CN105169806A - Stone processing sewage treatment system - Google Patents

Abstract

The invention discloses a stone processing sewage treatment system which comprises a sewage sediment treating device and a sewage mud treating device. The sewage sediment treating device comprises a sediment settling pool with the upper end larger than the lower end, a filter funnel is arranged on a water inlet of the sediment settling pool, a spiral conveying device is arranged at the bottom of the sediment settling pool, and a sediment vibration dehydration conveying device is arranged on a sediment conveying outlet of the spiral conveying device. The sewage mud treating device comprises a mud settling pool with the upper end larger than the lower end, the mud settling pool is communicated with the sediment settling pool through a pipeline, and a mud settling dehydration conveying device is arranged at the bottom of the mud settling pool. The stone processing sewage treatment system is reasonable in structural design, equipment investment cost and running cost are low, sewage and sediment are separated fast and thoroughly, and the sewage treatment effect is good.

Description

Processing of stone sewage disposal system

Technical field

The present invention relates to technical field of sewage treatment equipment, particularly relate to a kind of processing of stone sewage disposal system.

Background technology

In recent years, the focal issue that Dali stone saw saw dirt water treatment Shi Ge manufacturing enterprise and government's environmental protection is always paid close attention to, market has also engendered complete saw dirt water comprehensive treatment equipment.But because existing saw dirt water comprehensive treatment equipment cost is larger, and running expense is higher, some enterprise is this comprehensive sewage treating device not, but is precipitated saw dirt water by multiple way, waste water cannot be recycled, precipitated liquid and precipitated powder environmental pollution larger; Even if complete comprehensive sewage treating device in some enterprise, also because running expense is too high substantially need not, but the operation that becomes a mere formality, deal with higher level's inspection.

Existing stone sewage treatment facility, as filter press, ceramic filter, disc type rotary vacuum filter, although good filtration effect when starting, but grow (about one month) service time and because using close to scrapping containing oily matter in waste water, will cannot be applicable to the saw dirt water containing oily matter for a long time.If add medicament to remove oil in sewage, not only technology controlling and process is unreliable, is also unfavorable for processing of stone enterprise recycling sewage simultaneously.In addition, during press filtration process, owing to containing a large amount of fine sands and mud in sewage, have gap between fine sand and mud, press filtration effect is unsatisfactory, still has large quantity of moisture and ooze out after press filtration.

How reducing investment cost and the operating cost of equipment, and improve the treatment effect of waste water simultaneously, is a great problem of stone sewage process field.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of reasonable in design, equipment investment expense and running expense low, be beneficial to reduction production cost, and sewage is separated with silt fast thoroughly, the oily matter in waste water can not be destroyed simultaneously, be beneficial to that sewage gets back to that pit saw recycles processing of stone sewage disposal system.

For solving the problems of the technologies described above, technical scheme of the present invention is: processing of stone sewage disposal system, comprising:

Sewage silt treating apparatus, be arranged at the outlet of sewer place of sewage pipe, comprise the sediment settlement pond that upper end is large and lower end is little, the water inlet in described sediment settlement pond is provided with filter tunnel, the bottom in described sediment settlement pond is provided with helix transporting device, and the silt conveying exit of described helix transporting device is provided with silt vibration dewatering delivery;

Sewage-mud treating apparatus, be arranged at the downstream in described sediment settlement pond, comprise the mud settling tank that upper end is large and lower end is little, described mud settling tank and described sediment settlement pond are connected by pipeline, and the bottom of described mud settling tank is provided with mud deposition dehydrating conveying device.

As preferred technical scheme, described helix transporting device comprises the conveying housing be obliquely installed, one end of described conveying housing to be stretched in described sediment settlement pond and is provided with the import of sedimentation silt, and the other end of described conveying housing stretches out described sediment settlement pond and is provided with described silt conveying outlet; Rotate in described conveying housing and be provided with conveying auger, described conveying auger is connected with auger drive motors.

As preferred technical scheme, described silt vibration dewatering delivery comprises bracing frame, support frame as described above is provided with conveyor belt support, is provided with vibration absorber between described conveyor belt support and support frame as described above; Described conveyor belt support is rotatablely equipped with dehydration conveyer belt, described dehydration conveyer belt is obliquely installed, and the transportation work face of described dehydration conveyer belt is provided with gear mud device; Described conveyor belt support is provided with the vibrating motor driving the vibration of described conveyor belt support.

As the improvement to technique scheme, described gear mud device comprises the both sides edge that is arranged at described dehydration conveyer belt and along the length direction symmetrically arranged side protecting band of described dehydration conveyer belt, is arranged at intervals with some fronts baffle plate described in two between the protecting band of side.

As the improvement to technique scheme, the top end face of described front baffle plate is lower than the top end face of described side protecting band.

As the improvement to technique scheme, in " S " type, bending is arranged described side protecting band.

As the improvement to technique scheme, described vibration absorber is shock-absorbing spring.

As preferred technical scheme, described mud deposition dehydrating conveying device comprises bracing frame, and support frame as described above is provided with conveyor belt support; Described conveyor belt support is rotatablely equipped with dehydration conveyer belt, described dehydration conveyer belt is obliquely installed, one end of described dehydration conveyer belt stretches to the bottom of described mud settling tank, the other end of described dehydration conveyer belt extend out to the outside of described mud settling tank, and the transportation work face of described dehydration conveyer belt is provided with gear mud device; Described dehydration conveyer belt is connected with conveyer belt drive motors, and described conveyer belt drive motors is connected with timing and controls starter.

As the improvement to technique scheme, output near described dehydration conveyer belt on described conveyor belt support is provided with idler roller, and the angle of inclination that described dehydration conveyer belt is positioned at described idler roller forward portion along throughput direction is less than the angle of inclination being positioned at described idler roller rear portion.

As the improvement to technique scheme, described mud settling tank top is provided with overfall, and described overfall is communicated with sewage recovery pond.

Owing to have employed technique scheme, the present invention has following beneficial effect:

(1) device structure is simple, convenient for installation and maintenance, equipment operation expense and investment cost little.

(2) silt sedimentation is effective, efficiency is high.Sewage is first through filter tunnel, bulky grain in sewage, stone bar etc. is filtered, then sediment deposition in upper end is large and lower end is little sediment settlement pond is entered, after precipitation, silt realizes the one-level dehydration precipitating silt while helical feed process, silt when the silt conveying outlet arriving helix transporting device silt water content about 30%, then under the effect of vibration of silt vibration dewatering delivery, water and sand grain realize secondary further and depart from, arrive silt water content when silt conveying exports and can reach about 10%, silt after dehydration is pulled away process, the sewage that mud is contained on top, sediment settlement pond continues to enter in mud settling tank and carries out secondary precipitation, mud after precipitation directly falls on the dehydration conveyer belt of bottom, dewater while conveying, timing controls starter and controls dehydration conveyer belt timing rotation, mud sedimentation solidified is transported to assigned address, and treatment process is efficient, stable, failure rate is low.

(3) waste water circulation can be realized recycle, be beneficial to energy-saving and emission-reduction.Sewage is successively after sediment settlement pond, mud settling tank precipitation, and the clean water overflow on top enters in sewage recovery pond, and the oily matter in sewage is not destroyed, and can turn back to pit saw processing place and recycle.

Accompanying drawing explanation

The following drawings is only intended to schematically illustrate the present invention and explain, not delimit the scope of the invention.Wherein:

Fig. 1 is the schematic top plan view of embodiment of the present invention sewage disposal system;

Fig. 2 is the structural representation of sewage silt treating apparatus in the embodiment of the present invention;

Fig. 3 is the partial structurtes schematic diagram of dehydration conveyer belt;

Fig. 4 is the structural representation of sewage-mud treating apparatus in the embodiment of the present invention;

Fig. 5 is the structural representation of settling tank and sewage recovery pond in embodiment of the present invention sewage disposal system.

In figure: 110-sewage pipe; 120-sediment settlement pond; 130-filter tunnel; 140-helix transporting device; 141-silt conveying outlet; 142-carries housing; The import of 143-sedimentation silt; 144-conveying auger; 145-auger drive motors; 150-silt vibration dewatering delivery; 151,221-bracing frame; 152,222-conveyor belt support; 153-shock-absorbing spring; 154,224-dehydration conveyer belt; 155-vibrating motor; 156-side protecting band; 157-front baffle plate; 158,226-idler roller; 210-mud settling tank; 211-pipeline; 212-overfall; 220-mud deposition dehydrating conveying device; 300-sewage recovery pond; 400-transports road.

Detailed description of the invention

Below in conjunction with drawings and Examples, set forth the present invention further.In the following detailed description, the mode only by illustrating describes some one exemplary embodiment of the present invention.Undoubtedly, those of ordinary skill in the art can recognize, when without departing from the spirit and scope of the present invention, can revise by various different mode to described embodiment.Therefore, accompanying drawing is illustrative with being described in essence, instead of for limiting the protection domain of claim.

As Fig. 1 to Fig. 5 shows, processing of stone sewage disposal system, comprising:

Sewage silt treating apparatus, be arranged at the outlet of sewer place of sewage pipe 110, comprise the sediment settlement pond 120 that upper end is large and lower end is little, the water inlet in described sediment settlement pond 120 is provided with filter tunnel 130, the bottom in described sediment settlement pond 120 is provided with helix transporting device 140, and silt conveying outlet 141 place of described helix transporting device 140 is provided with silt vibration dewatering delivery 150;

Sewage-mud treating apparatus, be arranged at the downstream in described sediment settlement pond 120, comprise the mud settling tank 210 that upper end is large and lower end is little, described mud settling tank 210 is connected by pipeline 211 with described sediment settlement pond 120, and the bottom of described mud settling tank 210 is provided with mud deposition dehydrating conveying device 220.

With reference to figure 2, described helix transporting device 140 comprises the conveying housing 142 be obliquely installed, one end of described conveying housing 142 to be stretched in described sediment settlement pond 120 and is provided with sedimentation silt import 143, and the other end of described conveying housing 142 stretches out described sediment settlement pond 120 and is provided with described silt conveying outlet 141; Rotate in described conveying housing 142 and be provided with conveying auger 144, described conveying auger 144 is connected with auger drive motors 145.Silt after sedimentation enters in conveying housing 142 from sedimentation silt import 143, and discharged from silt conveying outlet 141 by conveying auger 144, while conveying housing 144 is obliquely installed and is beneficial to sediment, the one-level realizing water and silt departs from; Described silt conveying outlet 141 place is provided with silt vibration dewatering delivery 150.

In the present embodiment, described silt vibration dewatering delivery 150 comprises bracing frame 151, support frame as described above 151 is provided with conveyor belt support 152, is provided with vibration absorber between described conveyor belt support 152 and support frame as described above 151, vibration absorber is shock-absorbing spring 153; Described conveyor belt support 152 is rotatablely equipped with dehydration conveyer belt 154, described dehydration conveyer belt 154 is obliquely installed, and the transportation work face of described dehydration conveyer belt 154 is provided with gear mud device; Described conveyor belt support 152 is provided with the vibrating motor 155 driving described conveyor belt support 152 to vibrate; Dehydration conveyer belt 154 is obliquely installed, while realizing sediment, due to the effect of vibration of vibrating motor 155, silt can decline and be fed forward along dehydration conveyer belt 154, and moisture can flow backward from oozing out and float over silt surface between sand grain, thus the secondary realizing water and sand grain departs from.Output near described dehydration conveyer belt 154 on described conveyor belt support 152 is provided with idler roller 158, the angle of inclination that described dehydration conveyer belt 154 is positioned at described idler roller 158 forward portion along throughput direction is less than the angle of inclination being positioned at described idler roller 158 rear portion, so that the conveying of silt.

With reference to figure 3, described gear mud device comprises the both sides edge that is arranged at described dehydration conveyer belt 154 and along the length direction symmetrically arranged side protecting band 156 of described dehydration conveyer belt 154, is arranged at intervals with some fronts baffle plate 157 described in two between side protecting band 156; Conveniently transport, the moisture be simultaneously beneficial in silt oozes out, departs from, and the top end face of described front baffle plate 157 is lower than the top end face of described side protecting band 156.In addition, in " S " type, bending is arranged described side protecting band 156, is beneficial to the service life extending conveyer belt.

With reference to figure 4, described mud deposition dehydrating conveying device 220 comprises bracing frame 221, support frame as described above 221 is provided with conveyor belt support 222; Described conveyor belt support 222 is rotatablely equipped with dehydration conveyer belt 224, described dehydration conveyer belt 224 is obliquely installed, one end of described dehydration conveyer belt 224 stretches to the bottom of described mud settling tank 210, the other end of described dehydration conveyer belt 224 extend out to the outside of described mud settling tank 210, output near described dehydration conveyer belt 224 on described conveyor belt support 222 is provided with idler roller 226, and the angle of inclination that described dehydration conveyer belt 224 is positioned at described idler roller 226 forward portion along throughput direction is less than the angle of inclination being positioned at described idler roller 226 rear portion.Described dehydration conveyer belt 224 is connected with conveyer belt drive motors (not shown), and described conveyer belt drive motors is connected with timing and controls starter.Control starter by timing and control the startup of conveyer belt drive motors, then drive dehydration conveyer belt 224 to rotate, thus the sedimentation time reserving mud can be ensured; Dehydration conveyer belt 224 is obliquely installed, and while realizing slurry conveyed, mud can sedimentation being fed forward along dehydration conveyer belt 224, and moisture can flow backward from oozing out and float over mud surface between mud, thus realizes the disengaging of water and mud.

Referring again to Fig. 1, Fig. 5, described mud settling tank 210 top is provided with overfall 212, and described overfall 212 is communicated with sewage recovery pond 300, and wherein sediment settlement pond 120 and mud settling tank 210 are arranged on the inside of sewage recovery pond 300.Native system operation principle is as follows: sewage is first through filter tunnel 130, bulky grain in sewage, stone bar etc. is filtered, then sediment deposition in upper end is large and lower end is little sediment settlement pond 120 is entered, after precipitation, silt realizes the one-level dehydration precipitating silt while helical feed process, silt when the silt conveying outlet arriving helix transporting device silt water content about 30%, then under the effect of vibration of silt vibration dewatering delivery, water and sand grain realize secondary further and depart from, arrive silt water content when silt conveying exports and can reach about 10%, silt after dehydration pulls away process via transport road 400, the sewage that mud is contained on top, sediment settlement pond 120 continues to enter in mud settling tank 210 and carries out secondary precipitation, mud after precipitation directly falls on the dehydration conveyer belt of bottom, timing controls starter and controls dehydration conveyer belt timing rotation, and mud sedimentation solidified is transported to assigned address.Sewage is successively after sediment settlement pond 120, mud settling tank 210 precipitate, and the clean water overflow on top enters in sewage recovery pond 300, can turn back to pit saw processing place and recycle.

This sewage disposal system, the power consumption such as drive motors, vibrating motor is little, easy maintenance, complete equipment calculates by the silt of process per hour 5 tons, power consumption is about 3Kw, and Environmental-protecting treater calculates by the silt of process per hour 5 tons in prior art, power consumption, at about 200Kw, greatly reduces energy resource consumption and equipment operation expense as seen; Meanwhile, device structure is simple, convenient for installation and maintenance, greatly reduces equipment investment expense; Equipment cost can save more than 90%, and running expense can save 90%.

The foregoing is only the schematic detailed description of the invention of the present invention, and be not used to limit scope of the present invention.Any those skilled in the art, equivalent variations done under the prerequisite not departing from design of the present invention and principle and amendment, all should belong to the scope of protection of the invention.

Claims (10)

1. processing of stone sewage disposal system, is characterized in that, comprising:

Sewage silt treating apparatus, be arranged at the outlet of sewer place of sewage pipe, comprise the sediment settlement pond that upper end is large and lower end is little, the water inlet in described sediment settlement pond is provided with filter tunnel, the bottom in described sediment settlement pond is provided with helix transporting device, and the silt conveying exit of described helix transporting device is provided with silt vibration dewatering delivery;

Sewage-mud treating apparatus, be arranged at the downstream in described sediment settlement pond, comprise the mud settling tank that upper end is large and lower end is little, described mud settling tank and described sediment settlement pond are connected by pipeline, and the bottom of described mud settling tank is provided with mud deposition dehydrating conveying device.

2. processing of stone sewage disposal system as claimed in claim 1, it is characterized in that: described helix transporting device comprises the conveying housing be obliquely installed, one end of described conveying housing to be stretched in described sediment settlement pond and is provided with the import of sedimentation silt, and the other end of described conveying housing stretches out described sediment settlement pond and is provided with described silt conveying outlet; Rotate in described conveying housing and be provided with conveying auger, described conveying auger is connected with auger drive motors.

3. processing of stone sewage disposal system as claimed in claim 1, it is characterized in that: described silt vibration dewatering delivery comprises bracing frame, support frame as described above is provided with conveyor belt support, between described conveyor belt support and support frame as described above, is provided with vibration absorber; Described conveyor belt support is rotatablely equipped with dehydration conveyer belt, described dehydration conveyer belt is obliquely installed, and the transportation work face of described dehydration conveyer belt is provided with gear mud device; Described conveyor belt support is provided with the vibrating motor driving the vibration of described conveyor belt support.

4. processing of stone sewage disposal system as claimed in claim 3, it is characterized in that: described gear mud device comprises the both sides edge that is arranged at described dehydration conveyer belt and along the length direction symmetrically arranged side protecting band of described dehydration conveyer belt, is arranged at intervals with some fronts baffle plate described in two between the protecting band of side.

5. processing of stone sewage disposal system as claimed in claim 4, is characterized in that: the top end face of described front baffle plate is lower than the top end face of described side protecting band.

6. processing of stone sewage disposal system as claimed in claim 5, is characterized in that: in " S " type, bending is arranged described side protecting band.

7. processing of stone sewage disposal system as claimed in claim 3, is characterized in that: described vibration absorber is shock-absorbing spring.

8. processing of stone sewage disposal system as claimed in claim 1, is characterized in that: described mud deposition dehydrating conveying device comprises bracing frame, and support frame as described above is provided with conveyor belt support; Described conveyor belt support is rotatablely equipped with dehydration conveyer belt, described dehydration conveyer belt is obliquely installed, one end of described dehydration conveyer belt stretches to the bottom of described mud settling tank, the other end of described dehydration conveyer belt extend out to the outside of described mud settling tank, described dehydration conveyer belt is connected with conveyer belt drive motors, and described conveyer belt drive motors is connected with timing and controls starter.

9. the processing of stone sewage disposal system as described in claim 3 or 8, it is characterized in that: the output near described dehydration conveyer belt on described conveyor belt support is provided with idler roller, and the angle of inclination that described dehydration conveyer belt is positioned at described idler roller forward portion along throughput direction is less than the angle of inclination being positioned at described idler roller rear portion.

10. processing of stone sewage disposal system as claimed in claim 1, is characterized in that: described mud settling tank top is provided with overfall, and described overfall is communicated with sewage recovery pond.