WO2006117585A1 - Systeme de fourniture de produits dote de cavites cylindriques - Google Patents

Systeme de fourniture de produits dote de cavites cylindriques Download PDF

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Publication number
WO2006117585A1
WO2006117585A1 PCT/IB2005/001181 IB2005001181W WO2006117585A1 WO 2006117585 A1 WO2006117585 A1 WO 2006117585A1 IB 2005001181 W IB2005001181 W IB 2005001181W WO 2006117585 A1 WO2006117585 A1 WO 2006117585A1
Authority
WO
WIPO (PCT)
Prior art keywords
product
cylindrical cavity
sluice
movement
valves
Prior art date
Application number
PCT/IB2005/001181
Other languages
English (en)
Spanish (es)
Inventor
Rubén Ramos de la Fuente
Original Assignee
Ramos De La Fuente Ruben
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ramos De La Fuente Ruben filed Critical Ramos De La Fuente Ruben
Priority to MX2007013692A priority Critical patent/MX2007013692A/es
Priority to PCT/IB2005/001181 priority patent/WO2006117585A1/fr
Publication of WO2006117585A1 publication Critical patent/WO2006117585A1/fr

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Classifications

    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/0064Coin-freed apparatus for hiring articles; Coin-freed facilities or services for processing of food articles
    • G07F17/0071Food articles which need to be processed for dispensing in a cold condition, e.g. ice and ice cream
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F11/00Coin-freed apparatus for dispensing, or the like, discrete articles
    • G07F11/02Coin-freed apparatus for dispensing, or the like, discrete articles from non-movable magazines
    • G07F11/04Coin-freed apparatus for dispensing, or the like, discrete articles from non-movable magazines in which magazines the articles are stored one vertically above the other
    • G07F11/16Delivery means
    • G07F11/24Rotary or oscillatory members
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F13/00Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs
    • G07F13/08Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs in the form of a spray

Definitions

  • the present invention relates to a product delivery system, and more particularly to a product delivery system at room temperature, chilled or frozen, that supply products from one part of the system to another.
  • Some of these systems provide products in their natural state, at room temperature, such as fried foods, sweets, etc.
  • Other systems provide products that require refrigeration or freezing for food preservation, such as ice cream, ice lollies, packaged products, etc.
  • the latter also require the refrigeration system, a system that supplies products, because they are food at a temperature lower than the ambient temperature, generates energy losses, condensation and humidity when the product is expelled outside.
  • vending machines Various types of product dispensing machines, or vending machines, are known in the state of the art. These machines have mechanical and electromechanical means to supply the selected product.
  • the main purpose of the product dispensing machines or vending machines is to supply a product, previously packaged or in its natural state, from inside the machine, to the outside, where it is received by the user.
  • the main functions of the product vending machines are to contain a specific product, protect it from the outside and keep it in good condition, to be visible so that it can be selected, either visually or through a graphic element, and having a device that supplies it abroad, to be used by the consumer.
  • purse which can be electronic or mechanical, where coins are deposited to buy the selected product and that trigger the dispensing system; and those that are operated manually, without purse, previously paying for the chosen item, and being stocked by the establishment employee.
  • US patent application number US2002 / 0040915 A1 shows an example of a vending machine that supplies a product in its natural state, such as ice cream, and that does not have a purse system for payment.
  • This system supplies ice cream in a colloidal, or pasty, completely amorphous state, and requires the operation of a manager.
  • Patent number EP0755032 shows a packaged frozen product vending machine, which has already known freezing systems, as well as a product dispensing system. This system supplies product blocks of regular dimensions. These vending machines generally work with electric current, and have various mechanisms that supply the selected product, which is in an isolated chamber from the outside, with cooling or not, depositing it in an open tray or some other device that is accessible to the user.
  • This isolated chamber or product warehouse can contain only one type of product, or different products. It can be completely covered without showing the product to the consumer, or it can be displayed through a glass front, usually a door, where the product is stored.
  • vending machines for products include machines that have a glass front, which allows you to see the contents of the device, to make the visual selection of the product and its brand. These machines generally display and supply products of different sizes, brands and presentations. Other types of vending machines include those made with non-transparent fronts, and where the product is selected by means of a graphic or button with the brand or graphic of the product. These are generally used for drinks where what is sold is a single type of product, but with different presentations.
  • These dispensing machines may or may not have a refrigeration or freezing system for the preservation of the exposed foods, so that they are in optimal conditions when they are stocked.
  • the prior art cooling means consist of cooling by forced air, convection and transfer cooling.
  • the main problem of the assortment in vending machines is that when the product is expelled from the chamber with a freezing temperature, a door or mechanism is opened that ejects it towards an outer tray, where The buyer can take the product that is at room temperature.
  • Another problem is that the opening of the door allows access to the interior of the air freezer with a temperature higher than the interior, generating condensation, loss of temperature, and energy inefficiency due to higher electricity consumption to compensate for interior temperature losses.
  • current product assortment systems are based on packages or containers with a defined shape, for example cylinders or revolution solids. In the case of amorphous packaging, or flexible packaging products, such as frozen or sweet lollipops, there is no suitable dispenser that allows the product to be stored in an orderly manner and stocked in combination with a freezing or refrigeration system.
  • the present invention corresponds to a delivery system of refrigerated, frozen or at room temperature products, by means of cylindrical cavities, which supply the product from the inside to the outside, simultaneously releasing a product and holding the next.
  • the system allows the product to be supplied from the inside at refrigeration or freezing temperature, to the outside at room temperature, without loss of temperature or condensation.
  • the applications of the invention consist mainly of vending machines for various types of products, refrigerated and frozen products, which have a purse or not, and that have a defined shape or special exterior design to function as a point of sale, installed in certain places public, convenience stores and miscellaneous, exalting the brand and the form or product it contains for easy identification, and showing various options of flavors or presentations.
  • Still another application of the invention is to install it in existing refrigeration or freezing systems, furniture and showcases of products, and where the product to be supplied does not have a defined shape, such as frozen pallet packages, cones, frying bags, etc. .
  • Another application of the invention is in furniture, refrigerators or freezers for supermarkets and convenience stores, without purse, where the buyer can access the product by means of a button that activates the mechanism, to pay later in the exit box.
  • Another object of the present invention is to provide a frozen product dispensing system with a temperature insulating system, which supplies refrigerated or frozen product passing from a freezing or cooling temperature to room temperature, without loss of temperature or condensation.
  • Another object of the invention is to provide a combined system of rotary cylindrical cavities, which have a special arrangement of valves, operated manually or mechanically-electric, and which can also be installed in closed furniture, refrigerators or freezers.
  • Still another objective of the present invention is a dispensing system, which supplies the product chosen by the consumer to the outside, and operated by a manual, mechanical, electronic or electromechanical mechanism.
  • Another object of the invention is to provide a product dispensing system, which uses the same rotary cylindrical cavity to supply two different types or categories of products, arranged in vertical arrangement, and which are retained by the sluice.
  • Another object of the invention is to provide a product that also does not have a defined, cylindrical or rectangular shape, as in the case of carbonated beverages or packaging of various products, but allows products with flexible and amorphous packages, such as frozen pallet packages and others.
  • Another object of the invention is to provide a dispensing system with a reduced number of parts, which generates a notable commercial advantage.
  • a product dispensing system comprising a product dispensing mechanism with mechanical and electronic-mechanical means, with a system of sluices, valves and rotary cylindrical cavities.
  • a preferred way of carrying out the invention is to use industrial manufacturing materials in series, as well as to achieve the movement of supplying the product by means of electronic or mechanical elements, with a mechanical purse that allows the product to be supplied.
  • Another way of carrying out the invention is to achieve the action of assortment of the product by manual means, without purse.
  • Fig. 1 is a schematic view of the freezer apparatus, in accordance with the present invention.
  • Fig. 2 shows a view of the components of the system in isometric, with a cut to show the hidden parts.
  • Fig. 3 shows a detail of one of the side parts.
  • Fig. 4 shows a front isometric view of the container cylinder.
  • Fig. 5 shows a rear isometric view of the container cylinder.
  • Fig. 6 shows a view of the sluice.
  • Fig. 7 shows an explosive view of the sluice and the parts that compose it.
  • Fig. 8 shows an isometric detail view of the arrangement of the locks.
  • Fig. 9 shows a front view of the valves, with the parts that compose it, and the spaces that contain the product vertically.
  • Fig. 10 shows a front sectional view of the sluice mechanism, the exempted valves and the closing valves.
  • Fig. 11 shows a front sectional view of the sluice mechanism, the valves, the metal separators and the cylindrical container in the closed position, with two products in vertical arrangement.
  • Fig. 12 shows a view similar to the previous one, showing the beginning of the rotation of the cylindrical cavity and the moment in which the sluice is accommodated.
  • Fig. 13 shows a view similar to the previous one where the path of the rotation of the cylindrical cavity is shown and the cutting of the latter makes contact with the circular protrusion of the sluice.
  • Fig. 14 shows a view similar to the previous one, where the cutting of the cylindrical cavity pushes the sluice, causing it to protrude its upper tip, due to its semicircular shape, tightening the compression spring.
  • Fig. 15 shows a view similar to the previous one, where by the effect of the thrust of the cutting of the cylindrical cavity, the sluice performs a movement that imprisons the upper product, holding the lower product at the same time.
  • Fig. 16 shows a view similar to the previous one, where it can be seen that the lock imprisons the upper product, completely releasing the lower product, which slips and falls into the cylindrical cavity.
  • Fig. 17 shows a view similar to the previous one, where the container cylinder returns to its starting position, with a product inside, while holding the previous product with the sluice.
  • Fig. 18 shows a view similar to the previous one, and where the product of the cylindrical cavity is expelled towards the outside of the system, while holding the immediate previous product.
  • the product dispensing system of the present invention comprises a product storage device, a lock opening system for supplying it, and a valve device with cylindrical cavities that expel the product from the inside of the apparatus to the outside, in an orderly manner.
  • the product is removed from the interior of the product warehouse, actuated by a mechanism, with a system of valves that keep the interior of the apparatus always isolated from the outside, either at ambient temperatures, or in cold conditions inside.
  • the device comprises opening and closing stages of the locks by means of an electro-mechanical mechanism.
  • the union of unit operations mentioned results in a dispensing device, with utility in furniture and showcases, furniture designed ex-profeso, and refrigeration and freezer appliances, where the conservation of energy and temperature, and the assortment of a particular product in a simple and fast way , allows to have a product preserved and in good condition.
  • the apparatus of the present invention comprises a dispensing rack (1A) formed by assembled elements, which together form the product dispensing system.
  • This rack (1A) comprises means for the storage, selection and assortment of the products contained in the device.
  • the interior and exterior design of the device may vary in size and shape, to accommodate different capacities and type of product inside.
  • the dispensing rack (1A) that have the shape or interior design of the furniture or refrigerator can vary depending on the type of model, measures or product to be contained, being manufactured in a variety of different materials, such as metal sheets, plastic sheets, thermoplastic plastic formed, injected plastic, extruded plastic, broken molding and others. For industrial applications it is preferred to elaborate the model with metallic foil and thermoformed or injected parts.
  • the product dispensing system is formed by a series of dividers (2A), which can be manufactured in any material, preferably metal, and whose function is to order the product to be supplied vertically.
  • the separator (3A) has the function of acting as a separator of the locks (12A), and housing inside an axis that supports said locks.
  • (3A) also has the function of directing the product into the device, and can be manufactured in various materials, such as die-cut sheet, plastic, or others.
  • the minor gear (4A) is inserted on the gear shaft (6A), and its function is to provide the transmission power to the larger gear (5A). Both gears can be manufactured in various materials, such as plastics engineering or nylon.
  • the gear shaft (6A) can be attached directly to the shaft of an electric motor that provides traction, or it can simply be attached to a manual operation handle.
  • the larger gear (5A) is inserted directly into the axis of the cylindrical cavity (11A), so that when it rotates, it transmits the energy of rotation directly to the cylindrical container.
  • the valve (8A) is made of preferably extruded plastic or metal material, and its function, in addition to joining the covers (7A) to each other, by means of screws (10A), is to provide a circular contact area for the cavity cylindrical (11A).
  • the closing valve (9A) is also preferably made of plastic or extruded metal, and has a similar shape to the valve (8A), but ends straight on one of its sides.
  • the cylindrical cavity (11A) has the function of receiving the product, containing it and depositing it from one to the other side of the system.
  • the locks (12A) have the function of supporting and imprisoning the product to be supplied, and are made of preferably injected plastic. These locks (12A) are supported by a metal shaft (13A), which crosses from one side of the device to the other, inserting into the inner walls of the covers (7A). According to Fig. 3, the side covers (7A) have a series of serves inside which allows the other parts of the device to be accommodated.
  • the inner groove (1B) allows to receive the dividers (2A), being slightly wider than these, so that they can slide easily.
  • This slot (1A) has a stop (2B) that marks the maximum insertion limit of the dividers (2A).
  • the serve (3B) of the separator (3A) allows inserting the separator (3A), sliding it down, and has a separator stop (4B) that marks the maximum insertion.
  • the hole of the cover (5B) allows the metal shaft (13A) to be assembled inside it, which passes through the covers (7A) from one side of the device to the other.
  • Both caps (7A) are identical, so that the complete system is symmetrical.
  • the circular serve (6B) allows the cylindrical cavity (11A) to be housed inside, allowing its axis to pass through the hole for the cavity (7B).
  • This circular serve (6B) allows, as shown in Fig. 4, the cylinder cover of the cylindrical cavity (9C) to be flush, preventing the product from clogging at the time of assortment.
  • Fig. 4 shows the cylindrical cavity (11A).
  • Said piece has a cylindrical body (1C) that can be solid, or hollow, and which depending on the application will be filled with various materials, such as polyurethane foam, to act as an insulator, in case of cooling.
  • Said cavity has a shaft (2C), with a straight cut (7C).
  • the larger gear (5A) will be inserted on this axis.
  • the straight cut (7C) acts as a wedge, preventing the sweeping movement of the gear.
  • the larger gear (5A) has this same cut.
  • the cylindrical cavity has a container area (4C), where the product to be supplied will be housed. This area may change its shape and dimensions to accommodate different types of products. According to Fig. 5, the cylinder cover (9C) prevents the product from leaving the container area (4C), in addition to having the axes of the cylinder (2C and 3C).
  • the shaft (3C) is of smaller dimensions, since it does not support any additional parts and only serves as a guide for the cylindrical cavity.
  • the chamfer (6C) of the cylinder allows products to slide more easily into the container area (4C), preventing them from clogging.
  • the cylindrical body (1C) has a straight cut (5C), which gives traction to the locks, on both sides of the piece, symmetrically.
  • This cut has a cant (8C) that drives the lock (12A) in one of its parts.
  • the lock (12A) has a specific shape and is formed by assembled elements.
  • Fig. 7 shows the parts that make up the sluice (12A), which is mainly formed by a left body (2D) and a right body (1 D). Both bodies have an arched interior cut (7D) where a compression spring (9D) is inserted. Said inner cavity (7D) has a dimension slightly larger than the diameter of the metal shaft (13A) that supports the locks (12A), and which in turn has a protrusion or step (8D), which prevents the spring from coming out of the pieces once assembled, imprisoning them inside.
  • the left body (2D) has a pair of pins (3D) that are inserted into the holes (4D) of the right body (1 D), acting as assembly guides.
  • both bodies allow joining both parts with glue.
  • Both bodies have a shelf (5D), where the product to be rested rests, and which together create a larger contact surface.
  • the circular protuberance (10D) is the part of the part that is in constant contact with the cylindrical cavity (11A) and where the traction of the cylindrical cavity (11A) is transmitted to the sluice (12A).
  • the rib (11 D) of the sluice (12A) serves to structure the piece and give it greater rigidity.
  • the tip (12D) of the lock (12A) serves to imprison the immediate previous product.
  • Fig. 8 shows the separator (3A) of the locks (12A) on the assembled device.
  • This separator (3A) has a series of cuts (1 E) that serve to house the locks (12A) at a certain distance, thereby preventing them from moving from their position.
  • Said support has a plate (2E) where a hole (3E) is located, which serves to fasten the support to the side covers (7A), by means of a screw (10A) that joins both parts by another hole (4E) located on the surface of the covers, thereby preventing said support from moving from its position.
  • Said support has a triangular end (5E), which allows the products to be supplied to be directed to one side or another of the support.
  • Fig. 9 shows the arrangement of the parts in tandem, with four cylindrical cavities and their respective devices, and where the spaces between the separators (3A) and the dividers (2A) that create a space (ES) where it is housed are shown the product to be stocked (P 1 and P2).
  • the function of the space between dividers (2A) is that of storing the product to be stocked, be it drink, food, medicine or other.
  • the interior volume of said compartment may vary depending on the type, dimensions, shape and capabilities of the product to be displayed.
  • Fig. 9 allows to supply eight different types of product.
  • the number of cylindrical cavities and their devices They may be of a greater or lesser number, depending on the product and type of dispensing machine.
  • This compartment may comprise movable dividers to subdivide the interior space of the compartment, and thus store the interior product in an orderly manner.
  • These interior dividers can be made of various materials, from injected plastics, electro-painted wire rod and others.
  • Said product is arranged vertically, one on top of the other, in the order illustrated, and they rest on the shelf (5D) of the sluice (12A).
  • said arrangement shows the valves (8A), the cylindrical cavities (11A) and the closing valves (9A).
  • the minor gear (4A) at the time of rotation, transmits its energy to the larger gear (5A), which is fixed to the axis of the cylindrical cavity (2C), and therefore transmits the energy of turn.
  • This energy of rotation of the minor gear (4A) that makes the whole system move can be obtained by manual, mechanical, electromechanical or electronic means
  • the rotation movement may be clockwise or counterclockwise, depending on the type of product that is requested to be filled, either on one side or the other of the spaces (ES) for the product, and which may have different flavors or specifications of the same product presentation, or different products.
  • each valve (8A) has in its design a series of inlets (6F), which allow six seals (2F) to be housed by pressure, which are in direct contact with the cylindrical cavity (11A).
  • Said seals are made of flexible material, so that they are in direct contact and at all times with the cylindrical body (1C) of the cylindrical cavity (11A).
  • stamps (2F) may vary in shape and dimensions depending on the needs of the products to be supplied.
  • These seals (2F) are made of flexible material, injected or extruded, with high resistance to freezing without losing their plastic qualities.
  • the The interior of the valve (7F) may be filled with insulating materials, such as polyurethane foam or fiberglass, so that the assembly is completely isolated from the temperatures inside and outside the device, in case of cooling.
  • the refrigeration mechanism of the freezer or refrigerator apparatus that the system may optionally include, may consist of any gas compression refrigeration cycle known in the art, for example those that employ mixtures of halogenated hydrocarbon gases or ammonia.
  • Each valve has two protuberances (5F) that allow them to be attached, by means of screws (10A) to the side covers (7A).
  • the closing valve (9A) has only three seals (2F) in an arrangement and arrangement identical to that of the valves (8A), but only on the inside of the device.
  • the device for opening and closing the locks (12A) comprises mechanical and / or electromechanical elements for actuating them, and allowing the free passage of the products to the valve device.
  • This device is operated from the outside manually, either mechanically or electromechanically, either by turning a knob, or by pressing a button.
  • the valve device contains mechanical means that prevent heat transfer and the temperature decrease inside the refrigerator.
  • the function of the product dispensing system with cylindrical cavities comprises the following stages:
  • the space (ES) created between the dividers (2A), and the spacers (3A) allows to accommodate vertically arranged products inside. Although only two products are illustrated, the dividers as well as the device as a whole may have larger dimensions, so as to allow a greater number of products to be contained per vertical row.
  • This vertical row of products rests on the shelf (5D) of the lock (12A).
  • the circular protuberance (1OD) of the lock (12A) is in permanent contact with the surface of I to the cylindrical cavity (11A).
  • Said sluice (12A) rests on the metal shaft (13A), which crosses the entire length of the sluice through its arched interior cut (7D), inside which is the compression spring (9D).
  • This figure shows the cylindrical cavity (11A) in its closed position, with the container area (4C) of the open cylinder facing down.
  • the cylindrical cavity (11A) rotates in direct consequence to the rotational movement exerted by the major gear (5A) attached to the axis of the cylindrical cavity (2C).
  • the straight cut of the cylindrical cavity (5C) comes into contact with the circular protuberance (10D) of the sluice (12A), which performs a downward movement maintaining its contact at all times with the cylindrical body (1C) of the cavity.
  • Fig. 13 shows the moment in which the cant (8C) of the straight cut (5C) of the cylindrical cavity (11A) makes contact with the circular protuberance (10D) of the sluice (12A), pushing it and transmitting the rotary movement in linear movement
  • Fig. 14 shows the path taken by the sluice (12A), which when making a linear movement caused by the cylindrical cavity (11A), presses the sluice (12A) which, due to its arched design, transmits the movement in an ascending manner .
  • This movement causes the separator (3A) that is in a fixed position, to serve as a guide, since the arched interior cut (7D) of the sluice (12A) functions as a channel that moves along its entire length. .
  • Fig. 15 shows the moment when the lock is in simultaneous contact with the product (P1) of the lower part on the shelf (5D), and with the upper product (P2) with the tip of the lock (12D), due in part to the semicircular design and dimensions of the sluice (12A).
  • This shape and design may vary depending on the type, dimensions and shape of the product to be supplied, but maintaining the arched shape of the device.
  • the surface of the cylindrical cavity (11A) is in contact with the seals (2F) creating two closed chambers per side (1 F) where the air and humidity of the outside environment is trapped.
  • Fig. 16 shows the moment in which, due to the effect of the path taken by the lock (12A), the upper product (P2) is trapped by the divider (2A) and the tip of the lock (12D), which protrudes in its maximum of the separator (3A), while releasing the lower product (P1), which slides downwardly into the container area (4C) of the cylindrical cavity.
  • the shelf (5D) of the lock (12A) is fully inserted into the metal separator (3A), allowing the free passage of the lower product (P1).
  • the cylindrical cavity (11A) has returned to its closed position, expelling the product and filling it to the outside, passing it from one side of the device to another.
  • the combination of the aforementioned operations results in the simultaneous rotation of the locks (12A), which allow the product to pass to the valve device, falling inside the cylindrical cavity (11 A) •
  • the assortment of products is made repeatedly every time a product is selected.
  • the dispensing rack (1A) In the event that the dispensing rack (1A) is within a closed refrigeration or freezing system, the system will allow products to be supplied from inside the refrigeration system, at freezing temperatures, to the outside of the system, at room temperature .
  • the apparatus illustrated in the figures shows a product dispensing system, which stores, preserves, protects and exports products at room temperature, cold or frozen.
  • This system can go inside a refrigerator or freezer, and has application in department stores, supermarkets, convenience stores and miscellaneous stores, also being used as a means of promotion and point of sale (POP) to properly display various products, highlighting the values of the brand.
  • POP point of sale
  • cylindrical cavity (11A) and the locks (12A), as well as the selection of the product can change.
  • the cylindrical cavity system with a system of locks operated by them, allows a product to pass from one side of the system to the other, supplying it to the outside, it is the combination that makes the system unique.
  • the system can be placed inside an airtight structure, as in the case of the interior of a refrigerator or freezer, providing a product from a cold or frozen chamber to another at room temperature, without causing loss of temperature and condensation, filling Simultaneously, the product allows the system to have multiple industrial and commercial applications, to supply products such as ice cream, medicines, beverages and others, which require conservation by means of the cold.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)

Abstract

L'invention concerne un système de fourniture de produit à température ambiante, congelé ou réfrigéré, doté de cavités cylindriques et d'obturateurs dotés d'organes d'étanchéité, avec un système d'ouverture/fermeture de sas pour la fourniture d'un produit, caractérisé en ce qu'il comprend: (1) un système de fourniture de produit constitué de a) une zone destinée à loger un produit, b) un dispositif de sas et c) un dispositif d'obturateurs à cavité cylindrique; et (2) des moyens destinés à transmettre le mouvement en sens rotatif du mécanisme, disposés de manière fixe dans le système de fourniture, lequel actionne les éléments du dispositif et commande les fonctions de rotation de la cavité cylindrique, ouverture et fermeture des sas et également simultanément la fourniture du produit vers l'extérieur.
PCT/IB2005/001181 2005-05-02 2005-05-02 Systeme de fourniture de produits dote de cavites cylindriques WO2006117585A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
MX2007013692A MX2007013692A (es) 2005-05-02 2005-05-02 Sistema surtidor de productos con cavidades cilindricas.
PCT/IB2005/001181 WO2006117585A1 (fr) 2005-05-02 2005-05-02 Systeme de fourniture de produits dote de cavites cylindriques

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/IB2005/001181 WO2006117585A1 (fr) 2005-05-02 2005-05-02 Systeme de fourniture de produits dote de cavites cylindriques

Publications (1)

Publication Number Publication Date
WO2006117585A1 true WO2006117585A1 (fr) 2006-11-09

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1126423A1 (fr) * 1999-08-27 2001-08-22 Sanyo Electric Co., Ltd. Dispositif de distribution pour distributeur automatique
EP1134709A1 (fr) * 2000-03-13 2001-09-19 Vicente Miro Bravo Dispositif d'isolation améliorée pour distributeurs de glaces et d'aliments congelés
US6321936B1 (en) * 1998-12-02 2001-11-27 Vendo Italy S.P.A. Device for releasing stacked products in a vending machine

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6321936B1 (en) * 1998-12-02 2001-11-27 Vendo Italy S.P.A. Device for releasing stacked products in a vending machine
EP1126423A1 (fr) * 1999-08-27 2001-08-22 Sanyo Electric Co., Ltd. Dispositif de distribution pour distributeur automatique
EP1134709A1 (fr) * 2000-03-13 2001-09-19 Vicente Miro Bravo Dispositif d'isolation améliorée pour distributeurs de glaces et d'aliments congelés

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