CN111825154A - High-concentration organic wastewater treatment device - Google Patents

Abstract

The invention discloses a high-concentration organic wastewater treatment device, which comprises an adsorption device, wherein the adsorption device is provided with a fishing device, a regeneration device and a concentration device; through spray set and enrichment facility's cooperation, make the eluant can recycle, the eluant consumption has been reduced, the automatic eluant of supplementing the loss through automatic liquid supplementing device, do not need artificially to supplement the eluant, regenerate and promote macroporous resin through regenerating unit, make macroporous resin cycle get into adsorption equipment's inside, realize automatic absorption from this, automatic elution, automatic regeneration, the overall process of automatic dress post, degree of automation is high, do not need the workman to operate after setting up, the cost of labor has been reduced, can carry out the processing that lasts to high concentration organic waste water simultaneously, the treatment effeciency is high, the practicality of this high concentration organic waste water treatment device has been improved.

Description

High-concentration organic wastewater treatment device

Technical Field

The invention relates to the field of high-concentration organic wastewater treatment devices, in particular to a high-concentration organic wastewater treatment device.

Background

In the industrial waste water of domestic sewage, food processing and paper making, organic substances such as carbohydrate, protein, grease, lignin and the like are generally contained in high concentration, exist in the sewage in a suspended or dissolved state and can be decomposed by the metabolism of microorganisms, oxygen is consumed in the decomposition process, the dissolved oxygen in the water is reduced, the growth of fish and other aquatic organisms is influenced, after the dissolved oxygen in the water is exhausted, the microorganisms carry out anaerobic decomposition on the organic substances and generate hydrogen sulfide, ammonia, mercaptan and other foul gases, the water quality is deteriorated, and the environment is seriously polluted, so the waste water containing the organic substances is discharged after being purified, and the existing methods for purifying the organic substances in the waste water mainly comprise an oxidation-adsorption method, an incineration method, an adsorption method, an SBR treatment method and the like, wherein the adsorption method uses a solid adsorbent with strong adsorption capacity, the method for enriching one or more components in the wastewater on the solid surface has the advantages that the commonly used adsorbent comprises activated carbon and resin, and the regeneration and elution of the activated carbon are difficult; the resin adsorption has the advantages of wide practical range, no influence of inorganic salt in the wastewater, good adsorption effect, easy elution and regeneration, stable performance and the like, so that in the treatment of high-concentration organic wastewater, the most common adsorbent is the resin adsorbent, and the resin adsorption method can be used for treating wastewater containing phenol, aniline, organic acid, nitro-compound, pesticide, dye intermediate and the like, and is an effective method for treating the organic wastewater.

At present, when people treat high-concentration organic wastewater by adopting an adsorption method, macroporous resin is firstly filled into an adsorption tower, then the high-concentration organic wastewater flows through the adsorption tower, then the high-concentration organic wastewater is contacted with the macroporous resin, then the macroporous resin adsorbs organic matters in the wastewater, the purpose of removing the organic matters in the wastewater is realized, after the macroporous resin is saturated in adsorption, the wastewater is stopped to be introduced into the absorption tower, then eluent is introduced into the absorption tower for elution, and then the macroporous resin is subjected to regeneration treatment.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems that in the prior art, when people adopt an adsorption method to treat high-concentration organic wastewater at present, macroporous resin is firstly filled into an adsorption tower, then the high-concentration organic wastewater flows through the adsorption tower, then the high-concentration organic wastewater is contacted with the macroporous resin, then the macroporous resin adsorbs organic matters in the wastewater to realize the purpose of removing the organic matters in the wastewater, after the macroporous resin is saturated by adsorption, the wastewater is stopped to be led into the adsorption tower, then eluent is led into the adsorption tower for elution, and then the macroporous resin is regenerated, but the treatment process has low automation degree, needs to be operated by a plurality of workers, can only be carried out intermittently in the whole process, can not carry out continuous treatment on the high-concentration organic wastewater, and has low treatment efficiency, the invention aims to provide a high-concentration organic wastewater treatment device, it can solve the problems in the background art well.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a high concentration organic wastewater treatment device, includes adsorption equipment, last fishing device, the regenerating unit and the enrichment facility of being equipped with of adsorption equipment.

Preferably, the adsorption device comprises a circulating flat tube, a driving motor is fixed on the right end of the top surface of the circulating flat tube through a bolt, an output shaft of the driving motor extends into the circulating flat tube and is fixedly connected with a driving shaft, the bottom end of the driving shaft is movably sleeved with the bottom surface of an inner cavity of the circulating flat tube, a driving flying disc is fixedly sleeved outside the driving shaft, an eccentric groove is formed in the side surface of the driving flying disc, the section of the eccentric groove is T-shaped, the central axis of the eccentric groove is not overlapped with the central axis of the driving flying disc, a driving plate is inserted in the eccentric groove in a sliding manner, an arc-shaped groove is formed in the right end surface of the driving plate, the arc-shaped groove is buckled on the inner wall of the eccentric groove and is in sliding connection with the inner wall of the eccentric groove, driving rods are fixedly connected on the upper surface and the lower surface of the driving plate, the left end of the circulating flat tube is fixedly communicated with an adsorption column, macroporous resin is filled in the adsorption column, a waste water pump is fixedly mounted on the top surface of the circulating flat tube, a water inlet in the waste water pump is fixedly communicated with the circulating flat tube through a pipeline and an isolation device, a water outlet in the waste water pump is communicated with an external reservoir through a pipeline, and an intelligent control cabinet positioned on the left side of the waste water pump is fixedly mounted on the top surface of the circulating flat tube.

Preferably, the fishing device comprises an inclined plane half-disc box, the bottom surface of the inclined plane half-disc box is fixedly communicated with the top end of the adsorption column, a liquid level control device is arranged on the left side surface of the inclined plane half-disc box, a straight face half-disc box is fixedly communicated with the right side surface of the inclined plane half-disc box, a washing device is arranged on the bottom surface of the straight face half-disc box, the top surface of the straight face half-disc box is flush with the top surface of the inclined plane half-disc box, a protruding box is fixedly communicated with the top surface of the straight face half-disc box, a rotary servo motor is fixed on the top surface of the protruding box through a bolt, an output shaft of the rotary servo motor extends into the protruding box and is fixedly connected with a rotating shaft, a fishing part is arranged outside the rotating shaft, the bottom end of the rotating shaft is movably sleeved with the bottom surface of an inner cavity of the straight face half-, fixedly connected with is located the left breakwater of rotation axis on the bottom surface of straight face half-round dish incasement chamber, fixedly connected with is located the limit baffle on rotation axis right side on the bottom surface of straight face half-round dish incasement chamber, fixedly connected with arc deflector on the top surface of straight face half-round dish incasement chamber, the top surface of arc deflector and the top surface fixed connection of inclined plane half-round dish incasement chamber, the side of arc deflector is equipped with the inclined plane, is equipped with the horizontal plane on the bottom surface of arc deflector.

Preferably, the elution device comprises a tapered material receiving pipe, the top end of the tapered material receiving pipe is fixedly communicated with the bottom surface of the straight-face semicircular disc box, a spraying device is arranged on the top surface of the tapered material receiving pipe, a resin lifting pipe is fixedly communicated with the bottom end of the tapered material receiving pipe, a driven shaft located at the bottom end of the resin lifting pipe is movably sleeved on the inner wall of the resin lifting pipe, a power shaft located at the top end of the resin lifting pipe is movably sleeved on the inner wall of the resin lifting pipe, supporting rollers are fixedly sleeved on the outer portions of the driven shaft and the power shaft, a transmission belt is connected between the two supporting rollers, a triangular material digging hopper is fixedly connected onto the outer surface of the transmission belt, liquid seepage holes are formed in the surface of the triangular material digging hopper, the bottom end of the tapered material receiving pipe is fixedly communicated with a liquid suction pipe through an isolation device, a conveying servo motor.

Preferably, the spraying device comprises a spraying box, the left side surface of the spraying box is fixedly connected with the right side surface of the gradually-reduced material receiving pipe, the right side surface of the spraying box is fixedly connected with the left side surface of the resin riser, a heat exchanger is fixedly mounted on the top surface of the spraying box, a steam inlet pipe is arranged on the right side surface of the heat exchanger, a pipeline pump is fixedly communicated on a pipeline of the steam inlet pipe, a pipeline pump bolt is fixed on the surface of the resin riser, a condensate discharge pipe is arranged on the bottom surface of the heat exchanger, the bottom end of the condensate discharge pipe extends to the inside of the spraying box, a circulating cooling liquid inlet pipe is arranged at the right end of the top surface of the heat exchanger, a circulating cooling liquid outlet pipe is arranged at the left end of the top surface of the heat exchanger, an automatic liquid supplementing device is arranged on the top surface of an inner cavity of the spraying box, eluent is injected into the inside of the spraying box.

Preferably, the regeneration device comprises a material receiving vertical pipe, the top end of the material receiving vertical pipe is fixedly communicated with the top end of the resin lifting pipe, a liquid level control device is arranged on the right side face of the material receiving vertical pipe, a lifting pipe is fixedly communicated with the bottom end of the material receiving vertical pipe, an inclined blanking pipe is fixedly communicated with the top end of the lifting pipe, the bottom end of the inclined blanking pipe is fixedly communicated with the top face of the circulating flat pipe, the bottom end of the inclined blanking pipe is positioned on the left side of the driving piston, an arc-shaped partition column is fixedly connected to the inner wall of the joint of the lifting pipe and the inclined blanking pipe, a tapered hole is formed in the arc-shaped partition column, a mounting plate is fixedly connected to the top face of the inclined blanking pipe, a lifting servo motor is fixedly mounted to the top face of the mounting plate, an output shaft of the lifting servo motor extends into, the spiral worm is connected with the inner wall of the lifting pipe in a sliding mode, the bottom end of the material receiving vertical pipe is fixedly communicated with a drain pipe through an isolating device, the other end of the drain pipe is fixedly communicated with a drain pump, a drain pump bolt is fixed on the top face of the circulating flat pipe, and a water outlet in the drain pump is fixedly communicated with an external rectifying tower through a pipeline.

Preferably, the concentration device comprises an outer kettle body, the bottom surface of the outer kettle body is fixedly connected with the top surface of the circulating flat tube, the top surface of the outer kettle body is fixedly connected with the bottom surface of the resin lifting tube, the right side surface of the outer kettle body is fixedly connected with the left side surface of the material receiving vertical tube, the inner kettle body is arranged in the outer kettle body, a separating block is fixedly connected on the surface of the inner kettle body, the other end of the separating block is fixedly connected with the inner wall of the outer kettle body, one end of the steam inlet tube extends from the inner part of the outer kettle body and is fixedly communicated with the inner kettle body, a support rod is fixedly connected on the inner wall of the inner kettle body, the other end of the support rod is fixedly connected with a volute, a water inlet pipe and a water outlet pipe are arranged on the side surface of the volute along the tangential direction, one end of the liquid suction tube extends to the inner kettle body and is fixedly communicated with the water inlet pipe, a stirring shaft is, the bottom of (mixing) shaft extends to the outside of spiral case and fixed the cup joint has the stirring leaf, fixedly connected with is located the division board of stirring leaf below on the inner wall of the interior cauldron body, and fixed intercommunication has the escape orifice on the bottom surface of division board, and the other end of escape orifice extends to the outside of the outer cauldron body and is equipped with the escape valve, and fixedly connected with is located the carrier bar of division board below on the inner wall of the interior cauldron body, and the outside winding of carrier bar has the heater strip.

Preferably, the salvaging part comprises a rotating column which is fixedly sleeved outside the rotating shaft, a buffer cavity is arranged inside the rotating column, a guide chute fixedly communicated with the buffer cavity is arranged on the side surface of the rotating column, the top surface of the inner cavity of the buffer cavity is connected with a displacement piston through a reset spring in a transmission way, the displacement piston is connected with the inner wall of the buffer cavity in a sliding way, a displacement rod is fixedly connected onto the top surface of the displacement piston, the top end of the displacement rod extends to the outside of the rotating column, a rolling steel ball is movably embedded on the top surface of the displacement rod and is in contact connection with an inclined plane at the bottom of an inclined plane cylinder, a transfer plate is fixedly connected onto the side surface of the displacement piston, the other end of the transfer plate penetrates through the guide chute and is fixedly connected with a U-shaped buckle plate, a limit strip is fixedly connected onto the inner wall of the U-, the outer part of the rotating rod is movably sleeved with a torsion spring, one end of the torsion spring is fixedly connected with the inner wall of the U-shaped buckle plate, the other end of the torsion spring is fixedly connected with the surface of the overturning arm, the left side surface of the overturning arm is fixedly connected with a positioning strip matched with the positioning strip, the top end of the right side surface of the overturning arm is fixedly connected with a limiting rod, the bottom end of the right side surface of the overturning arm is movably sleeved with a rotating arm, the right end of the rotating arm is movably sleeved with a transfer block, the outer part of the rotating arm is movably sleeved with a force storage spring, one end of the force storage spring is fixedly connected with the right side surface of the overturning arm, the other end of the force storage spring is fixedly connected with the transfer block, the right end of the transfer block is fixedly connected with a resin shovel hopper, the top surface of the resin shovel hopper is slidably connected with an inclined surface and a horizontal surface, the top surface of the transfer block is fixedly connected.

Preferably, the liquid level control device comprises two U-shaped liquid level pipes, two ends of one U-shaped liquid level pipe are movably inserted on the left side surface of the inclined surface semicircular disc box, two ends of the other U-shaped liquid level pipe are movably inserted on the right side surface of the material receiving vertical pipe, a through hole is formed in the end surface of the U-shaped liquid level pipe, an isolation disc is fixedly connected to the inner wall of the U-shaped liquid level pipe, a water through hole is formed in the isolation disc, filter cotton is filled in a cavity between the inner wall of the U-shaped liquid level pipe and the right side surface of the isolation disc, a fixed column is fixedly connected to the top surface of the U-shaped liquid level pipe, a lifting cavity is formed in the fixed column, a conical groove is formed in the top surface of the inner cavity of the lifting cavity, a transfusion pipe is fixedly inserted in the fixed column, the transfusion pipe is fixedly communicated with a plug, the number of the transfusion pipe, the one end of another transfer line with connect the fixed intercommunication of material standpipe, the underrun of lift chamber inner chamber is connected with the jack-up piston through jack-up spring transmission, the inner wall sliding connection in jack-up piston and lift chamber, fixedly connected with stopper on the top surface of jack-up piston, the top activity of stopper is pegged graft in the inside of bell jar, fixedly connected with driving rope on the bottom surface of jack-up piston, the other end of driving rope extends to the inside and the fixedly connected with floater that meets an emergency of U type liquid level pipe.

Preferably, automatic fluid infusion device includes the fluid infusion post, the top of fluid infusion post and the top surface fixed connection who sprays the incasement chamber, the installation cavity has been seted up to the inside of fluid infusion post, the toper spliced eye has been seted up on the top surface of installation cavity inner chamber, the inside fixed grafting of fluid infusion post has the fluid infusion pipe, fluid infusion pipe and the fixed intercommunication of toper spliced eye, the one end of fluid infusion pipe extends to the outside that sprays the case and communicates with the supplementary pipeline of eluant is fixed, the underrun compression spring transmission of installation cavity inner chamber is connected with the transmission piston, the inner wall sliding connection of transmission piston and installation cavity, fixedly connected with shutoff match on the top surface of transmission piston, the inside at the toper spliced eye is pegged graft in the top activity of shutoff match, fixedly connected with drive line on the bottom surface of transmission piston, the bottom of drive line extends to the outside and the fixedly connected with reflection floater of fluid infusion.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

the liquid level control device controls the amount of high-concentration organic wastewater in the fishing device and the amount of regenerated liquid in the regeneration device, the macroporous resin can move leftwards in the adsorption device through the adsorption device, the macroporous resin at the top of the adsorption device can automatically enter the elution device through the matching of the fishing device and a fishing part, the macroporous resin in the elution device is eluted and lifted through the matching of the elution device and a spray device, the macroporous resin in the elution device automatically enters the regeneration device, meanwhile, the eluent automatically enters the concentration device for evaporation and concentration, the eluent can be recycled through the matching of the spray device and the concentration device, the consumption of the eluent is reduced, the lost eluent is automatically supplemented through the automatic liquid supplementing device, manual eluent supplementing is not needed, and the macroporous resin is regenerated and lifted through the regeneration device, make macroporous resin cycle get into adsorption equipment's inside, realize from this that automatic absorption, automatic elution, automatic regeneration, the overall process of automatic dress post, degree of automation is high, does not need the workman to operate after setting up, has reduced the cost of labor, can carry out the processing that lasts to high concentration organic waste water simultaneously, and the treatment effeciency is high, has improved this high concentration organic waste water treatment device's practicality.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the internal structure of the circulation flat tube in fig. 1;

FIG. 3 is a top view of the drive plate of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of the internal structure of the fishing device of FIG. 1 according to the present invention;

FIG. 5 is a left side view of the arcuate guide plate of FIG. 4 in accordance with the present invention;

FIG. 6 is a bottom view of the arcuate guide plate of FIG. 4 in accordance with the present invention;

FIG. 7 is a schematic view of the internal structure of the fishing element of FIG. 4 according to the present invention;

FIG. 8 is a top view of the U-shaped gusset of FIG. 7 of the present invention;

FIG. 9 is a schematic view showing the internal structure of the elution apparatus of FIG. 1 according to the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 9 at B in accordance with the present invention;

FIG. 11 is a schematic view of the internal structure of the spray apparatus of FIG. 1 according to the present invention;

FIG. 12 is a schematic diagram of the internal structure of the regeneration device shown in FIG. 1 according to the present invention;

FIG. 13 is a schematic view showing the internal structure of the concentration device of FIG. 1 according to the present invention;

FIG. 14 is a schematic top view of the volute of FIG. 13 according to the present invention;

FIG. 15 is a schematic view of the internal structure of the liquid level control apparatus of FIG. 4 according to the present invention;

FIG. 16 is a schematic view of the internal structure of the automatic fluid infusion apparatus of FIG. 11 according to the present invention;

fig. 17 is a cross-sectional view taken at C-C of fig. 7 in accordance with the present invention.

The reference numbers in the figures illustrate:

1. an adsorption device; 101. circulating flat tubes; 102. a drive motor; 103. a drive shaft; 104. driving a flying disc; 105. an eccentric groove; 106. a drive plate; 107. an arc-shaped groove; 108. a drive rod; 109. a drive piston; 110. an adsorption column; 111. macroporous resin; 112. a waste water pump; 113. an intelligent control cabinet; 2. fishing the device; 21. a bevel semi-disc box; 22. a straight face semi-circular disc box; 23. a bulge box; 24. rotating the servo motor; 25. a rotating shaft; 26. a beveled cylinder; 27. a water bar; 28. a limit baffle; 29. an arc-shaped guide plate; 291. an inclined surface; 292. a horizontal plane; 3. an elution device; 301. a tapered receiving pipe; 302. a resin riser tube; 303. a driven shaft; 304. a power shaft; 305. a support roller; 306. a transmission belt; 307. a triangular material digging hopper; 308. a weep hole; 309. a pipette; 310. a transmission servo motor; 4. a spraying device; 41. a spray box; 42. a heat exchanger; 43. introducing steam into the pipe; 44. a pipeline pump; 45. a condensate discharge pipe; 46. circulating cooling liquid into the pipe; 47. a circulating cooling liquid outlet pipe; 48. eluting the solution; 49. a shower pipe; 5. a regeneration device; 50. draining pump; 51. a material receiving vertical pipe; 52. lifting a lifting pipe; 53. inclining the blanking pipe; 54. an arc-shaped partition column; 55. a tapered bore; 56. mounting a plate; 57. lifting the servo motor; 58. a helical worm; 59. a drain pipe; 6. a concentration device; 601. an outer kettle body; 602. an inner kettle body; 603. a spacer block; 604. a support bar; 605. a volute; 606. a water inlet pipe orifice; 607. a water outlet pipe orifice; 608. a stirring shaft; 609. water wheel blades; 610. stirring blades; 611. a separator plate; 612. a drain hole; 613. a drain valve; 614. a carrier bar; 615. heating wires; 7. fishing the parts; 701. a spin column; 702. a buffer chamber; 703. a guide chute; 704. a return spring; 705. a displacement piston; 706. a displacement rod; 707. rolling the steel ball; 708. an adapter plate; 709. a U-shaped buckle plate; 710. a limiting strip; 711. rotating the rod; 712. a turning arm; 713. a torsion spring; 714. a positioning bar; 715. a limiting rod; 716. a rotating arm; 717. a transfer block; 718. a power storage spring; 719. a resin shovel hopper; 720. a shift lever; 721. a lower gear lever; 8. a liquid level control device; 801. a U-shaped liquid level pipe; 802. a through hole; 803. a separator disc; 804. a water through hole; 805. filtering cotton; 806. fixing a column; 807. a lifting cavity; 808. a tapered groove; 809. a transfusion tube; 810. jacking up the spring; 811. jacking the piston; 812. a plug; 813. a drive rope; 814. a strain floating ball; 9. an automatic fluid infusion device; 91. a fluid infusion column; 92. a mounting cavity; 93. a conical plug hole; 94. a liquid supplementing pipe; 95. a compression spring; 96. a drive piston; 97. plugging; 98. a drive line; 99. reflecting the floating ball; A. an isolation device; a1, an isolation cylinder; a2, penetration holes; a3, penetrating cotton.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; rather than all embodiments. Based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Referring to fig. 1-17, a high concentration organic wastewater treatment device includes an adsorption device 1, and the adsorption device 1 is provided with a fishing device 2, a regeneration device 5 and a concentration device 6.

The adsorption device 1 comprises a circulating flat pipe 101, a driving motor 102 is fixed on a right end bolt on the top surface of the circulating flat pipe 101, an output shaft of the driving motor 102 extends into the circulating flat pipe 101 and is fixedly connected with a driving shaft 103, the bottom end of the driving shaft 103 is movably sleeved with the bottom surface of an inner cavity of the circulating flat pipe 101, a driving flying disc 104 is fixedly sleeved outside the driving shaft 103, an eccentric groove 105 is formed in the side surface of the driving flying disc 104, the section of the eccentric groove 105 is T-shaped, the central axis of the eccentric groove 105 is not overlapped with the central axis of the driving flying disc 104, a driving plate 106 is inserted in the eccentric groove 105 in a sliding mode, an arc-shaped groove 107 is formed in the right end surface of the driving plate 106, the arc-shaped groove 107 is buckled on the inner wall of the eccentric groove 105 and is connected with the inner wall of the eccentric groove 105 in a sliding mode, driving rods, the left end fixedly connected with driving piston 109 of drive plate 106, driving piston 109 and the inner wall sliding connection of circulation flat pipe 101, the left end of circulation flat pipe 101 is fixed the intercommunication and has adsorption column 110, adsorption column 110's inside is filled with macroporous resin 111, fixed mounting has waste water pump-out 112 on the top surface of circulation flat pipe 101, the water inlet on waste water pump-out 112 passes through pipeline and isolating device A and the fixed intercommunication of circulation flat pipe 101, this cylinder A1 is fixed pegged graft on the top surface of circulation flat pipe 101, the delivery port on waste water pump-out 112 passes through pipeline and outside cistern intercommunication, fixed mounting has the intelligent control cabinet 113 that is located waste water pump-out 112 left on the top surface of circulation flat pipe 101.

The fishing device 2 comprises an inclined plane half-disk box 21, the bottom surface of the inclined plane half-disk box 21 is fixedly communicated with the top end of an adsorption column 110, the left side surface of the inclined plane half-disk box 21 is provided with a liquid level control device 8, the right side surface of the inclined plane half-disk box 21 is fixedly communicated with a straight face half-disk box 22, the bottom surface of the straight face half-disk box 22 is provided with a washing device 3, the top surface of the straight face half-disk box 22 is flush with the top surface of the inclined plane half-disk box 21, the top surface of the straight face half-disk box 22 is fixedly communicated with a convex box 23, the top surface of the convex box 23 is fixed with a rotary servo motor 24 through a bolt, an output shaft of the rotary servo motor 24 extends to the inner part of the convex box 23 and is fixedly connected with a rotating shaft 25, the outer part of the rotating shaft 25 is provided with a fishing part 7, the bottom end of the rotating shaft 25 is movably, inclined plane cylinder 26 activity cup joints in the outside of rotation axis 25, fixedly connected with is located the water bar 27 on the left of rotation axis 25 on the bottom surface of straight face half-disk case 22 inner chamber, fixedly connected with is located the limit baffle 28 on rotation axis 25 right side on the bottom surface of straight face half-disk case 22 inner chamber, fixedly connected with arc deflector 29 on the top surface of straight face half-disk case 22 inner chamber, the top surface of arc deflector 29 and the top surface fixed connection of inclined plane half-disk case 21 inner chamber, the side of arc deflector 29 is equipped with inclined plane 291, be equipped with horizontal plane 292 on the bottom surface of arc deflector 29.

The elution device 3 comprises a tapered material receiving pipe 301, the top end of the tapered material receiving pipe 301 is fixedly communicated with the bottom surface of the straight semicircular disc box 22, the top surface of the tapered material receiving pipe 301 is provided with a spraying device 4, the bottom end of the tapered material receiving pipe 301 is fixedly communicated with a resin lifting pipe 302, the inner wall of the resin lifting pipe 302 is movably sleeved with a driven shaft 303 positioned at the bottom end thereof, the inner wall of the resin lifting pipe 302 is movably sleeved with a power shaft 304 positioned at the top end thereof, the outer parts of the driven shaft 303 and the power shaft 304 are both fixedly sleeved with supporting rollers 305, a transmission belt 306 is connected between the two supporting rollers 305 in a transmission way, the outer surface of the transmission belt 306 is fixedly connected with a triangular material digging hopper 307, the surface of the triangular material digging hopper 307 is provided with a liquid seepage hole 308, the bottom end of the tapered material receiving pipe 301 is fixedly communicated with a liquid suction pipe 309 through an isolation device A, the isolation device A, the top surface of the isolation cylinder A1 is provided with a penetration hole A2, the isolation cylinder A1 is internally filled with penetration cotton A3, one end of a pipette 309 is fixedly communicated with the isolation cylinder A1 and used for blocking macroporous resin 111, the front surface of the resin lifting tube 302 is fixedly provided with a transmission servo motor 310, and an output shaft of the transmission servo motor 310 extends to the inside of the resin lifting tube 302 and is fixedly connected with the end part of the power shaft 304.

The spraying device 4 comprises a spraying box 41, the left side surface of the spraying box 41 is fixedly connected with the right side surface of a tapered material receiving pipe 301, the right side surface of the spraying box 41 is fixedly connected with the left side surface of a resin lifting pipe 302, a heat exchanger 42 is fixedly installed on the top surface of the spraying box 41, a steam inlet pipe 43 is arranged on the right side surface of the heat exchanger 42, a pipeline pump 44 is fixedly communicated on a pipeline of the steam inlet pipe 43, the pipeline pump 44 is fixed on the surface of the resin lifting pipe 302 through a bolt, a condensate discharge pipe 45 is arranged on the bottom surface of the heat exchanger 42, the bottom end of the condensate discharge pipe 45 extends into the spraying box 41, a circulating cooling liquid inlet pipe 46 is arranged at the right end of the top surface of the heat exchanger 42, a circulating cooling liquid outlet pipe 47 is arranged at the left end of the top surface of the inner cavity of the spraying box 41, an automatic liquid supplementing device, the other end of the spray pipe 49 is fixedly inserted on the left side surface of the resin riser pipe 302 and is fixedly communicated with the resin riser pipe 302.

The regeneration device 5 comprises a material receiving vertical pipe 51, the top end of the material receiving vertical pipe 51 is fixedly communicated with the top end of a resin lifting pipe 302, a liquid level control device 8 is arranged on the right side surface of the material receiving vertical pipe 51, a lifting pipe 52 is fixedly communicated with the bottom end of the material receiving vertical pipe 51, an inclined blanking pipe 53 is fixedly communicated with the top end of the lifting pipe 52, the bottom end of the inclined blanking pipe 53 is fixedly communicated with the top surface of a circulating flat pipe 101, the bottom end of the inclined blanking pipe 53 is positioned on the left side of a driving piston 109, an arc-shaped breaking column 54 is fixedly connected to the inner wall of the joint of the lifting pipe 52 and the inclined blanking pipe 53, a tapered hole 55 is formed in the arc-shaped breaking column 54, a mounting plate 56 is fixedly connected to the top surface of the inclined blanking pipe 53, a lifting servo motor 57 is fixedly mounted on the top surface of the mounting plate, the other end of the spiral worm 58 is movably sleeved with the bottom surface of the inner cavity of the lifting pipe 52, the spiral worm 58 is in sliding connection with the inner wall of the lifting pipe 52, the bottom end of the material receiving vertical pipe 51 is fixedly communicated with a drain pipe 59 through an isolating device A, the isolating cylinder A1 is fixedly inserted on the bottom surface of the material receiving vertical pipe 51, the other end of the drain pipe 59 is fixedly communicated with a drainage pump 50, the drainage pump 50 is fixed on the top surface of the circulating flat pipe 101 through bolts, and a water outlet in the drainage pump 50 is fixedly communicated with an external rectifying tower through a pipeline.

The concentration device 6 comprises an outer kettle body 601, the bottom surface of the outer kettle body 601 is fixedly connected with the top surface of the circulating flat tube 101, the top surface of the outer kettle body 601 is fixedly connected with the bottom surface of the resin lifting tube 302, the right side surface of the outer kettle body 601 is fixedly connected with the left side surface of the material receiving vertical tube 51, an inner kettle body 602 is arranged inside the outer kettle body 601, a separating block 603 is fixedly connected on the surface of the inner kettle body 602, the other end of the separating block 603 is fixedly connected with the inner wall of the outer kettle body 601, one end of a steam inlet tube 43 extends from the inside of the outer kettle body 601 and is fixedly communicated with the inner kettle body 602, a support rod 604 is fixedly connected on the inner wall of the liquid suction tube 602, the other end of the support rod 604 is fixedly connected with a volute nozzle 605, a water inlet 606 and a water outlet 607 are arranged on the side surface of the volute 605 along the tangential direction, one end of a 309 extends to the inside of the inner kettle body 602 and is fixedly communicated with, the outside of the stirring shaft 608 is fixedly sleeved with a water wheel blade 609 positioned inside the volute 605, the bottom end of the stirring shaft 608 extends to the outside of the volute 605 and is fixedly sleeved with a stirring blade 610, the inner wall of the inner kettle body 602 is fixedly connected with a partition plate 611 positioned below the stirring blade 610, the bottom surface of the partition plate 611 is fixedly communicated with a drain hole 612, the other end of the drain hole 612 extends to the outside of the outer kettle body 601 and is provided with a drain valve 613, the inner wall of the inner kettle body 602 is fixedly connected with a bearing rod 614 positioned below the partition plate 611, and the outside of the bearing rod 614 is wound with a heating wire 615.

The fishing part 7 comprises a rotating column 701, the rotating column 701 is fixedly sleeved outside the rotating shaft 25, a buffer cavity 702 is arranged inside the rotating column 701, a guide sliding groove 703 fixedly communicated with the buffer cavity 702 is arranged on the side surface of the rotating column 701, a displacement piston 705 is connected to the top surface of the inner cavity of the buffer cavity 702 in a transmission way through a reset spring 704, the displacement piston 705 is connected with the inner wall of the buffer cavity 702 in a sliding way, a displacement rod 706 is fixedly connected to the top surface of the displacement piston 705, the top end of the displacement rod 706 extends to the outside of the rotating column 701, a rolling steel ball 707 is movably embedded on the top surface of the displacement rod 706, the rolling steel ball 707 is in contact connection with the inclined surface at the bottom of the inclined surface column 26, an adapter plate 708 is fixedly connected to the side surface of the displacement piston 705, the other end of the adapter plate 708 penetrates through the guide sliding groove 703 and is fixedly connected with a U-shaped buckle plate 709, a limit, an overturning arm 712 is fixedly sleeved outside a rotating rod 711, a torsion spring 713 is movably sleeved outside the rotating rod 711, one end of the torsion spring 713 is fixedly connected with the inner wall of a U-shaped buckle 709, the other end of the torsion spring 713 is fixedly connected with the surface of the overturning arm 712, a positioning strip 714 matched with the limiting strip 710 is fixedly connected on the left side surface of the overturning arm 712, a limiting rod 715 is fixedly connected at the top end of the right side surface of the overturning arm 712, a rotating arm 716 is movably sleeved at the bottom end of the right side surface of the overturning arm 712, a transfer block 717 is movably sleeved at the right end of the rotating arm 716, a power storage spring 718 is movably sleeved outside the rotating arm 716, one end of the power storage spring 718 is fixedly connected with the right side surface of the overturning arm 712, the other end of the power storage spring 718 is fixedly connected with the transfer block 717, a resin shovel hopper 719 is fixedly connected at the right end of the transfer block 717, the top surface, the top surface of the switching block 717 is fixedly connected with an upper stop lever 720 matched with the limit lever 715, and the bottom surface of the switching block 717 is fixedly connected with a lower stop lever 721 matched with the limit baffle 28.

The liquid level control device 8 comprises two U-shaped liquid level pipes 801, two ends of one U-shaped liquid level pipe 801 are movably inserted on the left side surface of the inclined semi-circular disc box 21, two ends of the other U-shaped liquid level pipe 801 are movably inserted on the right side surface of the material receiving vertical pipe 51, a through hole 802 is formed in the end surface of the U-shaped liquid level pipe 801, an isolation disc 803 is fixedly connected to the inner wall of the U-shaped liquid level pipe 801, a water through hole 804 is formed in the isolation disc 803, filter cotton 805 is filled in a cavity between the inner wall of the U-shaped liquid level pipe 801 and the right side surface of the isolation disc 803, a fixed column 806 is fixedly connected to the top surface of the U-shaped liquid level pipe 801, a lifting cavity 807 is formed in the fixed column 806, a tapered groove 808 is formed in the top surface of the inner cavity of the lifting cavity 807, infusion tubes 809 are fixedly inserted in the fixed column 806, 809 tubes are fixedly communicated with plugs 812, one end of one infusion tube 809 is fixedly communicated with the inclined plane semicircular disc box 21, one end of the other infusion tube 809 is fixedly communicated with the material receiving vertical tube 51, the bottom surface of the inner cavity of the lifting cavity 807 is in transmission connection with a jacking piston 811 through a jacking spring 810, the jacking piston 811 is in sliding connection with the inner wall of the lifting cavity 807, a plug 812 is fixedly connected to the top surface of the jacking piston 811, the top end of the plug 812 is movably inserted in the conical groove 808, a transmission rope 813 is fixedly connected to the bottom surface of the jacking piston 811, and the other end of the transmission rope 813 extends to the inside of the U-shaped liquid level tube 801 and is fixedly connected with a strain floating ball 814.

Automatic fluid infusion device 9 includes fluid infusion column 91, fluid infusion column 91's top and the top surface fixed connection who sprays the case 41 inner chamber, installation cavity 92 has been seted up to fluid infusion column 91's inside, conical spliced eye 93 has been seted up on the top surface of installation cavity 92 inner chamber, fluid infusion column 91's inside is fixed to be pegged graft there is fluid infusion pipe 94, fluid infusion pipe 94 and conical spliced eye 93 fixed intercommunication, fluid infusion pipe 94's one end extends to the outside of spraying case 41 and communicates with the supplementary pipeline of eluant 48 is fixed, the bottom surface of installation cavity 92 inner chamber is connected with transmission piston 96 through compression spring 95 transmission, transmission piston 96 and the inner wall sliding connection of installation cavity 92, fixedly connected with shutoff match 97 on transmission piston 96's the top surface, the top activity of shutoff match 97 is pegged graft in the inside of conical spliced eye 93, fixedly connected with transmission line 98 on transmission piston 96's the bottom surface, the bottom of transmission line 98 extends to the outside of fluid infusion column 91 and fixedly connected with reflection floater 99.

The working principle is as follows:

firstly, the rotation speeds of the driving motor 102, the rotary servo motor 24 and the transmission servo motor 310 are set through the intelligent control cabinet 113, then the driving motor 102, the waste water extraction pump 112, the rotary servo motor 24, the transmission servo motor 310, the pipeline pump 44, the drainage pump 50 and the heating wire 615 are started through the intelligent control cabinet 113, then the driving motor 102 drives the driving shaft 103 to rotate, then the driving shaft 103 drives the flying disc 104 to rotate, then the driving disc 104 drives the driving plate 106 to move left and right through the matching of the eccentric groove 105 and the driving rod 108, then the driving plate 106 drives the driving piston 109 to move back and forth left and right, during the left movement of the driving piston 109, the driving piston 109 pushes the macroporous resin 111 inside the circulating flat pipe 101 to move left, during the right movement of the driving piston 109, the opening at the connection part of the bottom end of the inclined blanking pipe 53 and the circulating flat pipe 101 is, then the macroporous resin 111 in the inclined blanking pipe 53 moves to the inside of the circulating flat pipe 101 and is positioned at the left side of the driving piston 109 under the action of gravity, and the reciprocating operation is carried out, so that the macroporous resin 111 in the circulating flat pipe 101 gradually moves towards the inside of the adsorption column 110, the purpose of automatically loading the column is realized, then the organic wastewater enters the inclined plane semicircular disc box 21 through the corresponding infusion pipe 809, then the liquid level of the organic wastewater in the inclined plane semicircular disc box 21 gradually rises, then the organic wastewater in the inclined plane semicircular disc box 21 passes through the through hole 802, the filter cotton 805 and the water through hole 804 to enter the U-shaped liquid level pipe 801, then the strain floating ball 814 is immersed in the organic wastewater and is subjected to the action of buoyancy, so that the strain floating ball 814 moves upwards, then the jacking piston 811 carries the plug 812 to move upwards under the action of the elasticity of the jacking spring 810, then the plug 812 blocks, then the organic wastewater in the bevel semi-circular disk box 21 passes through the macroporous resin 111, the adsorption column 110, the corresponding isolating device A and the wastewater extraction pump 112 to enter the reservoir under the driving of the wastewater extraction pump 112, in the process, the macroporous resin 111 adsorbs organic matters in the organic wastewater to purify the wastewater, then the liquid level of the organic wastewater is reduced, then the strain floating ball 814 moves downwards under the action of gravity through the driving rope 813 and the jacking piston 811 with the plug 812, the tapered groove 808 is opened, the organic wastewater starts to be injected, the liquid level of the regeneration liquid in the bevel semi-circular disk box 21 is controlled, then the macroporous resin 111 gradually overflows from the top end of the adsorption column 110 and enters the bevel semi-circular disk box 21, then the rotary servo motor 24 drives the rotary shaft 25 to rotate anticlockwise, then the rotary shaft 25 drives the fishing piece 7 to rotate anticlockwise, at the moment, the resin shovel 719 and the fishing piece 7 synchronously rotate and gradually enter the bevel semi-circular disk box 21 anticlockwise, then, the rolling steel ball 707 rolls on the bottom surface of the slant cylinder 26, while the bottom surface of the slant cylinder 26 is pressed downward against the displacement rod 706 by the rolling steel ball 707, then the displacement rod 706 is moved downward with the resin shovel bucket 719 by the displacement piston 705, the transfer plate 708, the clevis 709, the rotating rod 711, the inverting arm 712, the rotating arm 716, and the transfer block 717, then the top surface of the resin shovel bucket 719 comes into contact with the slant surface 291, then the resin shovel bucket 719 is inverted and inclined downward with the rotating rod 711 as the center axis under the guide of the slant surface 291, then the surface of the resin shovel bucket 719 comes into contact with the horizontal surface 292 and slides on the surface thereof, at this time, the bottom surface of the resin shovel bucket 719 is slidably connected to the bottom surface of the cavity of the slant semicircular disk box 21, then the macroporous resin 111 inside the slant semicircular disk box 21 is shoveled inside the resin shovel bucket 719, then the resin shovel bucket 719 is separated from the horizontal surface 292 and, then the turning arm 712 drives the resin shovel hopper 719 to turn reversely around the rotating rod 711 as a central axis by the rotating arm 716 and the adapting block 717 under the torsion force of the torsion spring 713 until the limit strip 710 contacts the positioning strip 714, at this time, the resin shovel hopper 719 is in a horizontal state, then the resin shovel hopper 719 is separated from the inclined surface 291, then the displacement piston 705 drives the resin shovel hopper 719 to move upward through the adapting plate 708, the U-shaped buckle 709, the rotating rod 711, the turning arm 712, the rotating arm 716 and the adapting block 717 under the elasticity force of the return spring 704, then the resin shovel hopper 719 rotates to the inside of the straight semicircular disk box 22, then the lower stopper 721 is contacted with the limit stopper 28, then the limit stopper 28 applies a reverse thrust to the lower stopper 721, then the lower stopper 721 drives the resin shovel hopper 719 to turn clockwise around the rotating arm 716 by the adapting block 717, then the resin shovel hopper 719 tilts and pours the macroporous resin 111 inside into the tapered connecting pipe 301, then the lower gear lever 721 goes over the limit baffle 28, then the transfer block 717 drives the resin shovel hopper 719 under the action of the torsion of the power storage spring 718 to reversely turn around the rotating arm 716 as the central axis until the upper gear lever 720 contacts the limiting lever 715, at this time, the resin shovel hopper 719 is in a horizontal state, and the operation is repeated, so that the macroporous resin 111 inside the adsorption column 110 gradually enters the tapered material receiving pipe 301, then the macroporous resin 111 slides to the connection between the tapered material receiving pipe 301 and the resin lifting pipe 302 under the action of gravity, then the eluent 48 inside the spraying device 4 is sprayed into the resin lifting pipe 302 and the tapered material receiving pipe 301 through the spraying pipe 49 under the action of pressure difference, and elutes the macroporous resin 111 inside the resin lifting pipe 301, then the transmission servo motor 310 drives the support roller 305 to clockwise rotate through the power shaft 304, and then the support roller 305 drives the transmission belt 306 to clockwise rotate, then the transmission belt 306 drives the triangular digging hopper 307 to rotate clockwise, then the triangular digging hopper 307 digs the macroporous resin 111 at the joint of the tapered receiving pipe 301 and the resin riser 302 into the triangular digging hopper and lifts the macroporous resin 111, in the lifting process, the spray pipe 49 continuously sprays the eluent 48 into the circulating cooling liquid outlet pipe 47 to achieve the purpose of secondary leaching and improve the elution effect, then the triangular digging hopper 307 gets over all the spray pipes 49, then the eluent 48 contained in the macroporous resin 111 in the triangular digging hopper 307 is leached out from the weeping hole 308, then the triangular digging hopper 307 turns clockwise by taking the power shaft 304 as a central shaft, then the macroporous resin 111 in the triangular digging hopper 307 drops in the receiving vertical pipe 51 under the action of gravity, and meanwhile, the gas in the concentration device 6 enters the spray tank 41 through the steam inlet pipe 43 under the driving of the pipeline pump 44, the pressure inside the spraying device 4 is increased, the pressure inside the concentration device 6 is reduced, then the eluent 48 inside the tapered material receiving pipe 301 and the resin lifting pipe 302 enters the volute 605 through the corresponding isolation device A, the liquid suction pipe 309 and the water inlet pipe opening 606 under the action of liquid level difference and pressure difference and is sprayed into the inner kettle body 602 from the water outlet pipe opening 607, meanwhile, the flowing eluent 48 pushes the water wheel blade 609 to rotate, then the water wheel blade 609 drives the stirring shaft 608 to rotate, then the stirring shaft 608 drives the stirring blade 610 to rotate, then the stirring blade 610 stirs the eluent 48 inside the inner kettle body 602, then the heating wire 615 heats the eluent 48 inside the inner kettle body 602 to achieve the distillation effect, then the eluent 48 is evaporated to form mist, organic substances eluted from the eluent 48 are remained inside the inner kettle body 602, and then the eluent 48 enters the heat exchanger 42 through the steam inlet pipe 43 in the form of mist, then the circulating cooling water enters the heat exchanger 42 from the circulating cooling liquid inlet pipe 46 and flows out from the circulating cooling liquid outlet pipe 47, the eluent 48 in the mist state is cooled and cooled, then the eluent 48 in the mist state is condensed and liquefied and flows back to the inside of the spray box 41 from the condensate outlet pipe 45, the eluent 48 in the spray box 41 gradually reduces along with the prolonging of the service time, the liquid level descends, then the reflecting floating ball 99 moves downwards through the transmission line 98 and the transmission piston 96 under the action of gravity, the conical insertion hole 93 is opened, the liquid supplementing pipe 94 is conducted, then the external eluent 48 enters the spray box 41 through the liquid supplementing pipe 94, then the liquid level in the spray box 41 rises, then the reflecting floating ball 99 moves upwards along with the liquid level under the action of buoyancy, then the transmission piston 96 drives the plug 97 to move upwards under the action of the elastic force of the compression spring 95, until the plugging plug 97 is completely inserted into the conical plugging hole 93, the conical plugging hole 93 is plugged, the liquid supplementing action is stopped, the purpose of automatic liquid supplementing is realized, then the regenerated liquid enters the material receiving vertical pipe 51 through the corresponding liquid conveying pipe 809, then the liquid level of the regenerated liquid in the material receiving vertical pipe 51 and the lifting pipe 52 is gradually raised, then the regenerated liquid in the material receiving vertical pipe 51 passes through the through hole 802, the filter cotton 805 and the water through hole 804 and enters the U-shaped liquid level pipe 801, then the strain float 814 is immersed in the regenerated liquid and is subjected to the buoyancy effect, so that the strain float 814 moves upwards, then the jacking piston 811 drives the plug 812 to move upwards under the action of the elasticity of the jacking spring 810, then the plug 812 blocks the conical groove 808, the regenerated liquid stops being injected, and then the regenerated liquid in the material receiving vertical pipe 51 and the lifting pipe 52 enters the rectifying tower through the corresponding isolating device A, the water drainage pipe 59 and the drainage, then the liquid level of the regeneration liquid is lowered, then the strain float 814 drives the plug 812 to move downwards under the action of gravity through the transmission rope 813 and the jacking piston 811, the tapered groove 808 is opened, the regeneration liquid starts to be injected, the liquid level height of the regeneration liquid in the material receiving vertical pipe 51 and the lifting pipe 52 is controlled in such a way, then the macroporous resin 111 entering the material receiving vertical pipe 51 is soaked in the regeneration liquid for regeneration, then the lifting servo motor 57 drives the spiral worm 58 to rotate, then the spiral worm 58 provides lifting force for the macroporous resin 111, and then the macroporous resin 111 moves upwards, passes through the lifting pipe 52, the tapered hole 55 and the inclined blanking pipe 53 and then enters the interior of the circulating flat pipe 101 again to participate in circulation.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a high concentration organic waste water treatment device, includes adsorption equipment (1), its characterized in that: the adsorption device (1) is provided with a fishing device (2), a regeneration device (5) and a concentration device (6).

2. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the adsorption device (1) comprises a circulating flat pipe (101), a driving motor (102) is fixed to the right end of the top face of the circulating flat pipe (101) through a bolt, an output shaft of the driving motor (102) extends into the circulating flat pipe (101) and is fixedly connected with a driving shaft (103), the bottom end of the driving shaft (103) is movably sleeved with the bottom face of an inner cavity of the circulating flat pipe (101), a driving flying disc (104) is fixedly sleeved outside the driving shaft (103), an eccentric groove (105) is formed in the side face of the driving flying disc (104), the section of the eccentric groove (105) is T-shaped, the central axis of the eccentric groove (105) is not superposed with the central axis of the driving flying disc (104), a driving plate (106) is inserted in the eccentric groove (105) in a sliding mode, an arc-shaped groove (107) is formed in the right end face of the driving plate (106), the arc-shaped groove (107) is buckled on the inner wall of, equal fixedly connected with actuating lever (108) on the upper and lower two sides of drive plate (106), the tip of actuating lever (108) slides and pegs graft in the inside of eccentric groove (105), the left end fixedly connected with driving piston (109) of drive plate (106), the inner wall sliding connection of driving piston (109) and circulation flat pipe (101), the left end of circulation flat pipe (101) is fixed to be communicated with adsorption column (110), the inside of adsorption column (110) is filled with macroporous resin (111), fixed mounting has waste water pump (112) on the top surface of circulation flat pipe (101), the water inlet on waste water pump (112) passes through pipeline and isolating device (A) and is fixed with circulation flat pipe (101) and communicates, the delivery port on waste water pump (112) passes through pipeline and outside cistern intercommunication, fixed mounting has on the top surface of circulation flat pipe (101) and is located the left intelligent control cabinet (113) of waste water pump (112).

3. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the fishing device (2) comprises an inclined surface half-disk box (21), the bottom surface of the inclined surface half-disk box (21) is fixedly communicated with the top end of the adsorption column (110), a liquid level control device (8) is arranged on the left side surface of the inclined surface half-disk box (21), a straight surface half-disk box (22) is fixedly communicated with the right side surface of the inclined surface half-disk box (21), an elution device (3) is arranged on the bottom surface of the straight surface half-disk box (22), the top surface of the straight surface half-disk box (22) is flush with the top surface of the inclined surface half-disk box (21), a protruding box (23) is fixedly communicated with the top surface of the straight surface half-disk box (22), a rotary servo motor (24) is fixed on the top surface of the protruding box (23) through a bolt, an output shaft of the rotary servo motor (24) extends to the inner part of the protruding box (23) and is fixedly connected with a rotating shaft (25), the bottom of rotation axis (25) and the bottom surface activity of straight face half-disk case (22) inner chamber cup joint, fixed connection has inclined plane cylinder (26) on the top surface of protruding case (23) inner chamber, inclined plane cylinder (26) activity cup joints the outside at rotation axis (25), fixedly connected with is located water bar (27) on the left of rotation axis (25) on the bottom surface of straight face half-disk case (22) inner chamber, fixedly connected with is located limit baffle (28) on rotation axis (25) right side on the bottom surface of straight face half-disk case (22) inner chamber, fixedly connected with arc deflector (29) on the top surface of straight face half-disk case (22) inner chamber, the top surface of arc deflector (29) and the top surface fixed connection of inclined plane half-disk case (21) inner chamber, the side of arc deflector (29) is equipped with inclined plane (291), be equipped with horizontal plane (292) on the bottom surface of arc deflector (.

4. The apparatus for treating high concentration organic wastewater according to claim 3, wherein: the elution device (3) comprises a tapered material receiving pipe (301), the top end of the tapered material receiving pipe (301) is fixedly communicated with the bottom surface of a straight-face semicircular disc box (22), a spraying device (4) is arranged on the top surface of the tapered material receiving pipe (301), the bottom end of the tapered material receiving pipe (301) is fixedly communicated with a resin lifting pipe (302), a driven shaft (303) located at the bottom end of the resin lifting pipe (302) is movably sleeved on the inner wall of the resin lifting pipe (302), a power shaft (304) located at the top end of the resin lifting pipe is movably sleeved on the inner wall of the resin lifting pipe (302), supporting rollers (305) are fixedly sleeved outside the driven shaft (303) and the power shaft (304), a transmission belt (306) is connected between the two supporting rollers (305), a triangular material digging hopper (307) is fixedly connected on the outer surface of the transmission belt (306), a liquid seepage hole (308) is formed in the surface of the triangular material digging hopper (307), the bottom end of, a transmission servo motor (310) is fixedly installed on the front surface of the resin lifting pipe (302), and an output shaft of the transmission servo motor (310) extends into the resin lifting pipe (302) and is fixedly connected with the end part of the power shaft (304).

5. The apparatus for treating high concentration organic wastewater according to claim 4, wherein: the spraying device (4) comprises a spraying box (41), the left side surface of the spraying box (41) is fixedly connected with the right side surface of the tapered material receiving pipe (301), the right side surface of the spraying box (41) is fixedly connected with the left side surface of the resin lifting pipe (302), a heat exchanger (42) is fixedly installed on the top surface of the spraying box (41), a steam inlet pipe (43) is arranged on the right side surface of the heat exchanger (42), a pipeline pump (44) is fixedly communicated on a pipeline of the steam inlet pipe (43), the pipeline pump (44) is fixed on the surface of the resin lifting pipe (302) through bolts, a condensate discharge pipe (45) is arranged on the bottom surface of the heat exchanger (42), the bottom end of the condensate discharge pipe (45) extends to the inside of the spraying box (41), a circulating cooling liquid inlet pipe (46) is arranged at the right end of the top surface of the heat exchanger (42), and a circulating cooling liquid outlet pipe, an automatic liquid supplementing device (9) is arranged on the top surface of the inner cavity of the spraying box (41), eluent (48) is injected into the spraying box (41), a spraying pipe (49) is fixedly inserted on the right side surface of the spraying box (41), and the other end of the spraying pipe (49) is fixedly inserted on the left side surface of the resin lifting pipe (302) and is fixedly communicated with the resin lifting pipe (302).

6. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the regeneration device (5) comprises a material receiving vertical pipe (51), the top end of the material receiving vertical pipe (51) is fixedly communicated with the top end of a resin lifting pipe (302), a liquid level control device (8) is arranged on the right side surface of the material receiving vertical pipe (51), the bottom end of the material receiving vertical pipe (51) is fixedly communicated with a lifting pipe (52), the top end of the lifting pipe (52) is fixedly communicated with an inclined blanking pipe (53), the bottom end of the inclined blanking pipe (53) is fixedly communicated with the top surface of a circulating flat pipe (101), the bottom end of the inclined blanking pipe (53) is positioned on the left side of a driving piston (109), an arc-shaped partition column (54) is fixedly connected to the inner wall of the joint of the lifting pipe (52) and the inclined blanking pipe (53), a tapered hole (55) is formed in the arc-shaped partition column (54), a mounting plate (56) is fixedly connected to the top surface of the inclined blanking pipe (53), and a lifting, the output shaft of the lifting servo motor (57) extends to the inside of the lifting pipe (52) and is fixedly connected with a spiral worm (58), the other end of the spiral worm (58) is movably sleeved with the bottom surface of the inner cavity of the lifting pipe (52), the spiral worm (58) is in sliding connection with the inner wall of the lifting pipe (52), the bottom end of the material receiving vertical pipe (51) is fixedly communicated with a drain pipe (59) through an isolation device (A), the other end of the drain pipe (59) is fixedly communicated with a drainage pump (50), the drainage pump (50) is fixed on the top surface of a circulating flat pipe (101) through bolts, and a water outlet in the drainage pump (50) is fixedly communicated with an external rectifying tower through a pipeline.

7. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the concentration device (6) comprises an outer kettle body (601), the bottom surface of the outer kettle body (601) is fixedly connected with the top surface of the circulating flat pipe (101), the top surface of the outer kettle body (601) is fixedly connected with the bottom surface of the resin lifting pipe (302), the right side surface of the outer kettle body (601) is fixedly connected with the left side surface of the material receiving vertical pipe (51), an inner kettle body (602) is arranged in the outer kettle body (601), a separating block (603) is fixedly connected on the surface of the inner kettle body (602), the other end of the separating block (603) is fixedly connected with the inner wall of the outer kettle body (601), one end of a steam inlet pipe (43) extends from the inside of the outer kettle body (601) and is fixedly communicated with the inner kettle body (602), a support rod (604) is fixedly connected on the inner wall of the inner kettle body (602), the other end of the support rod (604) is fixedly connected with a volute (605), a water inlet pipe orifice (606) and a water outlet pipe orifice (607) are arranged on the side surface, one end of a pipette (309) extends to the inside of the inner kettle body (602) and is fixedly communicated with a water inlet pipe orifice (606), a stirring shaft (608) is movably sleeved on the top surface of an inner cavity of the volute (605), a water impeller blade (609) positioned inside the volute (605) is fixedly sleeved on the outside of the stirring shaft (608), the bottom end of the stirring shaft (608) extends to the outside of the volute (605) and is fixedly sleeved with a stirring blade (610), a partition plate (611) positioned below the stirring blade (610) is fixedly connected to the inner wall of the inner kettle body (602), a drain hole (612) is fixedly communicated with the bottom surface of the partition plate (611), the other end of the drain hole (612) extends to the outside of the outer kettle body (601) and is provided with a drain valve (613), a bearing rod (614) positioned below the partition plate (611) is fixedly connected to the inner wall of the inner kettle body (602), and a heating wire (615) is wound on the outside of.

8. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the fishing part (7) comprises a rotating column (701), the rotating column (701) is fixedly sleeved outside the rotating shaft (25), a buffer cavity (702) is formed inside the rotating column (701), a guide sliding chute (703) fixedly communicated with the buffer cavity (702) is formed in the side face of the rotating column (701), the top face of the inner cavity of the buffer cavity (702) is in transmission connection with a displacement piston (705) through a reset spring (704), the displacement piston (705) is in sliding connection with the inner wall of the buffer cavity (702), a displacement rod (706) is fixedly connected to the top face of the displacement piston (705), the top end of the displacement rod (706) extends to the outside of the rotating column (701), a rolling steel ball (707) is movably embedded on the top face of the displacement rod (706), the rolling steel ball (707) is in contact connection with an inclined face at the bottom of an inclined cylindrical column (26), and an adapter plate (708) is fixedly connected to the side face of, the other end of the adapter plate (708) penetrates through the guide sliding groove (703) and is fixedly connected with a U-shaped buckle plate (709), the inner wall of the U-shaped buckle plate (709) is fixedly connected with a limit strip (710), the inner wall of the U-shaped buckle plate (709) is movably sleeved with a rotating rod (711), the outer part of the rotating rod (711) is fixedly sleeved with a turning arm (712), the outer part of the rotating rod (711) is movably sleeved with a torsion spring (713), one end of the torsion spring (713) is fixedly connected with the inner wall of the U-shaped buckle plate (709), the other end of the torsion spring (713) is fixedly connected with the surface of the turning arm (712), the left side surface of the turning arm (712) is fixedly connected with a positioning strip (714) matched with the limit strip (710), the top end of the right side surface of the turning arm (712) is fixedly connected with a limit rod (715), the bottom end of the right side surface of the turning arm (712) is movably sleeved with, the outside activity of swinging boom (716) has cup jointed power spring (718), the one end of power spring (718) and the right flank fixed connection of upset arm (712), the other end and the switching piece (717) fixed connection of power spring (718), the right-hand member fixedly connected with resin shovel hopper (719) of switching piece (717), the top surface and inclined plane (291) and horizontal plane (292) sliding connection of resin shovel hopper (719), fixedly connected with and the last shelves pole (720) of gag lever post (715) looks adaptation on the top surface of switching piece (717), fixedly connected with and the lower shelves pole (721) of gag lever post (28) looks adaptation on the bottom surface of switching piece (717).

9. The apparatus for treating high concentration organic wastewater according to claim 3 or 6, wherein: the liquid level control device (8) comprises U-shaped liquid level pipes (801), the number of the U-shaped liquid level pipes (801) is two, two ends of one U-shaped liquid level pipe (801) are movably inserted on the left side surface of the inclined surface semicircular disc box (21), two ends of the other U-shaped liquid level pipe (801) are movably inserted on the right side surface of the material receiving vertical pipe (51), a through hole (802) is formed in the end surface of the U-shaped liquid level pipe (801), an isolation disc (803) is fixedly connected to the inner wall of the U-shaped liquid level pipe (801), a water through hole (804) is formed in the isolation disc (803), filter cotton (805) is filled in a cavity between the inner wall of the U-shaped liquid level pipe (801) and the right side surface of the isolation disc (803), a fixed column (806) is fixedly connected to the top surface of the U-shaped liquid level pipe (801), a lifting cavity (807) is formed in the inner part of the fixing column (806), a tapered, infusion tubes (809) are fixedly inserted in the fixing columns (806), the infusion tubes (809) are fixedly communicated with plugs (812), the number of the infusion tubes (809) is two, one end of one infusion tube (809) is fixedly communicated with the inclined semicircular disc box (21), one end of the other infusion tube (809) is fixedly communicated with the material receiving vertical tube (51), the bottom surface of the inner cavity of the lifting cavity (807) is connected with a jacking piston (811) through a jacking spring (810) in a transmission mode, the jacking piston (811) is connected with the inner wall of the lifting cavity (807) in a sliding mode, the plugs (812) are fixedly connected to the top surface of the jacking piston (811), the top ends of the plugs (812) are movably inserted in the conical grooves (808), a transmission rope (813) is fixedly connected to the bottom surface of the jacking piston (811), and the other end of the transmission rope (813) extends to the inside of the U-shaped liquid level tube (801) and is fixedly connected with a strain.

10. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the automatic liquid supplementing device (9) comprises a liquid supplementing column (91), the top end of the liquid supplementing column (91) is fixedly connected with the top surface of the inner cavity of the spraying box (41), a mounting cavity (92) is formed inside the liquid supplementing column (91), a conical insertion hole (93) is formed in the top surface of the inner cavity of the mounting cavity (92), a liquid supplementing pipe (94) is fixedly inserted into the inner part of the liquid supplementing column (91), the liquid supplementing pipe (94) is fixedly communicated with the conical insertion hole (93), one end of the liquid supplementing pipe (94) extends to the outer part of the spraying box (41) and is fixedly communicated with a supplementing pipeline of eluent (48), a transmission piston (96) is connected with the inner cavity of the mounting cavity (92) in a transmission manner through a compression spring (95), the transmission piston (96) is slidably connected with the inner wall of the mounting cavity (92), a plugging race (97) is fixedly connected onto the top surface of the transmission piston (96), and the top end of the plugging race (97) is movably inserted into the conical, the bottom surface of the transmission piston (96) is fixedly connected with a transmission line (98), and the bottom end of the transmission line (98) extends to the outside of the liquid supplementing column (91) and is fixedly connected with a reflection floating ball (99).

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