The present invention relates to a filling device for heterogeneous products or products which have solid or semi-solid suspended elements with variable dimensions and compactness. The valve of the invention can be used in net weight filling machines.
The use of weight filling systems with highly heterogeneous products or products which have solid or semi-solid suspended elements with variable dimensions and compactness is rather problematic.
The known weight filling methods are all characterized by filling valves connected to a tank or a collector, and the dynamics of opening/closing the valve depend on the strategy for measuring the weight of the product dispensed. The spillage of the product from the valves is promoted by the pressure caused by the geodetic head of the product itself or by a slight pressurization (a few meters of water column at maximum) of the tank or collector which supplies the product to the valves.
In addition to requiring constant mixing to avoid the stratification of the solid parts due to the difference in density, the heterogeneous products have the problem that certain pieces tend to aggregate close to the outlet of the valves, thus compromising the correct filling strategy.
In order to ensure continuity to such an operation, a pressurization scheme needs to be applied to the product, which is incompatible with weight measurement systems but is typical of volumetric filling systems. This type of method is based on volumetric piston systems. These systems are physically incapable of ensuring actual filling constancy because as the physical variables of the product change, such as for example the temperature or the distribution of the suspended pieces at different densities, the dispensing at constant volume changes the weight quantity filled in the container and the resulting quantity of product actually packaged.
Considering that legislation considers the weight of the packaged product as the reference declaration on the label, volumetric systems require over-filling the container in order to avoid sanctions should underweight products be introduced in the market. Thereby, more product is given to the user than what is purchased, with resulting increases in production costs.
The problem addressed by the present invention is therefore that of providing a filling device which solves the inherent problems of the prior art devices, while allowing an accurate and efficient filling even in the case of products with high heterogeneity, i.e. comprising pieces of product having different size and consistency.
Such a problem is solved by a filling device as outlined in the appended claims, the definitions of which form an integral part of the present description.
Further features and advantages of the present invention will become more apparent from the description of certain embodiments thereof, given hereinbelow only by way of non-limiting, indicative example, with reference to the accompanying drawings
With reference to the figures, the filling device of the invention, indicated by numeral 1, comprises a hollow body 2 in which a shutter member 3 is movably fitted and acts in cooperation with a dispensing member 4, which is coaxial to said shutter member 3, to close or open a dispensing opening 5 for the product P to be dispensed into a container C.
The filling device 1 is inserted into a linear or rotary filling machine (not shown), in which a plurality of filling devices are operable in sequence. All filling devices 1 are operatively connected to a single motor, such as for example a synchronous motor or an asynchronous motor, by means of suitable motion transmission systems, or any filling device 1 may be operated by a dedicated motor thereof, for example a stepper motor or a brushless motor.
Container C is supported by a plate 8 operatively arranged on a loading cell 9 for weighing the empty and full container C.
The hollow body 2 comprises an upper portion 2a having a wall thickness greater than the lower portion 2b, so as to form a shoulder 17 facing downwards at the junction point between said upper portion 2a and said lower portion 2b. An inlet opening 6 for product P to be dispensed is located in the upper portion 2a of the hollow body 2. The inlet opening 6 is connected to a conduit 7 which in turn is connected to a collector or tank of product P (not shown).
The lower portion 2b ends at the bottom with a connecting portion 2c with which a ring nut 16 is coupled, preferably with a bayonet coupling. The ring nut 16 comprises an edge 16a projecting inwards, in which a sealing ring 15 is arranged. Thereby, a recess 19 having an axial extension H is created between the shoulder 17 of the hollow body 2 and the edge 16a of the ring nut 16.
The ring nut 16 is removable and may be replaced with a so-called “false bottle”, for example, which can be used when maintaining the device. In this case, a sanitizing fluid is indeed circulated inside the hollow body 2, thus obtaining a perfect cleaning of all the inner parts of the device which came in contact with product P.
The shutter member 3 is axially movable and comprises a hollow cylinder 18 with a median portion 18′ projecting outwards. The median portion 18′ preferably corresponds to a portion of the hollow cylinder 18 with greater wall thickness, so that the inner cavity of the hollow cylinder 18 is uniformly cylindrical.
The axial extension of the median portion 18′ of the shutter member 3 is smaller than the axial extension H of recess 19 and the outer diameter thereof is substantially equal to, or slightly smaller than, the inner diameter of recess 19. The median portion 18′ comprises a seat 20 for a gasket 21, for example two O-rings arranged in specific notches adjacent to each other, so as to sealingly isolate an upper annular chamber 22a (shown in
The hollow body 2 comprises an upper opening 23a and a lower opening 23b which open at recess 19, where the upper opening 23a is arranged at the height of the upper annular chamber 22a and the lower opening 23b is arranged at the height of the lower annular chamber 22b, so that when shutter 3 is in the raised position (
Both the upper opening 23a and the lower opening 23b are connected to an actuating fluid source, preferably compressed air, by means of suitable pipes 24, 24′. Thereby, the actuating member 3 may be moved between the raised position and the lowered position, thus introducing the actuating fluid alternatively into the lower annular chamber 22b or the upper annular chamber 22a.
The hollow cylinder 18 comprises, close to the upper end thereof, a further seat 25 for a sealing ring 26.
The hollow cylinder 18 ends inferiorly with a bottom 27 in which said dispensing opening 5 opens, edged by a coupling edge 27′.
The dispensing member 4 comprises a shaft 10 connected at the top to a pulley 11. Pulley 11 is connected to a motor 13 by means of a transmission system 12, such as a toothed belt, a chain or the like. As mentioned above, motor 13 may be a motor which operates all the filling devices 1 arranged on a filling machine or may be a dedicated motor thereof, exclusively dedicated to operating the filling device 1 to which it is connected. In the first case, the dispensing member 4 of all devices 1 is equipped with a brake/friction system for engaging or disengaging shaft 10 according to the predefined law of motion. The brake/friction system may be actuated by means of a suitable electric actuator or by means of a cam. The brake/friction system used is of the conventional type, for example it may be of the KEB COMBINORM-C type.
Shaft 10 comprises a screw portion 14 at the bottom, in particular a single-principle screw. The outer diameter of the screw portion 14 substantially corresponds to the inner diameter of the hollow cylinder 18 so that the screw “scrapes” the inner walls of the hollow cylinder 18.
Therefore, a cavity 30 is formed above the screw portion 14, which is always filled with product P, even when the valve is closed.
The lower end of shaft 10 ends with a push rod 28 having a chamfered profile so as to cooperate with the coupling edge 27′ of the dispensing opening 5 to close the valve. When the shutter member 3 is in the raised position, the coupling edge 27′ interferes with the push rod 28, thus closing the dispensing opening 5 of the filling device 1, while when the shutter member 3 is in the lowered position (
The filling device 1 comprises a command and control unit UCC operatively connected to the loading cell 9 and to the mechanisms for actuating the dispensing member 4 (dedicated motor 13 or brake/friction system) and for introducing the actuating fluid along the conduits 24, 24′ (control unit F diagrammatically depicted in
The law of motion for actuating the dispensing member 4 and opening/closing the dispensing opening 5 depends on the type of product, i.e. the density thereof, the presence of larger or smaller heterogeneous pieces, etc. In certain cases, the dispensing member 4 may be actuated or stopped simultaneously as the dispensing opening 5 is opened or closed, respectively. In other cases, the actuation or stopping of the dispensing member 4 may be brought forward or delayed with respect to the opening/closing of the dispensing opening 5. In certain cases, in particular if the density of product P is quite high, the closing of the dispensing opening 5 and/or the stopping of the dispensing member 4 may be brought forward with respect to the achievement of the predefined weight of container C, so as to take into account the electro-mechanical actuation delays and/or the time needed by the product P dispensed by the dispensing opening 5 to reach container C.
The determination of the correct law of motion will be performed by conveniently adjusting the filling device case by case.
The dispensing member 4 provided with screw 14 has the dual function of imparting the due dispensing pressure to product P and of providing for the continuous mixing thereof in order to make the mass of product being dispensed as homogeneous as possible.
The filling device according to the invention generates a net weight filling system with the aid of volumetric systems which allow to process heterogeneous products, with the guarantee of introducing packages onto the market with the same product quantities as the weight declared on the label. This generates significant savings, thus avoiding the over-filling of the container which is instead necessary with traditional volumetric systems.
It is apparent that only certain particular embodiments of the present invention have been described, to which those skilled in the art can make all those modifications required for the adaptation thereof to particular applications without however departing from the scope of protection of the present invention.
Number | Date | Country | Kind |
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102015000069398 | Nov 2015 | IT | national |
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3517688 | Scholle | Jun 1970 | A |
3533434 | Smith | Oct 1970 | A |
3949792 | Ramoneda Sibidi | Apr 1976 | A |
4185669 | Jevakohoff | Jan 1980 | A |
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4597694 | Legille | Jul 1986 | A |
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1268872 | May 1968 | DE |
2005003017 | Jan 2005 | WO |
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2013167223 | Nov 2013 | WO |
Entry |
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Italian Search Report dated Jun. 8, 2016 in corresponding Italian No. ITUB20154875. |
Italian Written Opinion dated Nov. 11, 2015 in corresponding Italian No. ITUB20154875. |
Number | Date | Country | |
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20170129629 A1 | May 2017 | US |