CN111301936A

CN111301936A - Active carbon lifting device

Info

Publication number: CN111301936A
Application number: CN202010148670.3A
Authority: CN
Inventors: 李兰清
Original assignee: Hangzhou Fuyang Yongxing Chemical Co ltd
Current assignee: Hangzhou Fuyang Yongxing Chemical Co ltd
Priority date: 2020-03-05
Filing date: 2020-03-05
Publication date: 2020-06-19
Anticipated expiration: 2040-03-05
Also published as: CN111301936B

Abstract

The invention relates to an activated carbon lifting device which is used for adding activated carbon into a reaction kettle for containing glyoxal solution and comprises a material containing box, wherein the material containing box is positioned on one side of the reaction kettle, the side surface of the material containing box, which faces the reaction kettle, inclines towards the reaction kettle, and the bottom surface of the material containing box is vertical to the inclined side surface of the material containing box; the material containing box is internally provided with a partition plate which is parallel to the inclined side surface of the material containing box and is connected with the material containing box in a sliding way; the position of the material containing box corresponding to the partition plate is provided with a mounting plate; the mounting plate is provided with a plurality of cylinders, and the telescopic ends of the cylinders are connected with the partition plate to drive the partition plate to slide; the material containing box is provided with a lifting component for lifting the active carbon upwards; the upper end of the conveying plate is bent towards the reaction kettle and is positioned above the opening of the reaction kettle. The invention can conveniently add the activated carbon into the reaction kettle for decoloring, has more convenient operation, saves manpower and can improve the working efficiency.

Description

Active carbon lifting device

Technical Field

The invention relates to the technical field of glyoxal production, in particular to an activated carbon lifting device.

Background

Glyoxal is mainly used in textile industry, can increase shrink-proof and crease-resistant properties of fibers such as cotton, nylon and the like as a fiber treating agent, is a durable press finishing agent, one of the main approaches for producing glyoxal at present is to obtain the glyoxal through gas phase oxidation, mix the glyoxal with circulating gas after preheating and vaporizing the ethanediol, enter a catalytic reactor, react at the temperature of 650 plus 670 ℃, chill the product with water to form aqueous solution of glyoxal, and obtain the glyoxal product through post-treatment processes such as decolorization, vacuum suction filtration and the like.

The process of decoloring glyoxal liquid generally comprises adding activated carbon into glyoxal solution for decoloring, and then filtering the glyoxal solution, wherein the decoloring of the glyoxal solution comprises the steps of collecting more glyoxal solution into a reaction kettle for decoloring, and adding the activated carbon into the reaction kettle for decoloring.

In order to promote the efficiency of carrying out the decoloration processing, when carrying out the decoloration, collect the reation kettle simultaneously with more glyoxal solution and carry out the decoloration, consequently reation kettle's size is great, when adding activated carbon to reation kettle, need add activated carbon from the opening on reation kettle upper portion, will add activated carbon in the reation kettle, need carry activated carbon higher department, this process is more troublesome, and carry through the manpower, it is more hard, efficiency is lower.

Disclosure of Invention

Aiming at the defects in the prior art, one of the purposes of the invention is to provide an activated carbon lifting device, when the glyoxal solution is decolorized, activated carbon can be conveniently added into a reaction kettle for decolorization, the operation is convenient, the labor is saved, and the working efficiency can be improved.

The above object of the present invention is achieved by the following technical solutions: an activated carbon lifting device is used for adding activated carbon into a reaction kettle for containing glyoxal solution and comprises a material containing box, a material collecting box and a lifting device, wherein the material containing box is positioned on one side of the reaction kettle, the side surface of the material containing box, which faces the reaction kettle, inclines towards the reaction kettle, and the bottom surface of the material containing box is vertical to the inclined side surface of the material containing box; the material containing box is internally provided with a partition plate which is parallel to the inclined side surface of the material containing box and is connected with the material containing box in a sliding way; the position of the material containing box corresponding to the partition plate is provided with a mounting plate; the side wall of the material containing box is provided with a first cylinder, and the telescopic end of the first cylinder is connected with the partition plate to drive the partition plate to slide; a lifting assembly is arranged in the material containing box; the automatic feeding device comprises a conveying plate arranged on the inclined side surface of a material containing box, a push plate arranged on the conveying plate and connected with the conveying plate in a sliding manner, and a driving assembly arranged on the conveying plate and used for driving the push plate to move; the upper end of the conveying plate is bent towards the reaction kettle and is positioned above the opening of the reaction kettle.

Through adopting above-mentioned technical scheme, when carrying out decoloration to glyoxal solution, at first add glyoxal solution to reation kettle, this moment, it slides to drive the division board through control cylinder, make there is the clearance between the bottom surface of division board and flourishing workbin, at this moment, the push pedal is located the position of pasting mutually with the bottom surface of flourishing workbin, activated carbon drops to the push pedal, drive the surface sliding of push pedal along the delivery board through drive assembly, it moves along delivery board surface removal to drive activated carbon, it removes behind the tip of delivery board, in the reation kettle who drops the below, decoloration is carried out to glyoxal solution, can save the manpower to a great extent, can be comparatively convenient add activated carbon to reation kettle, work efficiency has been promoted.

The present invention in a preferred example may be further configured to: the two driving assemblies are arranged on two sides of the conveying plate and comprise a driving wheel and a driven wheel which are respectively rotatably supported at two ends of the conveying plate, a steering wheel rotatably supported at the corner position of the conveying plate, a bearing wheel rotatably supported on the conveying plate and positioned on the lower side of the steering wheel, a transmission belt which is arranged on the driving wheel, the driven wheel and the steering wheel in a tensioning manner, and a driving motor which is arranged on the conveying plate and used for driving the driving wheel to rotate; the transmission rod chain penetrates through the space between the steering wheel and the supporting wheel, and two sides of the push plate are connected to corresponding positions on the transmission belt.

Through adopting above-mentioned technical scheme, can guarantee its gliding smoothness nature and stability when driving the push pedal and sliding along the surface of delivery board for the drive belt keeps in the state of pasting mutually with the directive wheel, is difficult to appear the phenomenon that the drive belt drops at drive belt pivoted in-process.

The present invention in a preferred example may be further configured to: two sides of the conveying plate are respectively provided with a baffle plate; connecting columns are arranged on the two sides of the push plate, which are attached to the baffle; the baffle is provided with a sliding hole at a position corresponding to the connecting column, the connecting column penetrates out of the corresponding sliding hole and is connected to the transmission belt, and the connecting column is connected with the baffle in a sliding manner.

Through adopting above-mentioned technical scheme, when driving the active carbon through the push pedal and removing along the delivery board, the phenomenon that the active carbon dropped from the delivery board reduces to appear, and is more stable to the transportation of active carbon.

The present invention in a preferred example may be further configured to: the bottom surface of the material containing box, which is positioned on one side of the separation plate far away from the reaction kettle, is higher than the bottom surface of one side close to the reaction kettle.

Through adopting above-mentioned technical scheme, the control division board upwards slides for when the active carbon dropped the push pedal, can guarantee the smooth and easy nature of active carbon motion, can make the active carbon can be more smooth drop the push pedal on, it is comparatively convenient to the transportation of active carbon.

The present invention in a preferred example may be further configured to: the lower side of the higher bottom surface of the material containing box is provided with a cavity, and a knocking component is arranged in the cavity; the plurality of knocking components are arranged at symmetrical positions in the cavity and comprise knocking motors and cams; the knocking motor is arranged on the bottom surface in the cavity, a boss is arranged at a corresponding position on the bottom surface of the cavity, and part of the knocking motor is arranged on the boss, so that the distance from the knocking motor to the upper side of the cavity is the same; the cam is installed on the output shaft of the knocking motor, and the knocking motor drives the cam to rotate to synchronously knock the upper side wall of the cavity.

Through adopting above-mentioned technical scheme, strike the bottom surface of flourishing workbin and make it produce the vibration, roll the push pedal that falls in the clearance between active carbon follow division board and the bottom surface on, can reduce the phenomenon of active carbon card in the clearance now, drive flourishing workbin bottom surface vibration through strikeing, can make the process that active carbon dropped on the push pedal comparatively smooth, reduce the phenomenon that the card stops appearing, reduce the influence to normal work phenomenon.

The present invention in a preferred example may be further configured to: a plurality of mounting grooves are evenly formed in the upper side face of the conveying plate at intervals, rolling rods are arranged in the mounting grooves respectively and rotatably supported on the conveying plate, the upper side of the side face of the rolling rod is located on the outer side of the mounting groove, and the length direction of the rolling rod is perpendicular to the moving direction of the activated carbon.

Through adopting above-mentioned technical scheme, when driving the active carbon and moving along the delivery board, the side of active carbon and roll pole offsets, can reduce the friction between active carbon and the delivery board for the motion of active carbon on the delivery board is more smooth, reduces the friction between active carbon and the delivery board, can reduce the wearing and tearing to the delivery board, reduces the wearing and tearing of active carbon simultaneously, reduces the atress of push pedal, reduces the wearing and tearing that promote the subassembly, prolongs its life.

The present invention in a preferred example may be further configured to: the reaction kettle is provided with a mounting rack which is positioned on the upper side of the opening of the reaction kettle; the mounting frame is provided with a lifting assembly; the lifting assembly is provided with a lifting frame; the lifting frame comprises a coaming and a bottom plate; the coaming is annular and is connected to the lifting assembly; the two bottom plates are arranged at the lower end opening of the coaming and are in sliding connection with the coaming; and a second cylinder for driving the bottom plate to slide is arranged on the side wall of the enclosing plate.

Through adopting above-mentioned technical scheme, when adding the active carbon in to reation kettle, make the active carbon move to its tip back along the delivery board surface, the frame that goes up and down is located the position department that is close to the delivery board this moment, make the active carbon drop to collect in the frame, drive the frame that goes up and down through lifting unit and move, when the frame that goes up and down moves to glyoxal solution surface upside, drive the bottom plate through the cylinder and move to both sides, make the downside opening of bounding wall open, the active carbon drops in the glyoxal solution, its and the surperficial interval of solution when can shortening the active carbon and dropping in the glyoxal solution, when solution in reation kettle is more, can reduce the phenomenon that the glyoxal solution splashes around appearing.

The present invention in a preferred example may be further configured to: the lifting assembly comprises a lifting motor, a winding roller and a steel wire rope; the two winding rollers are rotatably supported on the mounting frame and positioned on the upper side of the opening of the reaction kettle; the lifting motor is arranged on the mounting frame and used for driving the winding roller to rotate; the lower ends of the four steel wire ropes are respectively connected to the corner positions of the enclosing plates, and the upper ends of the four steel wire ropes are respectively connected to the corresponding positions on the winding roller.

Through adopting above-mentioned technical scheme, control wind-up roll rotates, carries out the rolling to wire rope, the removal of control lift frame that can be comparatively convenient, and the height position on the surface of glyoxal solution is different in reation kettle, the distance that can comparatively convenient control lift frame removed, and it is comparatively convenient to operate.

The present invention in a preferred example may be further configured to: and a rubber pad is arranged on the bottom plate.

Through adopting above-mentioned technical scheme, when the active carbon dropped to collecting the frame from the delivery board in, it directly dropped to the bottom plate on, through the rubber pad that sets up, can carry out cushioning effect to it, reduced the active carbon and collide with the bottom plate to appear, the disintegrating slag appears, and produces the phenomenon of influence to subsequent filtration process.

In summary, the invention includes at least one of the following beneficial technical effects:

1. when the device is used for adding the activated carbon into the reaction kettle containing the glyoxal solution, the operation can be performed more conveniently, the labor is saved, the adding work of the activated carbon can be completed in a shorter time, and the working efficiency is improved;

2. by arranging the lifting assembly and the lifting frame, when the activated carbon falls into the reaction kettle, the activated carbon can be put down under the condition of being close to the liquid level, the condition that the falling activated carbon splashes liquid to the outer side of the reaction kettle can be reduced, and the waste condition can be reduced;

3. through set up the roll pole on the delivery board, when upwards transporting the active carbon, can reduce the friction between active carbon and the delivery board, reduce the atress of push pedal, prolong its life to a certain extent, in addition, through set up the rubber pad on the bottom plate, can reduce to appear that the active carbon drops and be broken phenomenon, when the stream filters it in the back, filter out the active carbon from the well for the convenience.

Drawings

FIG. 1 is a schematic view of an activated carbon lifting device according to the present embodiment;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

FIG. 4 is a schematic view of the interior of the bin;

FIG. 5 is an enlarged schematic view of portion C of FIG. 4;

FIG. 6 is a schematic view of the lifting frame to show its structure;

fig. 7 is an enlarged schematic view of a portion D in fig. 6.

In the figure, 1, a material containing box; 11. a sliding groove; 13. a cavity; 14. a boss; 15. a mounting frame; 2. a partition plate; 3. a lifting assembly; 31. a conveying plate; 311. mounting grooves; 312. a roll bar; 32. pushing the plate; 321. connecting columns; 33. a drive assembly; 331. a drive motor; 332. a driving wheel; 333. a driven wheel; 334. a steering wheel; 335. a supporting wheel; 336. a transmission belt; 34. a baffle plate; 341. a slide hole; 4. a first cylinder; 5. a knocking component; 51. knocking the motor; 52. a cam; 6. a lifting assembly; 61. a lifting motor; 62. a wind-up roll; 63. a wire rope; 7. a lifting frame; 71. enclosing plates; 711. a sliding groove; 72. a base plate; 73. a second cylinder; 8. a rubber pad; 9. and (5) a reaction kettle.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 4, the activated carbon lifting device disclosed by the invention is used for adding activated carbon into a reaction kettle 9 for containing glyoxal solution; the device comprises a material containing box 1, a partition plate 2, a lifting assembly 3 and a first air cylinder 4; the material containing box 1 is placed on the ground and is positioned on one side of the reaction kettle 9, the side surface of the material containing box 1, which is close to the reaction kettle 9, is obliquely arranged towards the direction of the reaction kettle 9, and the ground of the material containing box 1 is vertical to the inclined surface of the material containing box; the partition plate 2 is arranged in the material containing box 1, is vertical to the bottom surface of the material containing box 1, is positioned at one side of the material containing box 1 close to the reaction kettle 9, and partitions the material containing box 1 into two spaces, wherein the larger side of the two spaces is far away from the reaction kettle 9 and is used for containing activated carbon; the partition plate 2 is connected with the material containing box 1 in a sliding manner, the side wall of the material containing box 1 is provided with a sliding groove 11, and the partition plate 2 is embedded in the corresponding sliding groove 11; the number of the first cylinders 4 is two, the first cylinders are respectively fixed on the side wall of the material containing box 1, and the telescopic ends of the first cylinders are fixedly connected to the partition plate 2 to drive the partition plate 2 to slide; the lifting assembly 3 is positioned in the smaller side space of the material containing box 1 and comprises a conveying plate 31, a push plate 32 and a driving assembly 33; the conveying plate 31 is arranged along the inclined side surface of the material containing box 1, the upper end of the conveying plate is bent towards the reaction kettle 9 to form a horizontal plane, and the end part of the conveying plate 31 is positioned above the opening of the reaction kettle 9; the push plate 32 is arranged on the conveying plate 31, is vertical to the conveying plate 31 and is in sliding connection with the conveying plate 31, and the side edge of the push plate 32 is attached to the side surface of the partition plate 2; the driving assembly 33 is disposed on the upper side of the conveying plate 31 to drive the pushing plate 32 to slide along the surface of the conveying plate 31.

When carrying out decoloration processing to glyoxal solution, at first add glyoxal solution to reation kettle 9 in, at this moment, drive division board 2 through control cylinder and slide, make there is the clearance between division board 2 and the bottom surface of flourishing workbin 1, at this moment, push pedal 32 is located the position of pasting mutually with the bottom surface of flourishing workbin 1, activated carbon drops on push pedal 32, drive push pedal 32 along the surface slip of delivery board 31 through drive assembly 33, it moves along delivery board 31 surface, it removes behind delivery board 31's tip, in the reation kettle 9 of below drops, decoloration is carried out to glyoxal solution, can save the manpower at great degree, can be comparatively convenient add activated carbon to reation kettle 9, work efficiency has been promoted.

Referring to fig. 1, 2 and 3, two driving assemblies 33 are provided, which are disposed on both sides of the conveying plate 31, and drive both sides of the pushing plate 32 to move, and each driving assembly includes a driving motor 331, a driving wheel 332, a driven wheel 333, a steering wheel 334, a supporting wheel 335 and a transmission belt 336; the driving wheel 332 and the driven wheel 333 rotatably support both ends of the conveying plate 31, and the guide wheel rotatably supports the bending position of the conveying plate 31; the supporting wheel 335 is rotatably supported on the conveying plate 31 and is positioned at the lower side of the steering wheel 334; the driving belt 336 is arranged on the driving wheel 332, the driven wheel 333 and the steering wheel 334 in a tensioning manner, and the supporting wheel 335 is positioned on the lower side of the driving belt 336, so that the driving belt 336 is tightly attached to the steering wheel 334; the driving motor 331 is fixed on the conveying plate 31 for driving the driving wheel 332 to rotate.

Through setting up drive assembly 33 structure, can guarantee its gliding smoothness and stability when driving push pedal 32 along the surface slip of conveying board 31 for drive belt 336 keeps in the state of pasting mutually with directive wheel 334, is difficult to appear the phenomenon that drive belt 336 drops at drive belt 336 pivoted in-process.

Referring to fig. 1, the horizontal part of the conveying plate 31 is provided with a baffle 34 at the edge of each of the two sides, and the pushing plate 32 is slidably connected with the baffle 34; a connecting column 321 is fixed on the side face of the push plate 32, which is attached to the baffle 34, sliding holes 341 are respectively formed in the positions, corresponding to the connecting column 321, of the baffle 34, east China holes are also formed in the positions, corresponding to the connecting column 321, of the material containing box, and the connecting column 321 penetrates out of the corresponding sliding holes 341 and is connected to the transmission belt 336.

Through set up baffle 34 on conveying board 31, when driving the active carbon through push pedal 32 and moving along conveying board 31, the phenomenon that the active carbon dropped from conveying board 31 reduces to appear, and is more stable to the transportation of active carbon.

Referring to fig. 4, the bottom surface of the material containing box 1 on the side of the partition plate 2 far away from the reaction kettle 9 is higher than the bottom surface on the side close to the reaction kettle 9, and the bottom surfaces on the two sides are parallel to each other; through control division board 2 upwards slip for when the active carbon dropped on push pedal 32, can guarantee the smooth and easy nature of active carbon motion, can make the active carbon can be more smooth drop push pedal 32 on, it is comparatively convenient to the transportation of active carbon.

Referring to fig. 4, a cavity 13 is formed in the lower side of the bottom surface of one side, used for containing activated carbon, of the material containing box 1, a knocking component 5 is arranged in the cavity 13, and the knocking component 5 knocks the bottom surface of the material containing box 1, so that the bottom surface of the material containing box 1 vibrates; the knocking assemblies 5, which are four in number, are symmetrically arranged in the cavity 13 and comprise a knocking motor 51 and a cam 52; the knocking motors 51 are fixed on the bottom surface in the cavity 13, and bosses 14 are arranged at corresponding positions on the bottom surface of the cavity 13, so that the distances from the four knocking motors 51 to the bottom surface of the material containing box 1 are the same; the cam 52 is fixed on an output shaft of the knocking motor 51, and the knocking motor 51 drives the cam 52 to rotate so as to knock the bottom surface of the material containing box 1; the four knocking motors 51 run synchronously, so that the cam 52 knocks the bottom surface of the material containing box 1 synchronously, and the material containing box 1 vibrates.

Through setting up knocking subassembly 5, knock to the bottom surface of flourishing workbin 1 and make it produce the vibration, roll the push pedal 32 from the clearance between division board 2 and the bottom surface at the active carbon on, can reduce the phenomenon of active carbon card in the clearance that has, drive flourishing workbin 1 bottom surface vibration through knocking, can make the process that the active carbon dropped on push pedal 32 comparatively smooth, reduce the phenomenon that the card stops appearing, reduce the influence to normal work phenomenon.

Referring to fig. 4 and 5, a plurality of rolling rods 312 are uniformly arranged on the upper side surface of the conveying plate 31 at intervals, mounting grooves 311 are respectively formed in positions of the conveying plate 31 corresponding to the rolling rods 312, the rolling rods 312 are respectively rotatably supported in the corresponding mounting grooves 311, and the upper sides of the side surfaces of the rolling rods 312 are located outside the mounting grooves 311; the length direction of the roller bar 312 is perpendicular to the direction of motion of the push plate 32.

Through setting up roll pole 312, when driving the active carbon and moving along delivery board 31, the side of active carbon and roll pole 312 offsets, can reduce the friction between active carbon and the delivery board 31, make the motion of active carbon on delivery board 31 more smooth, reduce the friction between active carbon and the delivery board 31, can reduce the wearing and tearing to delivery board 31, reduce the wearing and tearing of active carbon simultaneously, reduce the atress of push pedal 32, reduce the wearing and tearing that promote subassembly 3, prolong its life.

Referring to fig. 1, 6 and 7, a mounting frame 15 is arranged on the reaction kettle 9 and is positioned above the opening of the reaction kettle 9; the mounting frame 15 is provided with a lifting component 6 and a lifting frame 7; the lifting component 6 is arranged on the mounting frame 15 and is positioned above the opening of the reaction kettle 9; the lifting frame 7 is arranged on the lifting component 6, and the lifting frame 7 is driven to move up and down through the lifting component 6; the lifting frame 7 comprises a coaming 71 and a bottom plate 72; the coaming 71 is annular and is connected to the lifting component 6; the two bottom plates 72 are positioned at the lower opening of the enclosing plate 71 and used for closing the lower opening of the enclosing plate 71; the bottom plate 72 is in sliding connection with the enclosing plate 71, sliding grooves 711 are respectively formed in the enclosing plate 71 at positions corresponding to the bottom plate 72, and the bottom plate 72 penetrates out of the corresponding sliding grooves 711; two opposite side surfaces of the enclosing plate 71 are respectively provided with a second cylinder 73, each side surface is fixed with two second cylinders, and the telescopic end of each second cylinder 73 faces the outer side direction of the enclosing plate 71 and is the same as the sliding direction of the bottom plate 72; the telescopic ends of the second cylinders 73 opposite to each other on two sides are connected with the bottom plate 72, and the telescopic ends are driven by the second cylinders 73 to slide, so that the bottom plate 72 closes and opens the opening of the enclosing plate 71.

When adding activated carbon to reation kettle 9, make activated carbon along transport plate 31 surface motion to its tip after, lift frame 7 is located the position department that is close to transport plate 31 this moment, make activated carbon drop to collect in the frame, drive lift frame 7 downstream through lifting unit 6, when lift frame 7 removes to glyoxal solution surface upside, drive bottom plate 72 through second cylinder 73 and remove to both sides, make the downside opening of bounding wall 71 open, activated carbon drops in the glyoxal solution, its and the interval on solution surface when can shortening activated carbon and dropping in the glyoxal solution, when solution in reation kettle 9 is more, can reduce the phenomenon that the glyoxal solution splashes around appearing.

Referring to fig. 1, the lifting assembly 6 includes a lifting motor 61, a wind-up roll 62, and a wire rope 63; two winding rollers 62 are rotatably supported at positions corresponding to the coaming 71 on the mounting frame 15 respectively, and the two winding rollers 62 are arranged in parallel; two lifting motors 61 are respectively fixed on the mounting frame 15 at positions corresponding to the winding rollers 62, and the output ends of the two lifting motors are connected with the winding rollers 62 to drive the winding rollers 62 to rotate; four steel wire ropes 63 are provided, the lower ends of the four steel wire ropes are fixedly connected to four corner positions of the coaming 71 respectively, and the upper ends of the four steel wire ropes are connected to corresponding positions on the winding roller 62 respectively.

Rotate through wind-up roll 62, carry out the rolling to wire rope 63, the removal of control lift frame 7 that can be comparatively convenient, the height position on the surface of glyoxal solution is different in reation kettle 9, the distance that control lift frame 7 that can be comparatively convenient removed, it is comparatively convenient to operate.

Referring to fig. 6 and 7, a rubber pad 8 is fixed to the upper side surface of the bottom plate 72.

When the active carbon drops to collecting in the frame from carrying board 31, its direct dropping to bottom plate 72 on, through the rubber pad 8 that sets up, can carry out cushioning effect to it, the reduction active carbon appears and collides with bottom plate 72, appears the disintegrating slag, and produces the phenomenon of influence to subsequent filtering process.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides an active carbon hoisting device for add active carbon in reation kettle (9) to holding glyoxal solution, its characterized in that: comprises a material containing box (1) which is positioned on one side of a reaction kettle (9), the side surface of the material containing box facing the reaction kettle (9) inclines towards the reaction kettle (9), and the bottom surface of the material containing box (1) is vertical to the inclined side surface; the material containing box (1) is internally provided with a partition plate (2) which is parallel to the inclined side surface of the material containing box (1), and the partition plate (2) is connected with the material containing box (1) in a sliding way; a first cylinder (4) is arranged on the side wall of the material containing box (1), and the telescopic end of the first cylinder (4) is connected with the partition plate (2) to drive the partition plate (2) to slide; a lifting component (3) is arranged in the material containing box (1); the device comprises a conveying plate (31) arranged on the inclined side surface of a material containing box (1), a push plate (32) arranged on the conveying plate (31) and connected with the conveying plate (31) in a sliding manner, and a driving assembly (33) arranged on the conveying plate (31) and used for driving the push plate (32) to move; the upper end of the conveying plate (31) bends towards the reaction kettle (9) and is positioned above the opening of the reaction kettle (9).

2. An activated carbon lifting device according to claim 1, wherein: the two driving components (33) are arranged on two sides of the conveying plate (31) and comprise a driving wheel (332) and a driven wheel (333) which are respectively rotatably supported at two ends of the conveying plate (31), a steering wheel (334) rotatably supported at the corner position of the conveying plate (31), a bearing wheel (335) rotatably supported on the conveying plate (31) and positioned at the lower side of the steering wheel (334), a transmission belt (336) which is arranged on the driving wheel (332), the driven wheel (333) and the steering wheel (334) in a tensioning manner, and a driving motor (331) which is arranged on the conveying plate (31) and used for driving the driving wheel (332) to rotate; the transmission belt (336) penetrates through the space between the steering wheel (334) and the supporting wheel (335), and two sides of the push plate (32) are connected to the corresponding positions on the transmission belt (336).

3. An activated carbon lifting device according to claim 1, wherein: two sides of the horizontal part of the conveying plate (31) are respectively provided with a baffle (34); connecting columns (321) are arranged on two sides of the push plate (32) which are attached to the baffle (34); sliding holes (341) are respectively formed in the positions, corresponding to the connecting columns (321), on the side walls of the baffle (34) and the material containing box (1), the connecting columns (321) penetrate out of the corresponding sliding holes (341) and are connected to a transmission belt (336), and the connecting columns (321) are in sliding connection with the baffle (34).

4. An activated carbon lifting device according to claim 1, wherein: the bottom surface of the material containing box (1) on the side, far away from the reaction kettle (9), of the partition plate (2) is higher than the bottom surface on the side close to the reaction kettle (9).

5. An activated carbon lifting device according to claim 4, wherein: a cavity (13) is arranged on the lower side of the higher bottom surface of the material containing box (1), and a knocking component (5) is arranged in the cavity; a plurality of knocking assemblies (5) are arranged in the cavity (13) at symmetrical positions and comprise knocking motors (51) and cams (52); the knocking motor (51) is arranged on the bottom surface in the cavity (13), a boss (14) is arranged at a corresponding position on the bottom surface of the cavity (13), and part of the knocking motor (51) is arranged on the boss (14), so that the distances from the knocking motor (51) to the upper side of the cavity (13) are the same; the cam (52) is arranged on an output shaft of the knocking motor (51), and the knocking motor (51) drives the cam (52) to rotate so as to synchronously knock the upper side wall of the cavity (13).

6. An activated carbon lifting device according to claim 1, wherein: a plurality of mounting grooves (311) are uniformly formed in the upper side face of the conveying plate (31) at intervals, rolling rods (312) are respectively arranged in the mounting grooves (311), the rolling rods (312) are rotatably supported on the conveying plate (31), the upper side face of the conveying plate is located on the outer side of the mounting grooves (311), and the length direction of the side face of the conveying plate is perpendicular to the moving direction of the activated carbon.

7. An activated carbon lifting device according to claim 1, wherein: the reaction kettle (9) is provided with a mounting rack (15) which is positioned on the upper side of the opening of the reaction kettle (9); the mounting frame (15) is provided with a lifting component (6); the lifting component (6) is provided with a lifting frame (7); the lifting frame (7) comprises a coaming (71) and a bottom plate (72); the coaming (71) is annular and is connected to the lifting component (6); the two bottom plates (72) are arranged at the lower end opening of the coaming (71) and are connected with the coaming (71) in a sliding way; and a second cylinder (73) for driving the bottom plate (72) to slide is arranged on the side wall of the enclosing plate (71).

8. An activated carbon lifting device according to claim 7, wherein: the lifting assembly (6) comprises a lifting motor (61), a winding roller (62) and a steel wire rope (63); two winding rollers (62) are rotatably supported on the mounting rack (15) and positioned on the upper side of the opening of the reaction kettle (9); the lifting motor (61) is arranged on the mounting rack (15) and used for driving the winding roller (62) to rotate; four steel wire ropes (63) are arranged, the lower ends of the four steel wire ropes are respectively connected to the corner positions of the coaming (71), and the upper ends of the four steel wire ropes are respectively connected to the corresponding positions on the winding roller (62).

9. An activated carbon lifting device according to claim 7, wherein: and a rubber pad (8) is arranged on the bottom plate (72).