CN110357314A - A kind of reduction effluent containing heavy metal ions pollutant discharge - Google Patents

Abstract

The invention discloses a kind of reduction effluent containing heavy metal ions pollutant discharges, including cabinet, the compound chamber of opening upwards is equipped in the cabinet, the third hand tap gear of front side drives cam lever and cam to rotate by engaging with first bevel gear, after waste water enters flow cavity, rotor plate can rotate, so that articulated slab is moved to the left, through-hole is connected to blanking chamber, the intracavitary compound of compound is fallen into flow cavity by blanking chamber, compound can be mixed with the waste water of flowing, increase the contact range of compound and waste water, so that the mixing of compound and waste water is more abundant, compound can more quickly be reacted with heavy metal ion, the mixture of compound and waste water can be stirred by rabbling mechanism, can mixture be shaken by moving left and right for movable plate, then it can will be given up by filter mechanism Water is separated with heavy metal compound.

Description

A kind of reduction effluent containing heavy metal ions pollutant discharge

Technical field

The present invention relates to disposal of pollutants processing technology field, specially a kind of reduction effluent containing heavy metal ions pollutant emission Device.

Background technique

Heavy metal containing wastewater treatment, which refers to, to be taken out and is recycled by the heavy metal in heavy metal wastewater thereby or innoxious place The process of reason, heavy metal wastewater thereby are environmental pollution most serious and endanger one of maximum industrial wastewater to the mankind.

Heavy metal wastewater thereby in the process of processing, is usually extracted using compound and waste water reaction heavy metal from The method of son generally launches compound into heavy metal wastewater thereby by dispensing device, may result in compound and heavy metal is useless Water undercompounding, heavy metal ion and compound reaction speed are slow, still with the presence of in a large amount of heavy metal ion waste water, give up Water still pollutes the environment.

Summary of the invention

It is existing for overcoming the purpose of the present invention is to provide a kind of reduction effluent containing heavy metal ions pollutant discharge Drawbacks described above in technology.

A kind of reduction effluent containing heavy metal ions pollutant discharge of embodiment according to the present invention, including cabinet, institute The compound chamber that opening upwards are equipped in cabinet is stated, what the intracavitary placement of compound can be reacted with heavy metal ions in wastewater Compound, the connection of compound bottom of chamber wall are equipped with blanking chamber, the flow cavity of opening to the left, the flowing are equipped in the cabinet Chamber is connected to the blanking chamber, and the flow cavity roof is located at connection on the left of the blanking chamber and is equipped with rotation chamber, the rotation chamber Inner wall connection in right side is equipped with spring cavity, and the spring cavity extends through to the right inner wall on the right side of the blanking chamber, in the spring cavity Be slidably installed articulated slab, and the first spring is fixedly mounted between inner wall on the right side of the articulated slab right side and the spring cavity, described Through-hole is equipped in articulated slab, the through-hole can be connected to the blanking chamber, the intracavitary rotational installation rotor plate of rotation, and described turn Movable plate extends down into the flow cavity, hingedly installs hinge bar between the articulated slab and the rotor plate, when waste water into When entering the flow cavity, so that the rotor plate rotates, the rotor plate rotation is made by the hinge bar for the flowing of waste water The articulated slab moves right, and the through-hole is connected to the blanking chamber, and the intracavitary compound of the compound enters the stream Move it is intracavitary mixed with waste water, increase the contact range of waste water and compound, intracavitary be additionally provided with of the compound can prevent chemical combination Object blocks the anti-blocking mechanism of the blanking chamber Yu compound chamber junction, and the flow cavity bottom wall connection is equipped with stirring Chamber, the stir chamber is interior to be equipped with the rabbling mechanism that can be stirred to compound and waste water, and the stir chamber inner left wall connects Logical to be equipped with connecting cavity, the connecting cavity inner left wall connection is equipped with filter chamber, and waste water can be carried out by being equipped in the filter chamber The filter mechanism of filtering.

On that basis of the above technical scheme, the anti-blocking mechanism includes being fixedly mounted on inner wall before and after the compound chamber Between link block, link block is equipped in the link block, be slidably installed sliding shoe in the link block, and the sliding shoe is downward The link block bottom surface is extended through, the sliding shoe is slidably installed with the link block, the sliding shoe top surface and the cunning Second spring is fixedly mounted between dynamic chamber roof, being equipped between the link block and the cabinet can drive on the sliding shoe The power source of lower movement.

On that basis of the above technical scheme, the power source includes the engagement chamber being arranged on the right side of the sliding cavity, described Be rotatablely installed cam lever between engagement chamber and the sliding cavity, the cam lever left side is fixedly mounted cam, the cam with The sliding shoe offsets, and first bevel gear is fixedly mounted in the cam lever right side, is located at the cabinet on rear side of the engagement chamber Interior bilateral symmetry is equipped with drive cavity, is rotatablely installed drive rod, described drive rod or so pair between the drive cavity of the left and right sides Claim that second bevel gear is fixedly mounted, the drive cavity in left side is rotatablely installed connecting rod with described engage between chamber, the connection Symmetrical before and after bar that third hand tap gear is fixedly mounted, the third hand tap gear of front side is engaged with the first bevel gear, rear side The third hand tap gear is engaged with the second bevel gear in left side, and ratchet chamber is equipped with below the drive cavity on right side, described First motor is fixedly mounted in the wall of ratchet bottom of chamber, power rail, institute is fixedly mounted in the top surface of the upward output shaft of the first motor It states and ratchet is fixedly mounted on power rail, rotating bar, the rotating bar bottom are rotatablely installed between the drive cavity and the ratchet chamber Face is fixedly connected with the ratchet, and the rotating bar top surface is fixedly mounted the 4th bevel gear, the 4th bevel gear and right side The second bevel gear engagement.

On that basis of the above technical scheme, the rabbling mechanism includes the gear cavity institute being arranged in above the flow cavity It states, stirring rod is fixedly mounted in the bottom surface of the downward output shaft of the first motor, and the stirring rod extends down into the stirring It is intracavitary, it is located in the stir chamber on the stirring rod and stirring rod is fixedly mounted.

On that basis of the above technical scheme, it is located in the gear cavity on the stirring rod and first gear is fixedly mounted, institute It states inner wall connection on the right side of stir chamber and is equipped with mobile cavity, rack is rotatablely installed between the mobile cavity and the gear cavity, it is described Second gear is fixedly mounted in rack top surface, transmission installation chain, the tooth between the second gear and the first gear It takes turns bar bottom surface and eccentric wheel is fixedly mounted, be slidably installed movable plate, the movable plate right side and the movement in the mobile cavity Third spring is fixedly mounted on the right side of chamber between inner wall, the eccentric wheel offsets with the movable plate.

On that basis of the above technical scheme, valve is fixedly mounted in the connecting cavity.

On that basis of the above technical scheme, the filter mechanism includes that bilateral symmetry is rotatably installed in the filter chamber two sides Strainer is fixedly mounted between the rotating block of the left and right sides, is equipped with electricity on the left of the rotating block in left side for the rotating block of inner wall The second motor is fixedly mounted in machine cavity, the motor cavity inner left wall, and the right side of the output shaft of second motor to the right is fixed Fixed link is installed, the fixed link right side is fixedly connected with the rotating block in left side.

On that basis of the above technical scheme, inner wall is fixedly mounted diversion pipe on the right side of the cabinet, the diversion pipe with it is described Filter chamber connection.

On that basis of the above technical scheme, the body feed tank is placed below the diversion pipe.

On that basis of the above technical scheme, supporting block is fixedly mounted at left and right sides of the tank floor.

The beneficial effects of the present invention are: the present invention, after waste water enters flow cavity, rotor plate can rotate so that articulated slab to It moves left, through-hole is connected to blanking chamber, and the intracavitary compound of compound is fallen into flow cavity by blanking chamber, and compound can be with The waste water of flowing mixes, and the contact range of compound and waste water is increased, so that the mixing of compound and waste water is more Sufficiently, compound can more quickly be reacted with heavy metal ion, can be mixed to compound and waste water by rabbling mechanism It closes object to be stirred, can mixture be shaken by moving left and right for movable plate, then can will be given up by filter mechanism Water is separated with heavy metal compound, is worthy to be popularized.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the enlarged diagram in Fig. 1 of the present invention at A；

Fig. 3 is the enlarged diagram mould in Fig. 1 of the present invention at B；

Fig. 4 is the schematic cross-sectional view in the direction C-C in Fig. 2 of the present invention.

Specific embodiment

Below with reference to Fig. 1-4, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-4, a kind of reduction effluent containing heavy metal ions pollutant discharge of embodiment according to the present invention, packet Cabinet 43 is included, the compound chamber 39 of opening upwards is equipped in the cabinet 43, placing in the compound chamber 39 can be with waste water The compound of middle heavy metal ion reaction, 39 bottom wall of the compound chamber connection are equipped with blanking chamber 40, are equipped in the cabinet 43 The flow cavity 12 of opening to the left, the flow cavity 12 are connected to the blanking chamber 40, and 12 roof of flow cavity is located at described fall Expect that connection is equipped with rotation chamber 44 on the left of chamber 40,44 right side inner wall of the rotation chamber connection is equipped with spring cavity 65, the spring cavity 65 The 40 right side inner wall of blanking chamber is extended through to the right, and be slidably installed articulated slab 41 in the spring cavity 65, the articulated slab 41 The first spring 47 is fixedly mounted between 65 right side inner wall of right side and the spring cavity, is equipped with through-hole 46 in the articulated slab 41, The through-hole 46 can be connected to the blanking chamber 40, be rotatablely installed rotor plate 45 in the rotation chamber 44, the rotor plate 45 to Under extend into the flow cavity 12, hinge bar 42 is hingedly installed between the articulated slab 41 and the rotor plate 45, works as waste water When into the flow cavity 12, so that the rotor plate 45 rotates, the rotation of rotor plate 45 passes through the hinge for the flowing of waste water Extension bar 42 makes the articulated slab 41 move right, and the through-hole 46 is connected to the blanking chamber 40, in the compound chamber 39 Compound enter in the flow cavity 12 and mixed with waste water, the contact range of increase waste water and compound, the compound chamber The anti-blocking mechanism that can prevent compound from blocking the blanking chamber 40 and 39 junction of compound chamber is additionally provided in 39 101,12 bottom wall of the flow cavity connection is equipped with stir chamber 20, and compound and waste water can be carried out by being equipped in the stir chamber 20 The rabbling mechanism 102 of stirring, 102 power of rabbling mechanism are provided by the anti-blocking mechanism 101,20 left side of stir chamber Inner wall connection is equipped with connecting cavity 18, and 18 inner left wall of the connecting cavity connection is equipped with filter chamber 14, is equipped in the filter chamber 14 It can be to the filter mechanism 103 that waste water is filtered.

In addition, in one embodiment, the anti-blocking mechanism 101 includes being fixedly mounted on 39 front and back of compound chamber Link block 54 between inner wall, the link block 54 is interior to be equipped with link block 54, and be slidably installed sliding shoe 55 in the link block 54, The sliding shoe 55 extends downwardly through 54 bottom surface of link block, and the sliding shoe 55 is slidably installed with the link block 54, Second spring 53, the link block 54 and the case are fixedly mounted between 51 roof of 55 top surface of sliding shoe and the sliding cavity It is equipped with the power source 104 that the sliding shoe 55 can be driven to move up and down between body 43, is driven by the power source 104 described Sliding shoe 55 moves up and down, so that the compound in the compound chamber 39 can constantly enter in the blanking chamber 40, prevents Only the compound chamber 39 is blocked with 40 junction of blanking chamber.

In addition, in one embodiment, the power source 104 includes the engagement chamber that 51 right side of sliding cavity is arranged in 62, cam lever 56 is rotatablely installed between the engagement chamber 62 and the sliding cavity 51,56 left side of cam lever is fixedly mounted Cam 52, the cam 52 offset with the sliding shoe 55, and first bevel gear 63, institute is fixedly mounted in 56 right side of cam lever It states to be located on rear side of engagement chamber 62 in the cabinet 43 and is symmetrically equipped with drive cavity 35, between the drive cavity 35 of the left and right sides It is rotatablely installed drive rod 37, second bevel gear 36, the drive cavity 35 in left side is symmetrically fixedly mounted in the drive rod 37 Rotational installation connecting rod 60 between chamber 62 is engaged with described, 60 front and back of connecting rod is symmetrical to be fixedly mounted third hand tap gear 61, The third hand tap gear 61 of front side is engaged with the first bevel gear 63, the third hand tap gear 61 of rear side and the institute in left side The engagement of second bevel gear 36 is stated, ratchet chamber 32 is equipped with below the drive cavity 35 on right side, is fixed in 32 bottom wall of ratchet chamber First motor 49 is installed, power rail 48, the power rail 48 is fixedly mounted in the top surface of the upward output shaft of the first motor 49 Upper fixed installation ratchet 31 is rotatablely installed rotating bar 33, the rotating bar 33 between the drive cavity 35 and the ratchet chamber 32 Bottom surface is fixedly connected with the ratchet 31, and the 4th bevel gear 34, the 4th bevel gear is fixedly mounted in 33 top surface of rotating bar 34 engage with the second bevel gear 36 on right side, and after waste water enters in the flow cavity 12, the first motor 49 starts The power rail 48 is driven to rotate forward, the power rail 48 drives the rotating bar 33 and the 4th cone tooth by the ratchet 31 34 rotation of wheel, the 4th bevel gear 34 by with the second bevel gear 36 on right side engage drive the drive rod 37 and The second bevel gear 36 in left side rotates, and the second bevel gear 36 in left side passes through the third hand tap gear 61 with rear side Engagement drives the connecting rod 60 and the third hand tap gear 61 of front side to rotate, the third hand tap gear 61 of front side by with The engagement of first bevel gear 63 drives the cam lever 56 and the cam 52 to rotate, and the rotation of cam 52 is so that the cunning Motion block 55 moves up and down, and when the power rail 48 reversion, the power rail 48 does not drive the rotation by the ratchet 31 Bar 33 rotates.

In addition, in one embodiment, the rabbling mechanism 102 includes the gear cavity that 12 top of flow cavity is arranged in Described in 29, stirring rod 21 is fixedly mounted in the bottom surface of the downward output shaft of the first motor 49, and the stirring rod 21 extends downwardly Enter in the stir chamber 20, is located in the stir chamber 20 on the stirring rod 21 and stirring rod 22 is fixedly mounted, when described first When the starting of motor 49 drives the stirring rod 21 rotation, the stirring rod 21 drives the stirring rod 22 to rotate, to the stirring The mixture of waste water and compound in chamber 20 is stirred.

First gear is fixedly mounted in addition, being located in the gear cavity 29 in one embodiment, on the stirring rod 21 50,20 right side inner wall of the stir chamber connection is equipped with mobile cavity 23, and peace is rotated between the mobile cavity 23 and the gear cavity 29 Second gear 28, the second gear 28 and the first gear 50 is fixedly mounted in cogged bar 27,27 top surface of rack Between transmission installation chain 30, eccentric wheel 26 is fixedly mounted in 27 bottom surface of rack, and be slidably installed shifting in the mobile cavity 23 Movable plate 24, is fixedly mounted third spring 25 between 23 right side inner wall of 24 right side of movable plate and the mobile cavity, it is described partially Heart wheel 26 offsets with the movable plate 24, and when the stirring rod 21 rotation, the stirring rod 21 drives the first gear 50 Rotation, the first gear 50 drive the second gear 28 and the rack 27 to rotate by the chain 30 transmission, institute It states the rotation of rack 27 and by the third spring 25 movable plate 24 is moved left and right, the movable plate 24 moves left and right So that mixture shakes.

In addition, in one embodiment, valve 15 is fixedly mounted in the connecting cavity 18, when the valve 15 is opened, Mixture in the stir chamber 20 enters in the filter chamber 14.

In addition, in one embodiment, the filter mechanism 103 includes that bilateral symmetry is rotatably installed in the filter chamber 14 Strainer 13, the rotating block in left side are fixedly mounted between the rotating block 17 of the left and right sides for the rotating block 17 of two sides inner wall 17 left sides are equipped with motor cavity 58, and the second motor 57 is fixedly mounted in 58 inner left wall of motor cavity, and second motor 57 is to the right The right side of output shaft fixed link 59 is fixedly mounted, the rotating block 17 in 59 right side of fixed link and left side is fixed to be connected It connects, when mixture enters the filter chamber 14, the strainer 13 is filtered mixture, and filtered water is from the filtering The outflow of 14 right side inner wall of chamber, after water flow is complete, the starting of the second motor 57 drives the fixed link 59 to rotate, so that the filter Net 13 rotates 180 degree, and filtered heavy metal ion compound is fallen from the strainer 13.

In addition, in one embodiment, the 43 right side inner wall of cabinet is fixedly mounted diversion pipe 19, the diversion pipe 19 with The filter chamber 14 is connected to, and the diversion pipe 19 plays guide functions.

In addition, in one embodiment, the body feed tank 16 is placed below the diversion pipe 19, the body feed tank 16 is used for Store filtered heavy metal ion compound.

In addition, in one embodiment, supporting block 64, the supporting block are fixedly mounted at left and right sides of 43 bottom surface of cabinet 64 are used to support the cabinet 43.

When waste water enters flow cavity 12, so that rotor plate 45 rotates, the rotation of rotor plate 45 passes through hinged for the flowing of waste water Bar 42 makes articulated slab 41 move right, and through-hole 46 is connected to blanking chamber 40, and the compound in compound chamber 39 enters flow cavity It is mixed in 12 with waste water, after waste water enters in flow cavity 12, the starting of first motor 49 drives power rail 48 to rotate forward, power rail 48 Rotating bar 33 and the rotation of the 4th bevel gear 34 are driven by ratchet 31, the 4th bevel gear 34 passes through the second bevel gear 36 with right side Engagement drive the second bevel gear 36 in drive rod 37 and left side to rotate, the second bevel gear 36 in left side passes through the third with rear side The engagement of bevel gear 61 drives the third hand tap gear 61 of connecting rod 60 and front side to rotate, and the third hand tap gear 61 of front side is by with first The engagement of bevel gear 63 drives cam lever 56 and cam 52 to rotate, and cam 52 rotates so that sliding shoe 55 moves up and down, when waste water stops After only entering in flow cavity 12, power rail 48 is inverted, and power rail 48 is rotated by ratchet 31 without turn lever 33, when the first electricity When the starting of machine 49 drives stirring rod 21 to rotate, stirring rod 21 drives stirring rod 22 to rotate, to the waste water and chemical combination in stir chamber 20 The mixture of object is stirred, and when stirring rod 21 rotates, stirring rod 21 drives first gear 50 to rotate, and first gear 50 passes through The transmission of chain 30 drives second gear 28 and rack 27 to rotate, and the rotation of rack 27 makes movable plate 24 by third spring 25 It moves left and right, movable plate 24 moves left and right so that mixture shakes, so that compound mixes more abundant, valve 15 with waste water Open, the mixture in stir chamber 20 enters in filter chamber 14, when mixture enters filter chamber 14, strainer 13 to mixture into Row filtering, filtered water is flowed out from 14 right side inner wall of filter chamber, and after water flow is complete, the starting of the second motor 57 drives fixed link 59 Rotation, so that strainer 13 rotates 180 degree, filtered heavy metal ion compound is fallen from strainer 13, is then passed through Diversion pipe 19 enters body feed tank 16.

The beneficial effects of the present invention are: the present invention, after waste water enters flow cavity, rotor plate can rotate so that articulated slab to It moves left, through-hole is connected to blanking chamber, and the intracavitary compound of compound is fallen into flow cavity by blanking chamber, and compound can be with The waste water of flowing mixes, and the contact range of compound and waste water is increased, so that the mixing of compound and waste water is more Sufficiently, compound can more quickly be reacted with heavy metal ion, can be mixed to compound and waste water by rabbling mechanism It closes object to be stirred, can mixture be shaken by moving left and right for movable plate, then can will be given up by filter mechanism Water is separated with heavy metal compound, is worthy to be popularized.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (10)

1. a kind of reduction effluent containing heavy metal ions pollutant discharge, including cabinet, it is characterised in that: be equipped in the cabinet The compound chamber of opening upwards, the compound that the intracavitary placement of compound can be reacted with heavy metal ions in wastewater are described Wall connection in compound bottom of chamber is equipped with blanking chamber, and the flow cavity of opening to the left is equipped in the cabinet, and the flow cavity is fallen with described Expect chamber connection, the flow cavity roof is located at connection on the left of the blanking chamber and is equipped with rotation chamber, and inner wall connects on the right side of the rotation chamber Logical to be equipped with spring cavity, the spring cavity extends through to the right inner wall on the right side of the blanking chamber, and be slidably installed hinge in the spring cavity The first spring is fixedly mounted between inner wall on the right side of fishplate bar, the articulated slab right side and the spring cavity, is set in the articulated slab There is through-hole, the through-hole can be connected to the blanking chamber, the intracavitary rotational installation rotor plate of the rotation, and the rotor plate is to downward It protrudes into the flow cavity, hinge bar is hingedly installed between the articulated slab and the rotor plate, when waste water enters the flowing When chamber, so that the rotor plate rotates, the rotor plate rotation makes the articulated slab by the hinge bar for the flowing of waste water Move right, the through-hole is connected to the blanking chamber, the intracavitary compound of the compound enter the flow cavity in it is useless Water mixing, increases the contact range of waste water and compound, and intracavitary be additionally provided with of the compound can prevent described in compound blocking The anti-blocking mechanism of blanking chamber and compound chamber junction, the flow cavity bottom wall connection are equipped with stir chamber, the stirring It is intracavitary equipped with the rabbling mechanism that can be stirred to compound and waste water, the stir chamber inner left wall connection is equipped with connection Chamber, the connecting cavity inner left wall connection are equipped with filter chamber, and being equipped in the filter chamber can be to the filtering that waste water is filtered Mechanism.

2. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 1, it is characterised in that: described Anti-blocking mechanism includes the link block before and after being fixedly mounted on the compound chamber between inner wall, is equipped with connection in the link block Block, be slidably installed in the link block sliding shoe, and the sliding shoe extends downwardly through the link block bottom surface, the sliding shoe It is slidably installed with the link block, second spring is fixedly mounted between the sliding shoe top surface and the sliding cavity roof, it is described The power source that the sliding shoe can be driven to move up and down is equipped between link block and the cabinet.

3. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 2, it is characterised in that: described Power source includes the engagement chamber being arranged on the right side of the sliding cavity, is rotatablely installed cam between the engagement chamber and the sliding cavity Cam is fixedly mounted in bar, the cam lever left side, and the cam offsets with the sliding shoe, and the cam lever right side is fixed First bevel gear is installed, bilateral symmetry is located in the cabinet on rear side of the engagement chamber equipped with drive cavity, the left and right sides it is described Drive rod is rotatablely installed between drive cavity, second bevel gear, the transmission in left side is fixedly mounted in the drive rod bilateral symmetry Chamber is rotatablely installed connecting rod with described engage between chamber, symmetrical before and after the connecting rod that third hand tap gear is fixedly mounted, front side The third hand tap gear is engaged with the first bevel gear, the third hand tap gear of rear side and the second bevel gear in left side Engagement, the drive cavity lower section on right side are equipped with ratchet chamber, fixed installation first motor in the wall of the ratchet bottom of chamber, and described first Power rail is fixedly mounted in the top surface of the upward output shaft of motor, and ratchet, the drive cavity and institute is fixedly mounted on the power rail It states and is rotatablely installed rotating bar between ratchet chamber, the rotating bar bottom surface is fixedly connected with the ratchet, and the rotating bar top surface is solid Dingan County fills the 4th bevel gear, and the 4th bevel gear engages with the second bevel gear on right side.

4. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 1, it is characterised in that: described Rabbling mechanism includes described in the gear cavity that is arranged in above the flow cavity, and the bottom surface of the downward output shaft of the first motor is solid Dingan County fills stirring rod, and the stirring rod extends down into the stir chamber, is located on the stirring rod solid in the stir chamber Dingan County fills stirring rod.

5. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 4, it is characterised in that: described It is located in the gear cavity on stirring rod and first gear is fixedly mounted, inner wall connection is equipped with mobile cavity, institute on the right side of the stir chamber It states and is rotatablely installed rack between mobile cavity and the gear cavity, the rack top surface is fixedly mounted second gear, and described the Eccentric wheel, the mobile cavity is fixedly mounted in transmission installation chain, the rack bottom surface between two gears and the first gear Inside be slidably installed movable plate, and third spring, institute is fixedly mounted on the right side of the movable plate right side and the mobile cavity between inner wall Eccentric wheel is stated to offset with the movable plate.

6. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 1, it is characterised in that: described Valve is fixedly mounted in connecting cavity.

7. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 1, it is characterised in that: described Filter mechanism includes the rotating block that bilateral symmetry is rotatably installed in filter chamber two sides inner wall, the rotating block of the left and right sides Between be fixedly mounted strainer, be equipped with motor cavity on the left of the rotating block in left side, the motor cavity inner left wall is fixedly mounted the Fixed link, the fixed link right side and left side is fixedly mounted in the right side of two motors, the output shaft of second motor to the right The rotating block be fixedly connected.

8. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 7, it is characterised in that: described Diversion pipe is fixedly mounted in inner wall on the right side of cabinet, and the diversion pipe is connected to the filter chamber.

9. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 8, it is characterised in that: described The body feed tank is placed below diversion pipe.

10. a kind of reduction effluent containing heavy metal ions pollutant discharge according to claim 1, it is characterised in that: institute It states and supporting block is fixedly mounted at left and right sides of tank floor.