CN206876046U - The mixing cross-flow type heat-exchange medium filler of wet air cooler - Google Patents

Abstract

A kind of mixing cross-flow type heat-exchange medium filler of wet air cooler, belongs to cooling tower technical field, it is intended to which it is complicated to solve existing wet air cooler filling-material structure, high energy consumption problem.The filler body that it is used is to overturn mutually arranged connection by several pieces sinusoidal mutual 180 degrees of wave curved-surface structure diaphragm plate, and the duplex channel filler body being made up of enclosed edge with the sealing and support for positioning the strong point, the filler body of the duplex channel is mutually isolated containing two, pass through two passages that different fluid and flow direction are orthogonal, one is wind and water hybrid channel, another is vent passages, stiffener plate and netted reinforcing rib are equiped with sinusoidal wave curved-surface structure diaphragm plate, filler body upstream face and be formed respectively with enclosed edge and being formed with from the water surface and block water cut-off passage, support tube is formed with from water surface enclosed edge and strengthens passage.Its is simple and practical, and cooling effectiveness is high, is a kind of cross-flow type heat-exchange medium filler, it can be applied to various forms of cooling towers by permutation and combination.

Description

The mixing cross-flow type heat-exchange medium filler of wet air cooler

Technical field

The utility model belongs to a kind of filler of wet air cooler in cooling tower technical field.

Background technology

With the continuous development and technological progress of industrial cooling tower, and large scale industry production user to economizing on water, save and The increasingly raising of the demands such as environmental protection, and a large amount of visible fog plumage groups discharged during open cooling tower operation, and its various water carried under one's arms Steady medicament, considerable influence is formed to surrounding environment, equipment, road, vision, safety etc., is also one of the reason for causing haze.It is wet The filler of formula air cooler is the air cooler key components of direct correlation cooling effect in cooling tower, therefore, to wet type air cooling The technical requirements of filler used in device also more and more higher.In known technology, existing fog dispersal cooling tower is mainly a kind of finned tube Formula dry cooling tower, another kind are the cooling towers of condensation module technology, and both technique devices can disappear to varying degrees Except cooling tower mist plumage group, there is the effect of water saving, but limited by its construction, metal fin tubular type dry type tower one is finned tube cost It is high；Second, long period safe and stable operation is difficult, maintenance is very big, finned tube wing gap very little, easily by the dust in air, Floccule blocks；Third, service life is short, the inside and outside corrosion of metal fin pipe；Fourth, finned tube weight is big, load is big, basis branch It is high to support intensity requirement；The cooling tower of condensation module technology, construction is complicated, i.e., energy consumption is big, and the condensation module of large volume is installed in cold But in tower air chamber, windage increase is a lot, causes blower motor energy consumption to increase considerably, and cost is high, using being restricted.

Utility model content

For overcome the deficiencies in the prior art, it is complicated to solve existing wet air cooler filling-material structure, high energy consumption problem.This reality It is to provide with new purpose a kind of simple and practical, power consumption is low, and fog dispersal water-saving result is good, and cooling effectiveness is high, and is easy to pacify Dress and maintenance, the filler of Novel wet-type air cooler easy to use.

Scheme is used by the utility model solves the above problems：

A kind of mixing cross-flow type heat-exchange medium filler of wet air cooler, its filler body are by several pieces sinusoidal waves The mutually arranged connection of the mutual 180 degree upset of curved-surface structure diaphragm plate and the sealing by enclosed edge and the positioning strong point and branch The formed duplex channel filler body of support, the filler body of the duplex channel be containing two it is mutually isolated, pass through difference Orthogonal two passages of fluid and flow direction, one of them be wind and water hybrid channel, another be vent passages, two are logical Road is mutually isolated by sinusoidal wave curved-surface structure diaphragm plate, and several reinforcements are formed with sinusoidal wave curved-surface structure diaphragm plate Muscle, enclosed edge is formed respectively with the upstream face of filler body and from the water surface, and is formed with the cut-off that blocks water in upstream face enclosed edge and leads to Road, support tube is formed with from water surface enclosed edge and strengthens passage.Two autonomous channels and medium, one is that wind and water mixing are logical Road and wind, water circulating direction be orthogonal or reverse convection, another is vent passages, and institute's circulation medium is cold dry air, direction with Current are orthogonal, and have good guide performance.The cut-off passage that blocks water in upstream face enclosed edge can effectively prevent wind and water from mixing The fine grinding closed in passage is splashed, overflowed to vent passages.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the filler body is by several pieces sine waves The mutual arrangement connection of unrestrained formula curved-surface structure diaphragm plate or for 180 degree rotatable connection, dislocation connection any self is mutual Attachment structure, and the attachment structure of other adaptive types, and positioning and support, institute's group are connected with the positioning strong point by enclosed edge Into duplex channel filler body.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the wave curved surface knot of the filler body Waveguide circulation road changed by chiasma type among structure diaphragm plate it is connected as chiasma type and change waveguide stream attachment structure, and joins in filler body both sides Be connected to the louver structure rippled edge that blocks water, the wave boundary layer block water blinds section shape for isosceles trapezoid, per upper and lower two panels be bonded Honeycomb is formed, is to be connected smoothly by the blinds that blocks water with plate body transition body between filler body and the blinds that blocks water, filler The anti-icing blinds that blocks water of hexagonal honeycomb is formed after the blinds bonding that blocks water of main body both sides.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the filler body are sinusoidal wave curved surfaces Structure diaphragm plate changes corresponding several support tubes of waveguide circulation road with stiffener plate, chiasma type and strengthened from being formed with water surface enclosed edge Passage.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the branch set from the water surface of the filler body It is that identical size and various sizes of any support tube strengthen passage, the cut-off passage knot that blocks water of upstream face that stay tube, which strengthens passage, Structure is identical size and various sizes of any cut-off passage that blocks water.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, on the sinusoidal wave curved-surface structure diaphragm plate Several reinforcements be several stiffener plates and strip reinforcement, netted reinforcing rib any~two kinds of reinforcement structures reinforcement Muscle, and other types are applied to strengthen the reinforcement of wave curved-surface structure diaphragm plate.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the sinusoidal wave of the filler body are bent The enclosed edge of face structure diaphragm plate is by solvent welding, welding, high frequency heat seal, any connected mode method riveted.

The mixing cross-flow type heat-exchange medium filler of above-mentioned wet air cooler, the wave curved-surface structure of the filler body Diaphragm plate is the diaphragm plate of the high heat conduction PVC film plate or other composite modified high polymer material materials used.

The utility model is horizontal by the mixing of this new wet air cooler in use, according to design requirement and being actually needed Flow pattern heat-exchange medium filler is fitted into horizontal counter-flow cooling tower, is reached and is eliminated mist plumage, energy-saving and water-saving, improves the mesh of cooling effectiveness 's.

Because the utility model employs above-mentioned technical proposal, the multi-disc wave curved-surface structure diaphragm plate arrangement institute group of use Into duplex channel, one is wind and water hybrid channel, and wind is orthogonal with the flow direction of water or reverse flow, takes away recirculated water In a large amount of heat energy, heat content is greatly reduced；One is vent passages, and cold dry air passes through high heat conduction wave in this passage flow Structure diaphragm plate and recirculated water are further, and two passages seal against each other isolation, and centre is formed with the wave air cooler structure of high heat conduction Diaphragm plate, cold dry air form partition-wall heat transfer with hot water, go out the relative humidity not temperature raising of tower air, by being handed over air heat The coolant-temperature gage changed reduces.Reach fog dispersal, water saving, the purpose of cooling, it is numerous to efficiently solve existing wet air cooler filling-material structure It is multiple, high energy consumption problem.Also show through testing result on trial for several times, it have it is simple and practical, power consumption it is low, disperse fog water-saving result Good, cooling effectiveness is high, and is easily installed and safeguards, it is easy to use the advantages that, be a kind of cross-flow type heat-exchange medium filler, its energy Various forms of cooling towers are applied to by permutation and combination, including gravity-flow ventilation tower, secondary ventilation cooling tower, closed cooling tower, Air-cooled type cooling tower etc. is newly-built and transforms cooling tower.

Brief description of the drawings

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

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

Fig. 2 is the A-A of Fig. 1 embodiments to structure diagram.

Fig. 3 is the C-C of Fig. 1 embodiments to structure diagram.

Fig. 4 is the B-B direction view i.e. top view of upstream face of Fig. 1 embodiments.

Fig. 5 is the top view of Fig. 1 embodiments.

Fig. 6 is the stereogram of embodiment illustrated in fig. 1.

In accompanying drawing respectively marked as：1 wind and water hybrid channel；2 vent passages；3 enclosed edges；4 sinusoidal wave curved-surface structures Diaphragm plate；5, which block water, separates passage；6 limited support points；7 stiffener plates；8 netted reinforcing ribs；9 support tubes strengthen passage；10 chiasma types Change waveguide circulation road；11 block water blinds；12 block water blinds and plate body transition body；K air flows；S water (flow) directions.

Embodiment

Embodiment as shown in figures 1 to 6, the mixing cross-flow type heat-exchange medium filler of the utility model wet air cooler are filled out Material main body is to overturn mutually arranged connection by several pieces sinusoidal 4 mutual 180 degrees of wave curved-surface structure diaphragm plate and pass through closing The duplex channel filler body that the sealing and support of side 3 and the positioning strong point 6 are formed, the filler body of the duplex channel are Containing two it is mutually isolated, by two orthogonal passages of different fluid and flow direction, one of them is that wind and water mixing are logical Road 1, another be vent passages 2, two passages are mutually isolated by sinusoidal wave curved-surface structure diaphragm plate 4, in sinusoidal wave Stiffener plate 7 and the netted reinforcing rib 8 that several strengthen its structure are formed with formula curved-surface structure diaphragm plate 4, in meeting water for filler body Face and enclosed edge 3 is formed respectively with from the water surface, and the cut-off passage 5 that blocks water is formed with upstream face enclosed edge, from water surface enclosed edge On be formed with support tube strengthen passage 9.

Referring to accompanying drawing 1-6 embodiments, the wave curved-surface structure diaphragm plate 4 is size, size, completely identical in structure height Heat conduction PVC film plate.

Referring to accompanying drawing 1-6 embodiments, the attachment structure of enclosed edge 3 of the wave curved-surface structure diaphragm plate 4 is high frequency heat seal Attachment structure.

Referring to accompanying drawing 1-3, Fig. 6 embodiment, by intersecting among the wave curved-surface structure diaphragm plate 4 of the filler body Type, which changes waveguide circulation road 10 and is connected as chiasma type, changes waveguide stream attachment structure, and is blocked water blinds 11 in the connection of filler body both sides The rippled edge of structure, the wave boundary layer blinds 11 that blocks water are section shapes bonding forms honeycomb for isosceles trapezoid, per upper and lower two panels Structure, it is to be connected smoothly by the blinds that blocks water with plate body transition body 12 between filler body and the blinds 11 that blocks water, filler body The blinds 11 that blocks water of both sides forms the anti-icing blinds that blocks water of hexagonal honeycomb after being bonded.

Referring to accompanying drawing 1-6 embodiments, the mixing cross-flow type heat-exchange medium filler body upstream face of the wet air cooler On be formed with and prevent flowing water in wind and water hybrid channel 1 from splashing, overflow to the cut-off passage 5 that blocks water of vent passages 2.

Referring to accompanying drawing 1, Fig. 5-6 embodiments, the filler body is that sinusoidal wave curved-surface structure diaphragm plate 4 is closed from the water surface It is formed with side and changes corresponding three support tubes of waveguide circulation road 10 with stiffener plate 7, chiasma type and strengthen passage 9.

Above-mentioned is only a kind of embodiment of the present utility model, the other embodiment as derived from the utility model, is existed The scope of this patent.

Claims (5)

1. a kind of mixing cross-flow type heat-exchange medium filler of wet air cooler, it includes filler body, it is characterised in that filler Main body is that 180 degree overturns mutually arranged connection and passes through closing between each other by several pieces sinusoidal wave curved-surface structure diaphragm plates (4) The duplex channel filler body that the sealing and support of side (3) and the positioning strong point (6) are formed, the filler master of the duplex channel Body be containing two it is mutually isolated, by two orthogonal passages of different fluid and flow direction, one of them is that wind and water mix Close passage (1), another be vent passages (2), two passages are mutually isolated by sinusoidal wave curved-surface structure diaphragm plate (4), Several reinforcements are formed with sinusoidal wave curved-surface structure diaphragm plate (4), are made respectively in the upstream face of filler body and from the water surface There is enclosed edge (3), and the cut-off passage (5) that blocks water is formed with upstream face enclosed edge, support tube is formed with from water surface enclosed edge Strengthen passage (9).

2. the mixing cross-flow type heat-exchange medium filler of wet air cooler according to claim 1, it is characterised in that described Filler body is to be connected as 180 degree rotatable connection, mistake by the mutual arrangement of several pieces sinusoidal wave curved-surface structure diaphragm plates (4) Any of position connection self is connected with each other structure, and connects positioning and support by enclosed edge (3) and the positioning strong point (6), The filler body of the duplex channel formed.

3. the mixing cross-flow type heat-exchange medium filler of wet air cooler according to claim 1 or 2, it is characterised in that Waveguide circulation road (10) changed by chiasma type among the wave curved-surface structure diaphragm plate (4) of the filler body it is connected as chiasma type and changes Waveguide stream attachment structure, and connection blocks water blinds (11) structure rippled edge in filler body both sides, the wave boundary layer block water hundred The section shape of leaf (11) is isosceles trapezoid, per upper and lower two panels, bonding forms honeycomb, between filler body and the blinds that blocks water It is to be connected smoothly by the blinds that blocks water with plate body transition body (12), is formed after the blinds that blocks water (11) bonding of filler body both sides The anti-icing blinds that blocks water of hexagonal honeycomb.

4. the mixing cross-flow type heat-exchange medium filler of wet air cooler according to claim 1, it is characterised in that described Filler body is sinusoidal wave curved-surface structure diaphragm plate (4) changes ripple from being formed with water surface enclosed edge with stiffener plate (7), chiasma type Several corresponding support tubes of flow-guiding channel (10) strengthen passage (9).

5. the mixing cross-flow type heat-exchange medium filler of wet air cooler according to claim 1, it is characterised in that described Several reinforcements on sinusoidal wave curved-surface structure diaphragm plate (4) are several stiffener plates (7) and strip reinforcement, netted reinforcement The reinforcement of any~two kinds of reinforcement structures of muscle (8).