CN206001941U - A kind of novel water-saving demisting cooling tower - Google Patents

Abstract

This utility model is related to a kind of novel water-saving demisting cooling tower, tower body, located at the air duct on tower body top, located at the packing layer of tower body inner chamber, water distribution layer and water collection device, and in tower body bottom collecting-tank；Wherein said air duct includes demister and axial flow blower in air duct；Horizontally disposed the first square tube having some vertical distribution of the cylinder top of described air duct and the second square tube；Described demister is arranged on the top of axial flow blower；Described water distribution layer include in water distribution layer and outer water distribution layer；And described interior water distribution layer and outer water distribution layer are provided with atomising device；And the atomising device of described interior water distribution layer and outer water distribution layer spaced is arranged straight down；And described filler layer is vertically installed with some subregion dividing plates, so that packing layer forms different subregions, described atomising device is corresponded from different subregions.

Description

A kind of novel water-saving demisting cooling tower

Technical field

This utility model is related to cooling tower technical field, more particularly, to a kind of novel water-saving demisting cooling tower.

Background technology

During cold air in cooling tower has the recirculated water of waste heat in cooling, due to cooling down evaporation of water, wet Hot-air takes away amount of heat and vapor, makes damp-heat air temperature and humidity higher.Especially, when cooling tower runs in the winter time, Damp-heat air is discharged and is mixed with cold air outside tower, and damp-heat air can condense into white haze, thus easily causing environmental pollution and shadow Ring local climate environment；Substantial amounts of vapor is discharged in outside air, also easily causes loss and the water resource of recirculated cooling water Waste.Therefore, research and develop that a kind of structure is simple, can eliminate or reduce white haze and to take into account the cooling tower of water saving be currently will to study Problem.

Generally air duct upper horizontal is disposed with some orthogonal first square tubes and the second square tube, two kinds of its supports of square tube Effect, square tube and air duct top, along being additionally provided with catwalk, conveniently carry out the work such as safeguarding to cooling tower.In prior art, two kinds Square tube is metal material, and, all on same horizontal plane, can arch upward at two kinds of square tube crossover locations in the bottom surface of two kinds of square tubes, Generally be processed using three sections of welding, square tube is perishable, and the life-span is shorter, and square tube install complex it has not been convenient to.

Utility model content

The purpose of this utility model is to provide a kind of novel water-saving demisting cooling tower, realizes square tube and installs simple, receipts aqueouss Can be good, eliminate or reduce white haze and have the technique effect of water-saving performance concurrently.

In order to solve above-mentioned technical problem, this utility model provides a kind of novel water-saving demisting cooling tower, including tower body, Located at the air duct on tower body top, located at the packing layer of tower body inner chamber, water distribution layer, water collection device, and baffle device for water, and located at tower The collecting-tank of internal bottom；Wherein said air duct includes demister and axial flow blower in air duct；The cylinder of described air duct Body upper horizontal is disposed with the first square tube and second square tube of some vertical distribution；Described cylinder top be additionally provided with some with first The groove matching in square tube two ends, that is, the first square tube be inlaid in described groove, and the bottom surface of the second square tube and the first square tube Top surface contacts；Described demister is arranged on the top of axial flow blower；Described water distribution layer include in water distribution layer and outer water distribution layer； And described interior water distribution layer and outer water distribution layer are provided with atomising device；And the atomising device phase of described interior water distribution layer and outer water distribution layer Mutually interval is arranged straight down；And described filler layer is vertically installed with some subregion dividing plates so that packing layer formed different Subregion, described atomising device is corresponded from different subregions；Described water collection device is connected with collecting-tank by water pipe；Described Baffle device for water center is provided with a passage.

Further, described water collection device includes some water collecting pieces, and the interval being arranged between adjacent two water collecting pieces is solid The socket joint connector being set for；Wherein said water collecting piece includes the connecting portion located at center, and is distributed in connecting portion both sides Left and right water-filtering part；Described connecting portion is in strip, and surface is arc；Described left and right water-filtering part is provided with and is suitable to socket joint even The connecting hole that fitting connects；At least two ribs that block water are arranged with described left and right water-filtering part upper surface, that is, described left and right Water-filtering part upper surface is in that M type is wavy.

Further, the cylinder of described air duct is followed successively by diversion section, frame sections, diffuser, and exhausting section from the bottom up；Its Described in diversion section be in horn-like shaped form structure, and this diversion section aperture gradually decreases from the bottom up；Described diffuser is in loudspeaker Shape linear structure, and this diffuser aperture is gradually increased from the bottom up；Described exhausting section be in evagination arcuate structure, and with institute State diffuser tangent, the corresponding center of circle of arc exhausting section is concordant with exhausting section upper surface.

Further, described atomising device includes nozzle, dispersion section and sections of atomization, wherein dispersion section pass through one-level mixing section with Nozzle connects, and sections of atomization is passed through two grades of mixing sections and is connected with dispersion section outlet, and described nozzle becomes pipe joint shape, and its entrance point is attacked There is external screw thread, the port of export is tapered and extends in one-level mixing section；In described dispersion section, separation is distributed with for intersection point with axle center Bar, dispersion section pipes' analysis are divided into each fan-shaped runners face；Described one-level mixing section and two grades of mixing sections are in cone barrel, thereon Circumference has been respectively uniformly distributed air inlet.

Further, described water saving demisting cooling tower also includes the air intake on the tower body wall of corresponding packing layer lower position Mouthful.

Further, described interior water distribution layer is provided with a valve.

Further, described tower body inwall is additionally provided with silencing cotton structure.

Further, the tower body that described tower body is made using glass steel material.

Further, described water saving demisting cooling tower is also included located at tower top for powering to described water saving demisting cooling tower Solar energy photovoltaic panel.

Further, described solar energy photovoltaic panel is connected with accumulator by solar recharging management module；This accumulator Outfan is connected with water saving demisting cooling tower after functional transformer regulation.

The beneficial effects of the utility model are, water saving demisting cooling tower of the present utility model, and structure is simple, on interior water distribution layer This cooling tower can be implemented the switching of regular run mode and demisting operational mode by the setting of valve according to actual needs；Valve Close, the changeable defogging mode for running in the winter time, thus the white haze phenomenon in cooling tower exit can be reduced or eliminated, reach To demisting, water saving, environmental protection beneficial effect；Valve opening, changeable is the normal mode running in remaining time, thus Make cooling tower be in efficient operation, effectively improve production efficiency, save water source.By arranging groove and adopting glass steel Matter, can be effectively improved connection and the processing problems of the first square tube and the second square tube.By the demister of setting, enhance this The fog removal performance of cooling tower.Further through using the water collecting piece being provided with the rib that blocks water, receiving water efficiency high and to receive water effect good.Setting Baffle device for water 37, baffle device for water 37 can be run in vapor uphill process and be frozen into water and drop on water collection device 7, described Water collection device 7 is connected with collecting-tank 14 by water pipe, and final water falls in collecting-tank 14, and the design of this structure can efficiently reduce Evaporation of water.

Brief description

With reference to the accompanying drawings and examples this utility model is further illustrated.

Fig. 1 is the structural representation of water saving demisting air duct used for cooling tower of the present utility model；

Fig. 2 is the structural representation of the water collecting piece of water saving demisting air duct used for cooling tower of the present utility model；

Fig. 3 is the demisting operational mode structural representation of water saving demisting cooling tower of the present utility model；

Fig. 4 is the demisting operational mode water distribution layer schematic diagram of water saving demisting cooling tower of the present utility model；

Fig. 5 is the regular run mode structural representation of water saving demisting cooling tower of the present utility model；

Fig. 6 is the regular run mode water distribution layer schematic diagram of water saving demisting cooling tower of the present utility model；

Fig. 7 is the structural representation of the atomising device of water saving demisting cooling tower of the present utility model；

Fig. 8 is the side structure schematic diagram of the air duct of water saving demisting cooling tower of the present utility model；

Fig. 9 is the top overlooking the structure diagram of the air duct of water saving demisting cooling tower of the present utility model.

In figure：Water collecting piece 1, socket joint connector 2, connecting portion 3, water-filtering part 4, connecting hole 5, the rib 6 that blocks water, water collection device 7, tower Body 8, air duct 9, outer water distribution layer 10, interior water distribution layer 11, packing layer 12, air inlet 13, collecting-tank 14, atomising device 15, subregion every Plate 16, axial flow blower 17, demister 18, valve 19, nozzle 20, dispersion section 21, sections of atomization 22,23, two grades of one-level mixing section Mixing section 24, divider 25, air inlet 26, cylinder 27, diversion section 28, frame sections 29, diffuser 30, exhausting section 31, installation bottom Seat 32, reinforcement 33, the first square tube 34, the second square tube 35, groove 36, baffle device for water 37, passage 38.

Specific embodiment

Presently in connection with accompanying drawing, this utility model is described in further detail.These accompanying drawings are the schematic diagram of simplification, Basic structure of the present utility model is only described in a schematic way, therefore it only shows the composition relevant with this utility model.

Embodiment 1

As shown in Figures 1 to 9, a kind of novel water-saving demisting cooling tower of the present utility model, including tower body 8, located at tower body 8 The air duct 9 on top, located at the packing layer 12 of tower body 8 inner chamber, water distribution layer, water collection device 7, and baffle device for water 37, and located at tower The collecting-tank 14 of bottom in body 8；Wherein said air duct 9 includes demister 18 and axial flow blower 17 in air duct 9；Described Cylinder 27 upper horizontal of air duct 9 is disposed with the first square tube 34 and second square tube 35 of some vertical distribution；Described cylinder 27 pushes up End is additionally provided with some grooves 36 matching with the first square tube 34 two ends, and that is, the first square tube 34 is inlaid in described groove 36, and The bottom surface of the second square tube 35 is contacted with the top surface of the first square tube 34；Described demister 18 is arranged on the upper of axial flow blower 17 Side；Described water distribution layer include in water distribution layer 11 and outer water distribution layer 10；And described interior water distribution layer 11 and outer water distribution layer 10 are provided with Atomising device 15；And the atomising device 15 of described interior water distribution layer 11 and outer water distribution layer 10 spaced is arranged straight down；And Described filler layer 12 is vertically installed with some subregion dividing plates 16, so that packing layer 12 forms different subregions, described atomization dress Put 15 to correspond from different subregions；Described water collection device 7 is connected with collecting-tank 14 by water pipe；In described baffle device for water 37 The heart is provided with a passage 38.

By being arranged on the demister 18 of axial flow blower 17 top, can be cold by the vapor in the humid air after heat exchange But trap, the ventilation of cooling tower is affected little, eliminating water fog effect is good.The baffle device for water 37 of setting, rises in vapor During can run into baffle device for water 37 and be frozen into water and drop on water collection device 7, described water collection device 7 passes through water pipe and collecting-tank 14 Connection, final water falls in collecting-tank 14, and the design of this structure can efficiently reduce evaporation of water.

Specifically, the blade of described axial flow blower 17 adopts high-strength epoxy fiberglass（Empty stomach airfoil structure）Material, mould Molded, airfoil type designs, and each section transitions of blade are round and smooth.Described blade windward side cladding polyurethane glue adhesive tape protection against erosion is protected Sheath, can effectively prevent out the erosion damage to blade for the water droplet carried secretly in tower humid air, greatly extend the use of blade Life-span.The moment such as blade and wheel hub employing designs so that blade is interchangeable.Described first square tube 34 and the second square tube 35 are glass Glass steel matter.The more traditional metal material of glass-reinforced plastic material is conducive to improving corrosion resistance.

As depicted in figs. 1 and 2, described water collection device 7 includes some water collecting pieces 1, and is arranged between adjacent two water collecting pieces 1 Rise interval fixation socket joint connector 2；Wherein said water collecting piece 1 includes the connecting portion 3 located at center, and is distributed in The left and right water-filtering part 4 of connecting portion 3 both sides；Described connecting portion 3 is in strip, and surface is arc；On described left and right water-filtering part 4 It is provided with the connecting hole 5 being suitable to be connected with socket joint connector 2；At least two resistances are arranged with described left and right water-filtering part 4 upper surface Water rib 6, that is, described left and right water-filtering part 4 upper surface is in that M type is wavy.

Specifically, described water collecting piece 1 is the thin slice hot-forming by modified PVC material.Compared with traditional handicraft material manufacture The windage that produces of water collection device 7 little, and the shape size pattern of every water collecting piece 1 is all the same, therefore only needs to a secondary mould and inhales Mould a kind of water collecting piece 1 of processing, be simple to manufacture, low cost.Simultaneously as being provided with several ribs 6 that block water, the described rib that blocks water 6 contacts area increasing water collecting piece 1 and water, can effectively stop saliva stream on receiving water cambered surface for the water droplet, it is to avoid water collection device 7 The secondary water phenomenon of wafing being formed.

As shown in figure 8, the cylinder 27 of described air duct 9 is followed successively by diversion section 28, frame sections 29, diffuser 30 from the bottom up, And exhausting section 31；Wherein said diversion section 28 is in horn-like shaped form structure, and this diversion section 28 aperture is from the bottom up gradually Reduce；Described diffuser 30 is in horn-like linear structure, and this diffuser 30 aperture is gradually increased from the bottom up；Described recovery Section 31 is in evagination arcuate structure, and tangent with described diffuser 30, the corresponding center of circle of arc exhausting section 31 and exhausting section 31 upper end Face is concordant.

Specifically, diversion section 28 lower end is connected with mounting seat 32, and mounting seat 32 is become with cylinder 27 one of air duct 9 Type, with the fixed installation of convenient and energy-saving air duct 9.

Preferably, diffuser 30 and cylinder 27 axis angle are 5-10 degree.The diffusion of diffuser 30 is moderate, favorably Diffusion reduction of speed in air-flow.

Preferably, frame sections 29 are the linear structure with cylinder 27 diameter parallel.Linear type frame sections 29 disclosure satisfy that Draw axial flow blower structure blade maximum setting angle when work surface require.

Preferably, diversion section 28 is hyperbolic-type structure.It is good that the diversion section 28 of hyperbolic-type structure draws phoenix effect.

Preferably, frame sections 29 outer wall is provided with the reinforcement 33 of two hollows.Reinforcement 33 increased frame sections 29 Intensity, extends the service life of cylinder 27.

As shown in fig. 7, described atomising device 15 includes nozzle 20, dispersion section 21 and sections of atomization 22, wherein dispersion section 21 is led to Cross one-level mixing section 23 to be connected with nozzle 20, sections of atomization 22 is passed through two grades of mixing sections 24 and is connected with dispersion section 21 outlet, described 20 one-tenth pipe joint shapes of nozzle, its entrance point is externally threaded, and the port of export is tapered and extends in one-level mixing section 23；Described point In scattered section 21, divider 25 is distributed with for intersection point with axle center, dispersion section 21 pipes' analysis are divided into each fan-shaped runners face；Described One-level mixing section 23 and two grades of mixing sections 24 are in cone barrel, and circumference has been respectively uniformly distributed air inlet 26 thereon.This nebulizer is Inhale principle design according to penetrating, after liquid medium sprays through spray, bring cold air with the change of pressure into, complete gas and water fills Tap is touched and is conducted heat between gas and water.This nebulizer be " grain theoretical " growing up on the basis of " double-film theory " and Design it is therefore an objective to increase gas liquid interfacial area, fully conducted heat.Cooling tower supplies the pressure >=0.10Mpa of circulating hot water Under conditions of, the power of pump offer is provided, as circulation water atomization and suck the motive force of cold air, makes cold air and follow Ring hot water is fully contacted and carries out heat exchange.This product adopts straight nozzle 20, and its resistance is little, atomization aspect ratio conventional volute formula spray Head height, and no hollow phenomenon, effectively make use of the space in tower.

Described water saving demisting cooling tower also includes the air inlet on tower body 8 wall of corresponding packing layer 12 lower position 13.

Preferably, described air inlet 13 is provided with an electric heating device.Described electric heating device is suitable to work as use in winter During this demisting cooling tower, electric heating device makes the temperature of air inlet 13 rise, and can effectively prevent splashing at air inlet 13 Water droplet forms freezing phenomena.

Described interior water distribution layer 11 is provided with a valve 19.

Described tower body 8 inwall is additionally provided with silencing cotton structure.The structure of silencing cotton advantageously reduces this water saving demisting cooling tower The noise of the generation such as Water spray process, axial flow blower 17 in the course of the work.

The tower body 8 that described tower body 8 is made using glass steel material.The more traditional metal material of glass-reinforced plastic material is conducive to carrying The corrosion resistance of high cooling tower tower body 8.

Preferably, described water saving demisting cooling tower is also included located at tower top for powering to described water saving demisting cooling tower Solar energy photovoltaic panel.Using solar energy, water saving demisting cooling tower is powered, reduce water saving demisting cooling tower to conventional electric energy Consumption, energy-conservation and environmental protection.

Specifically, described solar energy photovoltaic panel is connected with accumulator by solar recharging management module；This accumulator Outfan is connected with water saving demisting cooling tower after functional transformer regulation.

Water saving demisting cooling tower (as shown in accompanying drawing 3 and Fig. 4) when demisting state is run of the present utility model, valve 19 closes Close, the outer water distribution layer 10 in tower body 8 is full-gear, interior water distribution layer 11 is closed mode, recirculated water is joined by outer water distribution layer 10 The atomising device 15 of set is uniformly sprayed onto on corresponding packing layer 12, and packing layer 12 is divided into by the subregion dividing plate 16 in packing layer 12 There are pool and no pool.Cooling tower air inlet 13 enter a part of fresh unsaturation cold air packing layer 12 have in pool with Hot water carries out heat exchange, and cold air is changed into saturation damp-heat air after heat exchange；Another part that cooling tower air inlet 13 enters is new Due to not having heat exchanging process behind packing layer 12 no pool, air condition does not change fresh unsaturation cold air.Through filling out The cold air in the bed of material 12 no pool is sufficiently mixed with the damp and hot saturated vapor having pool through packing layer 12 makes wet-hot steam cold Solidifying formation water droplet, and recycling in tower is back flowed back into by water collection device 7 collection, decrease evaporated water and reach the mesh of water saving 's.Unsaturated air air-flow after condensation by mixing is discharged from tower body 8 top by axial flow blower 17, through the work of demister 18 With after cold air outer with tower mixes, not being re-condensed into white haze or forming a small amount of white haze, reach and eliminate or reduce tower spoken parts in an opera mist Effect.

Water saving demisting cooling tower (as shown in accompanying drawing 5 and Fig. 6), valve when conventional sense runs of the present utility model Open, the outer water distribution layer 10 in tower body 8 and interior water distribution layer 11 are full-gear, and it is uniform that recirculated water passes through supporting atomising device 15 Be sprayed onto on packing layer 12, with cooling tower air inlet 13 enter fresh unsaturation cold air carry out in packing layer 12 heat friendship Change, cold air is changed into saturation damp-heat air after heat exchange, collect after water droplet in saturation damp-heat air by axle stream wind through water collection device 7 Machine 17 enters outside tower, and now cooling tower is in efficient operation, meets technological requirement.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related work people Member can carry out various change and modification completely in the range of without departing from this utility model technological thought.This reality The content being not limited in description with new technical scope it is necessary to determine its technology according to right Property scope.

Claims (10)

1. a kind of novel water-saving demisting cooling tower is it is characterised in that include tower body, located at the air duct on tower body top, located at tower body The packing layer of inner chamber, water distribution layer, water collection device, and baffle device for water, and in tower body bottom collecting-tank；Wherein

Described air duct includes demister and axial flow blower in air duct；If the cylinder top of described air duct is horizontally disposed having First square tube of dry vertical distribution and the second square tube；Described cylinder top is additionally provided with some recessed with what matched in the first square tube two ends Groove, that is, the first square tube be inlaid in described groove, and the bottom surface of the second square tube is contacted with the top surface of the first square tube；Described demisting Device is arranged on the top of axial flow blower；

Described water distribution layer include in water distribution layer and outer water distribution layer；And described interior water distribution layer and outer water distribution layer are provided with atomization dress Put；And the atomising device of described interior water distribution layer and outer water distribution layer spaced is arranged straight down；And

Described filler layer is vertically installed with some subregion dividing plates, so that packing layer forms different subregions, described atomising device Correspond from different subregions；

Described water collection device is connected with collecting-tank by water pipe；

Described baffle device for water center is provided with a passage.

2. according to claim 1 water saving demisting cooling tower it is characterised in that described water collection device includes some water collecting pieces, And it is arranged on the socket joint connector playing interval fixation between adjacent two water collecting pieces；Wherein

Described water collecting piece includes the connecting portion located at center, and the left and right water-filtering part being distributed in connecting portion both sides；Described connection Portion is in strip, and surface is arc；

Described left and right water-filtering part is provided with the connecting hole being suitable to be connected with socket joint connector；

At least two ribs that block water are arranged with described left and right water-filtering part upper surface, that is, described left and right water-filtering part upper surface is in M type is wavy.

3. according to claim 2 water saving demisting cooling tower it is characterised in that the cylinder of described air duct from the bottom up successively For diversion section, frame sections, diffuser, and exhausting section；Wherein

Described diversion section is in horn-like shaped form structure, and this diversion section aperture gradually decreases from the bottom up；Described diffuser is in Horn-like linear structure, and this diffuser aperture is gradually increased from the bottom up；Described exhausting section is in evagination arcuate structure, and with Described diffuser is tangent, and the corresponding center of circle of arc exhausting section is concordant with exhausting section upper surface.

4. water saving demisting cooling tower according to claim 3 is it is characterised in that described atomising device includes nozzle, dispersion Section and sections of atomization, wherein dispersion section is connected with nozzle by one-level mixing section, and sections of atomization is gone out with dispersion section by two grades of mixing sections Mouth connects, and described nozzle becomes pipe joint shape, and its entrance point is externally threaded, and the port of export is tapered and extends to one-level mixing section Interior；In described dispersion section, divider is distributed with for intersection point with axle center, dispersion section pipes' analysis are divided into each fan-shaped runners face；Described One-level mixing section and two grades of mixing sections be in cone barrel, circumference has been respectively uniformly distributed air inlet thereon.

5. water saving demisting cooling tower according to claim 4 is it is characterised in that described water saving demisting cooling tower also includes setting Air inlet on the tower body wall of corresponding packing layer lower position.

6. water saving demisting cooling tower according to claim 5 is it is characterised in that described interior water distribution layer is provided with a valve.

7. water saving demisting cooling tower according to claim 6 is it is characterised in that described tower body inwall is additionally provided with noise reduction cotton knot Structure.

8. water saving demisting cooling tower according to claim 7 is it is characterised in that described tower body is made using glass steel material Tower body.

9. water saving demisting cooling tower according to claim 1 is it is characterised in that described water saving demisting cooling tower also includes setting In tower top for the solar energy photovoltaic panel powered to described water saving demisting cooling tower.

10. water saving demisting cooling tower according to claim 9 is it is characterised in that described solar energy photovoltaic panel passes through the sun Can charge management module be connected with accumulator；The outfan of this accumulator through functional transformer regulation after with water saving demisting cooling tower It is connected.