CN112775107A - Efficient cleaning device for outer surface of biological capsule - Google Patents

Abstract

The invention relates to a cleaning device, in particular to an efficient cleaning device for the outer surface of a biological capsule. The invention provides an efficient cleaning device for the outer surface of a biological capsule, which has the advantages of short consumed time, reduced working difficulty and higher automation degree. An efficient cleaning device for the outer surface of a biological capsule, comprising: the bottom plate is provided with a conveying mechanism; the adsorption mechanism is arranged on the conveying mechanism. According to the invention, the conveying assembly drives the first rotating shaft at the rear side to rotate, the biological capsule is placed on the conveying assembly, and the conveying assembly conveys the biological capsule forwards, so that the conveying effect is realized; when transporting wind-guiding box below through biological capsule, updraft can upwards absorb biological capsule, and biological capsule passes through wind-guiding box and trachea, enters into the wind-guiding intraductal, and the dust is cleaned on the biological capsule to the second pivot to realize adsorption effect.

Description

Efficient cleaning device for outer surface of biological capsule

Technical Field

The invention relates to a cleaning device, in particular to an efficient cleaning device for the outer surface of a biological capsule.

Background

In the traditional biological capsule cleaning process, the biological capsules are wiped manually, and the biological capsules are wiped one by one, so that the process is long in time consumption and increases the working difficulty.

Patent application CN211573547U, it is 20200925 to disclose a microbial capsules injection device that is used for fracture rock mass solidification prevention of seepage to pass through, including the feed bin, the inlet pipe, the water injection pipe, the discharge opening, the stirring leaf, the movable block, outer calandria, the bottom plate, booster pump and output tube etc, through pouring the microbial capsules into the feed bin, the microbial capsules passes through the feed bin and flows in the inlet pipe, start the booster pump, the pressure that the booster pump produced pops out the microbial capsules output tube, the rethread discharge opening enters into subaerially, however, this equipment manual operation is more, be not convenient for the workman to operate.

Therefore, the efficient cleaning device for the outer surface of the biological capsule is designed, which is short in consumed time, low in working difficulty and high in automation degree.

Disclosure of Invention

In order to overcome the defects that the traditional biological capsule is long in wiping time, high in working difficulty and easy to cause the worker to breed a dysphoric mind, the invention has the technical problems that: the efficient cleaning device for the outer surface of the biological capsule is short in consumed time, low in working difficulty and high in automation degree.

The technical implementation scheme of the invention is as follows: an efficient cleaning device for the outer surface of a biological capsule, comprising:

the bottom plate is provided with a conveying mechanism;

the adsorption mechanism is arranged on the conveying mechanism.

As an improvement of the above aspect, the conveyance mechanism includes:

the bottom plates are provided with the striker plates;

the first rotating shaft is symmetrically and rotatably connected between the two striker plates;

the conveying assembly is connected between the two first rotating shafts;

the bottom plate is provided with a first servo motor;

and a first rotating assembly is connected between the output shaft of the first servo motor and the first rotating shaft.

As an improvement of the above aspect, the adsorption mechanism includes:

the bottom plate is provided with an air guide pipe;

the bottom of the air guide pipe is provided with three air pipes;

the bottom ends of the three air pipes are provided with the air guide box body, and the air guide box body is connected with the material baffle plate;

the mounting rack is arranged on the air guide pipe;

the second rotating shaft is rotatably connected between the mounting frame and the air guide pipe;

the mounting frame is provided with a second servo motor;

and a first conical wheel assembly is connected between the output shaft of the second servo motor and the second rotating shaft.

As the improvement of above-mentioned scheme, still including the round brush mechanism, be equipped with the round brush mechanism on the bottom plate, the round brush mechanism includes:

the bottom plate is provided with a material containing barrel;

the material containing barrel is provided with a plurality of fixing plates;

the first sliding rods are arranged on the two fixing plates in a sliding manner;

the blanking plate is connected between the two first sliding rods and is in contact with the material containing barrel;

the middle part of the charging bucket is rotatably provided with a third rotating shaft;

the air guide pipe is provided with a first fixed block;

the first fixing block is rotatably provided with a first rotating shaft;

the second rotating assembly is connected between the fourth rotating shaft and the third rotating shaft;

and a second tapered wheel set is connected between the fourth rotating shaft and the second rotating shaft.

As the improvement of above-mentioned scheme, still including screening mechanism, be equipped with screening mechanism on the bottom plate, screening mechanism includes:

the first rotating shaft is provided with a gear lack;

the striker plate is rotatably provided with a fifth rotating shaft;

a spur gear is arranged on the fifth rotating shaft and is meshed with the missing gear;

the fifth rotating shaft is provided with a lug;

the bottom plate is rotatably provided with a sixth rotating shaft;

the sieve plate is connected between the two sixth rotating shafts;

the sieve plate is rotatably provided with a seventh rotating shaft;

the bottom plate is provided with a first elastic component;

the top end of the first elastic component is provided with a pressing block, and the pressing block is in contact fit with the lug;

the top of the pressing block is provided with a connecting block;

the inner wall of the connecting block is provided with a telescopic component;

the connecting rod is connected between the telescopic assembly and the seventh rotating shaft in a sliding manner;

the material guide plate is arranged on the bottom plate and is connected with the material containing barrel.

As the improvement of above-mentioned scheme, still including unloading complementary unit, the striker plate top is equipped with unloading complementary unit, and unloading complementary unit includes:

the top of the baffle plate is provided with a baffle block;

the bottom plate is provided with a second fixed block;

the second elastic component is arranged on the second fixing block in a sliding mode;

the lower part of the second elastic component is provided with a wedge block;

the pushing block is arranged on the blanking plate and is in contact fit with the wedge-shaped block;

the third elastic assembly is connected between the pushing block and the material containing barrel;

the top end of the second elastic component is provided with a pressing rod, and the pressing rod is in contact fit with the sieve plate.

As the improvement of above-mentioned scheme, still including accuse material mechanism, be equipped with accuse material mechanism on the bottom plate, accuse material mechanism includes:

the bottom plate is provided with a plurality of fixed rods;

the material containing box body is connected between the two fixing rods;

the material guide frame is arranged at the bottom of the material containing box body;

the guide frames are provided with second slide bars;

the material control plate is connected between the two second sliding rods in a sliding manner and is in contact fit with the material guide frame;

ejector rods are symmetrically arranged at the bottoms of the material control plates and are in contact fit with the sieve plates.

The beneficial effects are that: 1. according to the invention, the conveying assembly drives the first rotating shaft at the rear side to rotate, the biological capsule is placed on the conveying assembly, and the conveying assembly conveys the biological capsule forwards, so that the conveying effect is realized;

2. when the biological capsule is conveyed to the lower part of the air guide box body, the ascending air flow can upwards absorb the biological capsule, the biological capsule enters the air guide pipe through the air guide box body and the air pipe, and the second rotating shaft cleans dust on the biological capsule, so that the adsorption effect is realized;

3. according to the biological capsule rolling brush, the first sliding rod drives the blanking plate to move leftwards, the discharge hole of the material containing barrel is opened, so that biological capsules fall on the conveying assembly, and the rolling brush effect is realized;

4. according to the invention, the seventh rotating shaft is driven to rotate through the connecting rod, the sieve plate is driven to move downwards by the seventh rotating shaft, the sieve plate drives the sixth rotating shaft to rotate, so that the sieve plate is inclined downwards, and the biological capsules on the sieve plate fall into the material containing barrel, so that the screening effect is realized;

5. the third elastic component resets, so that the pushing block is driven to move leftwards, the pushing block drives the blanking plate to move leftwards, the discharge hole of the containing barrel is opened, and the blanking auxiliary effect is realized.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a perspective view of a second perspective structure according to the present invention.

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

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

Fig. 5 is a schematic cross-sectional three-dimensional structure of the roll brush mechanism of the present invention.

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

Fig. 7 is a schematic perspective view of the auxiliary blanking mechanism of the present invention.

Fig. 8 is a schematic perspective view of the material control mechanism of the present invention.

Number designation in the figures: 1. the conveying mechanism comprises a bottom plate, 2, a conveying mechanism, 21, a material baffle plate, 22, a first rotating shaft, 23, a conveying component, 24, a first servo motor, 25, a first rotating component, 3, an adsorption mechanism, 31, an air guide pipe, 32, an air pipe, 33, an air guide box body, 34, a mounting frame, 35, a second rotating shaft, 36, a second servo motor, 37, a first conical wheel component, 4, a rolling brush mechanism, 41, a material containing barrel, 42, a fixing plate, 43, a material discharging plate, 44, a first sliding rod, 45, a third rotating shaft, 46, a first fixing block, 47, a fourth rotating shaft, 48, a second rotating component, 49, a second conical wheel component, 5, a screening mechanism, 51, a missing gear, 52, a fifth rotating shaft, 53, a straight gear, 54, a lug, 55, a pressing block, 56, a first elastic component, 57, a connecting block, 58, a telescopic component, 59, a sixth rotating shaft, 510, a screen plate, 511, a seventh rotating shaft, 512, Connecting rod, 513, stock guide, 6, unloading complementary unit, 61, dog, 62, second fixed block, 63, second elastic component, 64, wedge, 65, ejector pad, 66, depression bar, 67, third elastic component, 7, accuse material mechanism, 71, dead lever, 72, flourishing material box, 73, guide frame, 74, second slide bar, 75, accuse flitch, 76, ejector pin.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A device for efficiently cleaning the outer surface of a biological capsule comprises a bottom plate 1, a conveying mechanism 2 and an adsorption mechanism 3, wherein the conveying mechanism 2 is arranged on the bottom plate 1, and the adsorption mechanism 3 is arranged on the conveying mechanism 2, as shown in figures 1 and 2.

When people want to clean the outer surface of the biological capsule, the device can be used, firstly, a user starts the conveying mechanism 2, then starts the adsorption mechanism 3, then puts the biological capsule into the conveying mechanism 2, the conveying mechanism 2 conveys the biological capsule, when conveying the biological capsule to a certain range, the adsorption mechanism 3 can generate an updraft to upwards adsorb the biological capsule, and after adsorption is completed, the conveying mechanism 2 and the adsorption mechanism 3 are closed.

Example 2

On the basis of embodiment 1, as shown in fig. 3 and 4, the conveying mechanism 2 includes the striker plates 21, the first rotating shafts 22, the conveying assemblies 23, the first servo motors 24 and the first rotating assemblies 25, the striker plates 21 are respectively disposed on the left and right sides of the bottom plate 1, the first rotating shafts 22 are symmetrically and rotatably connected between the two striker plates 21, the conveying assemblies 23 are connected between the two first rotating shafts 22, the first servo motors 24 are mounted on the left portion of the front side of the bottom plate 1, and the first rotating assemblies 25 are connected between the output shafts of the first servo motors 24 and the first rotating shafts 22 on the front side.

The user starts first servo motor 24, first servo motor 24 output shaft drives first rotating assembly 25 and rotates, thereby drive the rotation of first pivot 22 of front side, and then drive transfer module 23 and rotate, transfer module 23 drives the rotation of first pivot 22 of rear side, put into transfer module 23 with biological capsule on, transfer module 23 transports biological capsule forward, the realization is transported the effect, biological capsule transports the completion back, close first servo motor 24, all stop of above action.

Adsorption apparatus constructs 3 including guide duct 31, trachea 32, wind-guiding box 33, mounting bracket 34, second pivot 35, second servo motor 36 and first cone pulley subassembly 37, be equipped with guide duct 31 on the bottom plate 1, guide duct 31 bottom is equipped with three trachea 32, three trachea 32 bottoms are equipped with wind-guiding box 33, wind-guiding box 33 is connected with striker plate 21, the left wall of wind-guiding tube 31 is equipped with mounting bracket 34, the rotary type is connected with second pivot 35 between mounting bracket 34 and the wind-guiding tube 31, second servo motor 36 is installed to the mounting bracket 34 left wall, be connected with first cone pulley subassembly 37 between second servo motor 36 output shaft and the second pivot 35.

The user starts second servo motor 36, second servo motor 36 output shaft drives first cone pulley subassembly 37 and rotates, thereby it rotates to drive second pivot 35, can produce an updraft when second pivot 35 rotates, when the biological capsule transports wind-guiding box 33 below, updraft can upwards absorb the biological capsule, biological capsule passes through wind-guiding box 33 and trachea 32, enter into in the wind-guiding pipe 31, second pivot 35 is cleaned the dust on the biological capsule, thereby realize the adsorption effect, close second servo motor 36, the action stops above, second pivot 35 stops producing updraft.

Example 3

On the basis of the embodiment 2, as shown in fig. 2 and fig. 5 to fig. 8, the present invention further includes a rolling brush mechanism 4, the bottom plate 1 is provided with the rolling brush mechanism 4, the rolling brush mechanism 4 includes a material containing barrel 41, a fixing plate 42, a material discharging plate 43, a first sliding rod 44, a third rotating shaft 45, a first fixing block 46, a fourth rotating shaft 47, a second rotating assembly 48 and a second tapered wheel set 49, the material containing barrel 41 is provided on the rear side of the bottom plate 1, the left portion of the lower side of the material containing barrel 41 is provided with a plurality of fixing plates 42, the first sliding rods 44 are slidably provided on both the two fixing plates 42, the material discharging plate 43 is connected between the two first sliding rods 44, the material discharging plate 43 is in contact with the material containing barrel 41, the third rotating shaft 45 is rotatably provided in the middle of the material containing barrel 41, the first fixing block 46 is provided on the right wall of the air duct 31, the fourth rotating shaft 47 is rotatably provided on the first fixing block 46, the second rotating, a second cone pulley set 49 is connected between the fourth rotating shaft 47 and the second rotating shaft 35.

The user puts biological capsule into containing bucket 41, when second pivot 35 rotates, second pivot 35 drives second cone pulley group 49 and rotates, thereby drive fourth pivot 47 and rotate, and then drive second rotating assembly 48 and rotate, second rotating assembly 48 drives third pivot 45 and rotates, make third pivot 45 carry out the round brush to the biological capsule in containing bucket 41, after the round brush is accomplished, the user stimulates first slide bar 44 left, first slide bar 44 drives flitch 43 and moves left, open the discharge gate of containing bucket 41, make biological capsule drop on conveying assembly 23, realize the round brush effect, after biological capsule drops and accomplishes, promote first slide bar 44 right, first slide bar 44 drives flitch 43 and moves right, close the discharge gate of containing bucket 41, close second servo motor 36, the above-mentioned action stops.

The screening device also comprises a screening mechanism 5, the screening mechanism 5 is arranged on the bottom plate 1, the screening mechanism 5 comprises a gear lacking 51, a fifth rotating shaft 52, a straight gear 53, a convex block 54, a pressing block 55, a first elastic component 56, a connecting block 57, a telescopic component 58, a sixth rotating shaft 59, a screen plate 510, a seventh rotating shaft 511, a connecting rod 512 and a material guide plate 513, the gear lacking 51 is arranged on the first rotating shaft 22 at the rear side, the fifth rotating shaft 52 is rotatably arranged on the right wall at the rear side of the material blocking plate 21 at the right side, the straight gear 53 is arranged on the fifth rotating shaft 52, the convex block 54 is arranged on the fifth rotating shaft 52, the sixth rotating shafts 59 are rotatably arranged on the left side and the right side of the bottom plate 1, the screen plate 510 is connected between the two sixth rotating shafts 59, the seventh rotating shaft 511 is rotatably arranged on the right side of the screen plate 510, the first elastic component 56 is arranged at the right part of, briquetting 55 and lug 54 contact cooperation, briquetting 55 top rear side is equipped with connecting block 57, and the connecting block 57 inner wall is equipped with flexible subassembly 58, and sliding connection has connecting rod 512 between flexible subassembly 58 and the seventh pivot 511, and the rear side is equipped with stock guide 513 on the bottom plate 1, and stock guide 513 is connected with containing bucket 41.

The user puts the biological capsule on the sieve plate 510, the biological capsule with the standard volume is left on the sieve plate 510, the biological capsule with the non-standard volume passes through the sieve plate 510 and drops on the material guide plate 513, the biological capsule with the non-standard volume passes through the material guide plate 513 and drops on the ground, when the first rotating shaft 22 at the rear side rotates, the first rotating shaft 22 at the rear side drives the gear lacking 51 to rotate, the toothed part of the gear lacking 51 is meshed with the spur gear 53 to drive the spur gear 53 to rotate, and further drive the fifth rotating shaft 52 to rotate, the fifth rotating shaft 52 drives the lug 54 to rotate, when the convex part of the lug 54 is contacted with the pressing block 55, the pressing block 55 is driven to move downwards, the first elastic component 56 is compressed, the pressing block 55 drives the connecting block 57 to move downwards, the telescopic component 58 contracts backwards, so that the connecting rod 512 drives the sieve plate 510 to move downwards through the seventh rotating shaft 511, the sieve plate 510 drives the sixth rotating, make sieve 510 downward sloping, the biological capsule on the sieve 510 drops in containing bucket 41, realize the screening effect, when the briquetting 55 was kept away from to the bulge of lug 54, first elastic component 56 resets to drive briquetting 55 upward movement, briquetting 55 drives connecting block 57 upward movement, makes telescopic component 58 reset, makes connecting rod 512 drive seventh pivot 511 rotate, and seventh pivot 511 drives sieve 510 upward movement, and sieve 510 drives sixth pivot 59 and rotates, makes sieve 510 reset.

Still including unloading complementary unit 6, left striker plate 21 top is equipped with unloading complementary unit 6, unloading complementary unit 6 is including dog 61, second fixed block 62, second elastic component 63, wedge 64, ejector pad 65, depression bar 66 and third elastic component 67, left striker plate 21 top is equipped with dog 61, the left side is equipped with second fixed block 62 on the bottom plate 1, the gliding style is equipped with second elastic component 63 on second fixed block 62, second elastic component 63 lower part is equipped with wedge 64, lower striker plate 43 rear side is equipped with ejector pad 65, ejector pad 65 and the contact cooperation of wedge 64, be connected with third elastic component 67 between ejector pad 65 and the containing bucket 41, second elastic component 63 top is equipped with depression bar 66, depression bar 66 and sieve 510 contact cooperation.

When the sieve plate 510 moves downwards, the sieve plate 510 contacts with the pressure rod 66, thereby driving the pressure rod 66 to move downwards, the second elastic component 63 is compressed, thereby driving the wedge block 64 to move downwards, the wedge block 64 contacts with the push block 65, thereby driving the push block 65 to move rightwards, the third elastic component 67 is compressed, thereby driving the blanking plate 43 to move rightwards, close the discharging port of the containing barrel 41, the wedge block 64 contacts with the stop dog 61, so that the wedge block 64 stops moving downwards, when the sieve plate 510 moves upwards, the sieve plate 510 is far away from the pressure rod 66, the second elastic component 63 resets, thereby driving the pressure rod 66 and the wedge block 64 to move upwards, the wedge block 64 is far away from the push block 65, the third elastic component 67 resets, thereby driving the push block 65 to move leftwards, the push block 65 drives the blanking plate 43 to move leftwards, the discharging port of the containing barrel 41 is opened, and the.

The material control device is characterized by further comprising a material control mechanism 7, the material control mechanism 7 is arranged on the rear side of the bottom plate 1, the material control mechanism 7 comprises fixing rods 71, a material containing box body 72, a material guide frame 73, second sliding rods 74, a material control plate 75 and ejector rods 76, the fixing rods 71 are arranged on two sides of the upper rear portion of the bottom plate 1, the material containing box body 72 is connected between the two fixing rods 71, the material guide frame 73 is arranged at the bottom of the material containing box body 72, the second sliding rods 74 are arranged on the left wall and the right wall of the material guide frame 73, the material control plate 75 is connected between the two second sliding rods 74 in a sliding mode, the ejector rods 76 are symmetrically arranged at the bottom of the material control plate 75, and the ejector.

The user puts into containing box 72 with biological capsule, biological capsule drops on guide frame 73 through containing box 72, sieve 510 does not extrude ejector pin 76 during initial condition, accuse flitch 75 can not block biological capsule, biological capsule drops on sieve 510 by the discharge gate of guide frame 73, after biological capsule all drops, the side direction rotates in the sieve 510 rear side, and then promotes ejector pin 76 rebound, ejector pin 76 drives second slide bar 74 and accuse flitch 75 upward movement, close the discharge gate of guide frame 73, so just can realize biological capsule's intermittent type unloading.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. An efficient cleaning device for the outer surface of a biological capsule, comprising:

the device comprises a bottom plate (1), wherein a conveying mechanism (2) is arranged on the bottom plate (1);

the adsorption mechanism (3) is arranged on the conveying mechanism (2).

2. An efficient cleaning device for the outer surface of biocapsules as claimed in claim 1, wherein the conveying mechanism (2) comprises:

the bottom plate (1) is provided with the striker plates (21);

the first rotating shaft (22) is symmetrically and rotatably connected between the two material baffle plates (21);

the conveying assembly (23) is connected between the two first rotating shafts (22);

the first servo motor (24) is mounted on the bottom plate (1);

and a first rotating assembly (25) is connected between the output shaft of the first servo motor (24) and the first rotating shaft (22).

3. An efficient cleaning device for the outer surface of biological capsules as claimed in claim 2, wherein the adsorption mechanism (3) comprises:

the air guide pipe (31) is arranged on the bottom plate (1);

the bottom of the air guide pipe (31) is provided with three air pipes (32);

the bottom ends of the three air pipes (32) are provided with the air guide box body (33), and the air guide box body (33) is connected with the material baffle plate (21);

the mounting rack (34) is arranged on the air guide pipe (31);

the second rotating shaft (35) is rotatably connected between the mounting rack (34) and the air guide pipe (31);

the second servo motor (36) is mounted on the mounting frame (34);

and a first conical wheel assembly (37) is connected between the output shaft of the first servo motor (36) and the second rotating shaft (35).

4. The device for efficiently cleaning the outer surface of the biocapsule according to claim 3, further comprising a rolling brush mechanism (4), wherein the rolling brush mechanism (4) is arranged on the bottom plate (1), and the rolling brush mechanism (4) comprises:

the bottom plate (1) is provided with a material containing barrel (41);

a plurality of fixing plates (42) are arranged on the material containing barrel (41);

the first sliding rod (44) is arranged on each of the two fixed plates (42) in a sliding manner;

the blanking plate (43) is connected between the two first sliding rods (44), and the blanking plate (43) is in contact with the material containing barrel (41);

a third rotating shaft (45), wherein the middle part of the charging bucket (41) is rotatably provided with the third rotating shaft (45);

the first fixed block (46) is arranged on the air guide pipe (31);

the fourth rotating shaft (47) is rotatably arranged on the first fixing block (46);

the second rotating assembly (48) is connected between the fourth rotating shaft (47) and the third rotating shaft (45);

a second conical wheel set (49), and a second conical wheel set (49) is connected between the fourth rotating shaft (47) and the second rotating shaft (35).

5. The efficient cleaning device for the outer surface of the biocapsule of claim 4, further comprising a screening mechanism (5), wherein the bottom plate (1) is provided with the screening mechanism (5), and the screening mechanism (5) comprises:

a gear lack wheel (51) is arranged on the first rotating shaft (22);

the fifth rotating shaft (52) is rotatably arranged on the striker plate (21);

a straight gear (53) is arranged on the fifth rotating shaft (52), and the straight gear (53) is meshed with the gear lacking gear (51);

the bump (54) is arranged on the fifth rotating shaft (52);

the sixth rotating shafts (59) are rotatably arranged on the bottom plate (1);

the sieve plate (510) is connected between the two sixth rotating shafts (59);

the seventh rotating shaft (511) is rotatably arranged on the sieve plate (510);

the first elastic component (56) is arranged on the bottom plate (1);

the pressing block (55) is arranged at the top end of the first elastic component (56), and the pressing block (55) is in contact fit with the bump (54);

the top of the pressing block (55) is provided with the connecting block (57);

the inner wall of the connecting block (57) is provided with a telescopic component (58);

the connecting rod (512) is connected between the telescopic component (58) and the seventh rotating shaft (511) in a sliding manner;

a material guide plate (513), wherein the material guide plate (513) is arranged on the bottom plate (1), and the material guide plate (513) is connected with the material containing barrel (41).

6. The efficient cleaning device for the outer surface of the biological capsule as recited in claim 5, further comprising a blanking auxiliary mechanism (6), wherein the blanking auxiliary mechanism (6) is disposed on the top of the striker plate (21), and the blanking auxiliary mechanism (6) comprises:

the top of the material baffle plate (21) is provided with a stop block (61);

the bottom plate (1) is provided with a second fixed block (62);

the second elastic component (63) is arranged on the second fixed block (62) in a sliding mode;

the lower part of the second elastic component (63) is provided with a wedge block (64);

the pushing block (65) is arranged on the blanking plate (43), and the pushing block (65) is in contact fit with the wedge-shaped block (64);

the third elastic assembly (67) is connected between the pushing block (65) and the material containing barrel (41);

the top end of the second elastic component (63) is provided with a pressure lever (66), and the pressure lever (66) is in contact fit with the sieve plate (510).

7. The device for efficiently cleaning the outer surface of the biological capsule according to claim 6, further comprising a material control mechanism (7), wherein the material control mechanism (7) is arranged on the bottom plate (1).

8. The device for efficiently cleaning the outer surface of the biological capsule, according to claim 6, is characterized in that the material control mechanism (7) comprises:

the fixing rods (71), a plurality of fixing rods (71) are arranged on the bottom plate (1);

the material containing box body (72) is connected between the two fixing rods (71);

the material guide frame (73) is arranged at the bottom of the material containing box body (72);

the second sliding rods (74) are arranged on the material guide frames (73);

the material control plate (75) is connected between the two second sliding rods (74) in a sliding manner, and the material control plate (75) is in contact fit with the material guide frame (73);

ejector rods (76) are symmetrically arranged at the bottoms of the ejector rods (76) and the material control plates (75), and the ejector rods (76) are in contact fit with the sieve plates (510).

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