CN211041203U - Novel solid warm braw dehumidifier can regenerate - Google Patents

Abstract

A regenerable solid warm air dehumidifier comprising: the system comprises a wet air inner channel, a wet air outer channel, an inner layer heat supply pipe, an outer layer heat supply pipe and a natural mineral drying agent. Wherein, the inner layer heating pipe and the outer layer heating pipe are controlled by a valve. Under the dehumidification working condition, the inner-layer heat supply pipe and the outer-layer heat supply pipe do not supply heat, humid air enters the humid air inner channel and the humid air outer channel, and passes through the natural mineral drying agent for physical moisture absorption due to pressure difference, and the humid air is discharged out of the dehumidifier after being changed into dry air; under the regeneration working condition, the inner-layer heat supply pipe and the outer-layer heat supply pipe supply heat, moisture in the natural mineral drying agent escapes, the natural mineral drying agent is discharged out of the dehumidifier, and the moisture absorption capacity of the natural mineral drying agent is recovered; under the working condition of warm air, the inner-layer heat supply pipe supplies heat, air in the wet air inner channel is heated, and the dehumidifier discharges the warm air.

Description

Novel solid warm braw dehumidifier can regenerate

Technical Field

The utility model relates to a dehumidifier technical field especially relates to a novel but regeneration heating dehumidifier structure.

Background

At present, two types of common dehumidifiers are generally adopted, one type is a freezing type dehumidifier, and the other type is a rotary dehumidifier, and although the two types have high dehumidification efficiency and high dehumidification speed, the two types need to consume more electric energy, so that the problems of environmental pollution and energy saving are solved; in some occasions, people can also directly use the drying agent to dehumidify, but the common solid drying agent cannot be recycled, and even has certain potential safety hazard.

In order to improve this situation, the utility model discloses from dehumidifier structure and dehumidification material, designed a novel dehumidification structure of can regenerating, its characteristics are can utilize solar energy or the mineral drier that the waste heat of life regeneration has saturated to reach the purpose of can regenerating, can also provide hot-air for the user in the dry, energy-concerving and environment-protective adopts package assembly simultaneously, convenient operation, and economic nature is high.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a novel dehumidifier structure solves current dehumidifier not energy-conserving and the unable shortcoming of heating the wind.

In order to achieve the above purpose, the utility model discloses a technical scheme is:

a regenerable solid warm air dehumidifier comprising: the system comprises a wet air inner channel, a wet air outer channel, an inner layer heat supply pipe, an outer layer heat supply pipe and a natural mineral drying agent. Wherein, the inner layer heating pipe and the outer layer heating pipe are controlled by a valve. Under the dehumidification working condition, the inner-layer heat supply pipe and the outer-layer heat supply pipe do not supply heat, humid air enters the humid air inner channel and the humid air outer channel, and passes through the natural mineral drying agent for physical moisture absorption due to pressure difference, and the humid air is discharged out of the dehumidifier after being changed into dry air; under the regeneration working condition, the inner-layer heat supply pipe and the outer-layer heat supply pipe supply heat, moisture in the natural mineral drying agent escapes, the natural mineral drying agent is discharged out of the dehumidifier, and the moisture absorption capacity of the natural mineral drying agent is recovered; under the working condition of warm air, the inner-layer heat supply pipe supplies heat, air in the wet air inner channel is heated, and the dehumidifier discharges the warm air.

Preferably, the inner layer heat supply pipe, the outer layer heat supply pipe and the natural mineral drying agent are fixed through a steel wire mesh cover.

Preferably, the connection between the wet air outer channel and the natural mineral desiccant is completed by welding through a steel wire mesh, and the wet air of the outer channel can be directly contacted with the desiccant.

Preferably, the wet air inner channel is formed entirely of natural mineral desiccant by wire mesh shaping, the wet air in the wet air inner channel being in direct contact with the desiccant.

Preferably, the wet air outer channel is formed by shaping the insulated outer wall surface and the natural mineral desiccant through a steel mesh.

Preferably, the natural mineral desiccant is a particulate polymer having a very large specific surface area after processing, and the wet air flowing into the desiccant increases the moisture absorption area.

The technical effects of the utility model are mainly embodied in that:

(1) the utility model discloses in designed the dehumidifier structure, adopted the assembled structure, the installation is simple and convenient.

(2) The utility model discloses well ectonexine heating pipe can adopt solar energy heat supply also can adopt the heat supply of life used heat, and the heating mode is many, and is energy-concerving and environment-protective more.

(3) The utility model discloses well dehumidification material adopts solid natural mineral drier, and this material stable in structure does not have corrosivity, low price.

Drawings

FIG. 1 is a top view of the structure of the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

in the figure: 1-wet air inner channel; 2-wet air outer channel; 3-inner heating pipe; 4-outer layer heat supply pipe; 5-natural mineral drying agent.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, a novel renewable solid warm air dehumidification structure includes:

the wet air inner channel (1) is a columnar channel, the outer wall of the channel is provided with the natural mineral desiccant (5), and the flow speed of the wet air in the channel is slow and the wet air is fully contacted with the natural mineral desiccant (5);

the wet air outer channel (2) is a spiral rectangular channel, the inner wall of the channel is provided with a natural mineral desiccant (5), and wet air flows rapidly in the channel and is fully contacted with the natural mineral desiccant (5);

the inner-layer heat supply pipes (3) are arranged between the wet air inner channel (1) and the natural mineral drying agents (5), the number of the heat supply pipes is three, the heat supply pipes are controlled by valves, and the air in the natural mineral drying agents (5) and the wet air inner channel (1) can be heated by solar energy or domestic waste heat;

the outer-layer heat supply pipes (4) are arranged in the natural mineral drying agent (5), the number of the heat supply pipes is 7, the heat supply pipes are controlled by a valve, and the natural mineral drying agent (5) can be heated by solar energy or domestic waste heat;

a natural mineral desiccant (5) having a large specific surface area and capable of absorbing moisture in physically humidified air;

wherein, radial flowing air can be generated between the wet air inner channel (1) and the wet air outer channel (2) and penetrates through the natural mineral desiccant (5), and the wet air is fully contacted with the natural mineral desiccant (5);

after the natural mineral drying agent (5) absorbs moisture and is saturated, the inner heat supply pipe (3) and the outer heat supply pipe (4) heat the natural mineral drying agent (5) simultaneously, and moisture in the drying agent escapes;

when indoor needs heating wind, the inner-layer heat supply pipe (3) arranged between the humid air inner channel (1) and the natural mineral drying agent (5) starts to supply heat, the humid air exchanges heat with the inner-layer heat supply pipe (3) through the humid air inner channel (1), and cold air becomes hot air and is discharged into the room.

Claims (6)

1. The utility model provides a solid warm braw dehumidifier can regenerate which characterized in that: the wet air internal channel (1), the wet air external channel (2), the inner heat supply pipe (3), the outer heat supply pipe (4) and the natural mineral desiccant (5), wherein the inner heat supply pipe (3) and the outer heat supply pipe (4) are controlled by valves, under a dehumidification working condition, the inner heat supply pipe (3) and the outer heat supply pipe (4) do not supply heat, wet air enters the wet air internal channel (1) and the wet air external channel (2), passes through the natural mineral desiccant (5) for physical moisture absorption due to pressure difference, and is discharged out of a dehumidifier after being changed into dry air, under a regeneration working condition, the inner heat supply pipe (3) and the outer heat supply pipe (4) supply heat, moisture in the natural mineral desiccant (5) escapes and is discharged out of the dehumidifier, the natural mineral desiccant (5) recovers moisture absorption capacity, under a warm air working condition, the inner heat supply pipe (3) supplies heat, air in the wet air internal channel (1) is heated, the dehumidifier discharges warm air.

2. The regenerable solid warm air dehumidifier of claim 1, wherein: the inner layer heat supply pipe (3), the outer layer heat supply pipe (4) and the natural mineral drying agent (5) are fixed through a steel wire mesh cover.

3. The regenerable solid warm air dehumidifier of claim 1, wherein: the connection between the wet air outer channel (2) and the natural mineral drying agent (5) is completed by welding a steel wire mesh.

4. The regenerable solid warm air dehumidifier of claim 1, wherein: the wet air inner channel (1) is formed by shaping natural mineral drying agent (5) through a steel wire mesh.

5. The regenerable solid warm air dehumidifier of claim 1, wherein: the wet air outer channel (2) is formed by molding a heat-insulating outer wall surface and a natural mineral desiccant (5) through a steel wire mesh.

6. The regenerable solid warm air dehumidifier of claim 1, wherein: the natural mineral drying agent (5) is a particle polymer with very large specific surface area after processing.

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