CN108545869A - A kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments - Google Patents

Abstract

The invention discloses a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments,Its structure includes transfer wire,Control panel,Upper top cover,Into waste pipe,Waste water high-efficiency processing unit,Ozone tank,Tank body support plate,Oblique fixed link,Ozone pipeline,Cushion block,Convex block,Weld tabs are in the positive right end of waste water high-efficiency processing unit,Control panel is screwed in the positive left end of waste water high-efficiency processing unit,The present invention is by being equipped with waste water high-efficiency processing unit,Further oxidation processes are carried out to waste water using ozone,Ozone is considered as a kind of effective oxidant and disinfectant,With very strong oxidability,It is fast with reaction speed,The advantages that non-secondary pollution,Ozone is done the bubble at very little,Increase the contact area with waste water,Accelerate reaction efficiency,Keep the processing of waste water more efficient,Further decrease the content of harmful substance in waste water,Waste water is set to reach discharge standard.

Description

A kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments

Technical field

The present invention is a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments, belongs to pharmaceuticals industry field of wastewater.

Background technology

Medical industry waste water refers to manufacturing giving up for the factories such as antibiotic, antibiotic, antiserum and organic-inorganic medicine discharge Water generally contains the noxious materials such as fluorine, cyanogen, phenol, cresols and mercury compound, and the common equipment of technology is using dam formula at present When DBD plasmas handle pharmaceuticals industry waste water, plasma is that electrolysis pharmaceuticals industry waste water generates, and is had in waste water By electrolytic process and plasma oxidation occurs for evil substance and reduction reaction transforms into innocuous substance, but harmful substance without Method conversion completely is complete, still may contain harmful substance in treated waste water, direct emission may pollute environment.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of dam formula DBD plasma pharmaceuticals industries to give up Water treatment facilities, to solve the common equipment of current technology at using dam formula DBD plasmas to pharmaceuticals industry waste water When reason, plasma is that electrolysis pharmaceuticals industry waste water generates, and harmful substance is sent out by electrolytic process and plasma in waste water Raw oxidation and reduction reaction transform into innocuous substance, but harmful substance can not convert completely completely, in treated waste water Still it may contain harmful substance, direct emission, the problem of environment may be polluted.

To achieve the goals above, the present invention is to realize by the following technical solutions：A kind of dam formula DBD plasmas Pharmaceuticals industry wastewater treatment equipment, structure include transfer wire, control panel, upper top cover, at waste pipe, waste water high-efficiency Device, ozone tank, tank body support plate, oblique fixed link, ozone pipeline, cushion block, convex block are managed, the weld tabs are at waste water high-efficiency The positive right end of device is managed, the control panel is screwed in the positive left end of waste water high-efficiency processing unit, the biography The upper end glue connection of transporting line is in the lower end of control panel, the upper table that waste water high-efficiency processing unit is embedded in into waste pipe Face, the cushion block set altogether there are four and shape size it is identical, the cushion block is welded in the four of waste water high-efficiency processing unit lower surface A angle, the tank body support plate are welded in the center of waste water high-efficiency processing unit left surface, the upper end welding of the oblique fixed link In the lower surface of tank body support plate, the ozone tank is fitted in the upper surface of tank body support plate, and the upper end of the ozone pipeline is embedding In the front end of ozone tank, the lower end of the ozone pipeline is welded in the lower end of waste water high-efficiency processing unit left surface, the waste water High-efficient treatment device is by motor-driven structure, tooth plate drive mechanism, crust of the device, planetary gear structure, turntable structure, ozone oxidation Structure, waste water control structure, dam formula DBD plasma structures composition, the dam formula DBD plasma structures are welded in outside device Left end inside shell, upper end of the motor-driven structure inside crust of the device, the tooth plate drive mechanism are engaged on electricity The lower end of machine driving structure, the planetary gear structure are fitted in the lower end of tooth plate drive mechanism, and the turntable structure is sequentially connected In the left end of planetary gear structure, the waste water control structure is welded in the lower end of dam formula DBD plasma structures, the ozone oxygen Change the lower end that structure is fitted in waste water control structure.

To optimize above-mentioned technical proposal, the measure further taken is：

According to a kind of embodiment, the motor-driven structure is by U-shaped frame, the first halved belt, input crank, the first electricity Machine, horizon bar, left slotted vane, right slotted vane, upper toothholder, upper rack, gear wheel composition, the first motor are welded in crust of the device The upper end in portion, first halved belt around being connected to the left end of first motor, the first motor by the first halved belt with Input crank gearing connection, upper end and input crank clearance fit, the stage casing of the left slotted vane and the horizon bar of the left slotted vane Flexible connection, the left end of the horizon bar are mechanically connected with U-shaped frame, and the right end of the horizon bar and the upper end activity of right slotted vane connect It connects, the right slotted vane is mechanically connected to the front end of toothholder, and the upper rack is slidably connected to the lower end of toothholder, the right slot The lower end of piece and upper rack clearance fit, the gear wheel are engaged on the lower end of upper rack, the lower end of the gear wheel and tooth plate Drive mechanism is meshed, and left end and the dam formula DBD plasma structures of the U-shaped frame mutually weld.

According to a kind of embodiment, the tooth plate drive mechanism by L-type frame, preceding activity template, rear activity template, small slotted vane, Lower rack, lower toothholder, rack fixed link, small connection sheet composition, the lower rack is slidably connected to the upper end of lower toothholder, under described The left end of rack and rack fixed link clearance fit, the left end of the lower rack and small slotted vane clearance fit, the small slotted vane with The upper end of small connection sheet is flexibly connected, and the lower end of the small connection sheet is mechanically connected with the stage casing of L-type frame upper surface, the rack The lower end of fixed link is welded in the right end of L-type frame upper surface, the preceding activity template and rear activity template clearance fit, movable after described The right end of piece is flexibly connected with the upper end of small slotted vane, and the right end of the preceding activity template is connect with the lower mechanical of small slotted vane, described The front end of preceding activity template is sequentially connected with waste water control structure, and left end and the ozone oxidation structure of the L-type frame are mutually welded, described The right end of L-type frame and the upper end of planetary gear structure fit, and the lower end of the L-type frame is mutually welded with turntable structure.

According to a kind of embodiment, the planetary gear structure is by crank fixed seat, crank, sun gear, planetary gear, company Bar, big synchronous belt, the first roller composition, the crank are movably connected on the left side of crank fixed seat lower end, a left side for the connecting rod End is connect with crank mechanism, and the right end of the connecting rod is flexibly connected with planetary gear, and the planetary gear is engaged on the inner ring of sun gear, The sun gear is mechanically connected to the right side of crank fixed seat lower end, the big synchronous band around the outer ring for being connected to sun gear, The sun gear is connect by big synchronous belt with the first drum drive, and the crank is sequentially connected with turntable structure, and described first The right end clearance fit of roller and ozone oxidation structure.

According to a kind of embodiment, the turntable structure by turntable synchronous belt, right-hand rotation disk, turntable connecting rod, left-hand rotation disk, Second halved belt, synchronizing wheel, the second motor form, the lower loop of the turntable synchronous belt is around the outer ring for being connected to right-hand rotation disk, institute The right end for stating turntable connecting rod is movably connected on the front end of right-hand rotation disk, and the left end of the turntable connecting rod is mechanically connected to left-hand rotation disk Front end, the lower end of second halved belt also around the outer ring for being connected to left-hand rotation disk, the synchronizing wheel by the second halved belt with Left-hand rotation disk is sequentially connected, and the synchronizing wheel is nested in the right end of the second motor.

According to a kind of embodiment, the ozone oxidation structure is by output channel, right leather belt, lobe pump, left leather belt, tooth Wheel pump, pore oxidation contact plate, oxidation case, spring fixed link composition, the lobe pump are described embedded in the right side of oxidation case lower end Output channel is welded in the right end of lobe pump, and the left end clearance fit of the right leather belt is in the front end of lobe pump, the lobe pump It is connect with gear pump transmission by left leather belt, the gear pump aoxidizes contact plate embedded in the left side of oxidation case lower end, the pore Lower end inside oxidation case, the lower end of the spring fixed link are welded in the left end of oxidation case upper surface, and the spring is solid It is mutually welded with dam formula DBD plasma structures the upper end of fixed pole.

According to a kind of embodiment, the waste water control structure by runner, shell, lower liquid pipe road, check valve, frid, Runner synchronous belt forms, and the runner is movably connected on the rear end of enclosure, and the lower end in the lower liquid pipe road is welded in shell Left end, the upper end of the frid is mechanically connected with shell, and the check valve is embedded in the front end of frid, the frid clearance fit In the front end of runner, the left end of the runner synchronous belt and the rear-end transmission of runner connect.

According to a kind of embodiment, the dam formula DBD plasma structures are by water blockoff bar, second tin roller, upper belt, Jie Matter layer, high impulse electrode, connecting line, high voltage power supply, ground electrode, left gear, right gear, floating ball frame, electrolyte tank, waste water inlet pipe group At the left end of the water blockoff bar is movably connected on the front end of second tin roller, and the second tin roller is passed by upper belt and left gear Dynamic connection, the right gear are engaged on the right end of left gear, and the floating ball frame clearance fit is in the right side of right gear, the waste water Inlet pipe is welded in the right end of electrolyte tank, and the high impulse electrode is fitted in the left end inside electrolyte tank, and the dielectric layer is fitted in The right end of high impulse electrode, the high voltage power supply are electrically connected by connecting line with high impulse electrode, and the ground electrode is fitted in The left end of two rollers.

Advantageous effect

A kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments of the present invention, at work, operator puts equipment It sets in suitable place, equipment components is checked, after inspection is errorless, then equipment is controlled by control panel System, pending waste water is injected from into waste pipe, and waste water enters electrolyte tank, after water level rises to certain altitude, floating ball Frame is risen by the buoyancy of water, then drives left gear by right gear, so that left gear is rotated, then left gear passes through upper belt Second tin roller is driven, second tin roller is made to rotate, then second tin roller drives water blockoff bar, and waste water inlet pipe is blocked, and stops water inlet, this When high voltage power supply start to work, dielectric layer, high impulse electrode, connecting line, ground electrode cooperation under, waste water is electrolysed, It converting harmful substance to innocuous substance, is then turned on first motor, first motor drives input crank by the first halved belt, So that left slotted vane is swung, then left slotted vane drives right slotted vane, right slotted vane that upper rack is made to horizontally slip by horizon bar, gear wheel with Rotation, rack under then gear wheel drives, in preceding activity template, rear activity template, small slotted vane, lower toothholder, rack fixed link, small connection Under the cooperation of piece, runner is driven by runner synchronous belt, driven by rotating wheel frid, under the cooperation of check valve, preliminary treatment is given up Water flows in oxidation case, is then turned on the second motor, is handed in turntable synchronous belt, right-hand rotation disk, turntable connecting rod, left-hand rotation disk, second Fork band, synchronizing wheel cooperation under so that crank is rotated, then crank handle turns connecting rod, connecting rod drives planetary gear, so that sun gear is rotated, so Rear sun gear drives the first roller by big synchronous belt, so that the first roller is rotated, then big synchronous belt, the first roller pass through right skin Band drives lobe pump, lobe pump to drive gear pump, gear pump rotation that ozone is extracted into pore and aoxidizes contact plate by left leather belt, Ozone forms the bubble of very little in pore oxidation contact plate, and with waste water, ozone further aoxidizes waste water, useless after oxidation Water passes through lobe pump, is discharged from output channel.

A kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments of the present invention, by being equipped with waste water high-efficiency processing dress It sets, further oxidation processes is carried out to waste water using ozone, ozone is considered as a kind of effective oxidant and disinfectant, tool Have very strong oxidability, have many advantages, such as that reaction speed is fast, non-secondary pollution, ozone is done the bubble at very little, increase with The contact area of waste water accelerates reaction efficiency, keeps the processing of waste water more efficient, further decreases containing for harmful substance in waste water Amount, makes waste water reach discharge standard.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, the attached drawing in being described below to embodiment is made in detail It carefully introduces, allows other features, purposes and advantages of the invention will become more apparent with this：

Fig. 1 is a kind of structural schematic diagram of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments of the present invention.

Fig. 2 is the structural schematic diagram of waste water high-efficiency processing unit of the present invention.

Fig. 3 is structural schematic diagram when turntable structure of the present invention rotates.

Fig. 4 is structural schematic diagram when formula DBD plasma structures in dam of the present invention are intake.

Reference sign：Transfer wire -1, control panel -2, upper top cover -3, into waste pipe -4, waste water high-efficiency processing Device -5, ozone tank -6, tank body support plate -7, oblique fixed link -8, ozone pipeline -9, cushion block -10, convex block -11, motor driving knot Structure -51, tooth plate drive mechanism -52, crust of the device -53, planetary gear structure -54, turntable structure -55, ozone oxidation structure -56, Waste water control structure -57, dam formula DBD plasma structures -58, U-shaped frame -511, the first halved belt -512, input crank -513, First motor -514, horizon bar -515, left slotted vane -516, right slotted vane -517, upper toothholder -518, upper rack -519, gear wheel - 5110, L-type frame -521, preceding activity template -522, rear activity template -523, small slotted vane -524, lower rack -525, lower toothholder -526, tooth Bar fixed link -527, small connection sheet -528, crank fixed seat -541, crank -542, sun gear -543, planetary gear -544, connecting rod - 545, big synchronous belt -546, the first roller -547, turntable synchronous belt -551, right-hand rotation disk -552, turntable connecting rod -553, left-hand rotation Disk -554, the second halved belt -555, synchronizing wheel -556, the second motor -557, output channel -561, right leather belt -562, lobe pump - 563, left leather belt -564, gear pump -565, pore oxidation contact plate -566, oxidation case -567, spring fixed link -568, runner - 571, shell -572, lower liquid pipe road -573, check valve -574, frid -575, runner synchronous belt -576, water blockoff bar -581, second Roller -582, upper belt -583, dielectric layer -584, high impulse electrode -585, connecting line -586, high voltage power supply -587, ground electrode - 588, left gear -589, right gear -5810, floating ball frame -5811, electrolyte tank -5812, waste water inlet pipe -5813.

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

- Fig. 4 is please referred to Fig.1, the present invention provides a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments：It is tied Structure include transfer wire 1, control panel 2, upper top cover 3, into waste pipe 4, waste water high-efficiency processing unit 5, ozone tank 6, tank body Support plate 7, oblique fixed link 8, ozone pipeline 9, cushion block 10, convex block 11, the convex block 11 are being welded in waste water high-efficiency processing unit 5 just The right end in face, the control panel 2 are screwed in 5 positive left end of waste water high-efficiency processing unit, the transfer wire 1 Upper end glue connection in the lower end of control panel 2, the upper surface that waste water high-efficiency processing unit 5 is embedded in into waste pipe 4, institute State cushion block 10 set altogether there are four and shape size it is identical, the cushion block 10 is welded in the four of 5 lower surface of waste water high-efficiency processing unit A angle, the tank body support plate 7 are welded in the center of 5 left surface of waste water high-efficiency processing unit, the upper end weldering of the oblique fixed link 8 It is connected to the lower surface of tank body support plate 7, the ozone tank 6 is fitted in the upper surface of tank body support plate 7, the ozone pipeline 9 Upper end is embedded in the front end of ozone tank 6, and the lower end of the ozone pipeline 9 is welded in the lower end of 5 left surface of waste water high-efficiency processing unit, The waste water high-efficiency processing unit 5 by motor-driven structure 51, tooth plate drive mechanism 52, crust of the device 53, planetary gear structure 54, Turntable structure 55, ozone oxidation structure 56, waste water control structure 57, dam formula DBD plasma structures 58 form, the dam formula DBD plasma structures 58 are welded in the left end inside crust of the device 53, and the motor-driven structure 51 is embedded in crust of the device 53 Internal upper end, the tooth plate drive mechanism 52 are engaged on the lower end of motor-driven structure 51, and the planetary gear structure 54 is bonded In the lower end of tooth plate drive mechanism 52, the turntable structure 55 is sequentially connected in the left end of planetary gear structure 54, the waste water control Structure 57 processed is welded in the lower end of dam formula DBD plasma structures 58, and the ozone oxidation structure 56 is fitted in waste water control knot The lower end of structure 57, the motor-driven structure 51 is by U-shaped frame 511, the first halved belt 512, input crank 513, first motor 514, horizon bar 515, left slotted vane 516, right slotted vane 517, upper toothholder 518, upper rack 519, gear wheel 5110 form, and described first Motor 514 is welded in the upper end inside crust of the device 53, and first halved belt 512 is around the left side for being connected to first motor 514 End, the first motor 514 are sequentially connected by the first halved belt 512 and input crank 513, the upper end of the left slotted vane 516 With input 513 clearance fit of crank, the stage casing of the left slotted vane 516 is flexibly connected with horizon bar 515, the horizon bar 515 Left end is mechanically connected with U-shaped frame 511, and the right end of the horizon bar 515 is flexibly connected with the upper end of right slotted vane 517, the right slot Piece 517 is mechanically connected to the front end of toothholder 518, and the upper rack 519 is slidably connected to the lower end of toothholder 518, the right side The lower end of slotted vane 517 and 519 clearance fit of upper rack, the gear wheel 5110 are engaged on the lower end of upper rack 519, the canine tooth The lower end of wheel 5110 is meshed with tooth plate drive mechanism 52, left end and the dam formula DBD plasma structures 58 of the U-shaped frame 511 It mutually welds, the tooth plate drive mechanism 52 is by L-type frame 521, preceding activity template 522, rear activity template 523, small slotted vane 524, lower rack 525, lower toothholder 526, rack fixed link 527, small connection sheet 528 form, and the lower rack 525 is slidably connected to lower toothholder 526 Upper end, the left end of the lower rack 525 and 527 clearance fit of rack fixed link, left end and the small slotted vane of the lower rack 525 524 clearance fits, the small slotted vane 524 are flexibly connected with the upper end of small connection sheet 528, the lower end of the small connection sheet 528 and L The stage casing of 521 upper surface of type frame is mechanically connected, and the lower end of the rack fixed link 527 is welded in the right side of 521 upper surface of L-type frame End, the preceding activity template 522 and 523 clearance fit of rear activity template, the right end of activity template 523 afterwards are upper with small slotted vane 524 End flexible connection, the right end of the preceding activity template 522 is connect with the lower mechanical of small slotted vane 524, before the preceding activity template 522 End is sequentially connected with waste water control structure 57, and left end and 56 phase of ozone oxidation structure of the L-type frame 521 are welded, the L-type frame The upper end of 521 right end and planetary gear structure 54 fits, and lower end and 55 phase of turntable structure of the L-type frame 521 are welded, described Planetary gear structure 54 by crank fixed seat 541, crank 542, sun gear 543, planetary gear 544, connecting rod 545, big synchronous belt 546, First roller 547 forms, and the crank 542 is movably connected on the left side of 541 lower end of crank fixed seat, a left side for the connecting rod 545 End is mechanically connected with crank 542, and the right end of the connecting rod 545 is flexibly connected with planetary gear 544, and the planetary gear 544 is engaged on The inner ring of sun gear 543, the sun gear 543 are mechanically connected to the right side of 541 lower end of crank fixed seat, the big synchronous belt 546 are connected around the outer ring for being connected to sun gear 543, the sun gear 543 by big synchronous belt 546 and the transmission of the first roller 547 It connects, the crank 542 is sequentially connected with turntable structure 55, the right end gap of first roller 547 and ozone oxidation structure 56 Cooperation, the turntable structure 55 are intersected by turntable synchronous belt 551, right-hand rotation disk 552, turntable connecting rod 553, left-hand rotation disk 554, second Band 555, synchronizing wheel 556, the second motor 557 composition, the lower loop of the turntable synchronous belt 551 is around being connected to right-hand rotation disk 552 The right end of outer ring, the turntable connecting rod 553 is movably connected on the front end of right-hand rotation disk 552, the left end of the turntable connecting rod 553 It is mechanically connected to the front end of left-hand rotation disk 554, the lower end of second halved belt 555 is also around the outer ring for being connected to left-hand rotation disk 554, institute It states synchronizing wheel 556 to be sequentially connected with left-hand rotation disk 554 by the second halved belt 555, the synchronizing wheel 556 is nested in the second motor 557 right end, the ozone oxidation structure 56 is by output channel 561, right leather belt 562, lobe pump 563, left leather belt 564, gear Pump 565, pore oxidation contact plate 566, oxidation case 567, spring fixed link 568 form, and the lobe pump 563 is embedded in oxidation case The right side of 567 lower ends, the output channel 561 are welded in the right end of lobe pump 563, and the left end gap of the right leather belt 562 is matched It closes in the front end of lobe pump 563, the lobe pump 563 is sequentially connected by left leather belt 564 and gear pump 565, the gear pump 565 embedded in the left side of 567 lower end of oxidation case, and lower end of the pore oxidation contact plate 566 inside oxidation case 567 is described The lower end of spring fixed link 568 is welded in the left end of 567 upper surface of oxidation case, upper end and the dam formula of the spring fixed link 568 58 phase of DBD plasma structures is welded, and the waste water control structure 57 is by runner 571, shell 572, lower liquid pipe road 573, unidirectional Valve 574, frid 575, runner synchronous belt 576 form, and the runner 571 is movably connected on the rear end inside shell 572, under described The lower end in liquid pipe road 573 is welded in the left end of shell 572, and upper end and the shell 572 of the frid 575 are mechanically connected, the list The front end of frid 575 is embedded in valve 574,575 clearance fit of the frid is in the front end of runner 571, the runner synchronous belt 576 Left end connect with the rear-end transmission of runner 571, the dam formula DBD plasma structures 58 are by water blockoff bar 581, second tin roller 582, upper belt 583, dielectric layer 584, high impulse electrode 585, connecting line 586, high voltage power supply 587, ground electrode 588, left gear 589, right gear 5810, floating ball frame 5811, electrolyte tank 5812, waste water inlet pipe 5813 form, the left end activity of the water blockoff bar 581 It is connected to the front end of second tin roller 582, the second tin roller 582 is sequentially connected by upper belt 583 and left gear 589, described Right gear 5810 is engaged on the right end of left gear 589, and 5811 clearance fit of floating ball frame is described on the right side of right gear 5810 Waste water inlet pipe 5813 is welded in the right end of electrolyte tank 5812, and the high impulse electrode 585 is fitted in the left side inside electrolyte tank 5812 End, the dielectric layer 584 are fitted in the right end of high impulse electrode 585, and the high voltage power supply 587 passes through connecting line 586 and Gao Mai The electrical connection of electrode 585 is rushed, the ground electrode 588 is fitted in the left end of second tin roller 582.

At work, equipment is placed on suitable place by operator, is checked equipment components, is checked errorless Afterwards, then equipment is controlled by control panel 2, pending waste water is injected from into waste pipe 4, waste water enters electricity Case 5812 is solved, after water level rises to certain altitude, floating ball frame 5811 is risen by the buoyancy of water, then passes through right gear 5810 Left gear 589 is driven, left gear 589 is made to rotate, then left gear 589 drives second tin roller 582 by upper belt 583, makes the Two rollers 582 rotate, and then second tin roller 582 drives water blockoff bar 581, and waste water inlet pipe 5813 is blocked, and stop water inlet, high at this time Voltage source 587 is started to work, dielectric layer 584, high impulse electrode 585, connecting line 586, ground electrode 588 cooperation under, to useless Water is electrolysed, and converts harmful substance to innocuous substance, is then turned on first motor 514, and first motor 514 is handed over by first It pitches band 512 and drives input crank 513, so that left slotted vane 516 is swung, then left slotted vane 516 drives right slotted vane by horizon bar 515 517, right slotted vane 517 makes upper rack 519 horizontally slip, and gear wheel 5110 drives lower rack with rotation, then gear wheel 5110 525, in preceding activity template 522, rear activity template 523, small slotted vane 524, lower toothholder 526, rack fixed link 527, small connection sheet 528 Under cooperation, runner 571, runner 571 is driven to drive frid 575 by runner synchronous belt 576, under the cooperation of check valve 574, just The waste water of step processing flows in oxidation case 567, is then turned on the second motor 557, in turntable synchronous belt 551, right-hand rotation disk 552, turns Brace rod 553, left-hand rotation disk 554, the second halved belt 555, synchronizing wheel 556 cooperation under so that crank 542 is rotated, then crank 542 drive connecting rod 545, connecting rod 545 to drive planetary gear 544, so that sun gear 543 is rotated, then sun gear 543 passes through big synchronous belt 546 drive the first roller 547, so that the first roller 547 is rotated, then big synchronous belt 546, the first roller 547 pass through right leather belt 562 Lobe pump 563, lobe pump 563 is driven to drive gear pump 565, gear pump 565 to rotate, ozone is extracted into carefully by left leather belt 564 Hole aoxidizes contact plate 566, and ozone forms the bubble of very little in pore oxidation contact plate 566, and waste water, ozone by waste water into One step aoxidizes, and the waste water after oxidation passes through lobe pump 563, is discharged from output channel 561.

The present invention is combined with each other by above-mentioned component, and further oxidation processes, ozone are carried out to waste water using ozone It is considered as a kind of effective oxidant and disinfectant, there is very strong oxidability, has that reaction speed is fast, non-secondary pollution The advantages that, ozone is done the bubble at very little, increases the contact area with waste water, accelerates reaction efficiency, makes the processing of waste water more Increase effect, further decreases the content of harmful substance in waste water, waste water is made to reach discharge standard, it is public to solve current technology with this For equipment when being handled pharmaceuticals industry waste water using dam formula DBD plasmas, plasma is electrolysis pharmaceuticals industry What waste water generated, harmful substance is transformed by electrolytic process with plasma generation oxidation and reduction reaction harmless in waste water Substance, but harmful substance can not convert completely completely still may contain harmful substance in treated waste water, directly arrange The problem of putting, environment may be polluted.

Gear pump 565 of the present invention is to rely on to be formed by swept volume variation and movement between pumping cylinder and meshing gear It conveys liquid or is allowed to the drum pump being pressurized, by two gears, the pump housing and front and rear covers form two enclosure spaces.

Specific embodiment described herein is only to be given an example to the present invention.The technical field of the invention Technical staff can make various modifications or additions to the described embodiments or substitute by a similar method, but Without departing from the present invention's or beyond the scope of the appended claims.

Claims (8)

1. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments, structure include transfer wire (1), control panel (2), upper top cover (3), into waste pipe (4), waste water high-efficiency processing unit (5), ozone tank (6), tank body support plate (7), tiltedly solid Fixed pole (8), ozone pipeline (9), cushion block (10), convex block (11), it is characterised in that：

The convex block (11) is welded in waste water high-efficiency processing unit (5) positive right end, and the control panel (2) is solid by screw It is scheduled on waste water high-efficiency processing unit (5) positive left end, the upper end glue connection of the transfer wire (1) is in control panel (2) Lower end, the upper surface that waste water high-efficiency processing unit (5) is embedded in into waste pipe (4), there are four the cushion block (10) sets altogether And shape size is identical, the cushion block (10) is welded in four angles of waste water high-efficiency processing unit (5) lower surface, the tank body branch Fagging (7) is welded in the center of waste water high-efficiency processing unit (5) left surface, and the upper end of the oblique fixed link (8) is welded in tank body The lower surface of support plate (7), the ozone tank (6) are fitted in the upper surface of tank body support plate (7), the ozone pipeline (9) Upper end is embedded in the front end of ozone tank (6), and the lower end of the ozone pipeline (9) is welded in waste water high-efficiency processing unit (5) left surface Lower end；

The waste water high-efficiency processing unit (5) by motor-driven structure (51), tooth plate drive mechanism (52), crust of the device (53), Planetary gear structure (54), turntable structure (55), ozone oxidation structure (56), waste water control structure (57), dam formula DBD plasmas Structure (58) forms；

The dam formula DBD plasma structures (58) are welded in the internal left end of crust of the device (53), the motor-driven structure (51) it is embedded in the internal upper end of crust of the device (53), the tooth plate drive mechanism (52) is engaged under motor-driven structure (51) End, the planetary gear structure (54) are fitted in the lower end of tooth plate drive mechanism (52), the turntable structure (55) be sequentially connected in The left end of planetary gear structure (54), the waste water control structure (57) are welded in the lower end of dam formula DBD plasma structures (58), The ozone oxidation structure (56) is fitted in the lower end of waste water control structure (57).

2. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 1, it is characterised in that： The motor-driven structure (51) by U-shaped frame (511), the first halved belt (512), input crank (513), first motor (514), Horizon bar (515), left slotted vane (516), right slotted vane (517), upper toothholder (518), upper rack (519), gear wheel (5110) composition, The first motor (514) is welded in the internal upper end of crust of the device (53), and first halved belt (512) is around being connected to the The left end of one motor (514), the first motor (514), which is driven by the first halved belt (512) with input crank (513), to be connected It connects, upper end and input crank (513) clearance fit, the stage casing of the left slotted vane (516) and the horizon bar of the left slotted vane (516) (515) it is flexibly connected, left end and the U-shaped frame (511) of the horizon bar (515) are mechanically connected, the right end of the horizon bar (515) Be flexibly connected with the upper end of right slotted vane (517), the right slotted vane (517) is mechanically connected to the front end of toothholder (518), it is described on Rack (519) is slidably connected to the lower end of toothholder (518), and lower end and upper rack (519) gap of the right slotted vane (517) are matched It closes, the gear wheel (5110) is engaged on the lower end of upper rack (519), and lower end and the tooth plate transmission of the gear wheel (5110) are tied Structure (52) is meshed, and the left end of the U-shaped frame (511) is mutually welded with dam formula DBD plasma structures (58).

3. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 1 or 2, feature exist In：The tooth plate drive mechanism (52) by L-type frame (521), preceding activity template (522), rear activity template (523), small slotted vane (524), Lower rack (525), lower toothholder (526), rack fixed link (527), small connection sheet (528) composition, lower rack (525) sliding It is connected to the upper end of lower toothholder (526), left end and rack fixed link (527) clearance fit of the lower rack (525), under described The left end of rack (525) and small slotted vane (524) clearance fit, the upper end activity of the small slotted vane (524) and small connection sheet (528) Connection, the lower end of the small connection sheet (528) are mechanically connected with the stage casing of L-type frame (521) upper surface, the rack fixed link (527) lower end is welded in the right end of L-type frame (521) upper surface, the preceding activity template (522) and rear activity template (523) gap The right end of cooperation, the rear activity template (523) is flexibly connected with the upper end of small slotted vane (524), the right side of the preceding activity template (522) End is connect with the lower mechanical of small slotted vane (524), and front end and waste water control structure (57) transmission of the preceding activity template (522) connect It connects, left end and the ozone oxidation structure (56) of the L-type frame (521) are mutually welded, the right end and planetary gear of the L-type frame (521) The upper end of structure (54) fits, and lower end and the turntable structure (55) of the L-type frame (521) mutually weld.

4. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 3, it is characterised in that： The planetary gear structure (54) is by crank fixed seat (541), crank (542), sun gear (543), planetary gear (544), connecting rod (545), big synchronous belt (546), the first roller (547) composition, the crank (542) are movably connected on crank fixed seat (541) The left side of lower end, left end and the crank (542) of the connecting rod (545) are mechanically connected, the right end and planetary gear of the connecting rod (545) (544) it is flexibly connected, the planetary gear (544) is engaged on the inner ring of sun gear (543), sun gear (543) mechanical connection Right side in crank fixed seat (541) lower end, the big synchronous belt (546) are described around the outer ring for being connected to sun gear (543) Sun gear (543) is sequentially connected by big synchronous belt (546) and the first roller (547), the crank (542) and turntable structure (55) it is sequentially connected, the right end clearance fit of first roller (547) and ozone oxidation structure (56).

5. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 3, it is characterised in that： The turntable structure (55) is by turntable synchronous belt (551), right-hand rotation disk (552), turntable connecting rod (553), left-hand rotation disk (554), Two halved belts (555), synchronizing wheel (556), the second motor (557) composition, the lower loop of the turntable synchronous belt (551) is around connection The right end of outer ring in right-hand rotation disk (552), the turntable connecting rod (553) is movably connected on the front end of right-hand rotation disk (552), described The left end of turntable connecting rod (553) is mechanically connected to the front end of left-hand rotation disk (554), and the lower end of second halved belt (555) is also Around the outer ring for being connected to left-hand rotation disk (554), the synchronizing wheel (556) is driven by the second halved belt (555) and left-hand rotation disk (554) Connection, the synchronizing wheel (556) are nested in the right end of the second motor (557).

6. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 4, it is characterised in that： The ozone oxidation structure (56) is by output channel (561), right leather belt (562), lobe pump (563), left leather belt (564), gear (565), pore oxidation contact plate (566), oxidation case (567), spring fixed link (568) composition are pumped, the lobe pump (563) is embedding Right side in oxidation case (567) lower end, the output channel (561) are welded in the right end of lobe pump (563), the right leather belt (562) left end clearance fit passes through left leather belt (564) and gear pump in the front end of lobe pump (563), the lobe pump (563) (565) it is sequentially connected, the gear pump (565) aoxidizes contact plate embedded in the left side of oxidation case (567) lower end, the pore (566) it is embedded in the internal lower end of oxidation case (567), the lower end of the spring fixed link (568) is welded in oxidation case (567) upper table The left end in face, upper end and the dam formula DBD plasma structures (58) of the spring fixed link (568) mutually weld.

7. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 3, it is characterised in that： The waste water control structure (57) is by runner (571), shell (572), lower liquid pipe road (573), check valve (574), frid (575), runner synchronous belt (576) forms, and the runner (571) is movably connected on the internal rear end of shell (572), the lower liquid The lower end of pipeline (573) is welded in the left end of shell (572), and upper end and the shell (572) of the frid (575) are mechanically connected, The check valve (574) is embedded in the front end of frid (575), and frid (575) clearance fit is in the front end of runner (571), institute The left end for stating runner synchronous belt (576) is connect with the rear-end transmission of runner (571).

8. a kind of dam formula DBD plasma pharmaceuticals industry wastewater treatment equipments according to claim 2 or 6, feature exist In：The dam formula DBD plasma structures (58) are by water blockoff bar (581), second tin roller (582), upper belt (583), dielectric layer (584), high impulse electrode (585), connecting line (586), high voltage power supply (587), ground electrode (588), left gear (589), right tooth (5810), floating ball frame (5811), electrolyte tank (5812), waste water inlet pipe (5813) composition are taken turns, the left end of the water blockoff bar (581) is lived The dynamic front end for being connected to second tin roller (582), the second tin roller (582) are driven by upper belt (583) and left gear (589) Connection, the right gear (5810) are engaged on the right end of left gear (589), and floating ball frame (5811) clearance fit is in right gear (5810) right side, the waste water inlet pipe (5813) are welded in the right end of electrolyte tank (5812), high impulse electrode (585) patch The left end internal in electrolyte tank (5812) is closed, the dielectric layer (584) is fitted in the right end of high impulse electrode (585), the height Voltage source (587) is electrically connected by connecting line (586) with high impulse electrode (585), and the ground electrode (588) is fitted in the second rolling The left end of cylinder (582).