GR1009172B - Additional heat- inulating inlated polystyrene ring-crown adaptable to disposable glasses - Google Patents

Abstract

Novelty: an additional thermally-insulating truncated cone-shaped ring/crown made of inflated polystyrene is disclosed. Purpose: to be externally adapted to the 80% of the surface of the existing disposable plastic or paper glasses in order to offer thermal insulation and preserve the desired temperature of beverages (coffee, tea, juices, refreshments, beers etc) and desserts (yogurt, ice cream, fruit salads etc) for more time. Embodiment: the invention finds application to mass food and fast food eateries.

Description

DESCRIPTION

" ADDITIONAL RING - WREATH IN A GLASS

DISPOSABLE FROM EXPANDED POLYSTYRENE"

A) General — overview of the cognitive field

The present invention refers to adding a ring - rim made of expanded polystyrene to a disposable glass (plastic or paper). This ring applies to the outer surface of the glass, covering over 80% of its total surface, with the aim of thermal insulation and maintaining the desired temperature of the drink for a longer time (Figure 1);

Disposable glasses are used by mass catering and fast food businesses for the needs of serving and serving their customers, for drinks such as coffee, tea, juices, soft drinks, granitas, beers, etc., but also for desserts such as yogurt, ice cream, fruit salads etc. In many cases, their customer service is carried out by distribution. Most of these glasses do not have any kind of thermal insulation, so the temperature of the contents changes very quickly. The single-use rings to date are mainly paper and exist in various shapes, either flat or wavy and with different closing methods, as well as ready-made double-walled paper cups, but the production cost of all of the above and their thermal insulating behavior are not satisfactory. Depending on their type, drinks are divided into hot and cold. Hot drinks have a high temperature as most are brewed at temperatures just above 90°C and served at temperatures of 45 - 50°C. Cold drinks are served at temperatures below 10°C. Because the indoor temperature of a typical building where the above beverages and food are served ranges from 20°C (winter) to 26°C (summer) and the disposable glasses are made of plastic or paper material with a thin wall thickness that ranges from 1 to 1.5 millimeters per meter, drinks and food exchange their heat very quickly with the environment, with the result that their temperature reaches very quickly a value very close to the temperature of the surrounding area. Thus, the offered drink or food very quickly loses a key quality characteristic of its desired drinking temperature.

The prosthetic ring (2) of the present invention has a truncated cone shape to fit externally to existing disposable plastic or paper cups (1) on the market (Figure 2) and is made of expanded polystyrene.

Maintaining the desired temperature of each drink or food can be achieved by adding the heat insulating ring to the serving glass. This is achieved as the coefficient of thermal conductivity of polystyrene is λEPS= 0.035 W/mK and is lower than both paper which is λPaper= 0.13 W/mK, and polyethylene λPET= 0.20 W/mK. Therefore, the addition of the polystyrene ring will bring about a reduction in the rate of heat transmission with the environment as the coefficient of thermal permeability with the addition of the heat insulating ring will decrease from 5 to 8 times. Below is an indicative example of calculating the thermal conductivity coefficient U for the case (a) where we have a polyethylene plastic glass without the addition of the ring and (b) for the case where we have a polyethylene plastic glass with the addition of the heat insulating ring.

Case (a)

B) Description of the advantages of the present invention

The present invention provides a solution to various practical problems concerning the use of single-use plastic cups by mass catering and fast food companies for the needs of serving and serving their customers, in beverages such as coffee, tea, juices, soft drinks, beers, etc. but also desserts such as yogurt, ice cream, fruit salads, etc.

In detail, the advantages of the present invention are:

1. Maintaining desired temperature of hot or cold drink and cold meal for a long time. Maintaining the desired temperature of the hot or cold drink and the cold meal is achieved by using the heat insulating ring for a long time and thus the user receives a qualitatively superior product.

2. Easy stacking, as due to the shape of the truncated cone, the rings can be easily stacked, one inside the other (Figure 3) and thus easily stored.

3. In the case of cold drinks, condensation of water vapor on the outside of the wall (shell) of the glass is avoided. This avoids the unpleasant phenomenon of wetting the user's hands, the table on which the glass is placed and many times the dripping of water drops onto the user.

4. In the case of the hot drink it protects the user from the high temperature of the drink as the external temperature of the wall (shell) in contact with the user is very low and cannot cause any discomfort (burn) or burn.

5. Applies to all existing disposable plastic and paper cups on the market. In the large base of the truncated cone there are small notches (3), Figure 1 (b), to achieve a perfect fit in a cup with embossed surfaces.

6. It does not prevent the simultaneous use of the existing bases and carrying bags of the plastic and paper cups.

7. Covers up to 80% of the conical surface of disposable cups and thus helps to maintain the desired temperature of the contents for a long time,

8. No assembly required, no snap, ready to use by placing under the disposable cup.

9. It is possible to print a logo on the outer surface of the ring.

C) Description of drawings

Figures 1(a)-(b) show the three-dimensional rendering of a beverage glass with the liner of insulating material in two different types, without notches and with notches.

Drawings 2 (a)-(c) show how the insulating material ring is placed on the disposable cup.

Figure 3 shows how to stack the heat insulating ring.

Claims (2)

1. Prosthetic ring - rim in a disposable glass made of expanded polystyrene, characterized by being in the shape of a truncated cone, fits snugly in a glass (1), covering at least 80% of its surface. 2. Prosthetic ring - rim in a disposable glass made of expanded polystyrene, according to claim 1, characterized in that the large base of the ring (2) has notches (3) for its application to a glass (1) with embossed surfaces.