CN108558083B - A kind of heavy metal wastewater thereby integrated approach device - Google Patents

Abstract

The invention discloses a kind of heavy metal wastewater thereby integrated approach devices, including pedestal, a rotation space is provided in the pedestal, a precipitating collecting tank is provided in the rotation space right end wall, a waste collection space is provided in the wall of the rotation space left end, a waste liquid heaping groove is provided in the upper end wall of the waste collection space, the rotating bar upper surface is provided with a cabinet, a sediment space is provided in the cabinet, a stirring space is provided in the sediment space right end wall, a translation space is provided with above the stirring space, a hydraulicefficiency elevation structure is provided in the translation space lower end wall.The present invention easy to use and structure that works is simple, this device is gone out the heavy metal ion in waste water using electrolysis method, is not required to that other removers are added, remove secondary pollution from, and use secondary filtration, keeps generation pollution removal more thorough, the filtering for removing later step from, improves work efficiency.

Description

A kind of heavy metal wastewater thereby integrated approach device

Technical field

The present invention relates to sewage treatment field, specially a kind of heavy metal wastewater thereby integrated approach device.

Background technique

Currently, the processing to heavy metal ion is always a problem, and removal of heavy metal ions is not thorough in sewage treatment field Introducing new pollutant causes secondary pollution, and non-heavy-metal ion removal again behind bottom or heavy-metal ion removal, generates Various precipitatings need to carry out waste liquid repeatedly precipitating filtration treatment, greatly consume manpower physics, reduce working efficiency.

Summary of the invention

The purpose of the present invention is to provide a kind of heavy metal wastewater thereby integrated approach devices, to solve in above-mentioned background technique The problem of proposition.

To achieve the above object, the invention provides the following technical scheme: a kind of heavy metal wastewater thereby integrated approach device, packet Pedestal is included, a rotation space is provided in the pedestal, the rotation space lower end wall is fixedly connected with a rotary electric machine, described Rotary electric machine upper surface has been connected by power a rotation axis, and the pedestal upper surface is fixedly connected with a rotational support block, and described turn Moving axis upper end sequentially passes through rotation space upper end wall and rotational support block and is located at free surrounding space, in the rotation space right end wall It is provided with a precipitating collecting tank, a waste collection space, the waste collection space are provided in the wall of the rotation space left end A waste liquid heaping groove is provided in upper end wall, waste liquid heaping groove lower end surface is provided with a through hole, the through hole connection Waste collection space and waste liquid heaping groove, it is logical that waste collection space left end wall is provided with the downward outflow that is tilted to the left Road is provided with an electromagnetic switch A in the flow pass, and the rotation axis upper end is symmetrically set with a rotating bar, described A revolution space is provided in rotating bar, the revolution space is fixedly connected with a rotating electric machine, institute close to the end wall of rotation axis It states rotating electric machine and has been connected by power a rotary shaft far from the end face of rotation axis, the revolution space in the end wall of rotation axis far from setting It is equipped with a bakie up and down, the rotary shaft passes through end wall of the revolution space far from rotation axis and with bakie far from rotation sky Between end wall rotary type be fixedly connected, the rotary shaft is fixedly connected with a filter screen, and the rotating bar upper surface is provided with one Cabinet, is provided with a sediment space in the cabinet, and the sediment space lower end wall is provided with a tap hole, in the tap hole It is provided with an electromagnetic switch B, the tap hole connection sediment space and free surrounding space, sediment space left end wall are fixedly connected There is a cathode, the sediment space right end wall is fixedly connected with an anode, is provided with a stirring in the sediment space right end wall Space, the stirring space right end wall are fixedly connected with a stirring motor, and the stirring motor left side has been connected by power a biography Moving axis, the transmission shaft left end, which is connected by meshing transmission, one first conical gear, engaged transmission on the downside of first conical gear Be connected with one second conical gear, second conical gear center is fixedly connected with a driven shaft, the driven shaft lower end with The rotation connection of stirring space lower end wall, the second conical gear left side is connected by meshing transmission and has a third conical gear, described Third conical gear center is fixedly connected with an agitating shaft, and the agitating shaft left end is across stirring space left end wall and empty with precipitating Between left end wall be rotatablely connected, the agitating shaft is fixedly connected with multiple groups stirring rod, is provided with a translation above the stirring space Space, the translation space are connected with sediment space, and a hydraulicefficiency elevation structure, institute are provided in the translation space lower end wall It states hydraulicefficiency elevation structure upper end and is fixedly connected with a fixed block, a translation space is provided in the fixed block, the translation is empty Between right end wall be fixedly connected with a translation motor, a translation slot, the translation motor are provided in the wall of the translation space left end Left side has been connected by power a translation shaft, and the translation shaft left end passes through translation space left end wall and is located in translation slot, described A translational block is provided in translation slot, the translational block right side is provided with a helicla flute, the helicla flute and translation shaft left end Threaded engagement connection, the translation shaft upper and lower end face are symmetrically fixedly connected with a limited block, the limited block and translation slot sliding Connection, the translational block left end passes through translation slot left end wall and is located in sediment space, fixed on the left of the translational block lower end surface It is connected with a link block, a driving space is provided in the translational block left end, driving space aft bulkhead is fixedly connected with One driving motor, the driving motor front bulkhead have been connected by power one first drive shaft, and first drive shaft front end is fixed to be connected It is connected to one the 4th conical gear, being connected by meshing transmission on the downside of the 4th conical gear has one the 5th conical gear, and the described 5th Conical gear center is fixedly connected with one second drive shaft, and the link block is internally provided with a driven space, and described second drives Moving axis lower end passes through driving space lower end wall and is located in driven space, and second drive shaft lower end is fixedly connected with one the 6th Conical gear, the 6th conical gear rear side is connected by meshing transmission and has one the 7th conical gear, in the 7th conical gear The heart is fixedly connected with a torsion shaft, and the torsion shaft rear and front end passes the driven space front and back end wall of function respectively and is located at free surrounding space Interior, the torsion shaft rear and front end is symmetrically fixedly connected with a L-type support rod, is provided with a L-type between two L-type support rods Filter screen, sediment space left end wall are provided with the tap of a connection free surrounding space, and the tap upper end wall rotation connects It is connected to a sealing plate, the sediment space upper end wall is provided with the plup inlet of a connection free surrounding space, is provided in the plup inlet One electromagnetic switch C.

Preferably, the hydraulicefficiency elevation structure includes hydraulic space, a partition is provided in the hydraulic space, it is described Partition left and right ends are slidably connected with hydraulic space left hand end wall respectively, and it is hydraulic logical that one is provided in the hydraulic space right end wall Road, the hydraulic channel is connected to the two sides hydraulic space separated by partition, is provided with a hydraulic pump in the hydraulic channel, described Partition upper surface is fixedly connected with a hydraulic column, and the hydraulic column upper end passes through hydraulic space upper end wall and is located at translation space It is interior.

Preferably, L-type filter screen upper surface must be positioned at waste liquid liquid when the hydraulicefficiency elevation structure is gone up and down to bottom Below face, when the hydraulicefficiency elevation structure is gone up and down to the top, L-type filter screen lower end surface be must be positioned on tap lower end wall Side.

Preferably, the tap aperture has to be larger than translational block upper surface to the distance between L-type filter screen lower end surface.

Compared with prior art, the beneficial effects of the present invention are: electromagnetic switch C is opened, by heavy metal in present invention work Metal waste liquid pours into sediment space, at this time by cathode and anodal closure, starts cell reaction, generates hydrogen and hydroxide ion, Heavy metal ion reacts generation precipitating with hydroxide ion, and a part floats on upper layer waste liquid by the minute bubbles that hydrogen generates, A part of then be precipitated to bottom, hydraulicefficiency elevation structure works at this time, drives translational block decline, is located at L-type filter screen upper surface Below waste liquid liquid level, translation motor work drives translation shaft rotation, to drive translational block to move downward until L-type filter screen Left end touches the stopping of sediment space left end wall, and hydraulicefficiency elevation structure work drives fixed block to move up to the top, at this time Translation motor, which works on, drives translational block to move right until leaving cabinet, and driving motor works at this time, passes through conical gear Be connected by meshing transmission, drive torsion shaft rotate counterclockwise, make precipitating leave filter screen, then hydraulicefficiency elevation structure and translation electricity The cooperation of machine makes L-type filter screen return, then repeats the movement, until completing reaction, stirring motor work passes through conical gear Agitating shaft rotation is driven, keeps waste liquid reaction more quickly abundant, after the reaction was completed, electromagnetic switch B is opened and arranges waste liquid and precipitating Out, enter waste collection space by filter screen filtration, when precipitating accumulation is excessive on filter screen, rotary electric machine work will turn Lever turned on the left of Winter Solstice, and right side rotating bar turns to left side and continues to separate, and right side rotating electric machine work at this time, drove rotary shaft Precipitating on filter screen is poured into precipitating collection space by rotation by rotation.

Detailed description of the invention

Fig. 1 is a kind of schematic view of the front view of heavy metal wastewater thereby integrated approach device entirety complete section of the present invention；

Fig. 2 is the left view structure of movable block left end complete section in a kind of heavy metal wastewater thereby integrated approach device entirety of the present invention Schematic diagram.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

A kind of embodiment provided by the invention referring to FIG. 1-2: a kind of heavy metal wastewater thereby integrated approach device, including Pedestal 1 is provided with a rotation space 14 in the pedestal 1, and 14 lower end wall of rotation space is fixedly connected with a rotary electric machine 15,15 upper surface of rotary electric machine has been connected by power a rotation axis 16, and 1 upper surface of pedestal is fixedly connected with a rotation branch Bracer 64,16 upper end of rotation axis sequentially pass through 14 upper end wall of rotation space and rotational support block 64 and are located at free surrounding space, It is provided with a precipitating collecting tank 13 in the 14 right end wall of rotation space, is provided with a waste liquid in the 14 left end wall of rotation space Collection space 2 is provided with a waste liquid heaping groove 4,4 lower end surface of waste liquid heaping groove in 2 upper end wall of waste collection space It is provided with a through hole 3, the through hole 3 is connected to waste collection space 2 and waste liquid heaping groove 4, and the waste collection space 2 is left End wall is provided with a flow pass 6 for being tilted to the left downward, is provided with an electromagnetic switch A5 in the flow pass 6, and described turn 16 upper end of moving axis is symmetrically set with a rotating bar 7, and a revolution space 17 is provided in the rotating bar 7, and the rotation is empty Between 17 be fixedly connected with a rotating electric machine 12, the end face of the rotating electric machine 12 far from rotation axis 16 close to the end wall of rotation axis 16 It has been connected by power a rotary shaft 11, has been provided with a bakie up and down in the end wall of the revolution space 17 far from rotation axis 16 8, the rotary shaft 11 passes through end wall of the revolution space 17 far from rotation axis 16 and turns with bakie 8 far from the end wall of revolution space 17 Dynamic formula is fixedly connected, and the rotary shaft 16 is fixedly connected with a filter screen 10, and 7 upper surface of rotating bar is provided with a cabinet 18, a sediment space 65 is provided in the cabinet 18, and 65 lower end wall of sediment space is provided with a tap hole 21, the stream Portal and be provided with an electromagnetic switch B22 in 21, the tap hole 21 is connected to sediment space 65 and free surrounding space, the sediment space 65 left end walls are fixedly connected with a cathode 23, and the 65 right end wall of sediment space is fixedly connected with an anode 31, and the precipitating is empty Between be provided with a stirring space 24 in 65 right end walls, the 24 right end wall of stirring space is fixedly connected with a stirring motor 25, institute It states 25 left side of stirring motor and has been connected by power a transmission shaft 26,26 left end of transmission shaft, which is connected by meshing transmission, one first circle Bevel gear 28, being connected by meshing transmission on the downside of first conical gear 28 has one second conical gear 27, the second circular cone tooth It takes turns 27 centers and is fixedly connected with a driven shaft 30,30 lower end of driven shaft and 30 lower end wall of stirring space are rotatablely connected, described Being connected by meshing transmission on the left of second conical gear 27 has a third conical gear 29, and 29 center of third conical gear is fixed to be connected It is connected to an agitating shaft 19,19 left end of agitating shaft, which passes through 24 left end wall of stirring space and rotates with 65 left end wall of sediment space, to be connected It connects, the agitating shaft 19 is fixedly connected with multiple groups stirring rod 20, and a translation space 41, institute are provided with above the stirring space 24 It states translation space 41 to be connected with sediment space 65, is provided with a hydraulicefficiency elevation structure 36 in 41 lower end wall of translation space, 36 upper end of hydraulicefficiency elevation structure is fixedly connected with a fixed block 44, and a translation space 43 is provided in the fixed block 44, The 43 right end wall of translation space is fixedly connected with a translation motor 42, is provided with a translation in the 43 left end wall of translation space Slot 47,42 left side of translation motor have been connected by power a translation shaft 49, and 49 left end of translation shaft passes through translation space 43 Left end wall and it is located in translation slot 47, is provided with a translational block 46 in the translation slot 47,46 right side of translational block is arranged There is a helicla flute 48, the helicla flute 48 is connect with 49 left end threaded engagement of translation shaft, and 49 upper and lower end face of translation shaft is symmetrical It is fixedly connected with a limited block 50, the limited block 50 is slidably connected with translation slot 47, and 46 left end of translational block passes through translation 47 left end wall of slot and it is located in sediment space 65, is fixedly connected with a link block 53 on the left of 46 lower end surface of translational block, it is described A driving space 51 is provided in 46 left end of translational block, 51 aft bulkhead of driving space is fixedly connected with a driving motor 52, 52 front bulkhead of driving motor has been connected by power one first drive shaft 57, and 57 front end of the first drive shaft is fixedly connected with one 4th conical gear 58, being connected by meshing transmission on the downside of the 4th conical gear 58 has one the 5th conical gear 59, and the described 5th 59 center of conical gear is fixedly connected with one second drive shaft 60, and the link block 53 is internally provided with a driven space 62, institute 60 lower end of the second drive shaft is stated to pass through driving 51 lower end wall of space and be located in driven space 62,60 lower end of the second drive shaft It is fixedly connected with one the 6th conical gear 61, being connected by meshing transmission on rear side of the 6th conical gear 61 has one the 7th conical gear 63,62 center of the 7th conical gear is fixedly connected with a torsion shaft 54,54 rear and front end of torsion shaft pass respectively function from It moves 62 front and back end wall of space and is located in free surrounding space, 54 rear and front end of torsion shaft is symmetrically fixedly connected with L-type support Bar 55 is provided with a L-type filter screen 56 between two L-type support rods 55, and the 65 left end wall of sediment space is provided with a company The tap 33 of logical free surrounding space, 33 upper end wall of tap are rotatably connected to a sealing plate 32,65 upper end of sediment space Wall is provided with the plup inlet 35 of a connection free surrounding space, and an electromagnetic switch C34 is provided in the plup inlet 35.

Valuably, the hydraulicefficiency elevation structure 36 includes hydraulic space 66, is provided with a partition in the hydraulic space 66 37,37 left and right ends of partition are slidably connected with 66 left hand end wall of hydraulic space respectively, in the 66 right end wall of hydraulic space It is provided with a hydraulic channel 39, the hydraulic channel 39 is connected to the two sides hydraulic space 66 separated by partition 37, described hydraulic logical A hydraulic pump 38 is provided in road 39,37 upper surface of partition is fixedly connected with a hydraulic column 40,40 upper end of hydraulic column Across 66 upper end wall of hydraulic space and it is located in translation space, effect is that translational block 44 is enable to realize in translation space 41 It moves up and down, realizes the separation of precipitating floating material and waste liquid, complete preliminary sedimentation separating step.

Valuably, when the lifting of hydraulicefficiency elevation structure 36 to bottom, 56 upper surface of L-type filter screen must be positioned at waste liquid Below liquid level, when the lifting of hydraulicefficiency elevation structure 36 to the top, 56 lower end surface of L-type filter screen be must be positioned under tap 33 Above end wall, effect make L-type filter screen 56 in sediment space 65 when can effectively collect and swim in upper layer waste liquid liquid level Floating material is precipitated, L-type filter screen 56 can be reached filtering and be removed in tap by the rotation discharge precipitating floating material of torsion shaft 54 Effect.

Valuably, 33 aperture of tap has to be larger than 46 upper surface of translational block between 56 lower end surface of L-type filter screen Distance, effect are in order to which translational block 46 drives L-type filter screen 56 to pass through tap.

Specifically used mode: in present invention work, opening electromagnetic switch C34, and it is empty that heavy metal metal waste liquid is poured into precipitating Between 65, cathode 23 and anode 31 are powered at this time, start cell reaction, generates hydrogen and hydroxide ion, heavy metal ion with Hydroxide ion reaction generates precipitating, and a part floats on upper layer waste liquid by the minute bubbles that hydrogen generates, a part of then precipitate To bottom, hydraulicefficiency elevation structure 36 works at this time, drives translational block 46 to decline, 56 upper surface of L-type filter screen is made to be located at waste liquid liquid Below face, translation motor 42 works, and translation shaft 49 is driven to rotate, to drive translational block 46 to move downward until L-type filter screen Left end touches the stopping of 65 left end wall of sediment space, and the work of hydraulicefficiency elevation structure 36 drives fixed block to move up to the top, Translation motor 42, which works on, at this time drives translational block 46 to move right until leaving cabinet 18, and driving motor 52 works at this time, By being connected by meshing transmission for conical gear, torsion shaft 54 is driven to rotate counterclockwise, so that precipitating is left filter screen, then hydraulic liter The cooperation of descending mechanism 36 and translation motor 42 makes 56 return of L-type filter screen, then repeats the movement, until reaction is completed, stirring The work of motor 25 drives agitating shaft rotation by conical gear, keeps waste liquid reaction more quickly abundant, after the reaction was completed, opens Waste liquid and precipitating are discharged electromagnetic switch B22, enter waste collection space 2 by the filtering of filter screen 10, when heavy on filter screen 10 When deposit tires out excessive, rotary electric machine 15 works, and on the left of 7 turns of Winter Solstice of rotating bar, right side rotating bar turns to left side and continues to separate, And right side rotating electric machine 12 works at this time, and rotary shaft 9 is driven to rotate, and precipitating on filter screen 10 is poured into precipitating by rotation and is collected Space 13.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (4)

1. a kind of heavy metal wastewater thereby integrated approach device, including pedestal, it is characterised in that: be provided with a rotation in the pedestal Space, the rotation space lower end wall are fixedly connected with a rotary electric machine, and the rotary electric machine upper surface has been connected by power one turn Moving axis, the pedestal upper surface are fixedly connected with a rotational support block, and the rotation axis upper end sequentially passes through rotation space upper end Wall and rotational support block and it is located at free surrounding space, is provided with a precipitating collecting tank, the rotation in the rotation space right end wall It is provided with a waste collection space in the wall of space left end, a waste liquid heaping groove is provided in the upper end wall of the waste collection space, Waste liquid heaping groove lower end surface is provided with a through hole, the through hole connection waste collection space and waste liquid heaping groove, institute It states waste collection space left end wall and is provided with one and be tilted to the left downward flow pass, an electromagnetism is provided in the flow pass Switch A, the rotation axis upper end are symmetrically set with a rotating bar, and a revolution space is provided in the rotating bar, described Revolution space is fixedly connected with a rotating electric machine, end face power of the rotating electric machine far from rotation axis close to the end wall of rotation axis It is connected with a rotary shaft, the revolution space is far from being provided with a bakie up and down, the rotation in the end wall of rotation axis Axis passes through end wall of the revolution space far from rotation axis and is fixedly connected with bakie far from the end wall rotary type of revolution space, the rotation Shaft is fixedly connected with a filter screen, and the rotating bar upper surface is provided with a cabinet, and precipitating sky is provided in the cabinet Between, the sediment space lower end wall is provided with a tap hole, and an electromagnetic switch B, the tap hole are provided in the tap hole Connection sediment space and free surrounding space, sediment space left end wall are fixedly connected with a cathode, the sediment space right end wall It is fixedly connected with an anode, a stirring space is provided in the sediment space right end wall, the stirring space right end wall is fixed It is connected with a stirring motor, the stirring motor left side has been connected by power a transmission shaft, the transmission shaft left end engaged transmission It is connected with one first conical gear, being connected by meshing transmission on the downside of first conical gear has one second conical gear, and described the Two conical gear centers are fixedly connected with a driven shaft, and the driven shaft lower end and stirring space lower end wall are rotatablely connected, described Being connected by meshing transmission on the left of second conical gear has a third conical gear, and third conical gear center is fixedly connected with one Agitating shaft, the agitating shaft left end pass through stirring space left end wall and are rotatablely connected with sediment space left end wall, the agitating shaft It is fixedly connected with multiple groups stirring rod, is provided with a translation space, the translation space and sediment space above the stirring space It is connected, a hydraulicefficiency elevation structure is provided in the translation space lower end wall, the hydraulicefficiency elevation structure upper end is fixedly connected There is a fixed block, a translation space is provided in the fixed block, the translation space right end wall is fixedly connected with translation electricity Machine is provided with a translation slot in the wall of the translation space left end, and the translation motor left side has been connected by power a translation shaft, institute Translation shaft left end is stated across translation space left end wall and is located in translation slot, is provided with a translational block in the translation slot, it is described Translational block right side is provided with a helicla flute, and the helicla flute is connect with translation shaft left end threaded engagement, above and below the translation shaft End surface symmetric is fixedly connected with a limited block, and the limited block is slidably connected with translation slot, and the translational block left end passes through translation Slot left end wall and it is located in sediment space, a link block is fixedly connected on the left of the translational block lower end surface, the translational block is left A driving space is provided in end, driving space aft bulkhead is fixedly connected with a driving motor, the driving motor front end Wall has been connected by power one first drive shaft, and first drive shaft front end is fixedly connected with one the 4th conical gear, and the described 4th Being connected by meshing transmission on the downside of conical gear has one the 5th conical gear, and the 5th conical gear center is fixedly connected with one second Drive shaft, the link block are internally provided with a driven space, second drive shaft lower end pass through driving space lower end wall and In driven space, second drive shaft lower end is fixedly connected with one the 6th conical gear, after the 6th conical gear Side, which is connected by meshing transmission, one the 7th conical gear, and the 7th conical gear center is fixedly connected with a torsion shaft, described to turn over Shaft rear and front end passes the driven space front and back end wall of function respectively and is located in free surrounding space, and the torsion shaft rear and front end is symmetrically solid Surely it is connected with a L-type support rod, a L-type filter screen is provided between two L-type support rods, sediment space left end wall is set It is equipped with the tap of a connection free surrounding space, the tap upper end wall is rotatably connected to a sealing plate, the sediment space upper end Wall is provided with the plup inlet of a connection free surrounding space, and an electromagnetic switch C is provided in the plup inlet.

2. a kind of heavy metal wastewater thereby integrated approach device according to claim 1, it is characterised in that: the hydraulic lifting Mechanism includes hydraulic space, and a partition is provided in the hydraulic space, and the partition left and right ends are left with hydraulic space respectively Right end wall is slidably connected, and a hydraulic channel is provided in the hydraulic space right end wall, the hydraulic channel connection is by partition point Every two sides hydraulic space, be provided with a hydraulic pump in the hydraulic channel, it is hydraulic that the partition upper surface is fixedly connected with one Column, the hydraulic column upper end pass through hydraulic space upper end wall and are located in translation space.

3. a kind of heavy metal wastewater thereby integrated approach device according to claim 1, it is characterised in that: the hydraulic lifting When mechanism is gone up and down to bottom, L-type filter screen upper surface be must be positioned at below waste liquid liquid level, the hydraulicefficiency elevation structure go up and down to When the top, L-type filter screen lower end surface be must be positioned above tap lower end wall.

4. a kind of heavy metal wastewater thereby integrated approach device according to claim 1, it is characterised in that: the tap hole Diameter has to be larger than translational block upper surface to the distance between L-type filter screen lower end surface.