CN114160111A - Energy-saving environment-friendly active carbon regeneration furnace - Google Patents

Abstract

The invention relates to the technical field of activated carbon regeneration, in particular to an energy-saving environment-friendly activated carbon regeneration furnace, which comprises an installation box, wherein an installation rod is rotatably arranged on the bottom wall of the inner side of the installation box, a bottom plate is fixedly arranged on the outer side wall of the bottom end of the installation rod, a plurality of partition plates are uniformly and fixedly arranged on the outer side wall of the installation rod, the interior of the installation box is uniformly divided into a plurality of independent and sealed spaces by the partition plates, a motor for driving the installation rod to rotate is fixedly arranged on the top wall of the installation box, a plurality of storage boxes are uniformly arranged on the outer side wall of the installation rod and are uniformly distributed between two adjacent partition plates, and an opening and a hopper are arranged at the top end of each storage box. According to the invention, the mounting rod drives the storage box to rotate continuously, so that the activated carbon can be continuously processed, the operation is convenient, and the processing of the activated carbon cannot be delayed when the activated carbon is placed into the storage box and taken out of the storage box, so that the regeneration rate of the activated carbon is obviously improved, and the use effect is good.

Description

Energy-saving environment-friendly active carbon regeneration furnace

Technical Field

The invention relates to the technical field of activated carbon regeneration, in particular to an energy-saving and environment-friendly activated carbon regeneration furnace.

Background

The activated carbon regeneration is that activated carbon with full adsorption is treated under certain conditions and then activated again, the activated carbon is greatly used in the aspects of environmental protection, industry and civilian use, and a great effect is achieved, however, the activated carbon needs to be replaced when the activated carbon is fully adsorbed, and the adsorption by using the activated carbon is a physical process, so that impurities in the used activated carbon can be desorbed by adopting high-temperature steam, and the original activity of the used activated carbon is recovered, so that the aim of repeated use is fulfilled, the activated carbon regeneration has obvious economic benefit, and the purpose of the regenerated activated carbon can be continuously and repeatedly used and regenerated.

The heating regeneration method is the most applied and industrially mature activated carbon regeneration method, the activated carbon after treating organic wastewater is generally divided into three stages of drying, high-temperature carbonization and activation according to the change of organic matters when heated to different temperatures in the regeneration process, volatile components on the activated carbon are mainly removed in the drying stage, the high-temperature carbonization stage is to boil and vaporize a part of organic matters adsorbed on the activated carbon, a part of organic matters are decomposed to generate micromolecule hydrocarbon to be desorbed, residual components are left in pores of the activated carbon to become 'fixed carbon', the temperature in the stage is up to 800-900 ℃, the oxidation of the activated carbon is avoided, the regeneration is generally carried out under vacuum or inert atmosphere, in the next activation stage, high-temperature gases such as CO2, CO, H2 or water vapor are introduced into a regeneration furnace to clean micropores of the activated carbon so as to recover the adsorption performance, the activation stage is the key of the whole regeneration process, the existing energy-saving and environment-friendly activated carbon regeneration furnace basically puts the activated carbon to be activated into the regeneration furnace at first when in use, and takes the activated carbon out of the regeneration furnace after the activated carbon is activated, so that the operation is complex, and more processing time is delayed when the activated carbon is put into the regeneration furnace and the activated carbon is taken out of the regeneration furnace, thereby causing the processing speed of the activated carbon regeneration furnace to be slow and the use effect to be poor.

Therefore, an energy-saving and environment-friendly activated carbon regeneration furnace is provided.

Disclosure of Invention

The invention aims to provide an energy-saving and environment-friendly activated carbon regeneration furnace, which can continuously process activated carbon by driving a storage box to continuously rotate through a mounting rod so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an energy-saving environment-friendly active carbon regeneration furnace comprises an installation box, wherein an installation rod is rotatably installed on the bottom wall of the inner side of the installation box, a bottom plate is fixedly installed on the outer side wall of the bottom end of the installation rod, a plurality of partition plates are uniformly and fixedly installed on the outer side wall of the installation rod, the partition plates uniformly divide the interior of the installation box into a plurality of independent sealed spaces, a motor for driving the installation rod to rotate is fixedly installed on the top wall of the installation box, a plurality of storage boxes are uniformly installed on the outer side wall of the installation rod and are uniformly distributed between two adjacent partition plates, the top end of each storage box is provided with an opening and a hopper, one side of the installation box is provided with an oven, a processing area, a feeding area and a discharging area are arranged in the installation box, the processing area is communicated with the oven, a feeding port is formed on the outer side wall of the installation box, which is close to one side of the feeding area, and a discharge opening is formed in the bottom wall of one side, close to the discharge area, of the mounting box.

When the device is used, the activated carbon is placed in the storage box through the feeding port in the feeding area, the motor is driven to drive the installation rod to rotate so as to drive the storage box to rotate, the high-temperature steam generated in the oven when the storage box rotates to the processing area can desorb the impurities in the used activated carbon in the storage box, and the original activity of the activated carbon is recovered, so that the purpose of repeated use is achieved, the activated carbon is poured out of the storage box and taken out through the discharging port when the storage box rotates to the discharging area, the storage box is driven by the installation rod to continuously rotate so as to continuously process the activated carbon, the operation is convenient, the processing of the activated carbon cannot be delayed when the activated carbon is placed in the storage box and taken out from the storage box, the regeneration rate of the activated carbon is remarkably improved, and the use effect is good.

Preferably, each storage box is internally provided with a stirring rod, and the motor is connected with a driving mechanism for driving the stirring rods to rotate.

The motor can rotate through actuating mechanism drive puddler when starting, can fully stir the active carbon in the material storage box when the puddler rotates, therefore the material storage box rotates and to process the active carbon in the material storage box when processing the district high temperature steam fully to the regeneration effect of active carbon has been improved.

Preferably, the output fixed mounting of motor has the pivot, and the bottom fixed connection of pivot is on the top of installation pole, actuating mechanism includes the bull stick of fixed mounting at the motor output, and the bottom of bull stick runs through the pivot and inserts and establish in the installation pole, even fixed mounting has a plurality of first bevel gears on the lateral wall of bull stick, the one end of puddler is all rotated and is connected on the installation pole, every the equal fixed mounting of one end that the puddler is close to the bull stick has the second bevel gear with first bevel gear intermeshing.

The motor drive pivot can drive the installation pole and rotate at the uniform velocity, thereby be convenient for rotate the material storage box to processing district and the district of unloading from the material loading district, the bull stick rotates and inserts the axle center department of establishing in pivot and installation pole, so the motor drive bull stick can drive first bevel gear, second bevel gear and puddler rotate, consequently the puddler can install the pole relatively when the installation pole rotates and take place to rotate and stir the active carbon of placing in the material storage box, mix with the help of the motor drive puddler, need not additionally to set up drive arrangement, thereby the manufacturing and the use cost of energy-concerving and environment-protective type active carbon regeneration stove have been reduced.

Preferably, the mounting rod is provided with a control structure for driving the storage box to turn over, and the control mechanism automatically controls the storage box to turn over when the storage box moves from the processing area to the discharging area.

The bin moves to the district's of unloading district time control mechanism automatic control bin upset from the processing district, and consequently the active carbon after processing can be automatic pours out and falls in the district of unloading in opening and hopper, and the active carbon that falls in the district of unloading discharges through the discharge opening again, and the active carbon that will process that can be convenient takes out from bin and install bin, need not artifical manual unloading, convenient operation, swift, excellent in use effect.

Preferably, control mechanism includes that the even rotation is installed a plurality of commentaries on classics boards on installation pole lateral wall, change board and stock box one-to-one, and the equal fixed connection of stock box is in the one end that corresponds the commentaries on classics board, the puddler is close to the one end of installation pole and all runs through the commentaries on classics board setting that corresponds, and the puddler all rotates and inserts the axle center department of establishing at the commentaries on classics board, every all be equipped with in the commentaries on classics board with puddler fixed connection to the coupling assembling on the commentaries on classics board, and the stock box removes on the district's time coupling assembling all with puddler fixed connection to the commentaries on classics board when unloading from the processing district.

The material storage box moves to the unloading zone from the processing zone, the connecting assembly fixedly connects the stirring rod to the rotating plate, so that the stirring rod can drive the rotating plate and the material storage box to rotate and unload the active carbon in the material storage box when rotating, and the material storage box is driven to rotate by the rotation of the stirring rod, thereby further reducing the manufacturing and using costs of the energy-saving and environment-friendly active carbon regeneration furnace.

Preferably, the connecting assembly comprises a first slide block slidably mounted in the rotating plate, a clamping block is fixedly mounted on the outer side wall of one side, close to the stirring rod, of the first slide block, a clamping groove matched with the clamping block is formed in the outer side wall of the stirring rod, a first sliding chute matched with the first slide block and the clamping block is formed in the rotating plate, the first slide block is elastically connected in the first sliding chute, an electromagnet is fixedly mounted on the inner side wall of one side, away from the stirring rod, of the first sliding chute, a permanent magnet matched with the electromagnet is fixedly mounted in the first slide block, an annular current-conducting plate is fixedly mounted on the outer side wall of the top end of the mounting rod, an annular mounting plate matched with the annular current-conducting plate is fixedly mounted on the top wall of the inner side of the mounting box, two conducting plates electrically connected to the motor are symmetrically mounted on the bottom wall of the annular mounting plate, and are electrically connected to the electromagnet together, and the two conducting strips are both positioned in the discharging area.

Can drive the workbin and rotate with annular current conducting plate when the installation pole rotates, the workbin rotates to the district's of unloading zone time annular current conducting plate can connect two conducting strips and connect and be located the circuit on the electro-magnet of the district of unloading, the electro-magnet of the district of unloading this moment can promote the permanent magnet, first slider and fixture block remove and insert the fixture block in the draw-in groove that corresponds on the puddler, therefore the puddler rotates and just can drive the workbin that is located the district of unloading and rotate, the workbin rotates and can unload to the active carbon in the workbin automatically after the district of unloading, need not manual operation, intelligent degree is high, high durability and convenient use.

Preferably, be equipped with a plurality of fixed subassemblies that will change the board and fix in the installation pole, fixed subassembly and commentaries on classics board one-to-one, and change the board and drive opening and hopper and rotate fixed subassembly when topmost and bottommost end and all will change the board automatically and fix.

It is fixed that the board will be changeed to the fixed subassembly is all automatic when changeing the board and driving opening and hopper and rotate to topmost and bottommost, change the board and drive opening and hopper and rotate can be convenient when topmost, stable put the active carbon to the storage box in, change the board and drive opening and hopper and rotate and can unload out the active carbon that the processing is good in the storage box fully when bottommost to the convenience that storage box and energy-concerving and environment-protective type active carbon regeneration stove used has been promoted.

Preferably, the fixed assembly comprises a second slide block slidably mounted in the rotating plate, a second sliding groove mutually matched with the second slide block is formed in the rotating plate, the second slide block is elastically connected in the second sliding groove, the electromagnet is positioned on the inner side wall of the second sliding groove far away from one end of the mounting rod, a rotating groove mutually matched with the rotating plate is formed in the mounting rod, a top groove and a bottom groove are respectively formed in the top wall and the bottom wall of the inner side of the rotating groove, two first joints and two second joints are symmetrically and fixedly mounted on the inner side walls of the top groove and the bottom groove respectively, a conductive block used for connecting the two first joints or the two second joints is fixedly mounted on the second slide block, two first conductive sheets and two second conductive sheets are symmetrically mounted on the bottom wall of the annular mounting plate, and the two first conductive sheets and the two second conductive sheets are mutually matched with the annular conductive plate, the one end of commentaries on classics board is connected with connects the electricity piece, and connects electricity piece electric connection on the electro-magnet, two first joint and two common electric connection of first conducting strip connect between the electricity piece at the motor, and two common electric connection of second joint and two second conducting strips connect between the electricity piece at the motor.

When the rotating plate drives the opening and the hopper to rotate to the topmost end, the second sliding block can push the conductive block to be inserted into the top groove and connected with the two first joints by elasticity, so that the rotating plate and the storage box can be fixed, when the storage box rotates to the unloading area, the annular conductive plate can be connected with the two first conductive plates, the two first joints, the motor and the electric connection block are connected with a circuit connected to an electromagnet located in the unloading area, after the electromagnet is electrified, the clamping block can be pushed to be inserted into the clamping groove and the second sliding block and the conductive block can be attracted to be contracted into the rotating plate, so that the stirring rod can drive the rotating plate and the storage box to rotate conveniently, similarly, when the rotating plate drives the opening and the hopper to rotate to the bottommost end, the second sliding block can push the conductive block to be inserted into the bottom groove and connected with the two second joints by elasticity, so that the rotating plate and the storage box can be fixed, and when the storage box rotates to the unloading area, the annular conductive plate can be connected with the two second conductive plates, Two second connect, the motor with connect the electric iron and connect the circuit on connecting the electro-magnet that is located the district of unloading, can promote the fixture block to insert in the draw-in groove and attract second slider and conducting block shrink to changeing the board after the electro-magnet circular telegram to be convenient for the puddler drives commentaries on classics board and storage box rotation, changeing the board and driving opening and hopper and all can be fixed with changeing board and storage box automatically when rotating to top and bottom, degree of automation is high, excellent in use effect.

Preferably, one end of the conductive block close to the mounting rod is a spherical surface.

The friction force between the conductive block and the mounting rod can be reduced, so that the abrasion of the conductive block and the mounting rod can be reduced, and the connection stability of the conductive block, the first joint and the second joint is improved.

Preferably, a plurality of balls are uniformly installed on the bottom wall of the inner side of the installation box in a rotating mode, and the top ends of the balls are in contact with the bottom wall of the bottom plate.

The rotating stability of the bottom plate is improved, so that the working stability of the energy-saving and environment-friendly active carbon regeneration furnace is improved.

Compared with the prior art, the invention has the beneficial effects that:

1. put the active carbon to the material storage box through the material loading mouth in the material loading district, the material storage box rotates and to the processing zone time in the high temperature steam that produces in the oven just can carry out the desorption to the impurity in the used active carbon in the material storage box, the material storage box rotates and to the unloading zone time again with the active carbon from the material storage box in pour out and take out through the discharge opening, the installation pole drives the material storage box and lasts and rotate just can last and process the active carbon, and is convenient for operation not only, and the processing of active carbon can not be delayed when putting the active carbon in the material storage box and taking out from the material storage box, thereby the regeneration rate of active carbon has been showing and has been promoted, excellent in use effect.

2. The motor can rotate through actuating mechanism drive puddler when starting, can fully stir the active carbon in the material storage box when the puddler rotates, therefore the material storage box rotates and to process the active carbon in the material storage box when processing the district high temperature steam fully to the regeneration effect of active carbon has been improved.

3. The bin moves to the district's of unloading district time control mechanism automatic control bin upset from the processing district, and consequently the active carbon after processing can be automatic pours out and falls in the district of unloading in opening and hopper, and the active carbon that falls in the district of unloading discharges through the discharge opening again, and the active carbon that will process that can be convenient takes out from bin and install bin, need not artifical manual unloading, convenient operation, swift, excellent in use effect.

Drawings

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a bottom view of the present invention at the top wall of the inside of the mounting box;

FIG. 4 is an enlarged view of the structure of portion A of FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure of portion B of FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of the structure of portion C of FIG. 2 according to the present invention;

fig. 7 is an enlarged view of the structure of portion D of fig. 2 according to the present invention.

In the figure: 1. installing a box; 2. mounting a rod; 3. a base plate; 4. a partition plate; 5. a motor; 6. a material storage box; 7. an opening; 8. a hopper; 9. an oven; 10. a processing zone; 11. a feeding area; 12. a discharge area; 13. a stirring rod; 14. a rotating shaft; 15. a rotating rod; 16. a first bevel gear; 17. a second bevel gear; 18. rotating the plate; 19. a first slider; 20. a clamping block; 21. a card slot; 22. a first chute; 23. an electromagnet; 24. a permanent magnet; 25. a second slider; 26. a second chute; 27. a top groove; 28. a bottom groove; 29. a first joint; 30. a second joint; 31. a conductive block; 32. an annular conductive plate; 33. an annular mounting plate; 34. a first conductive sheet; 35. a second conductive sheet; 36. a power connection block; 37. and a ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 7, the present invention provides an energy-saving and environment-friendly activated carbon regeneration furnace, which has the following technical scheme:

an energy-saving environment-friendly active carbon regeneration furnace comprises an installation box 1, an installation rod 2 is rotatably installed on the bottom wall of the inner side of the installation box 1, a bottom plate 3 is fixedly installed on the outer side wall of the bottom end of the installation rod 2, a plurality of partition plates 4 are uniformly and fixedly installed on the outer side wall of the installation rod 2, the partition plates 4 uniformly divide the interior of the installation box 1 into a plurality of independent sealed spaces, a motor 5 for driving the installation rod 2 to rotate is fixedly installed on the top wall of the installation box 1, a plurality of storage boxes 6 are uniformly installed on the outer side wall of the installation rod 2, the storage boxes 6 are uniformly distributed between two adjacent partition plates 4, an opening 7 and a hopper 8 are arranged at the top end of each storage box 6, an oven 9 is arranged on one side of the installation box 1, a processing area 10, a loading area 11 and a unloading area 12 are arranged in the installation box 1, the processing area 10 is communicated with the oven 9, when the partition plates 4 are tightly attached to the inner side wall of the oven 9, high-temperature steam in the oven 9 can be prevented from flowing to the outside of the oven 9 in a large area, a feeding opening is formed in the outer side wall, close to the feeding area 11, of the installation box 1, and a discharging opening is formed in the bottom wall, close to the discharging area 12, of the installation box 1.

When the device is used, activated carbon is placed into the storage box 6 through the feeding hole in the feeding area 11, the motor 5 drives the installation rod 2 to rotate to drive the storage box 6 to rotate, high-temperature steam generated in the oven 9 when the storage box 6 rotates to the processing area 10 can desorb impurities in the used activated carbon in the storage box 6 and restore the original activity of the activated carbon, so that the purpose of repeated use is achieved, the activated carbon is poured out of the storage box 6 and taken out through the discharging hole when the storage box 6 rotates to the discharging area 12, the installation rod 2 drives the storage box 6 to continuously rotate to continuously process the activated carbon, the operation is convenient, the processing of the activated carbon cannot be delayed when the activated carbon is placed into the storage box 6 and taken out of the storage box 6, the regeneration rate of the activated carbon is obviously improved, and the use effect is good.

Referring to fig. 2, each of the storage boxes 6 is provided with a stirring rod 13, and the motor 5 is connected with a driving mechanism for driving the stirring rod 13 to rotate.

Can rotate through actuating mechanism drive puddler 13 when motor 5 starts, can fully stir the active carbon in the material storage box 6 when puddler 13 rotates, so high temperature steam can fully process the active carbon in the material storage box 6 when material storage box 6 rotates to processing district 10 to the regeneration effect of active carbon has been improved.

Referring to fig. 2 and 4, as an embodiment of the present invention, a rotating shaft 14 is fixedly installed at an output end of a motor 5, a bottom end of the rotating shaft 14 is fixedly connected to a top end of a mounting rod 2, a driving mechanism includes a rotating rod 15 fixedly installed at the output end of the motor 5, a bottom end of the rotating rod 15 penetrates through the rotating shaft 14 and is inserted into the mounting rod 2, a plurality of first bevel gears 16 are uniformly and fixedly installed on an outer side wall of the rotating rod 15, one end of each stirring rod 13 is rotatably connected to the mounting rod 2, and one end of each stirring rod 13 close to the rotating rod 15 is fixedly installed with a second bevel gear 17 which is engaged with the first bevel gear 16.

Motor 5 drive pivot 14 can drive installation pole 2 and rotate at the uniform velocity to be convenient for rotate material storage box 6 from material loading district 11 to processing district 10 and unloading district 12, bull stick 15 rotates and inserts the axle center department of establishing at pivot 14 and installation pole 2, so motor 5 drive bull stick 15 can drive first bevel gear 16, second bevel gear 17 and puddler 13 rotate, puddler 13 can take place to rotate and stir the active carbon of placing in the material storage box 6 relatively installation pole 2 when consequently installation pole 2 rotates, stir with the help of motor 5 drive puddler 13, need not additionally to set up drive arrangement, thereby energy-concerving and environment-protective type active carbon regenerator's manufacturing and use cost have been reduced.

Referring to fig. 2, as an embodiment of the present invention, the mounting bar 2 is provided with a control mechanism for driving the storage box 6 to turn, and the control mechanism automatically controls the storage box 6 to turn when the storage box 6 moves from the processing area 10 to the discharging area 12.

The automatic control of mechanism material storage box 6 upset when material storage box 6 moved to district 12 of unloading from processing district 10, consequently the active carbon after processing can be automatic pours out and falls in district 12 of unloading in opening 7 and hopper 8, falls on the active carbon of district 12 of unloading and discharges through the discharge opening again, can be convenient take out the active carbon that will process from material storage box 6 and install bin 1, need not artifical manual unloading, convenient operation, swiftly, excellent in use effect.

As an embodiment of the present invention, referring to fig. 2, 3 and 4, the control mechanism includes a plurality of rotating plates 18 uniformly rotatably mounted on the outer side wall of the mounting rod 2, the rotating plates 18 correspond to the storage tanks 6 one by one, the storage tanks 6 are all fixedly connected to one end of the corresponding rotating plate 18, one end of the stirring rod 13 close to the mounting rod 2 is all arranged to penetrate through the corresponding rotating plate 18, the stirring rod 13 is rotatably inserted at the axial center of the rotating plate 18, a connecting assembly for fixedly connecting the stirring rod 13 to the rotating plate 18 is arranged in each rotating plate 18, and the connecting assembly fixedly connects the stirring rod 13 to the rotating plate 18 when the storage tank 6 moves from the processing area 10 to the discharging area 12.

When the material storage box 6 moves from the processing area 10 to the discharging area 12, the connecting assembly fixedly connects the stirring rod 13 to the rotating plate 18, so that the stirring rod 13 can drive the rotating plate 18 and the material storage box 6 to rotate and discharge the active carbon in the material storage box 6 when rotating, and the material storage box 6 is driven to rotate by means of the rotation of the stirring rod 13, thereby further reducing the manufacturing and using costs of the energy-saving and environment-friendly active carbon regeneration furnace.

As an embodiment of the present invention, referring to fig. 2, 3 and 5, the connecting assembly includes a first slider 19 slidably mounted in a rotating plate 18, a clamping block 20 is fixedly mounted on an outer sidewall of the first slider 19 near one side of the stirring rod 13, a clamping groove 21 matched with the clamping block 20 is formed on an outer sidewall of the stirring rod 13, a first sliding groove 22 matched with the first slider 19 and the clamping block 20 is formed in the rotating plate 18, the first slider 19 is elastically connected in the first sliding groove 22, an electromagnet 23 is fixedly mounted on an inner sidewall of the first sliding groove 22 far from one side of the stirring rod 13, a permanent magnet 24 matched with the electromagnet 23 is fixedly mounted in the first slider 19, an annular conductive plate 32 is fixedly mounted on an outer sidewall of a top end of the mounting rod 2, an annular mounting plate 33 matched with the annular conductive plate 32 is fixedly mounted on a top wall of an inner side of the mounting box 1, two conductive plates electrically connected to the motor 5 are symmetrically mounted on a bottom wall of the annular mounting plate 33, the two conducting strips are electrically connected to the electromagnet 23, and both conducting strips are located in the discharging area 12.

Can drive the stock box 6 and the rotation of annular current conducting plate 32 when installation pole 2 rotates, two conducting strips can be connected and the circuit on the electro-magnet 23 that is located unloading district 12 is connected to annular current conducting plate 32 when stock box 6 rotates to unloading district 12, the electro-magnet 23 in the district 12 of unloading this moment can promote permanent magnet 24, first slider 19 and fixture block 20 remove and insert fixture block 20 in the draw-in groove 21 that corresponds on puddler 13, consequently puddler 13 rotates and just can drive the stock box 6 that is located unloading district 12 and rotate, can unload to the active carbon in the stock box 6 automatically after district 12 is unloaded in stock box 6 rotation, need not manual operation, intelligent degree is high, high durability and convenient use.

Referring to fig. 2 and 4, as an embodiment of the present invention, a plurality of fixing assemblies for fixing the rotating plates 18 are disposed in the mounting rod 2, the fixing assemblies correspond to the rotating plates 18 one by one, and the fixing assemblies automatically fix the rotating plates 18 when the rotating plates 18 drive the openings 7 and the hoppers 8 to rotate to the topmost end and the bottommost end.

It is all automatic fixed subassembly is fixed with commentaries on classics board 18 that commentaries on classics board 18 drives opening 7 and hopper 8 and rotates to topmost and bottommost when, change board 18 and drive opening 7 and hopper 8 and rotate and can make things convenient for when topmost, stable put the active carbon to stock box 6 in, change board 18 and drive opening 7 and hopper 8 and rotate and can discharge the good active carbon of processing in the stock box 6 fully when bottommost to the convenience that stock box 6 and energy-concerving and environment-protective type active carbon regenerator used has been promoted.

As an embodiment of the present invention, referring to fig. 2, 3, 4, 5 and 6, the fixing assembly includes a second slider 25 slidably mounted in the rotating plate 18, a second sliding slot 26 mutually engaged with the second slider 25 is formed in the rotating plate 18, the second slider 25 is elastically connected in the second sliding slot 26, the electromagnet 23 is located on an inner side wall of one end of the second sliding slot 26 away from the mounting rod 2, a rotating slot mutually engaged with the rotating plate 18 is formed in the mounting rod 2, a top slot 27 and a bottom slot 28 are respectively formed on a top wall and a bottom wall of an inner side of the rotating slot, two first connectors 29 and two second connectors 30 are respectively and symmetrically fixedly mounted on the inner side wall of the top slot 27 and the bottom slot 28, a conductive block 31 for connecting the two first connectors 29 or the two second connectors 30 is fixedly mounted on the second slider 25, two first conductive sheets 34 and two second conductive sheets 35 are symmetrically mounted on a bottom wall of the annular mounting plate 33, and two first conducting strips 34 and two second conducting strips 35 are mutually matched with the annular conducting plate 32, one end of the rotating plate 18 is connected with an electricity connecting block 36, the electricity connecting block 36 is electrically connected to the electromagnet 23, two first joints 29 and two first conducting strips 34 are electrically connected between the motor 5 and the electricity connecting block 36 together, and two second joints 30 and two second conducting strips 35 are electrically connected between the motor 5 and the electricity connecting block 36 together.

When the rotating plate 18 drives the opening 7 and the hopper 8 to rotate to the topmost end, the second slide block 25 is pushed by the elastic force to insert the conductive block 31 into the top groove 27 and connect the two first joints 29, so that the rotating plate 18 and the storage box 6 can be fixed, when the storage box 6 rotates to the unloading area 12, the annular conductive plate 32 is connected with the two first conductive sheets 34, the two first joints 29, the motor 5 and the power connection block 36 and is connected with a circuit on the electromagnet 23 of the unloading area 12, after the electromagnet 23 is electrified, the annular conductive plate 32 is pushed to insert into the clamping groove 21 and attract the second slide block 25 and the conductive block 31 to contract into the rotating plate 18, so that the stirring rod 13 drives the rotating plate 18 and the storage box 6 to rotate, similarly, when the rotating plate 18 drives the opening 7 and the hopper 8 to rotate to the bottommost end, the second slide block 25 is pushed by the elastic force to insert the conductive block 31 into the bottom groove 28 and connect the two second joints 30, so that the rotating plate 18 and the storage box 6 can be fixed, when the material storage box 6 rotates to the discharging area 12, the annular conductive plate 32 is connected with the two second conductive plates 35, the two second connectors 30, the motor 5 and the power connection block 36 and is connected with a circuit on the electromagnet 23 located in the discharging area 12 in a connection mode, after the electromagnet 23 is powered on, the clamping block 20 can be pushed to be inserted into the clamping groove 21 and attract the second sliding block 25 and the conductive block 31 to shrink into the rotating plate 18, so that the stirring rod 13 can drive the rotating plate 18 and the material storage box 6 to rotate, when the rotating plate 18 drives the opening 7 and the hopper 8 to rotate to the top end and the bottom end, the rotating plate 18 and the material storage box 6 can be automatically fixed, the automation degree is high, and the using effect is good.

Referring to fig. 2 and 5, as an embodiment of the present invention, one end of the conductive block 31 near the mounting rod 2 is a spherical surface.

The friction between the conductive block 31 and the mounting rod 2 can be reduced, and thus the abrasion of the conductive block 31 and the mounting rod 2 can be reduced, thereby improving the stability of the connection of the conductive block 31 with the first and second connectors 29 and 30.

Referring to fig. 2 and 7, as an embodiment of the present invention, a plurality of balls 37 are uniformly rotatably mounted on the bottom wall of the inner side of the mounting case 1, and the top ends of the balls 37 are in contact with the bottom wall of the bottom plate 3.

The rotating stability of the bottom plate 3 is improved, so that the working stability of the energy-saving and environment-friendly active carbon regeneration furnace is improved.

The working principle is as follows: when the device is used, the activated carbon is placed in the storage box 6 through the feeding hole in the feeding area 11, the motor 5 drives the mounting rod 2 to rotate so as to drive the storage box 6 to rotate, and when the storage box 6 rotates to the processing area 10, the impurities in the used activated carbon in the storage box 6 can be desorbed by high-temperature steam generated in the oven 9, so that the original activity of the activated carbon is recovered, and the aim of repeated use is fulfilled; the motor 5 drives the rotating shaft 14 to drive the mounting rod 2 to rotate at a constant speed, so that the storage box 6 can be conveniently rotated from the loading area 11 to the processing area 10 and the unloading area 12, and the rotating rod 15 is rotatably inserted at the axle centers of the rotating shaft 14 and the mounting rod 2, so that the motor 5 drives the rotating rod 15 to drive the first bevel gear 16, the second bevel gear 17 and the stirring rod 13 to rotate, and the stirring rod 13 can rotate relative to the mounting rod 2 when the mounting rod 2 rotates and stir the activated carbon placed in the storage box 6; when the rotating plate 18 drives the opening 7 and the hopper 8 to rotate to the topmost end, the second slide block 25 is pushed by the elastic force to insert the conductive block 31 into the top groove 27 and connect the two first joints 29, so that the rotating plate 18 and the storage box 6 can be fixed, when the storage box 6 rotates to the unloading area 12, the annular conductive plate 32 is connected with the two first conductive sheets 34, the two first joints 29, the motor 5 and the power connection block 36 and is connected with a circuit on the electromagnet 23 of the unloading area 12, the electromagnet 23 is powered on to push the clamping block 20 to be inserted into the clamping groove 21 and attract the second slide block 25 and the conductive block 31 to contract into the rotating plate 18, so that the stirring rod 13 drives the rotating plate 18 and the storage box 6 to rotate, so that the activated carbon in the storage box 6 can be automatically unloaded, and similarly, when the rotating plate 18 drives the opening 7 and the hopper 8 to rotate to the bottommost end, the second slide block 25 is pushed by the elastic force to insert the conductive block 31 into the bottom groove 28 and connect the two second joints 30, therefore, the rotary plate 18 and the storage box 6 can be fixed, when the storage box 6 rotates to the discharging area 12, the annular conductive plate 32 can be connected with the two second conductive plates 35, the two second connectors 30, the motor 5 and the power connection block 36 and is connected with a circuit on the electromagnet 23 positioned in the discharging area 12, after the electromagnet 23 is electrified, the clamping block 20 can be pushed to be inserted into the clamping groove 21 and the second sliding block 25 and the conductive block 31 are attracted to be contracted into the rotary plate 18, so that the stirring rod 13 can drive the rotary plate 18 and the storage box 6 to rotate, and the active carbon can be conveniently placed into the storage box 6.

The electric elements in the document are electrically connected with an external main controller and 220V mains supply through a transformer, the main controller can be a conventional known device controlled by a computer and the like, the product model provided by the invention is only used according to the structural characteristics of the product, the product can be adjusted and modified after being purchased, so that the product is more matched with and accords with the technical scheme of the invention, the product model is a technical scheme of the optimal application of the technical scheme, the product model can be replaced and modified according to the required technical parameters, and the product model is familiar to the technical personnel in the field, so that the technical scheme provided by the invention can clearly obtain the corresponding use effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective type active carbon regenerating furnace, includes install bin (1), its characterized in that: install installation pole (2) on the diapire of install bin (1) inboard in the rotation, fixed mounting has bottom plate (3) on the lateral wall of installation pole (2) bottom, even fixed mounting has a plurality of baffles (4) on the lateral wall of installation pole (2), and baffle (4) separate into a plurality of independent sealed spaces with the inside uniform of install bin (1), fixed mounting has drive installation pole (2) pivoted motor (5) on the roof of install bin (1), evenly install a plurality of storage box (6) on the lateral wall of installation pole (2), and storage box (6) evenly distributed is between two adjacent baffles (4), every the top of storage box (6) all is equipped with opening (7) and hopper (8), one side of install bin (1) is equipped with oven (9), be equipped with processing district (10) in install bin (1), Material loading district (11) and unloading district (12), and processing district (10) and oven (9) intercommunication, seted up the material loading mouth on the lateral wall that install bin (1) is close to material loading district (11) one side, seted up the discharge opening on the diapire that install bin (1) is close to unloading district (12) one side.

2. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 1, characterized in that: every all be equipped with puddler (13) in stock bin (6), be connected with drive puddler (13) pivoted actuating mechanism on motor (5).

3. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 2, characterized in that: the output fixed mounting of motor (5) has pivot (14), and the bottom fixed connection of pivot (14) is on the top of installation pole (2), actuating mechanism includes bull stick (15) of fixed mounting at motor (5) output, and the bottom of bull stick (15) runs through pivot (14) and inserts and establish in installation pole (2), even fixed mounting has a plurality of first bevel gear (16) on the lateral wall of bull stick (15), the one end of puddler (13) is all rotated and is connected on installation pole (2), every the equal fixed mounting of one end that puddler (13) is close to bull stick (15) has second bevel gear (17) with first bevel gear (16) intermeshing.

4. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 3, characterized in that: the mounting rod (2) is provided with a control structure for driving the storage box (6) to overturn, and the storage box (6) is automatically controlled to overturn by the control mechanism when moving from the processing area (10) to the discharging area (12).

5. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 4, characterized in that: control mechanism includes that even rotation installs a plurality of commentaries on classics board (18) on installation pole (2) lateral wall, commentaries on classics board (18) and stock box (6) one-to-one, and the equal fixed connection of stock box (6) is in the one end that corresponds commentaries on classics board (18), the one end that puddler (13) are close to installation pole (2) all runs through corresponding commentaries on classics board (18) and sets up, and puddler (13) all rotate and insert the axle center department of establishing commentaries on classics board (18), every all be equipped with in commentaries on classics board (18) and change puddler (13) fixed connection to and change the coupling assembling on board (18) with puddler (13) fixed connection when processing district (10) are followed in stock box (6) are removed to unloading district (12).

6. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 5, characterized in that: coupling assembling includes first slider (19) of slidable mounting in commentaries on classics board (18), fixed mounting has fixture block (20) on first slider (19) are close to the lateral wall of puddler (13) one side, draw-in groove (21) of mutually supporting with fixture block (20) have been seted up on the lateral wall of puddler (13), be equipped with in commentaries on classics board (18) first spout (22) of mutually supporting with first slider (19) and fixture block (20), and first slider (19) elastic connection is in first spout (22), fixed mounting has electro-magnet (23) on the inside wall of puddler (13) one side is kept away from in first spout (22), fixed mounting has permanent magnet (24) of mutually supporting with electro-magnet (23) in first slider (19), fixed mounting has annular conductive plate (32) on the lateral wall on installation pole (2) top, fixed mounting has annular conductive plate (32) of mutually supporting on the roof of installation case (1) inboard Mounting panel (33), two electric connection are installed to the symmetry on the diapire of annular mounting panel (33) and are two the common electric connection of conducting strip is on electro-magnet (23), and two conducting strips all are located region of unloading (12).

7. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 6, characterized in that: be equipped with a plurality of fixed subassemblies that will change board (18) fixed in installation pole (2), fixed subassembly and commentaries on classics board (18) one-to-one, and change board (18) and drive opening (7) and hopper (8) and rotate when topmost and bottommost fixed subassembly is all automatic to change board (18) fixed.

8. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 7, characterized in that: the fixed assembly comprises a second sliding block (25) which is slidably mounted in a rotating plate (18), a second sliding groove (26) which is matched with the second sliding block (25) is formed in the rotating plate (18), the second sliding block (25) is elastically connected in the second sliding groove (26), an electromagnet (23) is positioned on the inner side wall of one end, away from the installation rod (2), of the second sliding groove (26), a rotating groove which is matched with the rotating plate (18) is formed in the installation rod (2), a top groove (27) and a bottom groove (28) are respectively formed in the top wall and the bottom wall of the inner side of the rotating groove, two first connectors (29) and two second connectors (30) are respectively and symmetrically and fixedly mounted on the inner side wall of the top groove (27) and the inner side wall of the bottom groove (28), and a conductive block (31) which is used for connecting the two first connectors (29) or the two second connectors (30) is fixedly mounted on the second sliding block (25), two first conducting strips (34) and two second conducting strips (35) are installed to the symmetry on the diapire of annular mounting panel (33), and two first conducting strips (34) and two second conducting strips (35) all mutually support with annular conducting plate (32), the one end of commentaries on classics board (18) is connected with connects electric piece (36), and connects electric piece (36) electric connection on electro-magnet (23), two first joint (29) and two common electric connection of first conducting strip (34) are in motor (5) and connect between electric piece (36), and two common electric connection of second joint (30) and two second conducting strips (35) are in motor (5) and connect between electric piece (36).

9. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 8, characterized in that: one end of the conductive block (31) close to the mounting rod (2) is spherical.

10. The energy-saving and environment-friendly activated carbon regeneration furnace according to claim 1, characterized in that: a plurality of balls (37) are uniformly rotatably mounted on the bottom wall of the inner side of the mounting box (1), and the top ends of the balls (37) are in contact with the bottom wall of the bottom plate (3).

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