RU2525761C2 - Device with filling agent for bottle sealing and treating liquid product residing in bottle - Google Patents

Abstract

FIELD: transport, package.

SUBSTANCE: invention relates to treatment of liquid product including vodka which treatment is implemented by means of passing the product through a mixture of adsorbents or other filling agents. Each portion of product being poured out from bottle is treated. Treatment is performed by means of liquid product flowing from jar at optimal speed through adsorbents including activated hydrocarbon fibres. When mineral flavour additives and/or other additives are used new product differing from one in the bottle can be obtained. Device with filling agent for bottle sealing and treating liquid product residing in the bottle includes cover connected by threaded joint with fixed on bottle neck batcher containing filling agent, body and nipple.

EFFECT: invention provides pressure-tight separation of adsorbent from liquid product during transportation and storage, as well as reliable air feeding to bottles to compensate for poured out liquid volume.

8 cl, 36 dwg

Description

The invention relates to food, including distillery.

The invention is intended for the individual processing of a liquid product, including alcohol-containing, poured from a bottle in the period of time prior to personal consumption by the consumer, as well as the preparation of a new product that is different from the original.

A device is known for processing and cleaning a liquid product (see patent RU No. 2328523), comprising a cartridge consisting of an elastically-damped bottle of a body connected to the neck and a filter placed in it and a channel with a bypass valve.

The known device has several disadvantages. The first one is that the cavity of the filter cartridge in the known device is not hermetically separated from the internal volume of the container with the liquid product, and during transportation and storage, the sorbent and filter materials will be wetted, which in most cases is not acceptable. So, for example, the long-term presence of an activated carbon type sorbent in vodka leads to an increase in aldehydes, the amount of which is regulated, etc. Another disadvantage is that the air channel is formed in the cavity of the cartridge, where filtering materials and a sorbent are placed, which is inconvenient and does not allow to organize automated high-speed assembly of the device while filling the cavity of the cartridge with appropriate fillers.

A further disadvantage of the known device is the need to use an elastically-damped bottle as a container to create excess pressure by squeezing it in order to force the liquid product out of it through filter materials.

The technical result to which the invention is directed is to eliminate the above disadvantages. In addition, the invention is directed to the creation of:

- a unit for supplying air to the bottle to compensate for the volume of the liquid product being poured from the bottle with ambient air, providing a continuous supply of air into the bottle (without gurgling), without hindering the placement of a filler, which can have a variety of shapes and sizes, that is, an air supply unit without non-return valve and with an air channel that does not penetrate the filler and is not combined with the flow of the poured liquid product;

- a mechanism for separating the internal volume of the bottle with the liquid product and the cavity of the dispenser with filler during storage and transportation of the product and their connection at the time of consumption of the product.

- the design of the device to enable it to work with the widest possible range of filler for the purpose of various processing of the liquid product, including vodka, as well as the preparation of a new product different from the original one in the bottle;

- a set of appropriate sorbents and indigents as a filler, providing effective processing of vodka and other bottled products;

- a design that allows, taking into account modern technologies for the production of consumer goods, to organize automated production with low cost to ensure the possibility of one-time use of the device by the consumer at an affordable price.

The specified technical result is achieved in that a device with a filler for capping the bottle and processing the liquid product contained therein, comprising a lid with a first opening indicator, connected by a threaded connection to a dispenser, a filler and an air-conducting assembly, is provided with a rotary disconnecting mechanism, a dispenser having a cavity for the filler , separate air ducts and a side cutout for a liquid product duct connected to a nipple, a nipple having a lateral opening for the duct in docks and a lateral hole for air, which can be made with the possibility of overlapping the dispenser, while the casing is made with a place for the dispenser and nipple, and the unit for supplying air to the bottle is formed by holes in the upper part of the dispenser, an annular air channel in its middle part and air conduction a channel in its lower part, limited by the lateral generatrix of the nipple.

The dispenser in the claimed invention can be formed by two coaxial cylinders connected by a transverse jumper with air holes and ribs. The inner cylinder of the dispenser may have a cavity for the filler with elements of its fixation, air channels on its outer side surface, and side openings for the flow of the liquid product. The upper part of the inner cylinder of the dispenser with the outlet can be narrowed and look like a nipple. The outer dispenser cylinder below may have an outer annular protrusion to keep it from falling out in the housing. The dispenser may have a limiter to ensure that the dispenser in the nipple is rotated by a strictly defined angle. On the outer surface of the dispenser, elements for connecting the lid to the dispenser may be formed. The internal clearance between the cylinders can be used as a separate annular channel for supplying air to the bottle.

In the claimed invention, the device includes a rotary disconnecting mechanism formed by a cover, a side cutout in the lower part of the inner cylinder of the dispenser, and a side hole in the nipple. The disconnecting mechanism is actuated by the cover when it is removed or manually by the consumer. When the device is closed, the lid with its transverse wall seals the dosing nipple from above. The dispenser integrally seals the lateral cutout in the nipple with a whole part of the inner cylinder, which prevents the liquid product in the container from entering the dispenser cavity with the filler. The dispenser may also block the air supply assembly and prevent ambient air from entering the bottle. When opening the device by turning the cap counterclockwise, the dispenser, due to friction in the threaded connection, the dispenser cap is rotated relative to the nipple, if this does not happen, then the consumer manually turns the dispenser counterclockwise to the stop. The lateral cutout of the dispenser is combined with the side opening in the nipple, and the air channel on the inner cylinder of the dispenser, shifting, can be connected to the air hole in the nipple, thereby ensuring the passage of the liquid product from the container into the cavity of the cartridge with fillers and ambient air into the bottle. The presence in the claimed invention of a rotary disconnecting mechanism of such a design makes it possible to use materials and ingredients in the device as a filler that cannot retain the necessary properties during prolonged interaction with the processed product, thereby significantly expanding the range of use of the device. In addition, the use of such a rotary disconnecting mechanism greatly simplifies the design of the device as a whole and allows you to do four components to implement all the necessary functions of the device.

The connection of the dispenser with the cover may be threaded, contain detachable gearing or protrusions with corresponding recesses.

The nipple may consist of coaxial cylindrical parts and an annular transverse protrusion associated with a cylindrical part having sealing ring protrusions on the outer surface for tight connection with the neck of the bottle. In the side wall of the cylindrical part of the nipple below the sealing protrusions in front of the lower end wall, one or more side openings for the vodka duct can be cut, and a separate air channel or hole for air can be formed on the side of it. On the upper surface of the annular transverse protrusion of the nipple, protrusions for gearing with the housing can be formed in order to avoid scrolling of the nipple relative to the housing, in addition, other methods of connecting the nipple to the housing can be used to avoid its rotation in the housing, and also a gear connection of the nipple is possible with the neck of a bottle.

Activated carbon fibers in the form of felt or fabric enclosed in a filtering shell can be used as a filler.

The cover can be of any configuration, including having cutouts in its lateral generatrix to visualize the presence of a filter in the device and save material.

The dispenser may have a different shape consistent with the configuration of the lid.

The body with the neck of the bottle can be connected by methods known in practice by means of a thread or nozzle, including having a seat for its nozzle on a glass bottle with a whisk KPM-30.

Using the proposed design in the claimed invention, the air supply unit of the proposed design makes it possible to continuously, without gurgling, pour out the ambient air of the required volume into the container to provide the necessary flow rate of the liquid product through the filler and the uniformity and speed of filling of the container for the consumer, which is comfortable for the consumer. In addition, the use of such an air supply unit allows preventing, without using a check valve, spilling of the liquid product through the air ducts of the unit, bypassing the filler. In this case, the liquid product flows out of the nipple evenly, regardless of its amount in the bottle, because it flows out only under the pressure of the liquid layer between the end of the nipple and the air holes in the nipple. The liquid flows out of the bottle through the narrow opening of the dispenser nipple with a uniformly formed stream, even when the bottle is located strictly vertically, since the inlet openings of the air supply unit are located in the bottle above the outlet of the nipple and the air conduits do not pass through the filler and do not coincide with the flow of liquid. The liquid product does not flow out through the air ducts of the air supply unit, because the pressure in the bottle at the level of the air holes in the nipple becomes equal to atmospheric pressure when the liquid product is poured out and nothing causes the liquid to leak out.

As a filler can be used: various types of sorbents; flavoring additives, flavorings, optimizers and (or) stukturizators, dyes, medicinal and other substances. The filler material may be placed in a protective or filtering membrane permeable to a liquid product. The configuration of the place for the filler can be any, depending on the filler. The inner surface of the inner cylinder of the dispenser may be coated with a thin layer of silver or other substance for additional processing of the product. The use of activated carbon fiber in the processing of vodka, which is three hundred times more effective than activated carbon, will ensure efficient processing of the product at a speed acceptable to the consumer. The sorbent, in order to minimize its washing out with a liquid product, can be enclosed in a filter membrane permeable to the product. When using a device for preparing a new product using a powder filler, the holes in the dispenser must be smaller than the granules of the filler powder or the filler must be enclosed in a liquid-permeable shell. For advertising purposes, souvenirs and prizes surprises can be placed in the cavity for the filler, in this case the inner surface of the cavity must be of the appropriate configuration.

The device may have a first opening indicator in the form of a tear-off ring connected to the lid through perforation slots. Also, a heat shrink cap can serve as an indicator of the first opening.

The surfaces of the components of the device can be decorated by any known methods and appropriately to indicate a product in a bottle or device. The lid, dispenser and other components can be made of transparent or colored plastic. The lid and bottom of the case, made of plastic, can be clad in a metal sheath.

The invention is illustrated by drawings.

Figures 1-6 show a first embodiment of a device for treating a liquid in a container, for example in a glass bottle. Figure 1 - appearance of the device. Figure 2 - cover with cutouts. Figure 3 - fixed on the neck of the bottle body. Figure 4 - dispenser. Figure 5 - nipple. Figure 6 is a vertical section of the device in the closed state.

A device with a filler for closing the bottle and processing the liquid product contained in it contains the following components, assemblies and mechanisms: a lid screwed onto a dispenser with a double thread; a housing with a seat on the neck of the bottle; dispenser with side cut-out for the flow of a liquid product; cavity for the filler and the air duct; filler for processing the product; a nipple with a side hole for the vodka duct and an air hole; rotary disconnecting mechanism; a continuous air supply unit and a first opening indicator in the form of a tear-off ring connected to the lid through perforated slots.

The cover 1 is mounted on the dispenser 2 by means of a two-thread 3 formed on its lateral inner surface below the side cutouts 4. Below the thread 3 is a tear-off ring 5 connected to the cover through perforation slots 6. On the inner surface of the transverse wall of the cover are formed: protrusions 7, 8 for sealing the nipple 9 of the dispenser 2 and an annular protrusion 10 for sealing the outer cylinder 11 of the dispenser 2.

The housing 12 of the device has a cylindrical shape. On the outer side surface in the upper part of the body, protrusions 13 of the first opening indicator are formed. A seat 14 for the dispenser and the nipple is formed on the inner surface of the housing, and an annular protrusion 15, which prevents the nipple and the dispenser from falling out of the housing during transportation of the device, is formed on the side surface below. Even lower on the inner surface of the housing, an annular protrusion of the locking latch 16 from removing the housing from the neck of the bottle 17 is formed, as well as vertical protrusions 18, which, interacting with the corresponding protrusions on the neck, prevent the housing from turning when the device is opened.

The dispenser 2 is formed by two coaxial cylinders connected by an annular jumper 19 with openings 20 for air. The inner cylinder 21 of the dispenser has a cavity 22 for the filler 23 with elements of its fixation 24, an air channel 25 on its outer side surface and a side cutout 26 for the flow of the liquid product. The upper part of the inner cylinder of the dispenser is made in the form of a nipple with an outlet 27. The outer cylinder 11 of the dispenser at the bottom has an external annular protrusion 28 for non-rigid fixation in the housing, and a double thread 29 is formed above it for connection with the cover 1. Above the annular jumper 19 of the dispenser are formed ribs 30 that connect the outer and inner cylinders of the dispenser. The inner annular gap between the dispenser cylinders and the holes 20 in the annular jumper 19 play the role of an air-conducting channel for supplying air to the bottle, not associated with the flow of the outgoing liquid. Below the annular jumper of the dispenser, on the side of the side cutout 26 in the inner cylinder of the dispenser, a limiter rib 31 is formed that restricts and positions the rotation of the dispenser 2 in the nipple 32 relative to the holes in the nipple.

The filler consists of activated carbon fiber 23, which is a highly efficient sorbent, enclosed in a permeable to a liquid product filter sheath 33.

The nipple 32 consists of three cylindrical parts and a transverse annular protrusion 34. The upper cylindrical part 35 serves for hermetically sliding connection of the nipple with the outer cylinder 11 of the dispenser, and ring sealing protrusions 36 are formed on its outer surface. Two protrusions are formed on the inner surface of the upper cylindrical part of the nipple. rotation limiter 37, in order to limit the lateral displacement of the dispenser in the nipple by a strictly defined angle. On the lower surface of the transverse annular protrusion 34 in the mating zone with the middle cylindrical part, teeth 38 are formed for connection with the teeth on the neck of the bottle 17 in order to avoid scrolling of the nipple 32 relative to the bottle and, accordingly, of the housing 12. The transverse annular protrusion 34 of the nipple 32 at the bottom is mated with the side generatrix of the middle 39 of its cylindrical part. Below the transverse annular protrusion 34, sealing ring protrusions 40 are formed on the outer lateral surface of the middle 39 of the cylindrical part of the nipple to ensure a tight connection between the nipple and the neck of the bottle 17. A side opening 42 for the passage of the liquid product is cut out below the inner 41 of the cylindrical part of the nipple in front of the lower end wall, and on the side there is an air hole 43 from it. A sealing lip 44 is formed on the inner surface of the lower end wall of the nipple to seal the end hole the inner cylinder of the dispenser. A protrusion 45 is formed on the upper end of the inner 41 cylindrical part of the nipple to position the position of the dispenser in the nipple during assembly and to further limit its lateral displacement in the nipple in a strictly defined sector.

The rotary disconnecting mechanism is formed by: a threaded connection of the cover 1 and the dispenser 12; side cutout 26 in the inner cylinder of the dispenser and side hole 42 in the nipple. The rotary mechanism is intended for the longitudinal displacement of the dispenser 2 relative to the housing 12 and the nipple 32. The mechanism is actuated by the cover 1 when it is screwed and screwed onto the housing 12 or manually by the consumer. When you open the device by turning the cover 1 counterclockwise, the dispenser 12 due to friction in the threaded connection of the cover with the dispenser is laterally shifted to the stop of the ribs of the stopper 31 into the protrusion of the rotation stopper 37 of the nipple. In the event that this does not occur due to friction forces, that is, the cover is screwed off the dispenser, and the dispenser is not laterally displaced, the consumer manually rotates the dispenser to the stop. When closing the device, the cover 1 is screwed clockwise onto the dispenser, and if the dispenser is not shifted laterally to the stop by its rib stop 31 into another protrusion of the rotation stop 37 of the nipple, then it is brought to a stop. The presence of limiters provides a dispenser displacement in the nipple by 180 degrees.

The continuous supply of air into the bottle is formed by: openings 20 in the transverse jumper 19 of the dispenser, an annular air channel 46 in the dispenser connected to a vertical channel 25 on the lateral outer surface of the inner cylinder of the dispenser, limited by the side wall of the nipple, and the side air hole 43 for the nipple, made with the possibility of combining it with the vertical channel 25 when the dispenser is rotated in the nipple by 180 degrees. The continuous supply of air into the bottle is blocked when the device is closed by hermetically connecting the outer side surface of the inner cylinder 21 of the dispenser with the inner surface of the inner cylinder 41 of the nipple.

The indicator of the first opening is the tear-off ring 5 of the lid. Its absence signals to the consumer that the device was opened.

The operation of the device depicted in figures 1-6, is as follows. When the lid 1 is rotated counterclockwise, it interacts with the tear-off ring 5 with the protrusions 13 on the housing 12. The tear-off ring 5, which is a detachable element for indicating the first opening, is disconnected from the lid 1 and falls down, thereby signaling the opening of the device. By screwing the lid 1 from the dispenser 2, the device opens. When the device is opened by turning the cover 1 counterclockwise, the dispenser 2 is transversely shifted to the stop of its stop of the stopper 31 into the protrusion of the rotation stop 37 of the nipple due to friction in the threaded connection of the cover with the dispenser. In the event that this does not happen due to frictional forces, that is, the cover is screwed off the dispenser, and the dispenser is not laterally shifted, the consumer manually rotates the dispenser until it stops, as a result of which the dispenser 2 is rotated 180 degrees relative to the housing 12 and nipple 32. Thus, the device is fully operational. With a lateral displacement of the dispenser, the lower part of the inner cylinder 21 of the dispenser, laterally shifted in the nipple 32 by 180 degrees, opens the side hole 42 in the nipple, by matching the side hole 42 in the nipple with the side cutout 26 in the dispenser. The air hole 43 in the nipple coincides with the vertical channel 25 on the outer surface of the inner cylinder 21 of the dispenser, organizing and opening, thereby the air supply unit in the bottle. Thus, when the device is opened by turning the cap counterclockwise, the device and the bottle with the liquid product are completely depressurized, all air ducts and paths for the product flow open. The bottle is turned upside down and the dispenser nipple is sent to a drinking container. The liquid product from the bottle through the side opening 42 in the nipple, the side cutout 26 in the inner cylinder of the dispenser enters the cavity 22 of the dispenser, filling it to interact with the filler 23. The size of the volume of the cavity of the dispenser and its height are selected so as to ensure the necessary time with each filling contact of the product with the sorbent - activated carbon fiber 23, necessary for effective processing, and create the necessary pressure of a liquid column to force vodka through the outlet 27 of the dispenser nipple. Next, the processed product through the outlet 27 of the nipple is poured into a container for drinking. The ambient air, to compensate for the volume of leaked liquid, enters the bottle through the air-conducting unit formed by turning the dispenser, namely: openings 20 in the dispenser, annular air-conducting channel 46 in the dispenser, vertical channel 25 on the side surface of the inner cylinder of the dispenser, limited by the side wall of the nipple, and an air hole 43 in the nipple, aligned with the vertical channel 25 when the dispenser is rotated. Vodka does not flow out of the bottle through the hole 43 in the nipple and the air channel 25, because their effective cross section is small, and the pressure in the bottle at the level of the outlet of channel 43, when pouring liquid from the bottle when it is turned upside down, becomes equal to atmospheric for discharge in it, and nothing causes the fluid to flow out. The process continues until the desired level of liquid product is reached in the drinking tank. After filling, the bottle returns to a vertical position. The product from the cavity 22 of the dispenser 2 with the filler 23 through the side cutout 26 of the dispenser and the side opening 42 of the nipple flows into the bottle. The device is closed by screwing the cover 1 clockwise until it stops, while the dispenser in the body and nipple is shifted 180 degrees. The inner cylinder 21 of the dispenser 2, turning 180 degrees back in the nipple, closes, by tightly connecting its outer side surface to the inner side surface of the nipple, the side hole 26 for liquid and the hole 43 for air in the nipple, the air duct 25 on the inner cylinder the dispenser is displaced relative to the hole 43 in the nipple, and overlaps the inner side surface of the nipple, and the hole 43 overlaps the side surface of the dispenser. The protrusion 44 of the nipple additionally seals the end hole of the inner cylinder of the dispenser. The annular protrusions 7 and 8 seal the outlet opening 27 of the dispenser nipple 9, and the annular protrusion 10 seals the outer cylinder 11 of the dispenser and, accordingly, the air hole 20. When the device is closed with a lid, all its components return to their original state, and the air supply unit and the paths for the flow of the liquid product are blocked. The operation is repeated as necessary.

The second example of the device is presented in Fig.7-12.

7 is an external view of the device. On Fig - cover. In Fig.9 - fixed on the neck of the bottle body. Figure 10 - dispenser. 11 is a nipple. On Fig is a vertical section of the device in the closed state.

Its peculiarity is that the lid and dispenser have a different configuration, in addition, when opening and closing the device, the nipple does not rotate in the case, which is rigidly connected to the neck, not due to gearing with the neck of the bottle, but due to gearing 49-48 of the nipple with housing. On the nipple, gear engagement protrusions 49 are formed around the perimeter of the outer upper surface of the transverse annular protrusion. On the housing 12, gear engagement protrusions 48 are formed on the inner surface of the horizontal annular protrusion of the housing, which together with the annular protrusion 15 forms a seat for the nipple.

A device with a filler for closing the bottle and processing the liquid product contained in it contains the following components, assemblies and mechanisms: a lid screwed onto a dispenser with a double thread; a housing with a seat on the neck of the bottle; dispenser with a side cutout, for vodka, a cavity for the filler and an air channel; filler for processing vodka; a nipple connected to the housing by gearing, with a side opening for the passage of a liquid product and a side opening for air; rotary disconnecting mechanism; the air supply unit and the first opening indicator in the form of a tear-off ring connected to the lid through perforated slots.

The operation of the device depicted in Fig.7-12 occurs similarly to the operation of the device from the first embodiment of the invention.

Although the above is a description of only two preferred embodiments of the invention, it is obvious that, in accordance with the appended claims, other embodiments as well as combinations of the individual nodes of the above examples, corresponding to the scope of the present invention, can also be used.

Claims (8)

1. A device with a filler for sealing the bottle and processing the liquid product contained therein, comprising a cap, a housing, a filler and an air-conducting assembly, characterized in that it is provided with a dispenser connected by a threaded connection to the cap, with air-conducting channels that can be rotated in the body and nipple , a filler placed in the cavity of the dispenser, a nipple having a side opening for a liquid product and a side opening for air, made with the possibility of their overlapping by the dispenser, rotary connectors itelnym mechanism formed compound covers with dispenser, the air supply unit, formed by rotating the dispenser as a result of its posts vozduhoprovodyaschih channels in the pin hole arranged to align it with the air-conducting channel when the dispenser is rotated by a certain angle. 2. The device according to claim 1, characterized in that the dispenser is formed by two coaxial cylinders with an annular air channel between them, connected by an annular jumper with holes and ribs, the outer cylinder has an annular protrusion for non-rigid fixation in the housing, the inner cylinder contains a cavity for placement filler, an air channel on the outer side surface and a side cutout for the flow of liquid product in its lower part, the upper part of the inner cylinder of the dispenser is made in the form of a nipple with an outlet m 3. The device according to claim 1, characterized in that the nipple consists of three cylindrical parts and a transverse annular protrusion associated with the middle cylindrical part, on the upper surface of the transverse annular protrusion there are serrated protrusions for connection with the housing, on the inner surface of the upper cylindrical part of the nipple two protrusions of the rotation limiter are formed, at the bottom of the inner cylindrical part of the nipple in front of the lower end wall there is a side opening for the flow of the liquid product and an opening for spirit, and on the inner surface of the lower end wall a sealing protrusion is formed. 4. The device according to claim 1, characterized in that the nipple consists of three cylindrical parts and a transverse annular protrusion associated with the middle cylindrical part, on the lower surface of the transverse annular protrusion there are serrated protrusions for connection with the neck of the bottle, on the inner surface of the upper cylindrical part nipples two protrusions of the rotation limiter are formed, at the bottom of the inner cylindrical part of the nipple in front of the lower end wall with the inner protrusion there is a side opening for the flow of liquid of the product and the air hole and formed in the upper end of a vertical guide for positioning a position of the metering nipple. 5. The device according to claim 1, characterized in that the continuous air supply unit is formed by: holes in the doser jumper, an annular air duct between the metering cylinders connected to a vertical channel on the outer surface of the metering inner cylinder bounded by a side wall of the nipple, and a side hole for air in the nipple. 6. The device according to claim 1, characterized in that the nipple and the inner cylinder of the dispenser are paired with a hermetic sliding connection of their respective side surfaces due to tight fit. 7. The device according to claim 1, characterized in that the activated carbon fibers in the form of felt or fabric plates enclosed in a filter sheath are used as a filler. 8. The device according to claim 1, characterized in that it is made with a first opening indicator in the form of a tear-off ring connected to the lid through perforated slots.

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