Municipal administration room is built and is used mud resourceful treatment device
Technical Field
The utility model relates to the technical field of sludge recycling treatment, in particular to a sludge recycling treatment device for municipal house construction.
Background
Sludge treatment is a process of reducing, stabilizing and harmlessly treating sludge, and the higher the degree of sewage treatment is, the more sludge residues are generated to be treated. Unless land treatment or lagooning is used to treat sewage, a typical sewage treatment plant must be provided with sludge treatment facilities, and with modern sewage treatment plants, the treatment and disposal of sludge has become the most complex and costly part of the operation of sewage treatment systems.
However, the existing municipal houses can generate a large amount of sludge sewage in the construction process, and the sludge sewage is mixed with a large amount of cement and stone slag, so that the direct discharge can cause resource waste; therefore, the existing requirements are not met, and a sludge recycling treatment device for municipal house construction is provided for the existing requirements.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a sludge resource treatment device for municipal building construction, which solves the problems that the existing municipal building construction in the background art can generate a large amount of sludge sewage in the construction process, and the sewage is mixed with a large amount of cement and stone slag, so that the direct discharge can cause resource waste.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a municipal administration room is built and is used mud resourceful treatment device, includes the muddy water conversion pond, the muddy water conversion pond includes silt cell body and slabstone cell body, and silt cell body and slabstone cell body set up the integral type structure, be provided with the transfer gate between silt cell body and the slabstone cell body, the bottom of silt cell body one end is provided with the mouth of a river, and the one end of slabstone cell body is provided with the valve port of intaking, the outside at silt cell body top is provided with horizontal slide rail, and horizontal slide rail passes through bolted connection with the silt cell body, the top of horizontal slide rail is provided with the support crane span structure, and supports crane span structure and horizontal slide rail sliding connection, one side of slabstone cell body bottom is provided with the emission flashboard, and discharges flashboard and slabstone cell body and pass through hinge rotation connection.
Preferably, a circulating water tank is arranged below the water filtering port, a circulating pump pipe is arranged at one end of the circulating water tank, and the circulating pump pipe is connected with the water inlet valve port through a flange.
Preferably, the inside of transfer gate is provided with the lift flashboard, and lift flashboard and transfer gate sliding connection, the top of supporting the crane span structure is provided with hydraulic assembly, and hydraulic assembly has a plurality ofly.
Preferably, a metal push plate is arranged below the supporting bridge, and a hydraulic rod is arranged between the metal push plate and the supporting bridge.
Preferably, the silt cell body includes evaporation chamber and drainage chamber, and the drainage chamber sets up the below at the evaporation chamber, be provided with the metal crate screen cloth between evaporation chamber and the drainage chamber, and the metal crate screen cloth passes through bolted connection with the silt cell body.
Preferably, the transfer gate extends to the inside of the evaporation cavity, and the filtered water port extends to the inside of the filtered water cavity.
Compared with the prior art, the utility model has the beneficial effects that:
1. the sludge produced by municipal building is poured into the slag stone tank body, then the water inlet valve port is opened, initial clean water flows into the slag stone tank body to wash the slag stones inside, muddy water produced by cleaning is discharged into the silt tank body through the transfer gate port, the separation between sand and slag stones is completed, the cleaned slag stones can be reused for normal building, and the sand and stones can be used for filling pits, so that the resource is recycled;
2. the inside of the sediment tank body is divided into two areas, namely the evaporation cavity and the water filtering cavity, through the metal frame screen, sand and stones in the sediment tank body are intercepted in the evaporation cavity, the mixture enters the water filtering cavity through the metal frame screen, finally the sand and stones in the evaporation cavity are fished out after the water of the sand and stones is approximately separated, and the settled mud and water are input into the inside of the sediment tank body again through the pump body, so that the consumption of water resources is saved.
Drawings
FIG. 1 is an overall front view of the present invention;
FIG. 2 is a schematic view of a support bridge construction of the present invention;
fig. 3 is a schematic view of the cross-sectional structure of the silt cell body of the present invention.
In the figure: 1. a mud-water conversion pool; 2. a silt pool body; 3. a slag rock tank body; 4. a water filtering port; 5. a circulating water tank; 6. a circulating pump pipe; 7. a horizontal slide rail; 8. supporting the bridge; 9. a hydraulic assembly; 10. a transfer gate; 11. a water inlet valve port; 12. a discharge gate; 13. lifting the gate plate; 14. a metal push plate; 15. a hydraulic rod member; 16. an evaporation chamber; 17. a water filtering cavity; 18. a metal frame screen.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1, an embodiment of the present invention: a sludge resource treatment device for municipal building construction comprises a sludge-water conversion tank 1, wherein the sludge-water conversion tank 1 comprises a silt tank body 2 and a slag stone tank body 3, the silt tank body 2 and the slag stone tank body 3 are of an integrated structure, sludge generated by the municipal building construction is poured into the slag stone tank body 3, a water inlet valve port 11 is opened subsequently, initial clean water flows into the slag stone tank body 3 to flush the inside slag stone, the sludge-water generated by cleaning is discharged into the silt tank body 2 through a transfer gate port 10, the separation between sand and slag stone is completed, the cleaned slag stone can be reused for normal construction, sand and stone can be used for filling pits, the resource recycling is realized, the transfer gate port 10 is arranged between the silt tank body 2 and the slag stone tank body 3, a water filter port 4 is arranged at the bottom of one end of the silt tank body 2, and one end of the slag stone tank body 3 is provided with a water inlet valve port 11, the outside at 2 tops of silt cell body is provided with horizontal slide rail 7, and horizontal slide rail 7 passes through bolted connection with silt cell body 2, the top of horizontal slide rail 7 is provided with supports crane span structure 8, and support crane span structure 8 and 7 sliding connection of horizontal slide rail, one side of 3 bottoms of sediment cell body is provided with discharges flashboard 12, and it is connected through hinge rotation with sediment cell body 3 to discharge flashboard 12, the below of drainage mouth 4 is provided with circulating water tank 5, and circulating water tank 5's one end is provided with circulating pump pipe 6, circulating pump pipe 6 passes through flange joint with water inlet valve port 11, the muddy water that washs the sediment production is after filtering, precipitate once more, then input sediment cell body 3's inside again through the pump body, thereby the consumption of water economy resource.
Referring to fig. 2, a lifting gate 13 is disposed inside the transfer gate 10, and the lifting gate 13 is slidably connected to the transfer gate 10, the lifting gate 13 can be retracted downward, so that the mud and water on the upper layer of the ballast tank body 3 can flow into the silt tank body 2, the descending height of the lifting flashboard 13 needs to be adjusted according to the sediment sedimentation height in the sediment tank body 3 to prevent the sediment from entering the sediment tank body 2 along with the water flow, a hydraulic component 9 is arranged above the supporting bridge frame 8, and a plurality of hydraulic assemblies 9 are provided, a metal push plate 14 is arranged below the supporting bridge frame 8, a hydraulic rod piece 15 is arranged between the metal push plate 14 and the supporting bridge frame 8, the hydraulic rod piece 15 is responsible for controlling the lifting height of the metal push plate 14, thereby drive metal push pedal 14 through supporting crane span structure 8 and crowd one side with the silt that filters out behind the moisture, make things convenient for the filtration of follow-up muddy water.
Referring to fig. 3, the silt pool body 2 includes an evaporation chamber 16 and a water filtration chamber 17, the water filtration chamber 17 is disposed below the evaporation chamber 16, a metal frame screen 18 is disposed between the evaporation chamber 16 and the water filtration chamber 17, the metal frame screen 18 is connected to the silt pool body 2 through a bolt, the transfer gate 10 extends to the inside of the evaporation chamber 16, the water filtration port 4 extends to the inside of the water filtration chamber 17, the metal frame screen 18 divides the inside of the silt pool body 2 into two regions, namely the evaporation chamber 16 and the water filtration chamber 17, wherein sand and stone in the silt pool body are intercepted in the evaporation chamber 16, and the mixture enters the water filtration chamber 17 through the metal frame screen 18, and finally the sand and stone is fished out after the moisture of the sand and stone in the evaporation chamber 16 is substantially separated.
The working principle is as follows: when the sludge-water separator is used, sludge generated by municipal building is poured into the slag-rock tank body 3, then the water inlet valve port 11 is opened, initial clean water flows into the slag-rock tank body 3 to wash the inner slag rocks, the muddy water generated by cleaning is discharged into the silt tank body 2 through the transfer gate port 10, the lifting gate 13 is arranged inside the transfer gate port 10 and can be contracted downwards, so that the muddy water on the upper layer of the slag-rock tank body 3 can flow into the silt tank body 2, the descending height of the lifting gate 13 needs to be adjusted according to the slag-rock sedimentation height inside the slag-rock tank body 3, the slag rocks are prevented from entering the silt tank body 2 along with water flow, the inside of the silt tank body 2 is provided with the metal frame screen 18, the metal frame screen 18 divides the inside of the silt tank body 2 into two areas, namely an evaporation cavity 16 and a water filtering cavity 17, wherein gravels in the mud water are intercepted in the evaporation cavity 16, and the mixture enters the water filtering cavity 17 through the metal frame screen 18, finally the sand and stone in the evaporation cavity 16 are fished out after the water is almost separated, finally the muddy water generated by cleaning the slag stone is filtered, precipitated again and then input into the slag stone tank body 3 again through the pump body, thereby saving the consumption of water resources.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.