CN105066406A - Recovery device and recovery method for condensation water and dehumidifier - Google Patents

Abstract

The invention relates to a recovery device and a recovery method for condensation water and a dehumidifier. The recovery device for the condensation water comprises a water collection plate, a water conduit, a sprinkling component and a water pump, wherein the water collection plate is used for collecting the condensation water generated by an evaporator; the water conduit is connected with the water collection plate; the sprinkling component is arranged in the water conduit, and is used for sprinkling the condensation water introduced by the water conduit to a first condenser; the water pump is arranged on the water conduit and is used for pumping the condensation water in the water collection plate into the water conduit; and the water pump is started when the amount of the condensation water in the water collection plate reaches a preset value. By adopting the recovery device and the recovery method, the condensation water can be recycled, so that the heat exchange efficiency is enhanced; besides, the water pump is arranged, so that on one hand, the drainage effect is improved, and atmospheric pressure and air resistance in a pipeline are overcome; and on the other hand, initial pressure is provided for subsequent atomizing and sprinkling.

Description

Condensed-water recovering device, recovery method and dehumidifier

Technical field

The present invention relates to Water Sproading process field, particularly relate to a kind of condensed-water recovering device, recovery method and dehumidifier.

Background technology

In prior art, the operation principle of dehumidifier is: hot and humid new wind carries out cool-down dehumidification (separating out a large amount of condensate water to discharge) through evaporator, then blows after condenser heats up; Return air carries out heat exchange by another condenser (HTHP), and lowers the temperature to this condenser, becomes the higher wind of temperature and discharges.

There is following problem in above-mentioned commercial dehumidifier of the prior art:

1) dehumidification process can separate out a large amount of low-temperature condensate needs to discharge outside unit, cannot reach making full use of of the energy.

2) condensation temperature of air cooled condenser is higher, causes the efficiency of system lower.

Summary of the invention

The object of the invention is to propose a kind of condensed-water recovering device, recovery method and dehumidifier, it can recycle condensate water to improve heat exchange efficiency.

For achieving the above object, the invention provides a kind of condensed-water recovering device, it comprises: water-collecting tray, for collecting the condensate water that evaporimeter produces; Aqueduct, is connected to described water-collecting tray; Sprinkler part, is located at described aqueduct, and the condensate water for being introduced by described aqueduct is sprayed to the first condenser; Water pump, is located at described aqueduct, for the condensate water in water-collecting tray is pumped into aqueduct, and opens when the condensate water of described water pump in described water-collecting tray reaches set amount.

One preferably or in embodiment, described set amount q=kq ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂by inquiring about the gain of parameter of humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

One preferably or in embodiment, on described aqueduct and the upstream being positioned at described water pump is provided with flowmeter, described flowmeter is for detecting the instantaneous delivery in described aqueduct, condensate water in described water-collecting tray reaches set amount, and described instantaneous delivery is when reaching setting value, described water pump is opened.

One preferably or in embodiment, on described aqueduct and the upstream being positioned at described flowmeter is provided with stop valve, open when the condensate water of described stop valve in described water-collecting tray reaches set amount.

Preferably or in embodiment, level sensing element in described water-collecting tray, is provided with one.

One preferably or in embodiment, described water-collecting tray is located at the below of described evaporimeter.

For achieving the above object, present invention also offers the method for recovering condensation water of the condensed-water recovering device in a kind of above-mentioned any embodiment, it comprises the following steps:

By the condensate water that water-collecting tray recovery evaporimeter and new air heat-exchange produce;

Aqueduct is connected to water-collecting tray, when the condensate water in water-collecting tray reaches set amount, opens the water pump on aqueduct;

By water pump, the condensate water in water-collecting tray is pumped into aqueduct, by aqueduct, condensate water is caused the first condenser, finally by the sprinkler part on aqueduct, condensate water is sprayed onto on the first condenser, the first condenser is lowered the temperature.

One preferably or in embodiment, set amount q=kq ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂by inquiring about the gain of parameter of humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

One preferably or in embodiment, detect the instantaneous delivery in aqueduct by flowmeter, the condensate water in water-collecting tray reaches set amount, and when instantaneous delivery reaches setting value, open water pump.

Preferably or in embodiment one, establish stop valve in the upstream of aqueduct flow meter, when the condensate water in water-collecting tray reaches set amount, open stop valve.

Preferably or in embodiment one, during shutdown, first switch off the pump, then close the stop valve on aqueduct.

For achieving the above object, present invention also offers a kind of dehumidifier, it comprises the condensed-water recovering device in above-mentioned any embodiment.

One preferably or in embodiment, dehumidifier comprises second condenser at evaporimeter, compressor air intake place, first condenser at return air place, the condensate water that described evaporimeter produces is sprayed to described first condenser by the sprinkler part in described condensed-water recovering device.

Based on technique scheme, the present invention at least has following beneficial effect:

The present invention is lowered the temperature to condenser by the condensate water recycled, both solved a large amount of low-temperature condensates of separating out in dehumidification process directly to discharge outside unit, the problem that the energy makes full use of cannot be reached, simultaneously, because the humid air of atomization is compared with the dry air of routine, the heat exchange efficiency of condenser can be improved, increase the heat transfer effect of condenser, therefore the condensation temperature solving again air cooled condenser is higher, causes the problem that the efficiency of system is lower; Be provided with water pump at aqueduct, when meet impose a condition time, open water pump, on the one hand strengthen drainage, overcome the air drag of atmospheric pressure and pipe interior, another aspect provides initial pressure for follow-up atomized spray.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram that condensed-water recovering device provided by the invention is applied on dehumidifier.

Attached number in the figure:

1-evaporimeter; 2-water-collecting tray; 3-aqueduct; 4-sprinkler part; 5-water pump; 6-flowmeter; 7-stop valve; 8-first condenser; 9-second condenser; 10-compressor; 11-choke valve.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in embodiment is clearly and completely described.Obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments.Based on embodiments of the invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

In describing the invention, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of the instruction such as " outward " 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 limiting the scope of the invention can not be interpreted as.

As shown in Figure 1, be the illustrative examples of condensed-water recovering device provided by the invention, in this illustrative examples, condensed-water recovering device comprises water-collecting tray 2, and water-collecting tray 2 can be located at the below of evaporimeter 1, for collecting the condensate water that evaporimeter 1 produces; Aqueduct 3, is connected to water-collecting tray 2; Sprinkler part 4, is located at aqueduct 3, and the condensate water for being introduced by aqueduct 3 is sprayed to the first condenser 8; Water pump 5, is located at aqueduct 3, for the condensate water in water-collecting tray 2 is pumped into aqueduct 3, and opens when the condensate water of water pump 5 in water-collecting tray 2 reaches set amount.

The present invention is lowered the temperature to the first condenser 8 by the condensate water recycled, and 1) solve a large amount of low-temperature condensates of separating out in dehumidification process and directly discharge outside unit, the problem that the energy makes full use of cannot be reached; 2) utilize condensate water to lower the temperature to the first condenser 8, the humid air of atomization, compared with the dry air of routine, can improve the heat exchange efficiency of the first condenser 8, increases the heat transfer effect of the first condenser 8; 3) be provided with water pump 5 at aqueduct 3, when meet impose a condition time, open water pump 5, on the one hand strengthen drainage, overcome the air drag of atmospheric pressure and pipe interior, another aspect provides initial pressure for follow-up atomized spray.

Due in reality use, the condensate water separated out is attached on evaporimeter 1 fin, condensate water flows in water-collecting tray 2 by Action of Gravity Field, consider that the condensate water that Fresh air handing process is separated out cannot flow in drip tray immediately, there is delay phenomenon, and under partial load condition, the flow potentially unstable of condensate water, at this moment just need to accumulate a certain amount of condensate water to spray, just have the effect of application.

In above-described embodiment, the set amount q=kq of condensate water in water-collecting tray 2 ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂by inquiring about the gain of parameter of humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

On the basis of above-described embodiment, on aqueduct 3 and the upstream being positioned at water pump 5 is provided with flowmeter 6, flowmeter 6 is for detecting the instantaneous delivery in aqueduct 3, condensate water in water-collecting tray 2 reaches set amount, and instantaneous delivery is when reaching setting value, water pump 5 is opened, and carries out atomized spray.

On the basis of above-described embodiment, on aqueduct 3 and the upstream being positioned at flowmeter 6 is provided with stop valve 7, open when the condensate water of stop valve 7 in water-collecting tray 2 reaches set amount.

Preferably or in embodiment one, in water-collecting tray 2, level sensing element can be set, by the water level in level sensing element testing water-collecting tray 2, and then obtain the water yield of the condensate water in water-collecting tray 2.

In sum, condensed-water recovering device provided by the invention arranges a water-collecting tray 2 bottom the evaporimeter 1 of conventional dehumidifier, carry out the recovery of condensate water in minimum point, the condensate water of recovery carries out atomized spray by sprinkler part 4 to the first condenser 8, thus reduces the condensation temperature of unit.First condenser 8 of the condensate water utilizing the dehumidification function of unit itself to produce to unit is lowered the temperature, and can improve the heat exchange efficiency of the first condenser 8, increase the heat transfer effect of the first condenser 8, thus promotes the Energy Efficiency Ratio of unit.By establishing water pump 5 at aqueduct 3, and setting water pump 5 unlocking condition, strengthen drainage on the one hand, overcome the air drag of atmospheric pressure and pipe interior, another aspect provides initial pressure for follow-up atomized spray, then condensate water can be avoided on the one hand not enough, burns water pump 5.

The recovery method of the condensed-water recovering device that the invention described above provides, comprises the following steps:

The condensate water that evaporimeter 1 produces with new air heat-exchange is reclaimed by water-collecting tray 2;

Aqueduct 3 is connected to water-collecting tray 2, when the condensate water in water-collecting tray 2 reaches set amount, opens the water pump 5 on aqueduct 3;

By water pump 5, the condensate water in water-collecting tray 2 is pumped into aqueduct 3, by aqueduct 3, condensate water is caused condenser, finally by the sprinkler part 4 on aqueduct 3, condensate water is sprayed onto on condenser, condenser is lowered the temperature.

In above-mentioned recovery method, the set amount q=kq of the condensate water in water-collecting tray 2 ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂can by the gain of parameter of inquiry humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

Imposing a condition lower unlatching water pump 5 meeting, can preventing unit from opening water pump 5 once starting, and when the water of unit dehumidifying precipitation is less, the abnormal failure such as easily cause that water pump 5 burns out.

One preferably or in embodiment, detect the instantaneous delivery in aqueduct 3 by flowmeter 6, the condensate water in water-collecting tray 2 reaches set amount, and when instantaneous delivery reaches setting value, open water pump 5, further water pump 5 is protected.

Further, establish stop valve 7 in the upstream of aqueduct 3 flow meter 6, when the condensate water in water-collecting tray 2 reaches set amount, open stop valve 7, when the instantaneous delivery in aqueduct 3 reaches setting value, open water pump 5.

Such as, when the condensate water of collecting in water-collecting tray 2 is greater than 85% of design moisture removal, when the water of the precipitation that namely dehumidifies reaches 85% of design moisture removal, the stop valve 7 on aqueduct 3 is opened.

Enumerate an illustrative examples of method for recovering condensation water below.

1) unit starting, when the condensate water of collecting in water-collecting tray 2 reaches set amount, open the stop valve 7 on aqueduct 3, and when the instantaneous delivery that the flowmeter 6 on aqueduct 3 detects reaches setting value, open the water pump 5 on aqueduct 3, condensate water is pumped to sprinkler part 4 and carries out atomized spray.

2) during compressor emergency shutdown, first switch off the pump 5, then close stop valve 7, compressor 10 delays cut out, and such as compressor 10 delays 3min and cuts out.

In above-described embodiment, consider the resh air requirement of unit, when the condensate water in setting water-collecting tray 2 reaches set amount, open water pump 5 and carry out condensate water introducing sprinkling, can prevent unit from opening water pump 5 once starting, and when the water that unit dehumidifying is separated out is less, the abnormal failure such as easily cause that water pump 5 burns out; And after compressor emergency shutdown, adopt and first cut out the pump 5, then close the mode of stop valve 7, be conducive to condensate water to drain, if first close stop valve 7, then cut out the pump 5, then easily cause water pump 5 overload to operate because of cutout.

Present invention also offers a kind of dehumidifier, it comprises the condensed-water recovering device in above-mentioned any embodiment.

Dehumidifier provided by the invention comprises evaporimeter 1, second condenser 9 at air intake place, first condenser 8 at return air place, compressor 10.Coolant media flows out from compressor 10, again enters compressor 10 successively, circulate after evaporator 1, second condenser 9, first condenser 8.Refrigerant pipeline wherein between evaporimeter 1 and the second condenser 9 is provided with choke valve 11.

Hot and humid new wind carries out cool-down dehumidification (separating out a large amount of condensate water to discharge) through evaporator 1, then blows after the second condenser 9 heats up;

Return air carries out heat exchange by the first condenser 8 (HTHP), lowers the temperature to the first condenser 8, becomes the higher wind of temperature and discharges.

Water-collecting tray 2 in condensed-water recovering device provided by the invention is located at the below of evaporimeter 1, collect the condensate water that evaporimeter 1 produces with new air heat-exchange, condensate water can cause the first condenser 8 by aqueduct 3, first condenser 8 is lowered the temperature, the heat exchange efficiency of the first condenser 8 can be improved, increase the heat transfer effect of the first condenser 8, thus promote the Energy Efficiency Ratio of unit, solve unit and need a large amount of draining, and directly get rid of outside unit, a large amount of condensation water at low temperature in unit dehumidification process can not be carried out the problem of recycling; And solve the problem using the unit efficiency of air-cooled first condenser 8 on the low side.

According to analysis of refrigeration cycle, under equal conditions, reduce the condensation temperature (other conditions are constant) of kind of refrigeration cycle, the compressor horsepower P producing identical cold will reduce, and unit eer EER=Q/P, Q are constant, and P reduces, then EER will raise.In dehumidifier system, when producing equal refrigerating capacity and moisture removal, the efficiency EER of unit will promote.

In describing the invention; it will be appreciated that; the word such as " first ", " second ", " the 3rd " is used to limit parts; be only used to be convenient to distinguish above-mentioned parts; as there is no Stated otherwise; above-mentioned word does not have particular meaning, therefore can not be interpreted as limiting the scope of the invention.

Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit; Although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the field are to be understood that: still can modify to the specific embodiment of the present invention or carry out equivalent replacement to portion of techniques feature; And not departing from the spirit of technical solution of the present invention, it all should be encompassed in the middle of the technical scheme scope of request of the present invention protection.

Claims (13)

1. a condensed-water recovering device, is characterized in that, comprising: water-collecting tray (2), for collecting the condensate water that evaporimeter (1) produces; Aqueduct (3), is connected to described water-collecting tray (2); Sprinkler part (4), is located at described aqueduct (3), and the condensate water for being introduced by described aqueduct (3) is sprayed to the first condenser (8); Water pump (5), be located at described aqueduct (3), for the condensate water in water-collecting tray (2) is pumped into aqueduct (3), and open when the condensate water of described water pump (5) in described water-collecting tray (2) reaches set amount.

2. condensed-water recovering device as claimed in claim 1, is characterized in that: described set amount q=kq ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂by inquiring about the gain of parameter of humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

3. condensed-water recovering device as claimed in claim 1 or 2, it is characterized in that: described aqueduct (3) is upper and the upstream being positioned at described water pump (5) is provided with flowmeter (6), described flowmeter (6) is for detecting the instantaneous delivery in described aqueduct (3), condensate water in described water-collecting tray (2) reaches set amount, and described instantaneous delivery is when reaching setting value, described water pump (5) is opened.

4. condensed-water recovering device as claimed in claim 3, it is characterized in that: described aqueduct (3) is upper and the upstream being positioned at described flowmeter (6) is provided with stop valve (7), opens when the condensate water of described stop valve (7) in described water-collecting tray (2) reaches set amount.

5. condensed-water recovering device as claimed in claim 1, is characterized in that: described water-collecting tray is provided with level sensing element in (2).

6. condensed-water recovering device as claimed in claim 1, is characterized in that: described water-collecting tray (2) is located at the below of described evaporimeter (1).

7. a method for recovering condensation water for the condensed-water recovering device as described in any one of claim 1-6, is characterized in that, comprises the following steps:

By the condensate water that water-collecting tray (2) recovery evaporimeter (1) and new air heat-exchange produce;

Aqueduct (3) is connected to water-collecting tray (2), when the condensate water in water-collecting tray (2) reaches set amount, opens the water pump (5) on aqueduct (3);

By water pump (5), the condensate water in water-collecting tray (2) is pumped into aqueduct (3), by aqueduct (3), condensate water is caused the first condenser (8), finally by the sprinkler part (4) on aqueduct (3), condensate water is sprayed onto on the first condenser (8), the first condenser (8) is lowered the temperature.

8. method for recovering condensation water as claimed in claim 7, is characterized in that: set amount q=kq ₁, wherein, k=0.85 ~ 1,

$q_1=\frac{P_a\·Q}{R_{g,a}\·T\·\mathrm{\ρ}}(d_2-d_1)$

P _a: the dry air partial pressure of new wind air;

Q: resh air requirement;

R _{g, a}: the gas constant of new rheumatism air;

T: the thermodynamic temperature of new wind air;

ρ: water density;

D ₁: the water capacity of new wind;

D ₂: the water capacity of the air after process;

P _a, R _{g, a}, T, ρ, d ₁, d ₂by inquiring about the gain of parameter of humid air; Q is the resh air requirement of unit, relevant with the dehumidifying effect of unit.

9. method for recovering condensation water as claimed in claim 7 or 8, it is characterized in that: detect the instantaneous delivery in aqueduct (3) by flowmeter (6), condensate water in water-collecting tray (2) reaches set amount, and instantaneous delivery is when reaching setting value, open water pump (5).

10. method for recovering condensation water as claimed in claim 9, it is characterized in that: establish stop valve (7) in the upstream of aqueduct (3) flow meter (6), when the condensate water in water-collecting tray (2) reaches set amount, open stop valve (7).

11. method for recovering condensation water as claimed in claim 10, it is characterized in that: during shutdown, first switch off the pump (5), then close the stop valve (7) on aqueduct (3).

12. 1 kinds of dehumidifiers, is characterized in that: comprise the condensed-water recovering device described in any one of claim 1-6.

13. dehumidifiers as claimed in claim 12, comprise second condenser (9) at evaporimeter (1), compressor (10) air intake place, first condenser (8) at return air place, is characterized in that: the condensate water that described evaporimeter (1) produces is sprayed to described first condenser (8) by the sprinkler part (4) in described condensed-water recovering device.