CN206146234U - But fog dispersal festival water cooling tower of alternation of wetting and drying multi -mode operation - Google Patents

Abstract

The utility model provides a but fog dispersal festival water cooling tower of alternation of wetting and drying multi -mode operation, belongs to industry circulating water cooling tower technical field, aims at that the cooling tower structure of the current fog dispersal water conservation of solution is heavy and complicated, and the poor problem of effect of economizing on water disperses fog. Its filler is that 4~12 subregions pack, dress among the distribution system even has the upper column riser of upper column riser valve to connect to be connected with the atomized water spray mouth that the several is located 4~12 subregion filler upper portions on the water distribution calandria, total inlet tube is that water piping connection fin calandria is always advanced to the fin formula of taking the wing, it is equipped with heated dry air and damp and hot air mixing chamber to be located the fin calandria in the cooling tower main part and to receive hydrophone upper portion, connection of after section the finned tube outlet pipe after the fin calandria that even divides branch connection was joined in marriage to the total inlet tube of fin formula, there is the receipts hydrophone fin calandria lower part, the subregion packs to moving compound cooling tower packing by the alternation of wetting and drying. Its simple structure is practical, is applicable to various fog dispersal festival water cooling tower.

Description

Can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower

Technical field

This utility model belongs to a kind of cooling tower of fog dispersal water saving in industrial cycle water cooling tower technical field.

Background technology

With the extensive application and technological progress of industrial cycle water cooling tower, the technology to the fog dispersal water-saving mechanism of cooling tower Require also more and more higher.More than 80% is recirculated water in industrial undertaking's water, and recirculated water account for sizable again used by cooling tower Ratio.In known technology, existing fog dispersal water saving cooling tower is mainly adjusted by cooling tower main body, axial flow blower, upper air inlet The cooling tower of the single-mode operation of the compositions such as window, finned tubular radiator, water collection device, packing layer, but limited by its construction, its knot Structure is complicated, and operating cost is high, is especially restricted by finned tubular radiator, and when thermic load is high, fog dispersal water-saving result is poor, gives again The practical application of cooling tower is made troubles.

Utility model content

In order to overcome the deficiencies in the prior art, the cooling tower structure for solving existing fog dispersal water saving is complicated, and disperse fog water-saving result Poor problem.The purpose of this utility model is to provide a kind of simple and practical, and when thermic load is high, also disperse fog water-saving result It is good, can multi-mode operation, new-type fog dispersal water saving cooling tower easy to use.

The technical scheme in the invention for solving the above technical problem is：

It is a kind of can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is provided with：Cooling tower main body, filler, water distribution System, water collection device, filler is 4～12 blocks of subregion fillers, be fitted with cooling tower main body 4～12 blocks of subregion fillers, water collection device and Water distribution system, the upper tower standpipe connection water distribution comb for being fitted with tower standpipe valve in water distribution system, on water distribution comb Several atomized water spray mouths for being located at 4～12 pieces of subregion filler top are connected with, the water inlet manifold in water distribution system is the wing with wing Chip water inlet manifold, finned water inlet manifold connects fin comb, is located on fin comb and water collection device in cooling tower main body Portion is provided with heated dry air and damp-heat air hybrid chamber, and total finned water inlet manifold is fitted with into water tube valve, finned total water inlet The branched pipe connection fin comb of Guan Peilian, the rear afterbody of fin comb is connected to finned tube outlet pipe, fin comb bottom dress Water collection device is provided with, subregion filler is energy alternation of wetting and drying operation combined cooling tower filler.

It is above-mentioned can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, the 4 of installing in the cooling tower main body～ Subregion dividing plate is formed between 12 blocks of subregion fillers, 4～12 blocks of subregion fillers are separated into dry area and wet area by subregion dividing plate.

It is above-mentioned can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, the filler body of the subregion filler is every The top margin laminating closing connection of adjacent two panels packing sheet, the filler body of subregion filler is laterally to be configured to several by air-flow The dry subregion of packing sheet, longitudinal direction constitute and several are divided into that several independences are dry, hygroscopic water area filled out by the packing sheet hygroscopic water area of current Material main body, and laterally wear in filler body and be connected with several filler polings that each packing sheet is combined through series connection.

It is above-mentioned can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is described can alternation of wetting and drying operation it is compound cold But fixed even part is set with tower packing main body on the body of the filler poling of the company of wearing.

It is above-mentioned can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, the fixed even part is several connection fillers The transverse section of piece hygroscopic water area port for matrix fixed even part, it is each that fixed even folder even and is fixed with the filler of filler body between part Piece.

When this utility model is used, according to design requirement this new fog dispersal water saving cooling tower is assembled.Summer operation is born When lotus is high, water inlet manifold valve can be closed, be all turned on tower standpipe valve, hot water is all by upper tower standpipe into water distribution Comb, atomized water spray mouth, carry out wet type cooling, it is ensured that temperature drop during high load capacity；When winter operation load is relatively low, total water inlet can be opened Tube valve, tower standpipe valve opening angle in adjustment closes arm valve, and the reasonable distribution water yield, a part of water is vertical by upper tower Pipe flow carries out wet type cooling to water distribution comb, atomized water spray mouth 1, and cold dry air forms wet after subregion filler, water collection device Hot-air；A part of water flow to fin comb and carries out dry calibration by finned water inlet manifold, and the water after process passes through fin Pipe outlet pipe flows into tower sink, and cold dry air forms heated dry air by water collection device, fin comb；Two strands of air are mixed in air chamber After conjunction, discharge outside tower；When winter thermic load is minimum, all can be cooled down by dry area, fogless operation and evaporation loss water will be realized Amount is reduced to zero.

This utility model be it is a kind of can dry-and wet-type alternate run fog dispersal water saving cooling tower.Can realize what Three models ran Cooling tower.When thermic load is high, wet type operation can be all carried out, it is ensured that Wen Jiang；When thermic load is relatively low, the same luck of dry-and wet-type can be carried out OK, accomplish to reduce part evaporation loss and few mist operation；When thermic load is minimum, dry-running can be completely carried out, accomplish fogless nothing Evaporation loss.Dry-and wet-type runs and refers to simultaneously, and a part of hot water carries out dry calibration into finned tube, does not produce evaporation loss, Therefore save a part of water loss；The control that water distributing area passes through the outer valve of tower, cold dry air after wet area carries out air water heat exchange, Form the damp-heat air of approximate saturation；Cold dry air to be listened and form heated dry air after the finned tube in overdrying area；Two strands of air are in fact It is that the damp-heat air of approximate saturation is become into unsaturated air after uniform mixing, it is poor with the enthalpy of the outer air of tower to reduce, therefore can Reduce the generation of mist plumage.

Because this utility model has been designed with above-mentioned technical proposal, the cooling tower of existing fog dispersal water saving is efficiently solved Structure is complicated, the problem of the water-saving result that disperses fog difference.Also show through testing result on trial for several times, it have it is simple and practical, When thermic load is high, also disperse fog water-saving result it is good, can multi-mode operation, it is easy to use the advantages of, it is adaptable to various fog dispersal section The cooling tower of water.

Description of the drawings

This utility model is described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is the structure diagram of this utility model embodiment.

Fig. 2 is the external view of Fig. 1 embodiments.

Fig. 3 is the A-A of Fig. 2 to sectional view.

Fig. 4 is the B-B direction sectional view of Fig. 2.

Fig. 5 is the structure for amplifying sketch of subregion filler in Fig. 1.

Fig. 6 is the part structure for amplifying sketch of Fig. 5 filler bodies and the connection of filler poling.

Fig. 7 is the zoomed-in view of C portion in Fig. 6.

Respectively it is numbered in accompanying drawing：1 subregion filler；2 atomized water spray mouths；3 water collection devices；4 fin combs；5 subregion dividing plates；Tower on 6 Standpipe；7 finned water inlet manifolds；8 water inlet manifold valves；Tower standpipe valve on 9；10 water distributions comb；11 arm valves；12 wings Piece pipe outlet pipe；13 cooling tower main bodys；14 heated dry airs and damp-heat air hybrid chamber；15 filler polings；16 current；17 air-flows； 18 packing sheet hygroscopic water areas；The dry subregion of 18 packing sheets；19 company's of fixation parts.

Specific embodiment

Such as accompanying drawing 1- embodiment illustrated in fig. 4, this utility model is provided with：Cooling tower main body 13, filler, water distribution system, receipts water Device 3, filler is to be fitted with 6 blocks of subregion fillers 1, water collection device 3 and water distribution system in 6 blocks of subregion fillers 1, cooling tower main body 13, is matched somebody with somebody The upper tower standpipe 6 connection water distribution comb 10 for being fitted with tower standpipe valve 9 in water system, is connected with water distribution comb 10 24 atomized water spray mouths 2 for being located at 6 pieces of top of subregion filler 1, the water inlet manifold in water distribution system is that finned with wing always enters Water pipe 7, the connection fin of finned water inlet manifold 7 comb 4, and be located on fin comb 4 and water collection device 3 in cooling tower main body 13 Portion is provided with heated dry air and damp-heat air hybrid chamber 14, and total finned water inlet manifold 7 is fitted with into water tube valve 8, finned total Water inlet pipe 7 is connected to finned tube outlet pipe 12, fin row with the branched pipe connection fin comb 4 for connecting, the rear afterbody of fin comb 4 The bottom of pipe 4 is equiped with water collection device 3, cooling tower main body 13 and is formed with 5 subregion dividing plates 5 between 6 blocks of subregion fillers 1 of installing, point Separate plate 5 and 6 blocks of subregion fillers 1 are separated into into dry area and wet area.

Referring to accompanying drawing 1- embodiment illustrated in fig. 5, it is per two that the filler body of the subregion filler 1 is several pieces corrugated filler tablets Piece is top margin closing connection, and the filler body of subregion filler 1 is laterally configured to the dry subregion of several packing sheets by air-flow 17 18th, longitudinal direction constitute it is several be divided into that several independences are dry, hygroscopic water area filler body by the packing sheet hygroscopic water area 18 of current 16, And laterally wear in filler body and be connected with several filler polings 15 that each packing sheet is combined through series connection, the filler of subregion filler 1 Fixed even part 19 is set with main body on the body of the filler poling 15 of the company of wearing, filler poling 15 is stainless steel tube.

Referring to accompanying drawing 6- Fig. 7 embodiments, the fixed even part 7 is the transverse section of several ports of connection packing sheet hygroscopic water area 18 For the company's of fixation part of matrix, even folder connects and is fixed with the packing sheet of subregion filler 1 between part 19 for each fixation.

Claims (5)

1. it is a kind of can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is provided with cooling tower main body (13), filler, water distribution System, it is characterised in that be additionally provided with water collection device (3), filler is 4～12 pieces of subregion fillers (1), the interior load of cooling tower main body (13) There are 4～12 pieces of subregion fillers (1), water collection device (3) and a water distribution system, in water distribution system tower standpipe valve (9) is fitted with Upper tower standpipe (6) connection water distribution comb (10), is connected with water distribution comb (10) and several is located at 4～12 blocks of subregion fillers (1) the atomized water spray mouth (2) on top, the water inlet manifold in water distribution system is the finned water inlet manifold (7) with wing, finned total Water inlet pipe (7) connection fin comb (4), and set positioned at fin comb (4) and water collection device (3) top in cooling tower main body (13) There are heated dry air and damp-heat air hybrid chamber (14), total finned water inlet manifold (7) is fitted with into water tube valve (8), finned Water inlet manifold (7) is connected to finned tube outlet pipe with branched pipe connection fin comb (4) even, the rear afterbody of fin comb (4) (12), fin comb (4) bottom is equiped with water collection device (3), and subregion filler (1) is filled out for energy alternation of wetting and drying operation combined cooling tower Material.

2. it is according to claim 1 can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is characterised in that cooling Subregion dividing plate (5) is formed between 4～12 pieces of subregion fillers (1) of installing in tower main body (13), subregion dividing plate (5) is by 4～12 pieces Subregion filler (1) is separated into dry area and wet area.

3. it is according to claim 1 can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is characterised in that subregion Filler (1) is energy alternation of wetting and drying operation combined cooling tower filler, and the filler body of subregion filler (1) is per adjacent two panels filler The top margin laminating closing connection of piece, the filler body of subregion filler be laterally configured to it is several by the dry subregion of the packing sheet of air-flow, Longitudinal direction constitute it is several be divided into that several independences are dry, hygroscopic water area filler body by the packing sheet hygroscopic water area of current, and point Laterally wear in the filler body of area's filler (1) and be connected with several filler polings (15) that each packing sheet is combined through series connection.

4. it is according to claim 3 can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is characterised in that it is described Fixed even part is set with energy alternation of wetting and drying operation combined cooling tower filler body on the body of the filler poling (15) of the company of wearing (19)。

5. it is according to claim 4 can alternation of wetting and drying multi-mode operation fog dispersal water saving cooling tower, it is characterised in that it is described Fixed even part (19) is the company's of fixation part that the transverse section of several connection packing sheet hygroscopic water areas port is matrix, each fixed even folder between part Connect and be fixed with the packing sheet of subregion filler.