EP1575863B1

EP1575863B1 - Filling valve, in particular for hot liquids

Info

Publication number: EP1575863B1
Application number: EP03775795A
Authority: EP
Inventors: Luca Arbelti; Massimo Boselli
Original assignee: Procomac SpA
Current assignee: Procomac SpA
Priority date: 2002-12-23
Filing date: 2003-10-27
Publication date: 2007-12-19
Anticipated expiration: 2023-10-27
Also published as: BR0316727A; AU2003283814A1; DE60318248D1; ITPR20020080A1; ATE381512T1; CN1726161A; EP1575863A1; WO2004056693A1

Abstract

Filling valve (1), in particular for hot liquids, comprising a conduit (2) for the inflow of the liquid to a container and an outflow conduit (3) for ejecting air present inside the container during the filling operation and to allow a recirculation of product at the end of the filling operation. The filling valve (1) comprises mechanical means for managing recirculation of liquid at the end of the filling operation. Said means are movable between a stable open position and a stable position of total or partial closure of the inflow conduit (2). The means for managing recirculation comprise: a cam (6); a shaft (7) integrally connected to the cam (6); a shutter (8) integrally connected to the shaft (7) and intercepting the inflow conduit (2), means for actuating the cam (6), causing it to rotate by a predetermined angle between at least two stable positions corresponding to the opening and the closure of the inflow conduit (2).

Description

TECHNICAL FIELD AND BACKGROUND ART.

The present invention relates to a mechanical filling valve, in particular for hot liquids, of the type comprising at least a conduit for the inflow of the liquid into a container and at least an outflow conduit to eject the air present within the container during the filling operation and to allow to recirculate the product at the end of the filling operation.
It is well known that one of the major problems connected with filling containers with hot liquids, for instance tea or fruit juices, is represented by the need to maintain the filling valve at the proper temperature, in order not to cool the product, thereby assuring its optimal preservation during storage.
Currently, filling valves are kept at the proper temperature by making the hot product recirculate continuously.
This, however, is particularly inconvenient, since recirculation necessarily subj ects the product to numerous heating cycles which could compromise its organoleptic characteristics.
A first known prior art solution for maintaining the filling valves at the proper temperature, whilst reducing product recirculation, consists of introducing localised head losses on the outflow conduit.
This solution has the important drawback of "inflating" the container (obviously, in the case of containers made of deformable material, such as PET), because head losses, in addition to reducing recirculation, also prevent the escape of air during the filling operation. This entails undesired "splash out" of liquid at the end of the filling operation, due to the elastic return of the container.
A second prior art solution provides for the use of pneumatic devices for opening and closing the delivery conduit, with their operation synchronised with the duration of the filling operation.
However, the use of pneumatic devices, especially if associated to rotary machines, is particularly complex, due to the presence of flexible conduits connected to rotating mechanical parts. EP-A-0337913 discloses a filling valve as in the preamble of claim 1.

DISCLOSURE OF THE INVENTION

An object of the present invention is to eliminate the aforesaid drawbacks, making available a mechanical filling valve, in particular for hot liquids, which is able to handle product recirculation, according to productive requirements and to the type of product employed.
Another object of the present invention is to propose a mechanical filling valve which can be installed on different types of machines, in particular on rotary machines.
A further aim is to obtain the result expressed above, within the context of a simple, rational and reliable constructive solution.
Said objects are fully achieved by the filling valve, in particular for hot liquids, of the present invention, which is characterised by the contents of the claims set out below.

BEST MODE FOR CARRYING OUT THE INVENTION.

This and other characteristics shall become more readily apparent from the following description of a preferred embodiment illustrated, purely by way of non limiting example, in the accompanying drawing tables, in which:

Figure 1 shows a partially sectioned front view of a mechanical filler valve according to the invention;
Figure 2 shows a top A-A section view of the filling valve of Figure 1;
Figure 3 shows a side view of the filling valve of Figure 1;
Figures 4, 5 and 6 show a schematic view of the filling valve of Figure 1 in three different operative configurations, respectively in a second speed of the filling step and sanitising step, filling step, valve closure step with decompression and recirculation.

With reference to the figures, the mechanical filling valve is globally designated by the number 1 and finds particular and effective use on rotary filling machines, i.e. those in which the filling valves are positioned on a rotating star, or carrousel.
The filling valve 1 comprises at least a conduit 2 for the inflow of the filling liquid, for instance tea or fruit juices, to a container (not shown), and an outflow conduit 3 for ejecting the air present inside the container during the filling operation and to allow product recirculation at the end of the filling operation.
The inflow conduit 2 and the outflow conduit 3 are respectively connected to a delivery conduit 2a and to a return conduit 2b from/to a tank of the product.
The filling starts as soon as the container, typically a bottle, is approached to the valve 1 and thrusts a sliding coupling 4 upwards, uncovering a passage port 5 of the inflow conduit 2. The container is approached to the valve in a known manner, for instance by means of a plate (not shown) which lifts the container until it brings it in position for filling. Alternatively, the valve 1 can also be approached to the container, also in known fashion not shown herein.
At the end of the filling operation, the container is moved away from the valve 1 and the coupling 4 thus closes the passage port 5.
The filling valve 1 originally comprises mechanical means for managing the recirculation of liquid at the end of the filling operation. Said means are movable between at least a stable open position (Figure 4) and a stable position of total or partial closure (Figures 6 and 5) of the inflow conduit 2.
Recirculation takes place in two different manners, depending on whether the container is present or not. If the container is present, the liquid recirculates in the outflow conduit 3, since, upon exiting the passage port 5, it is deviated by the walls of the mouth of the container (which is thus completely filled). Vice versa, in the absence of the container, the liquid coming from the inflow conduit 2 is deviated into the outflow conduit 3 thanks to the presence of the coupling 4 which obstructs the passage port 5.
The mechanical means for managing the recirculation comprise a cam 6 whereto is integrally connected a shaft 7. At one end of the shaft 7 is in turn integrally connected a shutter 8, which intercepts the inflow conduit 3 and is immersed in the flow of liquid.
Also present are means for actuating the cam 6, making it rotate by a predetermined angle, between at least two stable positions corresponding to the opening (Figure 4) and to the closing (Figure 6) of the inflow conduit 2 by the shutter 8.
The means for managing recirculation further comprise a link rod 10 having a first end 10a inserted in a cavity 6a of the cam 6 and a second end 10b inserted in a cavity 6b of a support assembly 11 of the shaft 7. The cavities 6a and 6b are elastically pressed against each other, preferably by means of a helical spring 12.
The means for managing recirculation are also provided with at least an abutment element 13 able to maintain the cam 6 stably positioned in a predetermined operative position.
The cam 6, together with the abutment element 13, enable to obtain an actuation of the shutter 8 between stable operative configurations, corresponding to the opening and/or (total or partial) closure of the inflow conduit 2.
With particular reference to Figure 2, the abutment element 13 comprises a piston 14 inserted in a cavity 15 of the support assembly 11 of the shaft 7 and an elastic element, preferably a helical spring 16, operatively active on the piston, to maintain it pressed against the cam 6.
The means for managing liquid recirculation comprise a plurality of abutment elements (not shown) integral with a frame of a filling machine, which activate the rotation of the cam 6 by impact (consequently controlling the motion of the shutter 8). Specifically, it is the motion of the carrousel itself, whereon the filling valves are located, which causes the cam 6 to impact against the abutment elements.
The abutment elements will be positioned on the frame of the filling machine in such a way as to cause the opening and/or the (total or partial) closure of the shutter 8, according to the angular positioning of the carrousel.
With particular reference to Figures 4, 6 and 5, the shutter allows alternatively fully to open, shut or throttle the inflow conduit 2, thereby managing product recirculation. In this way, it is possible to choose how much product flow rate is to be recirculated, and possibly even to eliminate recirculation altogether, for instance in the case of maintenance operations or machine down time caused by sudden failures.
The invention achieves important advantages.
First of all, such a filling valve allows to manage recirculation according to the productivity and operating conditions of the installation. In particular, the ability to stop recirculation at any time facilitates maintenance operations and prevents the loss of liquid in case of sudden failures.
Another advantage is represented by the fact that such a filling valve, having no pneumatic device for actuating the shutter, can easily be installed on rotary machines.

Claims

Filling valve (1), for liquids in particular for hot liquids comprising:
at least a conduit (2) for the inflow of the liquid to a container;

at least an outflow conduit (3) for ejecting air present inside the container during the filling operation and to allow a recirculation of the liquid at the end of the filling operation;

mechanical means for managing recirculation of liquid at the end of the filling operation, said mechanical means comprising

a cam (6);

a shaft (7) rigidly connected to the cam (6);

at least a shutter (8) connected to the shaft (7) and intercepting the inflow conduit (2), said shutter (8), when in use, being in contact with liquid;

means for actuating the cam (6), causing it to rotate by a predetermined angle between at least a stable open position corresponding to the opening of the inflow conduit (2) and a stable position corresponding to the total or partial closure of the inflow conduit (2) by the shutter (8),

characterised in that the mechanical means further comprise:
an assembly supporting the shaft (7);

at least a link rod (10) having a first end (10a) inserted in a cavity (6a) of the cam (6) and a second end (10b) inserted in a cavity (6b) of said assembly supporting the shaft (7), said cam (6), second end (10b) and link rod (10) being elastically pressed against each other;

at least an abutment element (13) to maintain the cam (6) stably positioned in a predetermined operative configuration,

said cam (6) and said abutment element (13) allowing an actuation of the shutter (8) between stable operative configurations corresponding at least to the opening and to the closure of the outflow conduit (2).
Filling valve as claimed in claim 1, characterised in that the abutment element (13) comprises:
at least a piston (14) inserted in a cylindrical cavity (15) of the support assembly (11) of the shaft (7);

at least an elastic element (16) operatively active on the piston (14) to maintain it pressed against the cam (6).