CN204918021U - Mechanism is got rid of to foam oil slick - Google Patents

Abstract

The utility model belongs to surplus type of refuse treatment field of meal, concretely relates to mechanism is got rid of to foam oil slick. This mechanism is including the intake pipe, in -take pump, delivery pipe and the injection pipe that connect gradually, be provided with the water jet on the pipe wall of injection pipe, this mechanism is provided with the oil slick and collects the subassembly keeping away from water jet and one side relative with the water jet, be provided with the frizing subassembly on the oil slick collection subassembly, the oil slick is collected the end row of being provided with of producing oil of subassembly and is floated oil pipe. The utility model provides an effect that this kind of mechanism is got rid of to foam oil slick not only got rid of the foam oil slick is fabulous, moreover simple structure, be convenient for arrange, has realized the best oil slick and got rid of the effect in narrow and small space.

Description

A kind of foam oil slick removal mechanism

Technical field

The utility model belongs to the remaining class field of garbage disposal of meal, is specifically related to a kind of foam oil slick removal mechanism.

Background technology

Family, restaurant, hotel and food factory etc. inevitably produce the rubbish such as a large amount of leftovers, tankage in operation and production process, and the common feature of this type of rubbish is that water ratio is large, oleaginousness is high, recyclable resource content is high, easy putrid and deteriorated and contaminate environment.Due to oil in remaining rubbish of eating, water, solids mixes, therefore when processing the remaining rubbish of meal, often need first to carry out pre-treatment, separate by the profit in rubbish and solids, but herein in reason process, the surface of oil-water mixture can produce a large amount of foams and oil slick, this kind of foam and oil slick be difficult to follow oil-water mixture enter down together with treatment process, usually the mode of scraper plate can only be adopted in prior art this class A foam A and oil slick to be struck off, but because pre-treatment space is comparatively narrow, adopt scraper plate mode not only complex structure, and installation difficulty is large, easy generation fault, therefore urgently improve.

Utility model content

For solving above-mentioned the deficiencies in the prior art, the utility model provides a kind of foam oil slick removal mechanism, and mechanism not only defoams better with the effect of oil slick, and structure is simple, and working stability is reliable.

For achieving the above object, the utility model have employed following technical scheme:

A kind of foam oil slick removal mechanism, mechanism comprises the intake pipe, water pump, water-supply pipe and the spray tube that connect successively, the tube wall of described spray tube is provided with water jet, mechanism is away from water jet and the side relative with water jet is provided with floating oil collecting assembly, described floating oil collecting assembly is provided with frizing assembly, and the oil outlet end of described floating oil collecting assembly is provided with row's oil slick pipe.

Preferably, described floating oil collecting assembly comprises floating oil collecting groove, floating oil collecting groove is provided with frizing motor, and be provided with in floating oil collecting groove motor-driven by frizing, with the conveying belt of oil scraping plate, described conveying belt is along the flute length direction cycle rotation of floating oil collecting groove, and frizing motor and the conveying belt with oil scraping plate form frizing assembly jointly; Described row's oil slick pipe is arranged on the oil outlet end of floating oil collecting groove.

Preferably, one end of described spray tube extends to the end of floating oil collecting groove and is formed and auxiliaryly push away oil injection section, described auxiliary pushing away in oil injection section is also provided with water jet, and the auxiliary water jet pushed away in oil injection section is arranged towards the row's oil slick pipe being in floating oil collecting groove opposite side.

Preferably, described water-supply pipe, spray tube and floating oil collecting groove are all arranged in casing, and the bottom of casing is provided with mud-removing bucket, and the lowest part of mud-removing bucket is provided with blow-off line, are also provided with from top to bottom through the oil-discharge pipe road of mud-removing bucket in casing; The absolute altitude of described water jet is mutually concordant with the pipe import absolute altitude in oil-discharge pipe road, and described water-supply pipe is provided with uplift sector, and the water-supply pipe absolute altitude at uplift sector place is higher than the pipe import absolute altitude in oil-discharge pipe road.

Preferably, described spray tube lays along the inwall of casing.

Major advantage of the present utility model is as follows:

1) the scratch type oil removing mechanism that the foam oil slick removal mechanism, in the utility model is different from the past, described foam oil slick removal mechanism obtains comparatively clean water by intake pipe, then be delivered in spray tube by water-supply pipe after being pressurizeed by water pump, this comparatively clean water spray from the water jet of spray tube, and the foam oil slick in inlet chest is pushed in the floating oil collecting assembly of inlet chest opposite side, get rid of finally by row's oil slick pipe.This foam oil slick removal mechanism in the utility model not only defoams the works very well of oil slick, and structure simple, be convenient to arrange, in narrow space, achieve best oil slick removal effect.

2) the floating oil collecting assembly, in the utility model comprises floating oil collecting groove, also comprise by frizing motor and the frizing assembly that forms with the conveying belt of oil scraping plate, during work, frizing motor drives conveying belt along the flute length direction cycle rotation of floating oil collecting groove, oil scraping plate is ceaselessly scraped the foam entered in groove and oil slick in the row's of feeding oil slick pipe 77 in the process, thus further increases except oil slick efficiency.

3) the foam oil slick removal mechanism, in the utility model is provided with along the flute length direction of floating oil collecting groove and auxiliaryly pushes away oil injection section, this auxiliary oil injection section that pushes away is arranged in the relative side of arranging oil slick pipe, match with frizing assembly, make the removal of foam oil slick more thorough.

4) absolute altitude of the water jet, in the utility model is mutually concordant with the pipe import absolute altitude in oil-discharge pipe road, and arranges uplift sector on water-supply pipe, to avoid the sewage in water tank to flow backwards, ensure that the carrying out that oil removing work can be reliable and stable.

Accompanying drawing explanation

Fig. 1 is the external structure schematic diagram of refuse disposal system more than whole meal.

Fig. 2 is the front side structure schematic diagram of Fig. 1.

Fig. 3 is the right side structure schematic diagram of Fig. 1.

Fig. 4 is the left side structure schematic diagram of Fig. 1.

Fig. 5,6 is in the remaining refuse disposal system of meal the structural representation of the unit that removes the gred.

Fig. 7,8,9 is the structural representation of foam oil slick removal mechanism.

The implication of each Reference numeral in figure is as follows:

A-feed-pipe b-discharge nozzle

10-inlet chest 11-water inlet pipe 12-filter cylinder 12a-half arc tabular clamshell

12b-half arc tabular sieve plate 12c-water hole 13-screw conveyor shaft 14-screw-blade

15-is soft scrapes material unit 16-universal coupling 17-mud-removing bucket 171-mud discharging mouth

18-blow-off line 19-oil-discharge pipe road

20-waste oil waste residue collector unit

30-oil header 31-drainage pipeline 32-aeration view port 33-blow-off line

34-oil-drain pipe 35-assisted heating device

40-header tank 41-lift pump 42-vacuum breaker 43-riser tubing

44-overflow spout

50-gas exhaust duct

60-nano-bubble generating apparatus 61-water fetching device 62-inlet channel

63-aerated conduit 64-nano bubble shower nozzle 65-strainer

70-intake pipe 71-water pump 72-water-supply pipe 721-uplift sector

73-spray tube 74-water jet 75-secondary injection section 76-floating oil collecting assembly

761-floating oil collecting groove 762-frizing motor 77-arranges oil slick pipe

80-housing

Embodiment

For ease of understanding, setting forth the concrete structure of refuse disposal system more than whole meal herein by reference to the accompanying drawings, understanding more clearly to make the working process of those skilled in the art to this foam oil slick removal mechanism have.

1. remove the gred unit

1.1 inlet chest

As shown in Figure 1, 2, this unit comprises inlet chest 10, and inlet chest 10 is in rectangular-shaped, and the casing of inlet chest 10 is provided with water inlet pipe 11, water inlet pipe 11 is provided with charging sensor, described charging sensor and housing 80 electrically connect.As shown in Fig. 2,7, the downside of inlet chest 10 is provided with in funnelform mud-removing bucket 17, and the lowest part of described mud-removing bucket 17 is provided with mud discharging mouth 171, and mud discharging mouth 171 place is provided with blow-off line 18, and blow-off line 18 is provided with ball valve.The head tube import in oil-discharge pipe road 19 is stretched out on the top of mud-removing bucket 17, and the outlet at bottom in oil-discharge pipe road 19 stretches into the central region at oil header 30.

1.2 slag removal mechanism

Slag removal mechanism is made up of feed-pipe a, filter cylinder 12, discharge nozzle b, universal coupling 16 and slagging-off electric machine assembly.

As shown in Figure 5,6, be provided with feed-pipe a in the slag removal mechanism in inlet chest 10, one end of feed-pipe a connects waste water source, and the other end is connected to the feed end of filter cylinder 12, and caliber and the flooding quantity size of feed-pipe a match;

Slag removal mechanism comprises the filter cylinder 12 of the densely covered water hole 12c in surface and is arranged in the interior screw conveyor shaft 13 with screw-blade 14, and the thick 304 stainless steel manufactures of its overall employing 4mm, can carry out pulp water separation to the waste water entered wherein.Slag removal mechanism utilizes screw-blade 14 propelling movement effect for waste water and dregs in filter cylinder 12, and excessive moisture can be overflowed through water hole 12c, and the waste residue that after final dewatering, water ratio is little is then able to be excluded away along the discharge nozzle b at its discharge end place.

Namely by the coated Clean Brush for cleaning in outer rim place (also aforementioned soft scrape material unit 15) at screw-blade 14, the propelling movement power utilizing screw conveyor shaft 13 to carry for waste water and screw-blade 14 compress power for filter cylinder 12 inner tube wall, thus realize uninterrupted frequently the swipe cleaning function of Clean Brush for cleaning for filter cylinder 12 inner tube wall.By above-mentioned functions, whole slag removal mechanism under auto state especially without the need to routine maintenance, its automatically with water inlet joint control, when having into water, deslagging device runs automatically, and anhydrous when entering, deslagging device stops automatically, and simple operation is stronger.

During actual installation, arrange universal coupling 16 by the axial end at screw conveyor shaft 13, thus realize equipment axis and freely install within the scope of 0 ~ 45 °, with the mounting or dismounting convenience of lift technique and job stability.Meanwhile, by adopting semicircle net cover structure, also namely relying on and half arc tabular sieve plate 12b is set, utilize 4 quick hasps distributing between two to realize its rapid-assembling/disassembling function based on half arc tabular clamshell 12a, further to promote its dismounting convenience.

Slag removal mechanism in the utility model is by said structure, and the mesh patency of filter cylinder 12 place water hole 12c is remained, the very big alleviation that mesh latch up phenomenon obtains is avoided even completely.Again because its mesh possesses high patency, even can less by the diameter design of water hole 12c during actually operating, 6 ~ 10mm aperture water hole of relative main brand, the water hole aperture of native system can be designed to below 3mm, thus make solid thing obtain further reduction through the probability that water hole 12c directly drops out, its solid water separation efficiency is higher, finally effectively can alleviate the extra Solid state fermentation pressure at follow-up oily water separation operation place.In addition, because maintenance of the equipment frequency is extremely low, whole type can run completely in fully-closed, and service life of equipment is higher.

As shown in Figure 5,6, slag removal mechanism also comprises discharge nozzle b, and one end of discharge nozzle b connects filter cylinder 12 discharge end port, and the other end is connected with waste residue bucket.

1.3 foam oil slick removal mechanism

Foam oil slick removal mechanism is made up of intake pipe 70, water pump (i.e. vacuum primingpump) 71, water-supply pipe 72, spray tube 73, floating oil collecting assembly 76 and row's oil slick pipe 77, the end of described spray tube 73 is provided with to assist and pushes away oil injection section 75, and spray tube 73 and auxiliary pushing away in oil injection section 75 are provided with water jet 74.

As shown in Figure 7,8, the water-in of described intake pipe 70 stretches at the middle part of oil header 30 that (oil-water mixture is divided into three layers being drained in oil header 30 after leaving standstill: upper strata is oil slick layer, middle part is water purification layer, lower floor is sludge blanket), under the effect of water pump 71, intake pipe 70 obtains comparatively clean water in the middle part of oil header 30, and be transported to spray tube 73 place by water-supply pipe 72, spray finally by water jet 74, then the foam oil slick in inlet chest 10 enters under the effect of impact of water in floating oil collecting assembly 76.

In order to obtain best oil extraction effect, the absolute altitude of described water jet 74 is mutually concordant with the pipe import absolute altitude in oil-discharge pipe road 19, pipe import due to oil-discharge pipe road 19 is the admission passage of profit, and the blow-off line 18 of inlet chest 10 is in closing condition usually, therefore the pipe import absolute altitude in oil-discharge pipe road 19 can be considered as the liquid level in inlet chest 10, the absolute altitude of the water jet 74 in mechanism is mutually concordant with the pipe import absolute altitude in oil-discharge pipe road 19, the water that then now the blowing mouth of a river 74 sprays can drive the whole liquid level in inlet chest 10 to move to floating oil collecting assembly 76 side, thus the foam oil slick being conducive to ullage most enters floating oil collecting assembly 76.

As shown in Fig. 7,9, water-supply pipe 72 is provided with uplift sector 721, water-supply pipe 72 absolute altitude at uplift sector 721 place is higher than the pipe import absolute altitude in oil-discharge pipe road 19, and this design effectively can prevent the pipeline of oil slick in mechanism and blow back in oil header 30.

As shown in Figure 7, spray tube 73 is arranged in the side of inlet chest 10, and the side away from spray tube 73 of inlet chest 10 is provided with floating oil collecting assembly 76, and described inlet chest 10 is provided with row's oil slick pipe 77 at the oil outlet end of floating oil collecting assembly 76.As shown in Figure 9, described floating oil collecting assembly 76 comprises floating oil collecting groove 761, floating oil collecting groove 761 is provided with frizing motor 762, and be provided with in floating oil collecting groove 761 driven by frizing motor 762, with the conveying belt of oil scraping plate, described conveying belt is along the flute length direction cycle rotation of floating oil collecting groove 761, and oil scraping plate is ceaselessly scraped the foam entered in groove and oil slick in the row's of feeding oil slick pipe 77 in the process.Frizing motor 762 and jointly form frizing assembly with the conveying belt of oil scraping plate.

As shown in Figure 7, one end of spray tube 73 extends to the end of floating oil collecting assembly 76 along the inwall of inlet chest 10 and is formed and auxiliaryly push away oil injection section 75, described auxiliary pushing away in oil injection section 75 is provided with water jet 74, auxiliaryly pushes away the water jet 74 in oil injection section 75 and arranges towards row's oil slick pipe 77 of floating oil collecting assembly 76 opposite side.Then when the auxiliary water jet 74 pushed away in oil injection section 75 is sprayed water, the foam in floating oil collecting groove 761 and oil slick can quickly in the row's of entering oil slick pipes 77.

The exit end of row's oil slick pipe 77 is connected with waste oil bucket.

2. oily water separation unit

As shown in Figure 2, oil-water mixture after slagging-off enters in oil header 30 through oil-discharge pipe road 19, oil-water mixture be drained in oil header 30 through leave standstill after be divided into three layers: upper strata is oil slick layer, middle part is water purification layer, lower floor is sludge blanket, therefore the top of oil header 30 is provided with the oil-drain pipe 34 leading to waste oil bucket, and the middle part of oil header 30 is provided with the drainage pipeline 31 leading to header tank 40.Because the pipe import absolute altitude in described oil-discharge pipe road 19 is higher than the drainage path vertex absolute altitude of drainage pipeline 31, therefore, when oil-water mixture enters oil header 30 in inlet chest 10, the comparatively clean water in oil header 30 enters header tank 40 by under the effect of law of connected vessels by drainage pipeline 31.

Because the pipe outlet in oil-discharge pipe road 19 and the pipe import of drainage pipeline 31 are separately positioned on the both sides of oil header 30, the comparatively clean water that therefore oil-water mixture enters in oil header 30 and oil header 30 is discharged will do not interfere with each other by drainage pipeline 31.

As shown in Figure 2, the bottom of described oil header 30 is provided with blow-off line 33, and blow-off line is provided with ball valve.Whether the transparent shape of oil-drain pipe 34 on the top of oil header 30, be conducive to staff's waste oil of swiping and discharge totally.Oil-drain pipe 34 is also provided with ball valve.

As shown in Figure 1, 2, the sidewall of described oil header 30 is provided with aeration view port 32, assisted heating device 35 is also provided with in oil header 30, assisted heating device 35 is arranged on the top of oil header 30, for solve grease in oil header 30 in the winter time low temperature time be difficult to the problem got rid of because solidifying.

3. forced-ventilated lift unit

As shown in Figure 1, 2, 3, in header tank 40, be provided with ultrasonic liquid level sensor and lift pump 41, the riser tubing 43 of lift pump 41 exit end is provided with one way stop peturn valve 42; Upflow tube 44 is also provided with in header tank 40; The bottom of header tank 40 is provided with blow-off line.

4. waste oil waste residue collector unit

Waste oil waste residue collector unit 20 comprises waste oil bucket, sludge barrel and waste residue bucket, described waste oil bucket for collecting through being separated the waste oil that obtains, as the waste oil transported from row's oil slick pipe 77 and oil-drain pipe 34; Sludge barrel for collecting the mud being separated through precipitation and obtaining, such as from the mud that the blow-off line of inlet chest 10, oil header 30 and header tank 40 transports; Waste residue bucket is then mainly used in collecting the waste residue separated in inlet chest 10.

It is pointed out that in some workplace, sludge barrel and waste residue bucket can be interchangeable.

5. nano bubble generating unit

As shown in Figure 1, 2, nano bubble generating unit comprises the water fetching device 61 of water intaking in the middle part of oil header 30, described water fetching device 61 is connected with nano-bubble generating apparatus 60 by inlet channel 62, nano-bubble generating apparatus 60 is connected with the nano bubble shower nozzle 64 be arranged in oil header 30 by aerated conduit 63, and described inlet channel 62 and aerated conduit 63 are provided with quick-connection type strainer 65; Described nano-bubble generating apparatus 60 electrically connects with housing 80.

During work, first nano bubble generating unit is fetched water from the middle part (the clean water layer namely in oil header) of oil header 30 by water fetching device 61, the water that water fetching device 61 is got enters in nano-bubble generating apparatus 60 by inlet channel 62, the water being entrained with a large amount of bubble is delivered in oil header 30 by nano bubble shower nozzle 64 by aerated conduit 63 by nano-bubble generating apparatus 60 again, and formed highdensity in oil header 30, uniform submicron bubble, obtain the gas liquid mixture of cloud the same " oyster white ", thus significantly enhance the oil-water separation of oil header 30.

6. automatic control unit

This unit comprises the charging sensor arranged on water inlet pipe 11, also comprises being arranged in header tank 40 being provided with ultrasonic liquid level sensor, and described charging sensor and ultrasonic liquid level sensor all electrically connect with housing 80.

When the water of kitchen discharge of eating enters water inlet pipe 11, charging sensor will send signal to housing 80, and housing 80 controls slagging-off electric machine assembly and starts working to remove the gred; When the water without the discharge of meal kitchen enters, automatically quit work after the slagging-off motor delay adjustments time; When the liquid level in header tank 40 reaches setting height, namely ultrasonic liquid level sensor sends signal to housing 80, and then housing 80 controls lift pump 41 and runs draining; When the liquid level in header tank 40 drops to setting height, it is out of service that housing 80 controls lift pump 41.

In addition, nano-bubble generating apparatus 60, assisted heating device 35, water pump 71, frizing motor 762 all electrically connect with housing 80.

7. ventilation unit

As shown in Figure 1, described inlet chest 10, oil header 30 and header tank 40 are all in closed, and the top of inlet chest 10, oil header 30 and header tank 40 is provided with the vapor pipe 50 be connected with each other, thus space, this device place is distributed without foul smell, reduce loss, save the energy.

In sum, more than the whole meal at the utility model place, refuse disposal system adopts multistage oily water separation treatment process, to solve in food and drink waste water process that foreign material are separated, mud is separated efficiently and namely oily water separation the difficult problem such as to collect, there is simple and convenient operation and maintenance and the stable remarkable advantage such as efficient.

Claims (5)

1. a foam oil slick removal mechanism, it is characterized in that: mechanism comprises the intake pipe (70), water pump (71), water-supply pipe (72) and the spray tube (73) that connect successively, the tube wall of described spray tube (73) is provided with water jet (74), mechanism is away from water jet (74) and the side relative with water jet (74) is provided with floating oil collecting assembly (76), described floating oil collecting assembly (76) is provided with frizing assembly, and the oil outlet end of described floating oil collecting assembly (76) is provided with row's oil slick pipe (77).

2. a kind of foam oil slick removal mechanism according to claim 1, it is characterized in that: described floating oil collecting assembly (76) comprises floating oil collecting groove (761), floating oil collecting groove (761) is provided with frizing motor (762), and be provided with in floating oil collecting groove (761) driven by frizing motor (762), with the conveying belt of oil scraping plate, described conveying belt is along the flute length direction cycle rotation of floating oil collecting groove (761), and frizing motor (762) and the conveying belt with oil scraping plate form frizing assembly jointly; Described row's oil slick pipe (77) is arranged on the oil outlet end of floating oil collecting groove (761).

3. a kind of foam oil slick removal mechanism according to claim 2, it is characterized in that: one end of described spray tube (73) extends to the end of floating oil collecting groove (761) and formed and auxiliaryly push away oil injection section (75), described auxiliary pushing away in oil injection section (75) is also provided with water jet (74), and the auxiliary water jet (74) pushed away in oil injection section (75) is arranged towards the row's oil slick pipe (77) being in floating oil collecting groove (761) opposite side.

4. a kind of foam oil slick removal mechanism according to claim 3, it is characterized in that: described water-supply pipe (72), spray tube (73) and floating oil collecting groove (761) are all arranged in casing, the bottom of casing is provided with mud-removing bucket (17), the lowest part of mud-removing bucket (17) is provided with blow-off line (18), is also provided with from top to bottom through the oil-discharge pipe road (19) of mud-removing bucket (17) in casing; The absolute altitude of described water jet (74) is mutually concordant with the pipe import absolute altitude of oil-discharge pipe road (19), described water-supply pipe (72) is provided with uplift sector (721), water-supply pipe (72) absolute altitude at uplift sector (721) place is higher than the pipe import absolute altitude of oil-discharge pipe road (19).

5. a kind of foam oil slick removal mechanism according to claim 4, is characterized in that: described spray tube (73) lays along the inwall of casing.