CN114111279A - Light calcium carbonate drying equipment for bioengineering - Google Patents

Abstract

The invention relates to drying equipment, in particular to light calcium carbonate drying equipment for bioengineering. The technical problem of the invention is that: provides a light calcium carbonate drying device for bioengineering, which is simple to operate and is dried uniformly. The invention provides a drying device of light calcium carbonate for bioengineering, which comprises a base and a rotating mechanism, wherein the top of the base is provided with the rotating mechanism; the rotating mechanism is provided with two sliding fixed disks; the rotary drum is arranged between the rotary drum and the fixed disc in a rotary manner. The automatic calcium carbonate feeding device can automatically drive calcium carbonate to continuously overturn through the cooperation of the roller, the rotating mechanism and the feeding mechanism, so that the calcium carbonate is dried in an all-dimensional manner by contacting with air, the efficiency is high, the clamping block can be automatically clamped through the cooperation of the material pushing mechanism and the clamping mechanism, people do not need to pull the clamping block all the time, the feeding function of the calcium carbonate can be rapidly completed, and the time and the labor are saved.

Description

Light calcium carbonate drying equipment for bioengineering

Technical Field

The invention relates to drying equipment, in particular to light calcium carbonate drying equipment for bioengineering.

Background

Calcium carbonate is one of important inorganic powder fillers, is widely applied to the fields of plastics, rubber, paper making, medicines and the like, and light calcium carbonate needs to be dried in preparation.

People all use drying equipment to carry out the drying to light calcium carbonate usually, but current drying equipment is more complicated, and operating procedure is comparatively loaded down with trivial details, needs extravagant more time, inconvenient people's use, and when the drying, light calcium carbonate can not overturn in addition, leads to dry inhomogeneous, and drying effect is relatively poor, to above-mentioned problem, has designed a light calcium carbonate drying equipment for easy operation and dry even bioengineering.

Disclosure of Invention

In order to overcome the defects of complex operation, complex operation procedures, uneven drying and poor drying effect of the existing drying equipment, the technical problems of the invention are as follows: provides a light calcium carbonate drying device for bioengineering, which is simple to operate and is dried uniformly.

A light calcium carbonate drying equipment for bioengineering, includes:

the top of the base is provided with a rotating mechanism;

the rotating mechanism is provided with two sliding fixed disks;

the roller is rotatably arranged between the fixed discs;

the blanking mechanism is arranged at the top of the base.

Further, the rotating mechanism includes:

the servo motors are symmetrically arranged at the top of the base;

a first rotating shaft is arranged between output shafts of the servo motors;

the first gear is symmetrically arranged on the first rotating shaft;

the gear ring is symmetrically arranged on the outer side of the roller and matched with the first gear;

the top of the servo motor is provided with a sliding rail, and the fixed disks slide in the sliding rails on the same side;

first springs are arranged between the bottom of the fixed disc and the lower portion of the sliding rail.

Further, the blanking mechanism comprises:

the middle parts of two sides of the top of the base are respectively provided with a fixed plate;

the upper parts of the inner sides of the fixing plates are provided with clamping blocks in a sliding manner;

the second springs are arranged between the inner sides of the clamping blocks and the fixing plate;

the bottom in the roller is symmetrically provided with connecting plates;

the upper parts of the connecting plates are provided with third springs;

the cover plate is arranged between the bottoms of the third springs and matched with the clamping blocks, and the cover plate is in contact fit with the roller.

Further explain, still including pushing equipment, pushing equipment includes:

the guide sleeves are arranged on two sides of the top of the base;

the pull rod is arranged between the upper parts of the guide sleeves in a sliding manner;

and the fourth springs are arranged between the two sides of the pull rod and the guide sleeve.

Further explaining, the device also comprises a trigger mechanism, wherein the trigger mechanism comprises:

two fixed shafts are arranged on two sides of the top of the base and are positioned on the outer side of the servo motor;

the rotating plates are rotatably arranged between the upper parts of the two fixing shafts on the same side;

the torsional springs are arranged between the middle parts of the two sides of the rotating plate and the fixed shafts on the same side;

the upper parts of the outer sides of the sliding rails are provided with first wedge blocks in a sliding mode, the first wedge blocks are matched with the rotating plate, and the first wedge blocks are matched with the fixed plate;

the fifth springs are arranged between the first wedge-shaped block and the slide rail on the same side;

the outer sides of the servo motors are provided with pressure rods in a sliding mode, the pressure rods are matched with the rotating plate, and the pressure rods are matched with the servo motors;

and a sixth spring is arranged between the outer side of the pressure rod and the servo motor on the same side.

Further explain, still include screens mechanism, screens mechanism includes:

the upper parts of the inner sides of the fixed plates are provided with hollow cylinders;

the inner sides of the hollow cylinders are both provided with second wedge-shaped blocks in a sliding manner, and the second wedge-shaped blocks are matched with the clamping blocks;

and seventh springs are arranged between the upper parts of the second wedge-shaped blocks and the hollow cylinders on the same side.

Further, the device also comprises a disengaging mechanism, wherein the disengaging mechanism comprises:

the two sides of the top of the base are provided with first bearing seats;

the upper parts of the first bearing seats are respectively and rotatably provided with a second rotating shaft;

one side of the second rotating shaft is provided with a second gear;

the tops of the first and second wedge-shaped blocks are provided with first racks, and the first racks are meshed with the second gear;

the second bearing seats are symmetrically arranged on one side of the upper part of the base;

the upper parts of the rotating rods and the second bearing seat are respectively and rotatably provided with a rotating rod;

the outer side of the rotating rod and one side of the second rotating shaft are both provided with bevel gears, and the two bevel gears on the same side are meshed with each other;

one side of the first wedge block at one side is symmetrically provided with a second rack;

third gear, the dwang inboard all is equipped with the third gear, and the third gear meshes with the second rack.

Further, a plurality of circular holes for ventilation are uniformly formed on the roller.

The invention has the beneficial effects that: 1. according to the invention, through the matching of the roller, the rotating mechanism and the blanking mechanism, the calcium carbonate can be automatically driven to continuously overturn, so that the calcium carbonate is comprehensively contacted with air for drying, and the efficiency is higher.

2. According to the automatic calcium carbonate blanking device, the clamping block can be clamped automatically through the matching of the pushing mechanism and the clamping mechanism, people do not need to pull the clamping block all the time by hands, the calcium carbonate blanking function can be completed quickly, and time and labor are saved.

3. According to the invention, through the matching of the trigger mechanism and the release mechanism, the starting and the closing of the servo motor can be automatically controlled, and the clamping block can be automatically loosened to realize the calcium carbonate discharging function.

Drawings

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

Fig. 2 is a schematic perspective view of the rotating mechanism and the blanking mechanism of the present invention.

Fig. 3 is a schematic partial perspective view of the blanking mechanism of the present invention.

Fig. 4 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the trigger mechanism of the present invention.

Fig. 6 is a schematic view of a first partially separated body structure of the locking mechanism of the present invention.

Fig. 7 is a second partial structure diagram of the locking mechanism of the present invention.

Fig. 8 is a perspective view of the detachment mechanism of the present invention.

Reference numbers in the drawings: 1: base, 2: roller, 3: fixed disk, 4: rotating mechanism, 40: servo motor, 41: first rotating shaft, 42: first gear, 43: ring gear, 44: slide rail, 45: first spring, 5: unloading mechanism, 50: fixed plate, 51: a latch, 52: second spring, 53: connection plate, 54: cover plate, 55: third spring, 6: pushing equipment, 60: guide sleeve, 61: a pull rod, 62: fourth spring, 7: trigger mechanism, 70: fixed shaft, 71: rotating plate, 72: torsion spring, 73: first wedge block, 74: fifth spring, 75: pressure lever, 76: sixth spring, 8: screens mechanism, 80: hollow cylinder, 81: second wedge block, 82: seventh spring, 9: disengagement mechanism, 90: first bearing housing, 91: second rotating shaft, 92: second gear, 93: first rack, 94: bevel gear, 95: second bearing housing, 96: second rack, 97: third gear, 98: rotating the rod.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

The utility model provides a light calcium carbonate drying equipment for bioengineering, as shown in figure 1, figure 2 and figure 3, including base 1, cylinder 2, fixed disk 3, slewing mechanism 4 and unloading mechanism 5, the base 1 top is equipped with slewing mechanism 4, two fixed disks 3 of gliding formula on slewing mechanism 4, and the rotary type is equipped with cylinder 2 between the fixed disk 3, and the base 1 top is equipped with unloading mechanism 5.

Slewing mechanism 4 is including servo motor 40, first pivot 41, first gear 42, ring gear 43, slide rail 44 and first spring 45, 1 top bilateral symmetry of base is equipped with servo motor 40, be equipped with first pivot 41 between the servo motor 40 output shaft, bilateral symmetry is equipped with first gear 42 on the first pivot 41, 2 outside bilateral symmetry of cylinder is equipped with ring gear 43, ring gear 43 and first gear 42 cooperation, servo motor 40 top all is equipped with slide rail 44, fixed disk 3 all slides in the slide rail 44 of homonymy, all be equipped with first spring 45 between fixed disk 3 bottom and the slide rail 44 lower part.

The blanking mechanism 5 comprises a fixing plate 50, a clamping block 51, a second spring 52, a connecting plate 53, a cover plate 54 and a third spring 55, the fixing plate 50 is arranged in the middle of the front side and the rear side of the top of the base 1, the clamping block 51 is arranged on the upper portion of the inner side of the fixing plate 50 in a sliding mode, the second spring 52 is arranged between the inner side of the clamping block 51 and the fixing plate 50, the connecting plate 53 is arranged on the bottom of the roller 2 in a bilateral symmetry mode, the third spring 55 is arranged on the upper portion of the connecting plate 53, the cover plate 54 is arranged between the bottoms of the third springs 55, the cover plate 54 is matched with the clamping block 51, and the cover plate 54 is in contact fit with the roller 2.

When people need to dry calcium carbonate, firstly, the roller 2 is manually rotated by 180 degrees, the roller 2 drives all the components on the roller to rotate by 180 degrees, the bottom of the cover plate 54 is upward, then the cover plate 54 is pulled upward, the third spring 55 is stretched, the cover plate 54 is separated from the roller 2, then the calcium carbonate can be placed into the roller 2, then the cover plate 54 is loosened, the third spring 55 is restored to the original state, the cover plate 54 is driven to move downward to reset to be contacted with the roller 2 again, at the moment, the roller 2 and the fixed disc 3 are driven to move downward under the action of the gravity of the calcium carbonate, the first spring 45 is compressed, the first gear 42 is meshed with the gear ring 43, then the clamping block 51 is manually pulled outward, the second spring 52 is compressed, the clamping block 51 is far away from the roller 2, the servo motors 40 on two sides are started, one positive rotation and one negative rotation are performed, so that the output shaft of the servo motor 40 drives the first rotating shaft 41 and the first gear 42 to rotate, the first gear 42 drives the gear ring 43 and the roller 2 to rotate, so that calcium carbonate in the roller 2 continuously overturns, and is dried by contacting with air in all directions, after drying is finished, the servo motor 40 is closed, the rotation is completely stopped, then the roller 2 is manually rotated, the bottom of the cover plate 54 is downwards again, at the moment, the dried calcium carbonate is concentrated at the top of the cover plate 54, then the fixture block 51 and the roller 2 are loosened, the second spring 52 is restored to the original state, the fixture block 51 is driven to move inwards to restore the cover plate 54, meanwhile, the first spring 45 is restored to the original state, the roller 2 and the fixed plate 3 are driven to move upwards to restore, the third spring 55 is stretched, the dried calcium carbonate at the top of the cover plate 54 is manually taken away, the fixture block 51 is pulled outwards, the second spring 52 is compressed, the fixture block 51 is loosened from the cover plate 54, the third spring 55 is restored to the original state, and the cover plate 54 is driven to move upwards to restore, then, the latch 51 is released, and the second spring 52 returns to its original state, so as to drive the latch 51 to move inward and return.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 4, 5, 6, 7 and 8, the device further comprises a pushing mechanism 6, wherein the pushing mechanism 6 comprises a guide sleeve 60, a pull rod 61 and a fourth spring 62, the guide sleeve 60 is arranged on the left portion of the front side and the rear side of the top of the base 1, the pull rod 61 is arranged between the upper portions of the guide sleeve 60 in a sliding manner, and the fourth spring 62 is arranged between the front side and the rear side of the right portion of the pull rod 61 and the guide sleeve 60.

When people need take away the dry calcium carbonate in apron 54 top, turn left pulling pull rod 61, fourth spring 62 compression for pull rod 61 pushes away the dry calcium carbonate in apron 54 top left, by artifical collection can, then loosen pull rod 61, fourth spring 62 reconversion drives pull rod 61 and moves right and resets, so can accomplish the unloading of calcium carbonate fast, labour saving and time saving.

Also comprises a trigger mechanism 7, the trigger mechanism 7 comprises a fixed shaft 70, a rotating plate 71 and a torsion spring 72, the servo motor comprises a first wedge-shaped block 73, a fifth spring 74, a pressure lever 75 and a sixth spring 76, wherein two fixing shafts 70 are arranged on the left side and the right side of the top of the base 1, the fixing shafts 70 are located on the outer sides of the servo motor 40, a rotating plate 71 is rotatably arranged between the upper portions of the two fixing shafts 70 on the same side, torsion springs 72 are arranged between the middle portions of the front side and the rear side of the rotating plate 71 and the fixing shafts 70 on the same side, first wedge-shaped blocks 73 are arranged on the upper portions of the outer sides of the sliding rails 44 in a sliding mode, the first wedge-shaped blocks 73 are matched with the rotating plate 71, the first wedge-shaped blocks 73 are matched with the fixed disk 3, the fifth springs 74 are arranged between the first wedge-shaped blocks 73 and the sliding rails 44 on the same side, the pressure lever 75 is arranged on the outer sides of the servo motor 40 in a sliding mode, the pressure lever 75 is matched with the rotating plate 71, the pressure lever 75 is matched with the servo motor 40, and the sixth spring 76 is arranged between the outer side of the pressure lever 75 and the servo motor 40 on the same side.

When the fixed disk 3 moves downwards under the action of the gravity of calcium carbonate, the fixed disk contacts with the first wedge-shaped block 73 to drive the first wedge-shaped block 73 to move outwards, the fifth spring 74 is compressed, the first wedge-shaped block 73 drives the rotating plate 71 to rotate, the torsion spring 72 deforms, the rotating plate 71 drives the pressure lever 75 to move inwards, the sixth spring 76 is compressed, so that the pressure lever 75 presses the switch of the servo motor 40, the servo motor 40 is started, calcium carbonate is dried, when the fixed disk 3 passes through the first wedge-shaped block 73, the fifth spring 74 restores to the original state to drive the first wedge-shaped block 73 to move inwards and reset, at the moment, the first wedge-shaped block 73 is separated from the rotating plate 71, the torsion spring 72 restores to the original state to drive the rotating plate 71 to rotate reversely, the rotating plate 71 is separated from the pressure lever 75, the sixth spring 76 restores to the original state to drive the pressure lever 75 to move outwards, so that the pressure lever 75 loosens the switch of the servo motor 40, and after the drying is finished, the first wedge 73 of manual outside pulling, the compression of fifth spring 74 for depression bar 75 presses servo motor 40's switch once more, thereby closes servo motor 40, then is rotatory cylinder 2 by the manual work, makes apron 54 bottom down again, and fixed disk 3 can move up this moment and reset, then loosens first wedge 73, and fifth spring 74 reconversion drives first wedge 73 and moves the reset to the inboard, thereby replaces the manual work and starts and close servo motor 40.

The clamping mechanism 8 comprises a hollow cylinder 80, a second wedge block 81 and a seventh spring 82, the upper portion of the inner side of the fixing plate 50 is provided with the hollow cylinder 80, the inner side of the hollow cylinder 80 is provided with the second wedge block 81 in a sliding mode, the second wedge block 81 is matched with the clamping block 51, and the seventh spring 82 is arranged between the upper portion of the second wedge block 81 and the hollow cylinder 80 on the same side.

When people pull the fixture block 51 towards the outside, the second spring 52 is compressed, when the fixture block 51 is in contact with the second wedge-shaped block 81, the second wedge-shaped block 81 is driven to move upwards, the seventh spring 82 is compressed, when the fixture block 51 passes through the second wedge-shaped block 81, the seventh spring 82 returns to the original state, the second wedge-shaped block 81 is driven to move downwards to reset the fixture block 51, at the moment, people can release the fixture block 51, when people need the fixture block 51 to move inwards to reset, the second wedge-shaped block 81 is pulled upwards, the seventh spring 82 is compressed, so that the second wedge-shaped block 81 releases the fixture block 51, the second spring 52 returns to the original state, the fixture block 51 is driven to move inwards to reset, then the second wedge-shaped block 81 is released, the seventh spring 82 returns to the original state, the second wedge-shaped block 81 is driven to move downwards to reset, and therefore, people do not need to pull the fixture block 51 all the time by hands when drying calcium carbonate.

The device also comprises a separating mechanism 9, the separating mechanism 9 comprises a first bearing seat 90, a second rotating shaft 91, a second gear 92, a first rack 93, bevel gears 94, a second bearing seat 95, a second rack 96, a third gear 97 and a rotating rod 98, the first bearing seat 90 is arranged at the right parts of the front side and the rear side of the top of the base 1, the second rotating shaft 91 is arranged at the upper part of the first bearing seat 90 in a rotating mode, the second gear 92 is arranged at the left side of the second rotating shaft 91, the first rack 93 is arranged at the top of the second wedge-shaped block 81, the first rack 93 is meshed with the second gear 92, the second bearing seat 95 is symmetrically arranged at the front and rear side of the right side of the upper part of the base 1, the rotating rod 98 is arranged at the upper part of the second bearing seat 95 in a rotating mode, the bevel gears 94 are arranged at the outer side of the rotating rod 98 and the right side of the second rotating shaft 91, the two bevel gears 94 at the same side are mutually meshed, the first wedge-shaped block 73 at the right side is symmetrically provided with the second rack 96 at the front and rear side, the inner sides of the rotating rods 98 are provided with third gears 97, and the third gears 97 are meshed with the second racks 96.

When people manually pull the first wedge-shaped block 73 to the outside, the fifth spring 74 is compressed, the first wedge-shaped block 73 on the right side drives the second rack 96 to move to the right, the second rack 96 drives the third gear 97, the rotating rod 98, the bevel gear 94, the second rotating shaft 91 and the second gear 92 to rotate, the second gear 92 drives the first rack 93 and the second wedge-shaped block 81 to move upwards, so that the second wedge block 81 loosens the fixture block 51, the fixture block 51 can move inwards to reset and clamp the cover plate 54, thereby facilitating people to perform blanking on the dried calcium carbonate, then the first wedge-shaped block 73 is released, the fifth spring 74 is restored to the original state, the first wedge-shaped block 73 is driven to move inwards to reset, the first wedge-shaped block 73 on the right side drives the second rack 96 to move leftwards to reset, the second rack 96 drives the third gear 97, the rotating rod 98, the bevel gear 94, the second rotating shaft 91 and the second gear 92 to rotate reversely, and the second gear 92 drives the first rack 93 and the second wedge-shaped block 81 to move downwards to reset.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. A light calcium carbonate drying equipment for bioengineering, characterized by including:

the device comprises a base (1) and a rotating mechanism (4), wherein the rotating mechanism (4) is arranged at the top of the base (1);

the rotating mechanism (4) comprises two fixed disks (3) which are slidably arranged on the fixed disk (3);

the roller (2) is rotatably arranged between the rollers (2) and the fixed disc (3);

the blanking mechanism (5) is arranged on the top of the base (1).

2. The drying apparatus of light calcium carbonate for bioengineering according to claim 1, wherein the rotating mechanism (4) comprises:

the servo motor (40) is symmetrically arranged at the top of the base (1);

a first rotating shaft (41) is arranged between the output shafts of the servo motors (40);

the first gear (42) is symmetrically arranged on the first rotating shaft (41);

the gear ring (43) is symmetrically arranged on the outer side of the roller (2), and the gear ring (43) is matched with the first gear (42);

the top of the servo motor (40) is provided with a sliding rail (44), and the fixed disc (3) slides in the sliding rail (44) on the same side;

first springs (45) are arranged between the bottom of the fixed disc (3) and the lower parts of the sliding rails (44).

3. The drying equipment of light calcium carbonate for bioengineering according to claim 2, wherein the blanking mechanism (5) comprises:

the middle parts of two sides of the top of the base (1) are respectively provided with a fixed plate (50);

the upper parts of the inner sides of the fixed plates (50) are provided with the clamping blocks (51) in a sliding way;

the second springs (52) are arranged between the inner sides of the clamping blocks (51) and the fixing plate (50);

the bottom in the roller (2) is symmetrically provided with the connecting plates (53);

the upper parts of the connecting plates (53) are provided with third springs (55);

the cover plate (54) is arranged between the bottoms of the cover plate (54) and the third spring (55), the cover plate (54) is matched with the clamping block (51), and the cover plate (54) is in contact fit with the roller (2).

4. The drying equipment for the light calcium carbonate for bioengineering according to claim 3, characterized in that, it further comprises a material pushing mechanism (6), the material pushing mechanism (6) comprises:

the guide sleeve (60) is arranged on each of two sides of the top of the base (1);

the pull rod (61) is arranged between the upper parts of the guide sleeves (60) in a sliding way;

and a fourth spring (62) is arranged between the two sides of the pull rod (61) and the guide sleeve (60).

5. The drying equipment for light calcium carbonate for bioengineering according to claim 4, wherein further comprising a trigger mechanism (7), the trigger mechanism (7) comprises:

two fixed shafts (70) are arranged on two sides of the top of the base (1), and the fixed shafts (70) are positioned on the outer sides of the servo motors (40);

the rotating plates (71) are rotatably arranged between the upper parts of the two fixing shafts (70) on the same side;

the torsion springs (72) are arranged between the middle parts of the two sides of the rotating plate (71) and the fixed shaft (70) on the same side;

the upper parts of the outer sides of the sliding rails (44) are respectively provided with a first wedge-shaped block (73) in a sliding mode, the first wedge-shaped blocks (73) are matched with the rotating plate (71), and the first wedge-shaped blocks (73) are matched with the fixed plate (3);

the fifth springs (74) are arranged between the first wedge-shaped block (73) and the slide rail (44) on the same side;

the outer sides of the servo motors (40) are respectively provided with a pressure lever (75) in a sliding manner, the pressure levers (75) are matched with the rotating plate (71), and the pressure levers (75) are matched with the servo motors (40);

and a sixth spring (76) is arranged between the outer side of the pressure lever (75) and the servo motor (40) on the same side.

6. The drying equipment for light calcium carbonate for bioengineering according to claim 5, wherein further comprises a locking mechanism (8), the locking mechanism (8) comprises:

the upper part of the inner side of the fixed plate (50) is provided with the hollow cylinder (80);

the inner sides of the hollow cylinders (80) are both provided with second wedge-shaped blocks (81) in a sliding manner, and the second wedge-shaped blocks (81) are matched with the clamping blocks (51);

and seventh springs (82) are arranged between the upper parts of the second wedge-shaped blocks (81) and the hollow cylinders (80) on the same side.

7. The drying equipment of light calcium carbonate for bioengineering according to claim 6, further comprising a disengaging mechanism (9), wherein the disengaging mechanism (9) comprises:

the first bearing seat (90) is arranged on each of two sides of the top of the base (1);

the upper parts of the second rotating shafts (91) and the first bearing seats (90) are respectively and rotatably provided with the second rotating shafts (91);

one side of the second rotating shaft (91) is provided with a second gear (92);

the top of each first rack (93), the top of each second wedge-shaped block (81) are provided with the first racks (93), and the first racks (93) are meshed with the second gears (92);

a second bearing seat (95), wherein one side of the upper part of the base (1) is symmetrically provided with the second bearing seat (95);

the upper parts of the rotating rods (98) and the second bearing seats (95) are respectively and rotatably provided with the rotating rods (98);

the bevel gears (94) are arranged on the outer sides of the rotating rods (98) and one side of the second rotating shaft (91), and the two bevel gears (94) on the same side are meshed with each other;

a second rack (96), wherein the second rack (96) is symmetrically arranged on one side of the first wedge-shaped block (73) on one side;

third gear (97), dwang (98) inboard all is equipped with third gear (97), and third gear (97) and second rack (96) mesh.

8. The drying apparatus of light calcium carbonate for bioengineering according to claim 1, wherein the drum (2) is uniformly provided with a plurality of circular holes for ventilation.

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