CN215249652U - Sludge flow guide device for sewage treatment - Google Patents

Abstract

The utility model discloses a sludge flow guiding device for sewage treatment, which comprises sludge guide pipes arranged at two sides of the bottom of a sewage treatment cylinder body, wherein a spiral pushing assembly is rotationally arranged in each sludge guide pipe; a rotating rod is rotationally arranged in the cylinder body, and a scraper is arranged on the rotating rod; the end part of the rotating rod is positioned at the outer bottom of the cylinder body and is connected with a ring gear in a transmission way; the ring gear is in transmission connection with the spiral pushing assembly through a transmission gear; the barrel is internally provided with a separation net which is connected to the rotating rod through threads; the rotating rod and the mud guide pipe are arranged at the bottom of the sewage treatment cylinder, and the driving component drives the rotating rod to rotate so as to drive the spiral pushing component in the mud guide pipe to rotate, so that sludge at the bottom of the cylinder is guided and discharged; the bull stick drives the scraper blade at the pivoted in-process and strikes off the mud on barrel bottom and the inner wall to drive through rotating and separate the net and carry out vertical elevating movement, so that can reduce the sewage to the barrel bottom when making the bull stick drive the scraper blade and rotate and stir, effectively reduce mud water conservancy diversion exhaust water content.

Description

Sludge flow guide device for sewage treatment

Technical Field

The utility model relates to a sewage treatment technical field, concretely relates to mud guiding device for sewage treatment.

Background

In the sewage treatment process, sludge at the bottom of the sewage treatment cylinder needs to be drained in a diversion manner so as to prevent the sludge from accumulating at the bottom of the sewage treatment cylinder; the existing sewage treatment cylinder needs to scrape the adhered sludge on the inner wall of the cylinder when discharging the sludge, but the sewage and the sludge at the bottom of the cylinder can be stirred together in the rotating process of the scraper, so that the water content of the sludge in the process of diversion and discharge is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the weak point that exists in the above-mentioned technique, provide a mud guiding device for sewage treatment, aim at solving the problem that the mud discharge water content in the above-mentioned sewage treatment barrel is high.

The utility model provides a sludge flow guiding device for sewage treatment, which comprises sludge guide pipes arranged at two sides of the bottom of a sewage treatment cylinder body, wherein a spiral pushing assembly is arranged in the sludge guide pipes; a rotating rod is rotationally arranged in the cylinder body, and a scraper is arranged on the rotating rod; the end part of the rotating rod is positioned at the outer bottom of the cylinder body and is connected with a ring gear in a transmission way; the ring gear is in transmission connection with the spiral pushing assembly through a transmission gear; a separation net is arranged in the cylinder body and is in threaded connection with the rotating rod; the outer bottom of the barrel is provided with a driving assembly in transmission connection with the rotating rod so as to drive the rotating rod to rotate to drive the separation net in threaded connection with the rotating rod to perform lifting motion in the barrel.

Further, drive assembly includes driving motor and driving gear, the driving gear connect in the tip of bull stick, driving motor locates the barrel outer bottom, driving motor's output pass through the gear with the driving gear transmission is connected.

Further, the spiral pushing assembly comprises a pushing shaft and a spiral pushing blade arranged on the pushing shaft, the pushing shaft is rotatably arranged in the mud guide pipe, and one end of the pushing shaft is connected with the transmission gear.

Furthermore, a connecting plate is arranged at the end part of the rotating rod, and the ring gear is connected to the connecting plate.

Furthermore, a conical boss and an annular flat plate are arranged at the bottom in the barrel, the rotating rod is located in the middle of the conical boss, the annular flat plate is located at the bottom of the conical boss, a discharge port is formed in the annular flat plate, a guide chute is formed in the lower end of the discharge port, and the mud guide pipe is communicated with the guide chute.

Further, the end part of the pushing shaft penetrates through the material guide groove and is connected with the transmission gear.

Further, the scraper blade laminate in the annular flat plate with the toper boss rotates, still vertically be equipped with interior scraper blade on the scraper blade.

Further, the inner wall of the barrel is provided with a limiting groove, two sides of the separation net are provided with limiting bulges, and the limiting bulges are located in the limiting groove.

Compared with the prior art, the method has the following beneficial effects:

the utility model provides a sludge flow guiding device for sewage treatment, which is characterized in that a rotating rod and a sludge guide pipe are arranged at the bottom of a sewage treatment cylinder body, and a driving component drives the rotating rod to rotate so as to drive a spiral pushing component in the sludge guide pipe to rotate, so that sludge at the bottom of the cylinder body is guided and discharged; the bull stick drives the scraper blade at the pivoted in-process and strikes off the mud on barrel bottom and the inner wall to drive through rotating and separate the net and carry out vertical elevating movement, so that can reduce when making the bull stick drive the scraper blade and rotate and stir the sewage of barrel bottom, effectively reduce mud water conservancy diversion exhaust water content, improve mud water conservancy diversion discharge efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of a sludge diversion apparatus for sewage treatment according to the present invention;

FIG. 2 is a partially enlarged schematic view of a sludge diversion apparatus A for sewage treatment according to the present invention;

FIG. 3 is an axial view of the sludge guiding device for sewage treatment according to the present invention;

FIG. 4 is a schematic enlarged view of a part B of a sludge diversion apparatus for sewage treatment according to the present invention;

fig. 5 is the utility model relates to a sludge guiding device's inside sketch of barrel for sewage treatment.

In the figure, 1-cylinder; 2-a mud pipe; 3-a spiral pushing assembly; 4-rotating the rod; 5-a scraper; 6-a ring gear; 7-separating net; 8-a drive assembly; 9-a connecting plate; 10-a transmission gear; 11-a conical boss; 12-a ring-shaped flat plate; 13-a discharge hole; 14-a material guide groove; 15-a limiting groove; 31-a push shaft; 32-helical pusher blades; 71-a limiting bulge; 81-driving a motor; 82-driving gear.

Detailed Description

In order to make the structure and features and advantages of the present invention easier to understand, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 5, the utility model provides a sludge diversion device for sewage treatment, which comprises sludge guide pipes 2 arranged at two sides of the bottom of a sewage treatment cylinder body 1, wherein valves are arranged on the sludge guide pipes 2; a spiral pushing assembly 3 is rotatably arranged in the mud guide pipe 2, so that the mud in the cylinder body 1 is discharged through the mud guide pipe 2 through the spiral pushing assembly 3; a rotating rod 4 is rotatably arranged in the cylinder body 1, and a scraper 5 is arranged on the rotating rod 4; the end part of the rotating rod 4 is positioned at the outer bottom of the cylinder 1 and is connected with a ring gear 6 in a transmission way; the ring gear 6 is in transmission connection with the spiral pushing assembly 3 through a transmission gear 10; a separation net 7 is arranged in the cylinder body 1, and the separation net 7 is in threaded connection with the rotating rod 4, so that the separation net 7 vertically moves up and down along the rotating rod 4 in the rotating process of the rotating rod 4; the outer bottom of barrel 1 is equipped with the drive assembly 8 of being connected with the bull stick 4 transmission to drive bull stick 4 and rotate and drive threaded connection at the epaxial net 7 that separates of bull stick 4 and carry out elevating movement in barrel 1.

Specifically, drive assembly 8 includes driving motor 81 and driving gear 82, and driving gear 82 connects in the tip of bull stick 4, and driving motor 81 locates barrel 1 outer bottom, and driving motor 81's output passes through the gear and is connected with driving gear 82 transmission to drive driving gear 82 through driving motor 81 and drive bull stick 4 and rotate.

Specifically, the spiral pushing assembly 3 comprises a pushing shaft 31 and a spiral pushing blade 32 arranged on the pushing shaft 31, the pushing shaft 31 is rotatably arranged in the mud guide pipe 2, and one end of the pushing shaft 31 is connected with the transmission gear 10.

Specifically, the end of the rotating rod 4 is provided with a connecting plate 9, the ring gear 6 is connected to the connecting plate 9, so that the ring gear 6 is connected to the end of the rotating rod 4 through the connecting plate 9, so that the rotating rod 4 drives the pushing shaft 31 to rotate through the ring gear 6 in the rotating process, and the spiral pushing blade discharges the sludge diversion at the bottom of the barrel 1.

Example 2:

as shown in fig. 5, in combination with the technical solution of embodiment 1, in this embodiment, a conical boss 11 and an annular flat plate 12 are disposed at the bottom of a cylinder 1, a rotating rod 4 is located in the middle of the conical boss 11, the annular flat plate 12 is located at the bottom of the conical boss 11, a discharge hole 13 is disposed on the annular flat plate 12, a material guide chute 14 is disposed at the lower end of the discharge hole 13, and a mud guide pipe 2 is communicated with the material guide chute 14; the rotating rod 4 drives the pair of scrapers 5 in the process of rotating.

Specifically, as shown in fig. 2, an end of the pushing shaft 31 passes through the material guide chute 14 to be connected to the transmission gear 12, and the pushing shaft 31 is connected to one end of the material guide chute 14 through a bearing, so that the pushing shaft 31 is rotatably disposed in the mud guide pipe 2.

Specifically, as shown in fig. 5, scraper blade 5 laminates in annular flat plate 12 and toper boss 11 and rotates, and scraper blade 5 is still vertically equipped with in on scraper blade 5 to strike off mud on the barrel 1 inner wall, thereby effectively reduce the problem appearance that mud pastes on barrel 1 bottom inner wall, effectively improve mud water conservancy diversion discharge efficiency.

Specifically, as shown in fig. 4, the inner wall of the cylinder 1 is provided with a limiting groove 15, two sides of the separation net 7 are provided with limiting protrusions 71, and the limiting protrusions 71 are located in the limiting groove 15, so that the rotating rod 4 is rotated by the limiting protrusions 71, the external threads on the rotating rod 4 do not drive the separation net 7 to rotate, and the separation net 7 can vertically lift and lower under the rotation of the rotating rod 4.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications to the technical solution of the present invention without departing from the scope of the technical solution of the present invention, or to modify equivalent embodiments with equivalent variations. Therefore, any modification, equivalent change and modification of the above embodiments according to the present invention are all within the protection scope of the present invention.

Claims (8)

1. The sludge flow guide device for sewage treatment is characterized by comprising sludge guide pipes (2) arranged at two sides of the bottom of a sewage treatment cylinder body (1), wherein spiral pushing assemblies (3) are rotationally arranged in the sludge guide pipes (2); a rotating rod (4) is rotatably arranged in the cylinder body (1), and a scraper (5) is arranged on the rotating rod (4); the end part of the rotating rod (4) is positioned at the outer bottom of the cylinder body (1) and is connected with a ring gear (6) in a transmission way; the ring gear (6) is in transmission connection with the spiral pushing assembly (3) through a transmission gear (10); a separation net (7) is arranged in the cylinder body (1), and the separation net (7) is connected to the rotating rod (4) in a threaded manner; the outer bottom of the barrel body (1) is provided with a driving assembly (8) in transmission connection with the rotating rod (4) so as to drive the rotating rod (4) to rotate to drive the separation net (7) which is in threaded connection with the rotating rod (4) to perform lifting motion in the barrel body (1).

2. The sludge diversion device for sewage treatment according to claim 1, wherein the driving assembly (8) comprises a driving motor (81) and a driving gear (82), the driving gear (82) is connected to the end of the rotating rod (4), the driving motor (81) is arranged at the outer bottom of the cylinder body (1), and the output end of the driving motor (81) is in transmission connection with the driving gear (82) through a gear.

3. The sludge diversion device for sewage treatment as claimed in claim 1, wherein said spiral pushing assembly (3) comprises a pushing shaft (31) and a spiral pushing blade (32) arranged on said pushing shaft (31), said pushing shaft (31) is rotatably arranged in said sludge guide pipe (2), and one end of said pushing shaft (31) is connected with said transmission gear (10).

4. The sludge guiding device for sewage treatment according to claim 1, wherein the end of the rotating rod (4) is provided with a connecting plate (9), and the ring gear (6) is connected to the connecting plate (9).

5. The sludge diversion device for sewage treatment according to claim 3, wherein a conical boss (11) and an annular flat plate (12) are arranged at the bottom in the cylinder body (1), the rotating rod (4) is positioned in the middle of the conical boss (11), the annular flat plate (12) is positioned at the bottom of the conical boss (11), a discharge port (13) is arranged on the annular flat plate (12), a guide chute (14) is arranged at the lower end of the discharge port (13), and the sludge guide pipe (2) is communicated with the guide chute (14).

6. The sludge diversion device for sewage treatment according to claim 5, wherein the end of the pushing shaft (31) passes through the material guide groove (14) and is connected with the transmission gear (10).

7. The sludge diversion device for sewage treatment as claimed in claim 5, wherein said scraper (5) is attached to said annular flat plate (12) and said conical boss (11) to rotate, and an inner scraper (5) is vertically arranged on said scraper (5).

8. The sludge diversion device for sewage treatment according to claim 1, wherein a limiting groove (15) is formed in the inner wall of the cylinder body (1), limiting protrusions (71) are arranged on two sides of the separation net (7), and the limiting protrusions (71) are located in the limiting groove (15).

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