CN205156216U - High energy efficiency is than evaporation formula air conditioning equipment - Google Patents

Abstract

The utility model discloses a high energy efficiency is than evaporation formula air conditioning equipment, the casing that is located the storage water tank top is setting up the bracket, the permeate water bottom plate in hole of equipartition holding in the palm the shelf location, install complex film sweat cooling ware through strutting arrangement on the bottom plate, the compound film sheet is being installed for putting through strutting arrangement top -down equipartition tie in proper order to the structure of complex film sweat cooling ware, the equipartition is setting up the through -hole on the compound film sheet, the distributing water pipe in equipartition water distribution hole is being set up at the top of complex film sweat cooling ware, the distributing water pipe through arranging water piping connection to the first water pump of installation in the storage water tank, the surface cooler is being installed at rear portion at the air intake draught fan, the air mass flow regulator is being installed to air inlet end at complex film sweat cooling ware, the air -out end of complex film sweat cooling ware accesss to the air outlet. The utility model discloses evaporation refrigeration efficiency is high, and the refrigerating output is big, small in size, and the consumption is little, and the evaporimeter diaphragm washs conveniently and need not and changes, can realize the diaphragm self -cleaning in the work, and long service life, use cost are very low.

Description

High energy efficiency ratio evaporative air adjusting device

Technical field

The utility model relates to evaporative air regulation technology field, belongs to the improvement of evaporative air adjusting device structure, be a kind of collect air cooling, humidification, be filtered into one device, particularly a kind of high energy efficiency ratio evaporative air adjusting device.

Background technology

At present, the producer that home and abroad produces evaporative air adjusting device is more, and its type is divided into family expenses type and the large class of commercial type two.Conventional domestic type is with air-cooler, air cooler for dominating household application market, and its poor refrigerating efficiency, can only as family's auxiliary temperature-reducing application.Conventional commercial type is formed by combining with large and medium-sized vaporation-type handpiece Water Chilling Units, has been widely used in the place of densely populated place.Conventional commercial type make use of preferably air dry, wet-bulb temperature is poor, the poor acquisition cold of dew-point temperature, its Energy Efficiency Ratio is 3 of conventional compression formula conditioner---4 times, achieve all over the world and apply widely.But conventional commercial type also exists many deficiencies: Energy Efficiency Ratio is lower, core component sweat cooling device easily rots, and can not carry out comprehensive cleaning, sweat cooling degraded performance can not recover, and service life is shorter, and power consumption is large, the shortcomings such as noise is large, and volume is large, inconvenience maintenance.

Although the market application history of existing more than 50 year of traditional evaporative air adjusting device, but household small-size, the micro device that really can substitute conventional compression formula conditioner are blank really, trace it to its cause: its sweat cooling device in base material, structural design, sweat cooling mechanism etc. on there is significant deficiency.

Utility model content

The purpose of this utility model is to provide a kind of high energy efficiency ratio evaporative air adjusting device, its sweat cooling efficiency is high, refrigerating capacity is large, noise is low, compact, and power consumption is little, sweat cooling device diaphragm easy to clean and without the need to change, can also realize diaphragm self-cleaning at work, long service life, use cost is very low.

The purpose of this utility model is achieved in that a kind of high energy efficiency ratio evaporative air adjusting device, be included in there is air inlet and air outlet casing in air-introduced machine and exhaust blower are installed respectively, at bottom of shell, storage tank is set, the casing be positioned at above storage tank arranges bracket, bracket is installed with the base plate of uniform osculum, base plate is installed with horizontal composite membrane sweat cooling device by bracing or strutting arrangement, the structure of horizontal composite membrane sweat cooling device for by bracing or strutting arrangement from bottom to top successively equidistantly horizontal compound film sheet is installed, the structure of compound film sheet is adhere to water-absorption fiber fabric at the front and back of the uniform hard sheet arranging through hole, at the top of horizontal composite membrane sweat cooling device, the sparge pipe of uniform distributing hole is set, the first water pump installed in storage tank is connected to sparge pipe by water-supply-pipe, at the rear portion of air inlet air-introduced machine, surface cooler is installed, second water pump is connected to surface cooler by water-supply-pipe, surface cooler backwater is to storage tank, at the air intake of horizontal composite membrane sweat cooling device or outlet air end, air regulator is installed, the outlet air end of horizontal composite membrane sweat cooling device leads to air outlet.

During utility model works, first water pump is timing under the control of the controller, quantitatively the water in storage tank is dispensed on the compound film sheet on horizontal composite membrane sweat cooling device top through water-supply-pipe-cyclic ligand water pipe-distributing hole, under " the comprehensive physical effect " of water and compound film sheet acts on, water is rapid, evenly, absorption, diffusion, infiltrate into whole compound film sheet, and simultaneously uniform on compound film sheet through hole is successively to below compound film sheet water distribution, rinse, thus make " horizontal compound film body " all compound film sheets are all formed fully, uniform moisture film, and be stored in compound film sheet top with certain water film thickness, bottom and uniform Kong Liezhong, after moisture film is formed, namely water distribution is stopped, Yu Shui is back to storage tank through base plate osculum.Define n layer, horizontal arrangement, a determining deviation, form rule in this is engraved in " horizontal compound film body ", the water yield is appropriate, thickness is uniform " sheet moisture film cube ".The water entering horizontal composite membrane sweat cooling device participation sweat cooling is timing, rationing, and under equal working condition, the technology mode of this " creativeness ", makes water, air caloic exchange quicker, abundant, complete.The Energy Efficiency Ratio that more traditional sweat cooling device is much higher can be obtained.The bikini levelling device that adjustment bottom of shell is arranged, makes the compound film sheet of horizontal composite membrane sweat cooling device be in horizontal state, thus makes machine operation in optimum state.

Extraneous air is at air inlet air-introduced machine, after surface cooler cooling, air chamber is entered under the effect of air outlet exhaust blower, along being parallel to moisture film direction, with the moisture film passage of the low windage state flow of undisturbed shape through " sheet moisture film cube ", be arranged on the ventilation fence of the tubular air regulator in horizontal composite membrane sweat cooling device and choke grid corresponding with it, make air evenly by each layer moisture film passage, carry out High Efficiency Thermal mass transter, the evaporation of moisture film makes the temperature of air and water significantly reduce, Cryogenic air is at air inlet air-introduced machine, room temperature lowering is entered through air outlet under the effect of air outlet exhaust blower, water at low temperature is back to storage tank to water-storage cooling, low temperature water storage carries out cooling through surface cooler to the extraneous air entering blast pipe to water-supply-pipe through the second water pump pump, and circulate with this.Core component horizontal composite membrane sweat cooling device of the present utility model has great innovation in base material, structural design, sweat cooling mechanism etc., its Energy Efficiency Ratio is up to about 260, being about 70 times of conventional compact formula conditioner, is about 15 times of traditional evaporative air adjusting device.The utility model can substitute conventional compression formula air-conditioning completely and enter family, is also applicable to the application of commercial large and medium-sized machine.

Core of the present utility model is horizontal composite membrane sweat cooling device, and the core component of horizontal composite membrane sweat cooling device is compound film sheet, and its structure is adhere to water-absorption fiber fabric at the front and back of the uniform hard sheet arranging through hole.In horizontal composite membrane sweat cooling device, the compound film sheet quantity of horizontal, stacked, equidistant arrangement is many, the moisture film that compound film sheet is formed is abundant, between compound film sheet, spacing is reasonable, makes the effective sweat cooling area of horizontal composite membrane sweat cooling utensil, volume large, the feature that refrigerating capacity is large.In order to promote the refrigerating efficiency of horizontal composite membrane sweat cooling device further, to its water distribution, air parameter, air resistance coefficient, effective disengagement area, volume, the important parameters such as compound film sheet moisture storage capacity carry out scientific and reasonable design collocation, make the utility model delivery air temperature significantly lower than the wet-bulb temperature of input air, its temperature difference can reach 25 degrees Celsius.

Subordinate list is product of the present utility model and current domestic well-known compressed air conditioner device technical parameter contrast table:

The utility model all technical is all significantly better than contrast product.Product Energy Efficiency Ratio of the present utility model is high, and refrigerating capacity is large, and noise is low, and power consumption is little, and volume is little, compound film sheet easy to clean and without the need to changing, long service life, use cost is very low.

Accompanying drawing illustrates: be further described the utility model below in conjunction with accompanying drawing

Fig. 1 is the main TV structure schematic diagram of the utility model embodiment 1;

Fig. 2 is the main TV structure schematic diagram of the utility model embodiment 2;

Fig. 3, Fig. 4 be the utility model embodiment 3 main TV structure schematic diagram;

Fig. 5 is Fig. 2 backsight structural representation;

Fig. 6 is Fig. 2 plan structure schematic diagram;

Fig. 7 is the support device structure schematic diagram of the utility model embodiment 1;

Fig. 8 is the main TV structure schematic diagram of the first compound film sheet of the utility model embodiment 1;

Fig. 9 is Fig. 8 plan structure schematic diagram;

Figure 10 is the main TV structure schematic diagram of the second compound film sheet of this embodiment 2;

Figure 11 is Figure 10 plan structure schematic diagram;

Figure 12 is the main TV structure schematic diagram of tubular air regulator of the utility model embodiment 1;

Figure 13 is the main TV structure schematic diagram of tabular air regulator of the utility model embodiment 2.

Detailed description of the invention

A kind of high energy efficiency ratio evaporative air adjusting device, as Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, shown in Fig. 6, be included in there is air inlet 1 and air outlet 2 casing 3 in air-introduced machine 4 and exhaust blower 5 are installed respectively, storage tank 6 is set bottom casing 3, the casing 3 be positioned at above storage tank 6 arranges bracket 7, bracket 7 is installed with the base plate 8 of uniform osculum, base plate 8 is installed with horizontal composite membrane sweat cooling device by bracing or strutting arrangement, the structure of horizontal composite membrane sweat cooling device for by bracing or strutting arrangement from bottom to top successively equidistantly horizontal compound film sheet is installed, compound film sheet structure is arrange determining deviation stake 25 on the uniform hard sheet arranging through hole 24, adhere to water-absorption fiber fabric 34 the front and back of hard sheet is uniform, at the top of horizontal composite membrane sweat cooling device, the sparge pipe 14 of uniform distributing hole is set, the first water pump 12 installed in storage tank 6 is connected to sparge pipe 14 by water-supply-pipe 13, at the rear portion of air inlet 1 air-introduced machine 4, surface cooler 15 is installed, second water pump 16 is connected to surface cooler 15 by water-supply-pipe 17, surface cooler 15 return pipe 18 connects storage tank 6, at the air intake of horizontal composite membrane sweat cooling device or outlet air end, air regulator is installed, the outlet air end of horizontal composite membrane sweat cooling device leads to air outlet 2.Power circuit respectively connected the first water pump 12 by power supply adaptor 19 and controller 20, second water pump 16, air-introduced machine 4 and exhaust blower 5, first water pump 12, second water pump 16 is the brushless silencing water pump of low-voltage direct, air-introduced machine 4, exhaust blower 5 is the brushless quiet blower fan of low-voltage direct, first water pump 12, second water pump 16 under the control of the controller, regularly, quantitatively the water of storage tank 6 is dispensed on the compound film sheet on horizontal composite membrane sweat cooling device top through water-supply-pipe 13-cyclic ligand water pipe 14-distributing hole, the air quantity regulating and controlling air-introduced machine 4 and exhaust blower 5 with Time Controller 20 matches.The supply voltage entering machine is the low-voltage direct safe voltage through power supply adaptor 19 step-down.The shape of sparge pipe 14 is the tubular sparge pipe of the helical disk that matches with horizontal composite membrane sweat cooling device end face, and the inner end mouth of pipe of sparge pipe 14 is closed.The second water pump 16 being positioned at storage tank 6 is connected to the water inlet of surface cooler 15 by water-supply-pipe 17, the return pipe 18 of surface cooler 15 is connected to storage tank 6.As shown in Fig. 8, Fig. 9, Figure 10, Figure 11, the structure of compound film sheet is adhere to water-absorption fiber fabric 34 the front and back of the hard sheet of uniform through hole 24 is uniform, arranges determining deviation stake 25 the front and back of compound film sheet is uniform respectively.Have centered by the structure of compound film sheet pilot hole 26 hold concurrently exhaust vent disc first compound film sheet 10 or be the second compound film sheet 27 of trapezoidal tabular.Water-absorption fiber fabric 34 is made up of antibacterial hydroscopic fabric or conventional absorbent paper fabric.Adopt the compound film sheet of antibacterial hydroscopic fabric, it is antibacterial, sanitation performance is better.As shown in Figure 12 and Figure 13, air regulator is tubular air regulator 11 or tabular air regulator 28.The structure of tubular air regulator 11 is uniformly on cylindrical wall arrange the ventilation fence 29 be made up of axial equilateral angle, and wherein the angle of ventilation fence 29 is positioned at the top of cylindrical wall.The structure of tabular air regulator 28 is arranging air duct slats grid 30 by laterally uniform on the rectangular slab that hard sheet is formed, and the width being wherein positioned at middle air duct slats grid 30 is minimum, and the width being positioned at the air duct slats grid 30 of both sides increases successively.Embodiment 1 as shown in Figure 7, the structure of bracing or strutting arrangement is uniformly in the cylindrical semi-circumference of base plate 8 arrange column 9, coordinate in the upper end of column 9 and affixed there is centre bore 23 hold concurrently the overhead gage 22 of exhaust vent, be installed with in column frame by tubular air regulator 11 as supporting, n sheet first compound film sheet 10 of locating support, the first stacked compound film sheet 10 pilot hole 26 exhaust vent engagement sleeves of holding concurrently is contained on tubular air regulator 11, and the upper nozzle of tubular air regulator 11 and the centre bore 23 of overhead gage 22 are held concurrently, exhaust vent bottom is docked, flush, the centre bore 23 of overhead gage 22 exhaust vent of holding concurrently is connected to the air outlet 2 of casing, at air outlet 2, exhaust blower 5 is installed, the sparge pipe 14 matched with the first compound film sheet 10 is set at the back side of overhead gage 22.As Fig. 2, Fig. 4, Fig. 5, embodiment 2 shown in Fig. 6, in the front of casing 3, air outlet 2 is set, the back side arranges air inlet 1, the structure of bracing or strutting arrangement is the base plate 8 in casing 3 arranges connect air outlet 2 both sides respectively, and the side plate 29 of symmetrical inclination, the other end of side plate 29 is connected to form trapezoid space with the two side of casing 3 respectively, coordinate in trapezoid space and uniform stacked trapezoidal second compound film sheet 27 is installed, the bottom of trapezoidal second compound film sheet 27 is towards air intake, the facade of trapezoid space inlet side is fixedly mounted with tabular air regulator 28.The space keeping certain between the bonnet 31 of tabular air regulator 28 and casing 3 forms air chamber 35, the bonnet 31 of casing 3 coordinates surface cooler 15 is installed, air-introduced machine 4, at air-introduced machine 4, under the double action of exhaust blower 5, the surface cooler 15 of extraneous air through being arranged on air inlet 1 enters air chamber 35 after lowering the temperature, through tabular air regulator 28 current stabilization, air is made evenly to enter the air intake of horizontal composite membrane sweat cooling device, moisture film passage again in horizontal composite membrane sweat cooling device carries out High Efficiency Thermal mass transter, the temperature of air and water is significantly reduced, Cryogenic air is at air-introduced machine 4, room temperature lowering is inputted through air outlet 2 under the double action of exhaust blower 5, water at low temperature is back to storage tank 6 pairs of water-storage coolings, low temperature water storage carries out cooling through surface cooler 15 to the extraneous air entering air inlet 1 through the second water pump 16 to water-supply-pipe 17, backwater is to storage tank 6, and circulate with this.Embodiment 3 as shown in Figure 3, Figure 4, cooling-water machine 21 respectively connected storage tank 6 by water-supply-pipe 32 and return pipe 33.Water-supply-pipe 32 is arranged on the bottom of storage tank 6.The water storage of cooling-water machine 21 pairs of storage tanks 6 carries out reducing temperature twice, significantly can reduce delivery air temperature of the present utility model, improve using value of the present utility model further.The utility model is divided into indoor, outdoor two kinds of types: machine is placed in indoor, and the type by induced duct outdoor air being inputted the utility model air inlet is indoor set.Machine is placed in outdoor, and by exhaust duct, outdoor machine air outlet air being inputted indoor type is off-premises station.

Claims (12)

1. a high energy efficiency ratio evaporative air adjusting device, be included in there is air inlet (1) and air outlet (2) casing (3) in air-introduced machine (4) and exhaust blower (5) are installed respectively, in casing (3) bottom, storage tank (6) is set, it is characterized in that: the casing (3) being positioned at storage tank (6) top arranges bracket (7), bracket (7) is installed with the base plate (8) of uniform osculum, base plate (8) is installed with horizontal composite membrane sweat cooling device by bracing or strutting arrangement, the structure of horizontal composite membrane sweat cooling device for by bracing or strutting arrangement from bottom to top successively uniform horizontal compound film sheet is installed, uniform on compound film sheet through hole (24) is set, the sparge pipe (14) of uniform distributing hole is set at the top of horizontal composite membrane sweat cooling device, the first water pump (12) installed in storage tank (6) is connected to sparge pipe (14) by water-supply-pipe (13), at the rear portion of air inlet (1) air-introduced machine (4), surface cooler (15) is installed, second water pump (16) is connected to surface cooler (15) by water-supply-pipe (17), at the air intake of horizontal composite membrane sweat cooling device or outlet air end, air regulator is installed, the outlet air end of horizontal composite membrane sweat cooling device leads to air outlet (2).

2. high energy efficiency ratio evaporative air adjusting device according to claim 1, it is characterized in that: the structure of compound film sheet is adhere to water-absorption fiber fabric (34) the front and back of the hard sheet of uniform through hole (24) is uniform, determining deviation stake (25) is set the front and back of compound film sheet is uniform respectively.

3. high energy efficiency ratio evaporative air adjusting device according to claim 2, is characterized in that: have disc first compound film sheet (10) of the double exhaust vent of pilot hole (26) or the second compound film sheet (27) for trapezoidal tabular centered by the structure of compound film sheet.

4. high energy efficiency ratio evaporative air adjusting device according to claim 1, is characterized in that: air regulator is tubular air regulator (11) or tabular air regulator (28).

5. high energy efficiency ratio evaporative air adjusting device according to claim 4, it is characterized in that: the structure of tubular air regulator (11) is uniformly on cylindrical wall arrange the ventilation fence (29) be made up of axial equilateral angle, and wherein the angle of ventilation fence (29) is positioned at the top of cylindrical wall.

6. high energy efficiency ratio evaporative air adjusting device according to claim 4, it is characterized in that: the structure of tabular air regulator (28) is arranging air duct slats grid (30) by laterally uniform on the rectangular slab that hard sheet is formed, the width being wherein positioned at middle air duct slats grid (30) is minimum, and the width being positioned at the air duct slats grid (30) of both sides increases successively.

7. the high energy efficiency ratio evaporative air adjusting device according to claim 1 or 3 or 5, it is characterized in that: the structure of bracing or strutting arrangement is uniformly in the cylindrical semi-circumference of base plate (8) arrange column (9), coordinate in the upper end of column (9) and affixed there is centre bore (23) hold concurrently the overhead gage (22) of exhaust vent, be installed with in column frame by tubular air regulator (11) as supporting, n sheet first compound film sheet (10) of locating support, the double exhaust vent engagement sleeves of pilot hole (26) of stacked the first compound film sheet (10) is contained on tubular air regulator (11), and the upper nozzle of tubular air regulator (11) is corresponding with centre bore (23) bottom of overhead gage (22), flush, the double exhaust vent of centre bore (23) of overhead gage (22) is connected to the air outlet (2) of casing, at air outlet (2), exhaust blower (5) is installed, the sparge pipe (14) matched with the first compound film sheet (10) is set at the back side of overhead gage (22).

8. the high energy efficiency ratio evaporative air adjusting device according to claim 1 or 3 or 6, it is characterized in that: in the front of casing (3), air outlet (2) is set, the back side arranges air inlet (1), the structure of bracing or strutting arrangement is the base plate (8) in casing (3) arranges connect air outlet (2) both sides respectively, and the side plate (29) of symmetrical inclination, the other end of side plate (29) is connected to form trapezoid space with the two side of casing (3) respectively, coordinate in trapezoid space and uniform stacked trapezoidal second compound film sheet (27) is installed, the bottom of trapezoidal second compound film sheet (27) is towards air intake, the facade of trapezoid space air inlet side is fixedly mounted with tabular air regulator (28).

9. high energy efficiency ratio evaporative air adjusting device according to claim 1, it is characterized in that: power circuit respectively connected the first water pump (12) by power supply adaptor (19) and controller (20), second water pump (16), air-introduced machine (4) and exhaust blower (5), first water pump (12), second water pump (16) is the brushless silencing water pump of low-voltage direct, air-introduced machine (4), exhaust blower (5) is the brushless quiet blower fan of low-voltage direct, first water pump (12), second water pump (16) under the control of the controller, regularly, quantitatively the water of storage tank (6) is dispensed on the compound film sheet on horizontal composite membrane sweat cooling device top through water-supply-pipe (13)-cyclic ligand water pipe (14)-distributing hole, the air quantity of same Time Controller (20) regulation and control air-introduced machine (4) and exhaust blower (5) matches.

10. high energy efficiency ratio evaporative air adjusting device according to claim 1, it is characterized in that: the shape of sparge pipe (14) is the tubular sparge pipe of the helical disk that matches with horizontal composite membrane sweat cooling device end face, and the inner end mouth of pipe of sparge pipe (14) is closed.

11. high energy efficiency ratio evaporative air adjusting devices according to claim 1, it is characterized in that: the second water pump (16) being positioned at storage tank (6) is connected to the water inlet of surface cooler (15) by water-supply-pipe (17), the return pipe (18) of surface cooler (15) is connected to storage tank (6).

12. high energy efficiency ratio evaporative air adjusting devices according to claim 1, is characterized in that: water-supply-pipe (32) and the return pipe (33) of cooling-water machine (21) respectively connected storage tank (6).