CN113578134B - Active carbon material mixing and stirring device for active carbon granulation - Google Patents

Abstract

The invention relates to a stirring device, in particular to an activated carbon material mixing and stirring device for activated carbon granulation. The invention aims to provide an active carbon material mixing and stirring device for active carbon granulation, which can automatically and intermittently discharge and can quantitatively perform the discharging function. An activated carbon material mixing stirring device for activated carbon granulation, comprising: the two sides of the top of the bottom plate are provided with supporting frames; the mounting mechanism is arranged between the inner sides of the upper parts of the support frames; the stirring barrels are uniformly arranged at intervals outside the installation mechanism. According to the invention, through the rotation of the first gear, the transmission shaft, the second gear and the rotation shaft, the special-shaped rod is driven to rotate under the rotation action of the transmission shaft, so that the special-shaped rod stirs the activated carbon material in the stirring barrel, and the automatic stirring action of the activated carbon material is achieved.

Description

Active carbon material mixing and stirring device for active carbon granulation

Technical Field

The invention relates to a stirring device, in particular to an activated carbon material mixing and stirring device for activated carbon granulation.

Background

The activated carbon is in the form of specially treated carbon, has a porous mechanism, low bulk density and large specific surface area, and can be used for filtering and adsorbing or preparing a carrier of a catalyst.

The main raw materials of the activated carbon can be almost all organic materials rich in carbon, after the powdered activated carbon is regenerated, the powdered activated carbon needs to be processed into particles, at present, the existing activated carbon material mixing and stirring equipment needs people to manually pour materials of different activated carbons into the stirring equipment continuously, the yield can not meet the current market demand easily due to artificial factors, and the artificial pouring can cause a large amount of dust to be diffused in the air, so that the problems of influence on the respiratory tract of people and the like are solved.

In view of the above, it is desirable to design an activated carbon material mixing and stirring device for activated carbon granulation, which can automatically and intermittently discharge and quantitatively discharge.

Disclosure of Invention

In order to overcome the defects of the existing activated carbon material mixing and stirring equipment, people are required to manually pour different activated carbon materials into the stirring equipment, and the invention aims to provide the activated carbon material mixing and stirring device for granulating the activated carbon, which can automatically intermittently discharge and quantitatively discharge.

An activated carbon material mixing stirring device for activated carbon granulation, comprising: the two sides of the top of the bottom plate are provided with supporting frames; the mounting mechanism is arranged between the inner sides of the upper parts of the support frames; three stirring barrels are uniformly arranged at intervals on the outer side of the mounting mechanism; the stirring barrels are provided with closing mechanisms; the material blocking mechanism is arranged on one side of the stirring barrel; and a driving mechanism is arranged between the supporting frame and the mounting mechanism.

Further, the installation mechanism comprises: the inner side of the upper part of the support frame on one side is provided with a first mounting frame; the inner side of the upper part of the support frame on the other side is provided with a second mounting frame; the rotating shaft is rotatably arranged between the second mounting frame and the middle part of the inner side of the first mounting frame; the fixed blocks are uniformly arranged at intervals outside the rotating shaft and are connected with the stirring barrel; the transmission shafts are rotatably arranged on the inner sides of the stirring barrels; the transmission shaft outside interval is even all to be equipped with four dysmorphism poles.

Further, the closing mechanism comprises: the cover plate is rotationally arranged on the outer side of the stirring barrel; the inner side of the upper part of the support frame is provided with a chute, and the lower side of the chute is provided with a groove; the outer sides of the cover plates are respectively provided with a supporting block; the contact rod is arranged on the outer side of the supporting block, the contact rod is connected with the sliding chute in a sliding mode, and the contact rod is matched with the groove on the sliding chute.

Further, the stock stop includes: a sleeve is arranged on one side of the stirring barrel; the inner sides of the sleeves are respectively provided with a guide rod; the guide rods are respectively provided with a baffle plate in a sliding manner; the first springs are arranged between the baffle plates and the sleeves, and are sleeved on the guide rods.

Further, the driving mechanism comprises: a fixed rod is arranged on one side of the rotating shaft; the servo motors are uniformly arranged at intervals on the outer sides of the fixed rods, and the transmission shafts are connected with output shafts of the servo motors; the output shafts of the servo motors are respectively provided with a first gear; the rotating shaft is rotatably arranged on one side of the stirring barrel; the second gears are arranged on one side of the rotating shaft and are meshed with the first gears; the gear ring is arranged on the inner side of the upper part of the support frame on one side, and the gear ring is meshed with the second gear.

Further, still including the unloading subassembly, the unloading subassembly is including: the other side of the top of the bottom plate is provided with a supporting seat; the material barrels are symmetrically arranged on one side of the upper part of the supporting seat; the bottom of the material barrel is provided with a discharging pipe; the ejector rods are arranged on one side of the stirring barrel; the baffle plate is arranged on one side of the inside of the discharging pipe in a sliding manner; the upper sides of the guide rods and the discharge pipes are respectively provided with a guide rod; the wedge-shaped rods are arranged on the guide rods in a sliding mode, are connected with the baffle plates and are matched with the ejector rods; the second springs are arranged between the wedge-shaped rods and the guide rods and are sleeved on the guide rods; the slide way is arranged on one side of the discharging pipe in a rotary mode, and the slide way is matched with the striker plate; torsional springs are symmetrically arranged between the slide rail and the discharging pipe.

Further, still include collection subassembly, collection subassembly is including: the limiting plates are symmetrically arranged on one side, close to the supporting frame, of the top of the bottom plate; the collecting frame is arranged on one side of the top of the bottom plate and is positioned between the limiting plates; a handle is arranged at one side of the collecting frame.

Further, the material barrel is connected to the supporting seat through bolts.

The beneficial effects are that: 1. according to the invention, through the rotation of the first gear, the transmission shaft, the second gear and the rotation shaft, the special-shaped rod is driven to rotate under the rotation action of the transmission shaft, so that the special-shaped rod stirs the activated carbon material in the stirring barrel, and the automatic stirring action of the activated carbon material is achieved.

2. According to the invention, when the ejector rod rotates to be in contact with the wedge-shaped rod, the wedge-shaped rod and the baffle plate are driven to move upwards, so that the baffle plate can not block the discharging pipe, after the ejector rod rotates to be separated from the wedge-shaped rod, the wedge-shaped rod and the baffle plate are driven to move downwards to reset under the action of the second spring, and thus, the quantitative discharging effect is achieved repeatedly.

3. When the cover plate rotates to be opened, the stirred activated carbon material falls into the collecting frame downwards, when the cover plate rotates to be closed, the activated carbon material is not discharged into the collecting frame, after the material in the collecting frame is filled, people hold the handle to move the collecting frame forwards, so that the activated carbon material can be conveniently collected by people, and the effect of collecting the material is achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first embodiment of the mounting mechanism of the present invention.

Fig. 4 is a schematic view showing a second perspective structure of the mounting mechanism of the present invention.

Fig. 5 is a schematic view of a third perspective structure of the mounting mechanism of the present invention.

Fig. 6 is a schematic view of a first perspective of the closure mechanism of the present invention.

Fig. 7 is a schematic view of a second perspective of the closure mechanism of the present invention.

Fig. 8 is a schematic view of a third perspective of the closure mechanism of the present invention.

Fig. 9 is a schematic view of a first perspective structure of the dam mechanism of the present invention.

FIG. 10 is an enlarged partial view of the portion A of the dam mechanism of the present invention.

Fig. 11 is a schematic perspective view of a driving mechanism according to the present invention.

Fig. 12 is a schematic view of a first perspective structure of the blanking assembly of the present invention.

Fig. 13 is a schematic view of a second perspective structure of the blanking assembly of the present invention.

Fig. 14 is a schematic view of a third perspective structure of the blanking assembly of the present invention.

Fig. 15 is a schematic perspective view of a collection assembly according to the present invention.

Reference numerals: 1. bottom plate, 2, support frame, 3, agitator, 4, installation mechanism, 40, first mounting bracket, 41, axis of rotation, 42, fixed block, 43, second mounting bracket, 44, transmission shaft, 45, special-shaped bar, 5, closing mechanism, 50, apron, 51, supporting shoe, 52, contact bar, 53, spout, 6, striker mechanism, 60, sleeve, 61, guide arm, 62, first spring, 63, striker plate, 7, driving mechanism, 70, fixed bar, 71, servo motor, 72, first gear, 73, axis of rotation, 74, second gear, 75, gear ring, 8, blanking assembly, 80, supporting seat, 81, material bucket, 82, discharging pipe, 83, ejector pin, 84, baffle, 85, wedge bar, 86, guide bar, 87, second spring, 88, slideway, 89, torsion spring, 9, collection assembly, 90, limiting plate, 91, collection frame, 92, grip.

Detailed Description

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

Example 1

The utility model provides an active carbon material mixing stirring device for active carbon granulation, as shown in fig. 1-11, including bottom plate 1, support frame 2, agitator 3, installation mechanism 4, closing mechanism 5, striker mechanism 6 and actuating mechanism 7, bottom plate 1 top left and right sides is equipped with support frame 2, is equipped with installation mechanism 4 between the inboard of support frame 2 upper portion, and the interval evenly is equipped with three agitator 3 in the installation mechanism 4 outside, all is equipped with closing mechanism 5 on the agitator 3, and agitator 3 right side all is equipped with striker mechanism 6, is equipped with actuating mechanism 7 between support frame 2 and the installation mechanism 4.

The installation mechanism 4 comprises a first installation frame 40, a rotation shaft 41, fixing blocks 42, a second installation frame 43, a transmission shaft 44 and special-shaped rods 45, wherein the first installation frame 40 is arranged on the inner side of the upper portion of the left support frame 2, the second installation frame 43 is arranged on the inner side of the upper portion of the right support frame 2, the rotation shaft 41 is arranged between the second installation frame 43 and the middle portion of the inner side of the first installation frame 40, three fixing blocks 42 are uniformly arranged at intervals on the outer side of the rotation shaft 41, the fixing blocks 42 are all connected with the stirring barrel 3, the transmission shaft 44 is uniformly arranged on the inner side of the stirring barrel 3 in a rotation mode, and four special-shaped rods 45 are uniformly arranged at intervals on the outer side of the transmission shaft 44.

The closing mechanism 5 comprises a cover plate 50, a supporting block 51, a contact rod 52 and a chute 53, wherein the cover plate 50 is arranged on the outer side of the stirring barrel 3 in a rotary mode, the chute 53 is arranged on the inner side of the upper portion of the supporting frame 2, grooves are formed in the lower side of the chute 53, the supporting block 51 is arranged on the outer side of the cover plate 50, the contact rod 52 is arranged on the outer side of the supporting block 51, the contact rod 52 is connected with the chute 53 in a sliding mode, and the contact rod 52 is matched with the grooves in the chute 53.

The material blocking mechanism 6 comprises a sleeve 60, a guide rod 61, a first spring 62 and a material blocking plate 63, wherein the sleeve 60 is arranged on the right side of the stirring barrel 3, the guide rod 61 is arranged on the inner side of the sleeve 60, the material blocking plate 63 is arranged on the guide rod 61 in a sliding mode, the first spring 62 is arranged between the material blocking plate 63 and the sleeve 60, and the first spring 62 is sleeved on the guide rod 61.

The driving mechanism 7 comprises a fixed rod 70, a servo motor 71, a first gear 72, a rotating shaft 73, a second gear 74 and a gear ring 75, wherein the fixed rod 70 is arranged on the left side of the rotating shaft 41, three servo motors 71 are uniformly arranged on the outer side of the fixed rod 70 at intervals, the transmission shafts 44 are connected with the output shafts of the servo motors 71, the first gears 72 are arranged on the output shafts of the servo motors 71, the rotating shaft 73 is rotatably arranged on the left side of the stirring barrel 3, the second gears 74 are arranged on the left side of the rotating shaft 73, the second gears 74 are mutually meshed with the first gears 72, the gear ring 75 is arranged on the inner side of the upper portion of the left supporting frame 2, and the gear ring 75 is mutually meshed with the second gears 74.

When the activated carbon materials need to be mixed and stirred, people manually move the baffle 63 outwards to open, so that the baffle 63 can not block the stirring barrel 3, the first spring 62 is compressed, then, people pour different activated carbon materials into the stirring barrel 3, after the activated carbon materials are filled in the stirring barrel 3, people loosen the baffle 63, the effect of the first spring 62 drives the baffle 63 to reset and block the stirring barrel 3, then, people start the servo motor 71, the effect of the output shaft of the servo motor 71, thereby driving the first gear 72, the transmission shaft 44, the second gear 74 and the rotation shaft 73, the second gear 74 rotates along the gear ring 75, further driving the fixed rod 70, the servo motor 71, the rotation shaft 41 and the stirring barrel 3 to rotate, the effect of rotating the transmission shaft 44 drives the special-shaped rod 45 to stir the activated carbon materials in the stirring barrel 3, the stirring barrel 3 rotates to drive the cover plate 50, the supporting block 51 and the rod 52, the contact rod 52 rotates along the chute 53, the contact block is driven to rotate along the chute 53, the cover plate 52 rotates along the chute 53, the cover plate is driven to rotate along the reverse direction, the rotary plate 50 is driven to rotate, and the cover plate 50 is driven to rotate along the chute 50, and the rotary plate is opened when the cover plate is rotated, the material is closed, and the device is rotated to be opened, and the intermittent, and the device is rotated to be opened, and the device is required to be rotated to be opened, and the device is rotated to be opened.

Example 2

Based on embodiment 1, as shown in fig. 12-15, further include a discharging component 8, the discharging component 8 includes a supporting seat 80, a material barrel 81, a discharging pipe 82, a top rod 83, a baffle 84, a wedge rod 85, a guide rod 86, a second spring 87, a slide 88 and a torsion spring 89, the supporting seat 80 is arranged on the right side of the top of the bottom plate 1, the material barrel 81 is symmetrically arranged on the left side of the upper portion of the supporting seat 80, the bottom of the material barrel 81 is provided with the discharging pipe 82, the discharging pipe 82 on the rear side is located above the discharging pipe 82 on the front side, the right side of the stirring barrel 3 is provided with the top rod 83, the left side inside the discharging pipe 82 is slidably provided with the baffle 84, the upper side of the discharging pipe 82 is provided with the guide rod 86, the wedge rod 85 is slidably provided with the baffle 84, the wedge rod 85 is matched with the top rod 83, the second spring 87 is arranged between the wedge rod 85 and the guide rod 86, the second spring 87 is sleeved on the guide rod 86, the left side of the discharging pipe 82 is rotatably provided with the slide 88, and the slide 88 is symmetrically arranged between the slide 88 and the baffle plate 63 and the torsion spring 89.

When the active carbon material that needs to stir is not enough, make people upwards move to material bucket 81 department through supporting seat 80, then in loading into material bucket 81 respectively with two kinds of active carbon materials, after the active carbon material in material bucket 81 fills up, make people move downwards through supporting seat 80, at this moment, rotatory effect at agitator 3, thereby drive ejector pin 83 and striker 63 rotation, when striker 63 rotates to contact with slide 88, and then drive striker 63 outwards remove, make striker 63 can not block agitator 3, at this moment, ejector pin 83 rotates to the time when contacting wedge rod 85, drive wedge rod 85 and baffle 84 upwards move, second spring 87 is compressed, make baffle 84 can not block discharging pipe 82, afterwards, active carbon material flows into agitator 3 through discharging pipe 82 and slide 88, when agitator 3 drives striker 63 and continues rotatory, then drive slide 88 clockwise rotation, torsion spring 89 takes place the deformation, slide 88 rotates to with discharging pipe 82, so, the ejector pin 82 just does not rotate to the contact with wedge rod 85, at this moment, drive wedge rod 83 and the rotatory wedge rod 85 makes the wedge rod 85 rotate, simultaneously, make the wedge rod 83 and the counter-clockwise motion when the striker rod 83 makes the rotatory wedge rod 85 rotate, and the same wedge rod 85 makes the material rotate, simultaneously, make the counter-clockwise motion of the striker rod 88, the material is left in the agitator 3, when the rotatory wedge rod 83 is left in the rotatory, the rotatory down when the striker rod 83.

Still including collecting the subassembly 9, collecting the subassembly 9 and including limiting plate 90, collection frame 91 and handle 92, bottom plate 1 top symmetry is equipped with limiting plate 90, and bottom plate 1 top left side is equipped with collects frame 91, and collection frame 91 is located between limiting plate 90, and collection frame 91 front side is equipped with handle 92.

When the cover plate 50 rotates to be opened, the stirred activated carbon material falls down into the collecting frame 91, when the cover plate 50 rotates to be closed, the stirred activated carbon material is not discharged into the collecting frame 91, after the material in the collecting frame 91 is filled, people hold the handle 92 to move forward to drive the collecting frame 91 to move forward, so that the activated carbon material is conveniently collected by people, and then the collecting frame 91 is moved backward to the original position.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (3)

1. An activated carbon material mixing stirring device for activated carbon granulation is characterized by comprising:

the device comprises a bottom plate (1) and supporting frames (2), wherein the supporting frames (2) are arranged on two sides of the top of the bottom plate (1);

the mounting mechanism (4) is arranged between the inner sides of the upper parts of the support frames (2);

three stirring barrels (3) are uniformly arranged at intervals outside the mounting mechanism (4);

the stirring barrels (3) are provided with the closing mechanisms (5);

the material blocking mechanisms (6) are arranged on one side of the stirring barrel (3);

a driving mechanism (7), wherein the driving mechanism (7) is arranged between the supporting frame (2) and the mounting mechanism (4);

the installation mechanism (4) comprises:

the inner side of the upper part of the support frame (2) at one side is provided with a first mounting frame (40);

the second mounting frame (43) is arranged on the inner side of the upper part of the supporting frame (2) on the other side;

a rotating shaft (41), wherein the rotating shaft (41) is rotatably arranged between the second mounting frame (43) and the middle part of the inner side of the first mounting frame (40);

the fixed blocks (42), the outside of the rotating shaft (41) is uniformly provided with three fixed blocks (42) at intervals, and the fixed blocks (42) are connected with the stirring barrel (3);

a transmission shaft (44), wherein the transmission shaft (44) is rotatably arranged on the inner side of the stirring barrel (3);

the special-shaped rods (45) are uniformly arranged on the outer sides of the transmission shafts (44) at intervals, and the four special-shaped rods (45) are arranged on the transmission shafts;

the closing mechanism (5) comprises:

the cover plate (50) is rotatably arranged on the outer side of the stirring barrel (3);

the inner sides of the upper parts of the supporting frames (2) are respectively provided with a sliding groove (53), and the lower sides of the sliding grooves (53) are respectively provided with a groove;

the outer sides of the cover plates (50) are respectively provided with a supporting block (51);

the contact rods (52) are arranged on the outer sides of the supporting blocks (51), the contact rods (52) are connected with the sliding grooves (53) in a sliding mode, and the contact rods (52) are matched with grooves in the sliding grooves (53);

the material blocking mechanism (6) comprises:

a sleeve (60), wherein one side of the stirring barrel (3) is provided with the sleeve (60);

the guide rods (61) are arranged on the inner sides of the sleeves (60);

the baffle plates (63) are arranged on the guide rods (61) in a sliding mode;

the first springs (62), the first springs (62) are arranged between the baffle plates (63) and the sleeve (60), and the first springs (62) are sleeved on the guide rod (61);

the driving mechanism (7) comprises:

a fixed rod (70), wherein one side of the rotating shaft (41) is provided with the fixed rod (70);

the servo motors (71) are uniformly arranged on the outer sides of the fixed rods (70) at intervals, and the transmission shafts (44) are connected with output shafts of the servo motors (71);

the first gears (72) are arranged on the output shafts of the servo motors (71);

a rotating shaft (73), wherein the rotating shaft (73) is arranged on one side of the stirring barrel (3) in a rotating way;

the second gears (74), there are second gears (74) on one side of the rotating shaft (73), the second gears (74) are meshed with the first gears (72) each other;

a gear ring (75), wherein the inner side of the upper part of the support frame (2) at one side is provided with the gear ring (75), and the gear ring (75) is meshed with the second gear (74);

still including unloading subassembly (8), unloading subassembly (8) are including:

the other side of the top of the bottom plate (1) is provided with a supporting seat (80);

a material barrel (81), wherein the material barrel (81) is symmetrically arranged on one side of the upper part of the supporting seat (80);

the bottom of the material barrel (81) is provided with a discharging pipe (82);

the ejector rods (83) are arranged on one side of the stirring barrel (3);

a baffle (84), wherein one side of the inside of the discharging pipe (82) is provided with the baffle (84) in a sliding manner;

the guide rods (86) are arranged on the upper sides of the discharging pipes (82);

the wedge-shaped rods (85) are arranged on the guide rods (86) in a sliding mode, the wedge-shaped rods (85) are connected with the baffle plates (84), and the wedge-shaped rods (85) are matched with the ejector rods (83);

a second spring (87), wherein the second spring (87) is arranged between the wedge-shaped rod (85) and the guide rod (86), and the second springs (87) are sleeved on the guide rod (86);

the slide ways (88) are rotatably arranged on one side of the discharging pipe (82), and the slide ways (88) are matched with the striker plate (63);

torsional springs (89), and torsional springs (89) are symmetrically arranged between the slide ways (88) and the discharging pipe (82).

2. An activated carbon material mixing and stirring device for activated carbon granulation as in claim 1 further comprising a collection assembly (9), the collection assembly (9) comprising:

the limiting plates (90) are symmetrically arranged on one side, close to the supporting frame (2), of the top of the bottom plate (1);

the collecting frame (91), one side of the top of the bottom plate (1) is provided with the collecting frame (91), and the collecting frame (91) is positioned between the limiting plates (90);

a handle (92), and a handle (92) is arranged at one side of the collecting frame (91).

3. An activated carbon material mixing and stirring device for activated carbon granulation as in claim 1 characterized in that the material bowl (81) is bolted to the support base (80).