RU2745532C1 - Dehumidifier (options) - Google Patents

Abstract

FIELD: indoor air treatment.SUBSTANCE: group of inventions relates to a device for indoor air treatment. The device for air dehumidification includes an evaporator, a compressor, a condenser and a capillary tube that are connected to each other, thereby forming a circuit for the movement of a coolant. The device also has a fan, a recuperator, a channel for the main air flow and a channel for an additional air flow. According to the invention, the recuperator is located on the path of the main and additional air flows and is designed to carry out their heat exchange. In the first embodiment, the recuperator is located between the evaporator and the condenser. In the second embodiment, the condenser is an outdoor unit of an air conditioner.EFFECT: inventions are aimed at improving efficiency of air dehumidification.3 cl, 2 dwg

Description

The technical solution relates to a device for the treatment of indoor air, in particular to a dehumidifier of the condensing type.

A device for dehumidifying air is known from the prior art, comprising an inlet for an air flow from a room and an inlet for an external air flow into the room. The device contains a heat pump including an evaporator, a condenser and a compressor that form a coolant circulation loop. At the inlet for the air flow from the room and the inlet for the external air flow into the room, there is a recuperator for heat exchange of the external cold and internal warm air flows. Patent for invention No. FR 2944587, IPC F24F1 / 02, published on May 11, 2012.

The main disadvantage of this technical solution is the inability to process a sufficient volume of indoor air. This design does not differ in the efficiency of removing excess moisture from the room. In addition, this location of the recuperator assumes the supply of still humid air streams to it. They are dehumidified after heat exchange. Such a configuration of the elements of the device does not allow either to effectively regulate the temperature of the treated air, or to dehumidify it.

Known technical solution, selected as the closest analogue, representing a device for dehumidification of air, including the connected compressor, evaporator, throttle device and condenser, forming a circuit for the circulation of the coolant. The device provides an inlet for supplying air from the room, part of which is pre-cooled and dehumidified by a recuperator and an evaporator located in the path of its cyclic flow. The other part of the stream, without being involved in the process of dehumidification and heat exchange in the recuperator, passes through the condenser, already at the outlet meeting the dehumidified stream. Utility model patent No. CN 208983827, IPC: F26B21 / 08, published 2019.06.14.

Distinctive features of the proposed solution is the location of the recuperator in the path of the main and additional air flows and its implementation with the possibility of heat exchange of these flows.

In the known technical solution, only one part of the stream is dehumidified and cooled. The other part remains essentially wet. Such a design cannot fully solve the problem of effective dehumidification of air.

The technical result of the proposed technical solution is manifested in an increase in the efficiency of air dehumidification.

The efficiency of air dehumidification, in particular, is achieved by increasing the volume of processed air while maintaining the energy consumed by the device.

The technical result is achieved by the fact that in a device for dehumidification of air, which includes an evaporator, a compressor, a condenser and a capillary tube connected to each other, forming a circuit for the movement of the coolant, a fan configured to inject an air flow from the evaporator to the condenser, a recuperator, a channel for the main flow air, including an inlet for supplying the main air flow from the room and an outlet for returning the treated main air flow to the room, and passing through the evaporator, recuperator and condenser, a channel for an additional air flow, including an inlet for supplying an additional air flow from the room and an outlet for returning processed additional air flow into the room, the recuperator is located between the evaporator and the condenser, in the path of the main and additional air flows, and is configured to carry out their heat exchange. In a preferred embodiment, the recuperator includes a heat exchanger, a storage tank for condensed water and a pipe for draining condensed water to a drain. The technical result is also achieved by the fact that in a device for dehumidification of air, including an evaporator, a compressor, a condenser and a capillary tube, which form a circuit for the movement of the coolant, a fan made with the possibility of injecting an air flow from the evaporator to the condenser, a recuperator, a channel for the main air flow, including an inlet for supplying the main air flow from the room and an outlet for returning the treated main air flow to the room, and passing through the evaporator and recuperator, a channel for an additional air flow, including an inlet for supplying an additional air flow from the room and an outlet for returning the treated additional air flow into the room, the recuperator is located on the path of the main and additional air flows, and is designed to carry out their heat exchange, the condenser is an external unit of the air conditioner.

Dehumidifiers are used to remove excess moisture from rooms with high levels of heat and humidity, such as warehouses, indoor swimming pools, vertical farms, hospitals, industrial workshops with wet production, etc.

Excess moisture is the reason for the inconsistency of the microclimate parameters in the room with the optimal values, it can lead to malfunction of the equipment, violation of the conditions of the technological process, storage and operation of various materials.

The connected evaporator, compressor, condenser and capillary tube form a circuit for the movement of a heating medium, such as a refrigerant. A compressor is required to compress the refrigerant, which generates heat. The capillary tube expands the refrigerant, which causes it to cool. Thus, the evaporator heat exchanger has a low temperature to cool the air flow passing through it, and the condenser heat exchanger has a high temperature to heat the air flow passing through it.

A recuperator located between the evaporator and the condenser, in the path of the main air flow through the evaporator and the additional air flow, allows an increase in the volume of processed air. An additional air flow, dried and slightly cooled due to heat exchange, returns back to the room through one outlet of the recuperator, and slightly warmed air from the evaporator, through the second outlet of the recuperator, is fed to the condenser, where it is additionally heated and also fed back to the room. Thus, the claimed technical solution makes it possible to obtain a two-stage dehumidification system with an increased volume of processed air per unit of consumed energy.

In another embodiment, the condenser is an outdoor unit of the air conditioner, with the recuperator also located in the path of the main and secondary air flows. In this version, the air from the recuperator outlets is supplied directly back to the room. Thus, dehumidification will be coupled with indoor air cooling. An increase in the volume of treated air is also achieved here.

The claimed technical solution is further explained with the help of figures, which conditionally shows possible versions of the device for air drying.

FIG. 1 is a schematic diagram of the structure of an air dehumidifier according to a first embodiment of the present invention.

FIG. 2 is a schematic diagram of the structure of an air dehumidifier according to a second embodiment of the present invention.

FIG. 1, 2 shows a device (1) for dehumidification of air, including an evaporator (2) containing a heat exchanger, a storage tank (10) for condensed water and a tube (11) for draining condensed water to the drain, a compressor (3), a condenser (4) , a capillary tube (5), a fan (not shown), a recuperator (6) containing a heat exchanger, a storage tank (12) for condensed water and a tube (13) for draining condensed water to the drain, inlet (7) for supplying the main stream ( 14) air from the room and an outlet (8) for returning the treated main flow (14) of air to the room, inlet (9) for supplying an additional flow (15) of air from the room and an outlet (16) for returning the treated additional flow (15) of air into the room.

Next, the structure of the air dehumidifier (1) will be described with reference to the figures.

The device (1) for dehumidification of air includes an evaporator (2), a compressor (3), a condenser (4) and a capillary tube (5) connected to each other, forming a circuit for the movement of a heat carrier, that is, a refrigerant such as freon.

The device (1) includes a fan configured to pump air flows (14) and (15) from the evaporator (2) to the condenser (4).

The device (1) has an inlet (7) for supplying the main air flow (14) from the room and an outlet (8) for returning the processed main air flow (14) to the room, forming a channel for the main air flow (14). The device (1) also has an inlet (9) for supplying an additional air flow (15) from the room and an outlet (16) for returning the processed additional air flow (15) to the room, forming a channel for an additional air flow (15).

On the way of the main flow (14) and additional flow (15) of air, a recuperator (6) is made with the possibility of their heat exchange. In the first embodiment (Fig. 1), the recuperator (6) is located between the evaporator (2) and the condenser (4). In the second embodiment (Fig. 2), the condenser (4) is an external unit of the air conditioner, and the recuperator (6) is located between the evaporator (2) and the outlets (8) and (16) of the main and additional streams (14) and (15 ) air.

In an advantageous embodiment, the recuperator (6) includes a heat exchanger, a storage tank (12) for condensed water and a tube (13) for draining condensed water to the drain. Preferably, the evaporator (2) includes a heat exchanger, a storage tank (10) for condensed water and a tube (11) for draining the condensed water to a drain.

The device (1) can have several recuperators (6) installed in cascade.

Preferred options for using the claimed device (1) for dehumidification of air are shown below by examples.

The device (1) for dehumidification is installed in a room with high humidity.

According to the first embodiment (Fig. 1), the main flow (14) of moist warm air enters through the inlet (7) for moist warm air from the room, and the additional flow (15) of moist warm air enters through the additional inlet (9) for moist warm air from the room. Then the main stream (14) of moist warm air passes through the evaporator (2), through which the main stream (14) of moist warm air becomes dry and cold, and is supplied to the recuperator (6). An additional flow (15) of moist warm air is immediately supplied to the recuperator (6).

By means of the recuperator (6), the main stream (14) of dry cold air becomes warmed up, and the additional stream (15) of moist warm air becomes cooled and dried.

Further, the main stream (14) of the heated dry air passes through the condenser (4), through which the stream (14) becomes warm dry air and exits through the corresponding outlet (8) into the room. An additional flow (15) of cooled dried air exits through the corresponding outlet (16) into the room.

According to the second embodiment (Fig. 2), the main stream (14) of moist warm air enters through the inlet (7) for moist warm air from the room, and an additional stream (15) of moist warm air enters through the additional inlet (9) for moist warm air from the room. Then, the main stream (14) of moist warm air passes through the evaporator (2), through which the main stream (14) of moist warm air becomes dry and cold, and is supplied to the recuperator (6). An additional flow (15) of moist warm air is immediately supplied to the recuperator (6).

By means of the recuperator (6), the main stream (14) of dry cold air becomes warmed up, and the additional stream (15) of moist warm air becomes cooled and dried.

Further, the main stream (14) of heated dry air and an additional stream (15) of cooled dried air exit through the corresponding outlets (8) and (16) into the room, where they are subjected to further processing (heating or cooling) by means of an air conditioner.

The presented figures, the description of the design and use do not exhaust the possible options for execution and do not in any way limit the scope of the proposed technical solution. Other variants of execution and use are possible within the scope of the claimed formula. The given examples of the implementation of the device for dehumidification of air and its use do not limit the scope of the claimed solution to the presented particular forms of execution of individual components or stages.

The device for dehumidification of air is characterized by increased efficiency, in particular, by means of a recuperator located in the path of the main and additional air flows, and made with the possibility of carrying out their heat exchange.

Claims (3)

1. A device for dehumidification of air, including the interconnected evaporator, compressor, condenser and capillary tube, forming a circuit for the movement of the coolant, a fan made with the possibility of forcing an air flow from the evaporator to the condenser, a recuperator, a channel for the main air flow, including an inlet for supply of the main air flow from the room and an outlet for returning the treated main air flow to the room, and passing through the evaporator, recuperator and condenser, a channel for an additional air flow, including an inlet for supplying an additional air flow from the room and an outlet for returning the treated additional air flow to a room, characterized in that the recuperator is located between the evaporator and the condenser, in the path of the main and additional air flows, and is configured to carry out their heat exchange. 2. A device for dehumidification of air according to claim 1, characterized in that the recuperator includes a heat exchanger, a storage tank for condensed water and a tube for draining condensed water into the drain. 3. A device for dehumidification of air, including the interconnected evaporator, compressor, condenser and capillary tube, forming a circuit for the movement of the coolant, a fan made with the possibility of forcing an air flow from the evaporator to the condenser, a recuperator, a channel for the main air flow, including an inlet for supplying the main air flow from the room and an outlet for returning the treated main air flow to the room, and passing through the evaporator and recuperator, a channel for an additional air flow, including an inlet for supplying an additional air flow from the room and an outlet for returning the treated additional air flow to the room, characterized in that the recuperator is located on the path of the main and additional air flows and is configured to carry out their heat exchange, the condenser is an external unit of the air conditioner.

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