ES1078337U - Cooler crusher of glasses, cups and other containers (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Frosting cooler of glasses, cups and other containers characterized by having a connection fitting (1), which connects the solenoid valve (2) to a flexible tube (3) where the gas coming from an external co bottle will enter. Sub> 2 which is coupled to the apparatus through a central connection body with flat rectangular base (4) of stainless steel which on its lower face (16) has been machined with hollows and extending downwards by means of parallel perpendicular pieces in the form of an inverted l (10). The solenoid valve (2) is also connected to the nozzle (13) through the capillary hollow tube (9), curved 180º in its upper part, through which the gas flows upwards. The nozzle (13) is covered by the inverted bell (12). (Machine-translation by Google Translate, not legally binding)

Description

Frosting cooler of glasses, cups and other containers.

The present utility model falls to a frosting cooler apparatus of glasses, cups and other containers used especially in hospitality which is intended to cool said containers to a very low temperature in an extremely short period of time by using food CO2 in liquid state.

DESCRIPTION OF THE INVENTION

The technical problem solved by the present invention is to cool cups or glasses-type containers to temperatures below 20 degrees Celsius very quickly and using a method compatible with the use of said containers for human consumption.

For this purpose, the described invention is based on the use of liquid CO2 (carbon dioxide) by spraying it in the container that is intended to cool rapidly through a set of elements that achieve the intended purpose and among which we find a CO2 bottle liquid of those already known in the market that is coupled to the cooler through a flat flat rectangular base on its upper face and punched on its lower face for the insertion of the different connection elements that will be.

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a flexible tube

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a solenoid valve

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a push button

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a hollow capillary tube

Thus, the solenoid valve is attached to the base and joined to the flexible one, to the capillary hollow tube and to the push-button so that when the button is operated, the solenoid valve allows the liquid CO2 of the bottle to be pushed through the flexible tube and the capillary hollow tube the upper area of the cooler with the necessary power.

In the upper part of the cooler, at the other end of the hollow capillary tube, there is a spray nozzle with several holes covered by a bell which in turn has several layers of diffuser holes.

Upon entering the liquid C02 in the hood, it is achieved that it flows out aerodynamically on the walls of the container and circulates towards the opposite end down vertically through the walls thereof both internally and externally. This form of CO2 output makes the cold mass or the contribution of refrigerators necessary to cool the container between 20 and 50 degrees below zero much lower than usual with the consequent saving of energy and time that translates into costs.

The cooler cooler is an innovative design structure designed especially for catering and catering.

STATE OF THE TECHNIQUE

There are different frosting coolers on the market with the same application but the present invention has the advantages listed below.

ADVANTAGES

The advantages of this invention are apparent from the descriptive report, although we will now mention the most prominent ones with a purely enunciative and non-limiting nature, namely:

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Simpler structural design facilitating the functionality and efficiency of the device.

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Maintenance of the device easier and faster from a technical point of view.

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CO2 consumption is optimized between 20-30%.

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Greater versatility since its design allows to cool containers and products with heterogeneous characteristics.

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Lower manufacturing, use and maintenance costs

DESIGNS

For better understanding of this report the accompanying drawings are attached, which show an example of non-limiting embodiment of the object of the invention, and in which:

Figure number 1.- shows an oblique elevation view of the apparatus. Figure number 2.- shows a partially sectioned side view of the apparatus. Figure number 3.- shows a sectional view of the connection fitting. Figure number 4.- shows a front view in section of the bell. Figure number 5.- shows a perspective view of the base of the apparatus.

DESCRIPTION OF AN EXAMPLE OF PREFERRED EMBODIMENT

In accordance with the attached drawings, the frosting cooler of glasses, cups and other containers is formed by several elements such as with a connection fitting (1), which connects the solenoid valve (2) to a flexible tube (3) through which the gas from an external CO2 bottle.

The coupling to the external bottle is done through a central connection body with flat rectangular base

(4) stainless steel that in its lower face (16) has been machined with cavities for the insertion of the other connection elements and that is extended downwards by means of parallel perpendicular pieces in the form of an inverted L (10) that will fix the bottle.

The flexible tube (3) will have a variable length and at its ends two rotating nuts (15) are incorporated for connection to the bottle and the solenoid valve. The flexible tube (3) is formed by a reinforced stainless steel mesh that covers a smooth inner tube, preferably made of polytetrafluoroethylene, of a thin fire-resistant thickness, chemically inert and suitable for use in the food industry.

The solenoid valves (2) are located on the underside (14) of the flat rectangular base (4) and are connected to a push button (5), which allows the gas output pulses to be carried out manually. The solenoid valve (2) is connected to the nozzle (13) through the hollow capillary tube (9), curved 180º in its upper part, through which the gas flows upwards.

The nozzle (13) is provided with several holes (7) through which the gas that enters through the top of the cup or container is cooled by cooling its surface and is covered by the inverted bell (12) which also serves of protective housing. This nozzle (13) has a central hole (11) and several stepometric holes (8) for the spraying and diffusion of gas distributed over several levels.

When the gas enters the inverted hood (12) that covers the nozzle (13), it is achieved that the gas flows aerodynamically over the walls of the container and circulates towards the opposite end down the walls thereof both internally and externally. This form of gas outlet makes the cold mass or the supply of refrigerators necessary to cool the container internally and externally between 20 and 50 degrees below zero is much lower than usual.

The diameter of the inverted bell (12) is variable and can be greater than that of the cooled container or somewhat smaller so that a more closed envelope is created to fit the upper edge of the container, favoring the circulation of the gas when bouncing on its inner surface. The frosting device for glasses, cups and other containers is made of stainless steel, although other materials with the same performance could be used.

Claims (1)

1º.-Frosting cooler of glasses, cups and other containers characterized by having a connection fitting (1), which connects the solenoid valve (2) to a flexible tube (3) through which the gas from an external CO2 bottle will enter which is coupled to the apparatus through a central connection body with flat rectangular base (4) of stainless steel that on its lower face (16) has been machined with cavities and that is extended downwards by means of two parallel shaped perpendicular pieces of inverted L (10). The solenoid valves (2) are also connected to the nozzle (13) through the hollow capillary tube (9), curved 180º in its upper part, through which the gas flows upwards. The nozzle (13) is covered by the inverted bell (12). 2º.-Frosting cooler of glasses, cups and other containers, according to the first claim, characterized in that the flexible tube (3) is formed by a reinforced stainless steel mesh that covers a smooth inner tube of polytetrafluoroethylene and at its ends incorporates two nuts swivels (15) for connection to the bottle and solenoid valve. 3º.-Frosting cooler of glasses, cups and other containers, according to previous claims, characterized in that the solenoid valves (2) is located on the underside (14) of the flat rectangular base (4) and is connected to a push button (5 ) which allows the gas output pulses to be performed manually. 4th.-Frosting cooler of vessels, cups and other containers, according to previous claims, characterized in that the nozzle (13) is provided with several holes (7) for the gas outlet. 5º.-Frosting cooler of vessels, cups and other containers, according to previous claims, characterized in that the nozzle (13) has a central hole (11) and several step-hole holes (8) distributed in several levels for the spraying of the gas.