CN106310759A - Improved sewage treatment quick carbon separating device - Google Patents

Abstract

The invention relates to the technical field of water treatment. In order to solve the technical problem of the prior art, the invention provides an improved sewage treatment quick carbon separating device which comprises a frame, an annular filter belt, a surge sucking device, a clean water collecting tank and a filter belt cleaning device, wherein the annular filter belt is arranged at the top of the frame; the surge sucking device is arranged at the bottom of an upper belt body of the annular filter belt; the clean water collecting tank is arranged on a web part of the frame; the device is characterized in that a plurality of rollers in the surge sucking device are in the manner of synchronously initiative rotating; a negative pressure water suction tank is arranged at the bottom of the upper belt body of the filter belt; the negative pressure water suction tank is connected with a negative pressure suction device in the improved sewage treatment quick carbon separating device. The present sewage treatment quick carbon separating device is improved, so that the sewage treating efficiency is further increased; the filter belt is more thoroughly cleaned; the suspended solids adhered to the surface of the filter belt can be effectively removed; the filter belt can be prevented from being blocked; the energy consumption is further reduced.

Description

A kind of sewage disposal quick carbon segregation apparatus of improvement

Technical field

The present invention relates to water-treatment technology field, specifically refer to a kind of sewage disposal quick carbon segregation apparatus.

Background technology

The applicant has applied for Chinese patent on January 29th, 2016, application number: 201610059680.3, a kind of sewage Processing quick carbon segregation apparatus, this device includes water purification collecting box, filtering band cleaning unit and the filter of frame, strainer, frame abdominal part Surge aspirator below band.This device is utilized quickly the float in sewage to be separated, but in application process Middle discovery, this device still suffers from certain technical problem, and problem is concentrated mainly on the following aspects: one, the wave below strainer Gush aspirator inefficient, disclosure satisfy that application when the little water yield processes, when the inflow of sewage increases, the filtration of strainer Efficiency substantially can not meet needs, and large amount of sewage is up and be brought to the top of upper strata belt body with strainer, causes sewage overflows； Two, filtering band cleaning unit uses the mode of water purification shower and gas shower pipe to be rinsed, and power consumption is serious, and for some Thick float is difficult to remove it from strainer；Although three add water-locator in existing device, but when sewage stream When amount increases, sewage pressure is relatively big, causes sewage to be directly injected to the front end of water-locator, causes sewage to be mended and lean at upper strata belt body Position, top, sewage can not get effectively processing i.e. being pulled away.

Summary of the invention

For solving the most many present in prior art or all of technical problem, the present invention is existing Improve on the basis of sewage carbon segregation apparatus, and then the sewage disposal quick carbon segregation apparatus of a kind of improvement is provided.

For realizing above-mentioned technical purpose, the technical solution used in the present invention is: the quick carbon of sewage disposal of a kind of improvement divides From device, it includes the surge suction dress bottom frame, the ring-type strainer being arranged on frame top, ring-type strainer upper strata belt body Put, the water purification collecting box of frame abdominal part, filtering band cleaning unit, it is characterised in that: described surge aspirator includes being arranged on Some roll bodies free to rotate bottom the belt body of upper strata, form tangent contact, described roller between upper strata belt body and roll body Body two ends are by bearings on the wallboard of frame both sides, and one end of roll body is stretched out wallboard and is provided with driving on this external part Wheel, is provided with roll body at frame sidepiece and drives motor, and the driving wheel of some roll bodies is driven motor to carry out by Timing Belt by roll body Drive；Described surge aspirator also includes the negative pressure pick trough being arranged on bottom the belt body of upper strata, described negative pressure pick trough At least one, described negative pressure pick trough includes cell body, and cell body is provided with end cap, groove across strainer width, cell body two ends Body top is provided with top board, is provided with the water sucking mouth arranged along upper strata belt body width, described top board and epipelagic zone on top board The bottom surface laminating of body, is provided with discharge outlet on the end cap of cell body wherein one end, and described discharge outlet is connected with negative suction system.

Further, described filtering band cleaning unit includes vacuum slag absorbing case and water purification shower, described vacuum slag absorbing case Being positioned at strainer revolution, vacuum slag absorbing case includes casing, and casing is arranged along strainer width, and it is three that casing top is provided with cross section The ridge capping of dihedral, fits with strainer surface, and is provided with on this inclined-plane along the setting of strainer width in the inclined-plane of ridge capping side Slag suction mouth, is provided with slag notch on casing, and described slag notch is connected with negative suction system；Described water purification shower is with filter Band direction of travel is positioned at vacuum slag absorbing case rear, and water purification shower is positioned at the top of strainer lower floor belt body.

Described negative suction system includes negative-pressure air fan, cyclone, is connected by pipeline between negative-pressure air fan and cyclone Connecing, the suction inlet of cyclone is provided with Material pipeline, going out in discharge outlet in described negative pressure pick trough and vacuum slag absorbing case Cinder notch is connected with Material pipeline, and the bottom of cyclone is provided with discharge gate.

Further, being provided with water-locator on the surface of upper strata strainer, water-locator is suspended in frame, the sidewall of water-locator with Fitting in strainer surface, also includes that baffle-box, described baffle-box are fixed in frame, be provided with spilling in baffle-box top side wall Pipe, discharger is connected with the water inlet of water-locator, and baffle-box is provided with sewage input port.

Further, the top board of described negative pressure pick trough uses ceramic material.

Further, described vacuum slag absorbing groove uses ceramic material system with the inclined-plane of the ridge capping side of strainer surface laminating Make.

The invention have the benefit that the improvement by carbon segregation apparatus quick to existing sewage disposal, improve further The treatment effeciency of sewage, strainer cleans more thorough, it is possible to effectively removes the float of strainer surface adhesion, prevents the strainer from sending out Raw blocking, reduce further energy consumption.

Accompanying drawing explanation

Accompanying drawing 1 is the front view of this device.

Accompanying drawing 2 is the rearview of this device.

Accompanying drawing 3 is the front view of negative pressure pick trough.

Accompanying drawing 4 is the right view of negative pressure pick trough.

Accompanying drawing 5 is the front view of vacuum slag absorbing groove.

Accompanying drawing 6 is the right view of vacuum slag absorbing groove.

Accompanying drawing 7 is the structural representation of negative suction system.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment carbon quick to sewage disposal provided by the present invention segregation apparatus does furtherly Bright.

About the basic structure of this sewage disposal quick carbon segregation apparatus in the earlier application of the applicant, application number: It is discussed in detail in 201610059680.3, the present embodiment does not specifically describes, introduce only for the part improved.

As shown in accompanying drawing 1 and accompanying drawing 2, the quick carbon segregation apparatus that the present embodiment is provided includes frame 1, is arranged on frame On the ring-type strainer (not shown in accompanying drawing, concrete installation site and structure are consistent with earlier application) at top, ring-type strainer Layer belt body bottom surge aspirator, the water purification collecting box of frame abdominal part (not shown in accompanying drawing, be shown in first Shen by concrete structure Please), filtering band cleaning unit.

As shown in accompanying drawing 1 and accompanying drawing 2, surge aspirator includes that being arranged on some bottom the belt body of upper strata can freely turn Dynamic roll body 2, forms tangent contact between upper strata belt body and roll body, described roll body 2 two ends are supported on frame two by bearing 3 On the wallboard of side, one end of roll body is stretched out wallboard and is provided with driving wheel 4 on this external part, is provided with roll body at frame sidepiece and drives Motor 5, the driving wheel of some roll bodies is driven motor 5 to be driven by Timing Belt 6 by roll body.

Comparing with existing carbon segregation apparatus, the device that the present embodiment is provided dispenses the scraper plate below original strainer, Having introduction in the description of earlier application, although scraper plate also can produce surge effect, but effect is not notable, and it is mainly made With being the moisture film wiping strainer lower surface off, but in running, the moisture film of strainer lower surface does not highlight, and moisture film is concentrated mainly on Strainer surface, increases scraper plate and had both improve cost, also take up space simultaneously and cause the minimizing of roll body quantity, the minimizing of roll body quantity Cause surge effect to reduce, therefore remove scraper plate and improve surge effect on the contrary.

Simultaneously in earlier application, roll body uses the passive mode rolled, and it is rolled and drives when mainly being walked about by strainer, Surge suction effect is relatively low, in the present embodiment, the rolling of roll body changes the mode actively rolled into, increases roll body and drive motor 5, each roll body synchronous axial system, by adding the effect of surge suction with the tangential motion of strainer during roll body active rotation, can Cause the disturbance of strainer surface sewage, simultaneously in strainer negative pressure formed below, improve the filter efficiency of strainer.

As shown in accompanying drawing 1 and accompanying drawing 2, for improving the filter efficiency of strainer further, increase the negative pressure below strainer, upper Bottom layer belt body, negative pressure pick trough 7 is set.

Shown in the structure of negative pressure pick trough 7 as accompanying drawing 3 and accompanying drawing 4, negative pressure pick trough 7 includes that cell body 8, cell body 8 two ends set There are end cap 9, cell body top to be provided with top board 10, top board are provided with the water sucking mouth 11 arranged along upper strata belt body width, at groove The end cap of body wherein one end is provided with discharge outlet 12, the two ends of cell body 8 be provided with ring flange 13 in case with the wallboard of frame side Connect fixing, the through ring flange of discharge outlet 12 13.

As shown in accompanying drawing 1 and accompanying drawing 2, during installation, top board 10 is adjacent to the bottom surface of strainer upper strata belt body, negative pressure pick trough 7 Setting at least to one, be set to two in the present embodiment, the cell body of negative pressure pick trough 7 is across strainer width, when setting When received shipment turns, producing negative pressure in negative pressure pick trough 7, the water of epipelagic zone surface is quickly drawn into the internal warp of negative pressure pick trough 7 Discharge outlet 12 is discharged.

When installing, the position of negative pressure pick trough 7 should be close proximity to the top of the upper strata belt body tilted, owing to negative pressure is inhaled simultaneously Tank 7 is internally generated negative pressure, and while the water on strainer surface is sucked into cell body inside, the float in sewage is adsorbed to simultaneously The surface of strainer, if the installation site of negative pressure pick trough is too low, installation site is the nearest with the position of water inlet end in other words, suspends Thing is adsorbed onto strainer surface and easily causes the blocking of mesh, thus causes the decline of strainer filter efficiency.And be arranged close to incline The top of oblique upper strata belt body, one is after the water on strainer surface is carried out negative pressure-pumping, even if float is adsorbed onto band body surface Face, but strainer quickly turns round, and can quickly remove the float of blocking mesh by cleaning device；On the other hand, if When the surge suction produced when roll body rotates causes the filter efficiency of strainer to be insufficient for requiring, sewage moves upward with belt body To belt body top, upper strata, the sewage that can quickly be will be close to epipelagic zone surface by negative pressure pick trough is filtered by suction, and prevents Sewage arrives belt body top, upper strata and overflows.

Negative pressure in negative pressure pick trough is produced by the negative suction system installed on the apparatus.The knot of negative suction system Shown in structure as accompanying drawing 7, it includes negative-pressure air fan 14, cyclone 15, is connected by pipeline 16 between negative-pressure air fan 14 and cyclone 15 Connecing, the suction inlet of cyclone is provided with Material pipeline 17.

During enforcement, Material pipeline 17 is connected with the discharge outlet 12 of negative pressure pick trough, and negative-pressure air fan starts, and absorbs water in negative pressure Generating negative pressure in the cell body of groove, it is internal that the water purification being filtrated to get is inhaled into cyclone 15, and centrifugal through cyclone 15 is carried out Slag-liquid separation, is then discharged by the outlet of cyclone 15.Although what negative pressure pick trough discharge outlet 12 was discharged is water purification, the most not With slurry, but this negative suction system also can be connected with the vacuum slag absorbing case of follow-up introduction, and vacuum slag absorbing case can discharge slag liquid Mixture, therefore installs cyclone additional and separates.After additionally installing cyclone additional, water purification or the dreg slurry of cleaning filtered can be prevented Entering negative-pressure air fan causes blower fan to damage.

As shown in Figure 1, filtering band cleaning unit be have also been made and changes further by the quick carbon segregation apparatus that the present embodiment provides Enter.The position of the water purification shower in earlier application is adjusted, removes gas injection tube, add vacuum slag absorbing case 18.

Shown in the structure as accompanying drawing 5 of vacuum slag absorbing case 18 and accompanying drawing 6, it include casing 19, casing top be provided with cross section in The ridge capping 20 of triangle, shown in accompanying drawing 1, casing 19 is arranged along strainer width, the inclined-plane of ridge capping 20 side and strainer Fitting in surface, and is provided with the slag suction mouth 21 arranged along strainer width on this inclined-plane, is provided with slag notch 22 on casing.

Shown in appended Fig. 1, in the present embodiment, after water purification shower 23 is positioned at vacuum slag absorbing case 18 with strainer direction of travel Side, water purification shower 23 is positioned at the top of strainer lower floor belt body.

When above-mentioned cleaning device uses, the slag notch 22 of vacuum slag absorbing case 18 and the Material pipeline 17 of negative suction system Connect, strainer upper strata belt body sewage is filtered after formed soiled surface through reversion after with on the ridge capping 20 of vacuum slag absorbing case 18 With the contact of incline plane of slag suction mouth 21, the ridge point 24 of ridge capping 20 forms scraper simultaneously, utilizes the ridge point 24 of ridge capping 20 to strainer Soiled surface is cleaned striking off, and the float that strainer adheres to is struck off, and the dirt struck off falls in the slag chute of lower section, residual on strainer Remaining slurry is in slag suction mouth 21 is drawn into vacuum slag absorbing case.After the plot of vacuum slag absorbing case 18 processes, strainer surface The float adhered to can be substantially cleaned, though have a little remaining also can be by after follow-up water purification shower 23 spray Depart from rapidly on strainer, thus ensure that the cleaning of strainer is clean, filtering holes unimpeded, it is ensured that strainer inverts at sewage input After can effectively filter.

The mode using vacuum slag absorbing case carries out the cleaning of strainer, it is possible to solve all kinds of float adhered on strainer, by Different in the composition of sewage, some sewage carries sticking float containing some, such float uses in first Shen Cleaning device in please is difficult to be cleaned up, and needs the current of elevated pressures and air-flow to be carried out, by this it is meant that The increase of energy consumption.Changing vacuum slag absorbing case into clean, it cleans and uses the mode of Mechanical Contact to carry out, and only need to provide relatively low negative pressure Remaining slag liquid can be carried out absorption process, not only reduce energy consumption, also can optimize cleaning performance simultaneously.

As shown in accompanying drawing 1 and accompanying drawing 2, in the present embodiment, it is arranged over water-locator 25 at strainer upper strata belt body equally, The structure of water-locator 25 has been described in earlier application, and water-locator 25 is suspended in frame 1 by cylinder 26, water-locator 25 Bottom is shown consideration for strainer epipelagic zone and is closed.If sewage enters directly in water-locator 25, owing to the sewage of suction is with bigger Pressure, this pressure can cause sewage to be directly injected to the front of water-locator 25, the position that i.e. strainer upper strata belt body is higher, cause dirt Water is too short in the holdup time of upper strata belt body, and large amount of sewage is the most effectively filtered i.e. top with band running body supreme layer belt body End causes sewage overflows.To this end, in the present embodiment, as shown in accompanying drawing 1 and accompanying drawing 2, adding baffle-box 26, baffle-box 26 is solid Being scheduled in frame 1, be provided with discharger 27 in baffle-box top side wall, discharger 27 is connected with the water inlet of water-locator 25, buffering Case is provided with sewage input port 28.After above-mentioned setting, first pass through sewage input port 28 with the sewage of pressure and enter into slow Rush in case, overflowed in water-locator by discharger 27 after the water level in baffle-box 26 reaches the height of discharger 27, by This reduces the sewage surge to water-locator, it is possible to make the sewage in water-locator fall equably at the table of strainer upper strata belt body Face, adds the sewage holdup time on the belt body of upper strata, it is ensured that sewage is effectively filtered during running with strainer.

The inclined-plane of the ridge capping side contacted with strainer due to top board and the vacuum slag absorbing groove of negative pressure pick trough had both required and had filtered With preferably contact, reduce its friction simultaneously again, after preventing from rubbing for a long time, cause pick trough top board and vacuum slag absorbing groove oblique The abrasion in face, therefore the inclined-plane of the ridge capping side that the top board of negative pressure pick trough and vacuum slag absorbing groove are fitted with strainer surface is preferably adopted Use ceramic material.Ceramic material i.e. has relatively smooth surface, and it has the highest wearability simultaneously, can improve certainly In the service life of body, filter screen is also formed preferably protection simultaneously.

Claims (6)

1. the sewage disposal quick carbon segregation apparatus improved, it includes frame, is arranged on the ring-type strainer of frame top, ring Surge aspirator bottom the belt body of shape strainer upper strata, the water purification collecting box of frame abdominal part, filtering band cleaning unit, its feature exists In: described surge aspirator includes the some roll bodies free to rotate being arranged on bottom the belt body of upper strata, upper strata belt body With form tangent contact between roll body, described roll body two ends by bearings on the wallboard of frame both sides, the one of roll body End stretches out wallboard and is provided with driving wheel on this external part, is provided with roll body at frame sidepiece and drives motor, driving of some roll bodies Driving wheel is driven motor to be driven by Timing Belt by roll body；Described surge aspirator also includes being arranged at the bottom of the belt body of upper strata The negative pressure pick trough in portion, described negative pressure pick trough is at least one, and described negative pressure pick trough includes cell body, and cell body is across filter Bandwidth direction, cell body two ends are provided with end cap, and cell body top is provided with top board, be provided with and set along upper strata belt body width on top board The water sucking mouth put, described top board and the bottom surface laminating of upper strata belt body, be provided with discharge outlet, institute on the end cap of cell body wherein one end The discharge outlet stated is connected with negative suction system.

The sewage disposal quick carbon segregation apparatus of a kind of improvement the most according to claim 1, it is characterised in that: described strainer Cleaning device and include vacuum slag absorbing case and water purification shower, described vacuum slag absorbing case is positioned at strainer revolution, vacuum slag absorbing case Including casing, casing is arranged along strainer width, and casing top is provided with the ridge capping that cross section is triangular in shape, the inclined-plane of ridge capping side Fit with strainer surface, and on this inclined-plane, be provided with the slag suction mouth arranged along strainer width, casing is provided with slag notch, Described slag notch is connected with negative suction system；After described water purification shower is positioned at vacuum slag absorbing case with strainer direction of travel Side, water purification shower is positioned at the top of strainer lower floor belt body.

The sewage disposal quick carbon segregation apparatus of a kind of improvement the most according to claim 1 and 2, it is characterised in that: described Negative suction system include negative-pressure air fan, cyclone, be connected by pipeline between negative-pressure air fan with cyclone, the suction of cyclone Entrance is provided with Material pipeline, and the discharge outlet in described negative pressure pick trough and the slag notch on vacuum slag absorbing case carry with material Pipe connects, and the bottom of cyclone is provided with discharge gate.

The sewage disposal quick carbon segregation apparatus of a kind of improvement the most according to claim 1, it is characterised in that: in upper metafiltration The surface of band is provided with water-locator, and water-locator is suspended in frame, and the sidewall of water-locator is fitted with strainer surface, also includes buffering Case, described baffle-box is fixed in frame, is provided with the water inlet of discharger, discharger and water-locator in baffle-box top side wall Connecting, baffle-box is provided with sewage input port.

The sewage disposal quick carbon segregation apparatus of a kind of improvement the most according to claim 1, it is characterised in that: described negative pressure The top board of pick trough uses ceramic material.

The sewage disposal quick carbon segregation apparatus of a kind of improvement the most according to claim 2, it is characterised in that: described vacuum Slag absorbing groove uses ceramic material with the inclined-plane of the ridge capping side of strainer surface laminating.