FR2607794A1 - Filling spout, particularly for a weight-metering machine - Google Patents

Abstract

The filling spout according to the invention includes a feed hopper 1 having a dispensing orifice 6 which can be closed off by a flap 7 carried by a flap rod 8 extending inside the feed hopper and manoeuvred by control means 11 arranged outside the feed hopper; it is characterised in that it includes a helical thrust member 14 extending coaxially with the flap rod 8 and means 21 for driving the thrust member in rotation.

Description

 The present invention relates to a filling spout, in particular for a weight metering machine.

 It is known that packaging machines with weight dosing are used more and more in particular for the packaging of products of variable density or of heterogeneous products for which the volumetric dosing does not give sufficient precision and therefore involves an excess dosage which is detrimental to the cost price of the packaged product.

 Existing filling spouts for weight metering machines generally comprise a feed hopper having a dispensing orifice closable by a valve carried by a valve stem extending inside the feed hopper and operated by control means arranged outside the feed hopper. The flow of the product is done in this case by gravity and the application of these filling spouts is therefore limited to products having sufficient fluidity to have a good flow by gravity. For products whose flow by gravity is poorly controlled, use is made of complex devices including, for example, a volumetric transfer means. Irrespective of the fact that the volumetric transfer means are generally of complex structure therefore expensive, these means include precision parts in contact with the product and seals, which is contrary to rapid and efficient industrial cleaning which is necessary for the packaging of food products.

 An object of the present invention is to provide a filling spout which can in particular be used in a weight metering machine for packaging viscous or heterogeneous products.

 In order to achieve this goal, there is provided according to the invention a filling spout comprising a feed hopper having a dispensing orifice closable by a valve carried by a valve stem extending inside the hopper supply and operated by control means arranged outside the feed hopper, this spout further comprising a helical thrust member extending coaxially to the valve stem and means for driving in rotation of The pushing member.

 Thus, it ensures a positive drive of the product during the rotation of the helical thrust member and it is therefore possible to use the filling spout for viscous or heterogeneous products while benefiting from the operating precision and the simplicity of The structure of the closing valve.

 According to an advantageous version of the invention, the pushing member has an internal edge spaced from the valve stem. This avoids the formation of nooks and, during cleaning, the cleaning product flows easily around all the parts of the filling spout and entails all the waste likely to cause pollution.

 According to a preferred aspect of the invention, the valve stem and the valve have a circular cross section, the valve stem has a diameter less than the diameter of the valve and the pushing member has an internal edge having a substantially equal diameter but slightly larger than the diameter of the valve. Thus, at the part of the pushing member which is opposite the valve stem, the product can flow between the internal edge of the pushing member and the valve stem, so that it is stirred while being driven at low speed while at the level of the valve the product is driven more positively towards the dispensing orifice.

 According to another preferred aspect of the invention, the hopper comprises, in the vicinity of the dispensing orifice, a cylindrical part of circular cross section and at least opposite this cylindrical part. The pushing member has a cylindrical external contour of diameter substantially equal to the internal diameter of the cylindrical part of the hopper. Thus, the product is driven by the pushing member between an internal sheath formed by the valve body and an external sheath formed by the hopper, so that the distribution of the product is very regular.

According to further preferred aspects of the invention,
the dispensing orifice is produced in a removable end piece and the valve stem comprises a tubular part removably mounted on a control rod. Thus, during cleaning The removable nozzle is removed to allow a flow of the cleaning product without it being necessary to maintain the valve in the open position and, when the nozzle is removed, the valve stem can in turn be easily disassembled and interchanged with another valve stem.

 Other characteristics and advantages of the invention will appear on reading the following description in conjunction with the attached single figure which represents an elevation view, partially in axial section, of the filling spout according to the invention .

 Referring to the figure, the filling spout according to the invention comprises a feed hopper generally designated at 1 having a flared upper part 2 and a cylindrical lower part 3 with a circular cross section. At its lower part, the hopper comprises a nozzle 4 connected to the cylindrical lower part 3 by a flange 5 and comprising a closable dispensing orifice 6.

 In line with the dispensing orifice 6, the filling spout comprises a cylindrical valve 7 carried by a tubular valve rod 8 itself connected to a control rod 9 by means of a pin 10. The rod control 9 is connected to control means 11 carried by a plate 12 fixed to the filling installation, for example at the rotating part of a filling carousel. In a manner known per se, the valve 7 has at its lower end a cavity 13 preventing the formation of a drop when the valve is closed. The valve 7 and the valve stem 8 have a circular cross section and the valve stem 8 has a diameter less than the diameter of the valve 7.

 A cylindrical helix-shaped thrust member 14, for example made from a flat stainless steel bar, extends coaxially to the valve stem 8 and at its upper end connected to a plate 15 fixed to the part bottom of a tubular sleeve 16 mounted on bearings 17 kept spaced apart by a spacer 18 and supported by a tubular sleeve 19 fixed to the plate 12.

The plate 15 has a central opening 20 allowing the passage of the control rod 9. The sleeve 16 has on its outer periphery a ring gear 21 connected to drive means not shown, for example, in the case of a carousel The drive means can be formed by a central pinion mounted on the fixed part of the carousel so that the relative rotational movement of the plate 12 associated with the mobile part of the carousel relative to the central pinion causes a rotational movement. of the ring gear 21 and therefore of the thrust member 14 which is associated with it.

 The helical pushing member 14 has an outer edge 22 of a diameter substantially equal to, but slightly less than, the internal diameter of the cylindrical lower part 3 of the hopper 1. The helical pushing member 14 has an internal edge 23 having a diameter substantially equal to but slightly greater than the diameter of the valve 7.

Due to the difference in diameter between the valve 7 and the valve stem 8 the internal edge 23 of the helical thrust member 14 is therefore spaced from the valve stem 8.

At its lower part, the organ. thrust 14 is interrupted substantially at the level of the lower edge of the cylindrical part 3 of the hopper and does not enter the end piece 4.

When the valve 7 is closed as illustrated in solid lines in the figure, the material which is driven downwards by the thrust member 14, when the latter is driven in rotation, can rise on the one hand due to the play existing between the outer edge 22 of the propeller and the inner wall of the cylindrical part 3 of the hopper but above all due to the space existing between the inner edge 23 of
The propeller 14 and the external surface of the valve stem 8.

The material contained in the hopper is therefore simply stirred and, in the case of a heterogeneous material such as, for example, rillettes, the distribution of solid particles within the viscous mass is maintained substantially homogeneous.

It is also possible to stop the rotation of the screw when the valve is closed.

 When the valve 7 is open under the action of the control means 11, this valve 7 takes the position shown in phantom in the figure, that is to say that on the last turn of the thrust member 14 the material is channeled between an internal sleeve formed by the external surface of the valve 7 and an external sleeve formed by the internal wall of the cylindrical part 3 of the hopper. The material is therefore positively driven towards the dispensing orifice 6 and a rapid and efficient filling of the containers is therefore obtained.

 At the part of the helical pushing member 14 opposite the waltzed part 2 of the hopper, the pushing member continues to essentially stir the material while driving it down.

 When cleaning the filling spout, the nozzle 4 is preferably removed and the cleaning product is introduced into the hopper from above. The cleaning product then flows very easily, entraining the waste stuck to the walls of the hopper or to the helical thrust member without it being necessary to control the opening of the valve 7. In addition, when the nozzle 4 is disassembled, it is noted that the valve 7 and the valve stem 8 which is associated with it can easily be disassembled and extracted by the bottom by removing the pin 10. This easy disassembly allows in particular to provide for the use of valve rods Various having a diameter appropriate to the size of the space which it is desired to have between the valve stem and the internal edge of the thrust member 14 according to the products to be packaged.

 Of course, the invention is not limited to the embodiment described and it is possible to make variant embodiments without departing from the scope of the invention. For example, the helical thrust member may have a shape which widens inside the flared part of the hopper; it can be made from a profile having any cross section, for example square or circular.

The thrust member 14 can also be fixed along its internal edge to the valve stem 8, this valve stem 8 then being provided with grooves in order to allow a drive in rotation by a pinion while allowing an axial movement of the valve stem When opening or closing the valve. In this case, if the screw is not stopped when the valve is closed, the product is simply rotated by the screw. If one wishes to have a very precise channeling of the product while keeping a drive structure similar to that shown in the figure, it is also possible to fix the internal edge of the helical thrust member to a tube surrounding the valve stem and the valve but not attached to them.

 It will also be noted that in the case of a weight dosage, the flow rate of the pheasant filling spout can be varied. The speed of rotation of the helical thrust member is varied. This can be useful to ensure a fast start of filling and a slower and therefore more precise end of filling.

 Although the invention has been described more particularly in connection with an application for weight dosing, the filling spout can also be used in other applications. In particular, the regularity of the flow obtained allows this nozzle to be used for timed dosing.

 The filling spout according to the invention is particularly suitable for aseptic packaging of food products.

Claims (6)

 1. Filling spout comprising a feed hopper (1) having a dispensing orifice (6) closable by a valve (7) carried by a valve stem (8) extending inside the hopper feed and maneuvered by control means (11) arranged outside the feed hopper, characterized in that it comprises a helical thrust member (14) extending coaxially with the valve stem ( 8) and means for driving in rotation (21) the thrust member.  2. Filling spout according to claim 1 characterized in that the thrust member (14) has an internal edge (23) spaced from the valve stem (8).  3. filling spout according to claim 2 characterized in that the valve stem (8) and the valve (7) have a circular cross section, in that the valve stem (8) has a diameter less than the diameter of the valve (7) and e1 that the pushing member (14) has an internal edge (23) having a diameter substantially equal to but slightly greater than the diameter of the valve (7).  4. Filling spout according to one of claims 1 to 3 characterized in that in the vicinity of the dispensing orifice (6) the hopper comprises a cylindrical part (3) of circular cross section and in that at least opposite this cylindrical part The pushing member (14) has a cylindrical external contour (22) of a diameter substantially equal to the internal diameter of the cylindrical part (3) of the hopper.  5. Filling spout according to one of claims 1 to 4 characterized in that the dispensing orifice (6) is produced in a removable end piece (4).  6. Filling spout according to one of claims 2 to 5 characterized in that the valve stem (8) comprises a tubular part removably mounted on a control rod (9).