RU2489346C2 - Valve device for fluid storage and discharge - Google Patents

Abstract

FIELD: transport, distribution.

SUBSTANCE: invention relates to carbonated beverage dispensers. Proposed container comprises dispensing tube and cover secured at neck composed of a cap with bore at its end. Valve device consists of connected cylindrical first and second parts and annular valve. First part serves to retain valve device components while second part retains the container and seals it. Said first part has bottom and tubular element for dispensing tube. Besides its has barrel for attachment in tubular element with flanging at bottom location and fluid passage openings at the surface for guiding the spring thrusting against the first part bottom. Cutouts are made on second part inner surface. First part bottom has openings for feeding carbonic acid and discharge therefrom. Valve is arranged between second part inner surface and barrel surface and has side surfaces. First surface has extending mid section and thrust parts to interact with flanging of second part inner surface and barrel. Valve second surface has stiffness ribs and annular chamber to receive the spring and to press valve thrust surfaces against said second part inner surface flanging and barrel. Valve is made from elastoplastic with Shore hardness of 69-75 by injection moulding. Valve outer and inner surfaces interacting with second part inner surface and barrel cylindrical surface are tapered while cap is fitted flush with second part to thrust against the ledge made at second part outer surface.

EFFECT: better storage and dispensing, simplified fabrication.

4 cl, 1 dwg

Description

The invention is intended for storage in a container and dispensing drinks, mainly carbonated drinks, from this container equipped with a valve device mounted on the neck of the container, providing a tight and reliable connection of the container to the dispenser tap of the filling machine and passing carbon dioxide through it into the container under pressure and liquid, as well as air squeezed out of the tank. From the point of view of costs and reliability of the beverage containers, which use the internal pressure of the contents in the container, they are mainly made of polyethylene terephthalate (PET).

The well-known technology of filling a container with liquid, as well as pumping liquid from it, provides for overflowing at constant pressure by using compressed carbon dioxide and avoids foaming of the overflowing liquid, which is especially characteristic of beer, which is important for the full use of the volume of the container and the exclusion of air in the filled container whose oxygen oxidizes beer, wine and other drinks and reduces their quality.

When using this technology, stringent requirements are imposed on the valve device and its connection with the container, as well as their mutual fixation, to ensure high tightness in the closed position during transportation or storage without using other additional closures, to ensure high tightness of the connection between the container and the dispenser when connecting to the dispenser tap, ensuring reliable operation under the action of pulsed and constant increased pressures in a wide range of ambient temperatures narrowing atmosphere, resistance to the action of alcohols, esters, salts and oils and the exclusion of products of their chemical interaction from entering the liquid contained in the container.

Known valve device containers for storing and dispensing liquid, mainly carbonated drinks, located inside the neck of the container, the container is made with a dispensing tube extending from the valve device into the container, and the valve device consists of mechanically interconnected cylindrical first and second parts and valve, the first part serves to hold the components of the valve device, the second - to hold in the neck by means of a seal (see RF patent 2391287, 05.27.2009).

The disadvantages of this device are the lack of resistance of the valve to the action of alcohols, esters, salts and oils, which creates the risk of chemical reaction products entering the liquid contained in the tank, and also limits the possibility of using containers equipped with a valve device for transporting and long-term storage of liquids such as beer, wine, fruit and vegetable juices.

The objective of the invention is to provide a valve device containers for storing and dispensing liquids with high resistance to ethers and alcohols, which is used during transportation and long-term storage of wine, beer, fruit and vegetable juices.

The technical result of the invention is to improve the storage and delivery of liquids due to the high reliability of locking the container when using the valve device by increasing the sealing, due to the tight fit of the valve to the parts of the device forming the valve seat, and improving valve sliding, as well as increasing the service life of the device while simplifying the manufacture of its parts.

This result is achieved by the fact that the valve device of the container for storing and dispensing liquid, mainly carbonated drinks, in the neck of which this device is located, and the container contains a dispensing tube and a cover fixed to the neck in the form of a cap with an opening in its end, the valve device consists of of interconnected cylindrical first and second parts and an annular valve made with the possibility of forced movement, the first part serves to hold the valve components of the present construction, the second for holding the neck and sealing the container by means of a seal, the first part is made with a bottom, in the center of which a tubular element is installed for passing through it into the capacity of the dispensing tube, equipped with a glass worn on it, intended for fastening it in the tubular element and having a flare at the location of the bottom, and windows for the passage of fluid on a cylindrical surface serving as a guide for the spring, abutting the bottom of the first part, while on the inner surface the second part has slots, and in the bottom of the first part there are openings for supplying carbon dioxide to the tank and the carbon dioxide or air exit from it, the valve located between the inner surface of the second part and the cylindrical surface of the glass has a first, second, opposite first, outer and inner side surfaces, the first surface is made with a protruding middle part and with supporting parts for interacting with flanges made on the inner surface of the second part and the cup, on the second surface to the valve is made with stiffeners and an annular cavity under the spring, which presses the supporting parts of the valve to the flanges of the inner surface of the second part and the glass, the valve being made of elastoplast with a hardness of 69-75 according to Shore injection molding, the outer and inner side surfaces of the valve interacting respectively with the inner surface of the second part and the cylindrical surface of the glass are conical, and the lid is flush with the second part, resting the edge of the hole on a protrusion made on and the outer surface of the second part.

In the valve device, the connection of the cylindrical first and second parts and the fastening of the glass in the tubular element are made in the form of a latch protrusion-cavity or by means of a thread, and the valve has from 24 to 48 ribs.

The elements of the valve device, with the exception of the spring, are made of plastic and, like the valve, are injection molded.

The valve device mounted on the tank 1 with the neck is located inside the neck, and the dispensing tube 2 of the tank 1 extends through the valve device into the tank 1. The valve device consists of plastic (Acrylonitrile Butadiene Styrene - ABS (ABS) plastic, mechanically interconnected polyethylene, polyacetal, polypropylene, etc.) cylindrical of the first 3, inserted into the second 4 parts. In this case, the bent edge 5 of the first 3 parts is made with cuts in the form of sections (not shown in the drawing), inserted due to elasticity into the windows in the second 4 parts. On the inner surface of the second part 4, slots 6 are formed, which serve to supply carbon dioxide from the dispenser (not shown) to the tank 1, as well as to exit from the tank 1 of carbon dioxide or air in an empty tank 1. The first 3 part serves to retaining the components of the valve structure with the valve 7, and the second 4 - to hold in the neck and seal the container by means of a sealing collar 8. To prevent the collar 8 from falling out when mounting on the outer surface of the second 4 parts, protrusions 9 and 10 are made, projection 10 is formed near its free end. The valve device is closed by a plastic cap 11 that is snapped onto the neck in the form of a cap with an opening in the end opening access to the valve 7.

The edge of the hole rests on the protrusion 10, made on the outer surface of the second 4 parts and is installed (respectively, the entire cover 11) flush with the second 4 part. The cover 11 (made of glass-filled polyamide, acrylonitrile butadiene styrene - ABS (ABS) plastic, etc.) is fixed on the neck by inserting it into an annular recess 12 (depression) formed between two protrusions on the outer rim of the neck, tabs-latches made in sections on the inner cylindrical part of the cover 11, located under rectangular windows on the same part of the cover 11, providing the possibility of elastic deformation of the cylindrical part of the cover without breaking it. The first 3 part is made with a bottom 13, in the center of which there is a tubular element 14 for passing through the dispensing tube 2 with a glass 15 put on it, the cylindrical surface of which is a guide for the coil spring 16, which abuts the bottom 13 of the first 3 parts. At the same time, holes are made in the bottom 13 (not shown in the drawing) for passing carbon dioxide from the dispenser into the tank 1, and also for leaving carbon dioxide or air from the tank 1 in the empty tank 1. The tubular element 14 is made in one piece with the first Part 3 and its free end ends with a protrusion inserted into the annular recess of the plastic cup 15 (acrylonitrile butadiene styrene - ABS (ABS) plastic, polyacetal, polypropylene, etc.) (latch type connection). The glass 15 has a bottom 17 with flanging and windows 18 on a cylindrical surface, designed for the passage of fluid. An annular valve 7 is located between the inner surface of the second 4 parts and the cylindrical surface of the glass 15, on the first (upper with a vertical arrangement of the container) surface, the valve has a protruding middle part and support parts for interacting with flanges, respectively, of the inner surface of the second 4 part and the bottom 17 of the glass 15. On the opposite side of the (lower) valve 7, stiffening ribs 19 and an annular cavity under the spring 16 are made, pressing the valve supporting parts against the flanges of the inner surface for a second 4 hours the parts and the bottom of the glass 15. The valve 7 is made in the form of a single homogeneous monolithic part of elastomer with a hardness of 69-75 according to shore by injection molding. The outer and inner side surfaces of the valve 7, interacting respectively with the inner surface of the second 4 parts and the outer cylindrical surface of the glass 15 are made conical. In this case, the angle of inclination of the cone is 45 ° ± 2 °, which provides improved sliding on the inner surface of the second 4 parts and the cylindrical surface of the glass 15 and high quality sealing.

The design of the valve device provides for the possibility of installing on the cylindrical surface of the cup 15 between the spring 16 and the second surface of the valve 7 an additional rigid washer (not shown), tightly pressed to this surface of the valve 7, freely sliding along the cylindrical surface of the cup 15 along the inner cylindrical surface of the second 4 parts and providing an increase in the stiffness of the pressing of the valve 7 by the spring 16 and a decrease in the deformation of the valve 7 when used to fill the tank or dispense and from it drinks of non-standard dispensers and taps having a reduced wall thickness of the inner pipe of the tubular device (not shown in the figure).

The device operates as follows.

The device is pressed into the neck of the container 1, sealing it by means of a sealing sleeve 8, worn on the outer surface of the second 4 parts, and located with a gap relative to the protrusions 9, 10, protruding beyond their edges. The device is fixed on the neck of the container 1 by means of the lid 11, leading into the annular recess 12 formed between two protrusions on the outer rim of the neck, the protrusions made in the form of sections on the inner cylindrical part of the cover 11. To fill with liquid, the container 1 is placed on a filling machine, introducing the captures of the machine under the power ring of the tank 1. On the cover 11 set the filler head and firmly press the device to it (not shown). Filling the vessel with liquid is carried out in the following order. The inner tube of the tubular fixture of the filling head of the dispenser, which is a coaxial design of two pipes (not shown in the drawing), is pressed on the middle part of the valve 7 and at the same time the outer pipe of this fixture with an elastic seal is pressed against the flanging of the second 4 parts and the flat surface of the cover 11. Under the action of the inner pipe displaces valve 7. When the valve 7 is displaced and shifted beyond the window 18, a passage for fluid from the dispenser, which is supplied under pressure through the inner pipe, opens device, through the windows 18 in the glass 15 into the container 1 through the tube 2. The incoming liquid squeezes out the carbon dioxide in the container 1, which passes through the holes in the bottom 13 of the first 3 parts and slots 6 in the second 4 parts and exits through the annular space between the flange the second 4 parts and the outer surface of the inner tube of the tubular fixture and then the gap between the inner and outer tubes of the tubular fixture of the filling head enters the reservoir of carbon dioxide or is released into the atmosphere yer. After filling the tank 1 with liquid, the casting head is diverted and the valve 7 under the action of the spring 16, returning to its original position, closes the tank 1.

The distribution of fluid from the tank 1 is as follows. The inner pipe of the tubular fixture of a crane having a design similar to the construction of the tubular fixture of the filling head is pressed on the middle part of the valve 7, while the valve 7 is displaced and shifted out of the window 18. At the same time, the elastic seal of the outer pipe is pressed to flare the second 4 parts and the flat surface of the cover 11 and supply carbon dioxide through the gap between the outer and inner tubes of the tubular device into the cavity of the valve device through the opening annular space m waiting a second flanged portion 4 and the outer surface of the inner tube of the tubular device, the slits 6 of the second part 4 and openings 13 in the bottom 3 of the first part. Gas presses on the liquid and displaces it from the tank 1 through the dispensing tube 2 and the window 18 into the inner tube of the tubular device and then into the used containers.

The conical shape of the outer and inner surfaces of the valve 7 provides a tight contact of the sharp edges of these valve surfaces to the inner surface of the second 4 parts and the outer surface of the cup 15, providing reliable sealing of the annular space between the flanges of the second 4 part and the bottom 17 of the cup 15. The valve 7 itself has a small thickness about 8-9 mm, for example, even for containers such as kegs, and the height of the ribs 19 is about 0.9 thickness of the valve 7, and their number is from 24 to 48, which simplifies its manufacture, also reduces the consumption of materials and manufacturing costs. All elements of the valve device (with the exception of the spring) are made of plastic (ABS plastic, polyacetal, polypropylene, glass-filled polyamide, elastomer, etc.) and, like valve 7, are injection-molded, which also simplifies manufacture and reduces costs manufacture, an additional rigid washer is made by cutting from a sheet of stainless steel or plastic - in a technological and low-cost way.

Claims (4)

1. The valve device of the container for storing and dispensing liquid, mainly carbonated drinks, in which the device is located in the neck of the container, and the container contains an issued tube and a lid mounted on the neck in the form of a cap with an opening in its end, the valve device consisting of interconnected a cylindrical first and second parts and an annular valve made with the possibility of forced movement, the first part serves to hold the components of the valve device, the second for ud neighing in the neck and sealing the container by means of a seal, the first part is made with a bottom, in the center of which a tubular element is installed for passing through it into the capacity of the dispensing tube, equipped with a glass worn on it, intended for fastening it in the tubular element and having a flange at the bottom location and windows for the passage of fluid on a cylindrical surface serving as a guide for the spring abutting against the bottom of the first part, with slots made on the inner surface of the second part, and in the bottom of the first part there are openings for supplying carbon dioxide to the tank and carbon dioxide or air exit from it, a valve located between the inner surface of the second part and the cylindrical surface of the glass has a first, second, opposite first, outer and inner side surfaces, the first surface made with a protruding middle part and with supporting parts for interacting with flanges made on the inner surface of the second part and the cup; on the second surface, the valve is made with stiffeners and an annular cavity under the spring, which presses the supporting parts of the valve to the flanges of the inner surface of the second part and the glass, the valve being made of elastoplast with a hardness of 69-75 Shore injection molding, the outer and inner side surfaces of the valve interacting respectively with the inner surface of the second part and the cylindrical surface of the glass is made conical, and the lid is mounted flush with the second part, resting on the edge of the hole on the protrusion made on the outer surface of the second part ty. 2. The valve device according to claim 1, characterized in that the connection of the cylindrical first and second parts and the fastening of the glass in the tubular element are made in the form of a latch - a protrusion, a depression or by means of a thread. 3. The valve device according to claim 1, characterized in that the number of stiffening ribs of the valve is from 24 to 48. 4. The valve device according to claim 1, characterized in that the elements of the device, with the exception of the spring, are made of plastic and, like the valve, are injection molded.

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