CN219950623U - High-efficient magnetism coagulation equipment - Google Patents

Abstract

The utility model discloses efficient magnetic coagulation equipment which comprises a module base, a precipitation auxiliary mechanism and a terminal collecting mechanism, wherein the precipitation auxiliary mechanism is arranged in the module base, and the terminal collecting mechanism is arranged at the bottom end of the precipitation auxiliary mechanism. This high-efficient magnetism coagulation equipment, the left access pipe of accessible will pass through the sewage conduction behind the magnetism coagulation to deposit the intracavity portion, at this moment earlier with deposit the intracavity sewage and keep still, let sewage slowly deposit, after a period of standing, rethread motor drives gangbar and the vortex flabellum that the bottom is connected and carries out slow rotatory process, thereby form the retarder vortex, the interior sewage of accelerating the deposit chamber is to the bottom drunkenness, thereby make things convenient for the precipitate in the sewage to collect the structure subsides downwards, promote whole sedimentation efficiency, and the block sets up in the anti-reflux frame of deposit chamber top position, then can avoid deposit the precipitate counter current phenomenon that appears in the initial in-process of sediment transmission, promote whole efficiency through this kind of center flow accelerating mode.

Description

High-efficient magnetism coagulation equipment

Technical Field

The utility model relates to the technical field of sewage magnetic coagulation treatment, in particular to efficient magnetic coagulation equipment.

Background

The sewage treatment is a process for purifying sewage to achieve the water quality requirement of being discharged into a certain water body or reused, and is widely applied to various fields of building, agriculture, traffic, energy, petrochemical industry, environmental protection, urban landscapes, medical treatment, catering and the like, and the magnetic coagulation sedimentation technology is to synchronously add magnetic powder into the common sewage coagulation sedimentation technology to flocculate and combine the magnetic powder and pollutants into a whole so as to strengthen the coagulation and flocculation effects, so that the generated flocs have larger density and are stronger, and the purpose of high-speed sedimentation is achieved.

When the existing magnetic coagulation equipment is used for carrying out sedimentation purification treatment on sewage, the sewage after magnetic coagulation sedimentation can be transmitted to a sedimentation tank through a pipeline to carry out sedimentation and separation processes of magnetic powder and water, but the existing separation sedimentation transmission is generally realized by means of water level difference, the sedimentation process is slower, and the integral filtration sedimentation treatment efficiency cannot be influenced, so that the efficient magnetic coagulation equipment is provided.

Disclosure of Invention

The utility model aims to provide high-efficiency magnetic coagulation equipment so as to solve the problems that when the existing magnetic coagulation equipment is used for carrying out sedimentation and purification treatment on sewage, the sewage after magnetic coagulation sedimentation is transmitted to a sedimentation tank through a pipeline to carry out sedimentation and separation processes of magnetic powder and water, but the existing separation sedimentation transmission is generally realized by means of water level difference, and the sedimentation process is slow and cannot be regulated, so that the overall filtration sedimentation treatment efficiency is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high-efficient magnetism coagulation equipment, includes module base, deposits complementary unit and end collection mechanism, module base's inside is provided with deposits complementary unit, and deposits complementary unit's bottom and be provided with end collection mechanism, deposit complementary unit including deposit bucket, deposit chamber, prevent against current frame, motor, gangbar and vortex flabellum, and deposit the inside of bucket and be provided with the deposit chamber, the middle-end in deposit chamber distributes around preventing against current frame, and deposit the top middle part in chamber and be provided with the motor, the top of motor is provided with the gangbar, and the bottom end of gangbar distributes there is vortex flabellum.

Furthermore, the vortex fan blades and the linkage rod form a rotating structure with the sedimentation cavity through the motor, and the vortex fan blades are provided with two groups.

Further, the anti-countercurrent frame is fixedly connected with the sedimentation barrel, and the sedimentation barrel is communicated with the end collecting mechanism.

Further, the module base includes base frame, settling hole, sedimentation module and water pump, and the settling hole has been seted up all around to the top surface of base frame, the top surface of base frame is provided with sedimentation module, and the one side intercommunication of sedimentation module has the water pump.

Further, the water pump is connected with the precipitation module, and the precipitation module, the water pump and the base frame are fixedly connected.

Further, end collection mechanism includes conduction chamber, valve, collection cup, trapezoidal bayonet socket and thread groove, and bottom one side of conduction chamber is provided with the valve, the bottom end of conduction chamber is provided with the collection cup, and the inner wall is provided with trapezoidal bayonet socket around the collection cup, the inner wall distributes around the trapezoidal bayonet socket has the thread groove.

Furthermore, the valve forms a detachable structure with the conducting cavity through the thread groove, and trapezoid bayonets are uniformly distributed along the inner walls around the valve.

Further, the size of the inner wall of the valve is attached to the outer wall of the bottom end of the conducting cavity, and the valve and the collecting cup are communicated with the conducting cavity.

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

when this equipment carries out the treatment of sewage, the left access pipe of accessible will pass through the sewage conduction behind the magnetism coagulation to deposit the intracavity portion, at this moment earlier with deposit intracavity sewage and keep still, let sewage carry out slow precipitation, after standing for a period of time, rethread motor drives the gangbar and the vortex flabellum that the bottom is connected and carries out slow rotatory process, thereby form the retarder vortex, the interior sewage to the bottom drunkenness flow of sediment chamber is accelerated, thereby make things convenient for the sediment in the sewage to collect the structure subsides downwards, promote whole sedimentation efficiency, and the block sets up in the anti-reflux frame of sediment chamber top position, then can avoid depositing the sediment counter current phenomenon that appears in the transmission initial process, promote whole efficiency through this kind of center flow accelerating mode.

In the sewage treatment process of the magnetic coagulation sedimentation equipment, the sedimentation modules carried on the top surface of the base frame can be used for sedimentation and transmission of sewage after the magnetic coagulation treatment, a plurality of groups of arrangement holes are formed in the top surface of the base frame at equal intervals, the arrangement of a plurality of groups of equipment modules can be facilitated, the sedimentation modules are communicated with the water pump, the water pump is used for pumping out sewage after separation treatment from the sedimentation barrel of the sedimentation modules, and the sewage transmission speed after the treatment is improved, so that an auxiliary effect is achieved on the sedimentation and transmission process.

The inner wall of the top end of the integral collecting cup adopts a trapezoidal bayonet design, a certain precipitate anti-overflow effect can be achieved, after the device is used, an operator can screw the collecting cup out of the bottom end of the conducting cavity through the thread groove, so that the internal precipitating medium, magnetic powder and the like are collected, the use operation is convenient, and the flow is saved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram showing the internal structure of the sedimentation auxiliary mechanism in front view;

fig. 3 is a schematic diagram of the front view of the internal structure of the end collecting mechanism of the present utility model.

In the figure: 1. a module base; 101. a base frame; 102. a mounting hole; 103. a precipitation module; 104. a water pump; 2. a precipitation auxiliary mechanism; 201. a precipitation barrel; 202. a sedimentation chamber; 203. an anti-reflux frame; 204. a motor; 205. a linkage rod; 206. vortex fan blades; 3. an end collection mechanism; 301. a conductive cavity; 302. a valve; 303. a collection cup; 304. a trapezoidal bayonet; 305. a thread groove.

Detailed Description

Example 1

As shown in fig. 1, a high efficiency magnetic coagulation apparatus includes: a module base 1; the inside of module base 1 is provided with deposits assist mechanism 2, and the bottom of depositing assist mechanism 2 is provided with end collection mechanism 3, module base 1 includes base frame 101, settling hole 102, deposit module 103 and water pump 104, and settling hole 102 has been seted up all around to the top surface of base frame 101, the top surface of base frame 101 is provided with deposits module 103, and one side intercommunication of depositing module 103 has water pump 104, be connected between water pump 104 and the depositing module 103, and be fixed connection between depositing module 103, water pump 104 and the base frame 101, in this magnetism coagulation sedimentation equipment carries out sewage treatment in-process, the sediment module 103 that accessible base frame 101 top surface carried deposits transmission process to the sewage after the magnetism coagulation treatment, and the settling hole 102 of multiunit equipment module has been seted up to base frame 101 top surface equidistance, and depositing module 103 then through the mode with water pump 104 intercommunication, let water pump 104 take out the sewage after the separation treatment from depositing barrel 201 of depositing module 103, promote the sewage transmission speed after the processing, play the auxiliary role to the sediment transmission process.

Example 2

As shown in fig. 2, a high-efficiency magnetic coagulation device, precipitation auxiliary mechanism 2 includes precipitation tank 201, precipitation chamber 202, prevent countercurrent frame 203, motor 204, gangbar 205 and vortex flabellum 206, and the inside of precipitation tank 201 is provided with precipitation chamber 202, the middle-end of precipitation chamber 202 distributes all around has prevent countercurrent frame 203, and the top middle part of precipitation chamber 202 is provided with motor 204, the top of motor 204 is provided with gangbar 205, and the bottom end of gangbar 205 distributes there is vortex flabellum 206, the gangbar 205 passes through motor 204 and constitutes rotary structure with precipitation chamber 202, and vortex flabellum 206 is provided with two sets of, prevent being fixed connection between countercurrent frame 203 and the precipitation tank 201, and be linked together between precipitation tank 201 and the end collection mechanism 3, when this device carries out the treatment of sewage, accessible left access pipe will be through the sewage conduction after the magnetic coagulation to precipitation chamber 202 inside, at this moment earlier with the sewage in the precipitation chamber 202 stew slowly deposit, after a period of stewing, the slow rotation of gangbar 205 and vortex sewage 206 that drives the bottom connection through motor 204 again carries out, thereby promote the overall sedimentation efficiency in the promotion mode that the overall sedimentation efficiency is formed in the precipitation chamber, thereby the overall flow in order to prevent that the sedimentation efficiency is realized, the bottom of the overall sedimentation tank is formed, and the sedimentation efficiency is realized, and the bottom in the whole flow in the mode is formed, in order to promote the mode of the sedimentation efficiency is convenient, and the bottom in the whole sedimentation process is formed, and the sedimentation efficiency is set up in the bottom of the sedimentation stage.

As shown in fig. 3, the end collecting mechanism 3 comprises a conducting cavity 301, a valve 302, a collecting cup 303, a trapezoid bayonet 304 and a thread groove 305, wherein the valve 302 is arranged at one side of the bottom end of the conducting cavity 301, the collecting cup 303 is arranged at the end of the bottom end of the conducting cavity 301, the trapezoid bayonet 304 is arranged on the inner wall of the periphery of the collecting cup 303, the thread groove 305 is distributed on the inner wall of the periphery of the trapezoid bayonet 304, the valve 302 and the conducting cavity 301 form a detachable structure through the thread groove 305, the trapezoid bayonet 304 is uniformly distributed along the inner wall of the periphery of the valve 302, the inner wall of the valve 302 is attached to the outer wall of the bottom end of the conducting cavity 301, the valve 302, the collecting cup 303 and the conducting cavity 301 are communicated, precipitated media and magnetic powder are collected through the precipitating cavity 202, the precipitated media flow into along the communicated collecting cup 303, and the inner wall of the top end of the whole collecting cup 303 is designed through the trapezoid bayonet 304, a certain precipitate anti-overflow effect can be achieved.

In summary, when the efficient magnetic coagulation device is used, firstly, the top surface of the base frame 101 is equidistantly provided with the plurality of groups of arrangement holes 102, the arrangement of a plurality of groups of device modules can be facilitated, the left access pipe can be used for transmitting the sewage after magnetic coagulation to the inside of the sedimentation cavity 202, at this time, the sewage in the sedimentation cavity 202 is firstly kept still, the sewage is slowly sedimentated, after a period of standing still, the motor 204 drives the linkage rod 205 and the vortex fan blade 206 connected with the bottom end to slowly rotate, thereby forming a slow vortex, the sewage in the sedimentation cavity 202 flows to the bottom, the sedimentated medium flows into the communicated collection cup 303, after the device is used, an operator can screw out the collection cup 303 from the bottom end of the conduction cavity 301 through the thread groove 305, so that the internal sedimentation medium, magnetic powder and the like are collected, and the integral sedimentation efficiency and the operation simplicity are improved.

Claims (8)

1. The utility model provides a high-efficient magnetism coagulation equipment, includes module base (1), deposits complementary unit (2) and end collection mechanism (3), its characterized in that: the inside of module base (1) is provided with deposits complementary unit (2), and the bottom of depositing complementary unit (2) is provided with end collection mechanism (3), deposit complementary unit (2) including sedimentation tank (201), sediment chamber (202), prevent against current frame (203), motor (204), gangbar (205) and vortex flabellum (206), and the inside of sedimentation tank (201) is provided with sediment chamber (202), the middle-end in sediment chamber (202) distributes around preventing against current frame (203), and the top middle part in sediment chamber (202) is provided with motor (204), the top of motor (204) is provided with gangbar (205), and the bottom end of gangbar (205) distributes with vortex flabellum (206).

2. A high efficiency magnetic coagulation apparatus as set forth in claim 1, wherein: the vortex fan blades (206) and the linkage rod (205) form a rotating structure with the sedimentation cavity (202) through the motor (204), and the vortex fan blades (206) are provided with two groups.

3. A high efficiency magnetic coagulation apparatus as set forth in claim 1, wherein: the anti-reflux frame (203) is fixedly connected with the sedimentation barrel (201), and the sedimentation barrel (201) is communicated with the end collecting mechanism (3).

4. A high efficiency magnetic coagulation apparatus as set forth in claim 1, wherein: the module base (1) comprises a base frame (101), a placement hole (102), a precipitation module (103) and a water pump (104), the placement hole (102) is formed in the periphery of the top surface of the base frame (101), the precipitation module (103) is arranged on the top surface of the base frame (101), and one side of the precipitation module (103) is communicated with the water pump (104).

5. The high efficiency magnetic coagulation apparatus of claim 4, wherein: the water pump (104) is connected with the sedimentation module (103), and the sedimentation module (103), the water pump (104) and the base frame (101) are fixedly connected.

6. A high efficiency magnetic coagulation apparatus as set forth in claim 1, wherein: the end collecting mechanism (3) comprises a conducting cavity (301), a valve (302), a collecting cup (303), a trapezoid bayonet (304) and a thread groove (305), wherein the valve (302) is arranged on one side of the bottom end of the conducting cavity (301), the collecting cup (303) is arranged at the end of the bottom end of the conducting cavity (301), the trapezoid bayonet (304) are arranged on the inner wall of the periphery of the collecting cup (303), and the thread groove (305) is distributed on the inner wall of the periphery of the trapezoid bayonet (304).

7. A high efficiency magnetic coagulation apparatus as set forth in claim 6, wherein: the valve (302) and the conducting cavity (301) form a detachable structure through the thread groove (305), and trapezoid bayonets (304) are uniformly distributed along the inner wall around the valve (302).

8. A high efficiency magnetic coagulation apparatus as set forth in claim 6, wherein: the inner wall of the valve (302) is attached to the outer wall of the bottom end of the conducting cavity (301), and the valve (302) and the collecting cup (303) are communicated with the conducting cavity (301).