CN217527295U - Dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon - Google Patents

Abstract

The utility model provides a dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon, include: the material mixing cavity, the bottom equidistance fixed mounting in material mixing cavity has the stabilizer blade, the outside one side welded connection in material mixing cavity has the discharging pipe, the top of discharging pipe is equipped with the valve, the top in material mixing cavity has the top cap through screw fixed mounting. The utility model provides a pair of dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon drives two third gear rotations through the rotation of second motor, two third gear drive two crushing teeth rotate, the effectual solid material who puts into first feeder hopper department carries out shredding, thereby accelerate melting of solid material and mix, the efficiency of batching is improved, can effectually sieve the material after smashing through the mechanism of sieving, the tiny particle material falls into the mixing chamber through the screen cloth, the large granule material is stayed the surface of screen cloth, scrape out the collection through the material of scraper blade with screen cloth surface, be convenient for smash once more.

Description

Dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon

Technical Field

The utility model relates to a dosing unit field especially relates to a dosing unit is used in compound anticorrosive conductive coating production of nanometer carbon.

Background

Due to the small size effect, the surface effect, the quantum size effect, the macroscopic quantum tunneling effect and the like of the nano particles, the nano particles have the characteristics which are not possessed by the conventional materials in the aspects of magnetism, light, electricity, sensitivity and the like. Therefore, the nano particles have wide application prospects in the aspects of sintering, catalysis, sensing, ceramic toughening and the like of magnetic materials, electronic materials, optical materials and high-density materials, and a batching device is required to be used in the production of the nano carbon composite anticorrosive conductive coating.

But the feed proportioning device installation is used in anticorrosive conductive coating production in the existing market is not convenient for carry out shredding with solid material, leads to the material to melt the time and increases to the problem of the time of batching has been prolonged.

Therefore, it is necessary to provide a batching device for producing nano carbon composite anticorrosive conductive paint to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon has solved the dosing unit installation in the current market and has been not convenient for carry out shredding with solid material, leads to the material to melt the time and increases to the problem of the time of batching has been prolonged.

The utility model provides a dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon, include: the material mixing cavity, the bottom equidistance fixed mounting in material mixing cavity has the stabilizer blade, outside one side welded connection in material mixing cavity has the discharging pipe, the top of discharging pipe is equipped with the valve, there is the top cap at the top in material mixing cavity through screw fixed mounting, the top of top cap is equipped with the mechanism of sieving, the top of the mechanism of sieving is equipped with rubbing crusher and constructs, the top of top cap just is located the equal fixed mounting in both sides of the mechanism of sieving has the second feeder hopper.

Preferably, there is the third motor bottom in the material mixing chamber through screw fixed mounting, the transmission shaft is installed in the inside in material mixing chamber through the bearing rotation, the output shaft department and the transmission shaft keyway of third motor are connected, the outside equidistance fixed mounting of transmission shaft has the stirring leaf.

Preferably, the mechanism of sieving is including the storehouse of sieving, the storehouse fixed mounting that sieves is at the top of top cap, the spout has been seted up to the inside both sides in storehouse of sieving, the discharge gate has been seted up to outside one side in storehouse of sieving, the inside in storehouse of sieving and through spout slidable mounting have the screen cloth, the outside both sides of screen cloth are all rotated and are installed the connecting rod, two the cam is all rotated and installed to the one end of connecting rod.

Preferably, there is first motor outside one side of the storehouse of sieving through screw fixed mounting, the output shaft department keyway of first motor is connected with first gear, the outside meshing of first gear is connected with the second gear, the outside of second gear is run through there is the axis of rotation, the both ends of axis of rotation have all been run through there is the fixed block, the fixed block with the storehouse fixed mounting that sieves, the both ends of axis of rotation all with two cam fixed mounting.

Preferably, rubbing crusher constructs including smashing the chamber, smash chamber fixed mounting at the top of storehouse of sieving, the top fixed mounting who smashes the chamber has first feeder hopper.

Preferably, the inside in crushing chamber is rotated through the bearing and is installed crushing tooth, and the quantity of crushing tooth is two, two intermeshing, two between the crushing tooth the one end of crushing tooth all runs through crushing chamber and extends to the outside, two the equal keyway of one end of crushing tooth is connected with the third gear, two intermeshing, one of them between the third gear one side keyway of third gear is connected with the second motor, the second motor passes through screw fixed mounting in the outside of crushing chamber.

Compared with the prior art, the utility model provides a pair of dosing unit is used in compound anticorrosive conductive coating production of nanometer carbon has following beneficial effect:

this dosing unit drives two third gear rotations through the rotation of second motor, two third gear drive two crushing teeth rotate, the effectual solid material of putting into first feeder hopper department carries out shredding, thereby accelerate melting of solid material and mix, the efficiency of batching has been improved, owing to the setting of mechanism of sieving, can effectually sieve the material after smashing, the tiny particle material falls into the material mixing chamber through the screen cloth, the large granule material is stayed the surface of screen cloth, scrape out the collection through the scraper blade with the material on screen cloth surface, be convenient for smash once more.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a batching device for producing a nano carbon composite anticorrosive conductive coating provided by the present invention;

FIG. 2 is a schematic sectional view of the mixing chamber shown in FIG. 1;

fig. 3 is a schematic structural view of the sieving mechanism shown in fig. 1.

In the figure: 1. a mixing chamber; 2. a support leg; 3. a discharge pipe; 4. a valve; 5. a top cover; 6. a screening mechanism; 61. screening the bin; 62. a chute; 63. screening a screen; 64. a connecting rod; 65. a cam; 66. a first motor; 67. a first gear; 68. a second gear; 69. a rotating shaft; 610. a fixed block; 611. a discharge port; 7. a crushing mechanism; 71. a grinding chamber; 72. a first feed hopper; 73. crushing teeth; 74. a third gear; 75. a second motor; 8. a second feed hopper; 9. a third motor; 10. a drive shaft; 11. stirring the leaves.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is a schematic structural diagram of a dispensing device for producing a nano carbon composite anticorrosive conductive coating according to a preferred embodiment of the present invention; FIG. 2 is a schematic sectional view of the mixing chamber shown in FIG. 1; fig. 3 is a schematic diagram of the structure of the sieving mechanism shown in fig. 1, and a batching device for producing nano carbon composite anticorrosive conductive paint comprises: mixing chamber 1, mixing chamber 1's bottom equidistance fixed mounting has stabilizer blade 2, mixing chamber 1's outside one side welded connection has discharging pipe 3, discharging pipe 3's top is equipped with valve 4, mixing chamber 1's top has top cap 5 through screw fixed mounting, top cap 5's top is equipped with screening mechanism 6, screening mechanism 6's top is equipped with rubbing crusher and constructs 7, top cap 5's top just is located the equal fixed mounting in both sides of screening mechanism 6 and has second feeder hopper 8, carry out ejection of compact through valve 4 control discharging pipe 3 to the coating that has configured and handle.

There is third motor 9 bottom in material mixing chamber 1 through screw fixed mounting, and the transmission shaft 10 is installed through bearing rotation in material mixing chamber 1's inside, and the output shaft department and the 10 keyway of transmission shaft of third motor 9 are connected, and the outside equidistance fixed mounting of transmission shaft 10 has stirring leaf 11, and work through third motor 9 drives transmission shaft 10 and rotates, and transmission shaft 10 drives stirring leaf 11 and rotates, and 11 effectual materials to in the material mixing chamber 1 of stirring leaf mix.

Mechanism 6 sieves includes storehouse 61, storehouse 61 fixed mounting sieves at the top of top cap 5, spout 62 has been seted up to the inside both sides of storehouse 61 sieves, discharge gate 611 has been seted up to outside one side of storehouse 61 sieves, the inside of storehouse 61 sieves and there is screen cloth 63 through spout 62 slidable mounting, the outside both sides of screen cloth 63 all rotate and install connecting rod 64, the one end of two connecting rod 64 all rotates and installs cam 65, because spout 62's effect, make screen cloth 63 slide in the inside of storehouse 61 sieves.

There is first motor 66 outside one side of storehouse 61 that sieves through screw fixed mounting, the output shaft department keyway of first motor 66 is connected with first gear 67, the outside meshing of first gear 67 is connected with second gear 68, second gear 68's outside is run through there is axis of rotation 69, fixed block 610 has all been run through at the both ends of axis of rotation 69, fixed block 610 and storehouse 61 fixed mounting that sieves, the both ends of axis of rotation 69 all with two cam 65 fixed mounting, first motor 66's rotation drives first gear 67 and rotates, because second gear 68, axis of rotation 69, the cooperation between cam 65 and the connecting rod 64, make screen cloth 63 at the inside reciprocating motion of storehouse 61 that sieves, effectual fixed body material to screen cloth 63 surface carries out the processing of sieving, the tiny particle material falls into mixing chamber 1 through screen cloth 63, the surface of screen cloth 63 is stayed to the large granule material, scrape out the collection through the scraper blade with the material on screen cloth 63 surface, be convenient for smash once more.

The crushing mechanism 7 comprises a crushing cavity 71, the crushing cavity 71 is fixedly arranged at the top of the sieving bin 61, and a first feed hopper 72 is fixedly arranged at the top of the crushing cavity 71.

Smash the inside of chamber 71 and rotate through the bearing and install crushing tooth 73, and the quantity of smashing tooth 73 is two, intermeshing between two crushing teeth 73, the one end of two crushing teeth 73 all runs through crushing chamber 71 and extends to the outside, the equal keyway of one end of two crushing teeth 73 is connected with third gear 74, intermeshing between two third gear 74, one side keyway of one of them third gear 74 is connected with second motor 75, second motor 75 passes through screw fixed mounting in the outside of smashing chamber 71, the rotation of second motor 75 drives two third gear 74 rotations, two third gear 74 drive two crushing teeth 73 and rotate, the effectual solid material of putting into with first feeder hopper 72 department carries out shredding, thereby accelerate melting of solid material and mix, the efficiency of batching has been improved.

The utility model provides a pair of dosing unit is used in production of compound anticorrosive conductive coating of nanometer carbon's theory of operation as follows:

the first step is as follows: add liquid material through second feeder hopper 8 in to compounding chamber 1, solid material is located to add through first feeder hopper 72, and the rotation of second motor 75 drives two third gears 74 and rotates, and two third gears 74 drive two crushing teeth 73 and rotate, and effectual solid material of putting into with first feeder hopper 72 department carries out shredding.

The second step is that: rotation of first motor 66 drives first gear 67 and rotates, because second gear 68, axis of rotation 69, cooperation between cam 65 and the connecting rod 64, make screen cloth 63 be at the inside reciprocating motion of the storehouse 61 that sieves, the effectual fixed body material to the screen cloth 63 surface handles of sieving, little particulate material falls into the material mixing chamber 1 through screen cloth 63, the surface of screen cloth 63 is stayed to the large granule material, scrape out the collection through the material of scraper blade with the screen cloth 63 surface, be convenient for smash once more, accelerate melting of solid material and mix, the efficiency of batching has been improved, work through third motor 9 drives transmission shaft 10 and rotates, transmission shaft 10 drives stirring leaf 11 and rotates, stirring leaf 11 is effectual mixes the material in the material mixing chamber 1.

Compared with the prior art, the utility model provides a pair of dosing unit is used in compound anticorrosive conductive coating production of nanometer carbon has following beneficial effect:

this dosing unit drives two third gears 74 through the rotation of second motor 75 and rotates, two third gears 74 drive two crushing teeth 73 and rotate, the effectual solid material of putting into first feeder hopper 72 department carries out shredding, thereby accelerate melting of solid material and mix, the efficiency of batching has been improved, owing to the setting of mechanism 6 that sieves, can effectually sieve the material after smashing, the tiny particle material falls into mixing chamber 1 through screen cloth 63, the surface of screen cloth 63 is stayed to the large granule material, scrape out the collection through the material on screen cloth 63 surface through the scraper blade, be convenient for smash once more.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (6)

1. A dosing unit is used in compound anticorrosive conductive coating production of nanometer carbon, includes: mix material chamber (1), its characterized in that: the bottom equidistance fixed mounting in material mixing chamber (1) has stabilizer blade (2), outside one side welded connection in material mixing chamber (1) has discharging pipe (3), the top of discharging pipe (3) is equipped with valve (4), there is top cap (5) at the top in material mixing chamber (1) through screw fixed mounting, the top of top cap (5) is equipped with the mechanism (6) that sieves, the top of the mechanism (6) that sieves is equipped with rubbing crusher and constructs (7), the top of top cap (5) just is located the equal fixed mounting in both sides of the mechanism (6) that sieves and has second feeder hopper (8).

2. The batching device for producing the nano-carbon composite anticorrosive conductive coating according to claim 1, wherein a third motor (9) is fixedly installed at the bottom of the mixing cavity (1) through screws, a transmission shaft (10) is rotatably installed inside the mixing cavity (1) through a bearing, an output shaft of the third motor (9) is in key groove connection with the transmission shaft (10), and stirring blades (11) are fixedly installed outside the transmission shaft (10) at equal intervals.

3. The batching device for producing the nano-carbon composite anticorrosive conductive coating according to claim 2, wherein the sieving mechanism (6) comprises a sieving bin (61), the sieving bin (61) is fixedly installed at the top of the top cover (5), sliding grooves (62) are formed in two sides of the interior of the sieving bin (61), a discharging hole (611) is formed in one side of the exterior of the sieving bin (61), a screen (63) is installed in the interior of the sieving bin (61) in a sliding mode through the sliding grooves (62), connecting rods (64) are installed on two sides of the exterior of the screen (63) in a rotating mode, and cams (65) are installed on one ends of the connecting rods (64) in a rotating mode.

4. The batching device for producing the nanocarbon composite anticorrosive conductive coating according to claim 3, wherein a first motor (66) is fixedly mounted on one side of the outside of the sieving bin (61) through a screw, a first gear (67) is connected to a keyway at the position of an output shaft of the first motor (66), a second gear (68) is connected to the outside of the first gear (67) in a meshed manner, a rotating shaft (69) penetrates through the outside of the second gear (68), fixed blocks (610) penetrate through two ends of the rotating shaft (69), the fixed blocks (610) are fixedly mounted on the sieving bin (61), and two ends of the rotating shaft (69) are fixedly mounted on the cams (65).

5. The batching device for producing the nano-carbon composite anticorrosive conductive paint according to claim 4, wherein the crushing mechanism (7) comprises a crushing cavity (71), the crushing cavity (71) is fixedly installed at the top of the sieving bin (61), and a first feeding hopper (72) is fixedly installed at the top of the crushing cavity (71).

6. The batching device for producing the nano-carbon composite anticorrosive conductive coating according to claim 5, wherein the crushing cavity (71) is internally provided with two crushing teeth (73) in a rotating manner through a bearing, the number of the crushing teeth (73) is two, the two crushing teeth (73) are meshed with each other, one end of each crushing tooth (73) penetrates through the crushing cavity (71) and extends to the outside, one end of each crushing tooth (73) is connected with a third gear (74) in a key way, the two third gears (74) are meshed with each other, one side of each third gear (74) is connected with a second motor (75) in a key way, and the second motor (75) is fixedly arranged on the outside of the crushing cavity (71) through screws.

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