CN207632569U - Rotating cathode structure for fouling - Google Patents

Abstract

The utility model provides a kind of rotating cathode structure for fouling, in the babinet with tank house, including rotation install on babinet with the axis body of outputting rotary power, and multiple cathode plates along axis body axially spaced-apart setting, each cathode plate has using the axis body as the synchronous rotation of axis under driving of axis body, further includes being set between each adjacent cathode plate and rotating installation in the scraper mounting portion on the axis body.Rotating cathode structure described in the utility model for fouling, by rotating setting axis body on babinet, and the multiple cathode plates of setting, and each cathode plate is driven to rotate synchronously by axis body, and then can guarantee the uniformity that dirty body is formed on cathode plate, and the rotation setting scraper mounting portion on axis body, and then can be convenient for installing scraper, to be scraped in time to the dirty body formed on cathode plate by scraper, the trouble of the manual cleaning dirt body avoided.

Description

Rotating cathode structure for fouling

Technical field

The utility model is related to working cycles water-treatment technology field, more particularly to a kind of rotating cathode knots for fouling Structure.

Background technology

Industrial circulating water production is most importantly heat exchange medium, and the fouling of equipment heating surface and heat-transfer area is mainly to ask Topic, recirculated water inside bacterium, algae are the main problem of corrosive pipeline.Traditional processing mode is adding medicine, and equipment cleaning uses acid It washes, service life of equipment can be reduced to equipment burn into this way, chemical agent can bring secondary pollution, increase recirculated water discharge capacity, Increase enterprise's production cost.

For the prior art when being electrolysed operation, calcium ion and magnesium ion in recirculated water etc. can form fouling on cathode plate, Therefore it needs manually regularly to clear up the fouling on cathode plate, due to the shut-down of equipment while increasing staff Also economic loss can be caused to enterprise, and fouling can be hardened because of the accumulation of time, more be not easily cleaned.Simultaneously as existing Cathode plate in structure is fixed in reative cell mostly, therefore is also resulted in the fouling on cathode plate and be unevenly distributed, and cathode is influenced The whole service life of plate.

Utility model content

In view of this, the utility model is directed to a kind of rotating cathode structure for fouling, to solve the prior art In deficiency, and have preferable using effect.

In order to achieve the above objectives, the technical solution of the utility model is realized in：

A kind of rotating cathode structure for fouling is set in the babinet with tank house, including rotation is installed in described With the axis body of outputting rotary power on babinet, and along multiple cathode plates of axis body axially spaced-apart setting, in the axis body Driving under each cathode plate have using the axis body as the synchronous rotation of axis, further include be set to each adjacent cathode plate Between and rotate installation in the scraper mounting portion on the axis body.

Further, the cathode plate cross section is circle.

Further, installation set is provided in the middle part of the cathode plate, and the cathode plate is consolidated via the installation set Surely it is set on the axis body, the length of the installation set is more than the thickness of the cathode plate.

Further, the scraper mounting portion is turning set loaded on the axle sleeve on the axis body.

Further, it is provided with rolling element between the axle sleeve and the axis body.

Further, the rolling element is positioned on the retainer for constituting suit cooperation with the axis body.

Further, the rolling element is the multiple balls arranged in column along the axial direction of the retainer, and described in each row Spaced arrangement between ball.

Further, the cathode plate is made of stainless steel.

Compared with the existing technology, the utility model has the advantage that：

(1) the rotating cathode structure described in the utility model for fouling, by rotating setting axis body on babinet, with And the multiple cathode plates of setting, and drive each cathode plate to rotate synchronously by axis body, and then can guarantee that dirty body is formed on cathode plate Uniformity, and on axis body rotation setting scraper mounting portion, and then can be convenient for scraper is installed, with by scraper to the moon The dirty body formed on pole plate scrapes in time, the trouble of the manual cleaning dirt body avoided.

(2) being provided in round cathode plate can prevent the rotation of cathode plate from causing to interfere to other components.

(3) by the way that installation set is arranged on cathode plate, and the thickness of installation set is arranged more than cathode plate thickness, in turn The phenomenon that can preventing cathode plate from being damaged because of inclination when being assembled with axis body.

(4) scraper mounting portion uses axle sleeve, simple and reliable for structure, easy for installation.

(5) setting rolling element can reduce the abrasion between axle sleeve and axis body.

(6) rolling element is positioned at and can guarantee the stability for rolling body running on retainer.

(7) multiple balls are arranged in rolling element and are spaced setting, can be further ensured that the stability of axle sleeve rotation.

Description of the drawings

The attached drawing for constituting the part of the utility model is used to provide a further understanding of the present invention, this practicality is new The illustrative embodiments and their description of type are not constituted improper limits to the present invention for explaining the utility model. In attached drawing：

Fig. 1 is the schematic diagram of the rotating cathode structure for fouling described in the utility model embodiment；

Fig. 2 is the schematic diagram of the rotating cathode structure and scraper installation for fouling described in the utility model embodiment；

Fig. 3 is the front view of the rotating cathode structure for fouling described in the utility model embodiment；

Fig. 4 is the structural schematic diagram of the retainer and rolling element described in the utility model embodiment；

Fig. 5 is the cathode plate and anode plate cooperation schematic diagram described in the utility model embodiment；

Reference sign：

1- axis bodies, 2- cathode plates, 3- installation sets, 4- axle sleeves, 5- rolling elements, 6- retainers, 601- suit holes, 7- scrapers, 8- anode plates.

Specific implementation mode

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

The present embodiment is related to a kind of rotating cathode structure for fouling, is set in the babinet with tank house, such as Fig. 1 institutes Show, the rotating cathode structure for being used for fouling include rotation install on babinet with the axis body of outputting rotary power 1, and along axis Multiple cathode plates 2 of 1 axially spaced-apart of body setting, it is the synchronization of axis that each cathode plate 2, which has with axis body 1, under driving of axis body 2 Rotation, the rotating cathode structure for being used for fouling further include being set between each adjacent cathode plate 2 and rotating installation on axis body 1 Scraper mounting portion.

In above-mentioned structure, central axis 1 is cylindrical structure, and one end can be driven with power plant not shown in the figure Connection, to drive axis body 1 to rotate by outputting rotary power by power plant, power plant can be electric rotating machine, in connection Axis body can be directly fixedly connected with the power output shaft coaxial line of electric rotating machine by shaft coupling, also can in power output shaft and Deceleration transmission is arranged between axis body 1 to connect.2 cross section of cathode plate is circle in the present embodiment, and can be supported by stainless steel, Due to the thinner thickness of cathode plate 2, in order to prevent cathode plate 2 when being set with axis body 1 run-off the straight and cause the damage of cathode plate 2 It is bad, in the present embodiment the middle part of cathode plate 2 be provided with cathode plate 2 concentrically line setting installation set 3, to may make the moon Pole plate 2 via installation set 3 and fixing sleeve and so that the length of installation set 3 is more than the thickness of cathode plate 2 loaded on axis body 1, right Cathode plate 2 pushes directly on installation set 3 when being set with.

It is set with for the ease of installation set 3 and axis body 1,1 gap of endoporus with axis body of installation set 3 is matched in the present embodiment It closes, and can be by being welded and fixed.Certainly, in the present embodiment also can along the radial precession of installation set 3 lock-screw not shown in the figure, To realize the fixation of cathode plate 2 and axis body 1 by the peripheral surface by lock-screw and axis body 1 contacts.

As shown in Figures 2 and 3, scraper mounting portion is loaded on the axle sleeve 4 on axis body 1 for turning set in the present embodiment, to scraping One end of scraper 7 can be fixed in babinet by knife when being installed, and the other end of scraper is fixed on the peripheral surface of axle sleeve 4 .Since axle sleeve 4 and axis body 1 are to be rotatably assorted, when axis body 1 drives each cathode plate 2 to rotate, axle sleeve 4 then because with scrape The fixation of knife one end and with babinet remains stationary, formed may make scraper on the cathode plate 2 of both sides dirty body formation scrape.For The friction of axis body 1 and axle sleeve 4 is reduced, rolling element 5, and rolling element 5 are provided between axle sleeve 4 and axis body 1 in the present embodiment Be positioned on the retainer 6 for constituting suit cooperation with axis body 1, and in the present embodiment rolling element 6 be along retainer 7 it is axial at The multiple balls for arranging arrangement, spaced arrangement between each row ball.

As shown in figure 4, the generally cylindrical structure of retainer 6 in the present embodiment, is formed with and axis body 1 along its length Outer diameter is adapted the suit hole 601 of setting, may make retainer 6 and axis body 1 to be interference fitted in assembly with prevent retainer 6 with Axis body 1, which is formed, to be relatively rotated.In the present embodiment can by retainer 6 can between two neighboring cathode plate 2 it is set at a distance from phase One cathode plate 2 can be first positioned at one end of axis body 1 in assembly by adaptation setting, then by the suit of retainer 6 and axis body 1 It abuts against above and with the installation set 3 on the cathode plate 2 and is fixed on axis body, next cathode plate 2 is then set in axis body 1 On, and the installation set 3 of the cathode plate 2 is abutted with retainer 6, the distance between two cathode plates 2 are set at this time Distance, and cathode plate 2 is assemblied on axis body successively in the order described above.

In above-mentioned structure by by the length of retainer 6 between two adjacent cathode plates 2 it is set at a distance from phase Adaptation setting can be convenient for the quick assembling of cathode plate 2, reduce fiber crops caused by due to need to repeatedly measure the orientation distance of cathode plate 2 It is tired.In addition, the length of axle sleeve 4 can be slightly less than to the length on retainer 6, to prevent the end with installation set 3 in the present embodiment Form friction, and due to the limitation due to scraper in operation process, axle sleeve 4 can't be moved along axis body 1, into without with peace Encapsulation 3 or cathode plate 2 form pivoting friction.

This decontamination babinet when in use, as shown in Figure 5, and is located in each phase by multiple anode plates 8 are corresponding respectively Between adjacent cathode plate 2, it is powered to be formed to cathode plate 2 and anode plate 8 respectively and the electrolysis for being electrolysed indoor recirculated water is made Industry.Significantly, since the setting of axis body 1, interferes to prevent the assembly of anode plate 8 from being formed with axis body 1, in the present embodiment The cathode plate 2 that anode plate 8 is corresponded to the top of axis body 1 is arranged.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection domain within.

Claims (8)

1. a kind of rotating cathode structure for fouling is set in the babinet with tank house, it is characterised in that：It is held including rotation Loaded on the babinet with the axis body of outputting rotary power, and along the axis body axially spaced-apart setting multiple cathode plates, Each cathode plate has using the axis body as the synchronous rotation of axis under driving of the axis body, further includes being set to each adjacent institute It states between cathode plate and rotates installation in the scraper mounting portion on the axis body.

2. the rotating cathode structure according to claim 1 for fouling, it is characterised in that：The cathode plate cross section is It is round.

3. the rotating cathode structure according to claim 1 for fouling, it is characterised in that：In the middle part of the cathode plate Be provided with installation set, the cathode plate via the installation set and fixing sleeve loaded on the axis body, the length of the installation set More than the thickness of the cathode plate.

4. the rotating cathode structure according to claim 1 for fouling, it is characterised in that：The scraper mounting portion is to turn The dynamic axle sleeve being set on the axis body.

5. the rotating cathode structure according to claim 4 for fouling, it is characterised in that：In the axle sleeve and the axis Rolling element is provided between body.

6. the rotating cathode structure according to claim 5 for fouling, it is characterised in that：The rolling element is positioned in On the retainer for constituting suit cooperation with the axis body.

7. the rotating cathode structure according to claim 6 for fouling, it is characterised in that：The rolling element is along described Multiple balls that the axial direction of retainer is arranged in column, and respectively arrange spaced arrangement between the ball.

8. the rotating cathode structure according to any one of claim 1 to 7 for fouling, it is characterised in that：Described the moon Pole plate is made of stainless steel.