CN212800090U - Portable biochemical sludge rapid treatment micro-station - Google Patents

Abstract

The utility model provides a mobile biochemical sludge rapid treatment micro station, which comprises a box body with a sludge inlet at one end and a dehydration area positioned inside one end of the box body; the dehydration area comprises an extrusion plate, a sieve plate and an inclined plate, the middle part of the extrusion plate is connected with the inner side of the box body in a sliding manner, the extrusion plate can slide up and down, the sieve plate is positioned below the extrusion plate, the middle part of the sieve plate is hinged with the inner side of the box body, the sieve plate can rotate around the sieve plate, one end of the inclined plate is hinged with one end of the sieve plate, the other end of the inclined plate inclines downwards, and the other end of the inclined plate is hinged with the inner side of the; the sludge inlet is positioned between the extrusion plate and the sieve plate, and the sieve plate is used for separating water and sludge. This scheme of adoption can be directly at the other rapid draing mud of sludge impoundment, and the mud after the processing can directly be deposited in this device, and can directly transport the mud of depositing to appointed place, and sludge treatment forms with depositing transportation an organic whole, convenient and fast, and the cost of transportation is low.

Description

Portable biochemical sludge rapid treatment micro-station

Technical Field

The utility model relates to a sludge treatment technical field, concretely relates to miniature station of portable biochemical mud rapid draing.

Background

A large amount of sludge with extremely high water content can be generated in the sewage treatment process, in the prior art, the sludge is treated at a fixed place, the treatment mode comprises methods of using a drying machine, burning and the like, but the method has the defects of high cost, environmental pollution and the like, and when the sludge is more, the method is not beneficial to storage and transportation. All the sludge needs to be collected and transported to a designated place, but the mode can lead to the dispersion and wide distribution of pollutants, the collection of the pollution amount of a single pollution point needs a long time to reach the basic treatment amount level, the traffic condition is not good, and the transportation cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, provide a portable biochemical mud rapid draing is miniature station, this scheme of adoption can be directly at the other rapid draing mud of sludge impoundment, and the mud after the processing can directly leave in this device, and can directly transport the appointed place with the mud of depositing, and sludge treatment forms with depositing transportation an organic whole, convenient and fast, and the cost of transportation is low.

The utility model adopts the technical proposal that: a mobile biochemical sludge rapid treatment micro station comprises a box body with a sludge inlet at one end and a dehydration area positioned in one end of the box body;

the dehydration area comprises an extrusion plate, a sieve plate and an inclined plate, the middle part of the extrusion plate is connected with the inner side of the box body in a sliding manner, the extrusion plate can slide up and down, the sieve plate is positioned below the extrusion plate, the middle part of the sieve plate is hinged with the inner side of the box body, the sieve plate can rotate around the sieve plate, one end of the inclined plate is hinged with one end of the sieve plate, the other end of the inclined plate inclines downwards, and the other end of the inclined plate is hinged with the inner side of the;

the sludge inlet is positioned between the extrusion plate and the sieve plate, and the sieve plate is used for separating water and sludge.

When the scheme is operated specifically, the sludge generated in the sewage treatment process is sent into a sludge inlet at one end of the box body, the sludge enters the box body and falls on the sieve plate, the extrusion plate is positioned above the sieve plate and is in sliding connection with the inner side of the box body, the sieve plate slides downwards and is gradually close to the sieve plate, the sludge on the sieve plate is extruded at the moment, water in the sludge is extruded out, sieve holes exist on the sieve plate, the water extruded out by the sludge can fall from the sieve holes, moisture in the sludge is extruded out in a large amount at the moment, a certain dehydration effect is achieved, after a certain time, the moisture in the sludge can not be extruded out any more, the extrusion plate slides upwards at the moment, after the extrusion plate slides to a specified position, the middle part of the sieve plate is hinged with the inner side of the box body, the sieve plate starts to rotate around the sieve plate, in the rotating process, the sludge on the sieve plate starts to, the hang plate other end downward sloping, and the hang plate other end and box inboard are articulated, when sieve one end downwardly rotating, can drive hang plate one end also downwardly rotating, on the mud landing on the sieve this moment fell the hang plate, again through the hang plate landing, removed the mud of being extruded on the sieve this moment, can transport mud in to the box again, repeat above-mentioned step.

Further, still including being located the inside drying space of box, the drying space is used for the mud after the dry dehydration district handles, the drying space includes filter screen and conveyer, filter screen and the inboard formation cavity of connecting in drying space top, the inside drier of placing of cavity, conveyer and the inboard bottom of drying space are connected, conveyer is used for transporting the mud that falls from the hang plate landing.

When the scheme is operated, a drying area is further arranged beside the dehydration area and used for drying the sludge treated by the dehydration area, the drying area comprises a filter screen and a conveying device, the conveying device is arranged at the bottom of the inner side of the drying area, and the sludge on the inclined plate falls on the conveying device when falling downwards; the filter screen is positioned above the inside of the drying area, the drying agent is placed in the filter screen, the drying agent can fall downwards from the filter screen, the drying agent directly falls downwards onto the sludge, the drying agent can absorb moisture in the sludge, and further secondary dehydration treatment on the sludge is achieved; the time for the drying agent to fall down can also be controlled, for example, a hole is formed above the filter screen, the drying agent can be scattered into the hole according to the process and falls into the lower part of the drying area through the filter screen, wherein the drying agent can be a solidified drying agent, such as soda lime, anhydrous CaCl2 and the like; after the sludge is treated by the drying agent, the conveying device starts to operate and can convey the sludge to the next area.

Further, still include the thermostatic zone, the thermostatic zone makes the mud that the drying area was handled keep the constant temperature, the thermostatic zone includes irradiation device, irradiation device is located the thermostatic zone inboard, thermostatic zone one side middle part opening, conveyer terminal and thermostatic zone one side middle part opening part are connected.

When the scheme is specifically operated, the terminal of the conveying device is connected with the opening in the middle of one side of the constant temperature area, the conveying device can convey sludge into the constant temperature area for placement, the constant temperature area is internally provided with the irradiation device, the irradiation device provides temperature, so that the sludge stored in the constant temperature area is kept at constant temperature and has certain activity, and when the stored sludge is used in a farmland, the sludge can be adapted more quickly; and the temperature irradiation is provided, so that the sludge in the constant temperature area can be dehydrated for three times, and the sludge is further dried.

Furthermore, an expansion plate is arranged at an opening in the middle of one side of the constant temperature area, and the expansion plate can seal the opening in the middle of one side of the constant temperature area.

When this scheme specifically functions, after mud deposits and finishes, make the telescopic link upward movement, until sealing thermostatic zone one side middle part opening part, make the temperature loss in the thermostatic zone reduce, set up to: the opening part in the middle of one side of the constant temperature area is provided with a telescopic plate, and the opening part in the middle of one side of the constant temperature area can be sealed by the telescopic plate.

Further, dewatering area, drying space and thermostatic zone below all set up the drainage area, the drainage area is used for discharging the moisture that dewatering area, drying space and thermostatic zone produced.

When the scheme is operated, water generated by the sludge in the dehydration area, the drying area and the constant temperature area falls into the drainage area below, and is discharged out of the box body through the drainage area, so that the sludge and the water are separated; the process of the scheme can be judged according to the discharge amount of the water outlet, when a large amount of water is not discharged from the water outlet, the sludge on the sieve plate can not be squeezed to remove water, and the next transportation operation can be carried out, namely the squeezing plate starts to slide upwards.

Further, for the transportation of this device of convenience, set up to: and a plurality of universal wheels are arranged at the bottom of the box body.

Further, for the acid and alkali corrosion resistance of adaptation sewage, the box needs to have certain rigidity and intensity, and long service life can adopt if material such as stereoplasm aluminum alloy, reinforcing nylon, sets up to: the box body is made of corrosion-resistant materials.

The utility model discloses following beneficial effect has:

this scheme provides a miniature station of portable biochemical mud rapid draing, and this scheme of adoption can be directly at the other rapid draing mud of sludge impoundment, and the mud after handling can directly leave in this device, and can directly transport the appointed place with the mud of depositing, and sludge treatment forms with depositing transportation an organic whole, convenient and fast, and the cost of transportation is low.

Drawings

FIG. 1 is a schematic structural view of a mobile biochemical sludge rapid treatment micro-station provided by the present invention.

The reference numbers in the figures are: the device comprises a box body 1, universal wheels 2, extrusion plates 3, sieve plates 4, inclined plates 5, a filter screen 6, a conveying device 7, a drainage area 8, an irradiation device 9 and a telescopic rod 10.

Detailed Description

The present invention will be described in further detail with reference to examples.

Example (b): fig. 1 is a schematic structural view of a mobile biochemical sludge rapid treatment micro station provided by the utility model, which comprises a box body 1 with a sludge inlet at one end and a dehydration area positioned inside one end of the box body 1; the dehydration area comprises an extrusion plate 3, a sieve plate 4 and an inclined plate 5, the middle part of the extrusion plate 3 is connected with the inner side of the box body 1 in a sliding manner, the extrusion plate 3 can slide up and down, the sieve plate 4 is positioned below the extrusion plate 3, the middle part of the sieve plate 4 is hinged with the inner side of the box body 1, the sieve plate 4 can rotate around the dehydration area, one end of the inclined plate 5 is hinged with one end of the sieve plate 4, the other end of the inclined plate 5 inclines downwards, and the other end of the inclined plate 5 is hinged with the inner side of the box body; the sludge inlet is positioned between the extrusion plate 3 and the sieve plate 4, and the sieve plate 4 is used for separating water and sludge.

When the scheme is operated specifically, sludge generated in the sewage treatment process is sent into a sludge inlet at one end of the box body 1, the sludge enters the box body 1 and falls on the sieve plate 4, the extrusion plate 3 is positioned above the sieve plate 4 and is in sliding connection with the inner side of the box body 1, the sieve plate 4 slides downwards and is gradually close to the sieve plate 4, the sludge on the sieve plate 4 is extruded, so that water in the sludge is extruded out, sieve holes exist on the sieve plate 4, the water extruded out by the sludge can fall from the sieve holes, at the moment, moisture in the sludge is greatly extruded out, a certain dehydration effect is achieved, after a certain time, moisture in the sludge can not be extruded out, at the moment, the extrusion plate 3 slides upwards, after the extrusion plate 3 slides to a designated position, the middle part of the sieve plate 4 is hinged with the inner side of the box body 1, the sieve plate 4 starts to rotate around itself, in the rotating process, the sludge on the sieve plate 4 starts to slide towards, because of 5 one ends of hang plate and 4 one ends of sieve are articulated, the 5 other ends downward sloping of hang plate, and 5 other ends of hang plate and 1 inboard articulations of box, when 4 one ends of sieve rotate downwards, can drive 5 one ends of hang plate also rotate downwards, the mud landing on the sieve 4 this moment is on hang plate 5, through hang plate 5 landing down again, the mud of being extruded on having removed sieve 4 this moment, can transport mud in to box 1 again, repeat above-mentioned step.

When the scheme is operated specifically, a drying area is further arranged beside the dehydration area and used for drying the sludge treated by the dehydration area, the drying area comprises a filter screen 6 and a conveying device 7, wherein the conveying device 7 is arranged at the bottom of the inner side of the drying area, and the sludge on the inclined plate 5 falls on the conveying device 7 when sliding downwards; the drying agent can fall downwards from the filter screen 6, the drying agent directly falls onto the sludge downwards, the drying agent can absorb moisture in the sludge, secondary dehydration treatment on the sludge is further achieved, the falling time of the drying agent can be controlled, for example, holes are formed in the upper portion of the filter screen 6, the drying agent can be scattered into the holes according to the process and falls into the lower portion of the drying area through the filter screen 6, and the drying agent can be solidified drying agent such as soda lime, anhydrous CaCl2 and the like; after the sludge is treated by the drying agent, the conveyor 7 is put into operation and is able to transport the sludge into the next zone.

When the scheme is specifically operated, the terminal of the conveying device 7 is connected with the opening in the middle of one side of the constant temperature area, the conveying device 7 can convey sludge into the constant temperature area for placement, the irradiation device 9 is arranged in the constant temperature area, the irradiation device 9 provides temperature, so that the sludge stored in the constant temperature area is kept at constant temperature and has certain activity, and when the stored sludge is used in a farmland, the sludge can be adapted more quickly; and the temperature irradiation is provided, so that the sludge in the constant temperature area can be dehydrated for three times, and the sludge is further dried.

When this scheme specifically functions, after mud deposits and finishes, make telescopic link 10 upward movement, until sealing thermostatic zone one side middle part opening part, make the temperature loss in the thermostatic zone reduce, set up to: the opening part in the middle of one side of the constant temperature area is provided with a telescopic plate, and the opening part in the middle of one side of the constant temperature area can be sealed by the telescopic plate.

When the scheme is operated, water generated by the sludge in the dehydration area, the drying area and the constant temperature area falls into the drainage area 8 below, and is discharged out of the box body 1 through the drainage area 8, so that the sludge and the water are separated; the process of the scheme can be judged according to the discharge amount of the water outlet, when no more water is discharged from the water outlet, the sludge on the sieve plate 4 can not be squeezed to remove water, and the next transportation operation can be carried out, namely the squeezing plate 3 starts to slide upwards.

Further, for the transportation of this device of convenience, set up to: the bottom of the box body 1 is provided with a plurality of universal wheels 2.

Further, for the acid and alkali corrosion resistance of adaptation sewage, box 1 need have certain rigidity and intensity, and long service life, can adopt if materials such as stereoplasm aluminum alloy, reinforcing nylon, set up to: the box body 1 is made of corrosion-resistant materials.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. A mobile biochemical sludge rapid treatment micro station comprises a box body (1) with a sludge inlet at one end, and is characterized by also comprising a dehydration area positioned in one end of the box body (1);

the dehydration area comprises an extrusion plate (3), a sieve plate (4) and an inclined plate (5), the middle part of the extrusion plate (3) is in sliding connection with the inner side of the box body (1), the extrusion plate (3) can slide up and down, the sieve plate (4) is positioned below the extrusion plate, the middle part of the sieve plate (4) is hinged with the inner side of the box body (1), the sieve plate (4) can rotate around the sieve plate (4), one end of the inclined plate (5) is hinged with one end of the sieve plate (4), the other end of the inclined plate (5) inclines downwards, and the other end of the inclined plate (5) is hinged with the inner side of the box body;

the sludge inlet is positioned between the extrusion plate (3) and the sieve plate (4), and the sieve plate (4) is used for separating water and sludge.

2. The mobile biochemical sludge rapid treatment micro-station according to claim 1, further comprising a drying zone located inside the box body, wherein the drying zone is used for drying the sludge treated in the dewatering zone, the drying zone comprises a filter screen (6) and a conveying device (7), the filter screen (6) is connected with the inner side of the top of the drying zone to form a cavity, a drying agent is placed inside the cavity, the conveying device (7) is connected with the inner bottom of the drying zone, and the conveying device (7) is used for conveying the sludge which slides down from the inclined plate (5).

3. The mobile biochemical sludge rapid treatment micro-station as claimed in claim 2, characterized in that it further comprises a constant temperature area, the constant temperature area keeps constant temperature of the sludge treated in the drying area, the constant temperature area comprises an irradiation device (9), the irradiation device (9) is located inside the constant temperature area, the middle of one side of the constant temperature area is open, and the terminal of the conveying device (7) is connected with the opening of the middle of one side of the constant temperature area.

4. The mobile biochemical sludge rapid treatment micro-station according to claim 3, wherein an expansion plate (10) is arranged at the middle opening at one side of the constant temperature area, and the expansion plate (10) can seal the middle opening at one side of the constant temperature area.

5. The mobile biochemical sludge rapid treatment micro-station according to claim 4, characterized in that a water discharge area (8) is arranged below the dehydration area, the drying area and the constant temperature area, and the water discharge area (8) is used for discharging water generated in the dehydration area, the drying area and the constant temperature area.

6. The mobile biochemical sludge rapid treatment micro-station according to claim 1, characterized in that the bottom of the box body (1) is provided with a plurality of universal wheels (2).

7. The mobile biochemical sludge rapid treatment micro-station according to claim 1, characterized in that the box body (1) is made of corrosion-resistant material.

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