CN215166450U - Automatically cleaning sewage treatment pond - Google Patents

Abstract

The utility model relates to a sewage treatment device technical field specifically relates to a self-cleaning sewage treatment pond, include: a sewage tank; the method comprises the following steps: the overturning slide rail is arranged on the inner wall of the sewage pool; the garbage outward turning mechanism is arranged outside the sewage tank, and the output end of the garbage outward turning mechanism is positioned in the sewage tank and is connected with the turning slide rail in a sliding manner; the garbage stirring mechanism is arranged on the sewage pool, and the output end of the garbage stirring mechanism is far away from the output end of the garbage outward turning mechanism; the gasbag sets up in rubbish toggle mechanism's output, and this technical scheme can carry out the pertinence to the floating garbage in the sewage and salvage, and the effectual possibility of avoiding delivery port jam and sewage pump damage has improved sewage treatment's efficiency.

Description

Automatically cleaning sewage treatment pond

Technical Field

The utility model relates to a sewage treatment device technical field specifically relates to a automatically cleaning sewage treatment pond.

Background

Under the current trend, petrochemical enterprises usually select remote areas because the petrochemical enterprises need to avoid building in urban areas, and are independently equipped with sewage treatment facilities, and sewage in each production workshop needs to be gathered to a sewage pump station to be intensively conveyed to a sewage plant; in the prior art, when a sewage pool is used for conveying sewage, one main fault type is that various factory garbage or household garbage can float on the sewage pool, when a sewage pump is started, the garbage can gather to the suction position of the pump, so that the probability that the garbage blocks the suction port of the pump is greatly increased, and the sewage pump is damaged;

therefore, the self-cleaning sewage treatment tank is provided according to the needs, floating garbage in sewage can be fished in a targeted manner, the possibility of water outlet blockage and sewage pump damage is effectively avoided, and the sewage treatment efficiency is improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the self-cleaning sewage treatment tank is provided, the floating garbage in the sewage can be pertinently salvaged by the technical scheme, the possibility of water outlet blockage and sewage pump damage is effectively avoided, and the sewage treatment efficiency is improved.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a self-cleaning wastewater treatment basin comprising:

a sewage tank;

the method comprises the following steps:

the overturning slide rail is arranged on the inner wall of the sewage pool;

the garbage outward turning mechanism is arranged outside the sewage tank, and the output end of the garbage outward turning mechanism is positioned in the sewage tank and is connected with the turning slide rail in a sliding manner;

the garbage stirring mechanism is arranged on the sewage pool, and the output end of the garbage stirring mechanism is far away from the output end of the garbage outward turning mechanism;

the air bag is arranged at the output end of the garbage stirring mechanism.

Preferably, the garbage turning-up mechanism comprises:

a recess is formed in one side of the bottom of the sewage pool, and the hopper is positioned in the recess;

the pulley is arranged above one side of the sewage pool;

one end of the steel cable is connected with the hopper;

the other end of the steel cable is wound on the working end of the winding component;

and the output end of the winding driving component is connected with the stress end of the winding component.

Preferably, the winding assembly comprises:

the bearing seat is arranged below the outer part of the sewage pool;

the support rod is arranged on the bearing seat and is rotatably connected with the bearing seat, and the output end of the winding driving component is connected with the support rod;

the winding roller is sleeved on the support rod and fixedly connected with the support rod, and the steel cable is wound on the winding roller.

Preferably, the winding driving assembly comprises:

the first servo motor is arranged outside the sewage pool;

the first belt pulley is arranged at the output end of the first servo motor;

the second belt pulley is arranged at the stress end of the supporting rod, and the first belt pulley and the second belt pulley are in transmission connection through a belt.

Preferably, the garbage poking mechanism comprises:

the air bag is arranged above the poking plate;

the hexagonal rod is arranged at the top of the poking plate and is fixedly connected with the poking plate;

stir drive assembly, set up in the top of effluent water sump, hexagonal pole is connected with the output of stirring drive assembly, stirs drive assembly's the direction of operation and turns up the mechanism towards rubbish.

Preferably, the toggle drive assembly comprises:

the threaded rod is arranged outside the sewage pool and is rotatably connected with the sewage pool;

the second servo motor is arranged on the sewage pool, and the output end of the second servo motor is connected with the threaded rod;

the working block is sleeved on the threaded rod and is in threaded connection with the threaded rod;

the slide rail sets up in the top of effluent water sump, work piece and slide rail sliding connection, six arris poles and work piece sliding connection.

Compared with the prior art, the utility model beneficial effect who has is: the sewage is filled into the sewage pool by workers, water at the output end of the garbage stirring mechanism is driven to rise along with the surface height by buoyancy of the air bag in the sewage filling process, when the sewage surface needs to be cleaned, the garbage stirring mechanism starts to work, the garbage is stirred to the output end of the garbage turning mechanism by the output end of the garbage stirring mechanism, the garbage is located above the output end of the garbage turning mechanism at the moment, the garbage turning mechanism starts to work, and the garbage is shoveled by the output end of the garbage turning mechanism to rise along the turning slide rail and turn over, so that the garbage is poured out of the sewage pool;

1. through the arrangement of the air bag and the garbage stirring mechanism, garbage can be cleaned from sewage at different depths;

2. through the setting of this equipment, can carry out the pertinence to the floating garbage in the sewage and salvage, the effectual possibility of having avoided delivery port jam and sewage pump to damage has improved sewage treatment's efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a schematic three-dimensional structure diagram of the present invention;

fig. 4 is an enlarged view of fig. 3a according to the present invention;

fig. 5 is a schematic three-dimensional structure diagram of the present invention;

fig. 6 is a top view of the present invention.

The reference numbers in the figures are:

1-a sewage tank; 1 a-a recess;

2-overturning the slide rail;

3-a garbage outward turning mechanism; 3 a-a hopper; 3 b-a pulley; 3 c-a steel cord; 3 d-a winding component; 3d 1-bearing seat; 3d 2-support bar; 3d 3-wind-up roll; 3 e-a winding driving component; 3e1 — first servomotor; 3e 2-first pulley; 3e 3-second pulley;

4-a garbage stirring mechanism; 4 a-a toggle plate; 4 b-hexagonal rods; 4 c-a toggle driving assembly; 4c 1-threaded rod; 4c 2-second servomotor; 4c3 — work block; 4c 4-slide;

5-air bag.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1, a self-cleaning sewage treatment tank includes:

a sewage tank 1;

the method comprises the following steps:

the overturning slide rail 2 is arranged on the inner wall of the sewage pool 1;

the garbage outward turning mechanism 3 is arranged outside the sewage tank 1, and the output end of the garbage outward turning mechanism 3 is positioned in the sewage tank 1 and is connected with the turning slide rail 2 in a sliding manner;

the garbage stirring mechanism 4 is arranged on the sewage pool 1, and the output end of the garbage stirring mechanism 4 is far away from the output end of the garbage turning mechanism 3;

the air bag 5 is arranged at the output end of the garbage stirring mechanism 4;

the staff pours sewage into the inside of effluent water sump 1 into, the buoyancy that drives 4 output end water of rubbish toggle mechanism through gasbag 5 at the in-process that sewage pours into rises along with the face height, when needs begin to clear up the sewage surface, rubbish toggle mechanism 4 begins to work, rubbish toggle mechanism 4's output is stirred rubbish to the output of rubbish turn-up mechanism 3, rubbish is in rubbish turn-up mechanism 3 output top this moment, rubbish turn-up mechanism 3 begins to work, rubbish is shoveled along upset slide rail 2 and is risen and turn to the output of rubbish turn-up mechanism 3, pour rubbish out effluent water sump 1.

The mechanism 3 for turning up the waste as shown in fig. 2 comprises:

a concave 1a is arranged on one side of the bottom of the sewage pool 1, and the hopper 3a is positioned in the concave 1 a;

the pulley 3b is arranged above one side of the sewage tank 1;

one end of the steel cable 3c is connected with the hopper 3 a;

the other end of the steel cable 3c is wound on the working end of the winding component 3 d;

the output end of the winding driving component 3e is connected with the stress end of the winding component 3 d;

when garbage is located above the hopper 3a, the rolling driving component 3e starts to work, the output end of the rolling driving component 3e drives the stress end of the rolling component 3d to rotate, the output end of the rolling component 3d drives the hopper 3a to move along the overturning slide rail 2 through the steel cable 3c, the hopper 3a moves along the overturning slide rail 2 to scoop up and turn over the garbage, and the pulley 3b is used for supporting the steel cable 3c and rotates in a matched mode.

The winding assembly 3d shown in fig. 3 comprises:

a bearing seat 3d1 provided below the outside of the wastewater tank 1;

the supporting rod 3d2 is arranged on the bearing seat 3d1 and is rotatably connected with the bearing seat, and the output end of the winding driving component 3e is connected with the supporting rod 3d 2;

the winding roller 3d3 is sleeved on the support rod 3d2 and fixedly connected with the support rod, and the steel cable 3c is wound on the winding roller 3d 3;

the output end of the winding driving component 3e drives the supporting rod 3d2 to rotate, and the supporting rod 3d2 winds the steel cable 3c through the winding roller 3d 3.

The take-up drive assembly 3e shown in fig. 4 includes:

a first servo motor 3e1 provided outside the wastewater tank 1;

a first pulley 3e2 disposed at the output end of the first servo motor 3e 1;

the second belt pulley 3e3 is arranged at the stress end of the supporting rod 3d2, and the first belt pulley 3e2 is in transmission connection with the second belt pulley 3e3 through a belt;

the winding driving assembly 3e starts to work, the output end of the first servo motor 3e1 drives the first belt pulley 3e2 to rotate, the first belt pulley 3e2 drives the second belt pulley 3e3 to rotate through the belt, the second belt pulley 3e3 drives the supporting rod 3d2 to rotate, and the supporting rod 3d2 winds the steel cable 3c through the winding roller 3d 3.

As shown in fig. 5, the garbage poking mechanism 4 comprises:

a toggle plate 4a, an airbag 5 is arranged above the toggle plate 4 a;

the hexagonal rod 4b is arranged at the top of the poking plate 4a and is fixedly connected with the poking plate;

the stirring driving component 4c is arranged above the sewage pool 1, the hexagonal rod 4b is connected with the output end of the stirring driving component 4c, and the working direction of the stirring driving component 4c faces the garbage outward turning mechanism 3;

the buoyancy of 5 at the in-process that sewage was irritated drives stirring board 4a and rises along with the water level height, when needs begin to carry out the decontamination to the sewage surface, rubbish toggle mechanism 4 begins work, and the output of stirring drive assembly 4c drives through hexagonal pole 4b and stirs the output of board 4a towards rubbish mechanism 3 that turns up.

The toggle drive assembly 4c shown in fig. 6 comprises:

a threaded rod 4c1 arranged outside the wastewater tank 1 and rotatably connected therewith;

the second servo motor 4c2 is arranged on the sewage pool 1, and the output end of the second servo motor 4c2 is connected with the threaded rod 4c 1;

the working block 4c3 is sleeved on the threaded rod 4c1 and is in threaded connection with the threaded rod;

the slide rail 4c4 is arranged at the top of the sewage pool 1, the working block 4c3 is in sliding connection with the slide rail 4c4, and the hexagonal rod 4b is in sliding connection with the working block 4c 3;

when the sewage surface needs to be cleaned, the garbage stirring mechanism 4 starts to work, the output end of the stirring driving component 4c drives the working block 4c3 to move towards the output end of the garbage outward turning mechanism 3 along the sliding rail 4c4 through the threaded rod 4c1, the working block 4c3 drives the stirring plate 4a to move along with the working block through the hexagonal rod 4b, and the stirring plate 4a stirs the garbage to the output end of the garbage outward turning mechanism 3 in the moving process.

The utility model discloses a theory of operation: the sewage is filled into the sewage pool 1 by a worker, the poking plate 4a is driven to ascend along with the height of the water surface by the buoyancy of the air bag 5 in the sewage filling process, when the sewage surface needs to be cleaned, the garbage poking mechanism 4 starts to work, the output end of the poking driving component 4c drives the working block 4c3 to move towards the output end of the garbage everting mechanism 3 along the slide rail 4c4 through the threaded rod 4c1, the working block 4c3 drives the poking plate 4a to move along with the working block through the hexagonal rod 4b, the garbage is poked to the position above the hopper 3a in the moving process of the poking plate 4a, the rolling driving component 3e starts to work, the output end of the first servo motor 3e1 drives the first belt pulley 3e2 to rotate, the first belt pulley 3e2 drives the second belt pulley 3e3 to rotate through the belt, the second belt pulley 3e3 drives the supporting rod 3d2 to rotate, the supporting rod 3d2 winds the steel cable wire through the rolling roller 3d3, the steel cable 3c drives the hopper 3a to move along the overturning slide rail 2, and the hopper 3a moves along the overturning slide rail 2 to scoop up and turn outwards the garbage and pour the garbage out of the sewage tank 1.

This device realizes through following step the utility model discloses a function, and then solved the utility model provides a technical problem:

firstly, a worker injects sewage into the sewage pool 1, and water at the output end of the garbage stirring mechanism 4 is driven to rise along with the surface height by the buoyancy of the air bag 5 in the sewage injection process;

step two, the garbage stirring mechanism 4 starts to work, and the output end of the garbage stirring mechanism 4 stirs the garbage to the output end of the garbage outward turning mechanism 3;

and step three, the garbage outward turning mechanism 3 starts to work, the output end of the garbage outward turning mechanism 3 shovels the garbage to ascend along the turning slide rail 2 and turns over, and the garbage is poured out of the sewage tank 1.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A self-cleaning wastewater treatment basin comprising:

a sewage tank (1);

it is characterized by comprising:

the overturning slide rail (2) is arranged on the inner wall of the sewage pool (1);

the garbage outward turning mechanism (3) is arranged outside the sewage tank (1), and the output end of the garbage outward turning mechanism (3) is positioned in the sewage tank (1) and is in sliding connection with the turning slide rail (2);

the garbage stirring mechanism (4) is arranged on the sewage pool (1), and the output end of the garbage stirring mechanism (4) is far away from the output end of the garbage outward turning mechanism (3);

and the air bag (5) is arranged at the output end of the garbage stirring mechanism (4).

2. A self-cleaning wastewater treatment basin according to claim 1, characterized in that the garbage evagination mechanism (3) comprises:

one side of the bottom of the sewage pool (1) is provided with a recess (1a), and the hopper (3a) is positioned in the recess (1 a);

the pulley (3b) is arranged above one side of the sewage tank (1);

a steel cable (3c), one end of the steel cable (3c) is connected with the hopper (3 a);

the other end of the steel cable (3c) is wound on the working end of the winding component (3 d);

the output end of the winding driving component (3e) is connected with the stress end of the winding component (3 d).

3. A self-cleaning wastewater treatment basin according to claim 2, characterized in that the rolling component (3d) comprises:

a bearing seat (3d1) arranged below the outside of the sewage tank (1);

the supporting rod (3d2) is arranged on the bearing seat (3d1) and is rotatably connected with the bearing seat, and the output end of the winding driving component (3e) is connected with the supporting rod (3d 2);

the winding roller (3d3) is sleeved on the support rod (3d2) and fixedly connected with the support rod, and the steel cable (3c) is wound on the winding roller (3d 3).

4. A self-cleaning wastewater treatment basin according to claim 3, characterized in that the winding drive assembly (3e) comprises:

a first servo motor (3e1) provided outside the wastewater tank (1);

a first belt pulley (3e2) arranged at the output end of the first servo motor (3e 1);

the second belt pulley (3e3) is arranged at the stress end of the supporting rod (3d2), and the first belt pulley (3e2) is in transmission connection with the second belt pulley (3e3) through a belt.

5. A self-cleaning wastewater treatment basin according to claim 1, characterized in that the garbage poking mechanism (4) comprises:

a toggle plate (4a), wherein the air bag (5) is arranged above the toggle plate (4 a);

the hexagonal rod (4b) is arranged at the top of the poking plate (4a) and is fixedly connected with the poking plate;

stir drive assembly (4c), set up in the top of effluent water sump (1), hexagonal pole (4b) are connected with the output of stirring drive assembly (4c), stir the working direction of drive assembly (4c) towards rubbish mechanism (3) of turning up.

6. A self-cleaning wastewater treatment basin according to claim 5, characterized in that the toggle driving assembly (4c) comprises:

the threaded rod (4c1) is arranged outside the sewage pool (1) and is rotatably connected with the sewage pool;

the second servo motor (4c2) is arranged on the sewage pool (1), and the output end of the second servo motor (4c2) is connected with the threaded rod (4c 1);

the working block (4c3) is sleeved on the threaded rod (4c1) and is in threaded connection with the threaded rod;

the slide rail (4c4) is arranged at the top of the sewage pool (1), the working block (4c3) is in sliding connection with the slide rail (4c4), and the hexagonal rod (4b) is in sliding connection with the working block (4c 3).

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