FI105796B - Procedure and equipment for dosing liquids - Google Patents

Description

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Method and apparatus for dispensing fluid

The invention relates to a method for dispensing a fluid of the type set forth in claim 1. The invention also relates to a device for dispensing a fluid of the type set forth in the preamble of claim 10.

In many processes, a predetermined amount of fluid must be metered periodically to the Subject. Such processes are, in particular, those of the type in which objects to which the dosing takes place pass successively past the dosing point.

Particularly when dispensing small volumes of liquid, great precision is required.

With pumps that can be adjusted to deliver a certain amount of fluid during the 15 pumping steps, this accuracy is often not achieved. One particular application where accurately measured amounts of liquid are required is a method of treating successive objects in a continuous stream in a process in which the articles are treated with equal amounts of liquid. An example of such processes is the sterilization processes of the food 20 chemical industry, for example, the inside sterilization of later refillable liquid packages. During sterilization, it is important to have the right amount of active ingredient applied to the packaging in order to guarantee a certain shelf life.

25 Food packaging processing lines, one part of which is a sterilization device before packaging filling and sealing devices are shown, inter alia. European Patent 479010. A mechanical solution for transferring a certain volume of liquid into a dispensing line is disclosed in European Patent Application 353486. In this connection, the movable parts cause sealing problems and the liquid volume cannot be adjusted. .......

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EP 0 290 724 discloses a dispenser for dispensing, for example, a liquid used for sterilization. Excess fluid pum-35 into the intermediate reservoir flows through the intermediate reservoir mouth between the outer surface of the intermediate reservoir and the dispenser sheath for reuse.

The intermediate reservoir has a metering duct at a certain depth set up above the mouth of the intermediate reservoir, which absorbs the oral and metering reservoir of the intermediate reservoir.

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duct oral fluid volume to deliver a dose of fluid to its application. Liquid dosing is monitored by measuring the resistance dance between the first measuring electrode formed by the intermediate container and the second measuring electrode formed by the dosing channel.

It is an object of the present invention to provide a method and apparatus for accurately and repeatedly dispensing small amounts of liquid, in particular, at the speed required by the process and with certainty. To accomplish this object, the method according to the invention is essentially characterized in what is set forth in the characterizing part of the appended claim 1. The device according to the invention, in turn, is characterized by what is stated in the characterizing part of the appended claim 10. The presence of fluid between the overflow point and the mouth of the 15 dosing channels is monitored by two sensors. Sensors can be used to ensure that dosing is working properly.

Hereby, one can observe e.g. cases where part of the intermediate tank is left unfilled.

. . For other preferred embodiments of the invention, reference is made to the appended dependent claims and to the description which follows.

The invention will now be described in more detail with reference to the accompanying drawings in which: 25

Fig. 1 shows a device according to the invention in vertical section before dosing, Fig. 2 shows the same after dosing, and

Figure 3 is a diagram showing the location of the device in the processing process.

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Figure 1 illustrates a device according to the invention, generally described by reference numeral D. The body of the device has a vertical channel 35 shaped as an intermediate container 1, having a top end terminating in an inclined drainage channel 5 extending across the frame and connecting at its lower end to the drain. and an overflow point 1a is formed at the junction of the outlet duct 5, through which excess liquid fed from below to the intermediate container 1 3 105796 is discharged along a sloping downwardly sloping surface of the outlet duct. In Figure 1, the free liquid surface as determined by the overflow point 1a is denoted by the reference S.

A dispensing channel 2, which may be a suitable hose or the like, is introduced through the outlet duct 5 from above into the intermediate container 1. At the end of the dispensing passage 2 is an orifice 2a located at a certain distance from the liquid surface S below it. The amount of liquid M to be dispensed is then determined by the volume of liquid remaining between the orifice 2a of the dispensing channel 2 and the liquid surface S.

Figure 1 shows a situation where the intermediate container 1 is filled from below by pumping so that the liquid has risen around and into the dosing channel 2 and the liquid surface has settled to the height specified by the overflow point 1a. the liquid volume, i.e. the amount of liquid M is discharged through the mouth 2a of the dosing channel 2 and is led along the dosing channel to the dosing destination. Thereafter, the liquid surface in the intermediate container 1 is at a lower height 20 as determined by the location of the orifice port opening 2a, as shown in Figure 2.

Further, it is advantageous to continuously adjust the amount of liquid to be dispensed.

This is done in such a way that the distance 2a of the opening 2a of the dosing channel 2 from the overflow point 1a is infinitely adjustable, whereby the volume of liquid determined by the liquid surface 25S and the distance of the opening 2a changes accordingly. To accomplish this, the dosing channel 2 may be vertically displaceable by a suitable, accurately positioned actuator.

It is also advantageous to use a sensor for monitoring the presence of liquid in the intermediate container 1 for monitoring dosing. The sensor is arranged to monitor at least the area which is filled and discharged during dispensing, i.e. the area between the overflow point 1a and the port 2a of the dispensing channel in the height direction of the intermediate container. The sensor, denoted by reference numeral 3 in Figures 1 and 2, may be, for example, 35 a photoelectric cell disposed at a convenient position in the body of the dispensing device D close enough to the intermediate container. The sensor data can be used to control and verify the functions of the dispenser D.

The sensor 3 is also preferably movable in the height direction of the intermediate container 1.

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Figures 1 and 2 show two sensors, the upper of which is always at the same location near the overflow point 1a, whereby it detects an increase in the liquid volume to this height. The lower sensor 3, which is preferably movable in the height direction 5 according to the respective elevation position of the dosing channel orifice 2a, is again close to the lower end of the liquid volume to be dispensed, i.e. slightly above the liquid surface remaining in the intermediate container after dosing. In this way, it is possible to verify with two sensors that the intermediate container 1 is full before dispensing or that the volume of liquid to be dispensed 10 has definitively left the intermediate container after dispensing, i.e. the information provided by both sensors 3 must be the same.

Figure 3 shows the location of the apparatus D in connection with a continuous manufacturing or processing process. In the treatment process, there are successive objects E, in this case separate objects, passing through the dispensing point, each being treated with the same amount of liquid.

Fig. 3 also shows a filling pump P1 which is connected, for example, via a counter-valve V to a device D via an inlet duct 4 provided at the lower end of the intermediate tank 1. The filling pump P1 is arranged to supply a quantity of liquid from the larger dosing medium reservoir 6 such that the intermediate reservoir 1 fills up to the overflow point 1a. The volumes supplied by the filling pump may be arranged to be larger than the dispensing volumes so that excess liquid is discharged through the outlet duct 5, and the intermediate tank 1 must be provided up to the overflow point 1a. The dosing pump P2, in turn, is always arranged to suck up the volume of liquid from the intermediate tank 1 and to supply the dosing liquid to the dosing destination.

The filling pump P1 may be any pump for which a specific dose greater than the volume defined by the elevation position of the orifice 2a may be set, whereby a portion of this dose will be discharged through the overflow site. A suitable example is an electric dose pump-pu. The metering pump P2 may be any device for receiving suction passageway 2 ai-35, for example an ejector structure in which a gaseous medium passing through the ejector provides the required suction of the liquid volume between the overflow point 1a and the orifice 2a once empty. A pump containing moving parts, such as a diaphragm pump, may also be an option.

Figure 3 illustrates a process for treating food packages to be sterilized prior to filling, in which a predetermined amount of sterilizing agent is injected into the top open packages with dispenser D. The sterilizing agent may be a mixture of hydrogen peroxide and water, which is sprayed together with filtered compressed air into the package. The compressed air is then introduced into its own duct into the ejector structure of pump P2 and conveys the sterilizer to the site. The sterilant fluid volumes dispensed by device D are small, typically less than 1 mL.

The device D shown in Figures 1 and 2 can be arranged at least partially transparent so that at least at a height of liquid volume of 15 to be dispensed, the intermediate container 1 can be visually observed externally.

Although described above mainly for dispensing a sterilizing agent, the invention can be used in principle for dispensing all liquids, particularly in processes where the same intermediate container is repeatedly dosed to successive targets in the process.

The liquid may be a substance for treating successive objects, but the liquid may also be intended to fill successive objects with a well-defined volume that remains permanently as the volume of liquid in the subject.

Likewise, the invention can be used to dispense liquids in exactly a predetermined amount to successive targets, e.g., sequential objects into substance receiving spaces, for mixing the liquid with substances already present in the target or subsequently added thereto during manufacturing processes. The invention is particularly well suited for small volumes of less than 10 ml and especially for volumes less than 1 ml. The device can be calibrated such that a certain elevation position of the orifice 2a always corresponds to a certain amount of fluid.

• - ·. · P1 and P2 pumps can be synchronized to operate in cycles in a timely manner with respect to the movement of process objects, and 35 known automation solutions can be used.

The device is not limited to the structure limited above, but can be modified within the scope of the inventive idea 6 105796 of the claims. The dosing channel 2 need not necessarily be located in the intermediate container 1, but may be outside and the opening 2a in the wall of the intermediate container 1 may open at a suitable height below the overflow point 1a, but such a structure is difficult to adjust.

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Known automation solutions controlling the filling pump and the metering pump, to which the aforementioned sensor (s) can be connected, can be used to rhythmically dispense dosing according to the speed of successive targets in the process.

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Likewise, liquid dispensing refers to a substance in the initial state which is a liquid which can be removed from the intermediate container in certain volumes of liquid but which, in its entirety or its components, can change its state between the intermediate container and the actual dosing object.

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Claims (18)

A method for dispensing liquid, wherein the intermediate reservoir (1) is filled and a predetermined amount of liquid (M) is led from the intermediate reservoir to a predetermined 5 object, wherein when the intermediate reservoir is filled, excess liquid is passed through the overflow (1a) via the opening (2a) of the dosing channel (2) located on the free liquid surface (S) defined by the overflow point (1a), characterized in that the presence of the amount of liquid (M) between the overflow point (1a) and the mouth (2a) of the dosing channel (2) ) · Method according to Claim 1, characterized in that the presence of liquid (M) is monitored by photocells. Method according to claim 1 or 2, characterized in that one sensor (3) is placed at the overflow point (1a) and the second sensor (3) is placed just above the mouth (2a) of the dosing channel (2). Method according to Claim 3, characterized in that the distance between the mouth (2a) of the dispensing channel (2) and the sensor (3) positioned at its distance from the free liquid surface (S) is continuously adjusted. 25 Method according to one of the preceding claims, characterized in that the amount of liquid is removed by suctioning it into a metering passage (2) introduced through the free liquid surface (S) defined by the overflow point (1a) with a predetermined distance from the free liquid surface (S). thereafter, neither sensor (3) detects the presence of fluid volume (M) between the · overflow point (1a) and the mouth (2a) of the dosing channel (2). Method according to one of the preceding claims, characterized in that the intermediate container (1) is filled by pumping further liquid from below so that the upper surface of the liquid rises to the overflow point (1a), whereby each sensor (3) detects the amount of liquid (M). occurrence between the overflow site (1a) and the mouth (2a) of the dosing channel (2). A method according to any one of the preceding claims, characterized in that it is used to dispense a liquid into a continuous manufacturing or processing process to successive targets and repeats sequentially the cycles of successive steps of filling the intermediate tank up to the overflow point (1a) and M) removal from the intermediate container via the dosing channel (2) 10, whereby the information provided by each of the sensors (3) is the same in both phases when the dosing functions correctly. 7 105796 A method according to any one of the preceding claims, characterized in that the liquid volumes (M) to be administered are less than 10 ml, in particular less than 1 ml. Method according to claim 7 or 8, characterized in that it is used for dispensing a sterilizing agent in the process to successive objects, such as food packages (E). Apparatus (D) for dispensing a liquid, comprising: an intermediate container (1), an inlet conduit (4) for filling an intermediate container (1) and a dosing channel (2) disposed between the intermediate container and a predetermined object; is an overflow point (1a) which determines the location of the liquid surface of the intermediate container (1) and the mouth (2a) of the dosing channel (2) is located in the secondary container at a predetermined distance from the overflow point (1a); disposed in connection with the intermediate container (1) such that they detect the presence of a quantity of liquid (M) at different heights in the region between the overflow point (1a) and the orifice (2a). Device according to Claim 10, characterized in that the sensors 35 (3) are photocells. Device according to Claim 10 or 11, characterized in that one sensor (3) is positioned at the overflow point (1a) and the other sensor (3) at the mouth (2a) of the dosing channel (2) just above it. Device according to one of the preceding claims 10 to 12, characterized in that the dosing channel (2) is introduced from above J via the overflow point (1a) into the intermediate container (1). Apparatus according to one of the preceding claims 10 to 13, characterized in that the distance from the overflow point (1a) of the dosing channel (2) to the mouth (2a) and the sensor (3) positioned therein is infinitely adjustable. Device according to one of the preceding claims 10 to 14, characterized in that the supply channel (4) for filling the intermediate container is connected to the intermediate container (1) below the opening (2a). Device according to one of the preceding claims 10 to 15, characterized in that the overflow point (1a) is formed at the junction of the intermediate container (1) and the inclined outlet channel (5). 20 Device according to one of the preceding claims 10 to 16, characterized in that it is arranged in a continuous manufacturing or processing process and arranged to dispense material into successive targets in the process, the other end of the dispensing channel (2) being in the path of the targets. _____ Device according to Claim 17, characterized in that it is a sterilizer dispenser. «· * •« 10 105796