CN217127138U - Waste water recovery device for civil engineering - Google Patents

Abstract

The utility model relates to a waste water treatment technical field discloses a waste water recovery device for civil engineering, the drainage end symmetry of reposition of redundant personnel branch pipe is connected with the reposition of redundant personnel shower nozzle, first output shaft passes through the hold-in range with the second output shaft and is connected, and the outside symmetry cover of first output shaft is equipped with the output axle sleeve, the output of output axle sleeve is connected with rotatory swing arm, the top of rotatory swing arm is provided with rotatory pendulum, the outside cover of second output shaft is equipped with the auger delivery auger. The utility model discloses a layering of reposition of redundant personnel shower nozzle on the multiunit reposition of redundant personnel branch pipe in the waste water subsides subassembly is sprayed, can make the neutralizing agent carry out the neutralization reaction in step with the waste water of the different degree of depth, and it not only can improve the comprehensiveness of neutralization deposit, can reduce simultaneously and deposit long, and after the deposit finishes, collects vibrating, the screw feed of subassembly to the ash material through the ash material, can carry out mechanical integration, omnidirectional work of unloading to the ash material of collecting.

Description

Waste water recovery device for civil engineering

Technical Field

The utility model relates to a waste water treatment technical field specifically is a waste water recovery device for civil engineering.

Background

The civil engineering wastewater is a general name of all wastewater containing mud, sand, dust, construction machinery, machines and tools, construction operation workers and the like generated in the civil engineering construction process, the civil engineering wastewater has good recycling performance, the loss of the wastewater can be reduced by adopting reasonable process flows and scientific management and operation, and the common process flows comprise wastewater treatment methods such as a neutralization precipitation method, a sulfide precipitation method, an upward floating separation method, an electrolytic precipitation (or upward floating) method, a diaphragm electrolysis method and the like, wherein the neutralization precipitation method is used as a common process treatment method and is particularly widely used.

However, most of the neutralizing agents in the existing wastewater recovery device for civil engineering are uniformly poured and dispersed, the neutralizing agents are not completely neutralized with wastewater, the neutralizing and precipitating time is very long, and after the neutralizing and precipitating are finished, ash generated by precipitation is inconvenient to treat, and the ash generated by precipitation cannot be effectively discharged. Accordingly, those skilled in the art have provided a wastewater reclamation apparatus for civil engineering to solve the problems set forth in the above background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a waste water recovery device for civil engineering to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a waste water recovery device for civil engineering is composed of a waste water settling component and an ash collecting component;

the wastewater sedimentation assembly comprises a water storage tank, wherein the inner side of the water storage tank is symmetrically connected with branch pipes, the drainage ends of the branch pipes are symmetrically connected with branch spray heads, the water inlet ends of the branch pipes penetrate through the end surface of the water storage tank and are connected with branch pipe orifices, the water inlet ends of the branch pipe orifices are connected with a conveying main pipe, and the middle part of the conveying main pipe is connected with a liquid inlet pipe orifice;

the subassembly is collected to ash material is including connecting the ash hopper in storage water tank bottom port position department, the inboard of ash hopper is located both sides position department symmetric connection around the top has first output shaft, and the inboard of ash hopper is located bottom position department and is connected with the second output shaft, first output shaft passes through the hold-in range with the second output shaft and is connected, and the outside symmetric cover of first output shaft is equipped with the output axle sleeve, the output of output axle sleeve is connected with rotatory swing arm, the top of rotatory swing arm is provided with rotatory pendulum, the outside cover of second output shaft is equipped with the auger delivery auger, and the output of second output shaft is connected with driving motor, the bottom of ash hopper is located middle part position department and is connected with the mouth of pipe of unloading.

As a further aspect of the present invention: four groups are no less than to the quantity of reposition of redundant personnel branch pipe, and the spacing distance between the reposition of redundant personnel branch pipe is the same.

As a further aspect of the present invention: the shunt branch pipe is of a square frame structure, and the shunt spray heads are symmetrically arranged at equal intervals relative to the square frame of the shunt branch pipe.

As a further aspect of the present invention: the output end of the second output shaft is provided with a synchronous pulley A, the output end of the first output shaft is provided with a synchronous pulley B, and the synchronous pulley A is connected with the synchronous pulley B through a synchronous belt.

As a further aspect of the present invention: seven groups are no less than to the quantity of rotatory pendulum, and rotatory pendulum is spherical structure, and rotatory pendulum adopts the PVC material component.

As a further aspect of the present invention: the screw conveying auger is bounded by a central line, and the two sides of the central line are respectively provided with a positive screw propeller blade and a negative screw propeller blade which are symmetrically arranged with each other.

As a further aspect of the present invention: and support foot rests are symmetrically arranged at the edge positions of the involution edges of the water storage tank and the ash hopper.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses replaced the unified form of empting the spraying neutralizing agent of tradition, the layering through reposition of redundant personnel shower nozzle on the multiunit reposition of redundant personnel branch pipe in the waste water sedimentation subassembly sprays, can make the neutralizing agent carry out the neutralization reaction in step with the waste water of the different degree of depth, it not only can improve the comprehensiveness of neutralization deposit, it is long when can reducing neutralization deposit simultaneously, and after the deposit finishes, collect the vibrating of subassembly to the ash material through the ash material, auger delivery, can carry out mechanical integration, the omnidirectional work of unloading to the ash material of collection.

Drawings

FIG. 1 is a schematic view showing the construction of a wastewater reclamation apparatus for civil engineering;

FIG. 2 is an enlarged schematic view of a wastewater reclamation apparatus for civil engineering work at A in FIG. 1;

FIG. 3 is a schematic view showing the construction of a wastewater sedimentation module in a wastewater reclamation apparatus for civil engineering;

FIG. 4 is a schematic structural view of an ash collecting unit in a wastewater reclamation apparatus for civil engineering.

In the figure: 1. a water storage tank; 2. an ash hopper; 3. a supporting foot rest; 4. a delivery main pipe; 5. a shunt pipe orifice; 6. a liquid inlet pipe orifice; 7. a branch pipe; 8. a drive motor; 9. a synchronous pulley A; 10. a synchronous belt; 11. a synchronous pulley B; 12. a flow-dividing nozzle; 13. a first output shaft; 14. an output shaft sleeve; 15. rotating the swing arm; 16. rotating the pendulum bob; 17. a second output shaft; 18. a spiral conveying auger; 19. a discharge pipe orifice.

Detailed Description

Referring to fig. 1 to 4, in the embodiment of the present invention, a waste water recycling device for civil engineering is composed of a waste water sedimentation component and an ash collection component, the waste water sedimentation component includes a water storage tank 1, a support foot rest 3 is symmetrically disposed at the edge of the butt end of the water storage tank 1 and the ash hopper 2, a branch pipe 7 is symmetrically connected to the inner side of the water storage tank 1, a branch nozzle 12 is symmetrically connected to the water discharge end of the branch pipe 7, a branch pipe mouth 5 is connected to the end face of the branch pipe 7 penetrating the water storage tank 1, the water inlet end of the branch pipe mouth 5 is connected to a main conveyor 4, a liquid inlet pipe mouth 6 is connected to the middle of the main conveyor 4, the number of the branch pipes 7 is not less than four groups, the spacing distances between the branch pipes 7 are the same, the branch pipes 7 are in a square frame structure, the branch nozzles 12 are symmetrically arranged at equal intervals relative to the square frame of the branch pipes 7, when carrying out the recovery processing work to civil engineering waste water, adopt water pump equipment with civil engineering waste water pump send ash hopper 2 and storage water tank 1 in, after the pump send to suitable volume, carry neutralizer liquid to the delivery header 4 in through feed liquor mouth of pipe 6, delivery header 4 shunts the neutralizer, make the neutralizer carry to the reposition of redundant personnel branch pipe 7 in through reposition of redundant personnel mouth of pipe 5, and then spout through reposition of redundant personnel shower nozzle 12, make the neutralizer carry out integration, synchronous neutralization reaction to the waste water of the different degree of depth in ash hopper 2 and the storage water tank 1.

The ash material collecting component comprises an ash hopper 2 connected to the bottom port of the water storage tank 1, the inner side of the ash hopper 2 is symmetrically connected with a first output shaft 13 at the front side and the rear side of the top end, the inner side of the ash hopper 2 is connected with a second output shaft 17 at the bottom end, the first output shaft 13 is connected with the second output shaft 17 through a synchronous belt 10, the output end of the second output shaft 17 is provided with a synchronous belt wheel A9, the output end of the first output shaft 13 is provided with a synchronous belt wheel B11, the synchronous belt wheel A9 is connected with the synchronous belt wheel B11 through the synchronous belt 10, after the neutralization reaction and sedimentation layering of the civil wastewater are finished, the clear water at the upper layer is extracted by using a water pumping device, the clear water after sedimentation layering is extracted, after the clear water extraction is finished, the transmission motor 8 starts to work to drive the synchronous belt wheel A9 to rotate, and the synchronous belt wheel B11 is driven to synchronously rotate through the transfer transmission of the synchronous belt 10, thereby driving the first output shaft 13 and the second output shaft 17 to rotate synchronously.

The outside symmetry cover of first output shaft 13 is equipped with output axle sleeve 14, output axle sleeve 14's output is connected with rotatory pendulum arm 15, the top of rotatory pendulum arm 15 is provided with rotatory pendulum 16, seven groups are no less than to the quantity of rotatory pendulum 16, and rotatory pendulum 16 is spherical structure, rotatory pendulum 16 adopts PVC material component, first output shaft 13 is rotating the in-process, drive output axle sleeve 14 synchronous revolution, make the rotatory swing of rotatory swing arm 15, when rotatory swing arm 15 is rotatory to the top, rotatory pendulum 16 is under the action of gravity, free fall, the hammering is on ash hopper 2, shake the work that falls to the ash material of adhesion on 2 inner walls of ash hopper.

The outer side of the second output shaft 17 is sleeved with a spiral conveying auger 18, the output end of the second output shaft 17 is connected with a transmission motor 8, the bottom end of the ash hopper 2 is connected with a discharge pipe orifice 19 at the middle position, the spiral conveying auger 18 uses a central line as a boundary, and the two sides of the central line are respectively provided with a forward propeller blade and a reverse propeller blade which are symmetrically arranged with each other, the second output shaft 17 drives the spiral conveying auger 18 to synchronously rotate in the rotating process, and the ash in the ash hopper 2 is spirally conveyed out through the discharge pipe orifice 19 by the symmetrical forward propeller blades and the reverse propeller blades which are symmetrically arranged with each other on the spiral conveying auger 18.

The utility model discloses a theory of operation is: when the civil wastewater is recycled, the civil wastewater is pumped into the ash hopper 2 and the water storage tank 1 by a water pump device, after the civil wastewater is pumped to a proper amount, the neutralizing agent liquid is conveyed into the conveying main pipe 4 through the liquid inlet pipe orifice 6, the conveying main pipe 4 divides the neutralizing agent, the neutralizing agent is conveyed into the branch pipes 7 through the branch pipe orifices 5 and is further sprayed out through the branch spray nozzles 12, the neutralizing agent integrates and synchronously neutralizes the wastewater at different depths in the ash hopper 2 and the water storage tank 1, after the civil wastewater neutralization reaction and sedimentation layering are finished, the clear water on the upper layer is pumped by a water pumping device, the clear water after sedimentation layering is pumped out, after the clear water pumping is finished, the transmission motor 8 starts to work to drive the synchronous belt pulley A9 to rotate, the synchronous belt pulley B11 is driven to synchronously rotate through the transfer transmission of the synchronous belt 10, and the first output shaft 13 and the second output shaft 17 are further driven to synchronously rotate, the first output shaft 13 drives the output shaft sleeve 14 to rotate synchronously in the rotation process, so that the rotary swing arm 15 rotates and swings, when the rotary swing arm 15 rotates to the topmost end, the rotary pendulum mass 16 freely falls under the action of gravity, and is hammered on the ash hopper 2 to vibrate and shake off ash materials adhered to the inner wall of the ash hopper 2, the second output shaft 17 drives the spiral conveying auger 18 to rotate synchronously in the rotation process, and symmetrical spiral conveying work is carried out on the ash materials in the ash hopper 2 through the forward and reverse spiral blades which are symmetrically arranged on the spiral conveying auger 18, so that the ash materials are spirally conveyed out through the discharge pipe orifice 19.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The waste water recovery device for civil engineering is characterized by comprising a waste water settling component and an ash collecting component;

the wastewater sedimentation assembly comprises a water storage tank (1), wherein the inner side of the water storage tank (1) is symmetrically connected with branch pipes (7), the drain ends of the branch pipes (7) are symmetrically connected with branch spray heads (12), the water inlet ends of the branch pipes (7) penetrate through the end surface of the water storage tank (1) and are connected with branch pipe orifices (5), the water inlet ends of the branch pipe orifices (5) are connected with a conveying main pipe (4), and the middle part of the conveying main pipe (4) is connected with a liquid inlet pipe orifice (6);

the ash collecting component comprises an ash hopper (2) connected at the bottom port of the water storage tank (1), the inner side of the ash hopper (2) is symmetrically connected with first output shafts (13) at the front side and the rear side of the top end, and the inner side of the ash hopper (2) is connected with a second output shaft (17) at the bottom end, the first output shaft (13) is connected with the second output shaft (17) through a synchronous belt (10), and the outer side of the first output shaft (13) is symmetrically sleeved with an output shaft sleeve (14), the output end of the output shaft sleeve (14) is connected with a rotary swing arm (15), the top end of the rotary swing arm (15) is provided with a rotary pendulum (16), a spiral conveying auger (18) is sleeved on the outer side of the second output shaft (17), and the output end of the second output shaft (17) is connected with the transmission motor (8), and the bottom end of the ash hopper (2) is connected with a discharge pipe orifice (19) at the middle position.

2. The wastewater reclamation apparatus for civil engineering as recited in claim 1, wherein the number of the branch pipes (7) is not less than four, and the separation distances between the branch pipes (7) are the same.

3. The wastewater reclamation apparatus as recited in claim 1, wherein the branch distribution pipe (7) has a square frame structure, and the branch distribution nozzles (12) are symmetrically arranged at equal intervals with respect to the square frame of the branch distribution pipe (7).

4. The wastewater reclamation device for civil engineering as recited in claim 1, wherein the output end of the second output shaft (17) is provided with a synchronous pulley A (9), the output end of the first output shaft (13) is provided with a synchronous pulley B (11), and the synchronous pulley A (9) is connected with the synchronous pulley B (11) through a synchronous belt (10).

5. A wastewater reclamation device as recited in claim 1, wherein the number of the rotary pendulum (16) is not less than seven, and the rotary pendulum (16) has a spherical structure, and the rotary pendulum (16) is made of a member made of PVC.

6. The waste water recovery device for civil engineering as claimed in claim 1, characterized in that the screw conveyor auger (18) is bounded by a central line, and the two sides of the central line are respectively provided with a forward screw propeller blade and a reverse screw propeller blade which are symmetrically arranged with each other.

7. The wastewater reclamation apparatus as claimed in claim 1, wherein supporting legs (3) are symmetrically arranged at the edge positions of the butt joint of the water storage tank (1) and the ash hopper (2).

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