CN201935629U - Special water collector for seawater cooling tower - Google Patents

Abstract

Disclosed is a special water collector for a seawater cooling tower. A plurality of identical water collector blocks are adhered with each other side by side to form an integral water collector, the water collector blocks are provided with first pieces and second pieces of the water collector, and the first pieces are correspondingly fixedly disposed on the second pieces. The first pieces are correspondingly fixedly disposed on the second pieces in an adhesion manner, and a plurality of adhesion points are formed. Each first piece comprises an upper cross ridge and two inclined plates which are integrally formed, wherein the upper cross ridge is protruded upwards, and the two inclined plates are respectively formed on two sides of the upper cross ridge. The bottom side of one of the two planar inclined plates horizontally extends to form a horizontal plane edge. Each second piece comprises a cross ridge and two wavy inclined plates which are integrally formed, wherein the cross ridge is protruded upwards, and the two wavy inclined plates are respectively formed on two sides of the cross ridge. Under the condition of high wind speed (higher than 2.5m/s), water drifting rate can be controlled within 0.002% of system circulation quantity. The special water collector is processed by modified PVC (polyvinyl chloride) materials, resists to seawater corrosion and ageing, has long service life and adopts a three-dimensional adhesion structure, and the strength and the rigidity are greatly enhanced.

Description

The special-purpose water collection device of seawater cooling tower

Technical field

The utility model relates to a kind of water collection device.Particularly relate to a kind of special-purpose water collection device of seawater cooling tower that is used to be arranged in the reverse flow type seawater cooling tower.

Background technology

The development and use seawater replaces fresh water as water for industrial use, particularly as industrial cooling water---and direct seawater utilization technology such as seawater circulation cooling are the important channels that solves China's Coastal Areas social economy's sustainable development and shortage of fresh water contradiction.

Seawater cooling tower is the key equipment in the seawater circulating cooling system.The water management level of wafing of water collection device directly affects the use of seawater cooling tower.It is the significant problem that exists during seawater cooling tower uses that the salt fog that is caused by the water that wafts splashes, and not only can influence environment, and can produce near corrosion peripheral equipment, the influence a series of problems such as vegetation growth.In fact, this also is the major reason that the use of seawater recirculation refrigerating technology all the time is restricted.

At present, the water collection device that seawater cooling tower is used mainly is to select for use to receive the effective waveform water collection device of water in the freshwater system, as Shenzhen Fu Huade power plant mechanical draft seawater cooling tower, Ninghai, Zhejiang power plant and North SinKiang, Tianjin power plant gravity-flow ventilation seawater cooling tower.But the water management of wafing effect is unsatisfactory, and especially performance is the most outstanding in the mechanical draft seawater cooling tower of wind speed big (greater than 2.5m/s).Water collection device adopts the common PVC material to make in addition, also exists temperature tolerance, resistance to ag(e)ing poor, service life deficiency such as weak point, poor rigidity.

Summary of the invention

Technical problem to be solved in the utility model is, provides that a kind of receipts water is effective, anti-corrosion in sea water service system, ageing-resistant, long service life, the special-purpose water collection device of seawater cooling tower that rigidity intensity is high.

The technical scheme that the utility model adopted is: the special-purpose water collection device of a kind of seawater cooling tower is to constitute water collection device integral body by a plurality of identical water collection device blocks are bonding side by side.

Described water collection device block includes water collection device first lamellar body and water collection device second lamellar body, being fixedly installed on second lamellar body of the described water collection device first lamellar body correspondence.

Described water collection device first lamellar body is by being fixedly installed on water collection device second lamellar body of bonding correspondence, and forms a plurality of adhesive spots.

Described water collection device first lamellar body includes integrally formed: anachomata protruding upward and two swash plates that are respectively formed at the anachomata both sides.

The horizontally extending horizontal plane edge that is formed with, the base of a plane swash plate in described two plane swash plates.

Described water collection device second lamellar body includes transverse ridge integrally formed, protruding upward and is respectively formed at two waveform swash plates of transverse ridge both sides.

Correspondingly on described two waveform swash plates be formed with a plurality of crests protruding upward, a plurality of crests on described two waveform swash plates and the perpendicular formation of described transverse ridge.

The horizontally extending horizontal waveform edge that is formed with, the base of a waveform swash plate in described two waveform swash plates.

Be formed with a plurality of edges crest that a plurality of crests from the waveform swash plate extend on the described horizontal waveform edge.

Constitute the steam flow passage between per two crests on described two waveform swash plates and between per two the edge crests on the horizontal waveform edge.

The special-purpose water collection device of seawater cooling tower of the present utility model has following characteristics:

(1) under high wind speed (greater than the 2.5m/s) condition, the water rate of wafing can be controlled at the systemic circulation amount 0.002% in, reach GB/T 23248-2009 circularly-cooling sea water Treatment Design standard " in to the waft control requirement of water rate of seawater cooling tower;

(2) modified PVC materials processing forms, and seawater corrosion resistance is ageing-resistant, and the life-span is long;

(3) adopt three-dimensional bonded structure, strength and stiffness strengthen greatly.

Description of drawings

Fig. 1 is the structural representation of the utility model water collection device block;

Fig. 2 is the integrally-built vertical view of the utility model water collection device;

Fig. 3 is the structural representation of the utility model water collection device first lamellar body;

Fig. 4 is the structural representation of the utility model water collection device second lamellar body;

Fig. 5 is the left view of Fig. 2.

Wherein:

1: water collection device block 2: water collection device integral body

3: water collection device first lamellar body 4: water collection device second lamellar body

5: adhesive spots 6: anachomata

7: swash plate 8: the flat edge edge

9: transverse ridge 10: the waveform swash plate

11: crest 12: horizontal waveform edge

13: edge crest 14: the steam flow passage

The specific embodiment

Below in conjunction with embodiment and accompanying drawing the special-purpose water collection device of seawater cooling tower of the present utility model is made a detailed description.

As shown in Figure 1 and Figure 2, the special-purpose water collection device of seawater cooling tower of the present utility model is to constitute water collection device integral body 2 by a plurality of identical water collection device blocks 1 are bonding side by side.

Described water collection device block 1 includes water collection device first lamellar body 3 and water collection device second lamellar body 4, being fixedly installed on water collection device second lamellar body 4 of described water collection device first lamellar body 3 correspondences.The bonding correspondence of underrun of described water collection device first lamellar body 3 be fixedly installed on water collection device second lamellar body 4 above, and form a plurality of adhesive spots 5.

As shown in Figure 3, described water collection device first lamellar body 3 includes integrally formed: anachomata 6 protruding upward and two swash plates 7 that are respectively formed at anachomata 6 both sides.The horizontally extending horizontal plane edge 8 that is formed with, the base of a plane swash plate 7 in described two plane swash plates 7.

As shown in Figure 4, described water collection device second lamellar body 4 includes integrally formed: transverse ridge 9 protruding upward and two waveform swash plates 10 that are respectively formed at transverse ridge 9 both sides.Correspondingly on described two waveform swash plates 10 be formed with a plurality of crests 11 protruding upward, the formation that a plurality of crests 11 on described two waveform swash plates 10 and described transverse ridge 9 are perpendicular.The horizontally extending horizontal waveform edge 12 that is formed with, the base of a waveform swash plate 10 in described two waveform swash plates 10.Be formed with a plurality of edges crest 13 that a plurality of crests 11 from the waveform swash plate 10 extend on the described horizontal waveform edge 12.

Described water collection device first lamellar body 3 and water collection device second lamellar body 4 adopt modified PVC to process, and contain the anti-seawater corrosion component, than 2～3 times of common PVC water collection device length service life, the water collection device sheet material is anti-aging, indeformable, cannot not be heated softeningly below 60 ℃, reach more than 15 years normal service life.Described water collection device first lamellar body 3 and water collection device second lamellar body 4 have reached 6 years with the water collection device of material in the reverse-flow mechanical draft seawater cooling tower use of Tianjin Caustic Soda Plant's L47 blower fan, and result of use is good.

A plurality of crests 11 of the underrun viscose glue of two plane swash plates 7 of water collection device first lamellar body 3 and water collection device second lamellar body 4 bond together, and, the bottom of the anachomata 6 of described water collection device first lamellar body 3 is corresponding bonding with the top of the transverse ridge 9 of water collection device second lamellar body 4, thereby has formed a plurality of adhesive spots 5.

The utility model adopts three-dimensional bonded structure, makes the water collection device strength and stiffness increase, and span increases than common water collection device, can arrive 2～3m.

As Fig. 4, shown in Figure 5, constitute steam flow passage 14 between per two crests 11 on described two waveform swash plates 10 and between per two the edge crests 13 on the horizontal waveform edge 12.

The saturated damp-heat air of water collection device enters the special-purpose water collection device of seawater cooling tower through airflow direction as shown in Figure 5, form overall air-flow straight up through water collection device, in this process, because airflow space is tortuous continuous, air-flow is to enter atmosphere straight up, so reduced the hot gas backflow.The experiment proved that, under high wind speed (greater than 2.5m/s), the water rate of wafing can be controlled at the systemic circulation amount 0.002% in, reach among the GB/T 23248-2009 " circularly-cooling sea water Treatment Design standard " the waft control requirement of water rate of seawater cooling tower.

Claims (10)

1. the special-purpose water collection device of seawater cooling tower is characterized in that, is by a plurality of identical water collection device block (1) bonding side by side formation water collection device integral body (2).

2. the special-purpose water collection device of seawater cooling tower according to claim 1, it is characterized in that, described water collection device block (1) includes water collection device first lamellar body (3) and water collection device second lamellar body (4), and what described water collection device first lamellar body (3) was corresponding is fixedly installed on second lamellar body (4).

3. the special-purpose water collection device of seawater cooling tower according to claim 2 is characterized in that, described water collection device first lamellar body (3) is by being fixedly installed on water collection device second lamellar body (4) of bonding correspondence, and forms a plurality of adhesive spots (5).

4. the special-purpose water collection device of seawater cooling tower according to claim 2 is characterized in that described water collection device first lamellar body (3) includes anachomata integrally formed, protruding upward (6) and is respectively formed at two swash plates (7) of anachomata (6) both sides.

5. the special-purpose water collection device of seawater cooling tower according to claim 4 is characterized in that the horizontally extending horizontal plane edge (8) that is formed with, the base of the plane swash plate (7) in described two plane swash plates (7).

6. the special-purpose water collection device of seawater cooling tower according to claim 2 is characterized in that described water collection device second lamellar body (4) includes transverse ridge integrally formed, protruding upward (9) and is respectively formed at two waveform swash plates (10) of transverse ridge (9) both sides.

7. the special-purpose water collection device of seawater cooling tower according to claim 6, it is characterized in that, described two waveform swash plates (10) are gone up the corresponding a plurality of crests (11) protruding upward that are formed with, a plurality of crests (11) on described two waveform swash plates (10) and the perpendicular formation of described transverse ridge (9).

8. the special-purpose water collection device of seawater cooling tower according to claim 6 is characterized in that the horizontally extending horizontal waveform edge (12) that is formed with, the base of the waveform swash plate (10) in described two waveform swash plates (10).

9. the special-purpose water collection device of seawater cooling tower according to claim 8 is characterized in that, is formed with a plurality of edges crests (13) that a plurality of crests (11) from the waveform swash plate (10) extend on the described horizontal waveform edge (12).

10. according to claim 7 or the special-purpose water collection device of 8 described seawater cooling towers, it is characterized in that, constitute steam flow passage (14) between per two crests (11) on described two waveform swash plates (10) and between per two the edge crests (13) on the horizontal waveform edge (12).

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