CN110013838B - A kind of regeneration technology of dry waste active carbon - Google Patents

Abstract

The invention discloses a kind of regeneration technologies of dry waste active carbon, the present invention relates to active carbon fields, including placing box, it is used to store the placed cavity of waste active carbon in the placing box equipped with opening upwards, the placed cavity bottom wall connection sets the communicating pipe there are three opening to the right, the communicating pipe connection is equipped with sliding groove, cabinet is equipped on the right side of the placing box, burning is carried out in the heating chamber, and heat is provided, the first rotating bar rotation drives the 4th gear rotation, 4th gear drives the 5th gear to rotate by second chain drive, it can control into the amount for regenerating intracavitary waste active carbon, multiple regeneration chambers are set, and waste active carbon when by agitating plate to heating is stirred, it ensure that the homogeneous heating of waste active carbon, accelerate heating efficiency, increase the regeneration rate of waste active carbon.

Description

A kind of regeneration technology of dry waste active carbon

Technical field

The present invention relates to active carbon field, specially a kind of regeneration technology of dry waste active carbon.

Background technique

One brain of regeneration technology of general dry waste active carbon pours into waste active carbon in heating device, leads to useless work Property charcoal heating it is uneven, heating time for needing lengthens, while also reducing the regeneration rate of waste active carbon, in the process of heating In, waste active carbon is not stirred, reduces heating efficiency.

Summary of the invention

It is in the prior art for overcoming the purpose of the present invention is to provide a kind of regeneration technology of dry waste active carbon State defect.

A kind of regeneration technology of dry waste active carbon of embodiment according to the present invention, including placing box, the placing box The interior placed cavity equipped with opening upwards, the placed cavity bottom wall connection set the communicating pipe there are three opening to the right, the communicating pipe Connection is equipped with sliding groove, and cabinet is equipped on the right side of the placing box, is equipped with the first drive cavity, first drive cavity in the cabinet It is fixedly mounted in the inner wall of right side and the first motor of power is provided, be equipped with the second drive cavity on the left of first drive cavity, described the Third drive cavity is equipped on the left of two drive cavities, the left end face of the output shaft of the first motor to the left is fixedly mounted through described Rotational installation runs through the cabinet in first rotating bar of cabinet left end face, second drive cavity and the third drive cavity Cover board is fixedly mounted in second rotating bar of left end face, second rotating bar and the first rotating bar left end face, described Cover board is slidably installed with the sliding groove, and the regenerated regeneration of progress can be heated at high temperature to waste active carbon by being additionally provided in the cabinet Mechanism, when the waste active carbon in the placed cavity is sent into the regeneration sector, first motor starting drives described the The rotation of one rotating bar, first rotating bar will be driven by transmission so that cover board rotation, will open, waste active carbon communicating pipe The unloading device that can be taken out the waste active carbon after regeneration is equipped with into the regeneration sector, on rear side of the regeneration sector.

Further technical solution is located in second drive cavity in first rotating bar and the first tooth is fixedly mounted Wheel, the second rotating bar right end face are fixedly mounted second gear, are located at the third drive cavity in first rotating bar Interior fixed installation third gear, the second gear transmission installation the between the first gear and the third gear respectively One chain.

Further technical solution, the regeneration sector further includes setting in intracorporal three lock chambers of the case, described Place heater box in lock chamber, set below the lock chamber there are four heating chamber, be equipped with regeneration chamber in the heater box, it is described again Raw chamber roof is equipped with entrance, and connecting tube is fixedly mounted between inner wall on the right side of the entrance and the sliding groove.

Further technical solution, the rear side of the regeneration chamber of rear side are equipped with engagement chamber, the engagement chamber and front side It is rotatablely installed stirring rod in the lock chamber front inner wall, the intracavitary fixed installation stirring of the regeneration is located on the stirring rod Plate.

Further technical solution, the stirring rod back end surface are fixedly mounted the first cone pulley, the engagement chamber with it is described Power rail is rotatablely installed between first drive cavity, the 5th gear, first rotation is fixedly mounted in the power rail right end face The 4th gear is fixedly mounted on bar, the second chain of transmission installation, the power between the 5th gear and the 4th gear The second cone pulley is fixedly mounted in bar left end face, and second cone pulley is engaged with first cone pulley.

Further technical solution, the unloading device further include the sliding groove being arranged in the regeneration bottom of chamber wall, institute State the sliding panel that is slidably installed in sliding groove.

Further technical solution, the sliding panel right end face are fixedly mounted connecting plate, are equipped on the right side of the connecting plate Fixed case, the fixed case is interior to be equipped with the thread cavity of opening to the left, the second motor of fixed installation in inner wall on the right side of the thread cavity, Threaded rod is fixedly mounted in the left end face of the output shaft of second motor to the left, and be slidably installed threaded block institute in the thread cavity It states and is equipped with the threaded hole of opening to the right in threaded block, the threaded hole and the threaded rod screw thread are installed, on the left of the threaded block End face is fixedly connected with the connecting plate right end face, and connection is equipped with connecting cavity below the sliding panel.

The beneficial effects of the present invention are: the present invention can control into the amount for regenerating intracavitary waste active carbon, it is arranged multiple Chamber is regenerated, and waste active carbon when heating is stirred by agitating plate, the homogeneous heating of waste active carbon is ensure that, accelerates Heating efficiency, increases the regeneration rate of waste active carbon, is worthy to be popularized.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the schematic cross-sectional view in the direction A-A in Fig. 1；

Fig. 3 is the schematic cross-sectional view in the direction B-B in Fig. 1；

Fig. 4 is the schematic cross-sectional view in the direction C-C in Fig. 2.

Specific embodiment

Below with reference to Fig. 1-4, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-4, the regeneration technology of a kind of dry waste active carbon of embodiment according to the present invention, including placing box 19, it is equipped with the placed cavity 11 of opening upwards in the placing box 19,11 bottom wall of the placed cavity connection sets that there are three openings to the right Communicating pipe 12, communicating pipe 12 connection is equipped with sliding groove 18, described to put for storing waste active carbon in the placed cavity 11 It sets and is equipped with cabinet 16 on the right side of case 19, be equipped with the first drive cavity 38 in the cabinet 16, in the 38 right side inner wall of the first drive cavity It is fixedly mounted and the first motor 15 of power is provided, the second drive cavity 34 is equipped on the left of first drive cavity 38, described second passes Third drive cavity 41 is equipped on the left of dynamic chamber 34, the left end face of the output shaft of the first motor 15 to the left, which is fixedly mounted, runs through institute The first rotating bar 36 of 16 left end face of cabinet is stated, rotational installation is passed through in second drive cavity 34 and the third drive cavity 41 Wear the second rotating bar 40 of 16 left end face of cabinet, second rotating bar 40 and 36 left end face of the first rotating bar Cover board 13 is fixedly mounted, the cover board 13 is slidably installed with the sliding groove 18, and being additionally provided in the cabinet 16 can be to useless work Property charcoal high-temperature heating carry out regenerated regeneration sector 80, when the waste active carbon in the placed cavity 11 is sent into the regeneration sector When 80, the starting of first motor 15 drives first rotating bar 36 to rotate, and first rotating bar 36 is driven by transmission So that the cover board 13 rotates, communicating pipe 12 is opened, waste active carbon enters the regeneration sector 80, and the regeneration sector is after 80s Side is equipped with the unloading device 90 that can be taken out the waste active carbon after regeneration.

It is located in second drive cavity 34 in first rotating bar 36 and first gear 43 is fixedly mounted, described second turn Second gear 33 is fixedly mounted in 40 right end face of lever, is located in first rotating bar 36 fixed in the third drive cavity 41 Third gear 42 is installed, the second gear 33 is driven installation between the first gear 43 and the third gear 42 respectively First chain 44, so that 42 turns of the first gear 43 and the third gear will be driven when first rotating bar 36 rotates Dynamic, the first gear 43 and the first gear 43 drive the second gear 33 and described the by first chain 44 Two rotating bars 40 rotation, so that the cover board 13 of front and back side rotates.

The regeneration sector 80 further includes three lock chambers 53 being arranged in the cabinet 16, is put in the lock chamber 53 Set heater box 20, set below the lock chamber 53 there are four heating chamber 26, be equipped with regeneration chamber 24 in the heater box 20, it is described again Raw 24 roof of chamber is equipped with entrance 32, and connecting tube 14 is fixedly mounted between 18 right side inner wall of the entrance 32 and the sliding groove, from And waste active carbon enters in regeneration chamber 24 by connecting tube 14, heating chamber 26 heats heater box 20.

The rear side of the regeneration chamber 24 of rear side is equipped with engagement chamber 28, the lock chamber 53 of the engagement chamber 28 and front side It is rotatablely installed stirring rod 27 in front inner wall, is located in the regeneration chamber 24 on the stirring rod 27 and agitating plate 22 is fixedly mounted, The agitating plate 22 is stirred waste active carbon, makes waste active carbon homogeneous heating.

The first cone pulley 31, the engagement chamber 28 and first drive cavity 38 is fixedly mounted in 27 back end surface of stirring rod Between be rotatablely installed power rail 30, the 5th gear 39, first rotating bar 36 is fixedly mounted in 30 right end face of power rail The 4th gear 35 of upper fixed installation, the second chain 37 of transmission installation, institute between the 5th gear 39 and the 4th gear 35 It states 30 left end face of power rail and the second cone pulley 29 is fixedly mounted, second cone pulley 29 is engaged with first cone pulley 31, thus When being heated at high temperature to the waste active carbon in regeneration chamber 24, the rotation of the first rotating bar 36 drives the 4th gear 35 to rotate, and the 4th Gear 35 drives the rotation of the 5th gear 39 by the transmission of the second chain 37, and the rotation of the 5th gear 39 drives power rail 30 to rotate, moves The rotation of power bar 30 drives the rotation of the second cone pulley 29, and the second cone pulley 29 drives stirring rod 27 to rotate by engaging with the first cone pulley 31, The rotation of stirring rod 27 drives agitating plate 22 to rotate.

The unloading device 90 further includes that the sliding groove 52 regenerated in 24 bottom wall of chamber is arranged in, in the sliding groove 52 Be slidably installed sliding panel 23, passes through the movement of sliding panel 23, open or close sliding groove 52.

Connecting plate 45 is fixedly mounted in 23 right end face of sliding panel, is equipped with fixed case 47, institute on the right side of the connecting plate 45 It states and is equipped with the thread cavity 49 of opening to the left in fixed case 47, the second motor 48 is fixedly mounted in the 49 right side inner wall of thread cavity, Threaded rod 46 is fixedly mounted in the left end face of the output shaft of second motor 48 to the left, and be slidably installed spiral shell in the thread cavity 49 The threaded hole 50 of opening to the right is equipped in threaded block 51 described in line block 51, the threaded hole 50 is pacified with 46 screw thread of threaded rod Dress, 51 left end face of threaded block are fixedly connected with 45 right end face of connecting plate, are connected to and set below the sliding panel 23 There is connecting cavity 25, so that the starting of second motor 48 drives threaded rod 46 to rotate after the completion of regenerating the Regenevating Waste Activated Carbon in chamber 24, The rotation of threaded rod 46 drives threaded block 51 to move right, and threaded block 51, which moves right, drives connecting plate 45 to move right, and will slide Slot 52 is opened, and the waste active carbon after regeneration, which enters in connecting cavity 25, to be taken out.

When use, when the waste active carbon in placed cavity 11 is sent into regeneration sector 80, first motor 15 starts band Dynamic first rotating bar 36 rotation, the rotation of the first rotating bar 36 drive first gear 43 and third gear 42 to rotate, first gear 43 Second gear 33 and the rotation of the second rotating bar 40 are driven by the first chain 44 with first gear 43, so that cover board 13 rotates, it will Communicating pipe 12 opens, and waste active carbon enters regeneration sector 80, when being heated at high temperature to the waste active carbon in regeneration chamber 24, heating Burning being carried out in chamber 26, heat being provided, the rotation of the first rotating bar 36 drives the rotation of the 4th gear 35, and the 4th gear 35 passes through second The transmission of chain 37 drives the rotation of the 5th gear 39, and the rotation of the 5th gear 39 drives power rail 30 to rotate, and the rotation of power rail 30 drives The rotation of second cone pulley 29, the second cone pulley 29 drive stirring rod 27 to rotate by engaging with the first cone pulley 31, and stirring rod 27 rotates band Dynamic agitating plate 22 rotates, and agitating plate 22 is stirred waste active carbon, makes waste active carbon homogeneous heating, regenerates the useless work in chamber 24 Property charcoal regeneration after the completion of, the second motor 48 starting drive threaded rod 46 rotate, threaded rod 46 rotation drive threaded block 51 move right Dynamic, threaded block 51, which moves right, drives connecting plate 45 to move right, and sliding groove 52 is opened, the waste active carbon after regeneration enters company Connecing in chamber 25 can take out.

The beneficial effects of the present invention are: the present invention can control into the amount for regenerating intracavitary waste active carbon, it is arranged multiple Chamber is regenerated, and waste active carbon when heating is stirred by agitating plate, the homogeneous heating of waste active carbon is ensure that, accelerates Heating efficiency, increases the regeneration rate of waste active carbon, is worthy to be popularized.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (7)

1. a kind of regeneration technology of dry waste active carbon, including placing box, it is characterised in that:

The placed cavity of opening upwards is equipped in the placing box, the placed cavity bottom wall connection sets the connection there are three opening to the right Pipe, the communicating pipe connection are equipped with sliding groove, and cabinet is equipped on the right side of the placing box, is equipped with the first drive cavity in the cabinet, It is fixedly mounted in inner wall on the right side of first drive cavity and the first motor of power is provided, be equipped with second on the left of first drive cavity Drive cavity, the second drive cavity left side are equipped with third drive cavity, and the left end face of the output shaft of the first motor to the left is solid Dingan County's dress runs through the first rotating bar of the cabinet left end face, rotation peace in second drive cavity and the third drive cavity Dress runs through the second rotating bar of the cabinet left end face, and second rotating bar and the first rotating bar left end face are fixed Cover board is installed, the cover board is slidably installed with the sliding groove, and waste active carbon can be heated at high temperature by being additionally provided in the cabinet Carry out regenerated regeneration sector；

When the waste active carbon in the placed cavity is sent into the regeneration sector, the first motor starting drives described first Rotating bar rotation, first rotating bar by transmission drive so that the cover board rotate, will open communicating pipe, waste active carbon into Enter the regeneration sector, the unloading device that can be taken out the waste active carbon after regeneration is equipped on rear side of the regeneration sector.

2. a kind of regeneration technology of dry waste active carbon according to claim 1, it is characterised in that: first rotating bar Upper to be located at fixed installation first gear in second drive cavity, the second tooth is fixedly mounted in the second rotating bar right end face Wheel is located in the third drive cavity in first rotating bar and third gear is fixedly mounted, the second gear respectively with institute State the first chain of transmission installation between first gear and the third gear.

3. a kind of regeneration technology of dry waste active carbon according to claim 1, it is characterised in that: the regeneration sector is also Heater box is placed in intracorporal three lock chambers of the case, the lock chamber including setting, is equipped with four below the lock chamber A heating chamber, the heater box is interior to be equipped with regeneration chamber, and the regeneration chamber roof is equipped with entrance, the entrance and the sliding groove right side Connecting tube is fixedly mounted between the inner wall of side.

4. a kind of regeneration technology of dry waste active carbon according to claim 3, it is characterised in that: the regeneration of rear side The rear side of chamber is equipped with engagement chamber, and the interior rotational installation stirring rod of the lock chamber front inner wall of the engagement chamber and front side is described It is located at the intracavitary fixed installation agitating plate of regeneration on stirring rod.

5. a kind of regeneration technology of dry waste active carbon according to claim 4, it is characterised in that: on rear side of the stirring rod The first cone pulley is fixedly mounted in end face, and power rail, the power rail are rotatablely installed between the engagement chamber and first drive cavity The 5th gear is fixedly mounted in right end face, is fixedly mounted the 4th gear in first rotating bar, the 5th gear with it is described The second cone pulley, second cone pulley is fixedly mounted in the second chain of transmission installation, the power rail left end face between 4th gear It is engaged with first cone pulley.

6. a kind of regeneration technology of dry waste active carbon according to claim 3, it is characterised in that: the unloading device is also Including the sliding groove being arranged in the regeneration bottom of chamber wall, be slidably installed sliding panel in the sliding groove.

7. a kind of regeneration technology of dry waste active carbon according to claim 6, it is characterised in that: on the right side of the sliding panel Connecting plate is fixedly mounted in end face, and fixed case is equipped on the right side of the connecting plate, the thread cavity of opening to the left is equipped in the fixed case, The second motor, the fixed peace of the left end face of the output shaft of second motor to the left is fixedly mounted on the right side of the thread cavity in inner wall Threaded rod is filled, the threaded hole of opening to the right, the screw thread are equipped in the threaded block described in threaded block that is slidably installed in the thread cavity Hole and the threaded rod screw thread are installed, and the threaded block left end face is fixedly connected with the connecting plate right end face, the cunning Connection is equipped with connecting cavity below movable plate.