Energy-saving machinery vantilation cooling tower
Technical field
The utility model relates to cooling tower technical field, refers in particular to a kind of energy-saving machinery vantilation cooling tower.
Background technology
Mechanical-draft cooling tower is that water directly contacts with air a kind of equipment carrying out heat exchange, it is primarily of compositions such as blower fan, filler, water distribution system, tower body, ponds, and the water in the air lower primarily of the temperature under fan action and filler carries out heat exchange thus reaches the object reducing water temperature.In recent years, mechanical-draft cooling tower extensive use in multi-field engineering of diameter fan, large cooling water inflow.How existing machinery aerating and cooling tower design basis improves the cooling effectiveness of cooling tower further, how to reduce the water distribution lift (sparge pipe center absolute altitude) of cooling tower, how making mechanical-draft cooling tower more energy-conservation, will be the permanent objective of cooling tower technological improvement and development.
Utility model content
Based on this, the utility model is to provide a kind of energy-saving machinery vantilation cooling tower, and it can overcome the deficiencies in the prior art, shortens the water distribution lift of mechanical-draft cooling tower, reduces its energy consumption.
Its technical scheme is as follows:
A kind of energy-saving machinery vantilation cooling tower, it comprises tower body, distribution channel, be positioned at the blower fan on described tower body top and be positioned at the collecting-tank of tower body bottom, many sparge pipes and many packing support beams are provided with from top to bottom in described tower body, described packing support beam is laid with filler, described sparge pipe is communicated with described distribution channel, on many described packing support beams, correspondence is provided with multiple through hole, all be equipped with filler support in the described through hole of each packing support beam, multiple described filler support is successively through multiple described packing support beam.
Below further technical scheme is described:
Further, described through hole is located at the bottom of described packing support beam.
Further, described through hole is located at the bottom of described packing support beam.
Further, described packing support beam is vertical with described filler support is arranged.
Further, described distribution channel is located at the outside of described tower body, and many described sparge pipes are all communicated with described distribution channel, and described distribution channel is communicated with water inlet pipe.
Further, it also comprises sparge pipe tube connector, and the other end of many described sparge pipes is all communicated with described sparge pipe tube connector, and described sparge pipe tube connector is provided with multiple water-distributing gap.
Further, many described sparge pipes be arranged in parallel.
Further, the center of described distribution channel and described sparge pipe are on same level line.
Further, described distribution channel is arranged according to described tower body, and its shape is the arc or linear that adapt with tower body profile, and its length at least equals the spacing of the two described sparge pipes being positioned at outside.
Below the principle, effect etc. of preceding solution are described:
Described energy-saving machinery vantilation cooling tower is provided with through hole on packing support beam, filler support can cross multiple described packing support beam, make the setting height(from bottom) of filler by filler beam being arranged being adjusted to filler fine strain of millet base fabric puts, namely the setting height(from bottom) of filler is reduced, and difference in height between described sparge pipe and filler is constant, be therefore equivalent to the height reducing sparge pipe, therefore, shorten the water distribution lift of mechanical-draft cooling tower, save its energy consumption.
Described distribution channel is arranged at outside the tower of mechanical-draft cooling tower, arranges according to tower body, reduces windage, guarantees the cooling effect of mechanical-draft cooling tower.
Each described sparge pipe is all connected with water distribution tube connector and forms annular water distribution pipe network, enables water distribution be distributed in each position of mechanical-draft cooling tower, water distribution evenly.
Accompanying drawing explanation
Fig. 1 is the sectional view of the mechanical-draft cooling tower described in the utility model embodiment;
Fig. 2 is the water distribution layout schematic diagram of the mechanical-draft cooling tower described in the utility model embodiment.
Description of reference numerals:
10, tower body, 12, blower fan, 14, collecting-tank, 16, distribution channel, 18, sparge pipe, 20, water inlet pipe, 22, packing support beam, 24, filler support, 26, sparge pipe tube connector.
Detailed description of the invention
Below embodiment of the present utility model is described in detail:
As shown in Figures 1 and 2, a kind of energy-saving machinery vantilation cooling tower, comprise tower body 10, be positioned at tower body 10 upper part blower fan 12 and be positioned at the collecting-tank 14 of tower body 10 bottom, distribution channel 16, many sparge pipes 18 and many packing support beams 22 are provided with from top to bottom in described tower body 10, described packing support beam 22 lays filler, each described packing support beam 22 is equipped with multiple through hole, through hole correspondence on many described packing support beams 22 is arranged, each filler support 24 is successively through the through hole on many packing support beams 22, be provided with multiple filler support 24 altogether through the through hole on many packing support beams 22.
Described energy-saving machinery vantilation cooling tower is provided with through hole on packing support beam 22, filler support 24 can cross multiple described packing support beam 22, the whole height of packing support beam 22 and filler support 24 is made to shorten to the height of packing support beam 22, namely the level height of packing support beam 22 is reduced, and difference in height between described sparge pipe 18 and packing support beam 22 is constant, therefore the height reducing sparge pipe 18 is equivalent to, therefore, reduce the water distribution lift of mechanical-draft cooling tower, save its energy consumption.
Described through hole is located at the bottom of described packing support beam 22, preferably under the prerequisite of the structural rigidity of the filler and packing support beam 22 that do not affect packing support beam 22, described through hole is located at the bottom of described packing support beam 22, implements to support from the bottom of packing support beam 22 to it.Described packing support beam 22 is vertical with described filler support 24 to be arranged.
As shown in Figures 1 and 2, described distribution channel 16 is located at the outside of described tower body 10, described distribution channel 16 depends on tower body 10 and arranges, and its shape is and tower body 10 form fit, for arc similar to tower body 10 or linear, the length of distribution channel 16 at least equals the spacing being positioned at outermost two described sparge pipes 18.Many described sparge pipe 18 is positioned at same level, and is arranged in parallel, and many sparge pipes 18 are all communicated with described distribution channel 16.Center and the described sparge pipe 18 of preferred described distribution channel 16 are on same level line.Such as, when described tower body 10 is cuboid, the length of described distribution channel 16 is length or the width of tower body 10; When described tower body 10 is cylinder, the length of described distribution channel 16 is the half of tower body section girth, guarantees that each described sparge pipe 18 can both be communicated with by parallel and described distribution channel 16.
Sparge pipe tube connector 26 is provided with away from one end of described distribution channel 16 in described tower body 10, described sparge pipe tube connector 26 is similarly the sparge pipe that can realize water distribution, which is provided with multiple water-distributing gap, one end of many described sparge pipes 18 is communicated with described distribution channel 16, the other end is then communicated with described sparge pipe tube connector 26, many described sparge pipes 18 form loop with sparge pipe tube connector 26, form the tower distribution system of water supply of ring in mechanical-draft cooling tower, water distribution evenly.
The above embodiment only have expressed detailed description of the invention of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.