EA016745B1 - Device for manually dispensing foamy and/or effervescent beverages - Google Patents

Abstract

The invention relates to shop equipment and can be used for dispensing beer and other beverages form isobaric containers. The inventive result is aimed at making service simpler and providing beverage cooling during its dispensing into plastic bottles. The device comprises a body (1) with a delivery channel (2) therein with a connecting pipe (3) to be connected to a pipeline for feeding a gas from a pressure source, a delivery channel (4) with a connecting pipe (5) to be connected to a pipeline for feeding a beverage from an isobaric container, asymmetric cavity (6) open on the side of the lower end of a body (1) and is connected to the gas and beverage delivery channels (2, 4) by means of a discharge channel via a three-way valve (8) for successively connecting one of the delivery channels (2, 4) to a discharge channel or for disconnecting all the channels. A defoaming unit is arranged in the asymmetric cavity. A unit of the neck plastic bottle attachment to the open side of the lower end of a body (1) is arranged at the last outlet of a screw drain channel (12). A throttle valve (38) is mounted in the body (1) and connected by its delivery channel (39) with a through axial channel (11) of a nozzle (10). A gas-supplying channel is made in body (1) along the beverage delivery channel (4) and twisting around it. The three-way valve (8) is disposed in body (1) cavity and comprises three chambers (14, 15, 16), to the first and third of which are connected correspondingly gas and beverage delivery channels (2, 4) and to the second chamber the discharge channel (7) connected to the screw drain channel (12) via the cavity (6) and has a ring valve (17) adapted to its axial reciprocating displacement using a control handle (23) and a rod (21) kinematically connected to the valve (17).

Description

Technical field

The invention relates to the field of food industry, in particular to commercial equipment, and can be used for dispensing beer and other foaming and / or carbonated drinks from an isobaric container into plastic bottles at retail kiosks, shops, restaurants and bars.

State of the art

To fill the container, whether it is a bottle or a barrel, through the valve (or valve) with the product, the difference between the pressure in the supply line and the pressure inside the container is necessary. The magnitude of the pressure difference determines the rate at which the product enters the container. Usually, in order to avoid an increase in the surface of the liquid as a result of turbulence, the product is filled with a small initial speed, which is then slowly increased. For this purpose, the gas pressure is preliminarily injected into the container, which significantly exceeds the saturation pressure of the gas dissolved in the liquid. The liquid to be bottled is also supported by pressure cylinders or pumps under this pressure and fed into the filling machine. After preliminary creating a pressure in the container equal to the pressure of the supplied liquid, the container is connected to the supply line for the liquid to be packed. By a controlled release of gas pressure in the container, the conditions for the entry of liquid into it are created. The pressure difference established in this case determines the fluid flow rate. It is further known that at the end of the filling process, the gas outlet is throttled, which leads to a decrease in the pressure difference between the inner cavity of the container and the supply line. As a result of this, the amount of liquid poured per unit time by the end of the filling process is reduced, which allows you to finish the process exactly at the moment when the container is filled with a given amount of liquid. This beverage dispensing technology is known as reverse gas control. The advantage of this regulation is that the gas pressure above the liquid at any time exceeds the saturation pressure in the product. The indicated principle of pouring a drink from large containers into bottles and other containers is implemented in many automated lines (US patent No. 6601618, IPC B67C 3/06, publ. 05.08.2003; US patent No. 6192946, IPC B65B 1/04, publ. 02/27/2001; Australian patent No. 491145, IPC B67C 3/10, 3/06, published 1978; Wolfgang Kunze, Technology of malt and beer. - St. Petersburg, Profession, 2001. - pp. 566-567 ; Technological equipment of canneries. - M, 1986. - p. 418-419).

However, such systems for bottling drinks are expensive, difficult to operate, and not very suitable for bottling drinks from kegs in bottles, mugs in retail stores in kiosks, bars, cafes and restaurants.

A device for dispensing beer is known, comprising an isobaric container with beer or several such containers with different types of beer, a beer pressurization system, a cooling system and a dispenser equipped with a piping system with dispensers for dispensing a beverage for dispensing into small containers and a pipeline for dispensing beer to the dispenser, which is made in the form of a closed loop and is equipped with a pump for circulating the drink through it and a cooler (US patent No. 6164083, IPC V67E 1/08, publ. 12/26/2000). However, the known device is not able to ensure the safety of the quality of the beverage in the filling system due to its foaming due to the absence of a foam defoaming system for the beverage and provides an excess of foam to the consumer. In addition, the device is not suitable for pouring a drink into plastic bottles from isobaric containers, and additional refrigeration equipment is required to cool the drink.

A device for manual filling of foaming and / or carbonated drinks is known, including a gas bottle, a keg with a drink, a refrigerator, a rack with a tap for filling a drink in small containers and a unit for extinguishing foam when filling a drink, installed in a drain pipe of the tap (international application AO 00/58201, IPC V67E 1/14, publ. 05.10.2000).

However, this device allows you to pour drinks only in small containers (mugs, glasses) with a low pouring speed and does not provide their bottling with back pressure in plastic bottles from isobaric containers.

The closest technical solution (prototype) is a device for manual filling of foaming and / or carbonated drinks, including a beverage preparation system for filling with a gas cylinder and an isobaric beverage container and a beverage filling mechanism with a foam extinguishing unit (RF patent No. 2266862, IPC В67С 3/02, publ. 12/27/05). The beverage dispensing mechanism comprises a body having a drain channel, a channel connected to a gas supply pipe from a gas cylinder, a channel connected to a beverage supply pipe from an isobaric container, a nozzle for attaching a neck of a plastic bottle to an open end of the drain channel, located on the body at the drain channel and a throttle valve installed in the housing and connected to the drain channel, and the node for extinguishing foam is placed in the drain channel. The channels connected to the pipelines for supplying gas and drink are connected by an additional channel to the drain channel through a three-way valve mounted on the body of the mechanism for filling the drink into plastic bottles. The beverage dispensing mechanism is equipped with a tap for dispensing the beverage into mugs or glasses connected to the beverage supply line from the isobaric container. The three-way valve contains a cylindrical body with a cover, in the bottom of which there are two through supply holes and one outlet hole, and is also installed

- 1 016745 coaxially rotatable upper disk and lower disk, which is stationary. The upper disk is rigidly connected through a hole in the lid with a handle located outside the body of the three-way valve, through holes are made in the lower disk coaxially with the holes in the bottom of the body. In the body of the upper disk, from the side of the lower disk and opposite its openings, a blind groove in the shape of a crescent is made for the communication of one of the supply openings of the housing with its discharge opening. A ring elastic seal is placed around the handle under the housing cover to tighten the upper and lower disks to each other and to the bottom of the case, and elastic sealing rings are installed in the openings of the bottom of the case. The attachment site of the neck of the plastic bottle to the end of the drain channel contains an elastic ring element attached to the end of the drain channel coaxially with its outlet, and a spoon with a handle and a groove corresponding to the size of the neck of the plastic bottle, and the cylindrical part of the spoon is located around the end of the drain channel at the outlet and kinematically connected to the wall of the drain channel by a bayonet connection, and the groove of the spoon is located in front of the outlet of the drain channel. The bayonet joint is a blind helical groove made in the wall of the drain channel, in which an axis with a roller is mounted, attached to the cylindrical part of the spoon of the fastening mechanism of the neck of a plastic bottle. The specified node allows you to quickly and tightly connect the neck of a plastic bottle with the end of the drain channel of the device for manual filling of foaming and / or carbonated drinks. The node for extinguishing the foam of the beverage dispensing mechanism contains nozzles with a through axial channel having an outer cylindrical part with a helical groove on the side surface, and a shank forming an annular cavity between its outer surface and the surface of the drain channel. The elimination of foaming is ensured by creating a gas pressure in the filling system and above the surface of the drink in a plastic bottle, which exceeds the saturation pressure of the gas dissolved in the drink and does not allow the liquid to boil. The unit for extinguishing foam due to centrifugal forces ensures the supply of a drink in the form of a film on the walls of a plastic bottle, which reduces the turbulence of the fluid flow.

The disadvantages of this device are the low reliability of the three-way tap cartridge of the beverage dispensing mechanism and the complexity of its technological maintenance associated with frequent washing of discs and seals after the bottling of beer or another beverage is completed, and additional refrigeration equipment is required to cool the beverage.

Disclosure of invention

The technical result of the invention is the possibility of cooling the beverage in the process of bottling it in plastic bottles using the inventive device, which reduces foaming and improves the quality of the beverage, improving the reliability of the device for bottling beverage with back pressure in plastic bottles and simplifying its technological maintenance associated with a decrease in the rinsing frequency nodes and details of this mechanism after the bottling of beer or another drink.

The specified technical result is achieved by the fact that in the device for manual filling of foaming and / or carbonated drinks, including a housing, in the body of which there is a supply channel with a fitting for connection to a gas supply pipe from a gas cylinder, a supply channel with a fitting for connection to a beverage supply pipe from an isobaric tank, a stepwise axisymmetric cavity open from the lower end of the housing and connected by an additional channel to the gas and beverage supply channels through the installed in the case there is a three-way valve with a control handle for sequentially connecting each supply channel with a discharge channel or disconnecting all supply channels in the intermediate position of the control handle, a foam extinguishing unit made in the form of a nozzle with an axial through channel, a cylindrical part with a screw drain channel on the outer surface and a stepped shank and placed in a stepped axisymmetric cavity of the housing, and a mounting unit for the neck of the plastic bottle to the open lower end of the housing, placed minutes at the last screw at the outlet of the drain channel, a throttle valve mounted in the housing and connected to the inlet channel with a through axial channel nozzle according to the invention the channel inlet gas, is formed in the housing body along the channel, the metering beverage or wraps around it. The wall of the housing between the gas and beverage supply channels is made of thermally conductive material.

A three-way valve is located in the body of the body cavity, which has three successive annular chambers, the first and third of which are connected to the supply gas and beverage channels, respectively, and to the second cavity, an additional channel connected to the discharge drain channel, and contains an annular valve with an elastic end a seal having an axial channel with an annular elastic seal located in the third chamber of the body and placed in the valve seat with the possibility of its axial reciprocating room, and the rod located in the chambers of the housing with the possibility of its axial reciprocating movement, one end of which is removed from the first chamber through an annular seal and kinematically connected to the control handle, and the other end is placed in the opposite third chamber of the housing, passed through the axial channel valve with an annular elastic seal and kinematically connected with it by a first spring, squeezing the valve from the end of the stem to the valve seat, formed by a protrusion between the second and

- 2 016745 third housing chambers and an annular protrusion made on the rod, in addition, the rod has an axial channel closed at both ends with plugs, a first row of radial through holes made in the rod for communication of its axial channel with the first chamber chamber, and the second row radial through holes made in the rod behind its annular protrusion along the location of the housing chambers, for communication of the axial channel of the rod with the second chamber chamber, moreover, elastic ring seals are installed between the housing and the stem, located on both sides of the first chamber chamber, and the second and third chambers are hermetically isolated from each other by means of an annular valve, which is axially pressed against the valve seat by the first spring and additionally through the rod by a second spring located around the rod end from the handle side and kinematically connected with him and the body.

The beverage is cooled by heat exchange between the gas and beverage supply channels, which are adjacent and parallel to each other in the body of the device body and the three-way valve, due to the expansion of carbon dioxide and its passage through the channel, the gas supply and the channels of the three-way valve. Improving the reliability of the design of the device for bottling consists in reducing the contact surface of the moving parts of the three-way valve mechanism, which reduces their wear, and also provides more free access to all parts of the valve mechanism in contact with the bottled drinks, which simplifies its technological maintenance associated with washing the nodes and details of the mechanism of the tap after bottling of a beer or other beverage. The invention is illustrated in the drawings of FIG. 1 is a diagram of a device for manually filling foaming or carbonated drinks;

FIG. 2 - the same section along aa;

FIG. 3 is a diagram of a three-way valve in the initial position;

FIG. 4 is a diagram of a three-way valve in the position when the channels for supplying gas are open; FIG. 5 is a diagram of a three-way valve in the position when the valve for supplying a beverage is open.

Examples of carrying out the invention

A device for manual bottling of a drink with a backpressure in plastic PET bottles contains (Fig. 1 and 2) a housing 1 mounted, for example, on a stand (not shown in the drawings), in the body of which there is a supply channel 2 with a fitting 3 for connection to the pipeline gas supply from a gas cylinder, an inlet channel 4 with a nozzle 5 for connecting to the beverage supply pipeline from an isobaric tank, a stepwise axisymmetric cavity 6, open from the lower end of the housing 1 and connected by a discharge channel 7 to the gas and beverage inlets channels 2 and 4 through a three-way valve 8 with a control handle installed in the cavity 9 of the body of the housing 1 for controlling the connection of one of the supply channels 2 or 4 with the discharge channel 7 or disconnecting all channels in the intermediate position of the control handle. The unit for extinguishing foam (Fig. 1 and 2) is placed in a stepwise axisymmetric cavity 6 of the housing 1 and is made in the form of a nozzle 10 with an axial through channel 11 and a cylindrical part with a screw drain channel 12 on the outer surface. The gas supply channel 2 is made in the body of the housing 1 along the beverage supply channel 4 or wraps it around (not shown in the drawings). The wall of the housing 1 between the supplying gas and beverage channels 2 and 4 is made of thermally conductive material.

The three-way valve 8 (Fig. 3-5) is located in the cavity 9 of the housing 1, which has three successive annular chambers 14, 15 and 16. The chambers 2 and 4 are connected respectively to the chambers 14 and 16 and to the chambers 15 and a discharge channel 7 connected to the screw drain channel 12 through the cavity 6. The valve 8 comprises an annular valve 17 with an elastic mechanical seal 18 having an axial channel with an elastic ring seal 19 located in the chamber 16 of the housing and housed in the seat 20 of the valve 17 axial return ceiling elements move, and a rod 21 disposed in the chambers 14-16 the body with the possibility of axial reciprocating movement. One end of the rod 21 is withdrawn from the chamber 14 through an annular seal 22 and kinematically connected to the control handle 23, and its other end is placed in the opposite chamber 16, passed through the axial channel of the valve 17 with an annular elastic seal 19 and kinematically connected with it by the first spring 24, a squeezing valve 17 from the end of the stem 21 to the seat 20 of this valve 17. The seat 20 of the valve 17 is formed by a protrusion 25 between the chambers 15 and 16 of the housing 1 and an annular protrusion 26 made on the stem 21. The stem 21 has an axial channel 27, closed at both ends with plugs 28 and 29, first a series of radial through holes 30 made in the rod 21 for communicating its axial channel 27 with the camera 14 of the housing, and a second row of radial through holes 31 made in the rod 21 behind its annular protrusion 26 along the location of the cameras 14-16 of the housing for axial communication channel 27 of the rod with the camera 15 of the housing. Between the housing 1 and the stem 21, an additional elastic ring seal 32 is installed located between the chambers 14 and 15 of the casing, and the chambers 15 and 16 are hermetically isolated (when the valve is in a neutral position and when gas is supplied to the bottle) from each other by means of an annular valve 17, which is pressed in the axial direction to its saddle 20 by the first spring 24 and additionally through the rod 21 by a second spring 33 located around the end of the rod 21 from the side of the control handle 23 and kinematically connected with it and the housing 1. The neck mount of the plastic b pins to the lower end of the housing 1 (Fig. 1 and 2) with

- 3 016745 holds an annular elastic element 34 attached to the end of the housing 1 coaxially to the outlet of the screw drain channel 12, and a spoon 35 with a handle 36 and a groove 37 corresponding to the size of the neck of a plastic bottle. Spoon 35 is kinematically connected to the wall of the housing 1 by a bayonet fitting. The throttle valve 38 is installed in the housing 1 and is connected by its input channel 39 with the through axial channel 11 of the nozzle 10.

A device for manual filling of foaming and / or carbonated drinks works as follows.

In accordance with the scheme (Fig. 1 and 2), the device is used for manual filling of foaming and / or carbonated drink of plastic bottles with backpressure from isobaric containers. For this, a plastic bottle is inserted into the groove 37 of the spoon 35 and by turning the handle 36 hermetically dock with the lower end of the housing 1 due to the elastic ring element 34. In this case, the throttle 38 is closed. The handle 23 of the three-way valve 8 (Fig. 3) is in the (neutral) vertical position. Then the handle 23 (Fig. 4) of the three-way valve is deflected 20 ° (to the opposite side from the operator), which moves the rod 21, compressing the spring 24. The valve 17 remains pressed against the seat 20, and the radial holes 31 open and provide a camera 14 with message camera 15. Channel 3 with gas communicates through camera 14, radial holes 30, axial channel 27, radial holes 31, camera 15, outlet channel 7, axisymmetric cavity 6, screw drain channel 12 with the internal volume of the bottle. In this case, CO ₂ gas from the cylinder enters the bottle, the pressure of which is equalized to the pressure in the isobaric tank. The gas, moving along the channel 2 in the housing 1, expands and cools the channel 4, the drink in it and the housing 1 of the device are several degrees lower than the temperature of the drink before entering the filling device. Next, the handle 23 of the three-way valve (Fig. 5) is tilted 40 ° in the opposite direction. In this case, the rod 21 together with the valve 17 is mixed in the direction of the opening of the latter, compressing the spring 33. With the opening of the valve 17, the chambers 15 and 16 communicate with each other. Channel 4 with a drink communicates through chambers 16 and 15, the outlet channel 7, an axisymmetric cavity 6, a screw drain channel 12 with the internal volume of the PET bottle. Since the pressure in the PET bottle and the isobaric container is the same, there is no flow of beverage into the indicated container. When the throttle 38 is opened, the CO ₂ gas through the axial channel 11, the inlet channel 39 and the outlet channel of the throttle 38 is forced out of the PET bottle into the atmosphere. A pressure differential is created in the isobaric container and the PET bottle, whereby the drink fills the bottle. Passing through the screw drain channel 12, the drink under the action of centrifugal forces is supplied in the form of a conical film onto the walls of the neck of a PET bottle and then flows smoothly along its walls, preventing foaming. The elimination of foaming is also ensured by creating a gas pressure in the filling system and above the surface of the drink in a plastic bottle, which exceeds the saturation pressure of the gas dissolved in the drink. When the beverage passes through the cooled channel 4 of the building 1 and the channels of the three-way valve, its temperature decreases by several degrees, which also reduces foaming and preserves its consumer properties. After filling the bottle with a drink to stop its further flow from the isobaric tank, turn the handle 23 to the neutral (20 °) initial vertical position (Fig. 3) together with the stem 21 and valve 17 of the three-way valve 8. The remaining gas in the neck of the PET bottle and partially dissolved gas released from the drink is removed through the axial channel 11 of the nozzle 10 and the channels of the throttle 38 into the atmosphere. After equalizing the pressure in the PET bottle to atmospheric, rotate the handle 36 in the opposite direction, disconnecting the lower end of the housing 1 from the neck of the PET bottle, which is removed from the filling device, closed with a stopper and released to the consumer.

The device, including a three-way valve, has a minimum number of parts with rubbing surfaces, is easily disassembled and washed in water or an antiseptic liquid.

Thus, the invention provides the possibility of cooling the beverage during bottling in plastic bottles using the inventive device, which further reduces foaming and improves the quality of the beverage, improves the reliability of the device for bottling beverage with back pressure in plastic bottles and simplifies its technological maintenance associated with reducing the frequency washing units and parts of this mechanism after the bottling of beer or another drink.

The proposed device can be manufactured in the factory for the food industry and distribution network. Testing of prototypes of the device showed its operability and the possibility of simpler technological maintenance when bottling beer and other foaming and / or carbonated drinks in comparison with well-known analogues.

Claims (2)

1. A device for the manual filling of foaming and / or carbonated drinks, including a housing (1), in the body of which there is a supply channel (2) with a fitting (3) for connecting to a gas supply pipe from a pressure source, a supply channel (4) with a fitting (5) for connecting to the beverage supply pipeline from an isobaric container, an axisymmetric cavity (6), open from the bottom of the housing (1) and connected by a discharge channel (7) with gas and beverage supply channels - 4 016745 (2, 4) through a three-way valve (8) with a control knob for sequentially connecting one of the supply channels (2, 4) with a discharge channel (7) or disconnecting all channels, located in the axisymmetric cavity (6) of the housing (1) a unit for extinguishing foam, made in the form of a nozzle (10) with an axial through channel (11) and a cylindrical part with a screw drain channel (12) on the outer surface, a unit for fastening the neck of a plastic bottle to the open lower end of the housing (1), located on the last at the outlet of the screw drain channel (12), and a throttle valve (38) installed in the housing (1) and connected by its inlet channel (39) to the through axial channel (11) nozzle (10), characterized in that the channel (2) supplying gas is made in the body of the housing ( 1) along the channel (4) supplying the drink, or wraps it around, and a three-way valve (8) is located in the body cavity of the body (1), which has three successive annular chambers (14, 15, 16), to the first and third of which channels (2, 4), supplying gas and drink, respectively, are connected, and to the second cavity, a discharge channel (7), connected passed with a screw drain channel (12) through the cavity (6), and contains an annular valve (17) with an elastic mechanical seal (18) having an axial channel with an elastic ring seal (19) located in the third chamber (16) of the housing (1) ) and located in the valve seat (20) of the valve (17) with the possibility of its axial reciprocating movement, and the rod (21) located in the chambers (14, 15, 16) of the housing with the possibility of its axial reciprocating movement, one end of which removed from the first chamber (14) through an annular seal (22) and kinematically connected with a control handle (23), and its other end is placed in the opposite third chamber chamber (16) of the housing, passed through the axial channel of the valve (17) with an elastic ring seal (19) and kinematically connected with it by a first spring (24), which depresses the valve ( 17) from the end of the stem (21) to the seat of this valve, formed by a protrusion (25) between the second and third chambers (15 and 16) of the housing (1) and an annular protrusion (26) made on the stem (21), in addition, the stem (21) has an axial channel (27), closed at both ends with plugs (28, 29), the first row of radial through holes (30), made in the stem (21) for communication of its axial channel (27) with the first chamber chamber (14) of the housing, and the second row of radial through holes (31) made in the stem (21) behind its annular protrusion (26) along the chamber ( 14, 15, 16) of the housing, for communication of the axial channel (27) of the rod (21) with the second chamber (15) of the housing, and between the housing (1) and the stem (21) an additional elastic ring seal (32) is installed located between the cameras (14, 15) of the housing (1), and the second and third chambers (15, 16) are hermetically isolated from each other in the initial position by means of rings the second valve (17), which is axially pressed against the valve seat (20) of the valve (17) by the first spring (24) and additionally through the stem (21) by the second spring (33) located around the end of the rod (21) on the handle side (23) ) control and kinematically connected with it and the body (1). 2. A device for manually filling foaming and / or carbonated drinks according to claim 1, characterized in that the wall of the housing (1) between the gas and beverage supply channels (2, 4) is made of thermally conductive material.