CN105258249A - Dehumidification device and method - Google Patents

Abstract

The invention discloses a dehumidification device and method. The dehumidification device comprises a heat exchanger and an evaporator. The heat exchanger is used for receiving air to be processed and cooling the air to be processed to exhaust the air as first heat exchange air. The evaporator is connected with the heat exchanger. A first air flue and a second air flue are formed between the evaporator and the heat exchanger. The first air flue is used for guiding the first heat exchange air into the evaporator. The heat exchanger is used for receiving second heat exchange air, utilizing the second heat exchange air for cooling the air to be processed and exhausting the second heat exchange air as third heat exchange air. According to the dehumidification device, the second heat exchange air exhausted after cooling and dehumidification are performed through the evaporator is sufficiently utilized for cooling the air to be processed, and the air to be processed is cooled two times substantially to be exhausted as the third heat exchange air, so that the dehumidification device can improve the dehumidification capacity and has the high energy utilization rate under the identical refrigeration load.

Description

Dehydrating unit and dehumanization method

Technical field

The present invention relates to dehumidification equipment field, particularly relate to a kind of dehydrating unit and a kind of dehumanization method.

Background technology

At present, dehydrating unit comprises the evaporimeter of low temperature and the condenser of high temperature, indoor air separates out condensed water after evaporator cooling, then low temperature and low humidity air is become, low temperature and low humidity air discharges dehydrating unit after directly being discharged dehydrating unit or flowing through condenser, therefore cannot make full use of the cold in low temperature and low humidity air, cause cold waste and energy utilization rate lower.

Summary of the invention

The present invention is intended at least to solve one of technical problem existed in prior art.For this reason, the invention provides a kind of dehydrating unit and a kind of dehumanization method.

The dehydrating unit of embodiment of the present invention comprises heat exchanger and evaporimeter.Described heat exchanger is the first heat exchange wind for receiving pending wind and discharging afterwards described pending wind cooling.Described evaporimeter connects described heat exchanger, is formed with the first air channel and the second air channel between described evaporimeter and described heat exchanger, and described first air channel is used for described first heat exchange wind to import described evaporimeter.It is the second heat exchange wind that described evaporimeter is used for discharging after described first heat exchange wind cool-down dehumidification, and described second air channel is used for described second heat exchange wind to import described heat exchanger.Described heat exchanger, for receiving the second heat exchange wind, utilizes described second heat exchange wind to described pending wind cooling, and to discharge described second heat exchange wind be the 3rd heat exchange wind.

The second heat exchange wind that above-mentioned dehydrating unit is discharged after making full use of evaporimeter cool-down dehumidification is lowered the temperature to pending wind, discharge after making pending wind substantially pass twice cooling is the 3rd heat exchange wind, therefore, above-mentioned dehydrating unit is under identical cooling load, the dehumidifying effect of dehydrating unit can be improved, there is higher energy utilization rate.

In some embodiments, described dehydrating unit also comprises condenser, is formed with the 3rd air channel between described condenser and described heat exchanger, and described 3rd air channel is used for described 3rd heat exchange wind to be directed into described condenser;

Described condenser is used for carrying out heat exchange to described 3rd heat exchange wind, and is the 4th heat exchange wind by the described 3rd heat exchange wind discharge after heat exchange.

In some embodiments, described heat exchanger is air-to-air total heat exchanger.

In some embodiments, described dehydrating unit also comprises water collecting device, and described water collecting device is arranged on below described evaporimeter, and for collecting the condensed water on described evaporimeter

In some embodiments, described first air channel is perpendicular to described 3rd air channel.

In some embodiments, described dehydrating unit also comprises fan, and described fan enters described heat exchanger for driving described pending wind.

In some embodiments, dehydrating unit also comprises compressor, choke valve and control device.Described compressor is connected between described evaporimeter and described condenser.Described choke valve is connected between described evaporimeter and condenser.Described control device connects described fan, described compressor and described choke valve and operation for controlling described fan, described compressor and described choke valve.

The dehumanization method of embodiment of the present invention, comprises the following steps:

Heat exchanger receives pending wind and is the first heat exchange wind to discharging after described pending wind cooling;

Import described first heat exchange wind to evaporimeter;

Described evaporimeter is the second heat exchange wind to discharging after described first heat exchange wind cool-down dehumidification;

Import described second heat exchange wind to described heat exchanger; And

Described heat exchanger receives described second heat exchange wind, utilizes described second heat exchange wind to described pending wind cooling, and to discharge described second heat exchange wind be the 3rd heat exchange wind.

The second heat exchange wind that above-mentioned dehumanization method is discharged after taking full advantage of evaporimeter cool-down dehumidification is lowered the temperature to pending wind, discharge after making pending wind substantially pass twice cooling is the 3rd heat exchange wind, therefore, above-mentioned dehumanization method is under identical cooling load, the dehumidifying effect of dehydrating unit can be improved, there is higher energy utilization rate.

In some embodiments, described dehumanization method also comprises step:

Condenser carries out heat exchange to described 3rd heat exchange wind, and is the 4th heat exchange wind by the described 3rd heat exchange wind discharge after heat exchange.

In some embodiments, described dehumanization method also comprises step:

Described pending wind is driven to enter described heat exchanger.

In some embodiments, described dehumanization method also comprises step:

Collect the condensed water on described evaporimeter.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the structural representation of the dehydrating unit of embodiment of the present invention.

Fig. 2 is the module diagram of the dehydrating unit of embodiment of the present invention.

Fig. 3 is the schematic flow sheet of the dehumanization method of embodiment of the present invention.

Detailed description of the invention

Be described below in detail embodiments of the present invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

In describing the invention, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore limitation of the present invention can not be interpreted as.In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more described features.In describing the invention, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection or can communication mutually; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is less than second feature.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present invention.Of the present invention open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the present invention.In addition, the present invention can in different example repeat reference numerals and/or reference letter, this repetition is to simplify and clearly object, itself does not indicate the relation between discussed various embodiment and/or setting.In addition, the various specific technique that the invention provides and the example of material, but those of ordinary skill in the art can recognize the application of other techniques and/or the use of other materials.

Refer to Fig. 1 ~ 2, the dehydrating unit 100 of embodiment of the present invention comprises heat exchanger 10 and evaporimeter 20.

Heat exchanger 10 is the first heat exchange wind W1 for receiving pending wind W0 and discharging afterwards pending wind W0 cooling.Evaporimeter 20 connects heat exchanger 10, is formed with the first air channel 11 and the second air channel 12 between evaporimeter 20 and heat exchanger 10.

First air channel 11 is for importing evaporimeter 20 by the first heat exchange wind W1.Evaporimeter 20 for after the first heat exchange wind W1 cool-down dehumidification discharge be the second heat exchange wind W2.

Second air channel 12 is for importing heat exchanger 10 by the second heat exchange wind W2.Heat exchanger 10, for receiving the second heat exchange wind W2, utilizes the second heat exchange wind W2 to lower the temperature to pending wind W0, and to discharge the second heat exchange wind W2 be the 3rd heat exchange wind W3.

Such as, the first air channel 11 and the second air channel 12 can be surrounded by the housing of dehydrating unit 100, or between heat exchanger 10 and evaporimeter 20, arrange special pipeline formed.

The second heat exchange wind W2 that above-mentioned dehydrating unit 100 is discharged after taking full advantage of evaporimeter 20 cool-down dehumidification lowers the temperature to pending wind W0, discharge after making pending wind W0 substantially pass twice cooling is the 3rd heat exchange wind W3, therefore, above-mentioned dehydrating unit 100 can improve energy utilization rate.

In the present embodiment, dehydrating unit 100 also comprises condenser 30, is formed with the 3rd air channel 13, air channel the 13, three for the 3rd heat exchange wind W3 is directed into condenser 30 between condenser 30 and heat exchanger 10.

Such as, the 3rd air channel 13 can be surrounded by the shell structure of dehydrating unit 100, or between condenser 30 and heat exchanger 10, arranges special pipeline formed.

The 3rd heat exchange wind W3 discharge after heat exchange for carrying out heat exchange to the 3rd heat exchange wind W3, and is the 4th heat exchange wind W4 by condenser 30.

So, the 3rd heat exchange wind W3 and condenser 30 heat exchange, can reduce the temperature of condenser 30, thus can reduce the refrigerating capacity of dehydrating unit 100, and then reduce the energy resource consumption of dehydrating unit 100.

In addition, the 4th heat exchange wind W4 directly discharges dehydrating unit 100 and enters indoor, is formed and circulates, thus reach the effect of indoor dehumidification with the air of indoor.

In the present embodiment, preferably, heat exchanger 10 is air-to-air total heat exchanger.

The heat exchange efficiency of air-to-air total heat exchanger is high, so, decreases the heat exchange element in heat exchanger 10, thus reduces the manufacturing cost of dehydrating unit 100.

In addition, pending wind W0 and the second heat exchange wind W2 carries out Total heat exchange in air-to-air total heat exchanger, while pending wind W0 absorbs the cold of the second heat exchange wind W2, a small amount of humidity is delivered to the second heat exchange wind W2, avoids working time because of dehydrating unit 100 long and cause room air dry.

In the present embodiment, heat exchanger 10 is plate-fin enthalpy exchanger, so, and the compact conformation of heat exchanger 10.In addition, plate-fin enthalpy exchanger does not need power consumption resource, can economize energy, reduces the use cost of dehydrating unit 100.

In the present embodiment, dehydrating unit 100 also comprises water collecting device (not shown), and water collecting device is arranged on below evaporimeter 20, and for collecting the condensed water on evaporimeter 20.

So, water collecting device can collect the condensed water on evaporimeter 20, avoids condensation flow to arrive other place, maintains the clean and tidy of other place.

Such as, water collecting device comprises water tank, and water tank is for collecting the water in water collecting device.Water tank is removably mounted in water collecting device, outwells the water collected certain to facilitate user.In other embodiments, condensed water is also discharged dehydrating unit 100 and room by drainage elements such as pipelines by water collecting device.

In the present embodiment, the first air channel 11 is perpendicular to the 3rd air channel 13.

So, the more compact structure of dehydrating unit 100, can reduce the volume of dehydrating unit 100.

In the present embodiment, dehydrating unit 100 also comprises fan (not shown), and fan enters heat exchanger 10 for driving pending wind W0.

So, fan provides the power of flowing for pending wind W0.In a kind of example, fan can be arranged on the first air channel 11 or the second air channel 12 or the 3rd air channel 13, forms suction during fan turns, and pending wind W0 is sucked in dehydrating unit 100.Certainly, fan also can blow into pending wind W0 in heat exchanger 10.

Fan can be multiple, and multiple fan is separately positioned on the diverse location in the air channel of dehydrating unit 100, thus accelerates the flowing velocity of pending wind W0, and then improves the dehumidifying effect of dehydrating unit 100.

In the present embodiment, dehydrating unit 100 also comprises compressor 40, choke valve 50 and control device 60.Compressor 40 is connected between evaporimeter 20 and condenser 30.Choke valve 50 is connected between evaporimeter 20 and condenser 30.Control device 60 connects fan, compressor 40, choke valve 50 and operation for controlling fan, compressor 40 and choke valve 50.

Particularly, the refrigerant import 41 of compressor 40 connects the refrigerant exit 21 of evaporimeter 20, and the refrigerant exit 42 of compressor 40 connects the refrigerant import 31 of condenser 30.The refrigerant import 51 of choke valve 50 connects the refrigerant exit 32 of condenser 30, and the refrigerant exit 52 of choke valve 50 connects the refrigerant import 22 of evaporimeter 20.

So, the object of the Automated condtrol of dehydrating unit 100 is realized.Particularly, the controlled running frequency of compressor 40 processed of control device 60 device and the aperture size of choke valve 50, thus the dehumidifying effect controlling dehydrating unit 100.

Preferably, choke valve 50 is electric expansion valve, and so, the precision that control device 60 controls choke valve 50 is high.

When dehydrating unit 100 works, refrigerant is discharged from blast pipe by the gas that compressor 40 is compressed into HTHP, enter condenser 30, produce heat exchange with condenser 30 ambient air, be condensed into liquid coolant after releasing heat, become the gas-liquid two-phase of low-temp low-pressure through choke valve 50 throttling, enter evaporimeter 20, carry out with evaporimeter 20 ambient air the heat that heat exchange absorbs evaporimeter 20 surface, return in compressor 40, so circulate.

Therefore, the surface of evaporimeter 20 reduces because heat being passed to temperature in refrigerant.Pending wind W0 enters heat exchanger 10, it is flow through evaporimeter 20 by the first air channel 11 after the first heat exchange wind W1 that pending wind W0 heat exchange is discharged, first heat exchange wind W1 and evaporimeter 20 produce heat exchange, and the steam in the first heat exchange wind W1 is condensed into water and enters in water collecting device on evaporimeter 20.

Refer to Fig. 3, the dehumanization method of embodiment of the present invention, comprises the following steps:

S1, heat exchanger receives pending wind W0 and is the first heat exchange wind W1 to discharging after pending wind W0 cooling;

S2, imports the first heat exchange wind W1 to evaporimeter;

S3, evaporimeter is the second heat exchange wind W2 to discharging after the first heat exchange wind W1 cool-down dehumidification;

S4, imports the second heat exchange wind W2 to heat exchanger; And

S5, heat exchanger receives the second heat exchange wind W2, utilizes the second heat exchange wind W2 to lower the temperature to pending wind W0, and to discharge the second heat exchange wind W2 be the 3rd heat exchange wind W3.

The second heat exchange wind W2 that above-mentioned dehumanization method is discharged after taking full advantage of evaporimeter cool-down dehumidification lowers the temperature to pending wind W0, discharge after making pending wind W0 substantially pass twice cooling is the 3rd heat exchange wind W3, therefore, above-mentioned dehumanization method is under identical cooling load, the dehumidifying effect of dehydrating unit can be improved, there is higher energy utilization rate.

The dehumanization method of embodiment of the present invention can be realized by the dehydrating unit 100 of above-mentioned embodiment.

Particularly, in step sl, preferably, by fan pending wind W0 blown into and be sucked into heat exchanger 10 to heat exchanger 10 or by pending wind W0.

In step s 2, be formed with the first air channel 11, air channel 11, first between heat exchanger 10 and evaporimeter 20 and first heat exchange wind W1 is imported evaporimeter 20.

In step s 4 which, be formed with the second air channel 12, air channel 12, second between heat exchanger 10 and evaporimeter 20 and second heat exchange wind W2 is imported heat exchanger 10.

In the present embodiment, dehumanization method also comprises step:

S6, condenser 30 carries out heat exchange to the 3rd heat exchange wind W3, and is the 4th heat exchange wind W4 by the 3rd heat exchange wind W3 discharge after heat exchange.

So, the 3rd heat exchange wind W3 and condenser 30 heat exchange, can reduce the temperature of condenser 30, thus can reduce the refrigerating capacity of dehydrating unit 100, and then reduce the energy resource consumption of dehydrating unit 100.

In present embodiment, dehumanization method also comprises step:

Pending wind W0 is driven to enter heat exchanger 10.

So, the flowing velocity of pending wind W0 can be accelerated, thus improve the dehumidifying effect of dehydrating unit 100.

In the present embodiment, dehumanization method also comprises step:

Collect the condensed water on evaporimeter 20.

So, avoid the condensation flow on evaporimeter 20 local to other, maintain the clean and tidy of other place.

The part that the dehumanization method of embodiment of the present invention does not launch please refer to the same or similar part of dehydrating unit 100 in above embodiment, does not repeat them here.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " exemplary embodiment ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with described embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the present invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (11)

1. a dehydrating unit, is characterized in that, comprising:

Heat exchanger, described heat exchanger is the first heat exchange wind for receiving pending wind and discharging afterwards described pending wind cooling; And

The evaporimeter be connected with described heat exchanger, is formed with the first air channel and the second air channel between described evaporimeter and described heat exchanger, described first air channel is used for described first heat exchange wind to import described evaporimeter;

It is the second heat exchange wind that described evaporimeter is used for discharging after described first heat exchange wind cool-down dehumidification, and described second air channel is used for described second heat exchange wind to import described heat exchanger;

Described heat exchanger, for receiving described second heat exchange wind, utilizes described second heat exchange wind to described pending wind cooling, and to discharge described second heat exchange wind be the 3rd heat exchange wind.

2. dehydrating unit as claimed in claim 1, it is characterized in that, described dehydrating unit also comprises condenser, is formed with the 3rd air channel between described condenser and described heat exchanger, and described 3rd air channel is used for described 3rd heat exchange wind to be directed into described condenser;

Described condenser is used for carrying out heat exchange to described 3rd heat exchange wind, and is the 4th heat exchange wind by the described 3rd heat exchange wind discharge after heat exchange.

3. dehydrating unit as claimed in claim 1, it is characterized in that, described heat exchanger is air-to-air total heat exchanger.

4. dehydrating unit as claimed in claim 1, it is characterized in that, described dehydrating unit also comprises water collecting device, and described water collecting device is arranged on below described evaporimeter, and for collecting the condensed water on described evaporimeter.

5. dehydrating unit as claimed in claim 1, it is characterized in that, described first air channel is perpendicular to described 3rd air channel.

6. dehydrating unit as claimed in claim 1, it is characterized in that, described dehydrating unit also comprises fan, and described fan enters described heat exchanger for driving described pending wind.

7. dehydrating unit as claimed in claim 6, it is characterized in that, described dehydrating unit also comprises:

Be connected to the compressor between described evaporimeter and described condenser;

Be connected to the choke valve between described evaporimeter and described condenser; And

Connect the control device of described fan, described compressor and described choke valve, described control device is for controlling the operation of described fan, described compressor and described choke valve.

8. a dehumanization method, is characterized in that, comprises the following steps:

Heat exchanger receives pending wind and is the first heat exchange wind to discharging after described pending wind cooling;

Import described first heat exchange wind to evaporimeter;

Described evaporimeter is the second heat exchange wind to discharging after described first heat exchange wind cool-down dehumidification;

Import described second heat exchange wind to described heat exchanger;

Described heat exchanger receives described second heat exchange wind, utilizes described second heat exchange wind to described pending wind cooling, and to discharge described second heat exchange wind be the 3rd heat exchange wind.

9. dehumanization method as claimed in claim 8, it is characterized in that, described dehumanization method also comprises step:

Condenser carries out heat exchange to described 3rd heat exchange wind, and is the 4th heat exchange wind by the described 3rd heat exchange wind discharge after heat exchange.

10. dehumanization method as claimed in claim 8, it is characterized in that, described dehumanization method also comprises step:

Described pending wind is driven to enter described heat exchanger.

11. dehumanization methods as claimed in claim 8, it is characterized in that, described dehumanization method also comprises step:

Collect the condensed water on described evaporimeter.