CN218107831U - Nanometer calcium carbonate production line - Google Patents

Abstract

The utility model relates to a calcium carbonate processing technology field, and a nanometer calcium carbonate production line is disclosed, be provided with the sieving mechanism in the equipment main part inner chamber, the sieving mechanism is including filtering the pipe, two sets of pivots and first motor, the equipment main part upper right side is put the position and is provided with reducing mechanism, reducing mechanism is including smashing the main part, two sets of stock guides, first crushing roller, the second motor, two sets of adjustable fender, the second is smashed the roller, the third motor, two sets of movable screw rod and two sets of set nut, through setting up the sieving mechanism, the output of first motor passes through the gear and drives to filter the pipe and rotate and carry out the intensive mixing to nanometer calcium carbonate crushing granule, the great unqualified of volume falls into the pipe collection box inner chamber along with filtering in the nanometer calcium carbonate crushing granule, a set of powder suction machine through with second discharge gate joint transports crushing main part inner chamber and carries out the repulverize operation again, the quality of the novel nanometer calcium carbonate that this equipment produced has been realized having improved through above operation.

Description

Nanometer calcium carbonate production line

Technical Field

The utility model relates to a calcium carbonate processing technology field especially relates to a nanometer calcium carbonate production line.

Background

The nano calcium carbonate is also called superfine calcium carbonate, the standard name is superfine calcium carbonate, the most mature industry of the application of the nano calcium carbonate is that the plastic industry is mainly applied to high-grade plastic products, the rheological property of a plastic master batch can be improved, and the formability of the plastic master batch is improved.

Therefore, a nano calcium carbonate production line is provided.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve the technical problem that above-mentioned prior art exists, provide a nanometer calcium carbonate production line.

In order to realize the above-mentioned purpose, the utility model discloses a following technical scheme, a nanometer calcium carbonate production line, be provided with the sieving mechanism in the equipment principal inner chamber, the sieving mechanism is including filtering the pipe, two sets of pivots and first motor, the equipment principal upper right put the position and be provided with reducing mechanism, reducing mechanism is including smashing the main part, two sets of stock guides, first crushing roller, the second motor, two sets of adjustable fender, the roller is smashed to the second, the third motor, two sets of movable screw and two sets of set nut, it is connected with discharging channel to smash main part bottom fixedly, discharging channel keeps away from the leading-in inner chamber that filters the pipe and have the upper end of one end of smashing the main part, the equipment principal left side position is provided with recovery unit, recovery unit includes the collection box.

As preferred, it places in equipment main part inner chamber and filters the pipe both ends and run through equipment main part left and right sides wall and correspond the position to filter the pipe and be the low right high tilt state in a left side, evenly be provided with multiunit screening hole on filtering the pipe, filter the pipe both ends and rotate respectively through two sets of pivots and connect on equipment main part left and right sides wall corresponds the position, be provided with the gear on the wall of filtering pipe right-hand member outside.

Preferably, the bottom of the inner cavity of the equipment main body is fixedly connected with a guide plate in an inclined state, a first discharge port is formed in the lower left corner of the front side wall surface of the inner cavity of the equipment main body in a penetrating mode and is clamped with powder suction ports of a group of powder suction machines, the first motor is fixed on the right side wall surface of the equipment main body in an inclined state, and the output end of the first motor is fixedly connected with a gear and is meshed with the gear on the outer side wall surface of the right end of the filtering circular tube.

Preferably, smash the main part and be vertical state funnel shaped and pass through connecting rod fixed connection on the upper right corner position of equipment main part, two sets of stock guides are symmetrical state and place in crushing main part inner chamber middle part and with crushing main part inner chamber wall fixed connection.

Preferably, first crushing roller is the horizontality and places in crushing main part inner chamber bottom position, and first crushing roller both ends are rotated through the pivot and are connected on crushing main part front and back both sides wall face corresponds the position, and first crushing roller foremost fixedly connected with gear, the second motor be the horizontality place in first crushing roller left side position and with smash main part front side wall face and correspond position fixed connection, second motor front side output fixedly connected with gear and with the gear engagement on the second motor front end.

Preferably, two sets of movable grooves are formed in the right side positions of the front side wall face and the rear side wall face of the crushing main body, the two sets of movable baffles are respectively connected in the inner cavities of the two sets of movable grooves in a sliding and clamping mode, four sets of yielding holes are formed in the left side positions of the front side wall face and the rear side wall face of the inner cavities of the two sets of movable grooves in a penetrating mode, the second crushing roller is in a horizontal state, is arranged to penetrate through the two side wall faces of the two sets of movable baffles and is connected to the side wall faces of the two sets of movable baffles in a rotating mode through a rotating shaft, the second crushing roller is located at the right side position of the first crushing roller and corresponds to the position of the first crushing roller, and the third motor is in a horizontal state, is arranged at the left side position of the second crushing roller and corresponds to the position of the front side wall face of the set of movable baffles located at the front side position and is fixedly connected to the position of the third motor.

Preferably, two sets of movable holes are formed in the right side of the wall surface of one side, far away from the inner cavity of the crushing main body, of the inner cavity of the two sets of movable grooves, two sets of movable screws are horizontally and respectively penetrate through the two sets of movable holes and are fixedly connected with the right side of the wall surface of the movable baffle plate at the adjacent position, two sets of positioning nuts are respectively sleeved on the two sets of movable screws, and the outer wall surfaces of the two sets of positioning nuts are pressed on the corresponding positions of the front side wall surface and the rear side wall surface of the crushing main body.

Preferably, the recycling bin is in a box shape with an opening at the upper right corner, the upper right corner of the recycling bin is clamped on the left side wall surface of the equipment main body, the leftmost end of the filtering circular tube extends into the cavity of the recycling bin, a second discharge port penetrates through the bottom end of the outer side wall surface of the recycling bin, a group of powder suction ports of the powder suction machine are connected to the second discharge port, and a powder outlet of the powder suction machine is led into the cavity of the crushing main body.

Advantageous effects

The utility model provides a nanometer calcium carbonate production line. The method has the following beneficial effects:

(1) This nanometer calcium carbonate production line, through setting up the sieving mechanism, pour nanometer calcium carbonate semi-manufactured goods into crushing main part inner chamber into, the output through second motor and third motor drives first crushing roller and second crushing roller synchronous rotation in opposite directions respectively and smashes the operation to nanometer calcium carbonate semi-manufactured goods, the nanometer calcium carbonate crushing granule after smashing gets into through discharging channel and filters the upper right corner position of pipe inner chamber, the output of first motor passes through the gear and drives the filtration pipe and rotate and carry out the intensive mixing to nanometer calcium carbonate crushing granule, the qualified multiunit screening hole that passes through on the filtration pipe falls into equipment main part inner chamber bottom and piles on the lower left corner position through the deflector in nanometer calcium carbonate crushing granule, again carry out the powder absorption ejection of compact through a set of powder absorption machine with first discharge gate joint, the great unqualified of volume falls into the collection box inner chamber along with filtering the pipe in nanometer calcium carbonate crushing granule, again transport crushing main part inner chamber through a set of powder absorption machine with second discharge gate joint and carry out the repulverizations operation, the quality of the novel nanometer calcium carbonate that this equipment produced has been realized having improved through the above operation.

(2) This nanometer calcium carbonate production line, through setting up the sieving mechanism, rotate stirring nanometer calcium carbonate crushing granule through filtering the pipe, not only fully select qualified nanometer calcium carbonate powder granule, and filter the difficult jam by nanometer calcium carbonate crushing granule of multiunit screening hole on the pipe, strengthened the screening function of this equipment.

(3) This nanometer calcium carbonate production line through setting up reducing mechanism, smashes the interval between roller and the first crushing roller through two sets of adjustable fender adjustment second, and two sets of set nut of rethread fix a position, realize convenient adjustment reducing mechanism's crushing grade promptly, have strengthened the application scope of this equipment, do benefit to the popularization of this equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

FIG. 1 is a perspective view of the nano calcium carbonate production line of the present invention;

FIG. 2 is a perspective view of the production line of nano calcium carbonate of the present invention;

fig. 3 is a perspective view of the crushing device of the present invention.

Illustration of the drawings: 10. an apparatus main body; 11. a circular filtering pipe; 12. a rotating shaft; 13. a guide plate; 14. a first discharge port; 15. a first motor; 16. a recycling bin; 17. a second discharge port; 18. crushing the main body; 19. a material guide plate; 20. a first crushing roller; 21. a second motor; 22. a movable groove; 23. a movable baffle; 24. a hole of abdication; 25. a second crushing roller; 26. a third motor; 27. a movable hole; 28. a movable screw; 29. positioning a nut; 30. a discharge passage.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A nano calcium carbonate production line is disclosed, as shown in figures 1-3, a screening device is arranged in an inner cavity of an equipment main body 10, the screening device comprises a filtering circular tube 11, two groups of rotating shafts 12 and a first motor 15, the filtering circular tube 11 is placed in the inner cavity of the equipment main body 10 in an inclined state of lower left and higher right, two ends of the filtering circular tube 11 penetrate through corresponding positions of left and right side walls of the equipment main body 10, a plurality of groups of screening holes are uniformly arranged on the filtering circular tube 11, two ends of the filtering circular tube 11 are respectively connected to corresponding positions of left and right side walls of the equipment main body 10 through the two groups of rotating shafts 12 in a rotating manner, gears are arranged on the outer side wall surface of the right end of the filtering circular tube 11, the filtering circular tube 11 is placed in the inner cavity of the equipment main body 10 in an inclined state of lower left and higher right, two ends of the filtering circular tube 11 penetrate through corresponding positions of left and right side walls of the equipment main body 10, a plurality of screening holes are uniformly arranged on the filtering circular tube 11, two ends of a filtering circular tube 11 are respectively connected to corresponding positions of left and right side walls of an equipment main body 10 in a rotating way through two groups of rotating shafts 12, gears are arranged on the outer side wall surface of the right end of the filtering circular tube 11, a crushing device is arranged at the position at the upper right of the equipment main body 10 and comprises a crushing main body 18, two groups of material guide plates 19, a first crushing roller 20, a second motor 21, two groups of movable baffle plates 23, a second crushing roller 25, a third motor 26, two groups of movable screw rods 28 and two groups of positioning nuts 29, the funnel shape of the crushing main body 18 in a vertical state is fixedly connected to the position at the upper right corner of the equipment main body 10 through a connecting rod, the two groups of material guide plates 19 are symmetrically arranged in the middle of an inner cavity of the crushing main body 18 and fixedly connected with the inner cavity wall surface of the crushing main body 18, the first crushing roller 20 is horizontally arranged at the bottom end of the inner cavity of the crushing main body 18, two ends of the first crushing roller 20 are rotatably connected to corresponding positions of the front and back side walls of the crushing main body 18 through the rotating shafts, the foremost end of the first crushing roller 20 is fixedly connected with a gear, the second motor 21 is horizontally arranged at the left side position of the first crushing roller 20 and is fixedly connected with the corresponding position of the front side wall surface of the crushing main body 18, the output end of the front side of the second motor 21 is fixedly connected with a gear and is meshed with the gear at the front end of the second motor 21, two groups of movable grooves 22 are arranged at the right side positions of the front and rear side wall surfaces of the crushing main body 18, two groups of movable baffles 23 are respectively clamped in the inner cavities of the two groups of movable grooves 22 in a sliding way, four groups of abdicating holes 24 are arranged at the left side positions of the front and rear side wall surfaces of the inner cavities of the two groups of movable grooves 22 in a penetrating way, the second crushing roller 25 is horizontally arranged and penetrates through the two groups of movable baffles 23 and is rotatably connected with the side wall surfaces of the two groups of movable baffles 23 through a rotating shaft, the second crushing roller 25 is arranged at the right side position of the first crushing roller 20 and corresponds to the position of the first crushing roller 20, a third motor 26 is horizontally arranged at the left side of the second crushing roller 25 and is fixedly connected with the front side wall surface of the movable baffle plate 23 at the front side, two movable holes 27 are arranged at the right side of the inner cavity of the movable groove 22 far away from the inner cavity of the crushing main body 18, two movable screws 28 horizontally penetrate through the movable holes 27 and are fixedly connected with the right side wall surface of the movable baffle plate 23 at the adjacent position, two positioning nuts 29 are respectively sleeved on the movable screws 28, the outer wall surfaces of the two positioning nuts 29 are pressed on the corresponding positions of the front side wall surface and the rear side wall surface of the crushing main body 18, a discharge channel 30 is fixedly connected with the bottom end of the crushing main body 18, one end of the discharge channel 30 far away from the crushing main body 18 is led into the inner cavity of the filtering circular tube 11 at the upper end, a recovery device is arranged at the left side of the equipment main body 10 and comprises a recovery box 16, the recycling bin 16 is in a box shape with an opening at the upper right corner, the opening at the upper right corner of the recycling bin 16 is connected to the left side wall surface of the equipment main body 10 in a clamped mode, the leftmost end of the filtering circular tube 11 extends into the cavity of the recycling bin 16, the bottom end of the outer side wall surface of the recycling bin 16 is provided with a second discharge hole 17 in a penetrating mode, a set of powder suction ports of the powder suction machine are connected to the second discharge hole 17, and the powder outlet ports of the powder suction machine are led into the inner cavity of the crushing main body 18.

The utility model discloses nanometer calcium carbonate production line's theory of operation: through setting up the sieving mechanism, pour into the semi-manufactured goods of nanometer calcium carbonate in smashing the 18 inner chambers of main part, the output through second motor 21 and third motor 26 drives first crushing roller 20 and second crushing roller 25 respectively and rotates in step in opposite directions and smashes the operation to the semi-manufactured goods of nanometer calcium carbonate, the nanometer calcium carbonate crushing granule after smashing gets into the upper right corner position of the inner chamber of filter pipe 11 through discharging channel 30, the output of first motor 15 drives through the gear and filters pipe 11 and rotates and fully stir nanometer calcium carbonate crushing granule, the qualified multiunit screening hole that passes through on the filter pipe 11 among the nanometer calcium carbonate crushing granule falls into equipment main part 10 inner chamber bottom and through deflector 13 pile in lower left corner position, inhale the powder ejection of compact through a set of powder suction machine with 14 joint of first discharge gate again, the great nonconforming of volume falls into collection box 16 inner chambers along with filter pipe 11 in the nanometer calcium carbonate crushing granule, transport to smashing the 18 inner chambers of main part through a set of powder suction machine with second discharge gate 17 joint again and smash the operation, the quality of the novel nanometer calcium carbonate that this equipment produced has been realized improving through above operation.

Through setting up the sieving mechanism, rotate stirring nano calcium carbonate crushing granule through filtering pipe 11, not only fully select qualified nano calcium carbonate powder granule, and filter the difficult jam by nano calcium carbonate crushing granule of multiunit screening hole on the pipe 11, strengthened the screening function of this equipment.

Through setting up reducing mechanism, through two sets of adjustable fender 23 adjustment second crushing roller 25 and the first interval of smashing between the roller 20, two sets of set nut 29 of rethread are fixed a position, realize convenient adjustment reducing mechanism's crushing grade promptly, have strengthened the application scope of this equipment, do benefit to the popularization of this equipment.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A nanometer calcium carbonate production line, includes equipment main part (10), its characterized in that: be provided with the sieving mechanism in equipment main part (10) inner chamber, the sieving mechanism is including filtering pipe (11), two sets of pivot (12) and first motor (15), equipment main part (10) upper right side put the position and be provided with reducing mechanism, reducing mechanism is including smashing main part (18), two sets of stock guide (19), first crushing roller (20), second motor (21), two sets of adjustable fender (23), second crushing roller (25), third motor (26), two sets of movable screw rod (28) and two sets of set nut (29), smash main part (18) bottom fixedly connected with discharging channel (30), discharging channel (30) are kept away from in the leading-in inner chamber that filters pipe (11) of one end of smashing main part (18) and have the upper end, equipment main part (10) left side position is provided with recovery unit, recovery unit includes collection box (16).

2. The nano calcium carbonate production line of claim 1, characterized in that: filter pipe (11) and be the high tilt state in the low right side in a left side and place in equipment main part (10) inner chamber and filter pipe (11) both ends and run through equipment main part (10) left and right sides wall and face and correspond the position, filter evenly to be provided with the multiunit screening hole on pipe (11), filter pipe (11) both ends and rotate respectively through two sets of pivot (12) and connect on equipment main part (10) left and right sides wall corresponds the position, filter and be provided with the gear on pipe (11) right-hand member outside wall.

3. The nano calcium carbonate production line of claim 2, characterized in that: equipment main part (10) inner chamber bottom fixedly connected with is deflector (13) of tilt state, and the lower left corner position of side wall face runs through before equipment main part (10) inner chamber has seted up first discharge gate (14), and first motor (15) are the tilt state and fix on equipment main part (10) right side wall, the output fixedly connected with gear of first motor (15) and with filter pipe (11) right-hand member outside wall on the gear meshing.

4. The nano calcium carbonate production line of claim 1, characterized in that: smash main part (18) and be vertical state's hourglass hopper-shaped and pass through connecting rod fixed connection on equipment main part (10) upper right corner position, two sets of stock guides (19) are symmetrical state and place in crushing main part (18) inner chamber middle part and with smash main part (18) inner chamber wall fixed connection.

5. The nano calcium carbonate production line of claim 4, characterized in that: first crushing roller (20) are the horizontality and place in crushing main part (18) inner chamber bottom end position, first crushing roller (20) both ends are rotated through the pivot and are connected on crushing main part (18) front and back both sides wall face corresponds the position, first crushing roller (20) foremost fixedly connected with gear, second motor (21) are the horizontality and place and correspond position fixed connection at first crushing roller (20) left side position and with crushing main part (18) front side wall face, second motor (21) front side output end fixedly connected with gear and with second motor (21) front end on gear engagement.

6. The nano calcium carbonate production line of claim 4, characterized in that: smash main part (18) front and back both sides wall right side position inside and seted up two sets of movable groove (22), two sets of adjustable fender (23) slide joint respectively in two sets of movable groove (22) inner chambers, two sets of movable groove (22) inner chamber front and back both sides wall left side position runs through and has seted up four groups hole (24) of stepping down, second smashes roller (25) and is the horizontality and places and run through two sets of adjustable fender (23) both sides wall face and rotate through the pivot and connect on two sets of adjustable fender (23) side wall face, second smashes roller (25) and is located first crushing roller (20) right side position and corresponds with first crushing roller (20) position, third motor (26) are the horizontality and place and smash roller (25) left side position and correspond position fixed connection with a set of adjustable fender (23) front side wall face that is located the front side position at the second.

7. The nano calcium carbonate production line of claim 6, characterized in that: two sets of activity hole (27) have been seted up to one side wall right side position that crushing main part (18) inner chamber was kept away from to activity groove (22) inner chamber, and two sets of movable screw rod (28) are the horizontality and run through two sets of movable holes (27) respectively and with movable baffle (23) side wall right side position fixed connection that closes on the position, and two sets of set nut (29) cup joint respectively on two sets of movable screw rod (28), and two sets of set nut (29) outer wall roof pressure correspond the position on crushing main part (18) front and back both sides wall face.

8. The nano calcium carbonate production line of claim 1, characterized in that: the recycling bin (16) is in a box body shape with an opening at the upper right corner, the upper right corner of the recycling bin (16) is connected to the left side wall surface of the equipment main body (10) in a clamping mode, the leftmost end of the filtering circular tube (11) extends into the cavity of the recycling bin (16), the bottom end of the outer side wall surface of the recycling bin (16) is penetrated and provided with a second discharge hole (17), and the second discharge hole (17) is connected with a group of powder suction ports of a powder suction machine and a powder outlet port of the powder suction machine is led into the cavity of the crushing main body (18).

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