BE1017042A6 - PUMP MECHANISM METHOD WITH QUICK COUPLING. - Google Patents

Abstract

Method of supplying products of variable viscosity in defined dosed quantities with variable volumes in the form of a cylindrical spout with a pump mechanism fitted with a piston with a metal ring, a shut-off and return valve and provided with a quick-coupling pole to cylindrical spout with pump system to connect to a receptacle provided with an opposite pole to the quick coupling in order to be able to deliver the product from the receptacle.

Description

PUMP MECHANISM METHOD WITH QUICK COUPLING

The invention relates to a method for supplying products of variable viscosity in specific dosed quantities with variable volumes in the form of a cylindrical spout with a pump mechanism (1) provided with a shut-off / return system (2) and provided with a quick coupling pole ( 3) to connect the cylindrical spout (8) with pump system, with a container (4) provided with a counter-pole (5) of the quick-release coupling, so to make a flow-through connection in order to be able to remove the product from the container (4) to deliver.

The cylindrical spout with pump system and quick coupling is ideal for emptying packaging for such as water, water-based products, concentrates for hot drinks, concentrates for cold drinks, syrups for hot drinks, syrups for cold drinks, dairy products, desserts, dressings, food - and industrial oils, alcohol, beverages, alcoholic beverages, gels, creams, inks, pigments, dyes, paints, varnishes, adhesives, powders, pharmaceutical products and others.

The usual system consists of removing these products from the package via an already mounted pump system or a separately supplied pump system that is mounted on the container via a specific movement.

A disadvantage of this system is that with the pre-assembled pump system a problem arises during production and post-packaging and that with the separately supplied pump system the handling is rather complex and durable. And an additional disadvantage of the pre-assembled pump system is that the product runs from the container into the pre-assembled pump system, as a result of which air from the storage chamber of the pump system enters the container, causing contamination in the pump as well as in the container and an undesired air bubble arises in the container. This results in that most of the aforementioned products, of perishable organic substances, generally present great hygienic problems, and this in particular when air or other substances come into contact with the product in the container.

In order to obviate these drawbacks, in accordance with feature 1 of the invention, a cylindrical nozzle with pump system and quick coupling is realized which makes it possible to mount the cylindrical nozzle with pump system and quick coupling pole on the container in a simple manner, that is to say with the opposite pole of the quick coupling mounted on the container. The cylindrical spout with pump system and quick coupling is made recognizable by a code (9) (Fig. 8) which in turn can give a signal to the dispenser in which the container is placed. The cylindrical spout with pump system and quick coupling is equipped with a pump system that reduces the volume by axial movement of a piston (6) on a pump body, creating a suction force that opens a valve, whereby the product is sucked into the volume room. With an axial movement of the piston (6) on the pump body, this valve closes in the other direction, creating a pressure that opens another valve, whereby the product is delivered outside. When the piston is brought back to the starting position, both valves are closed again. The valves are of a resilient material to autonomously return to the original position and thus close. The pump body is also made of a resilient material to autonomously return to its original form. The piston is equipped with a metal ring (7) that is not made of a ceramic material and / or that is not coated with a corrosion-resistant coating and / or that is not made of stainless steel and / or that is not made of stainless steel provided with is of molybdenum and at least titanium or niobium. This ring is needed to allow the piston to move. The movement is achieved by building up a magnetic field on the one hand by one or more magnets. The magnetic field will on the one hand attract the piston and on the other hand repel the piston. This reciprocating movement is the result of a circuit with regard to the frequency of the magnetic field. This frequency can be obtained on the one hand by the mains frequency 50 - 60 Hz or on the other hand, as an example but without this being limited, by an electronic control. Where appropriate, such control is operated by a program such as that of a computer, known as a PLC or any controllable unit.

The axial reciprocation of the piston on the pump body as a function of the pump volume created by opening and closing the valves determines the dosage per movement. An exact dosage is obtained by setting the number of movements that the piston will make. The number of movements are a direct consequence of the time at which the frequencies activate the magnetic field. Another but less attractive way would be to make the magnet move back and forth through a sort of vibrating mechanism to make the piston move and get a dose.

The code and / or Chip on the cylindrical nozzle with pump system and quick coupling has the advantage, without limiting itself, that it is recognizable for different purposes such as the product itself, the shelf life of the product, the compatibility of the product with the application, compatibility with the device into which the cylindrical nozzle with pump system and quick coupling is inserted, recognisability during production and filling, transport, use, shelf life, recognisability, etc.

As an example, without this entailing any limitation, the following is a more detailed description of some possible embodiments of the cylindrical nozzle with pump system and quick coupling according to the claims.

This description refers to the accompanying drawings, in which:

FIG. 1 (a and b) represents a cylindrical spout with pump system and quick coupling pole in its simplest form;

FIG. 2 represents a cylindrical spout with pump system and quick-coupling pole and counter-pole;

FIG. 3 a cylindrical spout with pump system and quick coupling pole coupled to a container.

FIG. 4 a cylindrical spout with pump system and quick coupling pole coupled to a container in an apparatus (12).

FIG. 5 several cylindrical spouts with pump system and quick coupling pole coupled to a container (4).

FIG. 6 a cylindrical spout with pump system and quick coupling pole coupled to a container in an apparatus (12) with a code (9) and a decoding system (13).

FIG. 7 a cylindrical spouts with pump system and quick coupling pole coupled to a container in a device (12) with a chip (14) and a decoding system (13).

FIG. 8 a cylindrical spout with pump system and quick coupling pole provided with a code (9)

FIG. 9 a cylindrical spout with pump system and quick coupling pole with a chip.

The aforementioned cylindrical spouts with pump system and quick-release coupling are made of rigid material with the various components connected to each other by a click system (11), an accurate fit for friction, a bond, a weld, a certain pressure, a shrinkage, a screw or other.

In the embodiment shown in Fig. 5, a plurality of cylindrical spouts with pumping system and quick coupling can be mounted on a container. This has the advantage that a common recipient can provide multiple dosing, whether or not simultaneously. These dosages can, if programmed, deliver different specific quantities of volumes.

It goes without saying that the material used for the cylindrical nozzle with pump system and quick coupling can be of any suitable type, that the dimensions and shape can be different, that any suitable apparatus can be used and that the quick couplings and / or the connecting pieces and / or valves and code (s) and / or Chip can be of any suitable type and can be fitted at any suitable location.

Claims (2)

Conclusions 1. Method for supplying products of variable viscosity in specific dosed quantities with variable volumes in the form of a cinder-shaped nozzle with a pump mechanism provided with a piston with a metal ring, a shut-off and return valve and equipped with a quick-release valve. pole to connect the cylindrical spout with pump system to a container, provided with a reverse pole of the quick coupling, so to make a flow-through connection in order to be able to deliver the product from the container. 2. method according to claim 1, wherein the piston consists of two parts between which the metal ring is situated so as to obtain a separation in a separate chamber of the piston. 3. method according to claim 1, wherein a code is provided to recognize the product. A method according to claim 1 wherein a code is provided to be recognizable for the device into which the recipient is being introduced and to activate and / or control it. Method according to claims 1 and 3 and 4, wherein the code consists of a Chip (14) Fig. 9 with certain pre-programmed data relating to the product and or the device and / or the packaging and / or the container. 6. method according to claims 1 and 3 and 4 wherein the code consists of a Coding (9) Fig. 8 with regard to the characteristics of the product and / or the device and / or the packaging and / or the container 7. method according to claim 1 and 5 and 6 where the quick coupling consists of a Clean Click system with male (barside) and female (adapter side) connection provided on the one hand with the cylindrical spout with pump system and on the other hand with the container. The method of claim 1 wherein the shortcut consists of a Sentry Save Lock. The method of claim 1 wherein the bar side of the quick coupling is attached to the cylindrical spout with pump system and the adapter to the receptacle. The method of claim 1 wherein the bar side of the quick coupling is attached to the receptacle and the adapter to the cylindrical spout with pump system. A method according to claim 1, wherein the part of the quick coupling that is applied to the container consists of a closure cap which closes the container. 12. method as claimed in claims 1 and 3 and 4 and 5 and 6 and 7, wherein a plurality of cylindrical spouts with pumping system are coupled to a container 13. method as claimed in claim 1 and 3 and 4 and 5 and 6 and 7 with several containers in 1 device.