advantages and details of this invention, and thus can in no way be interpreted as a limitation of the scope of the invention or of the patent rights claimed in the claims.

In this detailed description, reference numerals refer to the accompanying drawings, in which Figure 1 shows a schematic representation of a central dosing system according to the invention; figure 2 shows a cross-section of a selector (without handle), which is connected to a venturi element and between which an intermediate plate and a selector disk are provided with a dosing system according to the invention; figure 3 shows a perspective top view of the selector (with handle), which is connected to the venturi element and between which the intermediate plate is provided, and is represented as shown in figure 2; Figure 4 shows a cross-section of a venturi element for a dosing system according to the invention; Figure 5a is a front perspective view of a suction nozzle of a venturi element for a dosing system according to the invention; Figure 5b is a perspective rear view of a suction nozzle as represented in Figure 5a; Figure 5c is a cross-sectional view of a suction nozzle as represented in Figures 5a and 5b; Fig. 6a is a cross-sectional view of a venturi housing of a venturi element of a dosing system according to the invention, which is provided with a suction nozzle; Figure 6b is a perspective top view of the venturi housing as shown in Figure 6a; Figure 7a shows a perspective front view of an inlet piece of a venturi element of a dosing system according to the invention; Figure 7b is a perspective rear view of an inlet piece as represented in Figure 7a; Figure 7c is a cross-sectional view of an inlet piece as represented in Figures 7a and 7b; Fig. 8a is a perspective rear view of an outlet piece of a venturi element of a dosing system according to the invention; Figure 8b is a perspective front view of an outlet piece as shown in Figure 8a; Figure 8c is a cross-sectional view of an outlet piece as represented in Figures 8a and 8b; figure 9a shows a first cross-section of a housing of a venturi element of a dosing system according to the invention, wherein the channel for the second liquid can be seen; Fig. 9b shows a second cross-section of a housing of a venturi element of a dosing system according to the invention, wherein the supply channel for the compressed air can be seen; Figure 10 shows a cross-section of an intermediate plate of a dosing system according to the invention.

A (central or non-central) dosing system (1) according to the invention, an exemplary embodiment of which is shown in Figure 1, comprises a supply of one or more first and second liquids (A, B to be mixed and dosed relative to each other) , C, D, E), and one or more spray devices (2) for spraying the mixed liquids (A + E, B + E, C + E, D + E) or pure first liquid (E).

The dosing system (1) is further provided with one or more selection members (3) which are provided for the selection of one of the mixed liquids to be sprayed (A + E, B + E, C + E, D + E). As shown in Figure 3, a selector (3) consists of a selector disc (4) on which the possible selections of the mixed liquids to be sprayed (A + E, B + E, C + E, D + E) are indicated, and a handle (6) mounted on a selection button (5) for selecting these mixed liquids to be sprayed (A + E, B + E, C + E, D + E).

With the selector (3) as represented in Figures 1 and 3, 4 possible choices (1 to 4) of mixed liquids to be sprayed (A + E, B + E, C + E, D + E) can be made.

Furthermore, one or more venturi elements (8) (see Figure 2) are provided, each of which is connected to one selection member (3). Such a venturi element (8) herein comprises a housing (9) (see figures 1, 4, 7a and 7b) which is provided for inserting an inlet piece (10) which is provided for insertion into the inlet side (110). ) of the venturi element (8) and which is provided to be connected to the supply of one of the first liquids (E), here one first liquid (E), and an outlet piece (11) which is provided to be introduced on the outlet side (111) of the venturi element (8) and which is provided to be connected to a respective spraying device (2).

As can be seen in Figures 7b and 8a, the inlet piece (10) and the outlet piece (11) are provided on both ends thereof with a quick coupling (26) and screw thread (25) in order to make an easy connection on one side with the housing (9) of the venturi element (9) and on the other side with a hose or other fixed connection. However, it is also possible to provide either a quick coupling (26) or a thread (25).

Furthermore, the housing (9) of the venturi element (8) is provided for inserting a venturi housing (12) which is provided for insertion into the outlet piece (11) with one end (112), and which in turn is inserted is provided for inserting a suction nozzle (13) ("nozzle").

As can be seen in figures 4, 5c and 6a, the suction nozzle (13) is provided with a first channel (14) for flowing through a first liquid (E). This first channel (14) is thereby provided with a narrowing (15) which, after fitting the suction nozzle (13) in the venturi housing (12), is connected to a suction chamber (16) such that the first liquid (E) from the narrowing (15) can flow into the suction chamber (16). It should be noted here that several such suction chambers (16) can also be provided.

As can be seen in Figure 6a, the venturi element (8) is further provided with a second channel (18) for supplying a second liquid (A, B, C, D) into the suction chamber (16). This channel (18) further ends in a channel (118) which is located in the housing (9) of the venturi element (8) (see figure 9a). The supply of this second liquid (A, B, C, D) to the suction chamber (16) is thereby effected by means of the venturi effect created by the narrowing (15) in said first channel (14), wherein in a mixed liquid (A + E, B + E, C + E, D + E) is created in the suction chamber (16). This venturi effect is therefore caused by the underpressure that is built up in the suction hose (not shown in the figures) which is connected to the said second channel (18). Because of this effect, the second liquid (A, B, C, D) is carried along with the first liquid (E).

As can be seen in Figure 4, the said suction chamber (16) is provided to be brought into connection with the suction nozzle (13) in such a way that said suction chamber (16) is virtually evacuated after connection. As shown in Figs. 4 and 6a, the connection of this suction chamber (16) to the suction nozzle (13) is thereby preferably effected by the suction nozzle (13) with one end (17) (see Figures 4, 5a, 5b, 5c and 6a) extending at least partially into this suction chamber (16) and making this end (17) at least partially conical.

The dosing system (1) according to the invention is further provided for spraying pure first liquid (E). To realize this, a suction nozzle (13) is provided that has a narrowing (15) such that virtually no underpressure is created in the venturi element (8) and therefore virtually no suction of second liquid (A, B, C). , D) in the suction chamber (s) (16).

As shown in Figure 4, the dosing system (1) can further be provided with a plurality of supply channels (19) for supplying compressed air to the (mixed or pure first) liquid to be sprayed (A + E, B + E, C + E, D + E, E) located in the suction chamber (16), wherein said supply channels (19) are provided in the venturi element (8). However, the supply of compressed air is optional.

These supply channels (19) are preferably directed obliquely towards the outlet side (111) of the venturi element (8). It should be noted here that it is also possible to provide the venturi element (8) with only one such supply channel (19).

These supply channels (19) preferably open out into a compressed air chamber (20) which, as can be seen in figures 4 and 8c, is located in the end piece (11) and which is connected to the suction chamber (16) by means of a connecting channel (21) (see Figures 4 and 6a). It is also possible to provide a plurality of such compressed air chambers (20) and to provide a plurality of such connecting channels (21).

As can be seen in figure 4, the compressed air in these supply channels (19) is supplied via a compressed air regulator (27) which in a channel (119) in the housing (9) of the venturi element (8) (see figure 9b ) is introduced, and which is provided with a valve (28) for controlling the air supply in the liquid to be sprayed (A + E, B + E, C + E, D + E, E) and for closing off this air supply. As shown in Figure 1, the compressed air can be supplied via a compressed air line (F) which is connected to a pressure booster (7) and / or air pressure compressor. It can further be connected to the supply of the first liquid (E) for increasing the flow and the pressure of the first liquid (E). However, providing such a pressure booster (7) or air pressure compressor is optional.

The system (1) according to the invention is suitable for a pressure on the first liquid (E) between 0.2 and 15 mPa.

As already stated above, one venturi element (8) is connected to one selector (3). As shown in Figure 2, there is preferably an intermediate plate (22) between this venturi element (8) and the selector (3) which is provided with different supply openings (23) which are provided on the one hand to be brought into connection with the supply of the second liquids (A, B, C, D), for example by means of one or more suction hoses (100, 101, 102, 103), and on the other hand in the selection of a second and first liquid to be mixed (A, B, C, D, E) can be connected to the said second channel (18) located in the venturi housing (9), whereby the selected second liquid (A, B, C, D) in the suction chamber (16) is sucked. The number of supply openings (23) preferably corresponds to the number of second liquids (A, B, C, D) that can be mixed with the first liquid (E). This does not alter the fact that different supply openings (23) may also be provided for supplying one type of second liquid (A, B, C, D).

Depending on whether more or less percentage of the second liquid (A, B, C, D) must be included with the first liquid (E), or therefore the dosage of the second liquid (A, B, C, D) must be determined the respective suction hose (100, 101, 102, 103) must be adjusted in diameter. For supplying the second liquid (A, B, C, D) into the suction chamber (s) (16), it is also possible to provide a plurality of second channels (18) which are connected to a plurality of suction hoses (not shown in the figures).

As shown in Figure 2, this intermediate plate (22) is in turn connected to a slot disk (29) which includes a slot (30) provided for the second liquid (A, B, C, D) to be mixed via a respective supply opening (23) and via a channel (218) in the intermediate plate (22), and via the channel (118) in the housing (9) from the venturi element (8) to the second channel (18) in to bring the venturi housing (9). Said channel (218) in the housing (9) is thereby provided with a non-return valve (32) for preventing the first liquid (E) from flowing back to the second liquid (A, B, C, D) which that moment in the channel (218) in the intermediate plate (22).

It should be noted that a plurality of intermediate plates (22) and a plurality of slotted discs (29) may also be provided between this venturi element (8) and the selector (3).

The said slotted disk (29) is in turn connected to the selector knob (5) and is rotatably arranged with respect to the intermediate plate (20). Since the slot disk (29) is connected to the selector knob (5), when the selector knob (5) is rotated, one of the mixed liquids to be sprayed (A + E, B + E, C + E, D +) is selected. E) also rotated this through which the slot (30) is brought above the respective supply opening (23) in the intermediate plate (22) and the second liquid can flow through all channels (218, 118, 18) to the suction chamber (16)

A spring (31) is preferably provided between the selector button (5) and the slot disk (29) to push the slot disk (29) against the intermediate plate (22) such that there is a hermetic seal between these two parts (22, 29). ) and no second liquid (A, B, C, D) can leak. When this spring (31) is not provided and these parts (22, 29) are rotatably connected to each other in a different way, an enormous pressure can arise between the intermediate plate (22) and the slot disk (29), as a result of which wear and tear and consequently leakage of the second liquid (A, B, C, D) can occur.

When the dosing system (1) according to the invention is used in the cleaning sector, said first liquid (E) consists of water and said second liquids (A, B, C, D) consist of different cleaning products comprising chemicals, disinfectants, etc.

An example is:

Choice 1 '. liquid A = alkaline cleaner + water;

Choice 2: liquid B = acid cleaner + water;

Choice 3: liquid C = disinfectant + water;

Choice 4: liquid D = smoke cabinet cleaner + water;

A fifth choice is rinsing with pure water by fitting another suction nozzle (13) with virtually no underpressure being created in the second channel (18) in the venturi housing (9).

The supply of water preferably takes place from the water network.

The use of the dosing system (1) according to the invention is thereby not limited to use in the cleaning sector, but can also be applied when using biocides; in agriculture, horticulture and animal husbandry, in the medical sector; when cleaning swimming pools; in the food industry; in the chemical industry; in the metal industry; in construction; in the oil industry; in the wood industry; in the vehicle industry; in the printing industry; in the paint, varnish and coating industry; in the plastics industry; in the environmental and waste water industry; at the navy; in the textile and carpet industry; etc.

The dosing system (1) according to the invention as represented in figure 1 is a central dosing system that is provided for cleaning one or more rooms (I, II, III, IV) in a building. The dosing system (1) is designed to operate on hydropower, and is suitable for mixing 4 different second liquids (A, B, C, D) with water as the first liquid (E)

The water pressure used for this is between 0.2 and 15 mPa.

The central dosing system (1) as shown in Figure 1 is provided for cleaning 4 different spaces (I, II, III, IV). In each of these spaces (I, II, III, IV) there is provided one selection member (3) which is connected to one venturi element (8) and which is connected to one spraying device (2) which is provided for spraying the mixed liquids (A + E, B + E, C + E, D + E), or pure first liquid (E). Furthermore, one other space (V) is provided in which the supply of the second liquids (A, B, C, D) is provided and in which a pressure booster (7) is provided in which the first liquid (E) arrives for increasing the flow rate and pressure in this first liquid (E), for example in order to obtain a strong cleaning force with a cleaning system.

Since in the central dosing system (1) according to the invention as represented in figure 1, the mixing of the first and the second liquids (E, A, B, C, D) takes place in venturi elements (8) which are located throughout are in close contact with the spraying devices (2), the supply of these liquids (E, A, B, C, D) to the venturi elements (8) can take place in flexible suction hoses (100, 101, 102, 103) , this in contrast to the known dosing systems, in which the suction nozzles (13) are closer to the supply of second liquids (A, B, C, D), and consequently the mixing of the first and second liquids (E , A, B, C, D, E) is closer to the supply or supply thereof, so that several fixed tubes must be provided for supplying the mixed liquids over a longer distance (A + E, B + E, C + E, D + E) to the spraying devices (2).

Claims (24)

A dosing system (1), comprising a supply of one or more first and second liquids (E, A, B, C, D) to be mixed and dosed relative to each other, one or more spraying devices (2) for spraying the mixed liquids (A + E, B + E, C + E, D + E or pure first liquid (E)), and one or more venturi elements (8) that are provided with a suction nozzle (13) that is provided with a first channel (14) for flowing through a first liquid (E), said channel (14) being provided with a narrowing (15); at least one suction chamber (16) provided to be connected to the suction nozzle (13); at least one second channel (18) for supplying a second liquid (A, B, C, D) into the suction chamber (16) by means of the venturi effect created by the narrowing (15) in said first channel (14) wherein said mixed liquid (A + E, B + E, C + E, D + E) is formed in the suction chamber (16); characterized in that the suction nozzle (13) is embodied such that after bringing this suction nozzle (13) into contact with the suction chamber (s) (16), this suction chamber (s) (16) is (are) substantially air-free. Dosing system according to claim 1, characterized in that said suction nozzle (13) is provided with one end (17) at least partially extending into the suction chamber (s) (16), said end (17) at least partially is conical. Dosing system according to claim 1 or 2, characterized in that for spraying pure first liquid (E) the venturi element (6) which is connected to the spraying device (2) with which the pure first liquid (E) must be sprayed, a suction nozzle (13) is provided which has such a narrowing (15) that virtually no underpressure is created in the venturi element (8) and therefore virtually no suction of second liquid (A, B, C, D) in the suction chamber (s) (16). Dosing system according to one of Claims 1 to 3, characterized in that the dosing system (1) is provided with one or more supply channels (19) for supplying compressed air to the liquid to be sprayed, said one or more supply channels (19) are provided with compressed air in the venturi element (8). Dosing system according to claim 4, characterized in that the venturi element (8) is provided with an inlet side (110) and an outlet side (111) for the first liquid (E), wherein said one or more supply channels (19) for compressed air are directed obliquely towards the outlet side (111) of the venturi element (8). Dosing system according to claim 4 or 5, characterized in that the venturi element (8) is provided with at least one compressed air chamber (20) into which said one or more supply channels (19) open, said compressed air chamber (s) (20) is (are) connected to the suction chamber (s) (16) by means of one or more connecting channels (21). A metering system according to any one of claims 1 to 6, characterized in that said suction chamber (s) (16) is (are) provided in the venturi housing (12) with a venturi element (8). A metering system according to any one of claims 1 to 7, characterized in that said compressed air chamber (s) (20) is (are) provided in an outlet piece (11) which is provided on the outlet side (111) of the venturi element (8), and which is provided to be connected to a respective spraying device (2). A metering system according to claim 7 or 8, characterized in that the venturi housing (12) is provided for being inserted into the outlet piece (11) with one end (112). A dosing system according to any one of claims 1 to 9, characterized in that the venturi element (8) on the inlet side (110) is provided with an inlet piece (11) which is provided to be connected to the supply of the first liquid (E). Dosing system according to one of claims 1 to 10, characterized in that the venturi element (8) comprises a housing (9) which is provided for inserting the venturi housing (12), the inlet piece (10) and the outlet piece (11). A dosing system according to any one of claims 1 to 11, characterized in that the dosing system (1) comprises one or more selection members (3), wherein each selection member (3) is provided for selecting one of the mixed products to be sprayed. liquids (A + E, B + E, C + E, D + E), and wherein each selector (3) is connected to one venturi element (8). A dosing system according to claim 12, characterized in that a selector (3) consists of a selector (4) on which the possible selections of the mixed liquids to be sprayed (A + E, B + E, C + E, D + E) are indicated, and is provided with a lever (6) which is arranged on a selection button (5) and which is provided for selecting said mixed liquids to be sprayed (A + E, B + E, C + E, D + E). A dosing system according to claim 12 or 13, characterized in that between a venturi element (8) and the respective selection member (3) one or more intermediate plates (22) are provided which are provided with one or more supply openings (23), wherein these supply openings (23) are on the one hand provided to be brought into communication with the supply of the second liquids (A, B, C, D), and on the other hand are provided for the selection of a mixed liquid to be sprayed (A + E, B + E, C + E, D + E) to be connected to said second channel (21) provided in the venturi housing (12), whereby the second liquid (A, B, C, D) mixed should be drawn with the first liquid (E) into the suction chamber (s) (16). A dosing system according to claim 14, characterized in that between the selector button (5) and the one or more intermediate plates (22) one or more slot disks (29) are provided which are provided with one or more slots (30), the one or more a plurality of slotted discs (29) are arranged rotatably with respect to these one or more intermediate plates (22) and rotate with the selector knob (5), whereby, when the selector knob (5) is turned, a choice of a mixed liquid to be sprayed (A + E, B + E, C + E, D + E) rotate the one or more slot disks (29) until the one or more slots (30) come into communication with the respective feed opening (23) in the respective intermediate plate (22) ). Dosing system according to one of the preceding claims, characterized in that the supply of the second liquids (A, B, C, D) takes place via said one or more second channels (21) to the suction chamber (s) (16) by means of one or more suction hoses, wherein the dosing of the second liquids (A, B, C, D) is done by adjusting the diameter of these suction hose (s). A dosing system according to claim one of the preceding claims, characterized in that the dosing system (1) comprises a pressure booster (7) and / or air pressure compressor for increasing the flow and pressure of the first liquid (E). A dosing system according to any one of the preceding claims, characterized in that the dosing system (1) is provided for exerting a pressure on the first liquid (E) between 0.2 and 15 mPa. A dosing system according to any one of the preceding claims, characterized in that when the system (1) is used in the cleaning sector, said second liquids (A, B, C, D) consist of different cleaning products comprising chemicals, disinfectants, etc. and the first liquid consists of water (E). A dosing system according to any one of claims 1 to 19, characterized in that the dosing system (1) is a central dosing system that is provided for cleaning one or more rooms (I, II, III, IV) in a building wherein each of these spaces (I, II, III, IV) is provided with a selector (3) which is in communication with a venturi element (8) which in turn is in communication with one spraying device (2) and wherein a supply of liquids (A, B, C, D, E) is provided in another rooms (V) in the building which are connected to each said venturi element (8) located in the respective rooms to be cleaned (I, II, III, IV). A venturi element (8) for a dosing system (1) which is provided with a supply of one or more first and second liquids (E, A, B, C, D) to be mixed and dosed relative to each other is from one or more spraying devices (2) for spraying the mixed liquids (A + E, B + E, C + E, D + E) or pure first liquid (E), comprising a suction nozzle (13) that is provided with a first channel (14) for flowing through a first liquid (E), said channel (14) being provided with a narrowing (15); at least one suction chamber (16) provided to be connected to the suction nozzle (13); at least one second channel (21) for supplying a second liquid (A, B, C, D) into the suction chamber (16) by means of the venturi effect created by the narrowing (15) in said first channel (14) wherein said mixed liquid (A + E, B + E, C + E, D + E) is formed in the suction chamber (16); characterized in that the suction nozzle (13) is designed such that after bringing this suction nozzle (13) into contact with the suction chamber (s) (16), this suction chamber (s) (16) is (are) substantially air-free. Venturi element according to claim 21, characterized in that the venturi element (8) is provided for use in a system (1) according to one of claims 1 to 20. 23. Selection member (3) for a dosing system (1) which is provided with a supply of one or more first and second liquids (E, A, B, C, D) to be mixed and dosed relative to each other and which is provided with one or more spraying devices (2) for spraying the mixed liquids (A + E, B + E, C + E, D + E) or pure first liquid (E), and is provided with one or more venturi elements (8) which are provided with - a suction nozzle (13) which is provided with a first channel (14) for flowing through a first liquid (E), said channel (14) being provided with a narrowing (15); at least one suction chamber (16) provided to be connected to the suction nozzle (13); at least one second channel (18) for supplying a second liquid (A, B, C, D) into the suction chamber (16) by means of the venturi effect created by the narrowing (15) in said first channel (14) wherein in the suction chamber (16) a said mixed liquid (A + E, B + E, C + E, D + E); characterized in that the selector (3) is provided for selecting one of the liquids to be sprayed (A, B, C, D). Selector member according to claim 23, characterized in that the selector member (3) is provided for use in a system (1) according to one of claims 1 to 20.