CN101726054A - Dehumidifier with energy-saving and temperature-decrease device - Google Patents

Abstract

The invention discloses a dehumidifier with an energy-saving and temperature-decrease device. The dehumidifier comprises a compressor, a heat exchanger, a wind delivery machine and a water receiving bucket which are arranged in a casing body, wherein the heat exchanger is connected with the compressor, is arranged inside a suction opening of the casing body of the dehumidifier, and consists of a condenser and an evaporator; the wind delivery machine is arranged inside a wind exhaust opening of the casing body of the dehumidifier; the water receiving bucket is arranged on the lower side of the heat exchanger; a heat display and heat exchange device with the energy-saving and temperature-decrease functions is arranged between the condenser and the evaporator; and a plurality of adjustable wind baffle plates are arranged in wind passages formed on the peripheries of the interior of the casing body of the dehumidifier. The heat display and heat exchange device is additionally arranged between the condenser and the evaporator, the wind passages are changed, and then the energy saving mode and the cold wind mode of the humidity removing machine can be separately realized, so the dehumidifier not only meets the increasingly stressful energy source requirement, but also increases the comfort of the output wind on human bodies. The energy effect can be enhanced from 2.3 to 2.7, and the wind outlet temperature can be decreased by about 10 DEG C under the condition of wind exchange with the same wind quantity.

Description

The dehumidifier that has energy-saving and cooling device

Technical field

The present invention relates to a kind of dehumidifier.Particularly relate to a kind of energy saver mode of dehumidifier and dehumidifier that has energy-saving and cooling device of cold wind pattern realized respectively.

Background technology

Usually, dehumidifier is that indoor humid air is drawn into dehumidifier dehumidifier enclosure interior, after heat exchanger reduction humidity, the air row after the reduction humidity to indoor, is reduced a kind of equipment of indoor humidity.Above-mentioned heat exchanger is made up of condenser and evaporimeter that inside possesses refrigerant.

As shown in Figure 1 and Figure 2, the dehumidifier of prior art comprises: dehumidifier housing body 2, chassis 4, front panel 6, pressure fan 8, heat exchanger 10, compressor 1 (Fig. 1 does not show), drain pan part 16, water receiver 20.Wherein, the front of dehumidifier housing body 2 and bottom surface opened form suction inlet 2a in the back.Chassis 4 is combined in the bottom surface of dehumidifier housing body 2.Front panel 6 is combined in the front of dehumidifier housing body 2, is formed with exhaust outlet 6a at the end face of front panel 6, and the front downside forms mounting groove 6b.Pressure fan 8 is made up of motor 8a and blowing fan 8b, and pressure fan 8 is arranged on the inboard of dehumidifier housing body 2 exhaust outlet 6a, to indoor discharge air.Heat exchanger 10 is located at the inboard of dehumidifier housing suction inlet 2a, and the room air that flows to is dehumidified.Heat exchanger 10 is made up of evaporimeter 12 and condenser 14.Compressor connects evaporimeter 12 and condenser 14, and refrigerant is compressed.Drain pan part 16 is arranged on the downside of heat exchanger 10.Condensed water in its surface condensation during heat exchanger 10 dehumidifying is flowed in the drain pan part 16.Water receiver 20 stores condensed water by the inboard that mounting groove 6b is installed in drain pan part 16.

Drain pan part 16 is made up of drain pan 16a, dividing plate 16b, gripper shoe 16c.Drain pan 16a is located at the below of heat exchanger 10.The condensation flow of heat exchanger 10 surface condensations is in drain pan 16a.Dividing plate 16b is integrally formed in the downside of drain pan 16a, divides the position of water receiver 20 and compressor.Gripper shoe 16c is integrally formed in the place ahead of dividing plate 16b round the two sides of water receiver 20.

As shown in Figure 2, compressor 1 is installed on the chassis 4, is positioned at the back of dividing plate 16b.

Aforesaid traditional structure compression dehumidifier is difficult to improve Energy Efficiency Ratio, particularly when big moisture removal, is difficult to satisfy the standard of the star of american energy, has greatly wasted electric energy.Simultaneously, the dehumidifier leaving air temp if use in the room in summer, has improved indoor temperature near 40 ℃ more.

Summary of the invention

Technical problem to be solved by this invention is, a kind of " energy saver mode " and " cold wind pattern " that can realize dehumidifier respectively is provided, and not only satisfied urgent day by day energy requirement, also increased the dehumidifier that has energy-saving and cooling device of body sense comfort level.

The technical solution adopted in the present invention is: a kind of dehumidifier that has energy-saving and cooling device, include and be arranged in the dehumidifier housing: compressor, be connected the heat exchanger that constitutes by condenser and evaporimeter that is positioned at dehumidifier housing suction inlet inboard with compressor, be positioned at the pressure fan of dehumidifier housing exhaust outlet inboard and the water receiver that is positioned at the heat exchanger downside, between condenser and evaporimeter, also be provided with sensible heat exchanger, in the formed air channel of dehumidifier housing inner rim, be provided with a plurality of Adjustable device aerofoils with energy-conservation cooling effect.

Described Adjustable device aerofoil includes: be positioned on the upper air duct, the rotatable upper corners place that is positioned at condenser one side that is connected sensible heat exchanger of an end is used to regulate first fender plate of upper air duct direction of ventilation; Be positioned at the air outlet place, an end is rotatable to be connected the upper corners place that condenser is positioned at left passage one side, is used to adjust second fender plate of place, air port direction of ventilation; Between left air channel and lower air duct, can the parallel mobile bottom that is connected condenser, be used to regulate the 3rd fender plate of the direction of ventilation in left air channel; Be positioned on the lower air duct, can parallel mobile being arranged in the lower air duct, be used to regulate the 4th fender plate of the direction of ventilation of lower air duct; Between lower air duct and right air channel, can the parallel mobile bottom that is connected evaporimeter, be used to regulate the 5th fender plate of the direction of ventilation between lower air duct and the right air channel; And being positioned at the air inlet place, the rotatable upper corners place that is connected the right air channel of vicinity one side of evaporimeter of an end is used to regulate the 6th fender plate of the direction of ventilation of air inlet.

Described sensible heat exchanger includes multilayer wind-guiding support, between every two-layer wind-guiding support one deck heat-conducting plate is set, and the wind-guiding direction of wherein per two wind-guiding supports that are close is vertical mutually settings.

Described sensible heat exchanger includes multilayer wind-guiding support, between every two-layer wind-guiding support one deck heat-conducting plate is set, and the wind-guiding direction of 1/2 layer of wind-guiding support of 1/2 layer of wind-guiding support and other wherein is vertical setting mutually.

The dehumidifier that has energy-saving and cooling device of the present invention, between evaporimeter and condenser, increase by a sensible heat exchanger, change the air channel, can realize " energy saver mode " and " cold wind pattern " of dehumidifier respectively, not only satisfied urgent day by day energy requirement, also increased the comfort level of delivery air human body.Energy Efficiency Ratio of the present invention (Energy Factor) can bring up to 2.7 by 2.3; Under the situation that waits the air quantity heat exchange, leaving air temp can reduce about 10 ℃.

Description of drawings

Fig. 1 is the structural representation of prior art dehumidifier;

Fig. 2 is a motor setting up structure schematic diagram in the prior art dehumidifier

Fig. 3 is the formation block diagram of prior art dehumidifier;

Fig. 4 is the formation block diagram of dehumidifier of the present invention;

The wind-guiding schematic diagram of sensible heat exchanger among Fig. 5 Fig. 4

Fig. 6, Fig. 7 are the process schematic diagrames that is transferred to state shown in Figure 7 by the wind-guiding state of sensible heat exchanger shown in Figure 5;

Fig. 8 is the structural representation of sensible heat exchanger of the present invention.

Wherein:

1: compressor 8: pressure fan

10: heat exchanger 12: evaporimeter

14: condenser 20: water receiver

22: sensible heat exchanger 23: heat-conducting plate

24: wind-guiding support 31: upper air duct

32: lower air duct 33: right air channel

34: 41: the first fender plates in left air channel

43: the three fender plates of 42: the second fender plates

45: the five fender plates of 44: the four fender plates

Fender plate 46 in 46: the six

The specific embodiment

Below, be described with reference to the accompanying drawings the dehumidifier that has energy-saving and cooling device of the present invention.

As shown in Figure 4, the dehumidifier that has energy-saving and cooling device, include and be arranged in the dehumidifier housing: compressor 1, be connected the heat exchanger 10 that constitutes by condenser 14 and evaporimeter 12 that is positioned at dehumidifier housing suction inlet inboard with compressor 1, be positioned at the pressure fan 8 of dehumidifier housing exhaust outlet inboard and the water receiver 20 that is positioned at heat exchanger 10 downsides, between condenser 14 and evaporimeter 12, also be provided with sensible heat exchanger 22 with energy-conservation cooling effect.

As Fig. 5, Fig. 6, shown in Figure 7, in the formed air channel of dehumidifier housing inner rim, also be provided with a plurality of Adjustable device aerofoils.Described Adjustable device aerofoil includes: be positioned on the upper air duct 31, the rotatable upper corners place that is positioned at condenser 14 1 sides that is connected sensible heat exchanger 22 of an end is used to regulate first fender plate 41 of upper air duct 31 direction of ventilation; Be positioned at the air outlet place, an end is rotatable to be connected the upper corners place that condenser 14 is positioned at left passage 34 1 sides, is used to adjust second fender plate 42 of place, air port direction of ventilation; Between left air channel 34 and lower air duct 32, can the parallel mobile bottom that is connected condenser 14, be used to regulate the 3rd fender plate 43 of the direction of ventilation in left air channel 34; Be positioned on the lower air duct 32, can parallel mobile being arranged in the lower air duct 32, be used to regulate the 4th fender plate 44 of the direction of ventilation of lower air duct 32; Between lower air duct 32 and right air channel 33, can the parallel mobile bottom that is connected evaporimeter 12, be used to regulate the 5th fender plate 45 of the direction of ventilation between lower air duct 32 and the right air channel 33; And being positioned at the air inlet place, the rotatable upper corners place that is connected the right air channel of vicinity 33 1 sides of evaporimeter 12 of an end is used to regulate the 6th fender plate 46 of the direction of ventilation of air inlet.

As shown in Figure 8, described sensible heat exchanger 22 includes multilayer wind-guiding support 24, between every two-layer wind-guiding support 24 one deck heat-conducting plate 23 is set, and the wind-guiding direction of wherein per two wind-guiding supports 24 that are close is vertical mutually settings.

Described sensible heat exchanger 22 can also be to include multilayer wind-guiding support 24, between every two-layer wind-guiding support 24 one deck heat-conducting plate 23 is set, and the wind-guiding direction of 1/2 layer of wind-guiding support 24 of 1/2 layer of wind-guiding support 24 and other wherein is vertical settings mutually.

As Fig. 4, shown in Figure 8, in six faces of described sensible heat exchanger 22, two nonventilated positive and negative are provided with the side that a side in 23, two sides of heat-conducting plate abuts against condenser 14, and another side abuts against a side of evaporimeter 12.

As shown in Figure 5, when being rotated to respectively, first fender plate 41 and second fender plate 42 stop being communicated with of upper air duct 31 and air outlet, the 3rd fender plate 43 and the 4th fender plate 44 move to respectively and stop being communicated with of left air channel 34 and lower air duct 32, the 5th fender plate 45 moves between sensible heat exchanger 22 and the evaporimeter 12, the 6th fender plate 46 rotates to when stopping being communicated with of air inlet and right air channel 33, and the trend of the inner wind path of dehumidifier is shown in the dotted line among Fig. 5:---upper air duct 31---sensible heat exchanger 22---lower air duct 32---right air channel 33---evaporimeter 12-sensible heat exchanger 22---condenser 14---left air channel 34---air outlet by air inlet.

As Fig. 6, shown in Figure 7, readjust each fender plate: first fender plate 41 is rotated counterclockwise 90 °, second fender plate 42 is rotated counterclockwise 45 °, the 3rd fender plate 43 is moved horizontally between condenser 14 and the sensible heat exchanger 22, the 4th fender plate 44 parallel moving to, stop being communicated with of right air channel 33 and lower air duct 32, when the 6th fender plate 46 was rotated counterclockwise 45 °, the trend of the inner wind path of dehumidifier was shown in the dotted line of Fig. 7:---right air channel 33---evaporimeter 12---sensible heat exchanger 22---condenser 14---left air channel 34------lower air duct 32------sensible heat exchanger 22---upper air duct 31---air outlet by air inlet.

The dehumidifier that has energy-saving and cooling device of the present invention, between condenser 14 and evaporimeter 12, be provided with sensible heat exchanger 22, because set sensible heat exchanger 22 has orthogonal wind-guiding direction, the heat exchange that has formed upper and lower wind and forward and backward wind reaches cool effect, also will after the air that the suction oral-lateral advances is lowered the temperature, steam to evaporimeter more successively, reach energy-conservation effect by heat-conducting plate 23.Particularly in the air channel of dehumidifier inside, be provided with different and be rotatable Adjustable device aerofoil, can be adjusted in the trend of the inner wind path of dehumidifier as required at any time, reached the optimum efficiency of energy-conservation cooling.

Claims (4)

1. dehumidifier that has energy-saving and cooling device, include and be arranged in the dehumidifier housing: compressor (1), be connected the heat exchanger (10) that is positioned at dehumidifier housing suction inlet inboard by condenser (14) and evaporimeter (12) formation with compressor (1), the water receiver (20) that is positioned at the pressure fan (8) of dehumidifier housing exhaust outlet inboard and is positioned at heat exchanger (10) downside, it is characterized in that, between condenser (14) and evaporimeter (12), also be provided with sensible heat exchanger (22), in the formed air channel of dehumidifier housing inner rim (3), be provided with a plurality of Adjustable device aerofoils with energy-conservation cooling effect.

2. the dehumidifier that has energy-saving and cooling device according to claim 1, it is characterized in that, described Adjustable device aerofoil includes: be positioned on the upper air duct (31), the rotatable upper corners place that is positioned at condenser (14) one sides that is connected sensible heat exchanger (22) of one end is used to regulate first fender plate (41) of upper air duct (31) direction of ventilation; Be positioned at the air outlet place, an end is rotatable to be connected the upper corners place that condenser (14) is positioned at left passage (34) one sides, is used to adjust second fender plate (42) of place, air port direction of ventilation; Be positioned between left air channel (34) and the lower air duct (32), can the parallel mobile bottom that is connected condenser (14), be used to regulate the 3rd fender plate (43) of the direction of ventilation in left air channel (34); Be positioned on the lower air duct (32), can parallel mobile being arranged in the lower air duct (32), be used to regulate the 4th fender plate (44) of the direction of ventilation of lower air duct (32); Be positioned between lower air duct (32) and right air channel (33), can the parallel mobile bottom that is connected evaporimeter (12), be used to regulate the 5th fender plate (45) of the direction of ventilation between lower air duct (32) and right air channel (33); And being positioned at the air inlet place, the rotatable upper corners place that is connected the right air channel of vicinity (33) one sides of evaporimeter (12) of an end is used to regulate the 6th fender plate (46) of the direction of ventilation of air inlet.

3. the dehumidifier that has energy-saving and cooling device according to claim 1, it is characterized in that, described sensible heat exchanger (22) includes multilayer wind-guiding support (24), one deck heat-conducting plate (23) is set between every two-layer wind-guiding support (24), and the wind-guiding direction of wherein per two wind-guiding supports (24) that are close is vertical mutually the setting.

4. the dehumidifier that has energy-saving and cooling device according to claim 1, it is characterized in that, described sensible heat exchanger (22) includes multilayer wind-guiding support (24), one deck heat-conducting plate (23) is set between every two-layer wind-guiding support (24), and 1/2 layer of wind-guiding support (24) wherein is vertical setting mutually with the wind-guiding direction of other 1/2 layer of wind-guiding support (24).

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