RU2038815C1 - Foldable cup - Google Patents

Abstract

FIELD: articles for laying the table. SUBSTANCE: cup is made from flexible impermeable material and is formed as double-walled receptacle. Cup is provided with pipe union for supplying air into cavity between walls. Neck portion of cup and base of cup have annular cavities interconnected through rigidity ribs, which are made in the form of hollow inflatable channels with direction of channels coinciding with cylindrical generatrix of cup. When channels and annular cavities are inflated, they form rigidity members of frame construction, which facilitate retaining of working shape of cup. EFFECT: increased convenience and strength of cup. 2 cl, 3 dwg

Description

 The invention relates to tableware, namely to folding glasses, it can be used in the manufacture of individual or disposable structures for storing and drinking liquid products (water, milk, juices, etc.) at room temperature.

 Known glass made in the form of an elastic thin-walled container. To prevent loss of stability, the design is equipped with an annular thickening at the neck and a handle. The described design is widely used in field trips for the use of liquid food at room temperature. However, the design described is large, it is inconvenient to carry it in the pockets of clothes.

 Closest to the proposed solution in technical essence and the achieved result is an inflatable drinking tank (French patent N 2584281, CL A 45 F 3/20, 1987), made in the form of a shell of soft impermeable material in the form of a glass with double walls, equipped with a fitting with a plug that provides gas or air to the cavity between the walls to give the shell the shape of a container.

The main disadvantage of the design described is the loss of the useful volume and working shape of the glass when air is supplied to the inflatable annular cavity, since it takes the form of a toroid around the bottom of the glass. This reduces the useful capacity and the estimated height of the glass, increases the width of the edges of the glass, which resemble an inflated fire hose with a bottom, which creates inconvenience when drinking water from a glass,
Thus, the level of technical solutions in this area, determined by the patents and information materials available to the authors, does not allow us to solve the problem of manufacturing a collapsible glass that has a set of necessary qualities when operating in field, field conditions, so that it is lightweight, reliable, durable, takes not enough space, did not break his working form.

 The problem can be solved in the design of the collapsible glass proposed by the authors due to the use of elastic materials, for example, a polyethylene film, provided in the working state of the glass with stiffening ribs that would be absent in the traveling state, i.e. when the glass is folded, there are no stiffeners.

 The essence of the invention lies in the fact that the proposed folding glass, like the known one, is made in the form of a shell of elastic impermeable material in the form of a glass with double walls, equipped with a fitting with a stopper that provides air in the cavity between the walls, characterized in that around the neck and at the bottom of the glass there are two annular cavities interconnected by additional stiffening ribs in the form of hollow channels, the direction of which coincides with the generatrix of the cylinder.

 Another feature of the proposal is that the number of channels connecting the annular cavities is equal to or greater than three and they are evenly spaced around the circumference of the cylinder.

The design is an inflatable glass. When air is supplied to the annular cavities at the neck and into the base of the glass, they become elastic and play the role of ring stiffeners along the periphery of the glass, and the channels connecting the annular cavities and located along the generatrices of the cylindrical surface of the glass, when inflated, stretch the glass shell vertically and are stiffeners vertically, and together with inflatable annular cavities create a rigid frame structure, and the more ribs, the more rigid the design of the glass in the working floor zhenii even at inflated human lips, which is especially important in field conditions. The lungs of the average person can create an air pressure of approximately 0.1 kg / cm ² , which corresponds to 1.0 m water column (since 10.3 m water column is equal to 1 pressure atmosphere).

 As a material for the casing, a food film can be used, which is used in the manufacture of milk packets (GOST 13277-79).

The authors experimentally established the following:
the optimal width of the annular inflatable cavity in the neck of a glass with a capacity of 200 ml is equal to D ₁ = 6 8 mm;
the optimal width of the annular inflatable cavity at the base of the glass is D ₂ = 4 6 mm;
the diameter of the vertical channels D ₃ = 4 6 mm;
number of vertical channels 3.

 When the number of channels is less than three, there have been cases of loss of stability of the structure in the working position and, of course, pouring liquid from the glass.

 Thus, the design proposed by the authors allows automatically, when inflated, to obtain a rather rigid traditional cup shape under traveling conditions in the absence of compressed air sources. Opening the nozzle and releasing air from the inflatable cavities, the glass can easily be folded, folded (crumpled) and will take on any shape given to it, can be placed in a bag and take up space in the pocket of no more than a handkerchief. The resource of the construction is determined practically by the resource of the used film material.

 In FIG. 1 shows a schematic drawing of the proposed folding glass; in FIG. 2 longitudinal section of the glass; in FIG. 3 cross section of the glass.

 The collapsible cup comprises an elastic shell made in the form of a double cup 1 and 2 (i.e., with a double wall). In the neck of the glass there is an annular cavity 3, and in the base of the annular cavity 4. The cavities 3 and 4 are interconnected by channels 5. At the base of the glass in the annular cavity 4, a fitting 6 for supplying air to the cavities 3 and 4 and channels 5 is glued. The fitting 6 is provided cork 7. The glass is made of food-grade plastic film intended for the manufacture of milk packets. The volume of liquid placed in a glass of 200 ml.

The main geometric parameters of the folding cup in working condition:
the outer diameter of the glass D = 70 mm;
cup height H = 100 mm;
the width of the annular cavity 3, D ₁ = 7 mm;
the width of the annular cavity 4, D ₂ = 5 mm;
the diameter of the channels 5, D ₃ = 5 mm;
the number of channels 5 (N 4).

 Channels 5 and cavities 3 and 4 were made by heating the zones of the double glass (double wall) adjacent to the channels with a metal roller until the walls were sintered with each other.

In places of passage of channels 5 and inflatable cavities 3 and 4, heating was not carried out. The roller was heated to a temperature of 180 210 ^о С, the roller was moved at a speed of 0.3 0.4 m / s.

 The collapsible glass is in the initial state complicated. To prepare it in working position, the glass is straightened or shaken. The nozzle 6 is taken into the mouth and air is blown into the cavities 3, 4 and 5 until the required structural rigidity is obtained, the nozzle 6 is closed with a plug 7. In this case, the cavity 3 and the cavity 4 together with the channels 5 serve as stiffeners and form a three-dimensional frame structure. This allows you to fill the glass with liquid and hold it in your hands. After using the glass, it is washed or rinsed with water at room temperature, dried, the stopper 7 of the nozzle 6 is opened, air is released from the cavities 3 and 4 and channels 5, the glass shell is ironed by hands to more fully remove air from the cavities, the glass is folded, and it is placed in a clean polyethylene bag for transportation.

 The folded construction takes up extremely little space, can take any given position, is easily transported in the pocket of summer clothes, which makes it very convenient to use a glass in beach, camping and field conditions. When dropped, the glass does not break and does not change the working form.

Claims (2)

 1. FOLDING GLASS, made of an elastic impermeable shell in the form of a container with double walls and a fitting for supplying air into the cavity between the walls, characterized in that annular cavities are made around the neck and in the bottom of the glass, interconnected by stiffeners in the form of hollow channels, the direction of which coincides with the generatrix of the cylinder.  2. The glass according to claim 1, characterized in that the number of channels connecting the annular cavity is three or more than three.

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