CN114777391B - Dehumidification function system - Google Patents

Abstract

The invention discloses a dehumidifying function system, and belongs to the technical field of biomedical treatment. The system comprises a water vapor condensing device, an air circulation air duct device, a temperature balancing device and an air duct control device. The invention disassembles the dehumidifier principle and applies to the air duct circulation system of the refrigerator, the high-humidity collecting unit is used for fast and high-efficient refrigeration and dehumidification, and then the operating heat of the heating body and the auxiliary heating device are operated by the Q motor fan for the second time to form a second dehumidification system, and the air subjected to the second dehumidification and drying can pass through the dry air refrigerating device to realize the purpose of refrigerating and temperature control to provide a cold source for the user; the dehumidifying controllable function is realized through the air door short circuit unit; the water vapor condensation wall unit and the dry gas refrigerating device can be independent refrigerating systems or refrigerating systems connected in series, so that the operation is flexible, and the manufacturing cost is saved.

Description

Dehumidification function system

Technical Field

The invention belongs to the technical field of biomedical treatment, and particularly relates to a dehumidification function system.

Background

As the medical industry increasingly goes into the line of sight of people, medical freezers are increasingly known; medical freezers for storing medical articles such as vaccines, medicines, reagents, blood and the like in daily life are also widely available. The medical refrigerator has the advantages that the requirements of the medical refrigerator are greatly improved due to the application of multiple scenes and multiple frequencies, and meanwhile, higher requirements are also put on the performance of the medical refrigerator. The type of medical refrigerator humidity control equipment in the current market is single, most of the equipment is dehumidified by a common refrigeration evaporator, the dehumidification effect is poor, and the dehumidification is not thorough in order to ensure the refrigeration temperature range in the refrigerator. The dehumidifying and refrigerating module can achieve the purposes of dehumidifying and cooling in the box.

In the existing medical refrigerator dehumidification scheme, most of the medical refrigerator dehumidification scheme is performed by a common refrigeration evaporator, so that the dehumidification effect is poor, and the dehumidification is not thorough in order to ensure the refrigeration temperature range in the refrigerator. In order to solve the problem that the dehumidification of the traditional refrigerator is not thorough, the principle of a dehumidifier is combined, the structural characteristics of a Q motor fan in the refrigerator are combined and utilized, and the working waste heat of the Q motor fan, a special air channel structural group, a special evaporator structure and a part of air door structure are utilized to form a dehumidification cavity. The front-section special evaporator is used for rapidly condensing water vapor, rapidly discharging condensed water out of the tank, discharging dehumidified water out of the tank body, and providing cold support for the tank through the tail-end special evaporator. The dehumidifying requirement in the refrigerator is met, and the dehumidifying and cooling module can achieve the purposes of dehumidifying and cooling in the refrigerator.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a dehumidification functional system which is reasonable in design, overcomes the defects in the prior art and has good effect.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a dehumidifying function system comprises a water vapor condensing device, an air circulation air duct device, a temperature balancing device and an air duct control device;

a moisture condensing device configured to effect moisture adsorption, comprising a high humidity collection unit;

the high-humidity collecting unit is configured to collect gas in the high-temperature high-humidity box, and uniformly spray the high-temperature high-humidity gas onto the surface of the water vapor condensation wall unit after collection to realize refrigeration and dehumidification;

a wind circulation duct device configured to deliver gas to each designated area;

a temperature balancing device configured to adjust and control the temperature and humidity of the output gas to achieve temperature balance; the device comprises a fan operation heating body, an auxiliary heating device and a dry gas refrigerating device;

the fan is used for operating the heating body and is configured to be used for heating the gas subjected to secondary dehumidification and drying by using the waste heat;

a dry gas refrigeration appliance configured to effect refrigeration temperature control to provide a cold source within the cabinet;

an air duct control device including an air door short-circuiting unit configured to realize a dehumidification controllable function;

the fan operates the heating body and the auxiliary heating device to form a secondary dehumidification system, the secondary dehumidification is carried out on the dried gas, and the dry gas refrigerating device carries out refrigeration temperature control on the secondary dehumidification dried gas, so that the purpose of providing a cold source in the box is achieved.

Preferably, the water vapor condensing device further comprises a water vapor condensing wall unit, a water condensing wall draining unit, a condensing wall automatic defrosting unit and a separation filtering unit;

a water vapor condensation wall unit configured to separate high temperature and high humidity gas into water or frost ice and dry low temperature air;

a condensation wall automatic defrosting unit configured to melt the frost ice mixture into water by timed thermal defrosting;

a condensation wall drainage unit configured to collect water melted from the frost ice mixture and drain the water out of the tank by gravity;

the separation and filtration unit is configured to filter out air gathering particles so as to achieve the purpose of removing the particles;

the high-humidity collecting unit collects the gas in the high-temperature high-humidity box, and uniformly sprays the high-temperature high-humidity gas onto the surface of the water vapor condensation wall unit after collecting the gas; the water vapor condensation wall unit separates the high-temperature and high-humidity gas into water or frost ice and dry low-temperature air; the separated water or frost ice is condensed and collected on a condensation wall automatic defrosting unit, the condensation wall automatic defrosting unit melts the frost ice mixture into water through timing hot defrosting, and a condensation wall drainage unit collects the water melted by the frost ice mixture and discharges the water out of the tank; blowing dry low-temperature air to a separation and filtration unit; the separation and filtration unit filters out air collected particles so as to achieve the purpose of removing the particles.

Preferably, the water vapor condensing device further comprises an insulation box body and an insulation door body; the heat preservation box body and the heat preservation door body are configured to be heat preservation bodies for maintaining the temperature in the box.

Preferably, the air circulation air duct device comprises an initial air guide unit, a condensation wall cavity air duct unit, a drying air duct unit, a tail end refrigerating air duct unit and a secondary pressurization baffle;

an initial wind introduction unit configured to introduce high-temperature and high-humidity gas into the high-humidity collection unit;

the condensation wall cavity air duct unit is configured to serve as a high-temperature high-humidity premixing dehumidification operation cavity;

a drying duct unit configured to perform a drying process on the gas;

the tail end refrigerating air duct unit is configured to premix and balance the temperature of the gas passing through the dry gas refrigerating appliance with other gases and then blow the gas into the box;

and a secondary pressurization baffle configured to increase the wind pressure of the primary dehumidification drying.

Preferably, for the damper short circuit unit, if the humidity in the tank needs to be controlled, and dehumidification is not needed, the damper is opened, and the gas passing through the water vapor condensation device directly jumps over the temperature balance device area and enters the secondary refrigeration or air outlet area.

The invention has the beneficial technical effects that:

the invention disassembles the dehumidifier principle and applies to the air duct circulation system of the refrigerator, the high-humidity collecting unit is used for fast and high-efficient refrigeration and dehumidification, and then the operating heat of the heating body and the auxiliary heating device are operated by the Q motor fan for the second time to form a second dehumidification system, and the air subjected to the second dehumidification and drying can pass through the dry air refrigerating device to realize the purpose of refrigerating and temperature control to provide a cold source for the user; the dehumidifying controllable function is realized through the air door short circuit unit; the water vapor condensation wall unit and the dry gas refrigerating device can be independent refrigerating systems or refrigerating systems connected in series, so that the operation is flexible, and the manufacturing cost is saved.

Drawings

FIG. 1 is a block diagram of a dehumidification function system;

wherein 1-a high humidity collection unit; 2-a primary air introduction unit; 3-a water vapor condensation wall unit; 4-a condensation wall automatic defrosting unit; 5-a condensation wall cavity air duct unit; 6-a drying air duct unit; 7-a condensation wall drainage unit; 8-a separation filtration unit; 9-an air door short-circuit unit; 10-a dry gas refrigeration appliance; 11-end refrigerating air duct unit; 12-an insulation box body; 13-a secondary pressurization baffle; 14-auxiliary heating means; 15-a heat-preserving door body; 16-fan operation heating body.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

as shown in fig. 1, a dehumidification function system comprises a water vapor condensing device, an air circulation air duct device, a temperature balancing device and an air duct control device; the multiple dehumidification functions of vapor adsorption, small-amplitude temperature rise and temperature balance, secondary refrigeration vapor adsorption refrigeration plates (cavity side refrigeration plates of a dry gas refrigeration device) and the like are completed, and the function of controllable refrigeration temperature and humidity range in the box is realized.

The water vapor condensing device comprises a high-humidity collecting unit 1, a water vapor condensing wall unit 3, a condensing wall drainage unit 7, a condensing wall automatic defrosting unit 4, a separation filtering unit 8, an insulation box body 12 and an insulation door body 15. The high-humidity collecting unit 1 collects gas in the high-temperature high-humidity box, and the high-humidity collecting unit 1 uniformly sprays the high-temperature high-humidity gas 1 onto the surface of the water vapor condensation wall unit 3 after collecting the gas; the surface of the water vapor condensation wall unit 3 rapidly separates the high temperature and high humidity gas into water (or frost ice) and dry low temperature air; the separated water (or frost ice) is quickly condensed and collected on the condensation wall automatic defrosting unit 4, the condensation wall automatic defrosting unit 4 quickly performs defrosting by timing and quick heating, the frost ice mixture is quickly melted into water, and the condensation wall draining unit 7 quickly collects and quickly discharges the water out of the tank by gravity; the dry low-temperature air is subjected to secondary heating and dehumidification through a fan running heating body and an auxiliary heating device; the drying air after secondary dehumidification is blown to the separation filter unit 8; the separation and filtration unit 8 filters out air collected particles through a separation and filtration device to achieve the purpose of removing the particles.

The air circulation air duct device comprises an initial air guide unit 2, a condensation wall cavity air duct unit 5, a drying air duct unit 6, a tail end refrigerating air duct unit 11 and a secondary pressurization baffle 13. The dehumidification, drying and temperature adjustment functions of the gas under the curved path are realized by constructing the air duct layout of different stages. And conveying the gas to each designated area through the air duct.

The temperature balancing means includes a fan operation heating body 16, an auxiliary heating device 14, and a dry gas cooling device 10.

The fan is used for operating the heating body 16 and the auxiliary heating device 14 to form a secondary dehumidification system, and the secondary dehumidification and drying gas can pass through the drying gas refrigerator 10 to realize the purpose of refrigerating and temperature control to provide a cold source for the interior of the box. The temperature balancing device can heat and dry gas in a stepping way, and can adjust and control the control temperature and humidity of the output gas.

The air duct control device comprises an air door short-circuit unit 9, and a dehumidifying controllable function is realized through the air door short-circuit unit 9.

If the humidity in the box needs to be controlled, when dehumidification is not needed, the air door is opened, and the gas passing through the water vapor condensing device directly jumps over the temperature balancing device area and directly enters the secondary refrigeration or air outlet area.

The water vapor condensation wall unit 3 and the dry gas refrigeration device 10 can be independent refrigeration systems or refrigeration systems connected in series, so that the operation is flexible, and the manufacturing cost is saved.

It should be understood that the above description is not intended to limit the invention to the particular embodiments disclosed, but to limit the invention to the particular embodiments disclosed, and that the invention is not limited to the particular embodiments disclosed, but is intended to cover modifications, adaptations, additions and alternatives falling within the spirit and scope of the invention.

Claims (5)

1. A dehumidification function system, characterized by: comprises a vapor condensing device, an air circulation air duct device, a temperature balancing device and an air duct control device;

a moisture condensing device configured to effect moisture adsorption, comprising a high humidity collection unit;

the high-humidity collecting unit is configured to collect gas in the high-temperature high-humidity box, and uniformly spray the high-temperature high-humidity gas onto the surface of the water vapor condensation wall unit after collection to realize refrigeration and dehumidification;

a wind circulation duct device configured to deliver gas to each designated area;

a temperature balancing device configured to adjust and control the temperature and humidity of the output gas to achieve temperature balance; the device comprises a fan operation heating body, an auxiliary heating device and a dry gas refrigerating device;

the fan is used for operating the heating body and is configured to be used for heating the gas subjected to secondary dehumidification and drying by using the waste heat;

a dry gas refrigeration appliance configured to effect refrigeration temperature control to provide a cold source within the cabinet;

an air duct control device including an air door short-circuiting unit configured to realize a dehumidification controllable function;

the fan operates the heating body and the auxiliary heating device to form a secondary dehumidification system, the secondary dehumidification is carried out on the dried gas, and the dry gas refrigerating device carries out refrigeration temperature control on the secondary dehumidification dried gas, so that the purpose of providing a cold source in the box is achieved.

2. The dehumidification function system according to claim 1, wherein: the vapor condensing device further comprises a vapor condensing wall unit, a condensing wall drainage unit, a condensing wall automatic defrosting unit and a separation filtering unit;

a water vapor condensation wall unit configured to separate high temperature and high humidity gas into water or frost ice and dry low temperature air;

a condensation wall automatic defrosting unit configured to melt the frost ice mixture into water by timed thermal defrosting;

a condensation wall drainage unit configured to collect water melted from the frost ice mixture and drain the water out of the tank by gravity;

the separation and filtration unit is configured to filter out air gathering particles so as to achieve the purpose of removing the particles;

the high-humidity collecting unit collects the gas in the high-temperature high-humidity box, and uniformly sprays the high-temperature high-humidity gas onto the surface of the water vapor condensation wall unit after collecting the gas; the water vapor condensation wall unit separates the high-temperature and high-humidity gas into water or frost ice and dry low-temperature air; the separated water or frost ice is condensed and collected on a condensation wall automatic defrosting unit, the condensation wall automatic defrosting unit melts the frost ice mixture into water through timing hot defrosting, and a condensation wall drainage unit collects the water melted by the frost ice mixture and discharges the water out of the tank; blowing dry low-temperature air to a separation and filtration unit; the separation and filtration unit filters out air collected particles so as to achieve the purpose of removing the particles.

3. The dehumidification function system according to claim 1, wherein: the vapor condensing device also comprises an insulation box body and an insulation door body; the heat preservation box body and the heat preservation door body are configured to be heat preservation bodies for maintaining the temperature in the box.

4. The dehumidification function system according to claim 1, wherein: the air circulation air duct device comprises an initial air guide unit, a condensation wall cavity air duct unit, a drying air duct unit, a tail end refrigerating air duct unit and a secondary pressurizing baffle;

an initial wind introduction unit configured to introduce high-temperature and high-humidity gas into the high-humidity collection unit;

the condensation wall cavity air duct unit is configured to serve as a high-temperature high-humidity premixing dehumidification operation cavity;

a drying duct unit configured to perform a drying process on the gas;

the tail end refrigerating air duct unit is configured to premix and balance the temperature of the gas passing through the dry gas refrigerating appliance with other gases and then blow the gas into the box;

and a secondary pressurization baffle configured to increase the wind pressure of the primary dehumidification drying.

5. The dehumidification function system according to claim 1, wherein: for the air door short circuit unit, if the humidity in the box needs to be controlled, and when dehumidification is not needed, the air door is opened, and the gas passing through the water vapor condensation device directly jumps over the temperature balance device area and enters the secondary refrigeration or air outlet area.

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