CN112777787A - A disinfection settlement equipment for waste water treatment - Google Patents

Abstract

The invention relates to a disinfection device, in particular to a disinfection sedimentation device for wastewater treatment, which comprises a disinfectant storage mechanism, a disinfection mechanism and a sedimentation mechanism, wherein the disinfection device can be used for mixing the disinfectant, the device can ensure the uniform mixing degree of the disinfectant, the device can mix the disinfectant into the wastewater and simultaneously enable the disinfectant to be quickly mixed into the wastewater, the device can quickly finish the sedimentation of the wastewater, the disinfectant storage mechanism is connected with the disinfection mechanism, the disinfection mechanism is connected with the sedimentation mechanism, and the disinfectant storage mechanism is connected with the sedimentation mechanism.

Description

A disinfection settlement equipment for waste water treatment

Technical Field

The invention relates to a disinfection device, in particular to a disinfection sedimentation device for wastewater treatment.

Background

In the process of treating wastewater, wastewater needs to be filtered in multiple steps, then is disinfected and then is settled, and the traditional disinfection settling equipment has the defects of low mixing efficiency of disinfectant and water, low settling efficiency and the like, so the disinfection settling equipment for treating wastewater is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the disinfection sedimentation equipment for wastewater treatment, the equipment can mix disinfectant, the equipment can ensure that the mixing degree of the disinfectant is uniform, the equipment can mix the disinfectant into wastewater and simultaneously enable the disinfectant to be quickly dissolved into the wastewater, and the equipment can quickly finish sedimentation of the wastewater.

In order to solve the technical problems, the invention relates to a disinfection device, and particularly relates to a disinfection sedimentation device for wastewater treatment.

The disinfectant storing mechanism is connected with the disinfecting mechanism, the disinfecting mechanism is connected with the settling mechanism, and the disinfectant storing mechanism is connected with the settling mechanism.

As a further optimization of the technical scheme, the disinfectant storage mechanism of the disinfection sedimentation equipment for wastewater treatment comprises a rotary hollow shaft, a connecting bent pipe, a storage box body, a penetration opening, a hydraulic cylinder support, a hydraulic cylinder, a hydraulic rod, a limiting round seat, a piston rod, a support spring, a boss, a pushing hydraulic cylinder support, a porous seat, a movable plug, a porous socket, a connecting rod, a flanged inlet pipe, a valve box, a stock solution connecting pipe, a connecting rod I, a liquid outlet one-way valve, a pipe opening, a penetration opening, an inner piston, a bearing seat, a stirring wheel, a belt shaft friction wheel, a friction strip, a matching groove, a matching hole, a connecting seat, a belt rod gate, an inner cavity, a belt rod gate I and an inner cavity I, wherein the rotary hollow shaft is rotatably connected with the connecting bent pipe, the connecting bent pipe is connected and communicated with the storage box body, the penetration opening and the penetration opening, the storing box body is connected with a hydraulic cylinder support, the hydraulic cylinder support is connected with a hydraulic cylinder, the hydraulic cylinder is connected with the hydraulic rod, the hydraulic rod is connected with a limiting round seat, a piston rod is connected with a matching hole arranged on the storing box body in a sliding way, a support spring is sleeved on the piston rod, two ends of the support spring are respectively connected with the storing box body and a boss, the piston rod is connected with the boss, the boss is connected with a pushing hydraulic cylinder, the pushing hydraulic cylinder is connected with a pushing hydraulic cylinder support, the pushing hydraulic cylinder support is connected with the storing box body, the hole seat is connected with the storing box body, a movable plug is inserted into a hole socket, the movable plug is connected with a connecting rod, the connecting rod is connected with the hole socket in a sliding way, a flanged inlet pipe is symmetrically arranged on a valve box, the storing box body is connected and communicated with a raw, the limiting round seat is connected with a connecting rod I, the pipe orifice is arranged on the connecting bent pipe, the liquid outlet one-way valve is arranged at the pipe orifice of the connecting bent pipe, an inner piston is connected with a piston rod, the inner piston is connected with a storage box body in a sliding way, the inner piston is connected with a bearing seat, the bearing seat is connected with a friction wheel with a shaft in a rotating way, the friction wheel with the shaft is connected with a stirring wheel, the friction wheel with the shaft is connected with a friction strip in a friction way, the friction strip is arranged on the inner wall of the storage box body, a matching groove is arranged on the inner piston, the matching groove is connected with the friction strip in a sliding way, the connecting rod and the connecting rod I are both connected with a connecting seat, the connecting seat is connected with a gate with a rod, the gate with the rod is connected with an inner cavity in a sliding way, the inner cavity and the inner cavity I are symmetrically arranged in a valve box, the inner cavity and, the gate I with the rod is connected with the inner cavity I in a sliding mode, and the gate I with the rod is connected with the valve box in a sliding mode.

As a further optimization of the technical scheme, the disinfection mechanism of the disinfection sedimentation equipment for wastewater treatment comprises a supporting leg seat, a disinfection liquid outlet pipe, a disinfection box, a transmission belt, a belt pulley, a bevel gear with an axis I, a motor belt pulley, a driving motor, a transmission belt I, a pressurizing hydraulic cylinder, a hydraulic rod I, a wastewater adding pipe, an inlet pipe with a flange, a disinfection inlet pipe, a belt pulley I, a hollow rotating shaft I, a rotating transfer box, a hydraulic cylinder A, a hydraulic cylinder support A, a shaft with a bulge, a reset spring, a matching disc, a pulley seat, a limit sliding rod, a hydraulic rod A, a pushing pulley, an auxiliary support frame, a reinforcing connecting seat, an inner piston I, a hollow rotating shaft II, a liquid spraying rotating box, a liquid spraying pipe, a liquid spraying one-way valve, a corner filtering and stirring plate, a filtering hole and a piston with a cavity, wherein the supporting leg, the disinfection liquid outlet pipe is connected and communicated with the disinfection box, the transmission belt is in friction connection with the belt pulley, the belt pulley is connected with the belt shaft bevel gear, the belt shaft bevel gear is meshed with the belt shaft bevel gear I, the belt shaft bevel gear I is connected with the motor belt pulley, the motor belt pulley is connected with the driving motor, the motor belt pulley is in friction connection with the transmission belt I, the pressurizing hydraulic cylinder is connected with the hydraulic rod I, the hydraulic rod I is in sliding connection with the waste water adding pipe, the waste water adding pipe is connected and communicated with the flanged inlet pipe I, the waste water adding pipe is connected and communicated with the disinfection inlet pipe, the disinfection inlet pipe is connected and communicated with the disinfection box, the belt pulley I is in friction connection with the transmission belt, the belt pulley I is connected with the rotary hollow shaft I, the rotary hollow shaft I is in rotation connection with the disinfection box, the rotary hollow shaft I is connected and communicated with, a hollow shaft rotating hollow shaft II is rotatably connected with the disinfection box, the hollow shaft rotating hollow shaft II is connected and communicated with the rotating transfer box, the rotating transfer box is slidably connected with a shaft with a bulge, a reset spring is sleeved on the shaft with the bulge, two ends of the reset spring are respectively connected with the rotating transfer box and a matching disc, the matching disc is connected with the shaft with the bulge, a pulley seat is slidably connected with a limit slide bar, the limit slide bar is connected with a hydraulic cylinder support A, a hydraulic rod A is connected with a pulley seat, the pulley seat is rotatably connected with a pushing pulley, the pushing pulley is abutted against the matching disc, the hydraulic rod A is connected with the hydraulic cylinder A, the hydraulic cylinder A is connected with the hydraulic cylinder support A, the hydraulic cylinder support A is connected with an auxiliary support frame, the auxiliary support frame is connected with the disinfection box, the limit slide bar is connected with a reinforcing connecting seat, the liquid spraying rotating box is connected and communicated with a liquid spraying pipe, a, the filter hole is arranged on a piston with a cavity, the piston with the cavity is connected with a wastewater adding pipe in a sliding manner, the piston with the cavity is connected with a hydraulic rod I, a disinfection inlet pipe penetrates into the storage box body from a penetration port and then penetrates out from a penetration port, the disinfection inlet pipe is connected with the storage box body, a rotating hollow shaft is connected with a rotating hollow shaft I, an inner piston I is connected with a rotating transfer box in a sliding manner, and a shaft with a bulge is connected with the inner piston I.

As a further optimization of the technical scheme, the sedimentation mechanism of the disinfection sedimentation equipment for wastewater treatment comprises a sedimentation water outlet, a sedimentation box, a gear, a rack with a through hole, a limit slide bar I, a hinged arm, a hinged rotary disc, a belt pulley with a shaft, a pressurized hydraulic cylinder support, a wastewater feeding pipe support, a bearing seat I, a speed reducing plate with a shaft, a sedimentation box inlet and a bearing seat II, wherein the sedimentation water outlet is connected and communicated with the sedimentation box, the sedimentation box is connected with a storage box body, a leg seat is connected with the sedimentation box, the gear is meshed with the rack with the through hole, the rack with the through hole is connected with the limit slide bar I in a sliding way, the limit slide bar I is connected with the sedimentation box, the rack with the through hole is hinged with the hinged arm, the hinged arm is hinged with the hinged rotary disc, the hinged rotary disc is connected with the belt pulley with the sedimentation box in a rotating way, the belt, the pressurization pneumatic cylinder supports, waste water is added the pipe and is supported all and link to each other with the setting tank, the pressurization pneumatic cylinder supports and links to each other with the pressurization pneumatic cylinder, waste water is added the pipe and is supported and link to each other with waste water addition pipe, bearing frame I links to each other with the setting tank, bearing frame I rotates with tape spool bevel gear to be connected, tape spool bevel gear I rotates with bearing frame II to be connected, bearing frame II links to each other with the setting tank, tape spool air brake rotates with the setting tank to be connected, tape spool air brake links to each other with the gear, the setting tank entry sets up on the setting tank, the setting tank entry is linked together with the disinfection drain pipe, the disinfection drain pipe links to each.

As a further optimization of the technical scheme, when the movable plug and the socket with holes of the disinfection and sedimentation equipment for wastewater treatment are connected, the power supply of the driving motor is connected.

The disinfection and sedimentation equipment for wastewater treatment has the beneficial effects that:

according to the disinfection sedimentation equipment for wastewater treatment, the equipment can be used for mixing disinfectants, the equipment can ensure that the mixing degree of the disinfectants is uniform, the disinfectants can be quickly dissolved into wastewater while being mixed into the wastewater, and the equipment can be used for quickly finishing sedimentation of the wastewater.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram I of a disinfection and sedimentation device for wastewater treatment according to the present invention.

FIG. 2 is a schematic structural diagram II of a disinfection and sedimentation device for wastewater treatment according to the present invention.

FIG. 3 is a schematic diagram III of a disinfection and sedimentation device for wastewater treatment according to the present invention.

FIG. 4 is a fourth schematic structural diagram of a disinfection and sedimentation device for wastewater treatment according to the present invention.

FIG. 5 is a schematic diagram of a disinfection and sedimentation device for wastewater treatment according to the present invention.

Fig. 6 is a first structural schematic diagram of a disinfecting liquid storing mechanism 1 of a disinfecting sedimentation device for wastewater treatment according to the present invention.

Fig. 7 is a schematic structural diagram of a second disinfection solution storage mechanism 1 of the disinfection sedimentation equipment for wastewater treatment according to the present invention.

Fig. 8 is a schematic structural diagram three of a disinfecting liquid storing mechanism 1 of a disinfecting sedimentation device for wastewater treatment according to the present invention.

Fig. 9 is a fourth schematic structural diagram of a disinfecting liquid storing mechanism 1 of a disinfecting sedimentation device for wastewater treatment according to the present invention.

Fig. 10 is a schematic structural diagram five of a disinfecting liquid storing mechanism 1 of a disinfecting sedimentation device for wastewater treatment according to the present invention.

Fig. 11 is a schematic structural diagram six of a disinfecting liquid storing mechanism 1 of a disinfecting sedimentation device for wastewater treatment according to the present invention.

Fig. 12 is a first structural schematic diagram of a disinfection mechanism 2 of a disinfection and sedimentation device for wastewater treatment.

Fig. 13 is a schematic structural diagram II of a disinfection mechanism 2 of the disinfection sedimentation device for wastewater treatment.

Fig. 14 is a schematic structural diagram III of a disinfection mechanism 2 of the disinfection sedimentation device for wastewater treatment.

Fig. 15 is a fourth schematic structural diagram of a disinfection mechanism 2 of the disinfection sedimentation device for wastewater treatment of the invention.

Fig. 16 is a first structural schematic diagram of a settling mechanism 3 of the disinfection settling equipment for wastewater treatment.

Fig. 17 is a schematic structural diagram II of a sedimentation mechanism 3 of the disinfection sedimentation device for wastewater treatment of the invention.

Fig. 18 is a schematic structural diagram III of a sedimentation mechanism 3 of a disinfection sedimentation device for wastewater treatment according to the present invention.

Fig. 19 is a fourth schematic structural diagram of a sedimentation mechanism 3 of the disinfection sedimentation device for wastewater treatment of the present invention.

In the figure: a disinfectant storing mechanism 1; rotating the hollow shaft 1-1; connecting the bent pipe 1-2; 1-3 of a storage box body; 1-4 of an inlet; 1-5 hydraulic cylinder supports; 1-6 of a hydraulic cylinder; 1-7 of a hydraulic rod; 1-8 parts of a limiting round seat; a piston rod 1-9; 1-10 parts of supporting spring; 1-11 parts of boss; pushing the hydraulic cylinder 1-12; pushing the hydraulic cylinder support 1-13; 1-14 parts of a perforated base; 1-15 parts of a movable plug; 1-16 of socket with holes; connecting rods 1-17; flanged inlet pipe 1-18; valve box 1-19; a stock solution connecting pipe 1-20; connecting rods I1-21; liquid outlet one-way valve 1-22; 1-23 parts of pipe orifice; 1-24 of a through hole; 1-25 of an inner piston; bearing seats 1-26; 1-27 parts of a stirring wheel; friction wheels with shafts 1 to 28; 1-29 parts of rubbing strip; 1-30 of a matching groove; 1-31 of a matching hole; connecting seats 1-32; 1-33 of a gate with a rod; lumens 1-34; a gate I1-35 with a rod; inner cavities I1-36; a sterilizing mechanism 2; a leg base 2-1; 2-2 of a disinfection liquid outlet pipe; 2-3 of a disinfection box; 2-4 of a transmission belt; 2-5 of belt pulleys; bevel gears 2-6 with shafts; a bevel gear I2-7 with a shaft; 2-8 of a motor belt pulley; driving motors 2-9; a transmission belt I2-10; 2-11 of a pressurizing hydraulic cylinder; a hydraulic rod I2-12; 2-13 parts of waste water adding pipe; flanged inlet pipe I2-14; disinfecting the inlet pipe 2-15; pulley I2-16; rotating the hollow shaft I2-17; rotating the transfer case 2-18; hydraulic cylinders A2-19; the hydraulic cylinder supports A2-20; 2-21 with a protruding shaft; 2-22 of a return spring; mating discs 2-23; 2-24 pulley blocks; 2-25 of a limiting slide bar; hydraulic rods A2-26; pushing pulleys 2-27; 2-28 of auxiliary support frames; reinforcing the connecting seats 2-29; an inner piston I2-30; the hollow shaft II2-31 is rotated by the hollow shaft; liquid spraying rotating boxes 2-32; 2-33 of a liquid spraying pipe; liquid spraying one-way valves 2-34; 2-35 parts of corner filtering and stirring plate; 2-36 parts of filter holes; a piston 2-37 with a cavity; a sedimentation mechanism 3; 3-1 of a precipitation water outlet; 3-2 of a settling tank; 3-3 parts of gear; 3-4 of racks with through holes; a limiting slide bar I3-5; articulated arms 3-6; 3-7 of hinged rotary disc; belt pulley 3-8 with shaft; 3-9 parts of a pressurized hydraulic cylinder support; the wastewater adding pipe supports 3-10 times; bearing seat I3-11; 3-12 of a speed reducing plate with a shaft; 3-13 of the inlet of the settling tank; bearing seat II 3-14.

Detailed Description

The first embodiment is as follows:

the present invention relates to a disinfection apparatus, and more particularly, to a disinfection sedimentation apparatus for wastewater treatment, including a disinfectant storage mechanism 1, a disinfection mechanism 2, and a sedimentation mechanism 3, the apparatus being capable of mixing disinfectants, ensuring uniform mixing of the disinfectants, mixing the disinfectants into wastewater, and simultaneously rapidly dissolving the disinfectants into the wastewater, and rapidly completing sedimentation of the wastewater, and is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19.

Mechanism 1 is deposited with disinfection mechanism 2 to the antiseptic solution link to each other, disinfection mechanism 2 links to each other with subsiding mechanism 3, antiseptic solution is deposited mechanism 1 and is subsided mechanism 3 and link to each other.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the present embodiment, where the disinfectant storage mechanism 1 includes a rotary hollow shaft 1-1, a connecting elbow 1-2, a storage tank body 1-3, a penetration port 1-4, a hydraulic cylinder support 1-5, a hydraulic cylinder 1-6, a hydraulic rod 1-7, a limiting circular seat 1-8, a piston rod 1-9, a support spring 1-10, a boss 1-11, a pushing hydraulic cylinder 1-12, a pushing hydraulic cylinder support 1-13, a holed seat 1-14, a movable plug 1-15, a holed socket 1-16, a holed socket 1-, 1-17 connecting rods, 1-18 inlet pipes with flanges, 1-19 valve boxes, 1-20 connecting pipes for stock solution, I1-21 connecting rods, 1-22 liquid outlet one-way valves, 1-23 pipe orifices, 1-24 through outlets, 1-25 inner pistons, 1-26 bearing seats, 1-27 stirring wheels, 1-28 friction wheels with shafts, 1-29 friction strips, 1-30 matching grooves, 1-31 matching holes, 1-32 connecting seats, 1-33 gates with rods, 1-34 inner cavities, I1-35 gates with rods, I1-36 inner cavities, 1-1 rotating hollow shafts and 1-2 connecting bent pipes are rotatably connected, 1-2 connecting bent pipes are connected and communicated with 1-3 storage box bodies, 1-4 through ports and 1-24 through ports are symmetrically arranged at two sides of the 1-3 storage box bodies, the storage box body 1-3 is connected with the hydraulic cylinder support 1-5, the hydraulic cylinder support 1-5 is connected with the hydraulic cylinder 1-6, the hydraulic cylinder 1-6 is connected with the hydraulic rod 1-7, the hydraulic rod 1-7 is connected with the limiting round seat 1-8, the piston rod 1-9 is connected with the matching hole 1-31 arranged on the storage box body 1-3 in a sliding way, the support spring 1-10 is sleeved on the piston rod 1-9, two ends of the support spring 1-10 are respectively connected with the storage box body 1-3 and the boss 1-11, the piston rod 1-9 is connected with the boss 1-11, the boss 1-11 is connected with the pushing hydraulic cylinder 1-12, the pushing hydraulic cylinder 1-12 is connected with the pushing hydraulic cylinder support 1-13, the pushing hydraulic cylinder support 1-13 is connected with the storage box body 1-3, the perforated seat 1-14 is connected with the storage box body 1-3, the movable plug 1-15 is inserted in the perforated socket 1-16, the movable plug 1-15 is connected with the connecting rod 1-17, the connecting rod 1-17 is connected with the perforated socket 1-16 in a sliding way, the flanged inlet pipe 1-18 is symmetrically arranged on the valve box 1-19, the storage box body 1-3 is connected and communicated with the raw liquid connecting pipe 1-20, the valve box 1-19 is connected with the raw liquid connecting pipe 1-20, the connecting rod I1-21 is connected with the perforated seat 1-14 in a sliding way, the limiting round seat 1-8 is connected with the connecting rod I1-21, the pipe orifice 1-23 is arranged on the connecting bent pipe 1-2, the liquid outlet one-way valve 1-22 is arranged at the pipe orifice 1-23 of the connecting bent pipe 1-2, inner pistons 1-25 are connected with piston rods 1-9, the inner pistons 1-25 are connected with a storage box body 1-3 in a sliding manner, the inner pistons 1-25 are connected with bearing seats 1-26, the bearing seats 1-26 are rotationally connected with friction wheels 1-28 with shafts, the friction wheels 1-28 with shafts are connected with stirring wheels 1-27, the friction wheels 1-28 with shafts are connected with friction strips 1-29 in a friction manner, the friction strips 1-29 are arranged on the inner wall of the storage box body 1-3, matching grooves 1-30 are arranged on the inner pistons 1-25, the matching grooves 1-30 are connected with the friction strips 1-29 in a sliding manner, connecting rods 1-17 and I1-21 are connected with connecting seats 1-32, the connecting seats 1-32 are connected with gates with rods 1-33, the gates with rods 1-33 are connected with inner cavities 1-34 in a sliding manner, the gate with the rod 1-33 is connected with the valve box 1-19 in a sliding way, the inner cavity 1-34 and the inner cavity I1-36 are symmetrically arranged in the valve box 1-19, the inner cavity 1-34 and the inner cavity I1-36 are both communicated with the inlet pipe with the flange 1-18, the inner cavity 1-34 and the inner cavity I1-36 are both communicated with the raw liquid connecting pipe 1-20, the connecting seat 1-32 is connected with the gate with the rod I1-35, the gate with the rod I1-35 is connected with the inner cavity I1-36 in a sliding way, the gate with the rod I1-35 is connected with the valve box 1-19 in a sliding way, before the equipment is used, the inlet pipe with the flange I2-14 is externally connected with a waste water pipe, the inlet pipe with the flange 1-18 is externally connected with a pipeline for adding the raw liquid of disinfectant, firstly, the hydraulic cylinder 1-6 pulls the hydraulic rod 1-7, the, the limiting round seat 1-8 can pull the connecting rod I1-21, the connecting rod I1-21 can drive the connecting seat 1-32 to move, the connecting seat 1-32 can drive the connecting rod 1-17 to move, the connecting rod 1-17 can drive the movable plug 1-15 to be pulled out of the socket with the hole 1-16, the power supply of the driving motor 2-9 is cut off at the moment, the danger to the operators caused by the operation of the whole equipment when disinfectant raw liquid can be prevented from being added is prevented, the connecting seat 1-32 can simultaneously pull the gate with the rod 1-33 and the gate with the rod I1-35 when moving, the disinfectant raw liquid to be mixed is respectively added from the inlet pipe with the flange 1-18, and at the moment, the disinfectant raw liquid can not be directly enter the storage box body 1-3 along the connecting pipe 1-20 of the connecting pipe with the rod 1-33 and the gate with the rod I1-, then the hydraulic cylinder 1-6 drives the hydraulic rod 1-7 to reset, so that the movable plug 1-15 is inserted into the socket 1-16 with the hole again, the power supply of the driving motor 2-9 is switched on and has a starting condition, the gate 1-33 with the rod and the gate I1-35 with the rod are reset, then the new stock solution is stopped being added, then the boss 1-11 can be pushed downwards by pushing the hydraulic cylinder 1-12, the boss 1-11 can drive the piston rod 1-9 to move downwards, the piston rod 1-9 can drive the inner piston 1-25 to move downwards, the inner piston 1-25 can firstly play a role of pressurizing the stock solution added into the storage box body 1-3, so that the pressurized stock solution can flush the liquid one-way valve 1-22 and then enter the liquid spraying rotating box 2-32 along the rotating hollow shaft I2-17, the disinfectant can continuously flow into the rotary transfer case 2-18 along the hollow shaft rotary hollow shaft II2-31 with the increase of the disinfectant, because the rotary hollow shaft 1-1 and the connecting elbow 1-2 can relatively rotate, under the condition that the spray liquid rotary case 2-32 rotates, the disinfectant can not be influenced to move into the rotary transfer case 2-18, so that the supplement of the disinfectant can be continuously realized under the condition that the equipment ensures the rotary filtration, the friction wheel with the shaft 1-28 is driven to move downwards by the bearing seat 1-26 in the downward movement process of the inner piston 1-25, the friction wheel with the shaft 1-28 can realize the autorotation of the friction wheel with the shaft 1-28 by the friction force with the friction strip 1-29, the friction wheel with the shaft 1-28 can drive the stirring wheel 1-27 to rotate, the rotation of the stirring wheel 1-27 can realize stirring and mixing of the added disinfectant stock solution, so that the rotation driving of the stirring wheel 1-27 is realized while the pressurization of the inner piston 1-25 is realized, the premixing of the disinfectant is realized, the maximum stroke of the downward movement of the inner piston 1-25 can not make the bearing seat 1-26, the stirring wheel 1-27 and the friction wheel with a shaft 1-28 touch the disinfection inlet pipe 2-15, and the hydraulic cylinder 1-12 is pushed to stop pushing the boss 1-11 when the inner piston 1-25 moves to the maximum stroke.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and the embodiment further describes the embodiment, and the embodiment describes the embodiment, wherein the disinfection mechanism 2 comprises a leg base 2-1, a disinfection liquid outlet pipe 2-2, a disinfection tank 2-3, a transmission belt 2-4, belt pulleys 2-5, shaft bevel gears 2-6, shaft bevel gears I2-7, motor pulleys 2-8, a driving motor 2-9, a transmission belt I2-10, a pressurizing hydraulic cylinder 2-11, a hydraulic rod I2-12, a waste water feeding pipe 2-13, a flanged feeding pipe I2-14, a disinfection feeding pipe 2-15, I2-16, a disinfection feeding pipe I3683-16, A rotary hollow shaft I2-17, a rotary transfer case 2-18, a hydraulic cylinder A2-19, a hydraulic cylinder support A2-20, a shaft with a bulge 2-21, a return spring 2-22, a matching disc 2-23, a pulley seat 2-24, a limit slide bar 2-25, a hydraulic rod A2-26, a push pulley 2-27, an auxiliary support frame 2-28, a reinforcing connecting seat 2-29, an inner piston I2-30, a hollow shaft rotary hollow shaft II2-31, a liquid spray rotary case 2-32, a liquid spray pipe 2-33, a liquid spray check valve 2-34, a corner filtering and stirring plate 2-35, a filter hole 2-36, a piston with a cavity 2-37, a leg support seat 2-1 connected with a disinfection case 2-3, a disinfection liquid outlet pipe 2-2 connected and communicated with the disinfection case 2-3, a transmission belt 2-4 is in frictional connection with a belt pulley 2-5, the belt pulley 2-5 is connected with a belt shaft bevel gear 2-6, the belt shaft bevel gear 2-6 is engaged with a belt shaft bevel gear I2-7, the belt shaft bevel gear I2-7 is connected with a motor belt pulley 2-8, the motor belt pulley 2-8 is connected with a driving motor 2-9, the motor belt pulley 2-8 is in frictional connection with a transmission belt I2-10, a pressurizing hydraulic cylinder 2-11 is connected with a hydraulic rod I2-12, the hydraulic rod I2-12 is in sliding connection with a waste water adding pipe 2-13, the waste water adding pipe 2-13 is connected and communicated with a flange inlet pipe I2-14, the waste water adding pipe 2-13 is connected and communicated with a disinfection inlet pipe 2-15, the disinfection inlet pipe 2-15 is connected and communicated with a disinfection tank 2-3, the belt pulley I2-16 is in friction connection with the transmission belt 2-4, the belt pulley I2-16 is connected with the rotary hollow shaft I2-17, the rotary hollow shaft I2-17 is in rotary connection with the disinfection box 2-3, the rotary hollow shaft I2-17 is connected and communicated with the spray liquid rotary box 2-32, the spray liquid rotary box 2-32 is connected and communicated with the hollow shaft rotary hollow shaft II2-31, the hollow shaft rotary hollow shaft II2-31 is in rotary connection with the disinfection box 2-3, the hollow shaft rotary hollow shaft II2-31 is connected and communicated with the rotary transfer box 2-18, the rotary transfer box 2-18 is in sliding connection with the lug shaft 2-21, the reset spring 2-22 is sleeved on the lug shaft 2-21, and two ends of the reset spring 2-22 are respectively connected with the rotary transfer box 2-18, On a matching plate 2-23, the matching plate 2-23 is connected with a shaft 2-21 with a bulge, a pulley seat 2-24 is connected with a limit slide bar 2-25 in a sliding way, the limit slide bar 2-25 is connected with a hydraulic cylinder support A2-20, a hydraulic rod A2-26 is connected with the pulley seat 2-24, the pulley seat 2-24 is connected with a push pulley 2-27 in a rotating way, the push pulley 2-27 is propped against the matching plate 2-23, the hydraulic rod A2-26 is connected with a hydraulic cylinder A2-19, the hydraulic cylinder A2-19 is connected with a hydraulic cylinder support A2-20, the hydraulic cylinder support A2-20 is connected with an auxiliary support frame 2-28, the auxiliary support frame 2-28 is connected with a disinfection box 2-3, the limit slide bar 2-25 is connected with a reinforced connecting seat 2-29, a liquid spraying rotating box 2-32 is connected and communicated with a liquid spraying pipe, liquid spraying check valves 2-34 are arranged in liquid spraying pipes 2-33, corner filtering and stirring plates 2-35 are connected with liquid spraying rotating boxes 2-32, filtering holes 2-36 are arranged on pistons 2-37 with cavities, pistons 2-37 with cavities are connected with waste water adding pipes 2-13 in a sliding manner, pistons 2-37 with cavities are connected with hydraulic rods I2-12, disinfection inlet pipes 2-15 penetrate into storage box bodies 1-3 from penetrating ports 1-4 and then penetrate out from penetrating ports 1-24, disinfection inlet pipes 2-15 are connected with storage box bodies 1-3, rotating hollow shafts 1-1 are connected with rotating hollow shafts I2-17, inner pistons I2-30 are connected with rotating transfer boxes 2-18 in a sliding manner, shafts 2-21 with protrusions are connected with inner pistons I2-30, the driving motor 2-9 can drive the motor belt pulley 2-8 to rotate, the motor belt pulley 2-8 can drive the belt shaft bevel gear I2-7 to rotate, the belt shaft bevel gear I2-7 can drive the belt shaft bevel gear 2-6 to rotate, the belt shaft bevel gear 2-6 can drive the belt pulley 2-5 to rotate, the belt pulley 2-5 can drive the belt pulley I2-16 to rotate through the transmission belt 2-4, the belt pulley I2-16 can drive the rotating hollow shaft I2-17 to rotate, the rotating hollow shaft I2-17 can drive the liquid spraying rotating box 2-32, the hollow shaft rotating hollow shaft II2-31 and the rotating transfer box 2-18 to synchronously rotate, so that the disinfectant in the liquid spraying rotating box 2-32, the hollow shaft rotating hollow shaft II2-31 and the rotating transfer box 2-18 can be acted by the rotating centrifugal force, thereby ensuring that the raw liquid of the disinfectant is always in a moving state and the raw liquid of the disinfectant is always uniformly mixed, when sewage enters from the inlet pipe I2-14 with a flange, the sewage is filtered by the filter holes 2-36 and then enters the disinfection box 2-3 from the disinfection inlet pipe 2-15 and flows through the disinfection inlet pipe 2-15, because the temperature of the sewage is lower, the heat in the box body 1-3 can be taken away, thereby ensuring that the raw liquid of the disinfectant is in a low-temperature state and the heat is continuously taken away, thereby ensuring that the quality of the raw liquid is not influenced by the temperature, when the sewage enters the disinfection box 2-3, the spray rotating box 2-32 can drive the corner filtering and stirring plates 2-35 to rotate when rotating, thereby playing a certain speed reduction role on the water flow, and when needing to add disinfectant into the sewage, the hydraulic cylinders A2-19 can drive the hydraulic rods A2-26 to push the pulley seats 2-24, the pulley seats 2-24 can drive the push pulleys 2-27 to push the matching discs 2-23, the matching discs 2-23 can be pushed, but the rotation of the matching discs 2-23 is not influenced, because the rotating transfer boxes 2-18 can drive the matching discs 2-23 to synchronously rotate through the shafts 2-21 with the bulges when rotating, the matching discs 2-23 can drive the inner pistons I2-30 to pressurize through the shafts 2-21 with the bulges when being extruded, the liquid outlet one-way valves 1-22 are in a closed state, disinfectant can flush the liquid spray one-way valves 2-34, and because the liquid spray pipes 2-33 rotate along with the liquid spray rotating boxes 2-32, the disinfectant can be also acted by centrifugal force when being sprayed out of the liquid spray one-way valves 2-34, so that the disinfectant can rapidly enter the wastewater to be mixed, meanwhile, the corner filtering and stirring plates 2-35 can play a role in synchronously stirring the disinfectant along with the rotation of the liquid spraying rotating boxes 2-32, so that the wastewater and the disinfectant are fully mixed, and simultaneously play a role in filtering, so that the wastewater and the disinfectant are fully mixed, the disinfection effect is improved, the disinfected water flows into the settling box 3-2 from the disinfection liquid outlet pipe 2-2, if the disinfection liquid outlet pipe 2-2 is blocked, the hydraulic rod I2-12 is driven to move by the pressurizing hydraulic cylinder 2-11, the hydraulic rod I2-12 can push the cavity-equipped piston 2-37 to move, the movement of the cavity-equipped piston 2-37 can make the filtering hole 2-36 staggered with the flange inlet pipe I2-14, and the cavity-equipped piston 2-37 can disconnect the communication of the wastewater inlet pipe 2-13 with the flange inlet pipe I2-14, thus, the subsequent sewage can be prevented from being added, the piston 2-37 with the cavity moves, the pressure in the disinfection inlet pipe 2-15 is increased, the increased pressure pressurizes the wastewater in the disinfection box 2-3, so that the wastewater flushes out silts in the disinfection liquid outlet pipe 2-2, and then the pressurizing hydraulic cylinder 2-11 drives the piston 2-37 with the cavity to reset.

The fourth concrete implementation mode:

the embodiment is described in conjunction with fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. this embodiment further describes the embodiment, and the embodiment is further described, wherein the settling mechanism 3 comprises a settling water outlet 3-1, a settling tank 3-2, a gear 3-3, a perforated rack 3-4, a limit slide bar I3-5, an articulated arm 3-6, an articulated rotating disc 3-7, a belt pulley 3-8 with a shaft, a pressurized hydraulic cylinder support 3-9, a waste water feeding pipe support 3-10, a bearing seat I3-11, a speed reducing plate with a shaft 3-12, a settling tank inlet 3-13, a bearing seat II3-14, a settling water outlet 3-1 is connected and communicated with the settling tank 3-2, a sedimentation box 3-2 is connected with a storage box body 1-3, a supporting leg seat 2-1 is connected with the sedimentation box 3-2, a gear 3-3 is meshed with a rack 3-4 with a through hole, the rack 3-4 with the through hole is connected with a limit slide bar I3-5 in a sliding way, a limit slide bar I3-5 is connected with the sedimentation box 3-2, the rack 3-4 with the through hole is hinged with a hinged arm 3-6, the hinged arm 3-6 is hinged with a hinged rotating disc 3-7, the hinged rotating disc 3-7 is connected with a belt pulley 3-8 with a shaft, the belt pulley 3-8 with the shaft is connected with the sedimentation box 3-2 in a rotating way, the belt pulley 3-8 with the shaft is connected with a transmission belt I2-10 in a friction way, a pressurizing hydraulic cylinder support 3-9 and a waste water adding pipe support 3-10 are both connected with, a pressurizing hydraulic cylinder support 3-9 is connected with a pressurizing hydraulic cylinder 2-11, a wastewater adding pipe support 3-10 is connected with a wastewater adding pipe 2-13, a bearing seat I3-11 is connected with a settling tank 3-2, a bearing seat I3-11 is rotationally connected with a bevel gear with a shaft 2-6, a bevel gear with a shaft I2-7 is rotationally connected with a bearing seat II3-14, a bearing seat II3-14 is connected with a settling tank 3-2, a speed reducing plate with a shaft 3-12 is rotationally connected with a settling tank 3-2, a speed reducing plate with a shaft 3-12 is connected with a gear 3-3, a settling tank inlet 3-13 is arranged on the settling tank 3-2, a settling tank inlet 3-13 is communicated with a disinfection liquid outlet pipe 2-2, a disinfection liquid outlet pipe 2-2 is connected with the settling tank 3-2, a driving motor 2-9 is connected with the settling tank 3-2, when the motor belt pulley 2-8 rotates, the belt shaft belt pulley 3-8 is driven to rotate through the transmission belt I2-10, the belt shaft belt pulley 3-8 drives the hinged rotating disc 3-7 to rotate, the hinged rotating disc 3-7 drives the through hole rack 3-4 to reciprocate through the hinged arm 3-6, the through hole rack 3-4 drives the gear 3-3 to reciprocate, and the gear 3-3 drives the shaft speed reducing plate 3-12 to reciprocate, so that the speed of sewage flowing from the settling tank 3-2 is reduced, and the settling of the sewage is facilitated.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the present embodiment further describes the first embodiment in which the driving motors 2 to 9 are powered on when the movable plugs 1 to 15 and the holed sockets 1 to 16 are powered on.

The working principle of the device is as follows: the equipment can carry out mixed treatment on the disinfectant, before the equipment is used, the flanged inlet pipe I2-14 is externally connected with a waste water pipe, the flanged inlet pipe 1-18 is externally connected with a pipeline for adding disinfectant stock solution, firstly, the hydraulic cylinder 1-6 pulls the hydraulic rod 1-7, the hydraulic rod 1-7 can drive the limiting round seat 1-8 to move, the limiting round seat 1-8 can pull the connecting rod I1-21, the connecting rod I1-21 can drive the connecting seat 1-32 to move, the connecting seat 1-32 can drive the connecting rod 1-17 to move, the connecting rod 1-17 can drive the movable plug 1-15 to be pulled out from the socket with the hole 1-16, at the moment, the power supply of the driving motor 2-9 is disconnected, the situation that when the disinfectant stock solution is added, the operation of the whole equipment causes danger to an operator can be, when the connecting seat 1-32 moves, the gate with the rod 1-33 and the gate with the rod I1-35 are pulled at the same time, disinfectant stock solution which needs to be mixed and used is respectively added from the inlet pipe 1-18 with the flange, at the moment, the disinfectant stock solution can directly enter the storage box body 1-3 along the stock solution connecting pipe 1-20 without being blocked by the gate with the rod 1-33 and the gate with the rod I1-35, then the hydraulic cylinder 1-6 drives the hydraulic rod 1-7 to reset, so that the movable plug 1-15 is inserted into the socket with the hole 1-16 again, the power supply of the driving motor 2-9 has a starting condition, after the gate with the rod 1-33 and the gate with the rod I1-35 reset, the new stock solution is stopped to be added, and then the boss 1-11 can be pushed downwards by pushing the hydraulic cylinder 1-12, the bosses 1 to 11 can drive the piston rods 1 to 9 to move downwards, the piston rods 1 to 9 can drive the inner pistons 1 to 25 to move downwards, the inner pistons 1 to 25 move downwards to firstly play a role of pressurizing stock solution added into the storage box bodies 1 to 3, so that the pressurized stock solution can flush the liquid outlet one-way valves 1 to 22 and then enter the liquid spraying rotating boxes 2 to 32 along the rotating hollow shafts I2 to 17, the stock solution can continuously flow into the rotating transfer boxes 2 to 18 along the hollow shaft II2 to 31 along with the increase of disinfectant, as the rotating hollow shafts 1 to 1 and the connecting bent pipes 1 to 2 can relatively rotate, the movement of the stock solution into the rotating transfer boxes 2 to 18 is not influenced under the condition that the liquid spraying rotating boxes 2 to 32 rotate, and therefore, the device can continuously realize the supplement of disinfectant under the condition that the disinfectant is rotated and filtered, in the process that the inner piston 1-25 moves downwards, the bearing seat 1-26 drives the friction wheel 1-28 with the shaft to move downwards, the friction wheel 1-28 with the shaft moves downwards to realize the autorotation of the friction wheel 1-28 with the shaft through the friction force with the friction strip 1-29, the friction wheel 1-28 with the shaft drives the stirring wheel 1-27 to rotate, the stirring wheel 1-27 rotates to realize the stirring and mixing of the added disinfectant stock solution, so that the inner piston 1-25 realizes the pressurization and the rotation driving of the stirring wheel 1-27, the premixing of the disinfectant is realized, the maximum stroke of the downward movement of the inner piston 1-25 does not enable the bearing seat 1-26, the stirring wheel 1-27 and the friction wheel 1-28 with the shaft to touch the disinfection inlet pipe 2-15, and the hydraulic cylinder 1-12 is pushed to stop pushing the boss 1- 11; the device can ensure the uniform mixing degree of the disinfectant, the operation of the driving motor 2-9 can drive the motor belt pulley 2-8 to rotate, the motor belt pulley 2-8 can drive the belt shaft bevel gear I2-7 to rotate, the belt shaft bevel gear I2-7 can drive the belt shaft bevel gear 2-6 to rotate, the belt pulley 2-6 can drive the belt pulley 2-5 to rotate, the belt pulley 2-5 can drive the belt pulley I2-16 to rotate through the transmission belt 2-4, the belt pulley I2-16 can drive the rotating hollow shaft I2-17 to rotate, the rotating hollow shaft I2-17 can drive the spray rotating box 2-32, the hollow shaft rotating hollow shaft II2-31, the rotating transfer box 2-18 to synchronously rotate, and thus the spray rotating box 2-32, the hollow shaft rotating hollow shaft II2-31, The disinfectant in the rotary transfer boxes 2-18 is acted by the rotary centrifugal force, so that the disinfectant is always in a moving state, and the stock solutions of the disinfectant are always uniformly mixed; the device can mix the disinfectant into the wastewater and simultaneously enable the disinfectant to be quickly mixed into the wastewater, when the sewage enters from the flanged inlet pipe I2-14, the sewage is filtered by the filter holes 2-36, then enters into the disinfection box 2-3 from the disinfection inlet pipe 2-15, and flows through the disinfection inlet pipe 2-15, because the temperature of the sewage is lower, the heat in the box body 1-3 can be taken away, so that the stock solution of the disinfectant is ensured to be in a low-temperature state, and the heat is continuously taken away, thereby the quality of the stock solution can be ensured not to be influenced by the temperature, when the sewage enters into the disinfection box 2-3, the spray rotating box 2-32 can drive the corner filtering and stirring plates 2-35 to rotate when rotating, thereby playing a certain speed reduction role on the water flow, when the disinfectant needs to be added into the sewage, the hydraulic cylinders A2-19 can drive the hydraulic rods A2-26 to push the pulley seats 2-24, the pulley seats 2-24 can drive the push pulleys 2-27 to push the matching discs 2-23, the matching discs 2-23 can be pushed, but the rotation of the matching discs 2-23 is not influenced, because the rotating transfer boxes 2-18 can drive the matching discs 2-23 to synchronously rotate through the shafts 2-21 with the bulges when rotating, the matching discs 2-23 can drive the inner pistons I2-30 to pressurize through the shafts 2-21 with the bulges when being extruded, the liquid outlet one-way valves 1-22 are in a closed state, disinfectant can flush the liquid spray one-way valves 2-34, and because the liquid spray pipes 2-33 rotate along with the liquid spray rotating boxes 2-32, the disinfectant can be also acted by centrifugal force when being sprayed out of the liquid spray one-way valves 2-34, so that the disinfectant can rapidly enter the wastewater to be mixed, meanwhile, the corner filtering and stirring plates 2-35 can play a role in synchronously stirring the disinfectant along with the rotation of the liquid spraying rotating boxes 2-32, so that the wastewater and the disinfectant are fully mixed, and simultaneously play a role in filtering, so that the wastewater and the disinfectant are fully mixed, the disinfection effect is improved, the disinfected water flows into the settling box 3-2 from the disinfection liquid outlet pipe 2-2, if the disinfection liquid outlet pipe 2-2 is blocked, the hydraulic rod I2-12 is driven to move by the pressurizing hydraulic cylinder 2-11, the hydraulic rod I2-12 can push the cavity-equipped piston 2-37 to move, the movement of the cavity-equipped piston 2-37 can make the filtering hole 2-36 staggered with the flange inlet pipe I2-14, and the cavity-equipped piston 2-37 can disconnect the communication of the wastewater inlet pipe 2-13 with the flange inlet pipe I2-14, so that the subsequent sewage can be prevented from being added, the piston 2-37 with the cavity moves and simultaneously increases the pressure in the disinfection inlet pipe 2-15, the increased pressure pressurizes the wastewater in the disinfection box 2-3, thereby leading the wastewater to break the siltation in the disinfection liquid outlet pipe 2-2, and then the pressurizing hydraulic cylinder 2-11 drives the piston 2-37 with the cavity to reset; the equipment can rapidly finish the sedimentation of the wastewater, when the motor belt pulley 2-8 rotates, the belt shaft belt pulley 3-8 is driven to rotate through the transmission belt I2-10, the belt shaft belt pulley 3-8 drives the hinged rotating disc 3-7 to rotate, the hinged rotating disc 3-7 drives the through hole rack 3-4 to reciprocate through the hinged arm 3-6, the through hole rack 3-4 drives the gear 3-3 to reciprocate, and the gear 3-3 drives the belt shaft speed reducing plate 3-12 to reciprocate, so that the speed of the wastewater flowing in the sedimentation tank 3-2 is reduced, and the sedimentation of the wastewater is facilitated.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a disinfection subsides equipment for waste water treatment, includes that the antiseptic solution deposits mechanism (1), disinfection mechanism (2), subsides mechanism (3), its characterized in that: the disinfection solution storage mechanism (1) is connected with the disinfection mechanism (2), the disinfection mechanism (2) is connected with the sedimentation mechanism (3), and the disinfection solution storage mechanism (1) is connected with the sedimentation mechanism (3).

2. A disinfection sedimentation device for wastewater treatment according to claim 1, characterized in that: the disinfectant storage mechanism (1) comprises a rotary hollow shaft (1-1), a connecting bent pipe (1-2), a storage box body (1-3), a penetration opening (1-4), a hydraulic cylinder support (1-5), a hydraulic cylinder (1-6), a hydraulic rod (1-7), a limiting round seat (1-8), a piston rod (1-9), a support spring (1-10), a boss (1-11), a pushing hydraulic cylinder (1-12), a pushing hydraulic cylinder support (1-13), a perforated seat (1-14), a movable plug (1-15), a perforated socket (1-16), a connecting rod (1-17), a flanged inlet pipe (1-18), a valve box (1-19), a stock solution connecting pipe (1-20), a connecting rod I (1-21), The liquid outlet one-way valve (1-22), the pipe orifice (1-23), the penetrating port (1-24), the inner piston (1-25), the bearing seat (1-26), the stirring wheel (1-27), the friction wheel with a shaft (1-28), the friction strip (1-29), the matching groove (1-30), the matching hole (1-31), the connecting seat (1-32), the gate with a rod (1-33), the inner cavity (1-34), the gate with a rod (I (1-35) and the inner cavity I (1-36), the rotating hollow shaft (1-1) is rotatably connected with the connecting elbow (1-2), the connecting elbow (1-2) is connected and communicated with the storage box body (1-3), the penetrating port (1-4) and the penetrating port (1-24) are symmetrically arranged at two sides of the storage box body (1-3), the storage box body (1-3) is connected with a hydraulic cylinder support (1-5), the hydraulic cylinder support (1-5) is connected with a hydraulic cylinder (1-6), the hydraulic cylinder (1-6) is connected with a hydraulic rod (1-7), the hydraulic rod (1-7) is connected with a limiting round seat (1-8), a piston rod (1-9) is connected with a matching hole (1-31) arranged on the storage box body (1-3) in a sliding way, a support spring (1-10) is sleeved on the piston rod (1-9), two ends of the support spring (1-10) are respectively connected on the storage box body (1-3) and a boss (1-11), the piston rod (1-9) is connected with the boss (1-11), the boss (1-11) is connected with a pushing hydraulic cylinder (1-12), the pushing hydraulic cylinder (1-12) is connected with the pushing hydraulic cylinder support (1-13), the pushing hydraulic cylinder support (1-13) is connected with the storage box body (1-3), the perforated seat (1-14) is connected with the storage box body (1-3), the movable plug (1-15) is inserted into the perforated socket (1-16), the movable plug (1-15) is connected with the connecting rod (1-17), the connecting rod (1-17) is connected with the perforated socket (1-16) in a sliding manner, the flanged inlet pipes (1-18) are symmetrically arranged on the valve box (1-19), the storage box body (1-3) is connected and communicated with the raw liquid connecting pipe (1-20), the valve box (1-19) is connected with the raw liquid connecting pipe (1-20), the connecting rod I (1-21) is connected with the perforated seat (1-14) in a sliding manner, the limiting round seat (1-8) is connected with the connecting rod I (1-21), the pipe orifice (1-23) is arranged on the connecting bent pipe (1-2), the liquid outlet one-way valve (1-22) is arranged at the pipe orifice (1-23) of the connecting bent pipe (1-2), the inner piston (1-25) is connected with the piston rod (1-9), the inner piston (1-25) is connected with the storage box body (1-3) in a sliding way, the inner piston (1-25) is connected with the bearing seat (1-26), the bearing seat (1-26) is rotationally connected with the friction wheel (1-28) with a shaft, the friction wheel (1-28) with a shaft is connected with the stirring wheel (1-27), the friction wheel (1-28) with a shaft is connected with the friction strip (1-29) in a friction way, the friction strip (1-29) is arranged on the inner wall of the storage box body (1-3), the matching grooves (1-30) are arranged on the inner pistons (1-25), the matching grooves (1-30) are connected with the friction strips (1-29) in a sliding manner, the connecting rods (1-17) and the connecting rods I (1-21) are connected with the connecting seats (1-32), the connecting seats (1-32) are connected with the gate with the rod (1-33), the gate with the rod (1-33) is connected with the inner cavities (1-34) in a sliding manner, the gate with the rod (1-33) is connected with the valve boxes (1-19) in a sliding manner, the inner cavities (1-34) and the inner cavities I (1-36) are symmetrically arranged in the valve boxes (1-19), the inner cavities (1-34) and the inner cavities I (1-36) are communicated with the inlet pipes (1-18) with flanges, the inner cavities (1-34) and the inner cavities I (1-36) are communicated with the raw liquid connecting pipes (1-20), the connecting seat (1-32) is connected with the gate I (1-35) with the rod, the gate I (1-35) with the rod is connected with the inner cavity I (1-36) in a sliding way, and the gate I (1-35) with the rod is connected with the valve box (1-19) in a sliding way.

3. A disinfection sedimentation device for wastewater treatment according to claim 1, characterized in that: the disinfection mechanism (2) comprises a supporting leg seat (2-1), a disinfection liquid outlet pipe (2-2), a disinfection box (2-3), a transmission belt (2-4), a belt pulley (2-5), a shaft-mounted bevel gear (2-6), a shaft-mounted bevel gear I (2-7), a motor belt pulley (2-8), a driving motor (2-9), a transmission belt I (2-10), a pressurizing hydraulic cylinder (2-11), a hydraulic rod I (2-12), a waste water adding pipe (2-13), a flange inlet pipe I (2-14), a disinfection inlet pipe (2-15), a belt pulley I (2-16), a rotating hollow shaft I (2-17), a rotating transfer box (2-18), a hydraulic cylinder A (2-19), a hydraulic cylinder support A (2-20), With a convex shaft (2-21), a reset spring (2-22), a matching disc (2-23), a pulley seat (2-24), a limit slide bar (2-25), a hydraulic rod A (2-26), a push pulley (2-27), an auxiliary support frame (2-28), a reinforced connecting seat (2-29), an inner piston I (2-30), a hollow shaft rotating hollow shaft II (2-31), a liquid spraying rotating box (2-32), a liquid spraying pipe (2-33), a liquid spraying one-way valve (2-34), a corner filtering and stirring plate (2-35), a filtering hole (2-36) and a piston with a cavity (2-37), wherein a supporting leg seat (2-1) is connected with a sterilizing box (2-3), and a sterilizing liquid outlet pipe (2-2) is connected and communicated with the sterilizing box (2-3), the transmission belt (2-4) is in friction connection with the belt pulley (2-5), the belt pulley (2-5) is connected with the shaft-bearing bevel gear (2-6), the shaft-bearing bevel gear (2-6) is meshed with the shaft-bearing bevel gear I (2-7), the shaft-bearing bevel gear I (2-7) is connected with the motor belt pulley (2-8), the motor belt pulley (2-8) is connected with the driving motor (2-9), the motor belt pulley (2-8) is in friction connection with the transmission belt I (2-10), the pressurizing hydraulic cylinder (2-11) is connected with the hydraulic rod I (2-12), the hydraulic rod I (2-12) is in sliding connection with the waste water adding pipe (2-13), the waste water adding pipe (2-13) is connected and communicated with the flange-bearing inlet pipe I (2-14), the wastewater adding pipe (2-13) is connected and communicated with the disinfection inlet pipe (2-15), the disinfection inlet pipe (2-15) is connected and communicated with the disinfection box (2-3), the belt pulley I (2-16) is in friction connection with the transmission belt (2-4), the belt pulley I (2-16) is connected with the rotary hollow shaft I (2-17), the rotary hollow shaft I (2-17) is in rotary connection with the disinfection box (2-3), the rotary hollow shaft I (2-17) is connected and communicated with the liquid spraying rotary box (2-32), the liquid spraying rotary box (2-32) is connected and communicated with the hollow shaft rotary hollow shaft II (2-31), the hollow shaft rotary hollow shaft II (2-31) is in rotary connection with the disinfection box (2-3), the hollow shaft rotary hollow shaft II (2-31) is connected and communicated with the rotary transfer box (2-18), a rotary transfer case (2-18) is connected with a shaft (2-21) with a bulge, a return spring (2-22) is sleeved on the shaft (2-21) with the bulge, two ends of the return spring (2-22) are respectively connected with the rotary transfer case (2-18) and a matching disc (2-23), the matching disc (2-23) is connected with the shaft (2-21) with the bulge, a pulley seat (2-24) is connected with a limit slide bar (2-25) in a sliding way, the limit slide bar (2-25) is connected with a hydraulic cylinder support A (2-20), a hydraulic rod A (2-26) is connected with the pulley seat (2-24), the pulley seat (2-24) is connected with a pushing pulley (2-27) in a rotating way, the pushing pulley (2-27) is abutted against the matching disc (2-23), the hydraulic rod A (2-26) is connected with a hydraulic cylinder A (2-19), the hydraulic cylinder A (2-19) is connected with the hydraulic cylinder support A (2-20), the hydraulic cylinder support A (2-20) is connected with the auxiliary support frame (2-28), the auxiliary support frame (2-28) is connected with the disinfection box (2-3), the limiting slide rod (2-25) is connected with the reinforcing connecting seat (2-29), the liquid spraying rotating box (2-32) is connected and communicated with the liquid spraying pipe (2-33), the liquid spraying pipe (2-33) is internally provided with a liquid spraying one-way valve (2-34), the corner filtering and stirring plate (2-35) is connected with the liquid spraying rotating box (2-32), the filtering hole (2-36) is arranged on a piston (2-37) with a cavity, the piston (2-37) with the cavity is connected with the waste water adding pipe (2-13) in a sliding way, the piston (2-37) with the cavity is connected with the hydraulic rod I (2-12), the disinfection inlet pipe (2-15) penetrates into the storage box body (1-3) from the inlet (1-4) and then penetrates out from the outlet (1-24), the disinfection inlet pipe (2-15) is connected with the storage box body (1-3), the rotating hollow shaft (1-1) is connected with the rotating hollow shaft I (2-17), the inner piston I (2-30) is connected with the rotating transfer box (2-18) in a sliding mode, and the shaft (2-21) with the bulge is connected with the inner piston I (2-30).

4. A disinfection sedimentation device for wastewater treatment according to claim 1, characterized in that: the sedimentation mechanism (3) comprises a sedimentation water outlet (3-1), a sedimentation box (3-2), a gear (3-3), a rack with a through hole (3-4), a limiting slide bar I (3-5), a hinged arm (3-6), a hinged rotating disc (3-7), a belt pulley with a shaft (3-8), a pressurized hydraulic cylinder support (3-9), a wastewater adding pipe support (3-10), a bearing seat I (3-11), a speed reducing plate with a shaft (3-12), a sedimentation box inlet (3-13) and a bearing seat II (3-14), wherein the sedimentation water outlet (3-1) is connected and communicated with the sedimentation box (3-2), the sedimentation box (3-2) is connected with the storage box body (1-3), and a supporting leg seat (2-1) is connected with the sedimentation box (3-2), a gear (3-3) is meshed with a rack (3-4) with a through hole, the rack (3-4) with the through hole is connected with a limit slide bar I (3-5) in a sliding way, the limit slide bar I (3-5) is connected with a settling tank (3-2), the rack (3-4) with the through hole is hinged with a hinged arm (3-6), the hinged arm (3-6) is hinged with a hinged rotating disc (3-7), the hinged rotating disc (3-7) is connected with a belt pulley (3-8) with a shaft, the belt pulley (3-8) with the shaft is rotationally connected with the settling tank (3-2), the belt pulley (3-8) with the shaft is connected with a transmission belt I (2-10) in a friction way, a pressurizing hydraulic cylinder support (3-9) and a waste water adding pipe support (3-10) are both connected with the settling tank (3-2), a pressurized hydraulic cylinder support (3-9) is connected with a pressurized hydraulic cylinder (2-11), a wastewater adding pipe support (3-10) is connected with a wastewater adding pipe (2-13), a bearing seat I (3-11) is connected with a settling tank (3-2), the bearing seat I (3-11) is rotationally connected with a shaft-bearing bevel gear (2-6), a shaft-bearing bevel gear I (2-7) is rotationally connected with a bearing seat II (3-14), the bearing seat II (3-14) is connected with the settling tank (3-2), a shaft-bearing speed reducing plate (3-12) is rotationally connected with the settling tank (3-2), a shaft-bearing speed reducing plate (3-12) is connected with a gear (3-3), a settling tank inlet (3-13) is arranged on the settling tank (3-2), and the settling tank inlet (3-13) is communicated with a disinfection liquid outlet pipe (2-2), the disinfection liquid outlet pipe (2-2) is connected with the settling tank (3-2), and the driving motor (2-9) is connected with the settling tank (3-2).

5. A disinfection sedimentation device for wastewater treatment according to claim 2 or 3, characterized in that: when the movable plug (1-15) and the socket with holes (1-16) are connected, the power supply of the driving motor (2-9) is connected.

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