GR20210100641A - Evaporative air conditioning - Google Patents

Abstract

The invention relates to an evaporative air conditioner having an evaporation unit (1) and a condenser (2). The evaporation unit has a coil (3) for cooling the refrigerant and a fan (4) for enabling the circulation of the cold air. The liquefied refrigerant is passed through a refrigerator (7) with another coil (8) and through plant filters (9) which are sprayed with water by drippers (13) before the produced air circulates to the space to be cooled, through another fan (15).

Description

DESCRIPTION

THE FIELD OF TECHNOLOGY

The invention refers to the field of mechanical engineering and specifically to the field of lighting and heating. Even more specifically it refers to the field of heating and ventilation. In particular, it refers to the field of air conditioning, humidification and ventilation. It specifically refers to an air conditioning device that uses evaporative cooling.

THE HISTORY OF THE INVENTION

The disclosed evaporative conditioner has not been shown in the prior art.

To date there are two main types of cooling systems. Both an air cooler and an air conditioner do exactly the same thing - produce cool air. The difference lies in how they cool the air. Air coolers use a fan to blow hot air through a liquid absorbent filter (evaporative cooling). As the air passes through the wet filters, the water evaporates and cools the air. This cooler air is then recirculated into the room.

Air conditioners, on the other hand, work by taking warm, moisture-rich air and replacing it with dry, cold air, with the help of a liquid (freon - ammonia) called a refrigerant, it cools the indoor air.

But all refrigerant-based air conditioners produce warm air as a result of the cooling process, this includes the well-known portable units. This warm air must be vented out of the room being cooled, otherwise it results in a net increase in temperature inside the room. This is why portable air conditioners have a vent pipe that is placed outside a window to allow the warm air to escape to the outside.

An air conditioning unit cools the air it expels by taking in room temperature air through a heat exchange process that works in a very similar way to a home refrigerator. The cooling process involves compressing a refrigerant gas into the unit's motor which makes it very cold. This gas enters through a network of thin tubes and the air passing through it freezes.

Air conditioners have a major disadvantage in that part of the heat exchange process involves producing slightly more hot air than cold. The warm air is separated from the cold air and vented from the unit to the outside of the building via a vent pipe.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing an evaporative air conditioner.

An advantage of the present invention is to offer an air conditioning device which can be installed easily, without requiring restoration and repair work.

A further advantage of the present invention is that it does not have piping that creates noise, resulting in significantly lower operating noise.

A further advantage of the invention is that it has a small energy footprint, circulating air that is free of dust and above all does not dry out the environment, maintaining the desired humidity levels.

A further object of the invention is the presence of an evaporative air conditioner, which does not have an external unit, nor does it require openings in walls and windows for cooling.

Another object of the invention is the presentation of an evaporative air conditioner that produces air with increased humidity rates, through the evaporation of water, in order to avoid the creation of a dry environment in the interior.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings in which it is illustrated in an illustrative non-limiting manner.

Figure 1 shows an indicative diagram of the evaporative air conditioner with all the individual parts that make it up.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings, we will describe indicative applications of the evaporative air conditioner, so that its mode of operation becomes apparent.

Evaporative cooling is the process in which water molecules separate from the surface of the water and mix with the air. Instead of expelling the warm air to the outside environment, it is led inside the room. Absorbing room air (hot and cold) with the fan of the device, it is led to the filters of the device, which by the method of evaporation of moisture produces cold air, which is circulated in the room by the fan of the device.

The evaporative air conditioner of the invention consists of an evaporative unit (1), 1 and a condenser (2). The evaporator unit (1) is known to consist of a coil (3), which is a grid of fine pipes, between which the hot air passes and cools. The cooled air is extracted by a fan (4) towards the space to be cooled. Inside the coil (3) as well as in the piping (5), a pressurized cooling liquid circulates which, during its circulation, is heated, vented and ends up in a pump (6).

The pump (6) circulates the gaseous refrigerant, which has a relatively high temperature, through the condenser (2). The condenser (2) includes a cooler (7) with another coil (8) lowering the gas temperature. The warm ambient air passes through the condenser (2) which further includes air filters (9) made of plant materials. Air passes through small lumens (10). The air filters (9) are humidified by an additional water circulation system (11). The circulation system (1 1) supplies water through pipes and a pump (12) to the top of the air filters (9), where drippers (13) spray the filters (9). The water passes through the filters (9) and collects at the bottom in a tank (14) to be recharged. The filling of the tank (14) can be done either by the user, or automatically by connecting it to the water supply network. In the case of manual filling, it may have a refill sensor to notify the user of filling with water. On the contrary, in the case of automatic filling, it may be indicatively equipped with an electromagnetic valve that will take care of automatic filling.

The air that has passed through the liquefied filters (9) is supplied and circulated through another fan (15) in the space that is intended to be cooled. Essentially, the specific air achieves the increase of humidity in the space, in order to avoid the dry environment created by the existing air conditioning units. At the same time, the refrigerant gas circulating in the pipelines is directed to the throttle valve (16) to liquefy and continue the cycle. The air supplied from the condenser (2) through the fan (15) in the room, does not show a significant difference with respect to the ambient air in terms of temperature difference, but even a difference of the order of 3<°>C, in combined with the cold air produced by the evaporator unit (1) and circulated by the fan (4) contribute to the creation of a cool climate, without a dry environment.

It should be noted here that the description of the invention has been carried out with reference to illustrative examples of application, to which it is not limited. Therefore, any change or modification in anything related to the shape, dimensions, materials used and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the purposes and goals of the present invention.

Claims (2)

1. Evaporative air conditioner, consisting of an evaporative unit (I), with a coil (3), piping (5) for the circulation of cooling liquid through a pump (6) and a fan (4) for the circulation of the produced cold air and from a condenser (2 ) with a cooler (7), another streamer (8) and plant filters (9) perforated with tubes (10), characterized in that drippers (13) supplied by a water circulation system (II) spray the plant filters (9) with water through which air circulates in the environment through a fan (15). 2. Evaporative air conditioner, according to claim 1, characterized in that the water passing through the plant filters (9) is collected in a tank (14) and fed back to the drippers (13) by a network of pipes and a pump (12).