CN114632357A

CN114632357A - Wastewater hydrogen production device with filtering function

Info

Publication number: CN114632357A
Application number: CN202210408085.1A
Authority: CN
Inventors: 孟新儒; 张雪妮; 杨锐聪; 张嘉恒; 王仕龙; 高阳; 王巧浩; 赵宝宇; 杨灿; 方嘉俊; 钟宏天; 何嘉兴
Original assignee: Southwest Petroleum University
Current assignee: Southwest Petroleum University
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-06-17

Abstract

The application discloses waste water hydrogen plant with filtering capability, including the hydrogen manufacturing structure, the hydrogen manufacturing structure includes the supporting baseplate, supporting baseplate bottom rigid coupling slip wheelset, the casing is smashed to supporting baseplate top rigid coupling, smash casing top rigid coupling liquid feeding pipe, smash casing inner chamber department and be provided with the crushing unit of two upper and lower distributions, be located the top crushing unit top is provided with the deflector, the deflector rigid coupling is in smash casing inner chamber lateral wall, is located the below the crushing unit top is provided with the prefiltering net, the prefiltering net rigid coupling is in smash casing inner chamber lateral wall, the first transfer pump of crushing casing one side rigid coupling, the pipe is transferred in the export end rigid coupling of first transfer pump, transfer pipe one end rigid coupling in hydrogen manufacturing reaction cauldron one side, the hydrogen manufacturing reaction cauldron rigid coupling is in the supporting baseplate top. The application has the advantages that: provides a wastewater hydrogen production device which is convenient for crushing organic matters and has a filtering function.

Description

Wastewater hydrogen production device with filtering function

Technical Field

The application relates to a wastewater hydrogen production device, in particular to a wastewater hydrogen production device with a filtering function.

Background

Hydrogen production is a technological process for preparing hydrogen, hydrogen energy is a secondary energy source, hydrogen production with water is the most promising method in the long run, raw materials are inexhaustible, and water is generated after hydrogen burns to release energy without causing environmental pollution, common hydrogen production methods include hydrogen production with various mineral fuels, hydrogen production with electrolytic water, hydrogen production with biomass, hydrogen production with other hydrogen-containing substances, recovery of hydrogen produced by various chemical processes, and the like, hydrogen is artificially synthesized at the earliest and the beginning of the sixteenth century, the method used at the time is to place metal in strong acid, water is produced during combustion, hydrogen is an extremely easy-to-burn, colorless, transparent and odorless gas at normal temperature and normal pressure, hydrogen is taken as an energy source and is more and more concerned by people, hydrogen is nontoxic, the heat released by complete combustion is more than twice of methane with the same mass, and is considered as an ideal clean and high-energy fuel, as a high-energy fuel, liquid hydrogen has been applied to the fields of aerospace and the like, and as a chemical power source, a hydrogen-oxygen fuel cell has been applied, for example, as a driving energy source for automobiles and the like.

At present, along with the high-speed development of economy, the quantity of industrial wastewater is far and far greater, the direct discharge can cause serious environmental pollution in the environment, and the production and use cost of wastewater treatment equipment is higher, the resource is wasted, therefore, can adopt waste water to prepare hydrogen, but current waste water hydrogen production device lacks the preliminary treatment structure, the solid-state organic matter in the waste water is difficult to by direct effectual utilization when using, influence the work efficiency of hydrogen production, and cause the damage to hydrogen production equipment easily, influence the life of waste water hydrogen production device.

Disclosure of Invention

In order to solve the defects of the prior art, the hydrogen production structure can be used for pretreating wastewater and crushing organic matters in the wastewater, so that the problem of low hydrogen production efficiency of the conventional wastewater hydrogen production device is solved, the hydrogen production efficiency of the wastewater is improved, the damage of the organic matters in the wastewater to the wastewater hydrogen production device is reduced, and the service life of the wastewater hydrogen production device is prolonged.

In order to solve the problems in the prior art, the hydrogen production residual water can be treated by utilizing the treatment structure, the problem that acidic substances contained in the hydrogen production residual water pollute the environment is solved, the environmental protection performance of the wastewater hydrogen production device is improved, and the wastewater hydrogen production is convenient to carry out.

Further in order to solve the problems in the prior art, the hydrogen production residual water and residual gas can be filtered by using the filtering structure, so that the problem that the direct discharge of the hydrogen production residual water easily influences the ecological balance of the environment is solved, the hydrogen production residual water and residual gas are convenient to treat, and the use of the wastewater hydrogen production device is convenient.

A waste water hydrogen production device with a filtering function comprises a hydrogen production structure, wherein the hydrogen production structure comprises a support bottom plate, a sliding wheel set, a crushing shell, a liquid feeding pipe, a guide plate, a pre-filtering net, a first transfer pump, a transfer pipe, a hydrogen production reaction kettle, a hydrogen collecting pipe and a hydrogen collecting box, the bottom of the support bottom plate is fixedly connected with the sliding wheel set, the top of the support bottom plate is fixedly connected with the crushing shell, the top of the crushing shell is fixedly connected with the liquid feeding pipe, the inner cavity of the crushing shell is provided with two crushing components which are distributed up and down, the guide plate is arranged above the crushing components which are positioned above the crushing shell and fixedly connected with the side wall of the inner cavity of the crushing shell, the guide plate is fixedly connected with the side wall of the inner cavity of the crushing shell, the pre-filtering net is arranged above the crushing components which are positioned below the pre-filtering net, the pre-filtering net is fixedly connected with the side wall of the inner cavity of the crushing shell, the first transfer pump is fixedly connected with the transfer pipe, transfer pipe one end rigid coupling in hydrogen manufacturing reaction cauldron one side, hydrogen manufacturing reaction cauldron rigid coupling in the supporting baseplate top, hydrogen manufacturing reaction cauldron top rigid coupling hydrogen collecting pipe, supporting baseplate one end rigid coupling in hydrogen collecting box top, hydrogen collecting box rigid coupling in the supporting baseplate top.

Further, crushing unit is including installation casing, crushing motor, master gear, pinion and crushing roller, installation casing rigid coupling in crushing casing back, installation casing inner chamber lateral wall rigid coupling crushing motor, crushing motor's output rigid coupling master gear, the pinion is connected in the meshing of master gear side, the equal rigid coupling in master gear and pinion one side has crushing roller, crushing casing back is seted up two symmetric distribution's rotation hole, crushing roller one end is rotated with crushing casing inner chamber lateral wall and is connected, the crushing roller other end runs through the rotation hole and extends to installation casing inner chamber department.

Furthermore, the bottom of the supporting base plate is fixedly connected with four sliding wheel sets which are distributed in a rectangular structure, the top of the crushing shell is provided with a feeding port, the inner cavity side wall of the crushing shell is fixedly connected with two guide plates which are symmetrically distributed, and the inner cavity side wall of the supporting base plate is fixedly connected with two pre-filtering nets which are symmetrically distributed.

Further, including handling the structure, it includes processing casing, processing motor, main axis of rotation, horizontal stirring post, first bevel gear, second bevel gear, vice (mixing) shaft, fixed plate and vertical stirring post to handle the casing rigid coupling in the supporting baseplate top, handle casing top rigid coupling processing motor, processing motor's output rigid coupling main axis of rotation, main axis of rotation surface is provided with auxiliary assembly, main axis of rotation surface rigid coupling has horizontal stirring post, first bevel gear of main axis of rotation surface rigid coupling, the second bevel gear is connected in the meshing of first bevel gear side, the vice (mixing) shaft of second bevel gear one side rigid coupling, vice (mixing) shaft surface is connected with the fixed plate rotation, the fixed plate rigid coupling is in handling casing inner chamber lateral wall, the vertical stirring post of vice (mixing) shaft surface rigid coupling.

Furthermore, the auxiliary assembly comprises a rotating plate, a supporting rolling ball, an oblique stirring column, an auxiliary stirring column and a second transfer pump, wherein the surface of the main rotating shaft is fixedly connected with two rotating plates which are distributed up and down, one side of each rotating plate, which is back to the other, is respectively connected with the supporting rolling ball in a sliding manner, the supporting rolling ball is rotatably connected with the inner wall of the treatment shell, one side of the rotating plate, which is close to the transverse stirring column, is fixedly connected with a plurality of oblique stirring columns which are distributed in an annular array manner, one side of the oblique stirring column, which is far away from the transverse stirring column, is fixedly connected with a plurality of auxiliary stirring columns, the top of the inner cavity of the treatment shell and the bottom of the inner cavity are respectively connected with a plurality of supporting rolling balls which are distributed in an annular array manner in a rotating manner, one side of each rotating plate, which is back to the other, is respectively provided with a sliding groove and the rotating plate in a sliding manner, and the water inlet end of the second transfer pump is fixedly connected with the side of the crushing shell, and the water outlet end of the second transfer pump is fixedly connected with the side surface of the treatment shell.

Further, handle casing inner chamber lateral wall rigid coupling and have the fixed plate of two symmetric distributions, and two the intercommunicating pore has all been seted up to the fixed plate, first bevel gear side meshing is connected with the second bevel gear of two symmetric distributions, two the equal rigid coupling in one side that the second bevel gear was carried on the back mutually has vice (mixing) shaft, just the one end that second bevel gear was kept away from to vice (mixing) shaft runs through the intercommunicating pore and rotates to be connected in handling casing inner chamber lateral wall, it installs the pencil subassembly that adds at the casing top.

Further, the device comprises a filtering structure, wherein the filtering structure comprises a filtering shell, a reinforcing plate, a filter cylinder, a lower filter screen, a rotating pipe, a fixed shell, a rotating motor, a first gear, a second gear, a fixed pipe, a connecting pipe and a third transfer pump, the filtering shell is fixedly connected to the top of a supporting bottom plate, the side wall of the inner cavity of the filtering shell is fixedly connected with the reinforcing plate, the top of the reinforcing plate is rotatably connected with the filter cylinder, the lower filter screen is arranged below the reinforcing plate and fixedly connected to the side wall of the inner cavity of the filtering shell, cleaning components are arranged on the upper side and the lower side of the lower filter screen, the top of the filter cylinder is fixedly connected with the rotating pipe, the rotating pipe is arranged at the inner cavity of the fixed shell, the fixed shell is fixedly connected to the top of the filtering shell, the rotating motor is fixedly connected to the top of the filtering shell, and the output end of the rotating motor is fixedly connected with the first gear, the second gear is connected in a meshing mode to the side face of the first gear, the second gear is fixedly connected to the surface of the rotating pipe, the top face of the fixed shell is fixedly connected to the surface of the fixed pipe, the top of the fixed pipe is fixedly connected with the connecting pipe, the connecting pipe is fixedly connected to the water outlet end of the third transfer pump, the water inlet end of the third transfer pump is fixedly connected to one side of the processing shell, the third transfer pump is fixedly connected to the top of the supporting base plate, and the top of the fixed shell is provided with a gas adsorption assembly.

Further, it has the flowing back pipe assembly to filter casing one side rigid coupling, filter the casing top surface and seted up the installing port, the rotating tube top runs through the installing port and extends to support casing inner chamber department, it has sealing door to filter the casing back articulated, fixed casing top surface has seted up fixed mouthful, fixed socle end runs through fixed mouthful and extends to the rotating tube inboard.

Further, the cleaning assembly comprises a supporting shell, a cleaning motor, a first chain wheel, a transmission chain, a second chain wheel, a threaded column, a movable plate, a limiting column and a cleaning brush, the supporting shell is fixedly connected to one side of the filtering shell, the inner cavity side wall of the supporting shell is fixedly connected with the cleaning motor, the output end of the cleaning motor is fixedly connected with the first chain wheel, the side surface of the first chain wheel is meshed with the transmission chain, the transmission chain is meshed with the side surface of the second chain wheel, the threaded column is fixedly connected to one side of the first chain wheel and one side of the second chain wheel, the surface of the threaded column is in threaded connection with the movable plate, the movable plate is in sliding connection with the surface of the limiting column, the limiting column is fixedly connected to the inner cavity side wall of the filtering shell, the cleaning brush is fixedly connected to one side of the movable plate close to the lower filtering screen, two cleaning holes which are symmetrically distributed are formed in one side of the filtering shell, one end of the threaded column penetrates through the cleaning holes and is rotatably connected to the inner cavity side wall of the filtering shell, the filter shell cavity side wall rigid coupling has four spacing posts that are the distribution of rectangle structure, two symmetric distribution's spacing hole is seted up to the movable plate, spacing post one end runs through spacing hole and rigid coupling in filter shell cavity side wall.

Further, the gas adsorption component includes fixed column, absorption casing, lets in pipe and active carbon adsorption net, it has the fixed column to adsorb the equal rigid coupling of casing bottom four corners department, just the fixed column rigid coupling in fixed casing top, it has two symmetric distribution's the pipe that lets in to adsorb casing bottom rigid coupling, it has the active carbon adsorption net to let in pipe cavity lateral wall rigid coupling in fixed casing top surface, just it has the one-way pipe to adsorb casing top surface rigid coupling.

The application has the advantages that: provides a wastewater hydrogen production device which is convenient for crushing organic matters and has a filtering function.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic perspective view of a wastewater hydrogen plant with filtration according to an embodiment of the present application;

FIG. 2 is a schematic diagram of the internal structure of the wastewater hydrogen production apparatus in the embodiment shown in FIG. 1;

FIG. 3 is a schematic side view of the hydrogen plant from waste water in the embodiment of FIG. 1;

FIG. 4 is a structural diagram illustrating the positional relationship among the mounting housing, the pulverizing motor, the main gear and the sub-gear in the embodiment of FIG. 1;

FIG. 5 is an enlarged view of a portion of the embodiment A shown in FIG. 2;

FIG. 6 is a structural diagram illustrating the positional relationship among the main rotating shaft, the first bevel gear, the second bevel gear and the auxiliary stirring shaft in the embodiment of FIG. 1;

FIG. 7 is a structural diagram illustrating the positional relationship among the second bevel gear, the fixed plate, the auxiliary stirring shaft and the vertical stirring column in the embodiment shown in FIG. 1;

FIG. 8 is a structural diagram illustrating a positional relationship among the filter cartridge, the reinforcing plate, the rotary pipe, the rotary motor, the first gear and the second gear in the embodiment of FIG. 1;

FIG. 9 is a schematic structural diagram illustrating a positional relationship among the threaded post, the moving plate and the stopper post in the embodiment of FIG. 1;

fig. 10 is a structural diagram illustrating a positional relationship among the support housing, the cleaning motor, the first sprocket, the drive chain, the second sprocket, and the threaded post in the embodiment shown in fig. 1.

The meaning of the reference symbols in the figures: 1. a support base plate; 2. a sliding wheel set; 3. pulverizing the shell; 4. a liquid feeding pipe; 5. a guide plate; 6. pre-filtering a net; 7. a first transfer pump; 8. a transfer tube; 9. a hydrogen production reaction kettle; 10. a hydrogen collecting pipe; 11. a hydrogen collecting box; 12. installing a shell; 13. a grinding motor; 14. a main gear; 15. a pinion gear; 16. a crushing roller; 17. processing the shell; 18. processing the motor; 19. a main rotating shaft; 20. a transverse stirring column; 21. a first bevel gear; 22. a second bevel gear; 23. an auxiliary stirring shaft; 24. a fixing plate; 25. a vertical mixing column; 26. a rotating plate; 27. supporting the rolling ball; 28. an oblique stirring column; 29. an auxiliary stirring column; 30. a second transfer pump; 31. a filter housing; 32. a reinforcing plate; 33. a filter cartridge; 34. a lower filter screen; 35. rotating the tube; 36. a stationary housing; 37. rotating the motor; 38. a first gear; 39. a second gear; 40. a fixed tube; 41. a connecting pipe; 42. a third transfer pump; 43. a support housing; 44. cleaning the motor; 45. a first sprocket; 46. a drive chain; 47. a second sprocket; 48. a threaded post; 49. moving the plate; 50. a limiting column; 51. a cleaning brush; 52. fixing the column; 53. an adsorption housing; 54. introducing a pipe; 55. an activated carbon adsorption net.

Detailed Description

In order to make the purpose, features and advantages of the present application more obvious and understandable, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the embodiments described below are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical scheme of the application is further explained by the specific implementation mode in combination with the attached drawings.

In the description of the present application, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present application.

Referring to fig. 1 to 3, a wastewater hydrogen production device with a filtering function comprises a hydrogen production structure, the hydrogen production structure comprises a support base plate 1, a sliding wheel set 2, a crushing shell 3, a liquid feeding pipe 4, a guide plate 5, a pre-filtering net 6, a first transfer pump 7, a transfer pipe 8, a hydrogen production reaction kettle 9, a hydrogen collecting pipe 10 and a hydrogen collecting box 11, the bottom of the support base plate 1 is fixedly connected with the sliding wheel set 2, the top of the support base plate 1 is fixedly connected with the crushing shell 3, the top of the crushing shell 3 is fixedly connected with the liquid feeding pipe 4, the inner cavity of the crushing shell 3 is provided with two crushing components distributed up and down, the guide plate 5 is arranged above the crushing component positioned above, the guide plate 5 is fixedly connected with the side wall of the inner cavity of the crushing shell 3, the pre-filtering net 6 is fixedly connected with the side wall of the inner cavity of the crushing shell 3, one side of the crushing shell 3 is fixedly connected with the first transfer pump 7, the outlet end rigid coupling of first transfer pump 7 shifts pipe 8, shifts 8 one end rigid couplings in hydrogen manufacturing reation kettle 9 one side of pipe, and hydrogen manufacturing reation kettle 9 rigid coupling is in supporting baseplate 1 top, and hydrogen manufacturing reation kettle 9 top rigid coupling hydrogen collecting pipe 10, supporting baseplate 1 one end rigid coupling is in hydrogen collecting box 11 top, and hydrogen collecting box 11 rigid coupling is in supporting baseplate 1 top.

Through the technical scheme, the waste water can be pretreated by utilizing the hydrogen production structure, organic matters in the waste water can be crushed, the damage of the organic matters in the waste water to the waste water hydrogen production device is reduced, the service life of the waste water hydrogen production device is prolonged, when the device is used, the waste water is firstly introduced into the crushing shell 3 through the liquid adding pipe 4, at the moment, the guide plate 5 is utilized to guide the waste water, meanwhile, the crushing roller 16 positioned above is utilized to crush the organic matters in the waste water, the waste water is filtered through the pre-filtering net 6, the incompletely crushed organic matters in the waste water are guided, then, the crushing roller 16 positioned below is utilized to further crush the organic matters, the organic matters in the waste water are crushed more thoroughly, the utilization rate of the organic matters in the waste water is increased, the efficiency of the waste water hydrogen production is increased, and the abrasion of the hydrogen production organic matters in the waste water to the reaction kettle 9 is reduced, increase waste water hydrogen plant's life, the use of waste water hydrogen plant of being convenient for, then utilize first transfer pump 7 and transfer pipe 8 to let in hydrogen manufacturing reation kettle 9 with the waste water after handling, hydrogen manufacturing reation kettle 9 can utilize waste water to carry out the hydrogen manufacturing, and the hydrogen that makes is collected to hydrogen collecting box 11 in through hydrogen collecting pipe 10.

As a further optimization scheme, as shown in fig. 2 and 4, the pulverizing assembly includes a mounting housing 12, a pulverizing motor 13, a main gear 14, a secondary gear 15 and a pulverizing roller 16, the mounting housing 12 is fixedly connected to the back of the pulverizing housing 3, the side wall of the inner cavity of the mounting housing 12 is fixedly connected to the pulverizing motor 13, the output end of the pulverizing motor 13 is fixedly connected to the main gear 14, the side surface of the main gear 14 is engaged with the secondary gear 15, pulverizing rollers 16 are fixedly connected to one side of the main gear 14 and one side of the secondary gear 15, two symmetrically distributed rotating holes are formed in the back of the pulverizing housing 3, one end of the pulverizing roller 16 is rotatably connected to the side wall of the inner cavity of the pulverizing housing 3, the other end of the pulverizing roller 16 penetrates through the rotating hole and extends to the inner cavity of the mounting housing 12, in use, the grinding motor 13 rotates the main gear 14, thereby rotating the auxiliary gear 15, and then the grinding rollers 16 are driven to rotate, and the grinding rollers 16 at two sides can grind the organic matters in the wastewater.

Particularly, as shown in fig. 2, 1 bottom rigid coupling of supporting baseplate has four slip wheelsets 2 that are the distribution of rectangle structure, can be convenient for remove waste water hydrogen plant through slip wheelset 2, make waste water hydrogen plant's removal more laborsaving, it is swift, the charge door has been seted up at 3 tops of crushing casing, 3 intracavity lateral walls rigid couplings of crushing casing have the deflector 5 of two symmetric distributions, deflector 5 can lead waste water, 1 intracavity lateral walls rigid coupling of supporting baseplate has the prefilter net 6 of two symmetric distributions, prefilter net 6 can filter waste water.

As an optimization, as shown in FIG. 3, comprises a processing structure, the processing structure comprises a processing shell 17, a processing motor 18, a main rotating shaft 19 and a transverse stirring column 20, first bevel gear 21, second bevel gear 22, vice (mixing) shaft 23, fixed plate 24 and vertical stirring post 25, it is in supporting baseplate 1 top to handle casing 17 rigid coupling, handle casing 17 top rigid coupling processing motor 18, the output rigid coupling of processing motor 18 owner's axis of rotation 19, the 19 surface of owner's axis of rotation is provided with auxiliary component, 19 surface rigid couplings of owner's axis of rotation have horizontal stirring

post

20, 19 surface rigid couplings of owner's axis of rotation first bevel gear 21, first bevel gear 21 side meshing connection second bevel gear 22, second bevel gear 22 one side rigid coupling vice (mixing) shaft 23, vice (mixing) shaft 23 surface is rotated with fixed plate 24 and is connected, fixed plate 24 rigid couplings is in processing casing 17 inner chamber lateral wall, vice (mixing) shaft 23 surface rigid coupling vertical stirring post 25.

Through the technical scheme, the hydrogen production residual water can be treated by utilizing the treatment structure, the environmental protection performance of the wastewater hydrogen production device is improved, and the hydrogen production from wastewater is facilitated, when the device is used, the hydrogen production residual water in the hydrogen production reaction kettle 9 is introduced into the treatment shell 17 by utilizing the second transfer pump 30, then the treatment motor 18 is utilized to drive the main rotating shaft 19 to rotate, so that the transverse stirring column 20 is driven to rotate, meanwhile, the main rotating shaft 19 can drive the first bevel gear 21 to rotate when rotating, so that the second bevel gear 22 is driven to rotate, further the auxiliary stirring shaft 23 is driven to rotate, the vertical stirring column 25 can be driven to rotate when rotating, the hydrogen production residual water in the treatment shell 17 can be stirred and mixed when the transverse stirring column 20 and the vertical stirring column 25 rotate, so that the hydrogen production residual water is fully contacted with the treatment agent, and the hydrogen production residual water is convenient to be treated by utilizing the treatment agent, prevents the acidic substances in the hydrogen production residual water from polluting the environment and is convenient for the hydrogen production from the waste water.

As a further optimized scheme, as shown in fig. 3 and fig. 5, the auxiliary assembly includes a rotating plate 26, a supporting rolling ball 27, an oblique stirring column 28, an auxiliary stirring column 29 and a second transfer pump 30, two rotating plates 26 distributed up and down are fixedly connected to the surface of the main rotating shaft 19, the supporting rolling balls 27 are slidably connected to both opposite sides of the two rotating plates 26, the supporting rolling balls 27 are rotatably connected to the inner wall of the processing housing 17, a plurality of oblique stirring columns 28 distributed in an annular array are fixedly connected to one side of the rotating plate 26 close to the transverse stirring column 20, a plurality of auxiliary stirring columns 29 are fixedly connected to one side of the oblique stirring column 28 away from the transverse stirring column 20, a plurality of supporting rolling balls 27 distributed in an annular array are rotatably connected to both the top and the bottom of the inner cavity of the processing housing 17, a sliding groove is formed on the opposite side of the two rotating plates 26, the supporting rolling balls 27 are slidably connected to the rotating plates 26 through the sliding groove, the water inlet end of the second transfer pump 30 is fixedly connected with the side face of the crushing shell 3, the water outlet end of the second transfer pump 30 is fixedly connected with the side face of the processing shell 17, the rotating plate 26 can be driven to rotate when the main rotating shaft 19 rotates, so that the inclined stirring column 28 is driven to rotate, the auxiliary stirring column 29 is driven to rotate, and at the moment, the inclined stirring column 28 and the auxiliary stirring column 29 can further stir the hydrogen production residual water, so that the hydrogen production residual water is fully mixed with a processing agent, and the hydrogen production residual water is convenient to process.

Specifically, as shown in fig. 6 and 7, two fixing plates 24 symmetrically distributed are fixedly connected to the inner cavity side wall of the processing housing 17, communicating holes are formed in the two fixing plates 24, two second bevel gears 22 symmetrically distributed are connected to the side surface of the first bevel gear 21 in a meshing manner, an auxiliary stirring shaft 23 is fixedly connected to one side, opposite to the two second bevel gears 22, of the auxiliary stirring shaft 23, one end, far away from the second bevel gear 22, of the auxiliary stirring shaft penetrates through the communicating holes and is rotatably connected to the inner cavity side wall of the processing housing 17, and a medicine adding pipe assembly is installed at the top of the processing housing 17.

As an optimized solution, as shown in fig. 3 and 8, the filter structure comprises a filter housing 31, a reinforcing plate 32, a filter cartridge 33, a lower filter screen 34, a rotating pipe 35, a fixed housing 36, a rotating motor 37, a first gear 38, a second gear 39, a fixed pipe 40, a connecting pipe 41 and a third transfer pump 42, wherein the filter housing 31 is fixedly connected to the top of the support base plate 1, the side wall of the inner cavity of the filter housing 31 is fixedly connected to the reinforcing plate 32, the top of the reinforcing plate 32 is rotatably connected to the filter cartridge 33, the lower filter screen 34 is arranged below the reinforcing plate 32, the lower filter screen 34 is fixedly connected to the side wall of the inner cavity of the filter housing 31, cleaning components are arranged on the upper and lower sides of the lower filter screen 34, the top of the filter cartridge 33 is fixedly connected to the rotating pipe 35, the rotating pipe 35 is arranged in the inner cavity of the fixed housing 36, the fixed housing 36 is fixedly connected to the top of the filter housing 31, the inner cavity of the fixed housing 36 is provided with the rotating motor 37, the rotating motor 37 is fixedly connected to the top of the filtering shell 31, the output end of the rotating motor 37 is fixedly connected with the first gear 38, the side surface of the first gear 38 is engaged with the second gear 39, the second gear 39 is fixedly connected to the surface of the rotating pipe 35, the top surface of the fixed shell 36 is fixedly connected to the surface of the fixed pipe 40, the top of the fixed pipe 40 is fixedly connected with the connecting pipe 41, the connecting pipe 41 is fixedly connected to the water outlet end of the third transfer pump 42, the water inlet end of the third transfer pump 42 is fixedly connected to one side of the processing shell 17, the third transfer pump 42 is fixedly connected to the top of the supporting base plate 1, and the top of the fixed shell 36 is provided with the gas adsorption component.

Through the technical scheme, the hydrogen production residual water and residual gas can be filtered by utilizing the filtering structure, the hydrogen production residual water and residual gas can be conveniently treated, and the waste water hydrogen production device can be conveniently used, when in use, the hydrogen production residual water in the treatment shell 17 can be introduced into the fixed pipe 40 through the third transfer pump 42 and the connecting pipe 41, and then introduced into the filter cylinder 33 through the rotating pipe 35, and simultaneously the rotating motor 37 is utilized to drive the first gear 38 to rotate, so as to drive the second gear 39 to rotate, the rotating pipe 35 can be driven to rotate when the second gear 39 rotates, so as to drive the filter cylinder 33 to rotate, the filter cylinder 33 can filter the hydrogen production residual water, and then the filter screen 34 is utilized to further filter the hydrogen production residual water, so that the hydrogen production residual water is prevented from polluting the environment, the waste water hydrogen production device is more environment-friendly, the industrial waste water can be treated, and the energy of the industrial waste water treatment is saved, avoid the wasting of resources, utilize gas adsorption component to handle the residual gas that produces in the hydrogen manufacturing process simultaneously, prevent the peculiar smell contaminated air in the waste water.

Specifically, as shown in fig. 3, a liquid discharge pipe assembly is fixedly connected to one side of the filter housing 31, a mounting opening is formed in the top surface of the filter housing 31, the top end of the rotating pipe 35 penetrates through the mounting opening and extends to the inner cavity of the support housing 43, a sealing door is hinged to the back surface of the filter housing 31, a fixing opening is formed in the top surface of the fixing housing 36, and the bottom end of the fixing pipe 40 penetrates through the fixing opening and extends to the inner side of the rotating pipe 35.

As a further optimized scheme, as shown in fig. 3, 9 and 10, the cleaning assembly includes a supporting housing 43, a cleaning motor 44, a first sprocket 45, a transmission chain 46, a second sprocket 47, a threaded column 48, a moving plate 49, a limiting column 50 and a cleaning brush 51, the supporting housing 43 is fixedly connected to one side of the filtering housing 31, the side wall of the inner cavity of the supporting housing 43 is fixedly connected to the cleaning motor 44, the output end of the cleaning motor 44 is fixedly connected to the first sprocket 45, the side surface of the first sprocket 45 is engaged with the transmission chain 46, the transmission chain 46 is engaged with the side surface of the second sprocket 47, the threaded column 48 is fixedly connected to one side of the first sprocket 45 and the second sprocket 47, the surface of the threaded column 48 is threadedly connected to the moving plate 49, the moving plate 49 is slidably connected to the surface of the limiting column 50, the moving plate of the limiting column 50 is fixedly connected to the side wall of the inner cavity of the filtering housing 31, the cleaning brush 51 is fixedly connected to one side of the 49 close to the lower filtering screen 34, and one side of the filtering shell 31 is provided with two cleaning holes which are symmetrically distributed, one end of the threaded column 48 penetrates through the cleaning holes and is rotatably connected with the side wall of the inner cavity of the filtering shell 31, the side wall of the inner cavity of the filtering shell 31 is fixedly connected with four limiting columns 50 which are distributed in a rectangular structure, the moving plate 49 is provided with two limiting holes which are symmetrically distributed, one end of each limiting column 50 penetrates through the limiting holes and is fixedly connected with the side wall of the inner cavity of the filtering shell 31, when the lower filter screen 34 is used, the cleaning motor 44 can drive the first chain wheel 45 to rotate, so as to drive the transmission chain 46 to rotate, thereby driving the second chain wheel 47 to rotate, the first chain wheel 45 and the second chain wheel 47 can drive the threaded columns 48 on both sides to rotate simultaneously when rotating, the threaded columns 48 can drive the moving plate 49 to move along the limiting columns 50 when rotating, thereby drive cleaning brush 51 syntropy and remove, cleaning brush 51 can be cleaned lower filter screen 34, prevents that lower filter screen 34 from blockking up and influencing the use.

As a further optimization scheme, as shown in fig. 3, the gas adsorption component includes fixing columns 52, an adsorption casing 53, inlet pipes 54 and an activated carbon adsorption net 55, the fixing columns 52 are fixedly connected to four corners of the bottom of the adsorption casing 53, the fixing columns 52 are fixedly connected to the top of the fixed casing 36, the bottom of the adsorption casing 53 is fixedly connected to the two inlet pipes 54 which are symmetrically distributed, the inlet pipes 54 are fixedly connected to the top surface of the fixed casing 36, the activated carbon adsorption net 55 is fixedly connected to the side wall of the inner cavity of the inlet pipes 54, the top surface of the adsorption casing 53 is fixedly connected to a one-way pipe, residual gas generated in the hydrogen production process of wastewater can enter the adsorption casing 53 through the inlet pipes 54, and at this time, the activated carbon adsorption net 55 can be used for adsorption treatment of odor and the like, thereby preventing environmental pollution and facilitating hydrogen production from wastewater.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims

1. The utility model provides a waste water hydrogen plant with filtering capability which characterized in that: comprises a hydrogen production structure, the hydrogen production structure comprises a supporting bottom plate (1), a sliding wheel set (2), a crushing shell (3), a liquid adding pipe (4), a guide plate (5), a pre-filtering net (6), a first transfer pump (7), a transfer pipe (8), a hydrogen production reaction kettle (9), a hydrogen collecting pipe (10) and a hydrogen collecting box (11), the bottom of the supporting bottom plate (1) is fixedly connected with the sliding wheel set (2), the top of the supporting bottom plate (1) is fixedly connected with the crushing shell (3), the top of the crushing shell (3) is fixedly connected with the liquid adding pipe (4), two crushing components which are distributed up and down are arranged at the inner cavity of the crushing shell (3), the guide plate (5) is arranged above the crushing components, the guide plate (5) is fixedly connected with the side wall of the inner cavity of the crushing shell (3), the pre-filtering net (6) is arranged below the crushing components, prefiltration net (6) rigid coupling is in smashing casing (3) inner chamber lateral wall, smash first transfer pump (7) of casing (3) one side rigid coupling, the exit end rigid coupling of first transfer pump (7) shifts pipe (8), shift pipe (8) one end rigid coupling in hydrogen manufacturing reaction cauldron (9) one side, hydrogen manufacturing reaction cauldron (9) rigid coupling in supporting baseplate (1) top, hydrogen manufacturing reaction cauldron (9) top rigid coupling hydrogen collecting pipe (10), supporting baseplate (1) one end rigid coupling in hydrogen collecting box (11) top, hydrogen collecting box (11) rigid coupling in supporting baseplate (1) top.

2. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 1, wherein: crushing unit is including installation casing (12), crushing motor (13), master gear (14), pinion (15) and crushing roller (16), installation casing (12) rigid coupling in crushing casing (3) back, installation casing (12) inner chamber lateral wall rigid coupling crushing motor (13), the output rigid coupling master gear (14) of crushing motor (13), pinion (15) are connected in master gear (14) side meshing, the equal rigid coupling of master gear (14) and pinion (15) one side has crushing roller (16), crushing casing (3) back is seted up the rotation hole of two symmetric distributions, crushing roller (16) one end rotates with crushing casing (3) inner chamber lateral wall and is connected, crushing roller (16) other end runs through the rotation hole and extends to installation casing (12) inner chamber department.

3. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 1, wherein: supporting baseplate (1) bottom rigid coupling has four slip wheelsets (2) that are the distribution of rectangle structure, the charge door has been seted up at crushing casing (3) top, crushing casing (3) intracavity lateral wall rigid coupling has deflector (5) of two symmetric distributions, supporting baseplate (1) intracavity lateral wall rigid coupling has prefilter net (6) of two symmetric distributions.

4. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 1, wherein: the device comprises a processing structure, the processing structure comprises a processing shell (17), a processing motor (18), a main rotating shaft (19), a transverse stirring column (20), a first bevel gear (21), a second bevel gear (22), an auxiliary stirring shaft (23), a fixing plate (24) and a vertical stirring column (25), the processing shell (17) is fixedly connected to the top of a supporting base plate (1), the processing shell (17) is fixedly connected to the processing motor (18) at the top, the output end of the processing motor (18) is fixedly connected to the main rotating shaft (19), an auxiliary component is arranged on the surface of the main rotating shaft (19), the transverse stirring column (20) is fixedly connected to the surface of the main rotating shaft (19), the first bevel gear (21) is fixedly connected to the surface of the main rotating shaft (19), the side surface of the first bevel gear (21) is meshed with the second bevel gear (22), one side of the second bevel gear (22) is fixedly connected to the auxiliary stirring shaft (23), the surface of the auxiliary stirring shaft (23) is rotationally connected with a fixed plate (24), the fixed plate (24) is fixedly connected with the side wall of the inner cavity of the processing shell (17), and the surface of the auxiliary stirring shaft (23) is fixedly connected with a vertical stirring column (25).

5. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 4, wherein: the auxiliary assembly comprises a rotating plate (26), supporting rolling balls (27), oblique stirring columns (28), auxiliary stirring columns (29) and a second transfer pump (30), wherein the surface of the main rotating shaft (19) is fixedly connected with the two rotating plates (26) which are distributed up and down, the two opposite sides of the rotating plates (26) are respectively and slidably connected with the supporting rolling balls (27), the supporting rolling balls (27) are rotatably connected with the inner wall of the processing shell (17), one side of the rotating plate (26) close to the transverse stirring columns (20) is fixedly connected with a plurality of oblique stirring columns (28) which are distributed in an annular array, one side of the oblique stirring columns (28) far away from the transverse stirring columns (20) is fixedly connected with a plurality of auxiliary stirring columns (29), and the top of the inner cavity of the processing shell (17) and the bottom of the inner cavity are respectively and rotatably connected with the supporting rolling balls (27) which are distributed in an annular array, two the sliding tray has all been seted up to one side that rotor plate (26) carried on the back mutually, support spin (27) through sliding tray and rotor plate (26) sliding connection, the end of intaking of second transfer pump (30) and crushing casing (3) side rigid coupling, the play water end of second transfer pump (30) and handle casing (17) side rigid coupling.

6. The apparatus for producing hydrogen from wastewater with filtering function according to claim 4, characterized in that: handle casing (17) inner chamber lateral wall rigid coupling and have fixed plate (24) of two symmetric distributions, and two the intercommunicating pore has all been seted up in fixed plate (24), first bevel gear (21) side meshing is connected with second bevel gear (22) of two symmetric distributions, two the equal rigid coupling in one side that second bevel gear (22) carried on the back mutually has vice (mixing) shaft (23), just the one end that second bevel gear (22) were kept away from in vice (mixing) shaft (23) runs through the intercommunicating pore and rotates to be connected in handling casing (17) inner chamber lateral wall, it installs at casing (17) top and adds the medicine pipe assembly.

7. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 1, wherein: comprises a filtering structure, the filtering structure comprises a filtering shell (31), a reinforcing plate (32), a filter cylinder (33), a lower filter screen (34), a rotating pipe (35), a fixed shell (36), a rotating motor (37), a first gear (38), a second gear (39), a fixed pipe (40), a connecting pipe (41) and a third transfer pump (42), the filtering shell (31) is fixedly connected with the top of a supporting base plate (1), the inner cavity side wall fixedly connected reinforcing plate (32) of the filtering shell (31), the top of the reinforcing plate (32) is rotatably connected with the filter cylinder (33), the lower filter screen (34) is arranged below the reinforcing plate (32), the lower filter screen (34) is fixedly connected with the inner cavity side wall of the filtering shell (31), cleaning components are arranged on the upper side and the lower side of the lower filter screen (34), the top fixedly connected with the rotating pipe (35) of the filter cylinder (33), the rotating pipe (35) is arranged at the inner cavity of a fixed shell (36), the fixed shell (36) is fixedly connected to the top of a filtering shell (31), the inner cavity of the fixed shell (36) is provided with a rotating motor (37), the rotating motor (37) is fixedly connected to the top of the filtering shell (31), the first gear (38) of the output end fixedly connected to the motor (37) is rotated, the second gear (39) is engaged with the side surface of the first gear (38), the second gear (39) is fixedly connected to the surface of the rotating pipe (35), the top surface of the fixed shell (36) is fixedly connected to the surface of a fixed pipe (40), the top fixedly connected to a connecting pipe (41) of the fixed pipe (40), the connecting pipe (41) is fixedly connected to the water outlet end of a third transfer pump (42), the water inlet end of the third transfer pump (42) is fixedly connected to one side of a processing shell (17), the third transfer pump (42) is fixedly connected to the top of a supporting base plate (1), and a gas adsorption component is arranged at the top of the fixed shell (36).

8. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 7, wherein: it has the flowing back pipe assembly to filter casing (31) one side rigid coupling, filter casing (31) top surface and seted up the installing port, rotating tube (35) top is run through the installing port and is extended to support casing (43) inner chamber department, it has sealing door to filter casing (31) back articulated, fixed mouthful has been seted up to fixed casing (36) top surface, fixed mouthful and extension to rotating tube (35) inboard is run through to fixed pipe (40) bottom.

9. The apparatus for producing hydrogen from waste water with filtering function as claimed in claim 7, wherein: the cleaning assembly comprises a supporting shell (43), a cleaning motor (44), a first chain wheel (45), a transmission chain (46), a second chain wheel (47), a threaded column (48), a moving plate (49), a limiting column (50) and a cleaning brush (51), the supporting shell (43) is fixedly connected to one side of the filtering shell (31), the supporting shell (43) is fixedly connected to the side wall of the inner cavity of the cleaning motor (44), the output end of the cleaning motor (44) is fixedly connected to the first chain wheel (45), the side surface of the first chain wheel (45) is in meshed connection with the transmission chain (46), the transmission chain (46) is in meshed connection with the side surface of the second chain wheel (47), the threaded column (48) is fixedly connected to one side of the first chain wheel (45) and the second chain wheel (47), the surface of the moving plate threaded column (48) is in threaded connection with the driving chain (49), and the moving plate (49) is in sliding connection with the surface of the limiting column (50), spacing post (50) rigid coupling is in filtering casing (31) inner chamber lateral wall, the equal rigid coupling in one side that movable plate (49) are close to down filter screen (34) has cleaning brush (51), just filter casing (31) one side and set up the clean hole of two symmetric distributions, screw thread post (48) one end is run through clean hole and is rotated and connect in filtering casing (31) inner chamber lateral wall, filter casing (31) inner chamber lateral wall rigid coupling has four spacing posts (50) that are the rectangular structure and distribute, the spacing hole of two symmetric distributions is seted up in movable plate (49), spacing post (50) one end is run through spacing hole and rigid coupling in filtering casing (31) inner chamber lateral wall.

10. The apparatus for producing hydrogen from wastewater with filtering function according to claim 7, characterized in that: the gas adsorption component comprises a fixing column (52), an adsorption shell (53), an inlet pipe (54) and an activated carbon adsorption net (55), wherein the fixing column (52) is fixedly connected to four corners of the bottom of the adsorption shell (53), the fixing column (52) is fixedly connected to the top of the fixed shell (36), the inlet pipe (54) which is symmetrically distributed is fixedly connected to the bottom of the adsorption shell (53), the inlet pipe (54) is fixedly connected to the top surface of the fixed shell (36), the activated carbon adsorption net (55) is fixedly connected to the side wall of the inner cavity of the inlet pipe (54), and the top surface of the adsorption shell (53) is fixedly connected with a one-way pipe.