CN111039386A

CN111039386A - Sewage purification chamber with ozone treatment function

Info

Publication number: CN111039386A
Application number: CN201911356758.8A
Authority: CN
Inventors: 万海燕
Original assignee: Anhui Jianghe Technology Co Ltd
Current assignee: Anhui Jianghe Technology Co Ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-04-21

Abstract

The invention relates to the technical field of sewage purification equipment, in particular to a sewage purification chamber with an ozone treatment function; the first rack is driven to move by the telescopic action of the hydraulic cylinder, so that the first rack moves left and right, on one hand, the first connecting rod moves left and right along with the first connecting rod, and drives the piston plate to reciprocate in the piston cavity, and ozone generated by the ozone generator is conveyed into the ventilation assembly by matching with the one-way valve, so that the ozone is contacted with sewage from the bottom of the purifying tank for purification; on the other hand, the sector gear drives the rocker to swing, so that the reel is driven to rotate in a reciprocating manner, the lifting plate is lifted or lowered through the pull rope, and the rotating shaft moves up and down. The lifting plate and the pushing block are relatively displaced up and down, so that the second gear moves left and right and drives the first driven gear to drive the first rotating shaft to rotate; the stirring subassembly of cooperation bottom carries out disturbance and stirring to sewage, makes ozone and sewage with abundant contact, reinforcing purifying effect.

Description

Sewage purification chamber with ozone treatment function

Technical Field

The invention relates to the technical field of sewage purification equipment, in particular to a sewage purification chamber with an ozone treatment function.

Background

Sewage is the effluent from life and production that is contaminated to some extent. The water which loses the original use function is called sewage for short. Mainly used water in life, which contains more organic matters and is easy to treat.

The sewage is caused by that new substances are mixed in the water or the water is deteriorated because of the change of external conditions, so that the original use function of the sewage cannot be maintained.

Sewage can be classified into these four categories according to the source of the sewage.

The first type: industrial wastewater, wastewater from manufacturing mining and industrial production activities, including runoff leachate from industrial or commercial storage, processing, and other wastewater that is not domestic wastewater.

The second type: domestic sewage from a residence, office building, office or the like; sanitary sewage; sewage water, including industrial waste water mixed in domestic sewage water in a sewer system. Garbage, various atmospheric particulates, and the like, which enter the water environment through surface runoff, soil erosion, farmland drainage, and the like. The method has the characteristics of dispersity, concealment, randomness, latency, accumulation, ambiguity and the like, so that the method is difficult to monitor and quantify, and the difficulty of research, prevention and control is high. The discharge of water pollutants into the body of water causes the substances of pollution.

In the third category: commercial sewage, non-toxic, harmless sewage from commercial facilities with certain components exceeding domestic sewage. Such as restaurant sewage. Laundry sewage, animal feeding sewage, sewage generated by a hair salon, and the like.

The fourth type: surface runoff, water from rain, snow, highway drainage, water from urban and industrial areas, and the like, which does not seep into the soil, enters groundwater along streets and lands.

The ozone treatment of waste water is a method for purifying and disinfecting waste water by using ozone as oxidant, in particular to a method for adopting air or oxygen containing low-concentration ozone, is an effective waste water advanced treatment means, has the advantages of strong oxidation capability, high reaction speed, convenient use (including ozone production, output, dosing and the like), no secondary pollution and the like, and is valued by people.

However, most of the existing ozone purification devices directly introduce ozone into the sewage pool, because the design of the air outlet position is unreasonable, the air inlet area is small, and the purification action area is limited.

Therefore, it is necessary to design a sewage purifying chamber having an ozone treatment function to solve the above problems.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provide a sewage purifying chamber with an ozone treatment function.

(II) technical scheme

A sewage purifying chamber with an ozone treatment function comprises a purifying chamber, and is characterized by further comprising a driving assembly, a lifting assembly, a swinging assembly, a stirring assembly, an ozone assembly and a ventilation assembly;

the purifying chamber is a closed cavity, a movable door is arranged on one side wall of the purifying chamber, and an ozone concentration detector is also arranged in the purifying chamber;

a support shaft is arranged in the middle of the bottom plate of the purification chamber, and the purification box is arranged at the top end of the support shaft;

a top plate of the purification chamber is provided with a driving assembly, and the right side of the driving assembly is provided with an ozone assembly; the purification box is provided with a ventilation assembly which is communicated with the ozone assembly; the roof below is provided with lifting unit, and lifting unit cooperates and has swaing the subassembly, swaps the subassembly bottom and stretch into in the purifying box and be provided with the stirring subassembly.

Preferably, the driving assembly comprises a fixed plate, a hydraulic cylinder, a first rack, a first connecting rod, a first supporting rod, a first sliding block, a first sliding rail, a sector gear, a rocker, a reel, a mounting rack and a mounting rod;

the fixed plate is arranged at the left end of the outer side of the top plate; the hydraulic cylinder is horizontally arranged, the left end of the hydraulic cylinder is fixed on the fixed plate, and the right end of the hydraulic cylinder is connected with a first rack; the tooth surface of the first rack faces downwards; the rocker is positioned at the front side or the rear side of the purification chamber, the top end of the rocker is provided with a sector gear, the bottom end of the rocker is coaxially connected with a reel, and the reel is positioned in the purification chamber; the sector gear is matched with the first rack; the mounting rod is arranged below the top plate, and the top end of the mounting rod is fixedly connected with the top plate; the reel is arranged on the mounting frame; the right end of the first rack is connected with a first connecting rod, a first supporting rod is connected below the first connecting rod, and a first sliding block is arranged at the bottom end of the first supporting rod; a first sliding rail is arranged on the top plate, and a first sliding block is connected with the first sliding rail in a sliding mode.

Preferably, the ozone component comprises a piston cavity, a piston plate, an air suction pipe, an ozone generator and an air guide pipe;

the piston cavity is arranged at the right end of the top plate, and a piston plate which moves left and right is arranged in the piston cavity; the right end of the first connecting rod extends into the piston cavity and is connected with the piston plate; the top of the piston cavity is provided with an ozone generator; the right end of the piston cavity is connected with an ozone generator through an air suction pipe, and a one-way valve for controlling ozone to enter the piston cavity is arranged on the air suction pipe; the right end of the piston cavity is connected with an air duct, and a second one-way valve for controlling the ozone to flow out of the piston cavity is arranged on the air duct.

Preferably, the ventilation assembly comprises a ventilation pipe, a vent hole, a connecting pipe, a joint and a reinforcing rod;

the vent pipe is horizontally arranged at the bottom of the purification box, and vent holes are uniformly arranged at the top of the vent pipe; the right end of the vent pipe is upwards connected with a connecting pipe; the connecting pipe is close to the inner wall of the right side of the purifying box; the top end of the connecting pipe extends out of the purifying box, then is bent to pass through the right side wall of the purifying chamber and is connected with the air guide pipe through the joint; the connecting pipe is also fixedly connected with the right side wall through a reinforcing rod.

Preferably, the lifting assembly comprises a fixed pulley, a first-class pull rope, a lifting plate, a second support rod, a second sliding block and a second sliding rail;

the fixed pulleys are symmetrically arranged on two sides of the reel, two pull ropes of the same type are symmetrically led out from the circle center of the reel, and the pull ropes are respectively connected with the lifting plate after bypassing the corresponding fixed pulleys; the lifting plate is positioned below the reel, and the left end of the lifting plate is connected with a second sliding block through a second supporting rod; no. two slide rails are arranged on the right side of the left side wall of the purification chamber, and the No. two slide blocks are connected with the No. two slide rails in a sliding mode.

Preferably, the swinging assembly comprises a second connecting rod, a pushing block, a roller, a second rack, a first driven gear, a first rotating shaft, a third connecting rod, a first end plate, a first spring and a guide plate;

the push block is connected below the mounting frame through a second connecting rod; the longitudinal section of the push block is isosceles trapezoid, and the left end and the right end are oblique edges; the lifting plate is provided with a through hole which corresponds to the push block to pass through;

the first-class rotating shafts are symmetrically arranged on the left side and the right side of the push block, and the top ends of the first-class rotating shafts are rotatably connected with the lifting plate through bearings; the first-class rotating shaft is provided with a first-class driven gear; the second rack is horizontally arranged, and the tooth surface of the second rack is arranged towards the front side or the rear side and is matched with the first driven gear; one end of the second rack is provided with a roller, and the roller is matched with the bevel edge of the push block; the other end of the second rack penetrates through the guide plate and is provided with a first-class end plate; the guide plate is fixedly connected to the bottom of the lifting plate; a spring is connected between the end plate and the guide plate.

Preferably, the stirring assembly is arranged at the lower section of the first-class rotating shaft and comprises a stirring plate, a first-class through hole, a turbulent flow plate and a second-class through hole;

the turbulent flow plate is a snake-shaped bent plate, and the inner end of the turbulent flow plate is connected with a class of rotating shafts; the turbulent flow plate is uniformly provided with second-class through holes; the inner end of the stirring plate is also connected with a class of rotating shafts and is arranged in a staggered way with the turbulent flow plates; the stirring plate is uniformly provided with a class of through holes.

Preferably, the breather pipe is arranged on the outer ring of the stirring assembly and does not interfere with the stirring assembly.

Preferably, the device further comprises a rotating assembly; the rotating assembly comprises a third rack, a second driven gear, a second rotating shaft, a first driving wheel, a driving belt and a second driving wheel;

the third rack is arranged on the first connecting rod; the tooth surface of the third rack is towards the front side or the rear side and is matched with a second-class driven gear; the second-class driven gear is arranged at the top end of the second-class rotating shaft, and the second-class rotating shaft penetrates through the top plate downwards and is rotatably connected with the bottom plate; the bottom end of the supporting shaft is also rotatably connected with the bottom plate, and a second driving wheel is arranged on the supporting shaft; the second type of rotating shaft is correspondingly provided with a first driving wheel, and the first driving wheel is in transmission connection with the second driving wheel through a transmission belt.

Preferably, the ozone module further comprises an air return pipe; the right end of the piston cavity is connected with an air return pipe, the air return pipe is communicated with the purification chamber, and a communication valve and a third check valve for introducing gas into the piston cavity are arranged on the air return pipe.

(III) advantageous effects

The invention provides a sewage purifying chamber with an ozone treatment function, which has the following advantages:

1, utilize the flexible rack that drives of pneumatic cylinder to remove, a slider and a slide rail also provide the direction, make a rack remove about, make a connecting rod follow on the one hand and remove about, and take piston plate reciprocating motion in the piston cavity, cooperation check valve carries into the air duct ozone that ozone generator produced, and then lets in the breather pipe with ozone through the connecting pipe, and discharge from the exhaust hole, make ozone begin promptly from the bottom of the purifying box and sewage contact, purify.

2, on the other hand, the first rack also enables the sector gear to drive the rocker to swing, so that the reel is driven to rotate in a reciprocating mode, the lifting plate is lifted or lowered through the pull rope, and the rotating shaft of the first type moves up and down. The push block is fixed below the mounting frame, so that the lifting plate and the push block are relatively displaced up and down, and the second gear is moved left and right under the action of the roller and the bevel edge in cooperation with the elasticity of the first class of spring and drives the first class of driven gear to drive the first class of rotating shaft to rotate; the stirring subassembly of cooperation bottom carries out disturbance and stirring to sewage, makes ozone and sewage with abundant contact, reinforcing purifying effect.

3, still set up rotating assembly, utilized the connecting rod to drive No. three racks and removed, and No. three gear drive two kinds of driven gears drive two kinds of axis of rotation rotations, and then make the back shaft drive the purifying box rotation through the drive wheel. Because the air guide assembly is fixed in position, the purification box rotates to enable the vent pipe to rotate relative to the purification box, so that the ozone action area is changed, and the ozone action effect is improved.

Drawings

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

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of one embodiment of the present invention;

FIG. 3 is a block diagram of the drive assembly and ozone assembly;

FIG. 4 is a block diagram of the vent assembly;

FIG. 5 is a block diagram of the lift assembly and swing assembly;

FIG. 6 is a block diagram of the stirring assembly;

FIG. 7 is a block diagram of the rotating assembly;

figure 8 is a block diagram of another embodiment of an ozone module.

In the drawings, the components represented by the respective reference numerals are listed below:

1-clean room, 101-bottom plate, 102-left side wall, 103-right side wall, 104-top plate, 105-support shaft, 106-clean box, 107-movable door, 108-ozone concentration detector;

2-driving component, 201-fixed plate, 202-hydraulic cylinder, 203-first rack, 204-first connecting rod, 205-first supporting rod, 206-first sliding block, 207-first sliding rail, 208-sector gear, 209-rocker, 210-reel, 211-mounting rack and 212-mounting rod;

3-lifting component, 301-fixed pulley, 302-first class pull rope, 303-lifting plate, 304-second support rod, 305-second slide block and 306-second slide rail;

4-stirring components, 401-stirring plates, 402-first-class through holes, 403-turbulent flow plates and 404-second-class through holes;

5-a swinging assembly, 502-a connecting rod II, 503-a pushing block, 504-a roller, 505-a rack II, 506-a driven gear I, 507-a rotating shaft I, 508-a connecting rod III, 509-an end plate I, 510-a spring I, 511-a guide plate I;

6-ozone component, 601-piston cavity, 602-piston plate, 603-air suction pipe, 604-ozone generator, 605-air guide pipe, 606-air return pipe;

7-vent assembly, 701-vent pipe, 702-vent hole, 703-connecting pipe, 704-joint, 705-reinforcing rod;

8-rotating assembly, 801-third rack, 802-second driven gear, 803-second rotating shaft, 804-first driving wheel, 805-driving belt and 806-second driving wheel.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to the attached drawings, the sewage purifying chamber with the ozone treatment function comprises a purifying chamber 1, a driving component 2, a lifting component 3, a swinging component 5, a stirring component 4, an ozone component 6 and a ventilation component 7;

the purifying chamber 1 is a closed cavity, and a movable door 107 is arranged on one side wall of the purifying chamber, so that personnel can conveniently enter and exit the purifying chamber, and sewage can be filled and pumped out from the purifying tank 106; an ozone concentration detector 108 is also arranged in the purifying chamber 1 for detecting the concentration of ozone in the purifying chamber 1 in real time;

a support shaft 105 is arranged in the middle of the bottom plate 101 of the purification chamber 1, and a purification box 106 is fixed at the top end of the support shaft 105;

the top plate 104 of the purification chamber 1 is provided with a driving component 2, and the right side of the driving component 2 is provided with an ozone component 6; the purifying box 106 is provided with a ventilation component 7, and the ventilation component 7 is communicated with the ozone component 6; the lifting component 3 is arranged below the top plate 104, the lifting component 3 is matched with the swinging component 5, and the bottom end of the swinging component 5 extends into the purifying box 106 and is provided with the stirring component 4.

Example 2

the purifying chamber 1 is a closed cavity, a movable door 107 is arranged on one side wall of the purifying chamber, so that personnel can conveniently enter and exit the purifying chamber, the purifying tank 106 is filled with sewage before the device works, and the purifying tank 106 is pumped and drained after the purification is finished; an ozone concentration detector 108 is also arranged in the purifying chamber 1, so that the ozone concentration in the purifying chamber 1 can be detected in real time, and a user can conveniently control the device to work;

The driving assembly 2 comprises a fixing plate 201, a hydraulic cylinder 202, a first rack 203, a first connecting rod 204, a first supporting rod 205, a first sliding block 206, a first sliding rail 207, a sector gear 208, a rocker 209, a reel 210, a mounting rack 211 and a mounting rod 212;

the fixing plate 201 is fixedly connected to the left end of the outer side of the top plate 104; the hydraulic cylinder 202 is horizontally arranged, the left end of the hydraulic cylinder is fixed on the fixing plate 201, and the right end of the hydraulic cylinder is connected with a first rack 203; the tooth surface of the first rack 203 faces downwards; the rocker 209 is positioned at the front side or the rear side of the clean room 1, the top end of the rocker is fixedly connected with a sector gear 208, the bottom end of the rocker is coaxially connected with a winding wheel 210, and the winding wheel 210 is positioned in the clean room 1; sector gear 208 is engaged with first rack 203; the mounting rod 211 is arranged below the top plate 104, and the top end of the mounting rod is fixedly connected with the top plate 104; the reel 210 is mounted on the mount 211; the right end of the first rack 203 is connected with a first connecting rod 204, a first supporting rod 205 is connected below the first connecting rod 204, and a first sliding block 206 is fixedly connected to the bottom end of the first supporting rod 205; a first sliding rail 207 is arranged on the top plate 104, and a first sliding block 206 is connected with the first sliding rail 207 in a sliding mode.

Specifically, the control hydraulic cylinder 202 stretches out and draws back and drives a rack 203 to move, a slider 206 and a slide rail 207 also provide the direction, make a rack 203 move about, make a connecting rod 204 on the one hand follow and move about, as the exhaust power of ozone subassembly 6, on the other hand makes sector gear 208 take rocker 209 to sway, and then drives reel 210 reciprocating rotation, as lifting unit 3 power.

Wherein, the ozone component 6 comprises a piston cavity 601, a piston plate 602, an air suction pipe 603, an ozone generator 604 and an air duct 605;

the piston cavity 601 is fixed at the right end of the top plate 104, and a piston plate 602 which can move left and right is arranged in the piston cavity 601; the right end of the first connecting rod 204 extends into the piston cavity 601 and is connected with the piston plate 602; the top of the piston cavity 601 is provided with an ozone generator 604; the right end of the piston cavity 601 is connected with an ozone generator 604 through an air suction pipe 603, and a first check valve for controlling ozone to enter the piston cavity 601 is arranged on the air suction pipe 603; the right end of the piston cavity 601 is connected with an air duct 605, and a second check valve for controlling the ozone to flow out of the piston cavity 601 is arranged on the air duct 605.

Specifically, the first connecting rod 204 moves left and right, drives the piston plate 602 to reciprocate in the piston cavity 601, and is matched with the two one-way valves to convey ozone generated by the ozone generator 604 into the air duct 605 and further into the ventilation assembly 7.

Wherein, the ventilation component 7 comprises a ventilation pipe 701, a vent hole 702, a connecting pipe 703, a joint 704 and a reinforcing rod 705;

the vent pipe 701 is horizontally arranged at the bottom of the purification box 106, and vent holes 702 are uniformly formed in the top of the vent pipe 701; the right end of the breather pipe 701 is upwards connected with a connecting pipe 703; the connecting pipe 703 is close to the inner wall of the right side of the purifying box 106; the top end of the connecting pipe 703 extends out of the purifying box 106, then bends to pass through the right side wall 103 of the purifying chamber 1, and is connected with the air duct 605 through the joint 704; the connection pipe 703 is also fixedly connected to the right sidewall 103 by a reinforcing rod 705.

Specifically, the vent pipe 701 and the connecting pipe 703 are both hard pipes, which facilitates installation and positioning. The air duct 605 introduces ozone into the air duct 701 through the connection pipe 703 and discharges the ozone from the air discharge hole 702, so that the ozone comes into contact with the sewage from the bottom of the purification tank 106 to be purified.

The lifting component 3 comprises a fixed pulley 301, a first pull rope 302, a lifting plate 303, a second support rod 304, a second slide block 305 and a second slide rail 306;

the fixed pulleys 301 are symmetrically arranged on two sides of the reel 210, two pull ropes 302 of the same type are symmetrically led out from the center of the circle of the reel 210 and are respectively connected with the lifting plate 303 after bypassing the corresponding fixed pulleys 301; the lifting plate 303 is positioned below the reel 210, and the left end of the lifting plate is connected with a second sliding block 305 through a second supporting rod 304; a second sliding rail 306 is arranged on the right side of the left side wall 102 of the purification chamber 1, and a second sliding block 305 is connected with the second sliding rail 306 in a sliding manner.

The swinging assembly 5 comprises a second connecting rod 502, a pushing block 503, a roller 504, a second rack 505, a first driven gear 506, a first rotating shaft 507, a third connecting rod 508, a first end plate 509, a first spring 510 and a guide plate 511;

the push block 503 is connected below the mounting frame 501 through a second connecting rod 502; the longitudinal section of the pushing block 503 is an isosceles trapezoid, and the left end and the right end are oblique sides; the lifting plate 303 is provided with a through hole through which the corresponding push block 503 passes;

the first-class rotating shafts 507 are symmetrically arranged on the left side and the right side of the pushing block 503, and the top ends of the first-class rotating shafts are rotatably connected with the lifting plate 303 through bearings; a first driven gear 506 is mounted on the first rotating shaft 507; a second rack 505 is horizontally arranged, the tooth surface of the second rack is arranged at the front side or the rear side, and the second rack is matched with a first driven gear 506; one end of the second rack 505 is provided with a roller 504, and the roller 504 is matched with the bevel edge of the push block 503; the other end of the second rack 505 penetrates through the guide plate 511 and is fixedly connected with a first-class end plate 509; the guide plate 511 is fixedly connected to the bottom of the lifting plate 303; a spring 510 is connected between the end plate 509 and the guide plate 511.

Specifically, when the reel 210 is rotated reciprocally, the elevating plate 303 is raised or lowered by the type of rope 302, that is, the type of rotating shaft 507 is moved up and down. Since the pushing block 503 is fixed below the mounting frame 211, the lifting plate 303 and the pushing block 503 are displaced up and down relatively, and the second gear 505 moves left and right under the action of the roller 504 and the inclined edge in cooperation with the elastic force of the first-class spring 510, and drives the first-class driven gear 506 to drive the first-class rotating shaft 507 to rotate.

Wherein, the stirring component 4 is arranged at the lower section of the first-class rotating shaft 507 and comprises a stirring plate 401, a first-class through hole 402, a turbulent plate 403 and a second-class through hole 404;

the turbulence plate 403 is a serpentine bent plate, and the inner end of the turbulence plate is connected with a first-class rotating shaft 507; the turbulent flow plate 403 is uniformly provided with second-class through holes 404; the inner end of the stirring plate 401 is also connected with a class of rotating shafts 507 and is arranged in a staggered mode with the turbulence plates 403; the stirring plate 401 is uniformly provided with a class of through holes 402.

In particular, the stirring assembly 4 moves with a type of rotation shaft 507: when moving up and down, the turbulent plate 403 is used for disturbing the sewage; when rotating, the sewage is stirred by the stirring plate 401. The ozone that the cooperation bottom let in makes ozone and sewage with abundant contact, reinforcing purifying effect.

It should be noted that the vent pipe 701 is located at the outer ring of the stirring assembly 4, and does not interfere with the stirring assembly 4, so that problems during operation are avoided.

Example 3

On the basis of the example 2, the method comprises the following steps of,

also comprises a rotating component 8; the rotating assembly 8 comprises a third rack 801, a second driven gear 802, a second rotating shaft 803, a first driving wheel 804, a driving belt 805 and a second driving wheel 806;

the third rack 801 is fixedly connected to the first connecting rod 204; the tooth surface of the third rack 801 is towards the front side or the rear side and is matched with a second-class driven gear 802; the second-class driven gear 802 is arranged at the top end of a second-class rotating shaft 803, and the second-class rotating shaft 803 penetrates through the top plate 104 downwards and is rotatably connected with the bottom plate 101;

the bottom end of the supporting shaft 105 is also rotatably connected with the bottom plate 101, and a second driving wheel 806 is arranged on the supporting shaft 105; the second type of rotation shaft 803 is correspondingly provided with a first transmission wheel 804, and the first transmission wheel 804 and a second transmission wheel 806 are in transmission connection through a transmission belt 805.

Specifically, the first connecting rod 204 drives the third rack 801 to move, and the third gear 801 drives the second driven gear 802 to drive the second rotating shaft 803 to rotate, so that the supporting shaft 105 drives the purifying box 106 to rotate through the driving wheel. Because the air guide assembly 7 is fixed in position, the purification box 106 rotates to enable the vent pipe 701 to rotate relative to the purification box 106, so that the ozone action area is changed, and the ozone action effect is improved.

The first driving wheel 804 to the second driving wheel 806 are preferably in a speed-increasing driving mode, so that the unidirectional rotation amplitude of the purifying box 106 exceeds 180 degrees, and the whole area coverage is realized.

Example 4

On the basis of the example 3, the method comprises the following steps,

ozone assembly 6 further includes an air return tube 606; the right end of the piston cavity 601 is connected with an air return pipe 606, the air return pipe 606 is communicated with the purification chamber 1, and the air return pipe 606 is provided with a communication valve and a third one-way valve for introducing air into the piston cavity 601.

Specifically, when carrying out sewage purification, because there is some to remain after ozone lets in purifying box 106, can make the ozone concentration rise in the purge chamber 1, can open the intercommunication valve of muffler 606 as required, make piston cavity 6 continue to pump the gas in the purge chamber 1 into purifying box 106, produce the circulation, purify sewage many times, can avoid the waste of ozone on the one hand, on the other hand also reduces the burden of follow-up tail gas treatment.

It should be noted that the present clean room 1 should be sealed, such as the penetration of the movable door 107, the connecting pipe 703 and the right side wall 103, the penetration of the rocker 209 and the reel 210 on the shaft and the side wall, etc., to avoid ozone overflow during use.

And this clean room 1 still is connected with the pump drainage fan, and after finishing using, need to handle for tail gas, and pump drainage tail gas absorbs in reducing solvent such as potassium iodide, reduces ozone content in the tail gas.

The electrical components are provided with power supplies which are controlled in the prior art in such a way that they are described in the text in order to avoid redundancy; and the present invention is primarily intended to protect mechanical devices, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A sewage purification chamber with an ozone treatment function comprises a purification chamber (1), and is characterized by further comprising a driving assembly (2), a lifting assembly (3), a swinging assembly (5), a stirring assembly (4), an ozone assembly (6) and a ventilation assembly (7);

the purifying chamber (1) is a closed cavity, a movable door (107) is arranged on one side wall of the purifying chamber, and an ozone concentration detector (108) is also arranged in the purifying chamber (1);

a support shaft (105) is arranged in the middle of a bottom plate (101) of the purification chamber (1), and a purification box (106) is arranged at the top end of the support shaft (105);

a top plate (104) of the purification chamber (1) is provided with a driving assembly (2), and the right side of the driving assembly (2) is provided with an ozone assembly (6); the purification box (106) is provided with a ventilation assembly (7), and the ventilation assembly (7) is communicated with the ozone assembly (6); roof (104) below is provided with lifting unit (3), and lifting unit (3) cooperation has swayd subassembly (5), sways subassembly (5) bottom and stretches into in purifying box (106) and be provided with stirring subassembly (4).

2. The sewage purifying chamber with the ozone treatment function according to claim 1, wherein the driving assembly (2) comprises a fixed plate (201), a hydraulic cylinder (202), a first rack (203), a first connecting rod (204), a first supporting rod (205), a first sliding block (206), a first sliding rail (207), a sector gear (208), a rocker (209), a reel (210), a mounting rack (211) and a mounting rod (212);

the fixing plate (201) is arranged at the left end of the outer side of the top plate (104); the hydraulic cylinder (202) is horizontally arranged, the left end of the hydraulic cylinder is fixed on the fixed plate (201), and the right end of the hydraulic cylinder is connected with a first rack (203); the tooth surface of the first rack (203) faces downwards; the rocker (209) is positioned at the front side or the rear side of the purification chamber (1), the top end of the rocker is provided with a sector gear (208), the bottom end of the rocker is coaxially connected with a winding wheel (210), and the winding wheel (210) is positioned in the purification chamber (1); the sector gear (208) is matched with the first rack (203); the mounting rod (211) is arranged below the top plate (104), and the top end of the mounting rod is fixedly connected with the top plate (104); the reel (210) is arranged on a mounting rack (211); the right end of the first rack (203) is connected with a first connecting rod (204), a first supporting rod (205) is connected below the first connecting rod (204), and a first sliding block (206) is arranged at the bottom end of the first supporting rod (205); a first sliding rail (207) is arranged on the top plate (104), and a first sliding block (206) is in sliding connection with the first sliding rail (207).

3. The sewage purifying chamber with ozone treatment function according to claim 2, wherein the ozone assembly (6) comprises a piston cavity (601), a piston plate (602), an air suction pipe (603), an ozone generator (604) and an air guide pipe (605);

the piston cavity (601) is arranged at the right end of the top plate (104), and a piston plate (602) which can move left and right is arranged in the piston cavity (601); the right end of the first connecting rod (204) extends into the piston cavity (601) and is connected with the piston plate (602); an ozone generator (604) is arranged at the top of the piston cavity (601); the right end of the piston cavity (601) is connected with an ozone generator (604) through an air suction pipe (603), and a one-way valve for controlling ozone to enter the piston cavity (601) is arranged on the air suction pipe (603); the right end of the piston cavity (601) is connected with an air duct (605), and a second one-way valve for controlling ozone to flow out of the piston cavity (601) is arranged on the air duct (605).

4. The sewage purifying chamber with ozone treatment function according to claim 3, wherein said ventilation assembly (7) comprises a ventilation pipe (701), a vent hole (702), a connecting pipe (703), a joint (704) and a reinforcing rod (705);

the vent pipe (701) is horizontally arranged at the bottom of the purification box (106), and vent holes (702) are uniformly arranged at the top of the vent pipe (701); the right end of the breather pipe (701) is upwards connected with a connecting pipe (703); the connecting pipe (703) is close to the inner wall of the right side of the purifying box (106); the top end of the connecting pipe (703) extends out of the purifying box (106), then the connecting pipe is bent to penetrate through the right side wall (103) of the purifying chamber (1), and is connected with the air guide pipe (605) through a joint (704); the connecting pipe (703) is also fixedly connected with the right side wall (103) through a reinforcing rod (705).

5. The sewage purifying chamber with ozone treatment function according to claim 4, wherein the lifting assembly (3) comprises a fixed pulley (301), a first type pull rope (302), a lifting plate (303), a second support rod (304), a second sliding block (305) and a second sliding rail (306);

the fixed pulleys (301) are symmetrically arranged on two sides of the reel (210), two pull ropes (302) of the same type are symmetrically led out from the circle center of the reel (210), and the pull ropes are respectively connected with the lifting plate (303) after passing around the corresponding fixed pulleys (301); the lifting plate (303) is positioned below the reel (210), and the left end of the lifting plate is connected with a second sliding block (305) through a second supporting rod (304); a second sliding rail (306) is arranged on the right side of the left side wall (102) of the purification chamber (1), and a second sliding block (305) is connected with the second sliding rail (306) in a sliding mode.

6. The sewage purifying chamber with ozone treatment function according to claim 5, wherein the swing assembly (5) comprises a second connecting rod (502), a pushing block (503), a roller (504), a second rack (505), a first driven gear (506), a first rotating shaft (507), a third connecting rod (508), a first end plate (509), a first spring (510) and a guide plate (511);

the push block (503) is connected below the mounting frame (501) through a second connecting rod (502); the longitudinal section of the push block (503) is an isosceles trapezoid, and the left end and the right end are oblique edges; the lifting plate (303) is provided with a through hole through which the corresponding push block (503) passes;

the first-class rotating shafts (507) are symmetrically arranged on the left side and the right side of the push block (503), and the top ends of the first-class rotating shafts are rotatably connected with the lifting plate (303) through bearings; a first-class driven gear (506) is arranged on the first-class rotating shaft (507); the second rack (505) is horizontally arranged, the tooth surface of the second rack faces to the front side or the rear side, and the second rack is matched with a class of driven gears (506); one end of the second rack (505) is provided with a roller (504), and the roller (504) is matched with the bevel edge of the push block (503); the other end of the second rack (505) penetrates through the guide plate (511) and is provided with a first-class end plate (509); the guide plate (511) is fixedly connected to the bottom of the lifting plate (303); a spring (510) is connected between the end plate (509) and the guide plate (511).

7. The sewage purifying chamber with ozone treatment function according to claim 6, wherein the stirring assembly (4) is arranged at the lower section of the first-class rotating shaft (507) and comprises a stirring plate (401), a first-class through hole (402), a turbulent flow plate (403) and a second-class through hole (404);

the turbulence plate (403) is a snake-shaped bent plate, and the inner end of the turbulence plate is connected with a first-class rotating shaft (507); the turbulent flow plate (403) is uniformly provided with second-class through holes (404); the inner end of the stirring plate (401) is also connected with a class of rotating shafts (507) and is arranged in a staggered mode with the turbulence plates (403); the stirring plate (401) is uniformly provided with a class of through holes (402).

8. The sewage purifying chamber with ozone treatment function according to claim 7, wherein the vent pipe (701) is located at the outer ring of the stirring assembly (4) and does not interfere with the stirring assembly (4).

9. The sewage purifying chamber with ozone treatment function according to claim 8, further comprising a rotating assembly (8); the rotating assembly (8) comprises a third rack (801), a second driven gear (802), a second rotating shaft (803), a first driving wheel (804), a driving belt (805) and a second driving wheel (806);

the third rack (801) is arranged on the first connecting rod (204); the tooth surface of the third rack (801) is forward or backward, and is matched with a second-class driven gear (802); the second-class driven gear (802) is arranged at the top end of a second-class rotating shaft (803), and the second-class rotating shaft (803) penetrates through the top plate (104) downwards and is rotatably connected with the bottom plate (101); the bottom end of the supporting shaft (105) is also rotatably connected with the bottom plate (101), and a second driving wheel (806) is arranged on the supporting shaft (105); the second-class rotating shaft (803) is correspondingly provided with a first driving wheel (804), and the first driving wheel (804) is in transmission connection with a second driving wheel (806) through a transmission belt (805).

10. The sewage purifying chamber with ozone treatment function according to claim 3, wherein said ozone module (6) further comprises a return air pipe (606); the piston cavity (601) right end is connected with muffler (606), muffler (606) and clean room (1) intercommunication, are provided with No. three check valves that intercommunication valve and gas let in piston cavity (601) on muffler (601).