RU62896U1 - CAPACITY FOR LIQUID - Google Patents

Abstract

The proposed technical solution relates to the field of containers, made in the form of a bottle of a polymer material, for example polyethylene terephthalate, and used to store liquid.

The technical result of this solution is to increase the rigidity of the tank, ensuring reliable retention of liquid in it when opening the threaded cover while eliminating the deformation of the wall of the tank by bending due to the redistribution of the acting forces, both around the entire perimeter of the tank at the place of its retention, and in height a given place, as well as the exclusion of sliding of the user's hand in the process of holding the container, both in height and around the side surface.

This is achieved by the fact that the liquid container is made of a polymeric material in the shape of a bottle and contains a neck with an external thread, bounded in its lower part by an annular belt and an annular collar located below it, paired with a cylindrical section, turning into a conical or sphere-shaped surface expanding downward associated with a cylindrical upper side surface located between two annular belts, below which the side surface of the tank is made with a spherical or con narrowing, parabolic, expanding the container body along a portion of its length to a cylindrical lower lateral surface passing into the tank bottom, the diameter of which is equal to the diameter of the cylindrical upper side surface, and the tank bottom is formed by a cup-shaped surface, the peripheral lower supporting part of the base of which is uniformly formed circumferentially arranged by five protrusions, separated by troughs increasing along

the diameter of the height tank, while the tank is made high 225 mm, and on the cylindrical upper side surface of the tank made with a diameter of 63 ± 1 mm, closed wave-shaped annular depressions mutually congruent along its perimeter are formed along the perimeter of the lower part of the said upper side surface at the interface with spherical narrowing under the annular belt, annular broadening is performed, and the side surface in the area of the spherical narrowing and parabolic shape of the expansion of the body is made with mi of helical lines, and a conjugate between protrusions.

Description

The proposed technical solution relates to the field of containers, made in the form of a bottle of a polymer material, for example polyethylene terephthalate, and used to store liquid.

A known container for liquid, which in one cross section contains an inner border of the cross section and an outer border of the cross section, which in one of the sections is made in the form of elements of conical sections and in one cross section the outer border of the cross section in one of the sections is made in the form of two each other of different lengths of elements of different ellipses with different values of eccentricities (patent RU No. 2266851, B 65 D 1/00, 2005).

The closest known one is a liquid container including a housing with a base, an upper section with an outlet at the upper end, separated by a shoulder from the housing, containing a gripping device in the form of at least two spaced cavities of a similar shape, bounded by protrusions, one of the protrusions , limiting each cavity, coincides with the contour of the generatrix of the housing, and another protrusion, limiting each cavity, is located inside the housing to provide a similar grip in front behind the bottle, with

this hollow of the gripper is located under the shoulder (patent SU No. 1836258, B 65 D 1/00, 1993).

Known designs do not have sufficient rigidity when holding them by the hand for the middle part when the container is open, which ensures its deformation and leads to the extrusion of liquid from the container. When opening the container by unscrewing the lid, at the moment of violation of the sealing of the container, a pressure drop occurs in it, the stiffness is drastically lost, provided in the closed state by the equality of the internal hydrostatic pressure and the external pressure, which leads to splashing of the liquid from the container. An increase in stiffness is possible due to an increase in the thickness of the walls of the tank, including local, however, this leads to an overspending of the material per unit of the product, which is unacceptable in mass production.

The technical result of this solution is to increase the rigidity of the tank, ensuring reliable retention of liquid in it when opening the threaded cover while eliminating the deformation of the wall of the tank by bending due to the redistribution of the acting forces, both around the entire perimeter of the tank at the place of its retention, and in height a given place, as well as the exclusion of sliding of the user's hand in the process of holding the container, both in height and around the side surface.

This is achieved by the fact that the liquid container is made of a polymeric material in the shape of a bottle and contains a neck with an external thread, bounded in its lower part by an annular belt and an annular collar located below it, paired with a cylindrical section, turning into a conical or sphere-shaped surface expanding downward conjugated with a cylindrical upper side surface located between two annular belts, below which the side surface of the tank is made with a spherical or

conical narrowing, turning into a parabolic shape, the expansion of the container body on the section of its length to the cylindrical lower lateral surface passing into the tank bottom, the diameter of which is equal to the diameter of the cylindrical upper side surface, and the tank bottom is formed by a cup-shaped surface, the peripheral lower supporting part of the base of which is uniformly formed five protrusions arranged around the circumference, separated by troughs of a height increasing in diameter, while the capacity is made high 225 mm, and on the cylindrical upper side surface of the container, made with a diameter of 63 ± 1 mm, closed wave-shaped annular depressions mutually congruent along its perimeter are formed, along the perimeter of the lower part of the said upper lateral surface at the interface with a spherical narrowing under the annular belt, an annular the broadening, and the lateral surface in the area of the spherical shape of the narrowing and parabolic shape of the expansion of the body is made with located on the helical lines and mating protrusions and.

The indicated combination of design features of a container with its height of 225 mm (taking into account technological tolerances), a diameter of a cylindrical surface of 63 ± 1 mm and its capacity of 0.5 liters provides an unchanged geometry during the initial opening of a threaded plug and holding it without slipping by a hand for its increased rigidity a surface with helical lines located between said cylindrical surfaces.

Figure 1 shows a container for a liquid, front view,

Figure 2 shows a container for a liquid, a bottom view,

Figure 3 shows a container for liquid, a sectional view.

The liquid container is made of polymeric material in the shape of a bottle and contains a neck 1 with an external thread 2, limited in the lower

parts of it with an annular belt 3 and an annular collar 4 located below it, conjugated with a cylindrical section 5, turning into a cone-shaped or sphere-like surface expanding downward 6. A cone-shaped surface 6 is paired with a cylindrical upper side surface 7 located between the two annular belts 8 and 9. Below surface 7, the side surface of the container is made with a spherical or cone-shaped shape narrowing 10 to the bottom, turning into a parabolic shape, expanding 11 to the bottom of the container body in the area its length to the cylindrical lower lateral surface 13 that passes into the tank bottom 12 and its diameter is equal to the diameter of the cylindrical upper side surface 7. The tank bottom 12 is formed by a cup-shaped surface 14, the peripheral lower supporting part of the base of which is formed by five protrusions 15 equally spaced around the circumference, separated by troughs 16 increasing in diameter container height. A container with a nominal capacity of 0.5 liters in this design is 225 mm high, and on the cylindrical upper side surface 7 of the tank, made with a diameter of 63 ± 1 mm, closed wave-shaped ring depressions mutually congruent along its perimeter are formed 17. Around the perimeter of the lower part of the said upper a circumferential broadening 18 is made at the side surface 7 at the interface with the spherical narrowing 10 under the annular belt 9. The lateral surface in the zone of the spherical narrowing 10 and the parabolic widening 11 the housing is made with located along helical lines and interconnected protrusions 19.

As is known theoretically and confirmed by practical results, the pre-created pressure of gases in a container filled with gases (carbonated drink) creates the necessary conditions for the pressure of the material of the container back pressure, which does not allow

containers to deform while holding it by hand for any part. When opening the container, there is a sharp loss of excess pressure inside the container, as a result of which the container body becomes much more pliable than before opening its neck. Holding the container, usually in the middle part, the user creates efforts to open the screw plug and to hold the container with the other hand. Such efforts applied to the middle part of the tank cause it to deform, and when you open the tank cannot be removed from this part of the tank instantly due to the inertia of the movement and the reflex features of people. A delay in removing the indicated force even by milliseconds leads to deformation of the container and to the possibility of partial splashing out of it of the contents, which are “boiling”, i.e. increasing in volume due to the intensively released gas from it, at the time of opening the screw plug, and so occupies a larger volume, reaching almost the neck.

The proposed design of the tank allows you to significantly redistribute the forces created by holding the tank by hand in the process of opening it. This is achieved by increasing the rigidity of the cylindrical upper side surface 7 of the tank by introducing closed wave-shaped annular depressions 17 located along its perimeter, which ensure the preservation of the shape of the tank in this part of it. This is ensured by the shape of the spherical or conical shape of the narrowing 10 to the bottom, extending in a parabolic form, the extension 11 to the bottom of the tank body, on which the troughs 17 are made, as well as the presence of ring belts 8 and 9. The conjugation form of the narrowing 10 of the extension 11 allows you to perform on this surface protrusions 19 located along helical lines and adjacent to each other. The presence of protrusions 19 and their location can significantly increase the stiffness (reduce deformability) of this part of the container body with the same or shem

consumption of polymeric material for its production. The result is ensured by the redistribution of stresses arising from the compression of the container by hand, both over the surface of this part of the container, and taking into account the volumetric shape of the protrusions and their screw (spiral) arrangement - over the volume of the complex spatial rigid structure, which is the side surface of the container in this place. In addition, the presence of the optimal for the stability of the tank and maintaining its shape under the current load of the number of protrusions of the bottom and their location along its height can reduce the consumption of polymer material for its production while ensuring its specified strength and rigidity in this part.

Claims (1)

A liquid container, characterized in that it is made of a polymeric material in the shape of a bottle and contains a neck with an external thread, bounded in its lower part by an annular belt and an annular collar located below it, paired with a cylindrical section, turning into a cone-shaped or sphere-shaped expanding downward a surface mating with a cylindrical upper side surface located between two annular belts, below which the side surface of the tank is made with a spherical or conical narrowing, turning into a parabolic shape, the expansion of the container body along a portion of its length to the cylindrical lower side surface passing into the tank bottom, the diameter of which is equal to the diameter of the cylindrical upper side surface, and the tank bottom is formed by a cup-shaped surface, the peripheral lower supporting part of the base of which is uniformly formed located around the circumference of the five protrusions, separated by troughs increasing in diameter of the tank height, the tank is made 225 mm high, and on the cylindrical upper side surface of the container, made with a diameter of 63 ± 1 mm, closed wave-shaped annular depressions mutually congruent along its perimeter are formed, along the perimeter of the lower part of the said upper side surface in the place of conjugation with a spherical narrowing under the annular belt, ring broadening is performed, and the side the surface in the area of the spherical shape of the narrowing and the parabolic shape of the expansion of the body is made with protrusions arranged along helical lines and interconnected.