RU2016839C1 - Vessel for storing mineral water - Google Patents

Abstract

FIELD: transportation and storage of liquids. SUBSTANCE: cover plate is screwed onto neck so that edge fails to engage with seal. Mineral water under pressure is admitted through pipe to occupy vessel. Air present in the vessel is compressed. Then cover plate is screwed tightly, and the vessel is sealed. EFFECT: higher reliability. 1 dwg

Description

The invention relates to a container for transporting, storing and filling liquids, for example, non-carbonic (natural canteens, medicinal-canteen, etc.) mineral waters saturated with carbon dioxide (CO ₂ ) - carbon dioxide.

As a container for storing mineral waters (Belenky S.M., Lavreshkina G.P., Dulneva T.N. Technology for processing and bottling mineral waters. 2nd ed., Revised and additional M .: Agropromizdat, 1990, 151 s.) Use new and used glass bottles with a capacity of 0.33 and 0.5 dm ³ .

 The disadvantage of this tank is that overpressure is vented through the neck of the bottles when moving from the filling position to the capping position. Given the small volume of the air-cushion and the large (⌀ 17 mm) diameter of the neck opening, we can conclude that it is difficult to adjust the pressure in the gas-air cushion. Often, bottled mineral water has a different mass fraction of dissolved carbon dioxide. Capping bottles with crown caps provides only one-time use.

 Closest to the claimed technical solution is a container consisting of a housing with a neck having an external threaded surface, a cover with an internal thread and a seal.

 A disadvantage of the known technical solution is that communication with the atmosphere occurs through only one hole, which is closed by a drain valve. This leads to the fact that when filling the tank with water, it is necessary to interrupt to vent excess pressure in the gas cushion. This complicates the filling equipment. The process of refueling such a capacity is very complicated, which leads to unnecessary costs per unit of output.

 The aim of the invention is to simplify the design for filling the tank with mineral water.

 This is achieved due to the fact that in the tank for storing mineral water, consisting of a body with a neck with an external threaded surface, a cover with an internal thread and a seal, the end surface of the neck along the perimeter is provided with a radius chamfer, the value of which is equal to half the width of the sealing surface, and the circumference , on which the center of this radius is located, is made coaxial to the average diameter of the threaded surface, while a hole is made on the side surface of the cover, which is located between the thread and Nost seal.

 Comparative analysis shows that the proposed capacity differs from the prototype in that the end surface of the neck along the perimeter is provided with a radius bevel, the radius of which is equal to half the width of the sealing surface, and the circle on which the center of this radius is located is aligned with the average diameter of the threaded surface, a hole is made on the side surface of the cover, which is located between the threaded and the surface of the seal. Therefore, this technical solution meets the requirement of "novelty."

 When comparing the claimed technical solution not only with the prototype, but also with other well-known technical solutions, solutions with similar characteristics were not found. It is the execution of the end surface of the neck around the perimeter in the form of a radial chamfer, the radius of which is equal to half the width of the sealing surface, and the circle on which the center of this radius is located is aligned with the average diameter of the threaded surface, and there is an opening on the side surface of the lid that is located between the thread and the surface of the seal allows you to achieve the positive effect indicated by the purpose of the invention is to simplify the design for filling the tank with mineral water.

 The drawing shows a cross section of the cap and neck.

 The tank consists of a housing 1 (not shown), a neck 2 with an end surface in the form of a radial chamfer 3 and a threaded surface 4, a cover 5, an opening 6, a seal 7, a fitting 8, an opening 9.

 Capacity works as follows.

Before refueling the container, preliminary closure is carried out - cover 5 is screwed on the neck 2 located on the housing 1 so that the radial chamfer 3 does not touch the seal 7. The internal cavity of the container must communicate with the atmosphere through the hole 6 and the gaps of the threaded connection. A nozzle (not shown) is connected to the nozzle 8, through which saturated CO ₂ mineral water is supplied under pressure. Water through the outlet 9 and an open drain valve (not shown) is supplied to the tank. As it fills, the air located in the tank begins to compress. An air cushion backpressure is created, which should help to stop or avoid the process of degassing of carbon dioxide dissolved in water. The hole 6 is chosen so that a backpressure equal to or more by 10-15% of the water saturation pressure is created inside the tank. After filling the tank with water with a volume of 25-30% of the total volume of the water being poured, the container is hermetically sealed. Without stopping the filling, the lid 5 is tightly wrapped, - the radial chamfer 3 is pressed against the seal 7. The container becomes airtight, and water is filled until the pressures in the filling machine and inside the container are equalized. Air is compressed under appropriate pressure, which is enough to squeeze out all the water. Having closed the drain valve, the filling device is disconnected, and the container is ready for operation.

 The execution of the end surface of the neck around the perimeter in the form of a radial chamfer is due to the fact that it is this surface shape that best contributes to hermetic closure, especially with the end version. The top of the sealing surface in this case is a point, and a circle around the perimeter. This reduces the torque during hermetic closure. The radius of the chamfer should be equal to half the width of the sealing surface. This allows us to simplify the design by using the thickness of the neck wall, which, as the chamfer “sinks” into the seal (rubber gasket), becomes a sealing surface, which increases the reliability of sealing.

 The implementation of the radius of the chamfer, the center of the radius of which is located on a circle, coaxial to the average diameter of the threaded surface due to the fact that when wrapping the cover excludes beating of the radius of the chamfer. Otherwise, it is possible to jam or even unscrew the seal. Alignment simplifies the design, as it eliminates the possibility of poor sealing of the tank due to the displacement of the seal and does not require additional refinement.

 The execution on the side surface of the through hole located between the thread and the surface of the seal is due to the fact that it allows you to pre-close the container and relieve excess pressure created when filling with water. At the same time, this hole after the final capping allows timely detection of a breach of sealing due to the appearance of water bubbles on the outer surface. Timely additional sealing - turning the lid allows you to maintain pressure in the gas-air cushion and the healing properties of the filled mineral water. Using a hole simplifies the design, as it eliminates the installation of any complex devices such as chokes.

Claims (1)

 STORAGE TANK FOR MINERAL WATER, comprising a body with a neck and an external threaded surface, a cover with an internal thread and a seal, a nozzle for supplying mineral water and a drain valve, characterized in that the end surface of the neck is made in the form of one and a half formed by rotating a semicircle around a central axis, lying in the plane of this semicircle and not intersecting it, and the axis of the average diameter of the threaded surface is aligned with its central axis, while a hole is made on the side surface of the lid e, located between the thread and the surface of the seal.

Images