CN214487372U - Water collecting electrode plate for active demisting and water saving - Google Patents

Abstract

The utility model provides an initiative defogging water conservation is with plate electrode that catchments, relates to cooling tower defogging technical field, including braced frame, the rigid coupling has the plate electrode of the vertical setting of a plurality of on the braced frame side by side, and the plate electrode still sets up along vertical slope to tip forms the water conservancy diversion face through its slope down, and the last rigid coupling that goes back of braced frame has the drain chamber shell that sets up with the water conservancy diversion face is along with the shape. The utility model provides a device in the conventional art in the use, the unordered phenomenon of dripping easily appears in disorder in the liquid drop that condenses of production, and the problem of influence is caused to defogging device's service environment in the derivation of unable orderliness.

Description

Water collecting electrode plate for active demisting and water saving

Technical Field

The utility model relates to a cooling tower defogging technical field, concretely relates to initiative defogging water conservation is with plate electrode that catchments.

Background

The wet cooling tower is used as a water cooling technology and widely applied to industries such as electric power, petrifaction and the like. In the operation process of the cooling tower, the circulating water in the tower is in direct contact with air to transfer heat and mass, so that the evaporation loss, the blowing loss and the pollution discharge loss of the circulating water can be generated, and a large amount of waste of water resources is caused. The evaporation loss of the cooling tower accounts for 30-55% of the total water consumption. The evaporated moisture is cooled by the outside cold air under certain climatic conditions to form white fog, which has adverse effects on urban landscapes, road visibility and the like. Therefore, the evaporation loss is reduced by recovering the moisture in the mist, and the method has important significance for the cooling tower. At present, the wet cooling tower mainly adopts three fog dissipation technologies, namely a heating type technology, a multi-air-volume technology and an air parallel technology, supersaturated wet air is adjusted to an unsaturated area by means of heating or increasing air volume and the like, only the phenomenon of 'white fog' is eliminated, and the evaporation loss of the cooling tower is not reduced in mechanism.

The prior art discloses a patent of CN112129157A, which includes a water collecting cylinder, a discharge electrode and a grounding electrode, wherein the water collecting cylinder is of a top-free and bottom-free cylindrical structure, the bottom of the water collecting cylinder is an airflow inlet end, the discharge electrode is a metal rod or a metal wire, the end of the discharge electrode is positioned in the water collecting cylinder, the central axis thereof points to the airflow inlet end, and the grounding electrode is positioned outside the airflow inlet end and is electrically insulated from the water collecting cylinder. The novel high-voltage electrostatic water mist collecting device is simple in structure, light in weight, high in water vapor collecting rate, stable in operation, low in investment and operation cost and good in economical efficiency.

The device gradually exposes the defects of the technology along with the use, and mainly shows the following aspects:

first, current defogging device is in the use, and the disordered and disorderly phenomenon of dripping easily appears in the condensation liquid drop of production, and the derivation of unable orderliness leads to the fact the influence to the service environment of defogging device.

Secondly, the electrode plate is limited by the installation length in the installation process, and the phenomenon of vibration easily appears between the electrode plate, can't guarantee the stability in the electrode plate use.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a water collecting electrode plate for active demisting and water saving, which is used for solving the problems that the generated condensed liquid drops are easy to have disordered dropping phenomenon and can not be led out orderly when the device in the traditional technology is used, and the using environment of a demisting device is influenced; and the problem that the stability of the electrode plates in the use process can not be ensured due to the fact that the installation length of the electrode plates is limited and the phenomenon of vibration is easy to occur between the electrode plates.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an initiative defogging is water-saving with board electrode that catchments, includes braced frame, the rigid coupling has the vertical setting of a plurality of board electrode on the braced frame side by side, the board electrode still sets up along vertical slope to lower tip through its slope forms the water conservancy diversion face, the last rigid coupling of braced frame have with the drainage chamber shell that the water conservancy diversion face set up along with the shape.

As an optimized scheme, one side of the liquid guide cavity shells, which is positioned at the lower end part, is also connected with a water collection cavity shell which is obliquely arranged.

As an optimized proposal, the end part of the water collecting cavity shell at the lower part is connected with a liquid discharge hose.

As an optimized scheme, the drainage hose is further provided with an adjusting component for adjusting the position of the outlet end of the drainage hose.

As an optimized scheme, the liquid guide cavity shell comprises a shell with an inverted triangular cross section, a top hole is formed in the top surface of the liquid guide cavity shell, and the lower end of the electrode plate is located in the top hole.

As an optimized scheme, a plurality of end faces, below the drainage cavity shells, are provided with side holes, and the top faces of the water collecting cavity shells are also provided with water collecting holes below the side holes.

As an optimized scheme, a connecting cylinder communicated with an inner cavity of the water collecting cavity shell is fixedly connected to the bottom surface of the end part, close to the lower part, of the water collecting cavity shell, and an upper port of the liquid discharge hose is connected to the connecting cylinder.

As an optimized scheme, the adjusting assembly comprises a metal universal pipe, one end of the metal universal pipe is fixedly connected to the supporting frame, and the movable end of the metal universal pipe is connected with the lower port of the liquid discharge hose.

As an optimized scheme, a clamp is fixedly connected to the outer wall, close to the lower end opening, of the liquid discharge hose, and the movable end of the metal universal pipe is fixedly connected with the clamp.

As an optimized scheme, the electrode plates are fixedly connected with connecting blocks connected with the inner wall of the drainage cavity shell on the opposite side walls in the drainage cavity shell respectively.

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

the vertically arranged electrode plates can reduce airflow resistance, ensure smoothness of airflow, increase contact area with fog, improve water receiving efficiency, guide condensed liquid to one end below through the inclined guide surfaces of the electrode plates, and realize directional guide;

a drainage cavity shell is arranged below the flow guide surface, a top hole is formed in the drainage cavity shell, so that liquid drops on the electrode plate are collected into the drainage cavity shell, a water collecting cavity shell is arranged at the lower end part of the drainage cavity shell, a water collecting hole is formed in the water collecting cavity shell, so that liquid in the drainage cavity shell enters the water collecting cavity shell from the side hole, and water in a plurality of drainage cavity shells is collected in the water collecting cavity shell;

the drainage of the collected water to a pool or other equipment is realized through a drainage hose at the lower end part of the water collection cavity shell;

the outlet direction of the liquid discharge hose is directionally adjusted by utilizing the metal universal pipe, so that the liquid discharge hose can be used in different installation environments;

the lower end part of the electrode plate is supported by arranging the liquid guide cavity shell, so that the phenomenon of vibration caused by overlong length is prevented, and the stability of the electrode plate in the using process is ensured;

the liquid guide cavity shell is arranged in an inverted triangle, and the inclined two side walls of the liquid guide cavity shell are used for guiding the air flow entering from the lower part, so that the air flow resistance is reduced;

the operation is convenient, and the assembly and installation are convenient; the stability in the working process is improved; the parts are few, the working procedure is simple and convenient, and the failure rate is low; the structure is simple, and the service life is long; simple and convenient operation and control, easy large-scale manufacture and installation and wide application range.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the drainage cavity shell of the present invention.

In the figure: 1-a support frame; 2-an electrode plate; 3-draining chamber shell; 4-side holes; 5-a water collecting cavity shell; 6-water collecting hole; 7-connecting cylinder; 8-a drain hose; 9-metal universal tube; 10-clamping a hoop; 11-top hole; 12-connecting blocks.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 and 2, the active water-collecting electrode plate for demisting and saving water comprises a support frame 1, wherein a plurality of vertically arranged electrode plates 2 are fixedly connected to the support frame 1 in parallel, the electrode plates 2 are further arranged along a vertical inclination and form a flow guide surface through the inclined lower end part, and a liquid guide cavity shell 3 arranged along the flow guide surface is further fixedly connected to the support frame 1.

One side of the liquid guide cavity shells 3 at the lower end part is also connected with a water collection cavity shell 5 which is obliquely arranged.

The lower end of the water collecting cavity shell 5 is connected with a liquid discharge hose 8.

The drain hose 8 is also provided with an adjusting assembly for adjusting the position of the outlet end thereof.

The liquid guide cavity shell 3 comprises a shell with an inverted triangle-shaped section, a top hole 11 is formed in the top surface of the liquid guide cavity shell 3, and the lower end of the electrode plate 2 is located in the top hole 11.

A side hole 4 is arranged on the end surface of the lower part of the plurality of drainage cavity shells 3, and a water collecting hole 6 arranged below the plurality of side holes 4 is also arranged on the top surface of the water collecting cavity shell 5.

The bottom surface of the water collecting cavity shell 5 close to the lower end part is fixedly connected with a connecting cylinder 7 communicated with the inner cavity of the water collecting cavity shell, and the upper port of a liquid discharge hose 8 is connected to the connecting cylinder 7.

The adjusting component comprises a metal universal pipe 9 with one end fixedly connected on the supporting frame 1, and the movable end of the metal universal pipe 9 is connected with the lower port of the liquid discharge hose 8.

The outer wall of the liquid discharge hose 8 close to the lower end port is fixedly connected with a clamp 10, and the movable end of the metal universal pipe 9 is fixedly connected with the clamp 10.

The electrode plates 2 are respectively and fixedly connected with connecting blocks 12 connected with the opposite inner walls of the liquid guide cavity shell 3 on the opposite side walls in the liquid guide cavity shell 3.

The vertically arranged electrode plate 2 can reduce airflow resistance, ensure smoothness of airflow, increase contact area with fog, improve water receiving efficiency, guide condensed liquid to one end below through the inclined guide surface of the electrode plate 2, and realize directional guide;

a liquid guide cavity shell 3 is arranged below the flow guide surface, a top hole 11 is formed in the liquid guide cavity shell 3, so that liquid drops on the electrode plate 2 are collected into the liquid guide cavity shell 3, a water collecting cavity shell 5 is arranged at the lower end part of the liquid guide cavity shell 3, a water collecting hole 6 is formed in the water collecting cavity shell 5, so that liquid in the liquid guide cavity shell 3 enters the water collecting cavity shell 5 from the side hole 4, and water in a plurality of liquid guide cavity shells 3 is collected into the water collecting cavity shell 5;

the drainage of the collected water into a pool or other equipment is realized through a drainage hose 8 positioned at the lower end part of the water collection cavity shell 5;

the outlet direction of the drain hose 8 is directionally adjusted by utilizing the metal universal pipe 9, so that the use in different installation environments is met;

the lower end part of the electrode plate 2 is supported by arranging the liquid guide cavity shell 3, so that the phenomenon of vibration caused by overlong length is prevented, and the stability of the electrode plate 2 in the use process is ensured;

and the liquid guide cavity shell 3 is arranged in an inverted triangle, and the inclined two side walls of the liquid guide cavity shell are utilized to guide the air flow entering from the lower part, so that the air flow resistance is reduced.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides an initiative defogging is water conservation with collecting electrode board which characterized in that: including braced frame (1), the rigid coupling has plate electrode (2) of the vertical setting of a plurality of side by side on braced frame (1), plate electrode (2) still set up along vertical slope to lower tip through its slope forms the water conservancy diversion face, braced frame (1) go up still the rigid coupling have with water conservancy diversion face is along with leading liquid chamber shell (3) that the shape set up.

2. The active demisting water-saving collecting electrode plate as claimed in claim 1, wherein: one side of the liquid guide cavity shells (3) at the lower end part is also connected with a water collection cavity shell (5) which is obliquely arranged.

3. The active demisting water-saving water collecting electrode plate as claimed in claim 2, wherein: the end part of the water collecting cavity shell (5) at the lower part is connected with a liquid discharge hose (8).

4. The active demisting water-saving water collecting electrode plate as claimed in claim 3, wherein: the liquid discharge hose (8) is also provided with an adjusting component for adjusting the position of the outlet end of the liquid discharge hose.

5. The active demisting water-saving collecting electrode plate as claimed in claim 1, wherein: the liquid guide cavity shell (3) comprises a shell with an inverted triangle-shaped cross section, a top hole (11) is formed in the top surface of the liquid guide cavity shell (3), and the lower end of the electrode plate (2) is located in the top hole (11).

6. The active demisting water-saving water collecting electrode plate as claimed in claim 2, wherein: a plurality of side opening (4) have been seted up on the terminal surface that drainage chamber shell (3) are in the below, the top surface of water collection chamber shell (5) has still been seted up and is located a plurality of water hole (6) are received to side opening (4) below.

7. The active demisting water-saving water collecting electrode plate as claimed in claim 3, wherein: the bottom surface of the water collecting cavity shell (5) close to the end part below is fixedly connected with a connecting cylinder (7) communicated with the inner cavity of the water collecting cavity shell, and the upper port of the liquid drainage hose (8) is connected to the connecting cylinder (7).

8. The active demisting water-saving collecting electrode plate as claimed in claim 4, wherein: the adjusting component comprises a metal universal pipe (9) with one end fixedly connected to the supporting frame (1), and the movable end of the metal universal pipe (9) is connected with the lower port of the liquid discharge hose (8).

9. The active demisting water-saving collecting electrode plate as claimed in claim 8, wherein: the outer wall of the drainage hose (8) close to the lower end port of the drainage hose is fixedly connected with a hoop (10), and the movable end of the metal universal pipe (9) is fixedly connected with the hoop (10).

10. The active demisting water-saving collecting electrode plate as claimed in claim 5, wherein: the electrode plates (2) are positioned on the opposite side walls in the liquid guide cavity shell (3) and are respectively and fixedly connected with connecting blocks (12) connected with the opposite inner walls of the liquid guide cavity shell (3).

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