EA020342B1 - Closure for the dosed supply of liquid - Google Patents

Abstract

A closure for the dosed supply of liquid contains a fitting body with the devices for fixing on the bottle, air tube oriented longwise the fitting body axis, the pour element, positioned in the fitting body, the monitor chamber created between the pour element and the air tube; therewith the device additionally contains a decorating collar with tear-off element designed on the end surface, a device for pour element extension outside of decorating collar as well as a device with the liquid fixed dosing modes with pre-set volume and of free pouring depending on the extension of the pour element in rotational movement of the decorating collar after the first opening.

Description

The invention relates to the design of closures for the issuance of several fixed doses or free pouring, mainly alcoholic beverages from bottles. Such closures can be manufactured as products, preferably single use, and mounted directly on the neck of the bottle.

There is an unmet need for simple in design and generally available at the price of closures combining the metered dispensing of a liquid and full pouring.

The now known means of satisfying this need are usually batch pumps of periodic action with a manual drive.

Typically, such a pump (see the Big Encyclopedic Dictionary of Polytechnic, - M .: Scientific publishing house of the Great Russian Encyclopedia, 1998, p. 341) has a body with a measuring chamber, an input channel for periodically connecting the measuring chamber to a source of dosing liquid, an output channel for emptying the metering chamber, the metered dose propellant from the metering chamber to the exit channel. This dispenser is designed for repeated use when dispensing alcoholic beverages from uncorked bottles and is convenient for the on-line dispensing of such beverages in bars and restaurants. However, at home, the use of this dispenser is impractical, so you have to install it instead of a cork, and when switching from one drink to another, you need to wash it, which is inconvenient to use.

Known volumetric liquid dispenser periodic action, which includes an axisymmetric at least in the upper part of a hollow body made of inert with respect to food liquids material and having a consistently connected output channel, a measuring chamber of a fixed volume with an inlet channel in the side wall for filling the dose and drain channel for returning the rest of the dose to the bottle, spherical piston propellant of the metered dose from the metering chamber, located in the initial position below the level of the input channel, a flap valve installed in the drain channel and a body latch relative to the bottle neck, while the output channel, the metering chamber and the drain channel are located only inside the body on a common geometric axis, and the latch is made in the form of at least one peripheral protrusion enclosing the upper axisymmetric part (RF patent for useful model No. 26123, IPC S01B 11/38, publ. 10.11.2002).

The disadvantages of this dispenser are the complexity of the design, low technological capabilities due to the need to purchase additional closures for the bottle.

The closest in technical essence and the achieved effect is the Shutter for bottles with a device for dosing according to the patent of the USSR No. 520902, IPC Β65Ό 47/06, publ. 08.20.76 (prototype). Said closure consists of a cylindrical body inserted inside the bottleneck, a sealing chamber and an air supply tube, and to prevent air from entering the bottle, it contains a diaphragm with holes fixed in the closure body and a tube mounted in it. The dose of the poured liquid always remains the same and does not depend on the angle of inclination of the bottle, nor on the orientation of the bottle relative to its axis.

The disadvantages of the prototype are the limited possibilities of use, namely the issuance of a single dose, the lack of the possibility of an open drain, as well as unreliable operation of the product due to the influence of the surface tension of the liquid.

The basis of the invention is to create a more reliable closure device with a metered fluid supply with advanced technological capabilities, namely the creation of a product that is easy to use, with more accurate delivery of several doses of liquid of a given volume, with the possibility of combining the open drain of the liquid.

This problem is solved by the fact that the closure device for the dosed supply of fluid contains a landing body with means of fixation on the bottle, an air-conducting tube located along the axis of the landing body, a pouring element installed in the landing body, a control chamber formed between the pouring element and the air-conducting tube when This device further comprises a decorative casing with a tear-off element made on the end surface, means for extending the pouring element relative but the decorative casing and means modes with fixed fluid dispensing a predetermined volume and a free pouring, depending on the extension pouring element during the rotational movement of the decorative casing after the first opening.

Preferably, the means for extending the pouring element is made in the form of lifting lugs diametrically located on the side surface of said pouring element, with the possibility of interaction with inclined grooves made on the inner surface of the decorative casing, as well as with vertical cuts made on the outer wall of the landing body.

Preferably, the fixed fluid dispensing means is made in the form of vertical protrusions made on the outer surface of the pouring element, interacting with locking grooves made on the end surface of the outer casing.

In the particular case of carrying out the invention, the landing body contains a diagonal fixed in it

- 1 020342 fragments with holes that have a conical expansion from above and form a grid, while the diaphragm has a central hole in which an air-conducting tube is installed.

In the particular case of carrying out the invention, the air-conducting tube is made with a through hole for supplying air from the control chamber to the bottle, and also has an annular protrusion in the upper part connected to the annular protrusion of the inner sleeve of the pouring element with the possibility of forming the control chamber.

The possibility of carrying out the invention, characterized by the above set of features, as well as the possibility of realizing the purpose of the invention can be confirmed by the description of the design of the closure device made in accordance with the present invention. The design description is illustrated with graphic materials, which depict the following.

FIG. 1 shows a general view of the closure in section; in fig. 2 - a decorative cover in the section; in fig. 3 - decorative cover - top view; in fig. 4 - capping device in the initial stage of drinking at dosing; in fig. 5 - the same at the end of the drain when dispensing; in fig. 6 the same, with a free drain; in fig. 7 shows an air tube; in fig. 8 - air tube - top view; in fig. 9 - sectional diaphragm; in fig. 10 - poured sleeve with a partial cut; in fig. 11 - pouring sleeve - top view.

The capping device for dosed supply of fluid contains a decorative casing 1, a landing body 2, a pouring element 3 and an air-conducting tube 4 with a nozzle 5.

On the end surface of the decorative casing 1 there is a tear-off element 6 with weakened bridges 7, one of which is reinforced (not shown) to prevent the complete separation of the element 6 when opened (which prevents it from entering the serving dishes). On the inner surface of the casing 1 there are inclined grooves 8 with a locking element 9, as well as locking grooves 10 on the end surface of the casing. At the end of the decorative casing 1 also marked doses of 11, opposite the corresponding fixed grooves.

The seating body 2 is provided with means of fixation 12 on the bottle, a base 13 for hermetic fit in the opening of the bottle neck, and also has an inner sleeve 14 with an open upper end and an outer sleeve 15 with vertical slots 16. In addition, the landing body 2 has a diaphragm 17 ( Fig. 9) with holes 18, forming a grid, and with a central hole 19, in which an air-conducting tube 4 is installed. Holes 18 are made with a conical expansion in the upper part. Hole 19 has on top of the ring stop 20 for the remote location of the air-conducting tube 4.

On the side outer surface of the pouring element 3, lifting lugs 21 and vertical protrusions 22 are diametrically located, inside element 3 there is an internal sleeve 23 with an open lower end connected to it at the end by ribs 24 to form pouring holes 25 that cut through the fluid flow during draining. When assembling the product lifting lugs 21 are fixed with the help of the locking elements 9, located in the inclined grooves 8.

Air tube 4 is made with a through hole 26 for supplying air to the bottle, and the specified hole 26 is stepped to reduce the effect of surface tension during operation of the specified tube. In the upper part of the tube 4 there is an annular protrusion 27, forming an annular cavity open at the top 28. The annular protrusion 27 is connected by ribs 29 to the annular platform 30, forming passage ducts 31 for draining the liquid and supplying air. The annular platform 30 has in the lower part of the protrusion 32, made with a gap relative to the tube 4 and covering it partially, connected to it by means of ribs 33, between which there is a passage opening 34, such as a jet. The protrusion 32 has an annular thickening in the upper part for fixing the air-conducting tube 4 in the opening 19 of the diaphragm 17. The passage opening 34 slows down the flow of liquid during pouring.

The inner sleeve 23 with an open lower end is tightly connected to the annular protrusion 27, forming a control chamber 35, and an annular gap 36 is formed between the inner wall of the pouring element 3 and the control chamber 35 to form a free flow of fluid 36 towards the discharge side of the pouring holes 25. From the annular pads 30 vozduhoprovodyascheho tube 4 in the upper part is made of an annular protrusion 37, which enters the open cavity 28 and serves to transfer fluid from the passage opening 34 to the control chamber 35.

At the upper end of the air-conducting tube 4, a nozzle 5 is fixed, placed inside the chamber 35. The nozzle 5 is made with a through-hole 38 and a mounting hole 39 with the possibility of installing it on the upper end of the tube 4. In the area of the hole 39 there is a circular platform 40 for directing the flow of fluid preventing the specified liquid entering through the passage opening 34 back into the bottle through the air-conducting tube 4. The nozzle 5 of the air-conducting tube 4 extends its upper end and increases the reliability of operation from Elihu.

The capper is assembled with all parts as one unit and can be transported separately.

The device works as follows.

When opening the closure for the first time by turning casing 1 counterclockwise

- 020342; Inclined grooves 8 of the decorative casing 1 transmit the movement through the lifting lugs 21 to the pouring element 3, while the lugs come out of the fixed position with force through the fixing element 9, begin the lifting movement along the vertical slots 16 of the outer sleeve 15. This results in separation of the element 6 on the weakened connection 7, which then remains on the reinforced jumper with the possibility of manual detachment. At the same time, the vertical protrusions 22 of the pouring element 3 fall into the corresponding grooves 10 of a given dose according to marking 11 on the casing 1, a click occurs, for example, when determining the first dose, then another click when determining the second dose.

After determining the required dose of the poured liquid, the bottle is tilted through an angle α = approximately 45 °, i.e. sufficient to fill the control chamber 35, while pouring the liquid is divided into two streams. The main stream passes through the diaphragm 17 of the holes 18 with a conical expansion, then the liquid flows through the annular gap 36 into the pouring holes 25. The making of the holes 18 with a conical expansion allows the liquid to flow freely, the mesh holes are chosen so that the surface of the liquid tension prevents air from entering the bottle through the diaphragm 17 after the metered amount of liquid has been poured, and before the bottle is returned to the vertical position.

The controlling flow of fluid begins simultaneously with the first flow to flow through the gap formed by the annular protrusion 32 and the tube 4, passes through the passage opening 34 and then goes through the tube 4 into the control chamber 35. The air volume equal to the volume of the measured liquid enters through the top of the pouring hole 25, through the channels 31 into the control chamber 35, through the air-conducting tube 4 and further into the bottle. The liquid fills the control chamber 35, reaches the mouth of the nozzle 5 and closes the through hole 26 through which the air previously passed, the outflow of liquid stops, and an airlock forms in the bottle.

When the pouring element 3 moves further towards the opening, the inner sleeve 23 also moves upwards relative to the annular cavity 28, as a result of which the volume of the control chamber 35 increases, which makes it possible to increase the filling time of the specified chamber with liquid, i.e. adjustable flow, and also increases the flow time through the grid of the holes 18 of the main fluid flow. The ratio of the speeds of the two streams always remains constant.

Thus, the second control flow regulates the flow of fluid of the first main flow, determining the dose of the poured liquid.

When the bottle returns to its upright position, the fluid in control chamber 35 flows back into the bottle.

Upon further extension of the pouring element 3 towards the opening, the inner sleeve 23 is completely expelled from the annular cavity 28, while the control chamber 35 is depressurized, providing free access of air to the inside, which makes it possible to completely drain the liquid without dosing, combining two streams.

The proposed invention will expand the technological capabilities of the closure device with the possibility of providing a more accurate delivery of several doses of liquid of a given volume with the combination of an open drain of the liquid, with the provision of opening indication means. At the same time there are ample opportunities for applying on a decorative casing identification tools, logos that have inscriptions in the form of words, letters or symbols.

Claims (5)

1. A capping device for a dosed liquid supply, comprising a landing casing with fixing means on a bottle, an air conducting tube located along the axis of the landing casing, a pouring element installed in the landing casing, a control chamber formed between the pouring element and the air conducting tube, characterized in that the device further comprises a decorative casing with a tear-off element made on the end surface, means for extending the pouring element relative to the decorative the casing, as well as a tool with modes of fixed dosing of liquid with a given volume and free pouring, depending on the extension of the pouring element during the rotational movement of the decorative casing after the first opening. 2. The capping device according to claim 1, characterized in that the means for extending the pouring element is made in the form of lifting stops diametrically located on the side surface of the specified pouring element, with the possibility of interaction with inclined grooves made on the inner surface of the decorative casing, as well as with vertical slots made on the outer wall of the landing housing. 3. The capping device according to claim 1, characterized in that the means for the fixed dispensing of liquid is made in the form of vertical protrusions made on the outer surface of the pouring element, interacting with the fixing grooves made on the end surface of the decorative casing. - 3,020,342 4. The closure device according to claim 1, characterized in that the landing case comprises a diaphragm fixed in it with holes that have a conical extension from above and form a mesh, while the diaphragm has a central hole in which an air conduit is installed. 5. The capping device according to claim 1, characterized in that the air tube is made with a through hole for supplying air from the control chamber to the bottle, and also has an annular protrusion connected to the annular protrusion of the inner sleeve of the pouring element in the upper part, with the possibility of forming a control cameras.