CZ308100B6 - Multifunctional adiabatic unit - Google Patents

Abstract

The multifunctional adiabatic unit comprises an air chamber (1) formed by a perforated duct (18). A connecting duct (6) is connected to the upper end of the air chamber (1) in which the fan (3) is tightly inserted. The lower end of the air chamber (1) is linked to a sedimentation tank (2) consisting of solid piping (9) and a lower cap (14). A gap is formed at the joint between the perforated duct (18) and the full duct (9) by means of least three spacers (15) around the perforated duct (18). The solid piping (9) is tightly connected to the water tank (7) through the upper lid (8) of this water tank (7). The lower end of the solid piping (9) is closed by a lower cap (14) above which overflow openings (13) are formed over the circumference of the solid line (9). The perforated piping (18) and the solid piping (9) have a filter (5) on the inner casing, an upper edge fixed in the connecting piping (6) below the fan (3) and overlapping the overflow openings (13). A flexible tube (11) is attached to the outer wall of the solid pipe (9), the perforated pipe (18) and the connecting pipe (6). Its lower end in the water tank (7) is connected to the outlet of the pump (10) and its upper end flows into the fan (3) via a low pressure nozzle (12) oriented by its spray holes above the fan blades (3).

Description

Technical field

The present invention relates to an improved system for cooling, filtering, humidifying and ionizing air inside apartment rooms, offices with energy efficiency, and improving the availability of these systems for users.

BACKGROUND OF THE INVENTION

At present, a number of different devices are used to cool the interior, clean, humidify and ionize the air.

One group of these devices cools the air by pumping intake air through wet or humidified filters. The external air passes through special water-saturated cellulose filters and, as a result, loses some of its heat during water evaporation, thereby lowering its temperature. An improved alternative to these devices purges the intake air through special rotating discs that are moistened and eluted by rotating their bottom in a water bath. There is little air ionization. These devices have relatively low efficiency with frequent filter changing or washing.

Another possible device is a scrubber and air purifier, which purifies the air by drawing an air stream through a water bath and partially ionizes the air by impacting the surface. Organic substances, dust and gases are trapped in the water in the tank. These devices are relatively difficult to clean and are practically not used for cooling.

Some devices use water mist to cool and purify the air through atomization of water droplets, which is achieved by high pressure pumps with a working pressure of 60-100 bar and nozzles with a deflector, by which water is sprayed at high speed into microparticles. Under appropriate conditions, depending on air humidity and temperature conditions, the ambient temperature can be reduced by up to 10 ° C. These devices are used outdoors.

Other devices produce a dry water mist using a special atomizing nozzle so that the air passing through the nozzle sucks in the water and it breaks into the mouth of the nozzle by hitting the deflector on the micro droplets. The water mist thus formed combines with the particles of airborne dust and becomes heavy enough to drop to the ground. This equipment is used in various industries to reduce dust in the open air.

Similar devices, such as high-pressure water mist sprayers, are devices where the high-pressure nozzles spray the produced water mist into the air chamber, where the water mist is entrained, stirred and blown by the air stream. They are mainly used in industrial areas where dampening is required. The accompanying phenomenon of adiabatic humidification is air cooling. These devices are robust and structurally demanding because they use high-pressure pumps and high-pressure nozzles to atomize water and produce water mist. Not suitable for residential, office and other rooms.

SUMMARY OF THE INVENTION

These deficiencies are largely overcome by the multifunctional adiabatic unit for cooling, washing, ionizing and humidifying the room air of the present invention. This multifunctional adiabatic unit includes an air chamber and a water tank with a pump,

Which is connected by a cable with a fan. The essence of the new solution is that the air chamber is formed by a perforated duct, where a connecting duct is connected to the upper end of the air chamber, in which a fan is tightly inserted. The lower end of the air chamber is connected to a sedimentation tank formed by a full duct. A gap is formed at the joint between the perforated pipe and the solid pipe by means of at least three spacers of spacers spaced at least three regularly around the perforated pipe. The full pipe is tightly connected to the water tank through a circular opening in the upper lid of the water tank. The lower end of the solid pipe is closed by a lower lid above which overflow openings are formed around the circumference of the solid pipe. Furthermore, the perforated duct and the solid duct on the inner shell are provided with a filter, fastened by an upper edge in the connecting duct below the fan and overlapping the overflow openings with its lower edge. A flexible pipe is attached to the outer wall of the solid pipe, the perforated pipe and the connecting pipe. Its lower end passes through the tight upper lid, through a cutout in a circular opening, into the water tank where it is connected to the pump outlet. The upper end of the flexible tube is discharged into the fan through a low pressure nozzle oriented by its spray holes above the fan blades. In the upper lid there is also an opening for replenishing the liquid in the water reservoir.

In one possible embodiment, the filter is suspended by its upper edge in the connecting pipe by means of a ring which is located below the fan and is secured over the walls of the connecting pipe by at least three screws.

The low-pressure nozzle may be a tube in which openings gradually increase in positions above the fan blades. This pipe is connected to the fan through a rubber grommet through an opening in the fan housing. The pipe is placed horizontally above its blades and on the opposite side it is provided with a plug in which it is fixed to the fan casing by a locking screw.

In a preferred embodiment, an antibacterial silver cube may be inserted inside the water container. It is also possible to provide the inner surface of the flexible tube with an antibacterial coating.

In order to move the unit freely, it is advantageous if the water tank is located on the chassis.

In this embodiment, the advantages of a cooler and air humidifier are advantageously combined with a maintenance-free purifier and an air ionizer. It is only necessary to replenish and replace the water in the tank, remove the sludge from the sedimentation tank and occasionally wash the filters and replace or clean the antibacterial silver cube annually. At very low energy requirements, all the required functions are fulfilled at the same time and the use is multipurpose. In summer it is cooling and humidifying rooms, especially when air is dried by air conditioning. In winter, the unit is used to humidify the rooms dried by heating and ventilation. At the same time, the multi-function adiabatic unit acts as an efficient air purifier with natural ionization for a healthy environment.

Clarification of drawings

The multifunctional adiabatic unit according to the proposed solution will be further elucidated on the basis of Fig. 1 of the attached drawing.

DETAILED DESCRIPTION OF THE INVENTION

The multifunctional adiabatic unit according to the present invention is schematically indicated in Fig. 1 of the attached drawing.

This unit comprises an air chamber 1 which is formed by a perforated duct 18

The filter material 5 is selected according to the need for filtration quality. In the example, a polyester filter is used, but a special activated carbon polyester filter can be used, for example, to absorb cigarette smoke. A connecting duct 6 is connected to the upper end of the air chamber 1, to which a fan 3 with an intake opening with an inlet grille 4 is connected. The lower end of the air chamber 1 is connected to a sedimentation tank 2 formed by a full duct 9 closed at its lower end by a lower lid 14 and is tightly connected through a circular opening 8.1 of the top cover 8 to the water reservoir 7. A gap is formed at the joint between the perforated duct 18 and the full duct 9 by means of at least three spacers 15 spaced apart at regular intervals around the perforated duct 18. In the wall of the full conduit 9, approximately 5 cm from the lower lid 14, overflow openings 13 are provided for the water covered by the filter 5. At the same time, a flexible tube 11 is attached to the wall of the full conduit 9, the perforated conduit 18 and the connecting conduit 6. The upper end of the flexible tube 11 is discharged into the fan 3 via a low pressure nozzle 12. This low pressure nozzle 12 is in the example shown. The openings 19 are formed above the fan blades 3. The low pressure nozzle tube 12 in the example passes through the rubber grommet 21 through an opening in the fan casing 3 and is fixed on the opposite side by a locking screw. 23 through fan housing 3 to u cpávky 20.

In the upper lid 8 there is also an opening 8.3 for replenishing the water in the water reservoir 7.

In the example shown, the filter 5 is suspended by its upper edge in the connecting line 6 by means of a ring 16 located below the fan 3 and secured through the walls of the connecting line 6 by at least three screws 22.

The inner surface of the pipe 11 used to pump water from the water reservoir 7 into the low pressure nozzle 12 may be provided with an antibacterial coating, for example a nanoadditive with silver, or an antibacterial silver cube may be inserted into the space of the water reservoir.

It is possible to place the water reservoir 7 on the chassis, which is not shown in the drawing, and thus to be easily moved as needed.

It is also possible to control the switching on and off of the fan 3 and the pump 10 (not shown in the drawing) with a programmable timer.

If the transparent water reservoir 7 is not used, it is possible to check the water level in the reservoir by means of a float with a rod, that is to say an indicator passing through the lid 8.

The air is drawn from the room through the inlet grille 4 by the fan 3, the air is pushed into the air chamber 1 formed by the cover realized by the perforated duct 18 pressed by the filter sleeve 5, suspended in the connecting duct 6 by a ring 16 and secured through the connecting ducts 6 by screws 22. The perforated conduit 18 is connected at the bottom to the full conduit 9 so that any water droplets pushed through the filter 5 and the apertures of the perforated conduit 18 can flow through the gap formed by spacers 15 between the perforated conduit 18 and the full conduit 9. apertures 13 into a water reservoir 7 in which the assembly is mounted on a wide base formed by the lower lid 14.

In the water reservoir 7 there is a pump 10 which pumps water through a flexible tube 11 into a low-pressure nozzle 12 with holes through which water drips or is sprayed onto the fan blades 3, which breaks water droplets into microparticles at high speed, ionizing them to form cold water. fog. The resulting mixture of water vapor, water mist and cooled air is mixed with air intake fan 3 in air chamber 1, and in the form of water mist formed by atomization of water upon a sharp impact of water droplets on fan blades 3, these microparticles are carried by air through the air chamber. 1, further pass through the filter 5 and the holes of the perforated duct 18 back into the room.

-3GB 308100 B6

With the help of water mist microparticles, the air is scrubbed, freeing the smallest dust particles, gaseous irritants such as flue gases from stoves, toxic formaldehyde or building adhesive fumes. These microparticles of water mist increase their weight and sink into the lower part of the sedimentation tank 2, or are washed there with water droplets from the filter 5, where the sediments 17 are deposited and the water is forced through the filter 5 through the overflow holes 13 back into the water reservoir 7. Settled sediments 17 can be easily removed by removing the lower lid 14. If the sediments 17 clog the overflow openings 13, the water can still overflow through the holes of the perforated pipe 18.

The water change intervals are extended by inserting an antibacterial silver cube.

Depending on humidity and air temperature, the water mist microparticles rapidly absorb thermal energy from the incoming air, vaporizing rapidly, thereby rapidly cooling the air.

In the event of a sharp impact of water droplets on the rapidly moving blades of the fan 3, natural air ionization occurs. When a water drop hits the obstruction created by the fan blade 3, ions are formed by separating small particles with a negative charge from the surface of the water having a positive charge, similar to the nature after a storm, or by waterfalls.

The multi-function adiabatic unit, unlike air conditioners that dry the air, moisturises it naturally.

Industrial applicability

The multifunctional adiabatic unit according to the present solution expands the offer of devices for cooling, dampening, cleaning and ionization of air in rooms of residential, office and other, in health and school facilities, especially where there are increased demands on cleanness and air quality. This new multi-functional adiabatic unit makes these needs more complex, cost-effective, and largely more efficient.

PATENT CLAIMS

Claims (6)

Multifunctional adiabatic unit comprising an air chamber (1) and a water tank (7) with a pump (10) which is connected by a cable to a fan (3), characterized in that the air chamber (1) is formed by perforated ducts (18) wherein a connecting duct (6) is connected to the upper end of the air chamber (1) in which the fan (3) is tightly inserted, and the lower end of the air chamber (1) is connected to the sedimentation tank (2) formed by the full duct (9) wherein a gap is formed at the joint between the perforated pipe (18) and the solid pipe (9) by means of at least three regularly spaced spacers (15) distributed around the perforated pipe (18), and wherein the solid pipe (9) is closely connected into the water reservoir (7) through a circular opening (8.1) in the upper lid (8) of this water reservoir (7) and the lower end of the solid line (9) is closed by a lower lid (14) over which created by p the perforated ducts (18) and the full duct (9) on the inner shell are provided with a filter (5), fastened by an upper edge in the connecting duct (6) below the fan (3) and overlapping the overflow openings (13), and to the outer wall of the full duct (9), the perforated duct (18) and the connecting duct (6), a flexible tube (11) is attached, the lower end of which passes through the upper lid (8). a circular orifice (8.1), into a water tank (7) where it is connected to the outlet of the pump (10), and whose upper end flows into the fan (3) via a low pressure nozzle (12) oriented by its spray holes above The fan blades (3) are further formed in the upper lid (8), and an opening (8.3) for replenishing the liquid in the water tank (7) is still provided. Multifunctional adiabatic unit according to claim 1, characterized in that the filter (5) is suspended by its upper edge in the connecting duct (6) by means of a ring (16) located below the fan (3) and secured over the walls of the connecting duct (6). at least three screws (22). Multifunctional adiabatic unit according to claim 1 or 2, characterized in that the low-pressure nozzle (12) is formed by a pipe in which, in places above the blades of the fan (3), successively increasing openings (19) are formed, the pipe being orifice. into the fan (3) through a rubber grommet (21) through an opening in the fan casing (3), it is placed horizontally above its blades, and on the opposite side is provided with a gland (20) in which it is fixed to the fan casing (3) 23). Multifunctional adiabatic unit according to any one of claims 1 to 3, characterized in that an antibacterial silver cube is inserted inside the water reservoir (7). Multifunctional adiabatic unit according to any one of claims 1 to 4, characterized in that the inner surface of the flexible tube (11) is provided with an antibacterial coating. Multifunctional adiabatic unit according to any one of claims 1 to 5, characterized in that the water reservoir (7) is located on the chassis.