A kind of sewage disposal oil separator surface and oil contaminant cleaning plant
Technical field
It is clear with oil separator surface and oil contaminant the utility model is related to a kind of cleaning oil pollution device more particularly to a kind of sewage disposal
Manage device.
Background technology
Sewage disposal is to make the mistake that sewage reaches a certain water body of draining or the water quality requirement that reuses purifies it
Journey.It is each that sewage disposal is widely used in building, agricultural, traffic, the energy, petrochemical industry, environmental protection, urban landscape, medical treatment, food and drink etc.
The daily life of common people is also come into field more and more.
Oil separator is different with the proportion of water using suspended matter in waste water and reaches separated purpose.The construction of oil separator is adopted more
With flat flow, oily waste water enters the oil separator that plane is rectangle by water distributing trough, in the horizontal direction slowly flowing, in flowing
Floatation surface on oil product is pushed in oil collecting pipe by oil collecting pipe or the Oil scraper for being arranged on pond face and is flowed into drain sump.In oil separator
The heavy oil and other impurities to precipitate, accumulates in pool bottom sludge bucket, is entered by sludge pipe in sludge pipe.At oil removal
Then overflow enters outside drainage ditch discharge pond the waste water of reason, subsequent processing is carried out, to remove oil emulsion and other pollutants.
After sewage flows into oil separator, sewage greasy dirt swims in water surface, it is necessary to clear up surface and oil contaminant, logical at present
It is often to be extracted greasy dirt by water pump, easy decimated more water when water pump extracts, inflow drain sump takes off in oil collecting pipe is sent to
During water, dehydration efficiency is reduced, therefore excessive water will not be extracted when extracting greasy dirt there is an urgent need for research and development one kind, drain sump is made to exist
The sewage disposal oil separator surface and oil contaminant cleaning plant of work efficiency is improved during dehydration.
Utility model content
(1)Technical problems to be solved
The utility model is typically to be extracted greasy dirt by water pump at present to overcome, easily decimated more when water pump extracts
Water, in being sent to oil collecting pipe flow into drain sump dehydration when, reduce dehydration efficiency the shortcomings that, technology to be solved in the utility model
Problem is to provide one kind when extracting greasy dirt, will not extract excessive water, and drain sump is made to improve work efficiency in dehydration
Sewage disposal oil separator surface and oil contaminant cleaning plant.
(2)Technical solution
In order to solve the above-mentioned technical problem, the utility model provides such a sewage disposal oil separator surface and oil contaminant
Cleaning plant includes stent, mobile device, mounting bracket and collection device, and cradle top by-level is equipped with mobile device,
Mounting bracket is connected on the moving parts of mobile device, collection device is installed below mounting bracket.
Preferably, mobile device includes slide, sliding block, motor, screw, first bearing seat and nut, and slide is mounted on
The crown center of stent, slide are equipped with sliding block, and slider bottom is connected with nut, and stent left side top is equipped with motor, stent
Right hand top is equipped with first bearing seat, and first bearing seat and motor are respectively positioned on the underface of slide, connect on the output shaft of motor
Screw is connected to, the right end of screw has first bearing seat to be connected by way of key connection, and screw is equipped with nut, nut top
It is connected with slider bottom, nut bottom is connected with mounting bracket crown center.
Preferably, collection device includes second bearing seat, discharge nozzle, gear, rack, feeding pipeline and material taking hopper, peace
The front and rear sides for the bottom shelved are mounted on second bearing seat, and discharge nozzle is equipped between two second bearing seats, discharge nozzle
Rear end is connected with the second bearing seat of rear side, and the front end of discharge nozzle is connected with the second bearing seat of front side, after discharge nozzle
It holds to close, front end is that opening is set, and gear is mounted on the outside of discharge nozzle rear and front end, rack, tooth are equipped with below gear
For item in being horizontally disposed with, the left and right ends of rack are connected to the left and right sides of stent, wheel and rack engagement, former and later two teeth
Feeding pipeline is connected on discharge nozzle between wheel, the tail end of feeding pipeline is connected with material taking hopper, and material taking hopper passes through with discharge nozzle
Feeding pipeline is connected.
Preferably, two feeding pipelines are connected on discharge nozzle, and material taking hopper is respectively connected on two feeding pipelines, two
Feeding pipeline is symmetrical arranged.
Preferably, switching mechanism has been further included, the junction of feeding pipeline and discharge nozzle is equipped with switching mechanism, switching mechanism
Include sideboard, block and gasket, sideboard is hingedly connected to the inner wall of discharge nozzle, and sideboard one side is equipped with gear
Block, block are fixed on discharge nozzle madial wall, gasket are connected on sideboard.
Preferably, the shape of sideboard is arc.
Operation principle:The utility model is mounted at the top of oil separator, stent is locked at the top of oil separator by bolt,
Start mobile device and collection device simultaneously, mobile device drives collection device to move left and right and the greasy dirt of water surface is received
Collection improves the efficiency of collection.
Because mobile device includes slide, sliding block, motor, screw, first bearing seat and nut, slide is mounted on stent
Crown center, slide is equipped with sliding block, and slider bottom is connected with nut, and stent left side top is equipped with motor, on the right side of stent
Top is equipped with first bearing seat, and first bearing seat and motor are respectively positioned on the underface of slide, are connected on the output shaft of motor
Screw, the right end of screw have first bearing seat to be connected by way of key connection, and screw is equipped with nut, nut top and cunning
Block bottom is connected, and nut bottom is connected with mounting bracket crown center.Start motor rotate clockwise, screw drive nut to
It moves left, sliding block is moved to the left on slide, and mounting bracket and collection device are moved to the left therewith.Similarly starter motor turns counterclockwise
Dynamic, collection device moves right therewith.Startup motor rotates clockwise and anticlockwise repeatedly can make collection device left-right movable type
Greasy dirt is collected.
Because collection device includes second bearing seat, discharge nozzle, gear, rack, feeding pipeline and material taking hopper, mounting bracket
The front and rear sides of bottom be mounted on second bearing seat, discharge nozzle, the rear end of discharge nozzle are equipped between two second bearing seats
It is connected with the second bearing seat of rear side, the front end of discharge nozzle is connected with the second bearing seat of front side, and the rear end of discharge nozzle is
Closing, front end are set for opening, and gear is mounted on the outside of discharge nozzle rear and front end, is equipped with rack below gear, rack is in
Horizontally disposed, the left and right ends of rack are connected to the left and right sides of stent, wheel and rack engagement, former and later two gears it
Between discharge nozzle on be connected with feeding pipeline, the tail end of feeding pipeline is connected with material taking hopper, and material taking hopper passes through feeding with discharge nozzle
Pipeline is connected.When initial, material taking hopper stretches into the water surface, and when mobile device starts, mounting bracket moves, and gear also moves therewith
Dynamic, because wheel and rack engages, gear gear when being moved on rack rotates, and discharge nozzle is driven to rotate, and then drives feeding pipe
Road and material taking hopper rotation are collected water surface greasy dirt, are flowed by feeding pipeline in discharge nozzle, and pass through discharge nozzle
One end outflow of opening.
Because being connected with two feeding pipelines on discharge nozzle, and material taking hopper is respectively connected on two feeding pipelines, two take
Pipe material is symmetrical arranged.When discharge nozzle rotates, two and material taking hopper alternately the greasy dirt of water surface is collected, improve work
Make efficiency.
Because having further included switching mechanism, the junction of feeding pipeline and discharge nozzle is equipped with switching mechanism, switching mechanism bag
Sideboard, block and gasket are included, sideboard is hingedly connected to the inner wall of discharge nozzle, and sideboard one side is equipped with gear
Block, block are fixed on discharge nozzle madial wall, gasket are connected on sideboard.One of material taking hopper turns to after taking full material
During handstand state, sideboard thereon is opened downwards under the action of self gravitation.Corresponding sideboard then with discharge nozzle
It fits closely, the oil in discharge nozzle will not be flowed out from feeding pipeline, and gasket can improve close between sideboard and discharge nozzle
Feng Xing.
(3)Advantageous effect
The utility model has reached when extracting greasy dirt, will not extract excessive water, and drain sump is made to be improved in dehydration
The effect of work efficiency.
Description of the drawings
Fig. 1 is the main structure diagram of the utility model.
Fig. 2 is the right side structural representation of the utility model collection device.
Fig. 3 is the main structure diagram of the utility model switching mechanism.
Mark in attached drawing for:1- oil separators, 2- stents, 3- mobile devices, 31- slides, 32- sliding blocks, 33- motors, 34-
Screw, 35- first bearing seats, 36- nuts, 4- mounting brackets, 5- collection devices, 51- second bearing seats, 52- discharge nozzles, 53- teeth
Wheel, 54- racks, 56- feeding pipelines, 57- material taking hoppers, 6- switching mechanisms, 61- sideboards, 62- blocks, 63- gaskets.
Specific embodiment
The utility model is further described with reference to the accompanying drawings and examples.
Embodiment 1
A kind of sewage disposal oil separator surface and oil contaminant cleaning plant, as shown in Figs. 1-3, includes stent 2, mobile device
3rd, mounting bracket 4 and collection device 5,2 crown center of stent are horizontally installed with mobile device 3, connect on the moving parts of mobile device 3
Mounting bracket 4 is connected to, 4 lower section of mounting bracket is equipped with collection device 5.
Embodiment 2
A kind of sewage disposal oil separator surface and oil contaminant cleaning plant, as shown in Figs. 1-3, includes stent 2, mobile device
3rd, mounting bracket 4 and collection device 5,2 crown center of stent are horizontally installed with mobile device 3, connect on the moving parts of mobile device 3
Mounting bracket 4 is connected to, 4 lower section of mounting bracket is equipped with collection device 5.
Mobile device 3 includes slide 31, sliding block 32, motor 33, screw 34, first bearing seat 35 and nut 36, slide
31 are mounted on the crown center of stent 2, and slide 31 is equipped with sliding block 32, and 32 bottom of sliding block is connected with nut 36,2 left side top of stent
Portion is equipped with motor 33, and 2 right hand top of stent is equipped with first bearing seat 35, and first bearing seat 35 and motor 33 are respectively positioned on slide
31 underface is connected with screw 34 on the output shaft of motor 33, and the right end of screw 34 has first axle by way of key connection
Bearing 35 is connected, and screw 34 is equipped with nut 36, and 36 top of nut is connected with 32 bottom of sliding block, 36 bottom of nut and installation
4 crown center of frame is connected.
Embodiment 3
A kind of sewage disposal oil separator surface and oil contaminant cleaning plant, as shown in Figs. 1-3, includes stent 2, mobile device
3rd, mounting bracket 4 and collection device 5,2 crown center of stent are horizontally installed with mobile device 3, connect on the moving parts of mobile device 3
Mounting bracket 4 is connected to, 4 lower section of mounting bracket is equipped with collection device 5.
Mobile device 3 includes slide 31, sliding block 32, motor 33, screw 34, first bearing seat 35 and nut 36, slide
31 are mounted on the crown center of stent 2, and slide 31 is equipped with sliding block 32, and 32 bottom of sliding block is connected with nut 36,2 left side top of stent
Portion is equipped with motor 33, and 2 right hand top of stent is equipped with first bearing seat 35, and first bearing seat 35 and motor 33 are respectively positioned on slide
31 underface is connected with screw 34 on the output shaft of motor 33, and the right end of screw 34 has first axle by way of key connection
Bearing 35 is connected, and screw 34 is equipped with nut 36, and 36 top of nut is connected with 32 bottom of sliding block, 36 bottom of nut and installation
4 crown center of frame is connected.
Collection device 5 includes second bearing seat 51, discharge nozzle 52, gear 53, rack 54, feeding pipeline 56 and material taking hopper
57, the front and rear sides of the bottom of mounting bracket 4 are mounted on second bearing seat 51, and discharge nozzle is equipped between two second bearing seats 51
52, the rear end of discharge nozzle 52 is connected with the second bearing seat 51 of rear side, the front end of discharge nozzle 52 and the second bearing seat of front side
51 are connected, and the rear end of discharge nozzle 52 is closing, and front end is set for opening, is respectively mounted on the outside of 52 rear and front end of discharge nozzle with teeth
Wheel 53,53 lower section of gear are equipped with rack 54, and for rack 54 in being horizontally disposed with, the left and right ends of rack 54 are connected to stent 2
The left and right sides, gear 53 are engaged with rack 54, are connected with feeding pipeline 56 on the discharge nozzle 52 between former and later two gears 53, are taken
The tail end of pipe material 56 is connected with material taking hopper 57, and material taking hopper 57 is connected with discharge nozzle 52 by feeding pipeline 56.
Embodiment 4
A kind of sewage disposal oil separator surface and oil contaminant cleaning plant, as shown in Figs. 1-3, includes stent 2, mobile device
3rd, mounting bracket 4 and collection device 5,2 crown center of stent are horizontally installed with mobile device 3, connect on the moving parts of mobile device 3
Mounting bracket 4 is connected to, 4 lower section of mounting bracket is equipped with collection device 5.
Mobile device 3 includes slide 31, sliding block 32, motor 33, screw 34, first bearing seat 35 and nut 36, slide
31 are mounted on the crown center of stent 2, and slide 31 is equipped with sliding block 32, and 32 bottom of sliding block is connected with nut 36,2 left side top of stent
Portion is equipped with motor 33, and 2 right hand top of stent is equipped with first bearing seat 35, and first bearing seat 35 and motor 33 are respectively positioned on slide
31 underface is connected with screw 34 on the output shaft of motor 33, and the right end of screw 34 has first axle by way of key connection
Bearing 35 is connected, and screw 34 is equipped with nut 36, and 36 top of nut is connected with 32 bottom of sliding block, 36 bottom of nut and installation
4 crown center of frame is connected.
Collection device 5 includes second bearing seat 51, discharge nozzle 52, gear 53, rack 54, feeding pipeline 56 and material taking hopper
57, the front and rear sides of the bottom of mounting bracket 4 are mounted on second bearing seat 51, and discharge nozzle is equipped between two second bearing seats 51
52, the rear end of discharge nozzle 52 is connected with the second bearing seat 51 of rear side, the front end of discharge nozzle 52 and the second bearing seat of front side
51 are connected, and the rear end of discharge nozzle 52 is closing, and front end is set for opening, is respectively mounted on the outside of 52 rear and front end of discharge nozzle with teeth
Wheel 53,53 lower section of gear are equipped with rack 54, and for rack 54 in being horizontally disposed with, the left and right ends of rack 54 are connected to stent 2
The left and right sides, gear 53 are engaged with rack 54, are connected with feeding pipeline 56 on the discharge nozzle 52 between former and later two gears 53, are taken
The tail end of pipe material 56 is connected with material taking hopper 57, and material taking hopper 57 is connected with discharge nozzle 52 by feeding pipeline 56.
Two feeding pipelines 56 are connected on discharge nozzle 52, and material taking hopper 57 is respectively connected on two feeding pipelines 56, two
Root feeding pipeline 56 is symmetrical arranged.
Switching mechanism 6 is further included, feeding pipeline 56 and the junction of discharge nozzle 52 are equipped with switching mechanism 6, switching mechanism 6
Include sideboard 61, block 62 and gasket 63, sideboard 61 is hingedly connected to the inner wall of discharge nozzle 52, sideboard
61 one sides are equipped with block 62, and block 62 is fixed on 52 madial wall of discharge nozzle, gasket 63 is connected on sideboard 61.
The shape of sideboard 61 is arc.
Operation principle:The utility model is mounted on 1 top of oil separator, stent 2 is locked at by oil separator 1 by bolt and is pushed up
Portion, while start mobile device 3 and collection device 5, mobile device 3 drives collection device 5 to move left and right the oil to water surface
Dirt is collected, and improves the efficiency of collection.
Because mobile device 3 includes slide 31, sliding block 32, motor 33, screw 34, first bearing seat 35 and nut 36,
Slide 31 is mounted on the crown center of stent 2, and slide 31 is equipped with sliding block 32, and 32 bottom of sliding block is connected with nut 36, and stent 2 is left
Side roof part is equipped with motor 33, and 2 right hand top of stent is equipped with first bearing seat 35, and first bearing seat 35 and motor 33 are respectively positioned on
The underface of slide 31 is connected with screw 34 on the output shaft of motor 33, and the right end of screw 34 has by way of key connection
One bearing block 35 is connected, and screw 34 is equipped with nut 36, and the top of nut 36 is connected with 32 bottom of sliding block, 36 bottom of nut and
4 crown center of mounting bracket is connected.Start motor 33 to rotate clockwise, screw 34 drives nut 36 to be moved to the left, and sliding block 32 exists
It is moved to the left on slide 31, mounting bracket 4 and collection device 5 are moved to the left therewith.Similarly starter motor rotates counterclockwise, collection device
5 move right therewith.Repeatedly start motor 33 rotate clockwise and anticlockwise can make 5 left-right movable type of collection device to greasy dirt into
Row is collected.
Because collection device 5 includes second bearing seat 51, discharge nozzle 52, gear 53, rack 54, feeding pipeline 56 and takes
Hopper 57, the front and rear sides of the bottom of mounting bracket 4 are mounted on second bearing seat 51, are equipped with out between two second bearing seats 51
Expects pipe 52, the rear end of discharge nozzle 52 are connected with the second bearing seat 51 of rear side, the front end of discharge nozzle 52 and the second axis of front side
Bearing 51 is connected, and the rear end of discharge nozzle 52 is closing, and front end is set for opening, and discharge nozzle is respectively mounted on the outside of 52 rear and front end
There is gear 53,53 lower section of gear is equipped with rack 54, and for rack 54 in being horizontally disposed with, the left and right ends of rack 54 are connected to stent
2 left and right sides, gear 53 are engaged with rack 54, and feeding pipeline is connected on the discharge nozzle 52 between former and later two gears 53
56, the tail end of feeding pipeline 56 is connected with material taking hopper 57, and material taking hopper 57 is connected with discharge nozzle 52 by feeding pipeline 56.Initially
When, material taking hopper 57 stretches into the water surface, and when mobile device 3 starts, mounting bracket 4 moves, and gear 53 also moves, because of gear 53
It is engaged with rack 54, the gear 53 when being moved on rack 54 of gear 53 rotates, and discharge nozzle 52 is driven to rotate, and then drives feeding pipe
Road 56 and material taking hopper 57, which rotate, is collected water surface greasy dirt, is flowed into discharge nozzle 52, and passed through by feeding pipeline 56
One end outflow of the opening of discharge nozzle 52.
Because being connected with two feeding pipelines 56 on discharge nozzle 52, and material taking hopper is respectively connected on two feeding pipelines 56
57, two feeding pipelines 56 are symmetrical arranged.When discharge nozzle 52 rotates, two and material taking hopper 57 alternately to the greasy dirt of water surface into
Row is collected, and is improved work efficiency.
Because having further included switching mechanism 6, the junction of feeding pipeline 56 and discharge nozzle 52 is equipped with switching mechanism 6, opening and closing
Mechanism 6 includes sideboard 61, block 62 and gasket 63, and sideboard 61 is hingedly connected to the inner wall of discharge nozzle 52, living
Dynamic 61 one side of baffle is equipped with block 62, and block 62 is fixed on 52 madial wall of discharge nozzle, gasket 63 is connected on sideboard 61.
One of material taking hopper 57 takes when turning to handstand state after full material, sideboard 61 thereon under the action of self gravitation to
Lower unlatching.Corresponding sideboard 61 is then fitted closely with discharge nozzle 52, and the oil in discharge nozzle 52 will not be flowed from feeding pipeline 56
Go out, gasket 63 can improve the leakproofness between sideboard 61 and discharge nozzle 52.
Embodiment described above only expresses the preferred embodiment of the utility model, and description is more specific and detailed,
But it should not be interpreted as limiting the scope of the present invention.It should be pointed out that for the common of this field
For technical staff, without departing from the inventive concept of the premise, several deformations can also be made, improves and substitutes, these are all
Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.