RU2270403C1 - Air conditioner - Google Patents

Abstract

FIELD: air-conditioning systems, applicable in refrigerating engineering.

SUBSTANCE: the air conditioner has at least one fan located in the axis, and rotating thermobatteries, a container adjoins the hot junctions of the thermobattery, the container is connected to the radiator by a pipe-line or duct through the axis.

EFFECT: improved separation of flows of heated and cooled airs and expanded field of application at a use of rotating thermobatteries.

2 dwg

Description

The invention relates to air conditioning systems and can be used in refrigeration.

A well-known air conditioner with a damper, comprising a generator with autonomous thermoelectric batteries connected to heat exchangers, a closed water circuit located between the cold junctions of the generator’s thermopile and the hot junctions of the conditioner’s thermopile (see Copyright Certificate SU No. 1010413).

The use of fixed thermal batteries does not allow obtaining high efficiency; the design is complex, inconvenient to maintain, metal consuming and expensive.

Known air conditioning (see RF patent No. 2196275), containing a fan with blades, thermopile installed on the fan blades. In this case, the fan blades are made of two parts, rotated relative to the transverse plane of the axis of the fan in different directions.

The manufacture of two-part fan blades and the installation between the parts of the screen blades complicates, to a certain extent, the intake and exhaust of heated and cooled air, which narrows the scope of the possible application of this design.

The task was set to improve the separation of flows of heated and cooled air and increase the scope when using rotating thermal batteries,

This problem is solved by the fact that in the air conditioner, which includes at least one fan located on the axis, and rotating thermopiles, a capacitance adjacent to the hot junctions of the thermopile is connected by a pipe or channel through the axis to the radiator.

Liquid cooling of hot junction of thermo batteries allows to improve separation of heated and cooled air flows and increase the scope when using rotating thermo batteries.

Comparative analysis with the prototype allows us to conclude that the proposed air conditioner is characterized in that a capacitance connected to the hot junctions of the thermopile is connected by a pipe or channel through the axis to the radiator.

An analysis of the proposed solution showed that the set of essential features of the proposed solution was not previously known, therefore, it meets the condition of patentability “novelty”.

The analysis of known solutions in this field showed that the claimed solution has features that, when used in the claimed combination of essential features, makes it possible to obtain a new effect, therefore, the claimed solution meets the patentability condition “inventive step.

Figure 1 shows the air conditioner, where the liquid washing the hot junctions of the thermal batteries is cooled in a rotating radiator.

Figure 2 shows the air conditioner, where the liquid washing the hot junctions of the thermal batteries is cooled in a stationary radiator.

The conditioner contains the axis 1, the blades 2 located on it. The thermopiles 3 are installed on the blades 2 or the thermopiles 3 partially or completely replace the blades 2. A container 4 adjoins the hot junctions of the thermopiles 3, connected through pipelines or channels 5 through the axis 1 with a rotating radiator 6. Pipelines or channels 5 are connected to pump 7. Axis 1 and pump 7 are connected to electric motor 8.

It is possible to use a fixed radiator 9 by installing a liquid ejector 10 on the axis 1, at the end of which there is a fluid collector 11 connected to the fixed radiator 9. At the end of the axis 1 there is a sealed chamber 12 connected to pipelines or channels 5. The sealed chamber 12 is also connected to fixed radiator 9.

Air conditioning works as follows.

The electric motor 8 rotates the axis 1 and the pump 7. Together with the axis 1, the blades 2 rotate, the rotating radiator 6. The fluid pumped by the pump 7 passes through pipelines or channels 5 through the axis 1 to the tanks 4, on the blades 2, adjacent to the hot junctions of the thermal batteries 3 The liquid, taking heat from the hot junctions of the thermal batteries 3, passes through pipelines or channels 5 through the axis 1 to the rotating radiator 6. In the rotating radiator 6, the liquid transfers heat to the air, cools and returns to the pump 7.

In the second embodiment, the heated liquid passes through pipelines or channels 5 through the axis 1 to the liquid ejector 10. Under the action of centrifugal force, the liquid is discharged to the stationary liquid collector 11, and from there the liquid flows to the stationary radiator 9. Due to the constant discharge of liquid from the air conditioner to the stationary radiator 9 in pipelines or channels 5 creates a vacuum. The liquid from the sealed chamber 12 is sucked into the pipelines or channels 5. In the sealed chamber 12, in turn, a vacuum is also created, and the cooled liquid from the stationary radiator 9 is sucked into the sealed chamber 12.

The possibility of carrying out the invention and providing a technical result, which is expressed in improving the separation of flows of heated and cooled air and increasing the scope when using rotating thermal batteries, is confirmed by the drawings and a description of the design of the air conditioner in a static state and in action.

This indicates that the claimed solution meets the requirement of industrial applicability and is possible for implementation using existing modern technologies.

Claims (1)

An air conditioner comprising at least one fan located on the axis and rotating thermopiles, characterized in that a capacitance adjacent to the hot junctions of the thermopile is connected by a pipe or channel through the axis to the radiator.

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