CN215743490U - Water separator for ion exchange tower - Google Patents

Abstract

The utility model provides a water separator for an ion exchange tower, which comprises a main pipe and branch pipes, wherein the main pipe is connected with the branch pipes; a water diversion port is arranged on the main pipe; the branch pipe is communicated and connected with the water diversion port; the surface of the branch pipe is provided with a water outlet hole; a partition plate is arranged inside the water diversion port; the partition board is correspondingly arranged at one side close to the water flow path in the water diversion port; the branched pipes are matched with the water outlet holes, so that regional uniform spraying in the tower is realized; the water flow rushing into the branch pipe is guided to the direction close to the lower part by the partition plate, and the probability of scaling caused by spraying the water outlet hole at the top of the tower is effectively reduced.

Description

Water separator for ion exchange tower

Technical Field

The utility model belongs to the technical field of ion exchange towers, and particularly relates to a water separator for an ion exchange tower.

Background

In the prior art, a water separator of an ion exchange tower needs to be arranged at the top of the tower, so that part of sprayed water can be flushed and splashed to the top of the tower frequently to cause scaling, the normal operation of equipment is seriously influenced, the frequency of shutdown maintenance is increased, and the improvement of the production efficiency and the continuity is not facilitated. Therefore, it is necessary to invent a water separator for an ion exchange tower, which can effectively prevent the scaling at the top of the tower and has good spraying effect.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the water separator for the ion exchange tower, which can effectively prevent the scaling at the top of the tower and has good spraying effect.

In order to achieve the purpose, the utility model adopts the following technical scheme: the water separator for the ion exchange tower comprises a main pipe and a branch pipe; a water diversion port is formed in the main pipe; the branch pipe is communicated and connected with the water diversion port; water outlet holes are formed in the surfaces of the branch pipes; a partition plate is arranged inside the water diversion port; the partition board is correspondingly arranged on one side of the water flow path inside the water diversion port.

Further, the branch pipes are transversely arranged; the top of the branch pipe is provided with a baffle plate; the baffle correspondingly shields the water outlet hole at the top of the upward spraying tower.

Furthermore, one end of the baffle is connected with a lantern ring; the lantern ring is sleeved at the tail end of the branch pipe in a matching mode.

Further, the baffle is of an arc-shaped plate structure; the inner side of the baffle is in contact with the surface of the branch pipe in a fitting manner; extension plates are telescopically embedded at two sides of the baffle; the extension plate has a telescoping path corresponding to the surface contour of the manifold.

Further, the clapboard is elastically and rotatably arranged inside the water diversion port; the lower end of the partition board turns upwards in the direction close to the branch pipe under the impact of water pressure.

Furthermore, a plurality of water distribution openings are uniformly arranged on the main pipe in the circumferential direction; the branch pipes are matched with the water distribution openings in a one-to-one correspondence mode.

Further, the number of the water diversion ports is 5.

Further, the branch pipe is detachably connected with the water diversion port.

Further, the branch pipe is in threaded connection with the water diversion port.

Further, the main pipe and the branch pipes are made of PE plastic materials.

Compared with the prior art, the utility model has the beneficial effects that:

(1) according to the water separator for the ion exchange tower, the branched pipes are matched with the water outlet holes, so that regional uniform spraying in the tower is realized; the water outlets uniformly distributed on the surface of the branch pipe ensure that the rotation angle of the branch pipe is not needed to be distinguished when the branch pipe is connected with the main pipe, thereby improving the installation efficiency; the water flowing into the branch pipe is guided to the downward direction by the partition plate, so that the probability of scaling caused by spraying the water outlet hole at the top of the tower to the top of the tower is effectively reduced;

(2) the water separator for the ion exchange tower utilizes the baffle plate with the upper end fixed in a damping hinged mode, so that the lower end of the baffle plate can realize dynamic turnover regulation and control according to the water pressure, and the stability of spraying work is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a water separator for an ion exchange column;

FIG. 2 is a schematic view of a spacer installation position;

FIG. 3 is a schematic view of a baffle structure;

FIG. 4 is a schematic view of the combination of the baffle and the branch pipe.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the main pipe, 2, branch pipe, 3, apopore, 4, distributive opening, 5, baffle, 6, baffle, 61, the lantern ring, 62, extension board.

Detailed Description

The present invention is further described in detail below with reference to specific examples so that those skilled in the art can more clearly understand the present invention.

The water separator for the ion exchange tower, as shown in fig. 1 and 2, comprises a main pipe 1 and a branch pipe 2; a water diversion port 4 is arranged on the main pipe 1; the branch pipe 2 is communicated and connected with the water diversion port 4; the surface of the branch pipe 2 is provided with a water outlet hole 3; a partition plate 5 is arranged inside the water diversion port 4; the partition plate 5 is correspondingly arranged at one side close to the water flow path in the water diversion port 4;

be responsible for 1 and evenly spill down rivers in the top of the tower through branch pipe 2, distribute apopore 3 on branch pipe 2 and can let and spray more evenly, and the effect of baffle then lies in, can let the rivers that come from being responsible for 1 concentrate the lower half space that flows into in branch pipe 2 to 3 injection pressure of apopore that can reduce the branch pipe top are too big and erode the probability of top of the tower inner wall, effectively reduce the top of the tower scale deposit. In addition, the apopore can evenly distributed around the branch pipe, just need not consider the rotation angle of branch pipe like this when assembling the branch pipe and being responsible for, is showing and is promoting the packaging efficiency.

As shown in fig. 3 and 4, the branch pipes 2 are arranged laterally; the top of the branch pipe 2 is provided with a baffle 6; the baffle 6 correspondingly shields the water outlet hole 3 at the top of the upward spraying tower;

the branch pipes 2 extend in the lateral direction, and can exert the effect of the water outlet holes 3 to the maximum extent, covering a larger vertical projection area. The baffle 6 is additionally arranged to shield the upward water outlet hole, so that the branch pipe can adapt to larger water supply pressure, and the process adaptation capability is obviously improved; the branch pipe 2 can also adopt a multi-section communicated and spliced structure, so that the space adaptability of the branch pipe is further improved.

One end of the baffle 6 is connected with a lantern ring 61; the lantern ring 61 is sleeved at the tail end of the branch pipe 2 in a matching manner;

through the effect of lantern ring 61 and the interference fastening of branch pipe terminal surface, the quick assembly disassembly of the plate washer of being convenient for is favorable to regularly disassembling the maintenance after putting into service.

The baffle 6 is of an arc-shaped plate structure; the inner side of the baffle 6 is in contact with the surface of the branch pipe 2; extension plates 62 are telescopically embedded at two sides of the baffle 6; the telescopic path of the extension plate 62 corresponds to the surface profile of the branch pipe 2;

extension plate 62 and baffle 6 can adopt the damping to inlay the cooperation mode of inserting, and the injection height of apopore 3 up depends on water supply pressure, and in the in-service use, can receive the extension plate when water pressure is less, utilizes the ascending apopore of slant to cast and improves the spray area, can pull out the extension plate when water pressure is great, avoids ascending injection rivers to strike the top of the tower.

The partition plate 5 is elastically and rotatably arranged inside the water diversion port 4; the lower end of the baffle plate 5 turns upwards in the direction close to the branch pipe 2 under the impact of water pressure;

set the pattern of elasticity articulated upset to the baffle, just can keep the circulation cross-section of littleer when water pressure is less, play certain pressure boost function, can upwarp correspondingly when water pressure is great and rotate increase circulation cross-section, avoid apopore pressure too big influence to sprinkle regional rivers density.

A plurality of water distribution openings 4 are uniformly arranged on the main pipe 1 in the circumferential direction; the branch pipes 2 are matched with the water distribution openings 4 in a one-to-one corresponding manner;

when the main pipe 1 is installed, only the main pipe needs to penetrate through the tower top, and the spraying coverage of the whole area in the tower can be realized by depending on the extension effect of the branch pipe 2; the distribution density of the branch pipes 2 can be determined according to the density of the water outlet holes 3, the water supply pressure and other factors.

The number of the water diversion ports 4 is 5, the included angle between the adjacent branch pipes is 72 degrees, and the equipment cost and the effective coverage of the spraying area can be considered in the actual production.

Branch pipe 2 with divide water gap 4 detachable connection specifically can adopt multiple modes such as buckle spacing, screw-thread fit, inlay and insert the cooperation, and wherein screw-thread fit is because only need the standard component, and the connected mode is high-efficient rapidly, so preferred adoption threaded connection.

The main pipe 1 and the branch pipes 2 are made of PE plastic materials, so that corrosion can be effectively prevented, and the service life of equipment parts is prolonged.

The mechanisms, components and parts of the present invention which are not described in detail are all the existing structures which exist in the prior art. Can be purchased directly from the market.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The water knockout drum for the ion exchange tower is characterized in that: comprises a main pipe (1) and a branch pipe (2); a water diversion port (4) is formed in the main pipe (1); the branch pipe (2) is communicated and connected with the water diversion port (4); the surface of the branch pipe (2) is provided with a water outlet (3); a partition plate (5) is arranged inside the water diversion port (4); the partition plate (5) is correspondingly arranged on one side close to the inner water flow path of the water diversion port (4).

2. The water separator for an ion exchange column according to claim 1, wherein: the branch pipes (2) are transversely arranged; a baffle (6) is arranged at the top of the branch pipe (2); the baffle (6) correspondingly shields the water outlet hole (3) at the top of the upward spraying tower.

3. The water separator for an ion exchange column according to claim 2, wherein: one end of the baffle (6) is connected with a lantern ring (61); the lantern ring (61) is sleeved at the tail end of the branch pipe (2) in a matching mode.

4. The water separator for an ion exchange column according to claim 3, wherein: the baffle (6) is of an arc-shaped plate structure; the inner side of the baffle (6) is in contact with the surface of the branch pipe (2); extension plates (62) are telescopically embedded at two sides of the baffle (6); the telescopic path of the extension plate (62) corresponds to the surface profile of the branch pipe (2).

5. The water separator for an ion exchange column according to claim 1, wherein: the partition plate (5) is elastically and rotatably arranged inside the water diversion port (4); the lower end of the clapboard (5) turns upwards in the direction close to the branch pipe (2) under the impact of water pressure.

6. The water separator for an ion exchange column according to any one of claims 1 to 5, wherein: a plurality of water distribution openings (4) are uniformly arranged on the main pipe (1) in the circumferential direction; the branch pipes (2) are matched with the water distribution openings (4) in a one-to-one corresponding mode.

7. The water separator for an ion exchange column according to claim 6, wherein: the number of the water diversion ports (4) is 5.

8. The water separator for an ion exchange column according to claim 1, wherein: the branch pipe (2) is detachably connected with the water diversion port (4).

9. The water separator for an ion exchange column according to claim 8, wherein: the branch pipe (2) is in threaded connection with the water diversion port (4).

10. The water separator for an ion exchange column according to claim 1, wherein: the main pipe (1) and the branch pipe (2) are made of PE plastic materials.

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