RU2056591C1 - Air-conditioner sprinkling unit - Google Patents

Abstract

FIELD: refrigerating engineering. SUBSTANCE: air-conditioner sprinkling unit has a tray with liquid, provided with a horizontal partition forming the upper and lower vessels communicating with each other. The lower vessel is hermetically sealed, and a gap is formed between the level of liquid in it and horizontal partition for filling it with air under pressure. EFFECT: improved design. 2 cl, 1 dwg

Description

 The invention relates to techniques for air conditioning and can be used for air treatment in residential and public buildings.

Known irrigation chamber comprising a housing with a tray and nozzles located in the housing [1]
Closest to the invention is an air conditioner irrigation unit comprising a liquid pan connected to a device, for example nozzles for supplying liquid to an air treatment area [2]
A disadvantage of the known solution is the rather difficult operating conditions due to the need for continuous operation of the circulation pump, which supplies water from the sump to the nozzles, which leads to constant noise and increased energy consumption, as well as faster wear of the pump.

 An object of the invention is to improve operating conditions and reduce energy consumption.

 The essence of the invention lies in the fact that the unit for irrigation of the air conditioner, including a tray with liquid, connected to a device, for example nozzles, for supplying liquid to the air treatment area, has a tray equipped with a horizontal partition forming the upper and lower tanks communicating with each other; the lower container is sealed, and a gap is formed between the free surface of the liquid in it and the bottom of the upper container with the possibility of filling it with air under pressure.

 The bottom of the upper tank can have an opening with a valve, and in the gap a shell of their elastic material can be located with the possibility of filling it with air under pressure and interacting with the free surface of the liquid.

 The drawing shows the irrigation unit of the air conditioner, a vertical section along the longitudinal axis of the air conditioner.

 The irrigation unit of the air conditioner 1 includes a tray 2 with a horizontal partition 3, forming the upper tank 4 and the lower sealed container 5, communicating with each other, for example, by means of a valve 6.

 Between the liquid level in the tank 5 and the horizontal partition 3, which is the bottom of the upper tank 4, a gap 7 is formed, into which air can be supplied under pressure.

 Air can also be supplied to an elastic container (not shown in the drawing) located in the specified gap.

 The irrigation unit also includes nozzles 8 (or some other device, for example, a distribution tank with a perforated bottom) for supplying liquid to the air treatment zone. Water to the nozzles enters through valve 9 and pipe 10.

 Air conditioning 1 includes a heat exchanger 11 (air treatment area), an air intake 12, a fan 13, an air distribution device 14, and a pipe 15 for discharging moist air into the atmosphere. The intake of recirculated air can be carried out through the hole 16.

 The air distribution device 14 may have hinges 17 to change the angle of confusion.

 The irrigation unit of the air conditioner operates as follows.

 Previously, water is poured into the lower airtight container 5 to a level that ensures the formation of a gap 7. Valve 6 and valve 9 on the pipeline 10 are closed.

 Overpressure air is pumped into the gap 7 (or into an elastic container placed in the gap), as a result of which the water in the lower container 5, which is under pressure, after opening the valve 9 through the pipeline 10, flows to the nozzles 8.

 The air through the air intake 12 is sucked in by the fan 13 from the atmosphere and passes through the tubular heat exchanger 11, where it is moistened with water from the nozzles 8 in the annular space. Excess water flows into the upper tank 4.

 The cooling of the air passing through the heat exchanger 11 occurs both by lowering the temperature of the flowing air to the temperature of the wet thermometer, and by evaporating the water film from the surfaces of the tubular elements of the heat exchanger 11 (indirect evaporative cooling).

 Wet air is discharged into the atmosphere through the nozzle 15, and dry, cooled air enters the air-conditioned volume. The required output speed is provided by changing the angle of the plates (using hinges 17) of the air-distributing device 14.

 The air conditioner operation cycle ends after all water is displaced from the tank 5, and the air pressure in it becomes equal to atmospheric. After that, the valve 6 opens and water from the upper tank 4 flows into the lower tank 5.

 To carry out a new cycle, it is necessary to add water to the lower tank 5 with the valve 9 closed, which can be done through the upper tank 4 with the valve 6 open. Then the valve 6 is closed, the container 5 is sealed and air under pressure is pumped into the gap 7 to its calculated value.

 The irrigation unit is ready for use again. A new cycle of operation of the air conditioner begins with opening the valve 9 and turning on the fan 13.

 In some cases, it may be appropriate to mix the air from the air-conditioned volume into the air cooling the tubular heat exchanger 11. For this purpose, an opening 16 is used in the housing of the air conditioner 1 through which recirculation is carried out.

 In the same cases, when it is necessary to mix a certain amount of moist air (discharged into the atmosphere through the pipe 15) into the air distribution device 14, this can be done through an opening in the rear wall of the heat exchanger 11 (not shown in the drawing).

 The invention improves the operating conditions of the air conditioner and reduces energy consumption due to the cyclical operation of the air source pumped into the gap. The wear and tear of equipment is reduced, as well as the noise from the operation of electrical equipment. In general, operating costs are reduced by 25-30%

Claims (2)

 1. UNIT OF IRRIGATION OF THE CONDITIONER, containing a tray with liquid connected to a device, for example nozzles, for supplying liquid to the air treatment zone, characterized in that the tray is provided with a horizontal partition forming upper and lower tanks communicating with each other, while the lower tank is made tight, and between the free surface of the liquid in it and the bottom of the upper tank, a gap is formed with the possibility of filling it with air under pressure.  2. The node according to claim 1, characterized in that the bottom of the upper tank has an opening with a valve.

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