CN204786971U - Modularization water evaporation cooling water set - Google Patents

Modularization water evaporation cooling water set Download PDF

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Publication number
CN204786971U
CN204786971U CN201520445524.1U CN201520445524U CN204786971U CN 204786971 U CN204786971 U CN 204786971U CN 201520445524 U CN201520445524 U CN 201520445524U CN 204786971 U CN204786971 U CN 204786971U
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water
air
unit
module
direct
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于优城
李民柱
张爱武
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SHAANXI URSTAR ENVIRONMENTAL SCIENCE AND TECHNOLOGY Co Ltd
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SHAANXI URSTAR ENVIRONMENTAL SCIENCE AND TECHNOLOGY Co Ltd
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Abstract

The utility model relates to a modularization water evaporation cooling water set, it includes: at least one filters cooling segment module, and every filters cooling segment module and has air filter and air cooling apparatus, at least one direct segment module, at least one direct segment module has the breakwater of unit exhaust fan, filler, water tank, spray set and spray set top, wherein, at least one filters cooling segment module and arranges separablely at least one direct segment module's side. The utility model discloses an unit is owing to adopt separable modularization structure for unit installation, transportation, debugging, maintenance etc. Are very convenient. In addition, adopt the modularization structure, the increase of the packed height of still being convenient for very much.

Description

Modular water evaporation handpiece Water Chilling Units
Technical field
The utility model relates to refrigerating plant, is specifically related to a kind of modular water evaporation handpiece Water Chilling Units.
Background technology
Evaporation cooling technique is a technology utilizing water evaporation endothermic to realize refrigeration, and the phenomenon taking away heat when this technology mainly utilizes water to evaporate in atmosphere carrys out work.Under the condition not having other thermal source, the hot and humid area process between water and air is that sensible heat transfer feeds water by air, and the temperature of air is declined; And due to evaporation of water, the water capacity of air will increase, and the steam entering air also will take back some latent heats of vaporization.When these two kinds of heats are equal, water temperature can reach the wet-bulb temperature of air.Therefore, as long as the humidity of air is not saturated, utilizes recirculated water spray air just can obtain the effect of cooling, thus can cold water be obtained.
Compared with mechanical refrigeration, vaporation cooling refrigeration has the following advantages: initial cost cost is low; Power consumption is low; Environmental friendliness (only using water and air to make medium); Safeguard simple.Owing to being limited to the humidity of air, vaporation cooling refrigeration is mainly applicable to arid/semiarid zone.
There is multiple water evaporation handpiece Water Chilling Units in prior art, wherein more representationally to have comprised: such as, the technology disclosed in the patent documents such as CN203116197U, CN202709355U, CN203116206U, CN202709356U.
But water evaporation handpiece Water Chilling Units of the prior art has monoblock type machine unit shell usually, and each part of indirect evaporating-cooling section and direct evaporating-cooling section is all assembled in same machine unit shell.This causes set structure heavier.Particularly when the refrigerating capacity designed is larger, more filler, more powerful blower fan and huger water circuit system can be needed, this will cause the shell dimension of unit huge, and after assembling, the weight of unit is also by huge, brings the difficulty of the aspects such as carrying, installation thus.By the restriction of machine unit shell size, unit inner space is often narrower.
In addition, the unit of these prior aries, except comprising the direct evaporating-cooling section of lowering the temperature to water, also all comprises the indirect evaporating-cooling section for cooling air.Also namely, these prior aries all comprise at least two separate cover evaporative cooling systems, often overlap evaporative cooling system and all must comprise the necessary component such as blower fan, water tank, water pump, filler.This causes the loss of water in water evaporation process (discharging with air after evaporation) larger on the one hand because evaporative cooling system, it is for economic not environmental protection the operation of unit in arid/semiarid zone, on the other hand also make that the volume of unit is huger, structure is not compacter because water vapo(u)rization system takes up room more, again on the one hand, organize blower fan, water pump more and also make system power dissipation larger.
In addition, in the unit of prior art, user's backwater (the unit cold water exporting user to returns water during unit after performing heat exchange) is directly delivered to spray equipment and is sprayed, and then carries out evaporative cooling cooling.Temperature due to user's backwater is still starkly lower than the outside air temperature of there and then, directly returns spray equipment and makes the utilization rate of the cold water temperature to user's backwater lower.
The handpiece Water Chilling Units of prior art, various piece is arranged in a single-piece frame often.When casing volume is enough large, the overall weight of unit is also very heavy, and unit huge so not only brings the problem of transport difficult, but also the unfavorable situation such as cause in-site installation, debugging efforts heavy.
In addition, if when needing enough large hot and humid area distance, packed height (thickness) is larger, and this increases causing the height of unit thereupon.For monoblock type unit, all there is inconvenience when manufacturing or transport and installing in too tall and big casing, can cause high cost or even be difficult to realize.Adopt modular structure then can be not limited.By direct root module being divided into the direct root module of blower fan and the direct root module two parts of water tank, just this problem can be solved to a great extent.Even, can setting up independent " the direct root module of filler " (namely only comprises the direct root module of filler as required, it is arranged between the direct root module of blower fan and the direct root module of water tank), ensure required packed height thus, but the amount of labour of the links such as installation, debugging, transport can not be increased.
It is contemplated that when unit adopts modular construction, unit water circuit system also can not be disassembled with each module.Namely, in each module, do not comprise the pipeline of water circuit system, but reproduce field pipe laying after each module assembled yet.By contrast, this configuration mode can increase certain work on the spot amount.
Below respectively each parts (module) of unit are described in detail.
filter cooling section
For left filtration cooling section, particularly, the structure of left filtration cooling section 110 can see Fig. 5-8.Left filtration cooling section 110 preferably has the contour structures of roughly cuboid, and it comprises base 1 (base be such as made up of channel-section steel) and left filtration cooling section framework 2, for supporting and fixing each part.Base 1 and framework 2 can construct in split, also can Construction integration.
Left filtration cooling section 110 also comprises the air filter and air-cooling apparatus arranged successively from air intake place ecto-entad.Preferably, air filter comprises the first air filter 3 (being preferably airstrainer, such as detachable airstrainer) and the second air filter 5 (being preferably bag filter, such as detachable bag filter).In addition preferably, air-cooling apparatus comprises the first air-cooling apparatus 6 (being preferably surface cooler) and the second air-cooling apparatus 7 (being preferably surface cooler).
Preferably the first air filter 3 of airstrainer is arranged on the air intake place on lateral wall.Outdoor air first through airstrainer 3 to filter out the foreign material of the larger particles and leaf and so in air, then through being preferably the second air filter 5 of bag filter to filter out the fine particle (such as dust, pollen etc.) in air.Conceivable, air filter can also comprise more the (the such as the 3rd, the 4th ...) air filter.
Enter the first air-cooling apparatus (such as pyrometric scale cooler) 6 and the second air-cooling apparatus (such as cryometer cooler) 7 subsequently in turn to lower the temperature through filtered air, after air outlet slit 60 on opposite side wall enter the direct section 130 of water tank.Conceivable, air-cooling apparatus can also comprise more the (the such as the 3rd, the 4th ...) air-cooling apparatus.
Alternatively, left filtration cooling section 110 can comprise cooler support (such as high/low temperature surface cooler support) 4, for fixing and support each aerial cooler 6,7, and for mating each aerial cooler and air filter and/or the relative position relation with air outlet slit 60.Preferably, the second air filter 5, first and second air-cooling apparatus 6 and 7 and air outlet slit 60 roughly etc. are arranged on highland.
As shown in figs9-12, the structure of right filtration cooling section 120 preferably can with the structure substantial symmetry of left filtration cooling section 110, the function of the two is then identical in fact.Accordingly, right filtration cooling section 120 preferably has the contour structures of roughly cuboid, and it comprises base 26 (base be such as made up of channel-section steel), right filtration cooling section framework 20.Base 26 and framework 20 can construct in split, also can Construction integration.Right filtration cooling section 120 also comprises air filter and air-cooling apparatus.Air filter preferably includes the first air filter 21 and (is preferably airstrainer, such as detachable airstrainer), the second air filter 22 (is preferably bag filter, such as detachable bag filter), air-cooling apparatus preferably includes the first air-cooling apparatus 23 and (is preferably surface cooler, such as staggered form surface cooler) and the second air-cooling apparatus 24 (being preferably surface cooler, such as staggered form cryometer cooler).Right filtration cooling section 120 also comprises cooler support (such as high/low temperature surface cooler support) 25 alternatively.
Preferably, left filtration cooling section 110 and/or right filtration cooling section 120 also comprise surface cooler automatic-discharging system.The effect of surface cooler automatic-discharging system is the water in emptying surface cooler, such as, carry out emptying before carrying out telephone-moving transport to unit, and to alleviate weight of equipment, or unit carries out emptying after stopping using in the winter time, in case surface cooler bursting by freezing.Such as, described surface cooler automatic-discharging system can comprise surface cooler drainage arrangement 45, as shown in figure 11.Surface cooler drainage arrangement 45 is preferably arranged on the bottom of surface cooler, for the water (such as automatically flowing out by water) in emptying surface cooler when needed.Surface cooler drainage arrangement 45 also can be arranged on the position outside the bottom of surface cooler, such as be limited to the configuration of inner space or consider the convenience of operation, now, the water in emptying surface cooler can realize by means of external pumping equipment (such as pump).
Further, described surface cooler automatic-discharging system can also comprise surface cooler exhaust apparatus 44, as shown in figure 11.Surface cooler exhaust apparatus 44 is preferably arranged on the top of surface cooler, and its effect has two: the first, for getting rid of the gas in surface cooler, to reduce the tension force of water, thus plays the effect preventing gas stifled in unit operation; It two is coordinate the water in surface cooler drainage arrangement 45 emptying surface cooler.When coordinating surface cooler drainage arrangement 45 to carry out emptying water, opening the negative pressure that surface cooler exhaust apparatus 44 can eliminate surface cooler inside effectively, thus making the exclusion process of water more smooth and easy.
Conceivable, left filtration cooling section 110 and/or right filtration cooling section 120 also can only comprise surface cooler exhaust apparatus 44, and block up to prevent gas for the gas got rid of in surface cooler, this configuration is applicable to situation when seldom needing emptying water.
Those skilled in the art will find apparent that, the one of any of each surface cooler 23,24 and 6,7 can arrange surface cooler exhaust apparatus 44 and/or surface cooler drainage arrangement 45 selectively.
In addition, left filtration cooling section 110 and right filtration cooling section 120 each sidewall (except air intake and outlet outer), roof, preferably diapire place is also provided with heat-insulation wall plate in addition, enter with isolated extraneous hot-air.It is envisioned that the sidewall that filtration cooling section docks with the direct section of water tank can not arrange heat-insulation wall plate.Heat-insulation wall plate can select such as extrusion molding polystyrene polyfoam for heat insulation (being called for short XPS) warming plate, polyurethane thermal insulation board etc.Preferably, the insulating plate structure that unit of the present utility model uses is: inner panel is galvanized sheet, and outside plate is color steel, middle extrusion molding polystyrene polyfoam, and its high insulating effect, intensity is high.Preferably, the heat-insulation wall plate of forward and backward side-walls is detachable heat-insulation wallboard 33 (as illustrated in FIG 8 and FIG 12), so that unit maintenance personal overhauls left and right filtration cooling section.
According to the concrete installation situation of unit, maintenance ladder 8 can also be set at the side place of one of left filtration cooling section 110 and right filtration cooling section 120 (such as at the rear side place of left filtration cooling section 110, see Fig. 8) so that unit maintenance personal climbing.
the direct section of water tank
Figure 13-17 shows the structure of the direct section 130 of water tank.As shown in the figure, the direct section 130 of water tank preferably has the contour structures of general square shape, and it comprises water tank direct section base 28 and the direct segment frames 9 of water tank, for supporting and fixing each part.Base 28 and framework 9 can construct in split, also can Construction integration.The top of the direct section 130 of water tank is provided with the first filler 10, and bottom is provided with water tank 46, and water tank 46 is for collecting the water from the first filler 10.
First filler 10 can adopt S ripple filler, oblique wrong filler, step Trapezium oblique wave filler, and the sinusoidal wave filler of difference position formula, some ripple filler, hexagon cellular filler, two-way ripple filler or bias ripple filler, preferably adopt bias ripple filler.First filler 10 material can be PVC, PE or PP, preferred PVC.
The sidewall of the direct section of water tank 130 is provided with substantially rectangular air intake 63, the position of air intake 63 is roughly the same with the air outlet slit 60 of filtration cooling section 110,120 with shape, thus when unit is assembled, described air intake 63 docks with the air outlet slit 60 filtering cooling section.In the preferred embodiment illustrated, the left and right sidewall of the direct section 130 of water tank is provided with air intake, docks for the air outlet slit that cooling section 110,120 is filtered in left and right.
The air carrying out inherent filtration cooling section 110,120 is admitted in the first filler (such as bias ripple PVC filler) 10 in the direct section 130 of water tank, and this part air carries out hot and humid area with the moisture film (spray equipment is sprayed at the moisture film of such as 0.1 millimeter that the water on filler is formed at filling surface due to the effect of air stream) on the first filler 10 surface in flow process from bottom to up.In exchange process, heat has been taken away in water evaporation, makes water for cooling.Water flows downward and is constantly lowered the temperature in filler, and the water after cooling is stored in water tank 46.Air after hot and humid area is then admitted in the direct section 140 of blower fan of top further.
Preferably, the inside of the direct section 130 of water tank is roughly vertically separated into two parts space, namely for holding the space 61 of waterway pipe and the space 62 for carrying out hot and humid area.Wherein, first filler 10 is by means of being attached to the packing support (not shown in detail) of the direct segment frames 9 of water tank and the top be loaded in the described space 62 for carrying out hot and humid area, and water tank 46 is arranged on the bottom in the space 62 for carrying out hot and humid area.First filler 10 preferably has approximate horizontal lower limb.The lower limb of the first filler or the lower limb of packing support substantially with water tank the top edge of direct section air intake 63 contour or a little more than the top edge of described air intake.Conceivable, the first filler 10 also can not have approximate horizontal lower limb, but has the lower limb of such as del.Certainly, as those skilled in the art recognize, the lower limb of del is compared with the lower limb of level, and windage is comparatively large, cause blast large, and then power of fan is also large.In addition, del structure relative complex, processing, assembly difficulty are relatively large.
The forward and backward sidewall of the direct section of water tank 130 and preferably also have diapire to be provided with heat-insulation wall plate, enters with isolated extraneous hot-air.Heat-insulation wall plate can select such as extrusion molding polystyrene polyfoam for heat insulation (being called for short XPS) warming plate, polyurethane thermal insulation board etc.Preferably, the insulating plate structure that unit of the present utility model uses is: inner panel is galvanized sheet, and outside plate is color steel, middle extrusion molding polystyrene polyfoam, and its high insulating effect, intensity is high.These heat-insulation wall plates are fixed on the direct segment frames 9 of water tank.In the preferred embodiment illustrated, rear wall (as shown in Figure 17, namely for carrying out the lateral wall in the space 62 of hot and humid area) place is provided with the direct section heat-insulation wall plate 36 of water tank, this heat-insulation wall plate 36 is provided with access door 37, overhauls for the direct section 130 of water tank and water tank 46; Front side wall (as shown in Figure 13, namely for holding the lateral wall in the space 61 of waterway pipe) place is provided with water tank direct section detachable heat-insulation wallboard 38, so that maintenance water route.Certainly, the heat-insulation wall plate 36 of rear wall also can be detachable heat-insulation wallboard, in this case, will not need to arrange access door.
Preferably, user's backwater input flange 31 of user's backwater input unit and the unit cold water output flange 32 of unit cold water output device protrude from the front side wall of the direct section 130 of water tank, to facilitate the output returning input and unit cold water of user's backwater.
the direct section of blower fan
The structure of the direct section 140 of blower fan as shown in figs. 18-21.The direct section 140 of blower fan preferably has the contour structures of general square shape, and it comprises the direct segment frames 11 of blower fan.Blower fan direct segment frames 11 inside comprises superposed spray equipment district and is positioned at the packing area of bottom.Preferably, blower fan direct segment frames 11 inside also comprises the maintenance voltage stabilizing district 19 between spray equipment district and packing area.
Wherein, the second filler 12 is filled with in packing area.Second filler 12 can adopt S ripple filler, oblique wrong filler, step Trapezium oblique wave filler, and the sinusoidal wave filler of difference position formula, some ripple filler, hexagon cellular filler, two-way ripple filler or bias ripple filler, preferably adopt bias ripple filler.Second filler 12 material can be PVC, PE or PP, preferred PVC.Second filler 12 can be identical with the first filler 10 in structure, material, also can be different.Second filler 12 can start filling in the bottom of the direct section of blower fan by means of packing support (not shown in detail), until reach predetermined packed height.
Spray equipment 14 is configured with, for water being sprayed at equably the surface of the second filler (such as bias ripple PVC filler) 12 in spray equipment district.Due to the effect of air stream, water forms the moisture film of such as 0.1 millimeter on the surface of the second filler, thus effectively improves the heat exchange efficiency of hot and humid area.
Unit exhaust blower 18 is provided with above the outside at blower fan direct segment frames 11 top.Under the effect of unit exhaust blower 18, the air from the direct section of water tank flows from bottom to top in the direct section of blower fan, with the moisture film generation hot and humid area on the second filler 12 surface in flow process, evaporates the water, thus the temperature of water is reduced.Hot-air after hot and humid area, is discharged to outside unit further by unit exhaust blower 18.
Preferably, between unit exhaust blower 18 and blower fan direct segment frames 11 top, be also provided with blower fan fluid dividing cover 17, to provide spatial transition between the inner space and unit exhaust blower 18 of the direct section of blower fan.The shape of this blower fan fluid dividing cover 17 is preferably conical butt or frusta-pyramidal, thus increases the air outlet of air, such that air-out is smooth and easy, air loss is little, thus effectively reduces turbulent flow, reduces blast, reduces unit noise
The area in the air port, lower end of blower fan fluid dividing cover 17 is less than roof (being also the roof of the direct section of the blower fan) area of direct evaporating-cooling section.During concrete installation, the installed position on described roof is reserved with hole, and the area of described hole is substantially equal to or is slightly less than the air port area of blower fan fluid dividing cover 17 lower end.Blower fan fluid dividing cover 17 relies on the flange of lower end to be placed in the outer region of described hole, and is fixed on described roof by means of securing members such as bolts.If desired, in the outer region of described flange and hole, directly sealing gasket can be set.
The area in the air port, upper end of blower fan fluid dividing cover 17 is less than the area in air port, lower end, and in illustrated Frusto-conical preferred embodiment, the area in this air port, upper end is substantially equal to the air port area of unit exhaust blower (being preferably axial fan) 18.For axial fan, installation fixed form between unit exhaust blower 18 and blower fan fluid dividing cover 17 is: air port place, blower fan fluid dividing cover 17 upper end is provided with flange, the flange of Blower Housing lower end docks with the flange of blower fan fluid dividing cover upper end, and is fixed by securing members such as bolts.If desired, between two flanges, sealing cushion pad can be set, to compensate the flatness difference of two flanges.
Above spray equipment 14, be also provided with water fender 15 in blower fan direct segment frames 11 inside, for the globule residual in air being kept off backfill district before being discharged by air, thus make full use of water resource, cutting the waste.The concrete structure of water fender is shown in Figure 25-27.Water fender comprises water fender framework 72 and multiple dam units therein 74 be arranged side by side, and these dam units therein are connected together by connecting rod 73 and form an entirety with water fender framework 72.Dam units therein 74 preferably adopts aluminium alloy to make, its have be easy to shaping, lightweight, the advantage such as resistant to rust.As described in Figure 27, each dam units therein 74 is strip on the whole, its cross sectional shape comprise generally'S '-shaped main part and arrange alternately in the both sides of S shape main part, to side-lower extend multiple fins 75.In the illustrated embodiment, there are 4 fins 75, each two of left and right, lay respectively at the steering position place of the top of S shape main part, bottom and the left and right sides.Each dam units therein 74 is undertaken arranging and being joined together by identical orientation, make adjacent dam units therein close to each other but do not contact, and the main part of the fin 75 of adjacent dam units therein and S shape above forms multiple covering at vertical direction (i.e. airflow direction A).Thus, gas channel is formed between the fin and S shape main part of adjacent dam units therein, air is discharged outside unit by this gas channel, and tiny water droplet entrained in air then to fall back unit inside in the repeatedly stop of staggered water fender fin 75.
When unit operation, water is sprayed on the second filler (such as bias ripple PVC filler) 12 by spray equipment 14 continuously.Along with the use of unit, due to the reason that dripping water wears through rock, the filler being positioned at top in the direct section of blower fan can cause because of long-term Water spray and subside.Such as, along with filler prolongs (such as general about 5 years) service time, top layer part there will be the phenomenon that water droplet batters down.When occurring that filler subsides, often wish to change this layer of filler in time.But the direct intersegmental part space of prior art is narrow, changes and be not easy to realize.
For the ease of changing the filler of roof collapse, a part of space can be retained between spray equipment 14 and bias ripple filler 12 and be used as to overhaul voltage stabilizing district 19.The height dimension in maintenance voltage stabilizing district 19 is arranged so that maintainer easily carries out upkeep operation wherein.
Another important function in maintenance voltage stabilizing district 19 is: the pressure of constant wind.Because the power that water and air exchanges is from the pressure of blower fan, under the effect of blower fan press, cooled wind rises along the moisture film of filling surface, again because the housing of direct evaporating-cooling section is normally square, air can be uneven when rising, and the local pressure near blower fan central point is high, and the local pressure near corner is low, the closer to top, the difference of this pressure is more obvious.In the unit of prior art, the upper surface of filler is generally close to roof, and therefore above-mentioned pressure difference can exist in the top section with filler, and heat exchange can be caused so uneven.And in the utility model, owing to overhauling the existence in voltage stabilizing district 19, make the distance between filler and blower fan become large, thus substantially there is not above-mentioned pressure difference in filler, achieve the homogenising of heat exchange.
The surrounding side-walls of the direct section of blower fan 140 is provided with the direct section heat-insulation wall plate 35 of blower fan, enters with isolated extraneous hot-air.Heat-insulation wall plate can select such as extrusion molding polystyrene polyfoam for heat insulation (be called for short XPS) warming plate, preferably, as the insulation that unit of the present utility model uses, structure is: inner panel is galvanized sheet, outside plate is color steel, middle extrusion molding polystyrene polyfoam, its high insulating effect, intensity is high.Warming plate etc.These heat-insulation wall plates removably or are unremovably fixed on the direct segment frames 11 of blower fan.Enter the inside in maintenance voltage stabilizing district 19 for the ease of maintainer, a sidewall of the direct section of blower fan is provided with the direct section access door 29 of blower fan at the At The Height corresponding to maintenance voltage stabilizing district 19.Meanwhile, at the At The Height corresponding to maintenance voltage stabilizing district 19, the direct section inspection platform 34 of blower fan and guardrail 13 is had in the outer setting of blower fan direct section access door 29.Correspondingly, blower fan direct section maintenance ladder 30 is configured to inherent filtration cooling section roof and extends to blower fan direct section inspection platform 34 and the top extending to the direct section 140 of blower fan.In the top surrounding of the direct section 140 of blower fan, the direct section safety net of blower fan or safety barrier 16 are also installed, for the safety of protection to the personnel that blower fan fluid dividing cover 17 and/or unit exhaust blower 18 overhaul or install.
Preferably, the inside of the direct section 140 of blower fan is roughly vertically separated into two parts space, namely for holding the space of waterway pipe and the space for carrying out hot and humid area.Wherein, the second filler 12 is by means of being attached to the packing support (not shown in detail) of the direct segment frames 11 of blower fan and the bottom be loaded in the described space for carrying out hot and humid area.Spray equipment 46 is arranged in the space for carrying out hot and humid area.
water circuit system
As shown in figs. 22-24, the water circuit system of modular water evaporation handpiece Water Chilling Units of the present utility model comprises high temperature conduit 39, cryogenic pipe 41, water pump 50, high temperature mixed flow pipeline 40, low temperature mixed flow pipeline 42, and spray pipeline 43 generally.These pipelines be preferably placed in modular water evaporation handpiece Water Chilling Units waterway pipe space in, described waterway pipe be spatially located at unit front side wallboard and for carry out hot and humid area space wall between interlayer and and high/low temperature surface cooler between interlayer in.Conceivablely be, be not separated out in the inside of each direct section in the embodiment in the space for holding waterway pipe, above-mentioned pipeline can be arranged in the outside of unit sidewall, in this case, need to apply Insulation, such as pipeline outer cladding heat-insulation layer to these pipelines.
Preferably, connect left filtration cooling section 110, the water route of right filtration cooling section 120 arranges roughly symmetrically.The direct section of water tank 130 and the water route of the direct section of blower fan 140 utilize soft larynx (i.e. flange rubber soft joint) to be connected.Preferably, left filtration cooling section 110, right filtration cooling section 120, the direct section 130 of water tank, the water route of the large parts of the direct section of blower fan 140 4 is integrated with respective parts when transporting.The junction of these pipelines uses flange rubber soft joint to be equipped with clamping hoop type connected mode, because flange rubber soft joint can distortion, and can displacement, therefore the abutting joint efficient quick of these pipelines.
High temperature conduit 39 is provided with user's backwater input unit (it comprises user's backwater input flange 31), the end of high temperature conduit 39 is connected to the pipeline water inlet of the first air-cooling apparatus (such as pyrometric scale cooler), thus for inputting user's backwater (or claiming load backwater) to (specifically in the first air-cooling apparatus pipeline) in system.It should be noted that, due to high temperature conduit transmission is user's backwater, and the temperature of user's backwater is higher than unit cold water (cryogenic pipe transmission be unit cold water), is therefore referred to as high temperature conduit.Preferably, for keeping the symmetry in water route and the aesthetic property of unit, user's backwater input flange 31 is arranged on the roughly middle position of high temperature conduit 39, is namely positioned at the approximate midpoint place of the direct section high temperature conduit of water tank.
Cryogenic pipe 41 arrival end is connected to water pump 50, the port of export of cryogenic pipe 41 is connected to the second air-cooling apparatus (such as cryometer cooler) pipeline water inlet, the water inlet of water pump 50 is connected to water tank 46, thus by water pump 50 from water tank pump cryogenic water (namely store in water tank through unit cooling water) to each cryometer cooler pipeline in.
One end of high temperature mixed flow pipeline 40 is connected to the first air-cooling apparatus pipe water outlet, one end of low temperature mixed flow pipeline 42 is connected to the second air-cooling apparatus pipe water outlet, be connected to spray pipeline 43 after the other end of high temperature mixed flow pipeline 40 and the other end of low temperature mixed flow pipeline 42 converge, spray pipeline 43 is connected to spray equipment 14.
Water tank 46 is also provided with unit water tank water compensating valve (be preferably magnetic valve) 47, for moisturizing in trend water tank (such as due to somewhere occur to leak etc. cause Water in Water Tanks quantity not sufficient time).Water tank 46 is also provided with unit water tank blowoff valve (being preferably motor-driven valve) 48, for regular or irregular draining-off sewage.Water tank 46 is also provided with overflow valve 49, and water during to prevent moisturizing in water tank overflows.
In addition, when losing efficacy for preventing unit water tank water compensating valve 47, water pump idle running, was also provided with floating ball valve of rehydration 51, high water level gauge tap 52 and low water level gauge tap 53 in water tank 46, thus protection water pump.
Utility model content
In view of the above-mentioned state of the art, the object of first aspect of the present utility model is to provide a kind of modular water to evaporate handpiece Water Chilling Units, and it is by modular formation, effectively can overcome the inconvenience of the aspect such as installation, transport that monoblock type machine unit shell brings.In addition, this modular water evaporation cold water unit energy enough makes internal space layout reasonable.
Above-mentioned purpose is achieved through the following technical solutions:
A kind of modular water evaporation handpiece Water Chilling Units, it comprises: at least one filters cooling section module, and each filtration cooling section module has air filter and air-cooling apparatus; At least one direct root module, at least one direct root module described has the water fender above unit exhaust blower, filler, water tank, spray equipment and spray equipment; Wherein, at least one filtration cooling section module described is arranged in the side of at least one direct root module described separably.
Preferably, at least one direct root module described at least comprises: the direct root module of water tank and the direct root module of blower fan be arranged in separably above the direct root module of described water tank, wherein, described water tank is arranged in the direct root module of described water tank, described unit exhaust blower and described spray equipment and described water fender are arranged in the direct root module of described blower fan, further, the direct root module of described water tank and the direct root module of described blower fan one of at least in there is filler.
Whereby, each large parts of unit, namely filter cooling section, the direct section of water tank and the direct section of blower fan, are all configured to independently module, and module that also can be separated from one another, this modular construction makes units' installation, transport, debugging, maintenance etc. very convenient.In addition, adopt modular, suitably can increase the size of individual module, thus make internal space layout reasonable.Adopt modular, such as, be also convenient to the increase of packed height (thickness) especially.By increasing packed height, also effectively can increase the reaction distance of hot and humid area, and modular structure makes these fillers can be distributed in different modules, thus packed height can be substantially unrestricted.Even, as required, the direct section of filler can also be set up between the direct section of water tank and the direct section of blower fan.Equally, the overall height of unit also can be substantially unrestricted.
Preferably, in the direct root module of described water tank, there is the first filler, be preferably bias ripple filler, and in the direct root module of described blower fan, there is the second filler, be preferably bias ripple filler; Described first filler can be identical with described second filler, also can be different.
Preferably, described unit comprises left filtration cooling section module and right filtration cooling section module, is arranged in the both sides of the direct root module of described water tank described left filtration cooling section module and described right filtration cooling section module symmetry.
Preferably, the water circuit system of described unit comprises multiple pipe section, and described multiple pipe section is arranged at least one filtration cooling section module described and at least one direct root module described respectively.
By also being carried out decomposing with each module by the pipeline of unit water circuit system and being fixed in each module, be convenient to the installation of unit, transport, debugging, maintenance etc. further.Such as, each module only need being undertaken combining by predetermined relative position, fixing, and suitable docking carried out to each pipe section fix, the installation of unit can be completed.
Preferably, the junction of adjacent block adopts threaded connector to be fixed, and the junction of the pipe section of adjacent block adopts flange rubber soft joint to be connected with clip.
Preferably, in the direct root module of described blower fan, between described spray equipment and described second filler, be provided with maintenance voltage stabilizing district.
Preferably, described filtration cooling section module comprises separable fillter section submodule and cooling section submodule.
Preferably, described air-cooling apparatus comprises the first air-cooling apparatus and the second air-cooling apparatus, and each air-cooling apparatus is preferably surface cooler, and the port of export of the cooling water channel of each air-cooling apparatus is communicated with described spray equipment respectively by the road.
Preferably, the cooling medium in described first air-cooling apparatus is user's backwater, and/or the cooling medium in described second air-cooling apparatus is unit cold water.
Modular water evaporation cold water set structure advantages of simple of the present utility model, easy to use, Energy Efficiency Ratio is high.It utilizes dry air and water evaporating principle, and by blower fan, water pump, multi-staged air cooling device, multistage filler (such as the first bias ripple filler, the second bias ripple filler), make air and water evaporation convection produce cold water, low in energy consumption, refrigerating capacity is large.The utility model particularly utilizes user's backwater to carry out pre-cooled to air, and by being used for, all spray equipment be delivered to the water that unit air cools and form Inner eycle and outer circulation water route, simplify system architecture, reduce unit volume, decrease the loss of water, reduce unit power consumption.
Accompanying drawing explanation
Be described hereinafter with reference to the preferred embodiment of accompanying drawing to modular water evaporation handpiece Water Chilling Units of the present utility model.In figure:
Fig. 1 is the integrally-built perspective view of modular water of the present utility model evaporation handpiece Water Chilling Units;
Fig. 2 is the side view of the modular water evaporation handpiece Water Chilling Units of Fig. 1;
Fig. 3 is the sectional view intercepted along the A-A in Fig. 2;
Fig. 4 is the rearview of the modular water evaporation handpiece Water Chilling Units of Fig. 1;
Fig. 5 is the perspective view of the left filtration cooling section of parts;
Fig. 6 is the side view of the left filtration cooling section of Fig. 5;
Fig. 7 is the sectional view intercepted along the B-B in Fig. 6;
Fig. 8 is the rearview of the left filtration cooling section of Fig. 5;
Fig. 9 is the perspective view of the right filtration cooling section of parts;
Figure 10 is the side view of the right filtration cooling section of Fig. 9;
Figure 11 is the sectional view intercepted along the B '-B ' in Figure 10;
Figure 12 is the rearview of the right filtration cooling section of Fig. 9;
Figure 13 is the perspective view of the direct section of parts water tank;
Figure 14 is the top view of the direct section of water tank of Figure 13;
Figure 15 is the side view of the direct section of water tank of Figure 13;
Figure 16 is the sectional view intercepted along the C-C in Figure 15;
Figure 17 is the rearview of the direct section of water tank of Figure 13;
Figure 18 is the perspective view of the direct section of parts blower fan;
Figure 19 is the side view of the direct section of blower fan of Figure 18;
Figure 20 is the sectional view intercepted along the D-D in Figure 19;
Figure 21 is the rearview of the direct section of blower fan of Figure 18;
Figure 22 is the integrally-built perspective view of modular water of the present utility model evaporation handpiece Water Chilling Units, has wherein removed part heat-insulation wall plate and safety barrier etc., thus has shown the water circuit system pipeline of unit;
Figure 23 is the front view of the modular water evaporation handpiece Water Chilling Units of Figure 22
Figure 24 is the sectional view intercepted along the E-E in Figure 23;
Figure 25 is the top view of water fender;
Figure 26 is the sectional view intercepted along the F-F in Figure 25;
Figure 27 is the zoomed-in view of the region I in Figure 26;
The front view of surface cooler of Figure 28 for adopting in unit of the present utility model;
Figure 29 is the right view of the surface cooler of Figure 28;
Figure 30 is the left view of the surface cooler of Figure 28; And
Figure 31 is the top view of the surface cooler of Figure 28.
Detailed description of the invention
It should be noted that, in this description for "left", "right", " on ", the use of the noun of locality such as D score, "front", "rear", be only the object illustrated for convenience, and do not mean that and must to be implemented according to described position relation according to each parts of modular water of the present utility model evaporation handpiece Water Chilling Units and/or element.
First see Fig. 1-4, the filtration cooling section for filtering air, cooling and the direct section for carrying out evaporative cooling to water is comprised generally according to modular water evaporation handpiece Water Chilling Units of the present utility model.In illustrated preferred embodiment, filter cooling section and specifically comprise the left filtration cooling section 110 and right filtration cooling section 120 that are positioned at direct section both sides, direct section specifically comprises the direct section of water tank 130 and the direct section 140 of blower fan.
Conceivable, unit can comprise at least one and filter cooling section, and this at least one filtration cooling section is arranged in the side of direct section, such as, be arranged in the side of direct section, both sides, even three sides.
Filter in cooling section and there is air filter (preferably including the first air filter 3, second air filter 5) and air-cooling apparatus (preferably including the first air-cooling apparatus 6, second air-cooling apparatus 7, such as pyrometric scale cooler, cryometer cooler).There is filler (preferably including the first filler 10, second filler 12, such as bias ripple filler), the water tank 46 (see Fig. 3) being positioned at the spray equipment 14 above filler and being positioned at below filler in direct section.In the preferred embodiment illustrated, the top of direct section also comprises unit exhaust blower 18.
Lowering the temperature to air owing to adopting pyrometric scale cooler and/or cryometer cooler and adopt filler to lower the temperature to aqueous medium, therefore this unit forms combined-type water and evaporates handpiece Water Chilling Units.
When the handpiece Water Chilling Units of illustrated preferred embodiment is run, unit exhaust blower 18 operates, air is sucked unit from the air intake filtering cooling section 110,120, and sequentially through air filter, air-cooling apparatus, filler, finally discharges unit through unit exhaust blower 18; Simultaneously, spray equipment 14 is sprayed water to filler, water flows downward along filling surface with the form of moisture film, and in filler with the air generation hot and humid area (also claiming caloic to exchange) to flow from bottom to top, also, air flows through moisture film, evaporate the water, the steam of evaporation enters in air, and evaporation simultaneously absorbs heat, thus the temperature of water is reduced.When moisture film flows to bottom filler from filler top, continuous print hot and humid area makes the temperature of water fully reduce, thus reaches the temperature required for user's refrigeration.Water after cooling is stored in water tank 46, carries out refrigeration or air-treatment for the load (such as fan coil or air-treatment unit) being partly transported to user side, and/or for being partly transported to the air-cooling apparatus in unit.
In unit of the present utility model, described air-cooling apparatus does not adopt apparatus for cooling by indirect evaporation, and to reduce the loss of water, this is particularly important for the handpiece Water Chilling Units being suitable for using in arid/semiarid zone.
Preferably, the air-cooling apparatus (being preferably surface cooler) in the utility model unit utilizes user's backwater to cool air.The cold water made due to unit is transported to after user side (fan coil of such as air-conditioning or air-treatment unit) carries out heat exchange, air themperature (outside air temperature of there and then can be equal to) before its water temperature can not be elevated to heat exchange, therefore, when it is back to unit, the temperature of (user's backwater) is still starkly lower than the outside air temperature of there and then, and it is feasible for being thus used for cooling the air entering unit.
Preferably, the first air-cooling apparatus 6 adopts user's backwater as cooling medium, and the second air-cooling apparatus 7 adopts unit cold water as cooling medium.These cooling mediums all send into spray equipment after leaving air-cooling apparatus, thus form waterway circulating.Preferably, user's backwater all sends into air-cooling apparatus as cooling medium, and the cooling medium of each air-cooling apparatus all sends into spray equipment, and is whole sources of the water in spray equipment.
According to another aspect of the present utility model, described water evaporation handpiece Water Chilling Units is modular construction, that is, described unit is made up of each component models.Particularly, described unit comprises: at least one filters cooling section module (such as left filtration cooling section module and right filtration cooling section module), at least one direct root module (the direct root module of such as water tank and the direct root module of blower fan).Described filtration cooling section module is arranged in the side of the direct root module of described water tank separably, and the direct root module of described blower fan is arranged in the top of the direct root module of described water tank separably.In illustrated preferred embodiment, unit comprises two and filters cooling section module, is arranged in the both sides of the direct root module of water tank, is preferably arranged symmetrically with in the left and right sides.Alternatively, filter cooling section module and can be divided into fillter section submodule and cooling section submodule, separable between each submodule.
As preferred collocation form, the water circuit system of unit is divided into multiple pipe section, and these pipe sections are arranged on respectively in modules and are integrated with each module.Such as, pipe section near the cooling water channel arrival end of air-cooling apparatus and the port of export arranges and filters in cooling section module, connecting the pipe section of spray equipment is arranged in the direct root module of blower fan, and remaining pipes part (such as comprise: water tank moisturizing pipeline, unit cold water output channel, associate the pipeline, user's water return pipeline etc. of the pipe section in different filtration cooling section modules) is arranged in the direct root module of water tank.
Handpiece Water Chilling Units is configured to modular construction, and the pipeline of water circuit system is decomposed in modules, greatly can facilitate the installation, transport, debugging, maintenance etc. of unit.Such as, each module can complete all assemblings in module in manufacturer, to such an extent as to only needs each module to be undertaken combining, fixing by predetermined relative position relation when mounted, and by fastening for each pipe section docking, the installation of unit can be completed, greatly reduce work on the spot amount.The connection of four large parts preferably uses threaded connector (screw, bolt etc.) to connect, such as, two parts to be connected arrange flange, the flange of one side arranges circular hole, the flange of the opposing party is arranged waist type elongated hole, the intermediate cryptographic strip of paper used for sealing of two flanges, makes field joint convenient and swift.And for the larger unit of power, its volume is often comparatively huge, decomposes modules and the mounted inside of each module not only can be made synchronously to carry out, be also convenient to carrying, mobile because of the relatively little weight and volume of each module.
The operation principle of the water circuit system of preferred embodiment is as follows: user's backwater (can be described as high-temperature water) is sent in the first air-cooling apparatus, once to lower the temperature to air by high temperature conduit 39; Part water at low temperature (cold water through unit cooling stored in water tank) is delivered in each second air-cooling apparatus, to carry out reducing temperature twice to air by water pump 50 by cryogenic pipe 41.The water at low temperature performing the high-temperature water of once lowering the temperature and performed reducing temperature twice respectively after high/low temperature mixed flow pipeline 40 and 42 mixes (now can be described as high/low temperature mixed flow water) send into spray pipeline 43, and with after spray to the second filler 12 through spray equipment 14, then be stored in after evaporative cooling in water tank 46, to be transported in user side and the second air-cooling apparatus, so circulate.
surface cooler automatic-discharging system
As shown in Figure 11,23, surface cooler automatic-discharging system can comprise surface cooler exhaust apparatus 44 and surface cooler drainage arrangement 45.Wherein, surface cooler exhaust apparatus 44 is preferably arranged on the end, upper end of surface cooler flute pipe, and it comprises the blast pipe be arranged on termination, described upper end and the air bleeding valve (such as manually-operated gate) be arranged on described blast pipe.Surface cooler drainage arrangement 45 is preferably arranged on the end, lower end of surface cooler flute pipe, and it comprises the drainpipe being arranged on end, described lower end and the draining valve (such as manually-operated gate) be arranged on drainpipe.
When surface cooler needs emptying (such as winter between unit lay-off period, for preventing surface cooler bursting by freezing; Or before needing to carry out telephone-moving transport to unit, for alleviating weight of equipment), open surface cooler exhaust apparatus 44 and surface cooler drainage arrangement 45, the water in surface cooler just automatically can drain under the pressure of outside air simultaneously.
Surface cooler drainage arrangement 45 also can be arranged on the position outside the termination, lower end of surface cooler flute pipe, and now, the water in emptying surface cooler can realize by means of external pumping equipment (such as pump).
In addition, surface cooler exhaust apparatus 44 also can get rid of the air in surface cooler effectively, reduces the tension force of water, thus in unit operation, play the effect preventing gas stifled.
Particularly, see Figure 28-31, surface cooler 6 or 7 includes water flute pipe 65, water outlet flute pipe 66 and many group combs 69, wherein, enters on water flute pipe 65 and is provided with water inlet 67, water outlet flute pipe 66 is provided with delivery port 68.When surface cooler is in running order, each flute pipe is roughly vertically arranged.In the illustrated embodiment, water inlet 67 is arranged on the top into water flute pipe 65, and delivery port 68 is arranged on the bottom of water outlet flute pipe 66.Alternatively, water inlet and delivery port can be arranged on other any position of corresponding flute pipe.
The end, upper end of any one entering water flute pipe 65 and water outlet flute pipe 66 is provided with exhaust outlet 70, the end, lower end of another one is provided with discharge outlet 71.Exhaust outlet 70 place can externally connected exhaust pipe and be arranged on air bleeding valve (such as hand-operated valve) on blast pipe, thus forms surface cooler exhaust apparatus 44.Discharge outlet 71 place can external connection row water pipe and be arranged on draining valve (such as hand-operated valve) on drainpipe, thus forms surface cooler drainage arrangement 45.
In order to drain the water in surface cooler as far as possible fully, the comb 69 of the surface cooler 6,7 in the utility model does following setting: its from described in enter water flute pipe 65 and dip down and tiltedly arrange towards described water outlet flute pipe 66, and water outlet flute pipe 66 is led to from bottom, make the water in described comb 69 can all from flowing in described water outlet flute pipe 66.Above-mentioned setting can be found out by Figure 29, namely time viewed from the end plate of surface cooler, the rebate of each comb, by the arrangement of identical direction, is from entering water flute pipe 65 towards water outlet flute pipe 66 arranged inclined downwards (being different from W arrangement common in prior art), preferably with 45 degree of oblique arrangement.Because each comb is entering roundabout layout between water flute pipe 65 and water outlet flute pipe 66, it comprises the straight sections of multiple level and multiple rebate, multiple rebate is arranged to tilt by same direction, can ensures that water automatically flows to the other end from one end of comb and do not have dead angle.
When comb is as above arranged, described surface cooler exhaust apparatus is arranged on the end, upper end into water flute pipe 65, and described surface cooler drainage arrangement is arranged on the end, lower end of water outlet flute pipe 66.Thus, when air bleeding valve and draining valve are all held open state, the water in surface cooler can flow automatically emptying completely, and without any need for external force.
working principle of said set:
High temperature dry air, under the blower negative pressure of the direct section 140 of blower fan, is inhaled into from filtration cooling section (such as left filtration cooling section 110 and right filtration cooling section 120).Clean high temperature dry air after air filter (such as preferably including detachable airstrainer 3,21 and bag filter 5,22) filters enters air-cooling apparatus and (is preferably surface cooler, and preferably include pyrometric scale cooler 6,23 and cryometer cooler 7,24), and carry out heat exchange with the water in surface cooler, the temperature of dry air is reduced (preferably reducing step by step).Simultaneously, water is sprayed onto on the second filler (being preferably bias ripple PVC filler) 12 end faces by spray equipment 14 continuously, and flow through the second filler 12 and the first filler (being preferably bias ripple PVC filler) 10 downwards in turn, and finally drop onto in water tank 46.Reduce the dry air after temperature to be inhaled in the direct section 130 of water tank and to carry out hot and humid area with the moisture film on the first filler 10 surface, the cold air after exchange is inhaled into further in the direct section 140 of blower fan and carries out hot and humid area with the moisture film on the second filler 12 surface.In the hot and humid area process of carrying out in this two-stage filler, heat has been taken away in water evaporation, makes water for cooling.Also, namely, in two-stage filler, water flows downward against air stream, continuously, hot and humid area is carried out over long distances, thus the temperature of water is constantly reduced, until arrive the bottom of the first filler 10 and to drop in water tank 46, in order to as user's refrigeration and/or unit Air flow used.
Filter the lower part that cooling section, the direct section of water tank constitute unit, complete the process of air intake, filtration and a hot and humid area; The direct section of blower fan completes the process of secondary hot and humid area and air draft.These parts constitute a complete system, the unit become by this system in combination, and structure is simple, easy to assembly, and are convenient to transport and install.
Modular water evaporation handpiece Water Chilling Units of the present utility model utilizes dry air to do refrigeration source, and the hot and humid area making full use of water and wind produces cold water.Meanwhile, water not only makees cold-producing medium but also do refrigerating medium, the cold water made can be sent into air conditioning area, to meet air conditioning area fan coil or air-treatment unit refrigeration demand by water pump.
First the preferred embodiment of modular water evaporation handpiece Water Chilling Units of the present utility model utilizes the backwater of load (such as air conditioning area) (outer circulation high-temperature water) to exchange through pyrometric scale cooler and once cools air, cooled air exchanges again through the Inner eycle water at low temperature of cryometer cooler, further reduction air themperature, the moisture film of the two-stage bias ripple filling surface of the cold air after cooling and the direct section of water tank and the direct section of blower fan collides and produces constant enthalpy and lower the temperature, final under the blast of exhaust blower, the heat of evaporation is taken away.
The limit leaving water temperature of modular water evaporation handpiece Water Chilling Units of the present utility model depends on outdoor air dew-point temperature.The dry-bulb temperature of outdoor air is higher, wet-bulb temperature is lower is that dew-point temperature is lower, and the leaving water temperature that modular water evaporation handpiece Water Chilling Units can reach is lower.
Modular water evaporation handpiece Water Chilling Units of the present utility model is particularly useful for Arid&semi-arid area, it is a kind of green air conditioner of environmental protection and energy saving, its hot and humid area making full use of water and wind produces cold water, make leaving water temperature close to air dew point temperature, to meet fan coil or air-treatment unit to the demand of cold water.
Modular water evaporation handpiece Water Chilling Units of the present utility model adopts unique water circuit system, effectively improves the heat-exchange capacity of water and air, takes full advantage of air energy.By testing under following experimental condition: dry-bulb temperature 33.5 DEG C, wet-bulb temperature 18.2 DEG C, atmospheric pressure 91120Pa, power of fan 7.5kW, packed height 2.8 meters, the direct section packed height of water tank 1 meter, two-layer altogether, every layer height 0.5 meter, the direct section packed height of blower fan 1.8 meters, totally 4 layers, lower three layers of every layer height 0.5 meter, above one deck 0.3 meter.The leaving water temperature obtained can reach 15 DEG C (regional wet and dry bulb temperature is different, and atmospheric pressure difference has certain difference).The design of novel unique water route, also makes unit appearance looks elegant clean and tidy.
In actual design, consider the loss of economy, security and heat-moisture transfer process, leaving water temperature is generally higher than air dew point temperature 4 ~ 6 DEG C.
Modular water evaporation handpiece Water Chilling Units of the present utility model employs a kind of new air and water-flow circuit, by simply and reasonably water route and wind path design, by blower fan, water pump, the parts such as surface cooler and filler organically combine and form overall unit, complete machine Energy Efficiency Ratio (COP), up to more than 21, is 4 ~ 5 times of traditional mechanical refrigeration handpiece Water Chilling Units.
Be to be understood that, above-mentioned embodiment is only exemplary, and it is nonrestrictive, when not departing from general principle of the present utility model, the various obvious or equivalent amendment that those skilled in the art can make for above-mentioned details or replacement, all will be contained in right of the present utility model.

Claims (10)

1. a modular water evaporation handpiece Water Chilling Units, it comprises: at least one filters cooling section module, and each filtration cooling section module has air filter and air-cooling apparatus; At least one direct root module, at least one direct root module described has the water fender above unit exhaust blower, filler, water tank, spray equipment and spray equipment; Wherein, at least one filtration cooling section module described is arranged in the side of at least one direct root module described separably.
2. unit according to claim 1, it is characterized in that, at least one direct root module described at least comprises: the direct root module of water tank and the direct root module of blower fan be arranged in separably above the direct root module of described water tank, wherein, described water tank is arranged in the direct root module of described water tank, described unit exhaust blower and described spray equipment and described water fender are arranged in the direct root module of described blower fan, further, the direct root module of described water tank and the direct root module of described blower fan one of at least in there is filler.
3. unit according to claim 2, is characterized in that, has the first filler in the direct root module of described water tank, and has the second filler in the direct root module of described blower fan.
4. according to the unit one of claim 1-3 Suo Shu, it is characterized in that, described unit comprises left filtration cooling section module and right filtration cooling section module, is arranged in the both sides of the direct root module of described water tank described left filtration cooling section module and described right filtration cooling section module symmetry.
5. according to the unit one of claim 1-3 Suo Shu, it is characterized in that, the water circuit system of described unit comprises multiple pipe section, and described multiple pipe section is arranged at least one filtration cooling section module described and at least one direct root module described respectively.
6. unit according to claim 5, is characterized in that, the junction of adjacent block adopts threaded connector to be fixed, and the junction of the pipe section in adjacent block adopts flange rubber soft joint to be connected with clip.
7. unit according to claim 3, is characterized in that, in the direct root module of described blower fan, is provided with maintenance voltage stabilizing district between described spray equipment and described second filler.
8. according to the unit one of claim 1-3 Suo Shu, it is characterized in that, described filtration cooling section module comprises separable fillter section submodule and cooling section submodule.
9. according to the unit one of claim 1-3 Suo Shu, it is characterized in that, described air-cooling apparatus comprises the first air-cooling apparatus and the second air-cooling apparatus, and the port of export of the cooling water channel of each air-cooling apparatus is communicated with described spray equipment respectively by the road.
10. unit according to claim 9, is characterized in that, the cooling medium in described first air-cooling apparatus is user's backwater, and/or the cooling medium in described second air-cooling apparatus is unit cold water.
CN201520445524.1U 2015-06-25 2015-06-25 Modularization water evaporation cooling water set Active CN204786971U (en)

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