AU2008201408A1

AU2008201408A1 - Rotary filling machine for filling containers with liquids

Info

Publication number: AU2008201408A1
Application number: AU2008201408A
Authority: AU
Inventors: Dario Benetti; Stefano Stefanello; Gianluca Stella
Original assignee: Gruppo Bertolaso SpA
Current assignee: Gruppo Bertolaso SpA
Priority date: 2007-04-03
Filing date: 2008-03-26
Publication date: 2008-10-23
Also published as: DE602007002697D1; CL2008000958A1; US20080271812A1; ATE444936T1; ITVI20070100A1; ES2333174T3; EP1995208B1; ES2333174T5; AR065926A1; EP1995208B2; EP1995208A1

Description

I

AUSTRALIA

FB RICE CO Patent and Trade Mark Attorneys Patents Act 1990 GRUPPO BERTOLASO S.P.A.

COMPLETE SPECIFICATION STANDARD PATENT Invention Title: Rotary filling machine for filling containers with liquids The following statement is a full description of this invention including the best method of performing it known to us:- 00 "ROTARY FILLING MACHINE FOR FILLING CONTAINERS WITH

SLIQUIDS"

DESCRIPTION

Field of application 00 The present invention relates to a rotary filling machine for filling containers with liquids, according to 00 the preamble of the main claim.

The machine in question is advantageously intended to be used in industrial bottling plants for filling containers, and preferably bottles, with liquids in particular of the alimentary type, such as beverages, wine, mineral water, etc.

The machine in question can be preferably used in bottling lines comprising typically a rinsing machine, a capping/capsuling machine or also, along the part of the line furthest downstream, a labelling machine and a packaging machine.

More precisely, the machine in question is of the type which is provided, in a per se entirely conventional manner, with a rotating carousel (or turret) having, mounted along its periphery, a plurality of filling valves which are able to convey the liquid contained in a cylindrical tank inside the bottles.

State of the art As is known, depending on the methods used to 00 perform the filling operations, filling machines are commonly classified as reduced-vacuum machines, isobaric Nq machines, reduced-pressure machines, gravity machines,

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etc.

o00 Reduced-vacuum filling machines have been designed mainly for filling containers with wines which are gas- 00 free and are able to operate so that the pressure inside C the container is reduced to the pressure (below atmospheric pressure) of the tank inside which the liquid to be introduced is stored and so that the air contained in the container is conveyed externally without coming into contact with the product. The valves of these machines, according to standard construction technology, usually consist of a set of concentric tubes (usually two in number) one of which is inserted inside the other one; the outer tube is used for introducing the liquid into the bottle, while the air or gas contained inside the bottle rises up along the inner tube.

So-called isobaric filling machines have been designed mainly for filling containers with fizzy wines and operate under pressures much higher than atmospheric pressure. Filling of the containers is performed when the final pressure in the container is the same as the pressure inside a tank which is suitably mounted above the valves.

00 Reduced-pressure filling machines perform bottling in conditions where there is a slight pressure such that N the fluid retains a small amount of gas, but without

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being subject to the technical requirements and o00 regulations governing isobaric machines. This latter type of machine is particularly suitable for bottling OO smooth products and liquids which are slightly fizzy.

Volumetric or gravity filling machines envisage that filling is performed by means of free falling and constant metering; in this case, the product, drawn from a container, is conveyed to a series of metering devices and dispensed by the latter into the containers.

The filling machines of the known type described above provide ample possibility for adjusting, by means of a simplified user interface, the operating times and pressures of the filling valves. Owing to the possibility of adjusting the times required by the valves to execute given filling steps, it is possible to optimize the operations in relation to the instantaneous speed of the filling machine and the type of product to be bottled.

Another increasingly urgent requirement in the bottling industry, in particular in the sector for bottling alimentary products, is the development of filling machines with bottling cycles performed in the 00 presence of inert gas in order to avoid oxidation Seffects.

IND In this connection the patent WO 99/03774 describes

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a filling machine which performs pre-evacuation of the 00 air present in the bottle and the subsequent blowing-in of inert gas.

00 A further characteristic of more modern filling machines is the possibility of performing daily complete flushing, and in particular flushing of any part of the machine which comes into contact with the alimentary products to be bottled.

The filling machines which exist at present on the market, in particular for the wine industry, envisage typically a preparation and setting stage for adapting the filling product and the quantity of product to be introduced into the container to the format of the container to be filled.

These adaptation operations performed by the operator result in production downtime, the risk of contaminating the machine and generally allow only separate and not continuous adjustment which is therefore by its nature somewhat imprecise.

At present a change in format of the bottle results in the need to perform several replacement and/or adjustment operations in order to adapt various 00 mechanical parts of the machine to the new format. In particular, these operations must be performed for the I, means which transfer bottles (for example from the conveyor belts to the support plates) and for the valve 00 filling pipes (or tubes).

The latter must in fact be replaced in all the 00 valves with other different-size tubes using operating spanners or quick-fit connections or else must be adjusted in all the valves for example by means of screwing or unscrewing of telescopic parts.

During a format change, normally the container centring cone mounted underneath the valve must also be replaced.

More recently, filling machines able to perform the heightwise adjustment of all the valve filling tubes simultaneously have been introduced onto the market.

This adjustment is achieved by means of overly complex mechanisms which slow down circulation of the liquids, increasing the loss of head therein and basically proving to be too expensive from a cost point of view and operationally disadvantageous.

At present, therefore, each format change requires the intervention of specialized operators in particular to modify the setting of the air return tubes.

This fact results in numerous drawbacks, including a 00 loss of productivity due to the momentary stoppage of production along the whole bottling line (until the adjustment operations have been completed) and the risk of contaminating the container filling parts.

00 Another drawback associated with the format changeover operations consists in the need for the company to 00 provide competent and expert technicians who are able to C manage correctly and quickly all the abovementioned adjustment operations.

Finally a further drawback consists in the risk that the operator may perform inadvertently an incorrect manoeuvre which may result in a major malfunction and therefore also serious damage to the entire line.

Disclosure of the invention In this situation, the main object of the present invention is therefore that of overcoming the drawbacks of the art known hitherto by providing a rotary filling machine for filling containers with liquids, which allows a change in format of the containers to be performed simply and rapidly.

Another object of the present invention is to provide a rotary filling machine for filling containers with liquids, which allows adjustment of the level in the containers to be performed automatically and with a high degree of precision and reliability.

00 Another object of the present invention is to provide a rotary filling machine for filling containers ND with liquids, which allows changing of the specific

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settings for each user, relating to the parameters 00 associated with the bottles, the product and the filling temperature.

00 Another object of the present invention is to C provide a rotary filling machine for filling containers with liquids, which allows optimization of the flushing operations as regards speed and working times and quality of flushing performed.

Another object of the present invention is to provide a rotary filling machine for filling containers with liquids, which allows the operator to switch over easily via a control panel the operating cycle envisaged between reduced-vacuum filling, reduced-pressure filling and finally gravity filling.

Another object of the present invention is to provide a rotary filling machine for filling containers with liquids, which is extremely safe for operators and highly reliable in terms of operation.

Brief description of the drawings The technical features of the invention, in accordance with the abovementioned objects, may be clearly determined from the claims below and the 00 advantages thereof will emerge more clearly from the detailed description which follows, provided with (IN reference to the accompanying drawings which show a purely exemplary and non-limiting embodiment thereof, 00 where: Figure 1 shows a plan and overall view of the OO rotary filling machine for filling containers with liquids, according to the present invention; Figure 2 shows a side view of an enlarged detail of the machine according to Figure 1 with some parts removed so that other parts may be seen more clearly, relating to a filling valve mounted on a tank; Figure 3 shows a cross-sectional view of the valve according to Figure 2; Figure 4 shows an overall perspective view of the rotary filling machine for filling containers with liquids, according to the present invention; Figure 5 shows a side view of an enlarged detail of the machine according to Figure 1 with some parts removed so that other parts may be seen more clearly, relating to a different embodiment of a filling valve mounted on a tank with an associated fast-discharge tray; Figure 6 shows a side view of an enlarged detail of the machine according to Figure 1 with some parts removed so that other parts may be seen more clearly, 00 relating to a filling valve mounted on a tank with, Sindicated, a lid for flushing the valve; D Figure 7 shows a side view of en enlarged detail of the machine according to Figure 1 with some parts 00 removed so that other parts may be seen more clearly, relating to a filling valve mounted on a tank with, 00 indicated, first actuating means acting by means of transmission means so as to raise a pair of coaxial pipes.

Detailed description of a preferred example of embodiment With reference to the accompanying drawings, 1 denotes in its entirety the rotary filling machine for filling containers with liquids, according to the present invention.

The abovementioned machine 1 may be arranged, in a per se entirely conventional manner, inside a bottling plant, for example downstream of a rinsing machine and upstream of a capping machine to which it is operationally connected by means of conveying means.

The filling machine 1 (Figure 4) is provided with an external frame 23, protective walls 24, 25 on the perimeter of the machine 1 and an external cabin la containing the electric and electronic operating devices (Figure 1) The machine is also provided, in a manner known per 00 se, with a rotating carousel or turret 4 arranged inside Sthe frame 23 and having, mounted along its periphery, a IND plurality of filling valves 6.

The containers 3, in particular bottles, to be 00 filled are inserted inside the frame 23 and loaded onto the guide or conveyor belt 2 so that they proceed in the 00 direction and sense defined by the entry arrow Fl and exit arrow FU.

The containers 3 must preferably be filled with alimentary substances such as milk, wine, fruit juice, etc., and for this purpose are conveyed, one after another, along the guide belt 2 and then transported into the vicinity of an entry starwheel 31 of the carousel 4 which performs, by means of the filling valves 6, all the steps necessary for bottling.

The actual presence of the containers 3 is verified by means of a sensor 22 which is situated at the end of the feeder screw 26 and immediately ahead of the entry starwheel 31 and is able to stop operation of the corresponding filling valve 6 should there be no containers 3 entering the carousel 4.

If there should be no container 3, operation of the individual filling valve 6, but not the filling machine 1 is interrupted, the latter continuing to operate correctly so as to keep the productivity high since the 00 following container 3 may be correctly filled.

Each valve 6 has a pair of coaxial pipes 7, 8, i.e.

N an outer pipe 7 for supplying the liquid from a storage

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tank 20 to the container 3 to be filled which rotates on 00 the carousel 4 underneath the corresponding valve 6, and an inner compensation pipe 8 (or air return tube) for

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00 determining the level of liquid inside the container 3.

The bottom portion of the pipes (or tubes) 7 and 8 is shaped so as to be inserted along at least a section of the neck of the bottle 3.

In particular, the terminal section of the inner compensation pipe 8 is intended to regulate hydraulically the maximum level of the liquid inside the container 3 as will be clearly specified below.

The liquid conveying duct is advantageously defined by the interspace existing between the outer surface of the inner compensation pipe 8 and the inner surface of the outer liquid supply pipe 7.

The two pipes 7, 8 are movable slidably with respect to each other so as to open and close a closing member arranged between them and, in accordance with a preferred solution of the present invention, consisting of a headpiece 120 fixed to the bottom end of the compensation pipe 8 against which the mouth 121 situated at the bottom end of the liquid supply pipe 7 is able to come into 00 contact. Therefore, opening of the closing member 120 will occur when the outer pipe 7 is displaced with IN respect to the inner pipe 8, leaving a fluid flow aperture open.

00 More generally, the conveying duct is defined by the interspace between two concentric pipes, i.e. outer pipe 00 and inner pipe. Therefore, differently from the embodiment described above it will be possible to envisage providing a dedicated compensation and air return pipe situated concentrically inside the two outer pipes between which there will still be defined the duct for supplying the liquid from the tank 20 to the container 3 with the closing member arranged in between in a manner similar to that described above.

The closing member in the conveying duct may also be formed in another way known per se, such as, for example, by a widened nose-shaped portion of the inner pipe of the conveying duct able to come into contact against the annular shoulder provided on the inner side of the outer pipe of the conveying duct.

An extension guide 11 extends vertically downwards from the bottom 104 of the tank 20, said guide being coaxial and external with respect to the two pipes 7 and 8 and having, fixed at the bottom end, a seal 13 which is able to receive against it the mouth of the container 3.

00 According to the idea underlying the present invention, the filling machine 1 comprises first actuator D means 100 acting on the compensation pipe 8 of each

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filling valve 6 by means of transmission means 101 so as 00 S 5 to vary simultaneously in an adjustable manner the vertical position of all the compensation pipes 8 with 00 respect to the seal 13.

SThe position of the compensation pipe 8 with respect to the seal 13 determines the portion of the said compensation pipe 8 which penetrates into the container 3 and therefore, as will be clarified below, the filling level 9 inside the said container 3.

In accordance with the preferred embodiment of the present invention shown in the accompanying figures, the first actuator means 100 act on the outer pipe 7 of each filling valve 6 by means of transmission means 101, varying simultaneously in an adjustable manner the vertical position of both the pipes 7, 8 with respect to the seal 13. In this case, the transmission of the vertical movement to the compensation pipe 8 by the outer pipe is achieved by means of mechanical connections between the two pipes 7 and 8 and advantageously consisting of a spring 15 fixed at its ends to the pipes 7, 8.

It will be possible to envisage providing a 00 dedicated compensation and air return pipe situated concentrically inside two other outer pipes between which IN the duct for supplying liquid from the tank to the

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container with the arrangement in between of the closing 00 member will remain defined.

Furthermore, the term "seal" 13 must be understood 00 as referring to that part which is fixed to the tank 0) (in the examples consisting of a bottom end part of the extension guide 11 fixed underneath the tank) and against which the mouth of the container is intended to come into contact both directly and via a centring cone arranged in between (in this latter case the rubber seal will be on the centring cone and not on the end contact part).

At the start of operation, namely whenever there is a change in format of the containers 3, the machine 1 envisages an operation for setting the level of the container 3; this adjustment is entered by the operator directly on the panel, or one of the settings previously recorded in a special logic control unit of the machine is retrieved.

Depending on the commands imparted, the first actuator means, for example consisting of an electromechanical system such as, for example, one or more electric motors, operate simultaneously all the filling valves 6, via transmission means 101 for example 00 formed by a regulating ring 17 connected on the one hand Sto the first actuator means 100 and fixed on the hand to IN the outer liquid supply pipe 7 of each of the filling

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valves 6 by means of mechanical transmission arms 00 In greater detail, with reference to the example in Figure 7, the first actuator means consist of a motor 110 00 mounted on a motor support bracket 111 which is connected Sby means of an angular transmission to an internally threaded driven wheel 112 inside which an acme-thread screw 113 fixed at its bottom end to the regulating ring 17 engages.

Operationally speaking, activation of the motor 110 (to be performed normally during machine set-up or at the start of a working cycle or also upon a change in format of the containers) causes, via the transmission means 101, raising and lowering of the two pipes 7 and 8, adjusting the filling level 9 of the containers 3.

Obviously, without thereby departing from the scope of protection of the present invention, the first actuator means 100 may be formed by other driving systems such as linear actuators or other equivalent means for raising the ring 17. The transmission means 101 may similarly in turn be formed with kinematic mechanisms of various types which are well known to the person skilled in the art.

00 For example, the outer pipe 7 may have Sadvantageously at the top end a widened part 102 for ND fastening to the corresponding transmission 10 (for

CN

example between two parallel plates). The transmission 00 10 may however, differently, also be connected to other parts of the valve 6 in turn connected to the pipes 7 and 00 8.

STherefore the regulating ring 17 acts as a locating element for determining the level 9 reached inside the containers 3, being able to determine simultaneously the position of all the pipes 8 for compensating the level 9.

In accordance with the preferred embodiment of the present invention shown in the accompanying figures, the coaxial pipes 7, 8 pass through the lid 104 and the bottom 105 of the tank 20, there being provided an upper seal 106 and a bottom seal 107 through which the pipes 7, 8 slide following operation of the first actuator means 100.

Therefore, the abovementioned transmission imparts a vertical movement to the entire filling valve 6 (denoted by a dot-dash line) so that the latter slides inside the tank 20 and the extension guide 11.

Operationally speaking, the operating principle of the machine 1 described above is as explained below.

The container 3 to be filled, in particular a 00 bottle, once it arrives underneath the respective filling valve 6, is brought into sealing contact against the IN extension guide 11 by means of a raising cylinder

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while the vertical position of the filling valve 6, which 00 is predetermined as described, allows the level to be obtained uniformly among all the filling valves 6 with a 00 height which may be defined entirely as desired.

y This regulating system is extremely rapid as regards setting thereof, has a fast movement and reliable dynamic seals and reaches the given height in a precise manner.

This movement system also has the convenient advantage that it does not require any further movement during operation with the same batch of containers 3, reducing substantially wear and consumption.

The container 3 is rested on the raising cylinder which rises and brings the neck 14 of the container 3 (in the case in question, the neck 14 of a bottle) into sealing contact with the seal 13 situated underneath the filling valve 6, with a pressure suitably designed to ensure optimum operation of the machine according to the invention (Figures 2 4) and at the same time reduce as far as possible the stresses acting on the neck 14; at the same time, a first valve 18 of the filling valve 6 is opened and is connected to a vacuum circuit by means of a first suitably separated duct 27 and causes suction of 00 all the air from the bottle 3 A vacuum is thus created inside the bottle 3 so as N to evacuate any polluting gas which may be present.

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This is followed by closing of the first valve 18 of 00 the first vacuum duct 27, while the subsequent opening of a second valve 19 connected to a second duct supplying OO inert gas under pressure 29 allows the injection of inert p gas inside the container 3. When a balance between the pressures inside the tank 20 of the filling machine 1 and the inside of the container 3 is reached, opening of the filling valve 6 is performed by means of operation of second actuator means consisting of a pneumatic cylinder 28 which is mounted above the valve 6 and which is lowered by acting on the top end of the compensation pipe 8 which is thus forced to slide inside the outer pipe 7, causing opening of the closing member 120.

Each regulating valve 6 is provided at the top, above the tank 20, with associated second actuator means 28 which are advantageously supported and fixed to the outer pipe 7 (together with which they are therefore able to move) and are able act on the top end of the inner compensation pipe 8 so as to vary the relative position thereof with respect to the outer pipe 7, causing opening of the closing member.

Lowering of the pneumatic cylinder 28 causes at the 00 same time also opening of a third valve 12B, which Sconnects the inside of the container 3 to a separate

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IN reduced-vacuum circuit 16 by means of the compensation

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pipe 8, allowing filling of the container 3 to the 00 desired level 9 when the filling valve 6 closes again as a result of the action of the spring 15 which pushes 00 against the action of the pneumatic cylinder 28, C overcoming the pressure thereof, when the latter is deactivated.

The pressure of the separate reduced-vacuum circuit 16 is suitably stabilized in relation to the pressure of the tank 20 and the inside of the container 3, in order to optimize the filing speed and fluidity.

This pressure of the separate circuit 16 is typically, although not exclusively, defined so that it is the same as the internal pressure of the tank 20. The suitable introduction of the abovementioned completely separate circuit 16 allows the total evacuation of the gas contained inside the container 3, so as to prevent in an entirely reliable manner the gas present in the container 3 from contaminating the gas present inside the tank Once filling has been completed, after a predetermined period of time, the third valve 12B closes, while a fourth valve 12A opens and connects the

I

00 compensation pipe 8 inside the tank 20. Release of the Spneumatic cylinder 28 and suitable opening of the second INC valve 19 connects the pressurised gas circuit 29 to the

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neck 14 of the container 3 and to the pipes of the 00 filling valve 6 so that the pressurised gas pushes the excess liquid through the central hole of the 00 compensation pipe 8.

C Preferably, the excess liquid, instead of being introduced again into the tank 20, may be conveyed to a separate recirculation circuit 21 in order to prevent any possible contamination inside the tank 20 of the filling machine 1. It is also possible to provide a simplified version of the subject of the invention, in which the valves 12A, 12b are combined as a single valve, which envisages the return of self-levelling gas and liquid inside a single separate return duct 16 or alternatively the return completely into the tank Once the levelling stage has been completed, the valves 12A, 12B and 19 are closed so as to optimize the consumption of inert gas and without any further movement of any mechanical part. During the final descent of the container 3, opening of the second valve 19 occurs so as create a layer of inert gas inside the neck 14 of the bottle (container 3) and all around, since opening of the second valve 19 remains as such also during removal of 00 the container 3 from the filling valve 6.

SAs a result of the outflow of gas inside the neck 14 IN of the container 3 and in the outer region thereof, while

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the compensation pipe 8 has already been detached from 00 the level 9 of the filling liquid, it is possible to achieve final protection of the container 3 and ensure 00 reduced exposure of the liquid to the air.

SOnly when the container 3 is detached from the filling valve 6 is there definitive closing of the second valve 19.

It is also possible to envisage a suitable variation in the sequence of the cycle for flushing the neck 14 of the container 3. This variation, which is absolutely preferable when the improved filling apparatus reaches the maximum production speed, envisages that, after correction of the level, suitable closing of only the third and fourth valve 12A and 12B occurs and there is an immediate separation of the neck 14 of the container 3 from the seal 13, while the second valve 19 may remain open. In this way, the downtime is advantageously recovered while reducing the possibility of negative infiltration of harmful gases inside the neck 14 of the container 3.

Owing to positioning, in each filling valve 6, of the first and second valves 18 and 19 on the bottom of 00 the extension guide 11, it is possible to optimize the time needed for execution of the filling cycle ND operations, speeding up the vacuum and gas insertion

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stages, since it is required to fill a smaller volume 00 consisting of only the container 3 (bottle) and the suitably sized through-holes in the seal 13.

00 Moreover, advantageously, the valves 12A, 12B, 18, S19 are electro-valves which are controlled by the logic control unit so that the respective opening times are determined accurately in order to optimize the filling cycle, it being possible to adjust them independently for each filling valve 6, so as to optimize the cycle for each filling valve 6, counteracting the effects of the mechanical machining tolerances.

Moreover, the logic control unit is able to memorize the heightwise positions of the pipes 7, 8 or the filling valves 6 to which different container formats correspond and reproduce them with operation of the first actuator means simply via a control panel, so as to allow during a change in format of the bottles 3 rapid adjustment of the levels 9 set for all the filling valves 6.

Each filling valve 6 is operated so as to move vertically in a controlled manner simultaneously by the first actuator means 100 for adjusting the level 9 in the container 3 and includes the coaxial pipes 7, 8, the 00 second actuator means 28, the closing member 120 and at Sleast one valve 12A, 12b arranged so as to intercept the IND inner compensation pipe 8.

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In order to automate and simplify as far as possible 00 the operation of washing the filling machine i, a particular position of the filling valve 6 has also been 00 studied such that washing of all the parts is facilitated, eliminating any possibility of stagnation.

For this purpose, the concentric pipes 7, 8 can be operated by the first actuator means 100 so as to move upwards until they are completely retracted inside the extension guide 11 and preferably until they pass beyond the seal 13 so as to form, together with a closing lid 32 preferably pivotably mounted on the bottom portion of the extension guide 11, a closed receptacle 160 suitable for allowing recirculation of a flushing product both inside and outside the surface of the filling valve 6. For this purpose, the lid 32 is operated automatically or manually so as to move between a closed position underneath the extension guide 11 (and in particular underneath the centring cone 150 as shown in Figure 6) and an open position for normal operation of the machine, where it is separated from the bottom of the guide 11.

Owing to automation of the filling machine 1, not only can specific time schedules be determined for each 00 format or group of containers 3, for each working Stemperature and for each substance treated, but it is also possible to personalize the individual operations of the pneumatic electro-valves 12A, 12B, 18, 19 of each 00 filling valve 6 for their adjustment heightwise or depending on the liquid level to be obtained inside the 00 bottle 3. Owing to this operational versatility, the C machine may be used to operate with different operating cycles, including reduced-vacuum filling, reducedpressure filling and also reduced-gravity filling.

This possibility is of decisive importance for obtaining the maximum performance from all the filling valves 6 and so as to ensure that the quality of the filling process is uniform and constant. Moreover, the actuators of the valves 12A, 12B, 18, 19 and the pneumatic cylinder 28 may be made of materials which are entirely compatible with alimentary products, can be perfectly flushed and be equipped with a suitable control chamber which allows verification of any malfunctions, without contaminating the product used for filling the containers.

It is also envisaged being able to modify the filling mode of the containers 3, by introducing a suitably sized constriction in the passages of the fourth valve 12A such that filling of the container 3 is slowed 00 down during the final stage so as to prevent entirely the Sformation of foam in the neck 14 of the container 3. In

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N order to reduce as far as possible the product change-

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over downtime, it is also envisaged being able to equip 00 the filling machine 1 with a series of retractable discharge trays 33, via which the product still present 00 inside the tank 20 may be discharged, when filling of the batches of containers 3 envisaged has been completed.

The abovementioned trays 33 are operated and positioned only at the time required, in particular when the flow of the containers 3 being supplied is interrupted, by means of suitable actuators 35, so that the individual filling valves 6 open and allow the product to flow out when they pass above the trays 33.

Claims

1. Rotary filling machine for filling containers ND with liquids, which comprises: a rotating carousel having, mounted along its 00 periphery, a plurality of filling valves each of which has: 00 at least two coaxial pipes i.e. an outer C pipe for supplying the liquid from a storage tank to a container (30) to be filled with said liquid; and an inner compensation pipe for defining the liquid level inside said container Sat least one seal (13) mounted underneath the tank and arranged concentrically and externally with respect to said pipes and able to receive against it the mouth of said container characterized in that it comprises first actuator means acting on at least said inner compensation pipe (8) of each filling valve by means of transmission means (101) so as to vary simultaneously in an adjustable manner the vertical position of said compensation pipes of all the filling valves with respect to said seal (13)

2. Rotary filling machine according to Claim i, in which said coaxial pipes 8) define between them a duct for conveying liquid between said storage tank 00 and said container and in which said coaxial pipes S(7, 8) are movable slidably with respect to each other so areng IN as to open and close a closing member (120) arranged between them. 00

3. Rotary filling machine according to Claim 2, in which said transmission means comprise at least one 00 regulating ring (17) fixed by means of mechanical transmissions (10) to the outer liquid supply pipe of each of said filling valves (6)

4. Rotary filling machine according to Claim 1, in which said coaxial pipes 8) pass through the lid (105) and the bottom (106) of said tank there being provided at least one upper seal (106) and at least one bottom seal (107) through which said pipes 8) slide following operation of said first actuator means (100) Rotary filling machine according to Claim 1, characterized in that it comprises an extension guide (11) fixed underneath to the bottom (20) of said tank concentrically and externally with respect to said pipes 8) and having said seal (130) fixed to its bottom end.

6. Rotary filling machine according to Claim 1, characterized in that each valve comprises second actuator means (28) supported by said outer pipe and movable therewith, being able to act on the top end of I 00 said inner compensation pipe so as to vary its Srelative position with respect to said outer pipe \O IND causing opening of said closing member (120)

7. Rotary filling machine according to Claim 3, 00 characterized in that said outer pipe has, at its top end, a widened part (102) for fastening to the 00 corresponding transmission (110) of said transmission C- means (101)

8. Rotary filling machine according to Claim 6, characterized in that each said filling valve (6) including said coaxial pipes said second actuator means said closing member (120) and at least one valve (12A, 12B) arranged so as to intercept said inner compensation pipe is operated to move vertically in a controlled manner by said first actuator means (100)

9. Rotary filling machine according to Claim 6, characterized in that it is equipped with a logic control unit able to store the heightwise positions of said pipes 8) corresponding to different formats of containers and reproduce them by operating said first actuator means (100) Rotary filling machine according to Claim 1, characterized in that it comprises a pressurised circuit (29) intercepted by a second valve (19) mounted on said extension guide (11) at the bottom end in the vicinity of 00 the receiving cone of said container and able to blow Sinert gas into said container through holes formed in IND said seal and at least one third valve mounted so as to intercept said compensation pipe said pressure 00 circuit (29) with said second and third valves open being able to force, with the inert pressurised gas, the excess 00 liquid level contained inside said container through Ssaid compensation pipe inside said tank (20) or into a separate recovery circuit (16)

11. Rotary filling machine according to Claim i, characterized in that said second actuator means (28) consist of a pneumatic cylinder (28) for each valve (6)

12. Rotary filling machine according to Claim i, characterized in that said concentric pipes 8) can be operated by said first actuator means (100) so as to move upwards until they are retracted completely inside said extension guide so as to form, with a closing lid a closed receptacle (16) suitable for allowing recirculation of a flushing product both inside and outside the surface of the filling valve (6)