CN209476468U - Carbon fiber wet electrical dust precipitator - Google Patents

Abstract

The utility model discloses a kind of carbon fiber wet electrical dust precipitator, including anode, anode includes anode plate in a ring, rotation axis, transmission mechanism and deashing mechanism, the quantity of anode plate is multiple, multiple anode plates are arranged in a column, the channel passed through for air is formd between two adjacent anode plates, rotation axis there are two being each respectively set in anode plate in a ring, and the both sides of the edge of each anode plate are bonded with rotation axis surface, transmission mechanism is sequentially connected with the rotation axis on each anode plate respectively, to drive multiple anode plates while rotate, deashing mechanism and anode plate are cooperatively connected, for striking off the dust adsorbed on anode plate, after air passes through channel, anode plate can adsorb dust in air, when transmission mechanism drives the dust on anode plate to turn to deashing mechanism relative position, deashing mechanism strikes off dust , the position on anode plate after deashing is driven by transmission mechanism to be rotated, and is adsorbed dust again, facilitates the deashing of anode plate.

Description

Carbon fiber wet electrical dust precipitator

Technical field

The utility model belongs to deduster field more particularly to a kind of carbon fiber wet electrical dust precipitator.

Background technique

Wet electrical dust precipitator is a kind of high-pressure static cleaner for handling containing humid gas, is mainly used to remove containing wet The harmful substances such as PM2.5 microparticle, acid mist, water droplet, aerosol in gas are the effective equipment for administering atmospheric dust pollution, Certain positive effect is also functioned to the improvement of haze weather.

Tens of thousands of volt DC high-voltages are applied between the dust collecting electrode (anode) and discharge electrode (cathode) of wet electrical dust precipitator, Under the action of strong electrical field, the gas between the two poles of the earth is adequately ionized, so that the space of wet electrical dust precipitator electric field region is full of band The ion of positive and negative charge.The powder dust particle for entering wet electrical dust precipitator with the wet flue gas after desulfurization, it is mutual with these charged ions Collision and it is charged, electrification powder dust particle is reached dust collecting electrode and is captured due to the effect by high-voltage electrostatic field Coulomb force, later It is washed into catch basin and removes by spray irrigation water.

Such as the wet electrical dust precipitator that Chinese patent (CN201420074472.7) discloses, it include anode it discloses anode Cylinder, anode canister are made of carbon-fiber film and frp layer from inside to outside, and anode canister is hexagon.

But it is easy dust stratification in six angles of the anode canister of hexagon, and be not easily cleaned, and then influence dust removing effects.

Utility model content

To solve the above-mentioned problems, the utility model provides a kind of convenient carbon fiber wet electrical dust precipitator of deashing.

A kind of carbon fiber wet electrical dust precipitator, including anode, the anode include anode plate in a ring, rotation axis, biography Motivation structure and deashing mechanism, the quantity of the anode plate be it is multiple, multiple anode plates are arranged in a column, two adjacent institutes The channel for foring between anode plate and passing through for air is stated, is each respectively set in the anode plate in a ring there are two institute Rotation axis is stated, and the both sides of the edge of each anode plate are bonded with the rotation axis surface, the transmission mechanism is respectively and often Rotation axis transmission connection on a anode plate, to drive multiple anode plates while rotate, the deashing mechanism It is cooperatively connected with the anode plate, for striking off the dust adsorbed on the anode plate；

The anode plate includes multiple plate bodys, and multiple plate bodys are arranged in a ring, the plate body include carbon fiber layer and Glass surface bed course, the carbon fiber layer and the glass surface bed course pass through compression moulding.

Further, the surface of the plate body is also coated with vinyl layer.

Further, the outside of the plate body is arranged in relative to the glass surface bed course for the carbon fiber layer.

Further, the transmission mechanism includes motor and belt, passes through the skin between the motor and the rotation axis V belt translation connection.

Further, the transmission mechanism includes motor and rack gear, and the motor and the rotation axis are passed by the rack gear Dynamic connection.

Further, the quantity of the belt is multiple, passes through a belt between two adjacent anode plates Transmission connection, and the two sides that the anode plate is set that multiple belts are successively spaced.

Further, the quantity of the belt is one, the belt and the rotation for being located at described anode plate the same side Axis transmission connection.

Further, the rotation axis and the anode plate are meshed.

Further, the quantity of the deashing mechanism and the quantity of the anode plate are equal, and each anode plate is corresponding One deashing mechanism.

Further, the deashing mechanism includes scraper, and the scraper is obliquely installed relative to the anode plate.

Due to using above-mentioned technology, the utility model is had the advantage that

After air passes through channel, anode plate can adsorb dust in air, and transmission mechanism drives the dust rotation on anode plate When to deashing mechanism relative position, deashing mechanism strikes off dust, and the position on the anode plate after deashing is by driver Structure drives rotation, is adsorbed dust again, keeps the deashing of anode plate convenient, and effectively promote cleaning efficiency.

The utility model is further illustrated with reference to the accompanying drawings and embodiments.

Detailed description of the invention

Fig. 1 is the main view of carbon fiber wet electrical dust precipitator described in the utility model；

Fig. 2 is the perspective view of carbon fiber wet electrical dust precipitator described in the utility model；

Fig. 3 is the structural schematic diagram of plate body described in the utility model.

In figure: 100 anodes, 110 anode plates, 111 carbon fiber layers, 112 glass surface bed courses, 113 vinyl layers, 120 rotation axis, 130 transmission mechanisms, 131 motors, 132 belts, 140 deashing mechanisms.

Specific embodiment

As depicted in figs. 1 and 2, the carbon fiber wet electrical dust precipitator includes anode 100, and anode 100 includes in a ring Anode plate 110, rotation axis 120, transmission mechanism 130 and deashing mechanism 140, the quantity of anode plate 110 are multiple, multiple anode plates 110 arrange in a column, form the channel 150 passed through for air between two adjacent anode plates 110, when air is by leading to Behind road 150, the dust in air can be adsorbed on anode plate 110.There are two being each respectively set in anode plate 110 in a ring Rotation axis 120, and the both sides of the edge of each anode plate 110 are bonded with 120 surface of rotation axis.Transmission mechanism 130 respectively with it is each Rotation axis 120 on anode plate 110 is sequentially connected, to drive multiple anode plates 110 while rotate.Deashing mechanism 140 and anode Plate 110 is cooperatively connected, when transmission mechanism 130 drives the dust on anode plate 110 to turn to and 140 relative position of deashing mechanism When, deashing mechanism 140 strikes off dust, and the position on the anode plate 110 after deashing is driven by transmission mechanism 130 and rotated, Dust is adsorbed again, keeps the deashing of anode plate 110 convenient, and effectively promote cleaning efficiency.

Anode plate 110 includes multiple plate bodys, and multiple plate bodys are arranged in a ring.Convenient for the processing and assembling of anode plate 110.

As shown in figure 3, the plate body includes carbon fiber layer 111 and glass surface bed course 112, carbon fiber layer 111 and glass Surface bed course 112 passes through compression moulding.By increasing carbon fiber layer 111, to enhance the rigidity and intensity of anode plate 110.Wherein, The outside of plate body is arranged in relative to glass surface bed course 112 for carbon fiber layer 111, i.e. carbon fiber layer 111 is contacted with dust.

Preferably, the surface of plate body is also coated with vinyl layer 113, to enhance the fire resistance of anode plate 110.

In the present embodiment, transmission mechanism 130 includes motor 131 and belt 132, is led between motor 131 and rotation axis 120 Cross the transmission connection of belt 130.

In other embodiments, transmission mechanism 130 includes motor 131 and rack gear, and motor 131 and rotation axis 120 pass through tooth Item transmission connection.

With reference to Fig. 1, the quantity of belt 132 be it is multiple, passed between two adjacent anode plates 110 by a belt 132 Dynamic connection, and the two sides that anode plate 110 is set that multiple belts 132 are successively spaced.In another embodiment, belt 132 quantity is one, which is sequentially connected with the rotation axis 120 for being located at 110 the same side of anode plate, at this point, motor 131 and belt 132 also be located at the same side of anode plate 110.

Similarly, the quantity of rack gear can be one, which is driven with the rotation axis 120 for being located at 110 the same side of anode plate connects It connects, at this point, motor 131 and rack gear also are located at the same side of anode plate 110.

120 surface of rotation axis is provided with tooth socket, and the tooth socket cooperated with rotation axis 120 is provided on anode plate 110, that is, is rotated Axis 120 and anode plate 110 engage, in this way, rotation axis 120 drives the rotation of anode plate 110 more stable.

The quantity of deashing mechanism 140 and the quantity of anode plate 110 are equal, and the corresponding dust removing machine of each anode plate 110 Structure 140.With reference to Fig. 1, the upside of anode plate 110 is arranged in motor 131, and the downside of anode plate 110 is arranged in deashing mechanism 140, In this way, the dust can directly be fallen, without being adsorbed on anode plate again after deashing mechanism 140 clears up the dust of anode plate 110 On 110.The motor 131 on anode plate 110 separately is set without limitation on the installation site of deashing mechanism 140.

Deashing mechanism 140 includes scraper, scraper and the fitting of 110 surface of anode plate, after such anode plate 110 rotates, position Fixed scraper directly strikes off the dust on anode plate 110.

In the present embodiment, with reference to Fig. 1, angle a between scraper and anode plate 110 is 5 °~10 °, i.e., scraper relative to Anode plate 110 is obliquely installed.In this way, the dust of scraper hanging fascia is directly fallen, without accumulating on scraper.

In other embodiments, scraper is located at the lower part of anode plate 110, and the angle a between scraper and anode plate 110 is 0°。

To sum up, for air by the way that behind channel, anode plate can adsorb dust in air, transmission mechanism drives the dust on anode plate When turning to deashing mechanism relative position, deashing mechanism strikes off dust, and the position on the anode plate after deashing is by passing Motivation structure drives rotation, is adsorbed dust again, keeps the deashing of anode plate convenient, and effectively promote cleaning efficiency.

Embodiment described above is merely to illustrate the technical idea and feature of the utility model, and its object is to make ability Technical staff in domain can understand the content of the utility model and implement accordingly, cannot be only practical to limit with the present embodiment Novel patent uses range, i.e., all according to same changes or modifications made by the revealed spirit of the utility model, still falls in this In the scope of the patents of utility model.

Claims (10)

1. a kind of carbon fiber wet electrical dust precipitator, including anode, which is characterized in that the anode include anode plate in a ring, Rotation axis, transmission mechanism and deashing mechanism, the quantity of the anode plate be it is multiple, multiple anode plates are arranged in a column, phase The channel passed through for air is formd between two adjacent anode plates, is each set respectively in the anode plate in a ring The rotation axis there are two setting, and the both sides of the edge of each anode plate are bonded with the rotation axis surface, the driver Structure is sequentially connected with the rotation axis on each anode plate respectively, to drive multiple anode plates while rotate, institute It states deashing mechanism and the anode plate is cooperatively connected, for striking off the dust adsorbed on the anode plate；

The anode plate includes multiple plate bodys, and multiple plate bodys are arranged in a ring, and the plate body includes carbon fiber layer and glass Surface bed course, the carbon fiber layer and the glass surface bed course pass through compression moulding.

2. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the surface of the plate body is also coated with second Ene based resins layer.

3. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the carbon fiber layer is relative to the glass The outside of the plate body is arranged in glass surface bed course.

4. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the transmission mechanism includes motor and skin Band is sequentially connected between the motor and the rotation axis by the belt.

5. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the transmission mechanism includes motor and tooth Item, the motor and the rotation axis are connected by the rack-driving.

6. carbon fiber wet electrical dust precipitator as claimed in claim 4, which is characterized in that the quantity of the belt is multiple, phase By a belt transmission connection between two adjacent anode plates, and the setting that multiple belts are successively spaced exists The two sides of the anode plate.

7. carbon fiber wet electrical dust precipitator as claimed in claim 4, which is characterized in that the quantity of the belt is one, institute It states belt and is sequentially connected with the rotation axis for being located at described anode plate the same side.

8. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the rotation axis and the anode plate phase Engagement.

9. carbon fiber wet electrical dust precipitator as described in claim 1, which is characterized in that the quantity of the deashing mechanism and described The quantity of anode plate is equal, and the corresponding deashing mechanism of each anode plate.

10. carbon fiber wet electrical dust precipitator as claimed in claim 9, which is characterized in that the deashing mechanism includes scraper, institute Scraper is stated to be obliquely installed relative to the anode plate.