CN112871295A - High-efficient grinding device of medical treatment medicine amoxicillin - Google Patents

Abstract

The invention relates to grinding equipment, in particular to high-efficiency grinding equipment for amoxicillin serving as a medical medicine. The invention provides a medical medicine amoxicillin high-efficiency grinding device which can automatically grind, automatically scrape and automatically collect. The utility model provides a medical treatment medicine amoxicillin high-efficient grinding device, is connected with the backup pad between two brace table lower parts including brace table and backup pad, and the backup pad top is equipped with pulling mechanism, is connected with rolling mechanism between two brace tables, and rolling mechanism is connected with pulling mechanism. According to the invention, the pulling mechanism and the rolling mechanism are arranged, the rolling mechanism is driven to operate by the operation of the pulling mechanism, the rolling mechanism repeatedly rolls amoxicillin, so that amoxicillin is ground into powder, and the aim of automatic grinding is achieved.

Description

High-efficient grinding device of medical treatment medicine amoxicillin

Technical Field

The invention relates to grinding equipment, in particular to high-efficiency grinding equipment for amoxicillin serving as a medical medicine.

Background

The amoxicillin is an antibiotic drug, has strong sterilization effect and strong cell wall penetrating capability, is one of oral penicillins widely applied at present, and in the production process of amoxicillin, massive amoxicillin needs to be ground into powder, but a common grinder needs to be continuously pushed and pulled by workers to perform grinding operation under the action of gravity and friction force, so that the grinding efficiency is low, the working labor intensity is high, and the labor cost is high.

Patent application CN108176461A, published as 2018.06.19, a medicine grinder for medical treatment is disclosed, including the abrasive sheet, a machine support, transparent toughened glass, including a motor, an end cap, a controller, and a cover plate, the speed reducer main shaft, screw thread adjustment mechanism, first rotation axis and buffer coupling mechanism etc, cooperation through hopper and flexible pipe down is used, can not cause granular or foliate traditional chinese medicine to spill, be convenient for place the inside of grinding the groove with traditional chinese medicine rapidly, then adjust screw thread adjustment mechanism and provide required pressure, open the motor afterwards, at this moment, under the effect of motor, the grinding wheel is the rotation of circular, under the effect of frictional force and gravity, play effectual grinding effect, however, the device grinds the back, need artifical manual scraping and collection, waste time and energy.

Therefore, the development of an efficient amoxicillin grinding device for medical treatment, which can automatically grind, scrape and collect is urgently needed.

Disclosure of Invention

The invention aims to provide a medical medicine amoxicillin high-efficiency grinding device which can automatically grind, scrape and collect, so as to overcome the defects of low manual grinding efficiency, high labor intensity and high cost in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a medical treatment medicine amoxicillin high-efficient grinding device, is connected with the backup pad between two brace table lower parts including brace table and backup pad, and the backup pad top is equipped with pulling mechanism, is connected with rolling mechanism between two brace tables, and rolling mechanism is connected with pulling mechanism.

Optionally, an air cylinder is arranged on the inner side of the upper portion of the supporting plate, a first pull rod is arranged on the rolling mechanism and connected with the air cylinder, two extrusion rods are arranged on the first pull rod, a first rack is arranged on the extrusion rod on one side, and two shifting blocks are arranged on the first pull rod.

Optionally, fixed frames are arranged on the upper portion of the inner side of each support platform, a material bearing plate is connected between the two support platforms, a roller is connected between the two fixed frames in a sliding mode and is connected with the first pull rod, the roller is matched with the material bearing plate, two first full gears are arranged on the roller, two second racks are arranged on the material bearing plate, and the second racks are meshed with the first full gears.

Optionally, be connected with the feeding case between two brace table upper portions, the inboard rotary type in brace table upper portion that is close to one side of first rack is equipped with first transmission shaft, be equipped with one-way gear in the first transmission shaft, one-way gear and first rack toothing, feeding incasement portion rotary type is connected with two secondary drive shafts, all be equipped with the extrusion piece on two secondary drive shafts, two extrusion pieces are mutually supported, be connected with belt assembly between the secondary drive shaft that is close to one side of cylinder and the first transmission shaft, all be equipped with the second all-gear on two secondary drive shafts, two second all-gear intermeshing.

Optionally, three first fixing frames are arranged at the bottom of the material bearing plate, a vibration rod is arranged inside the first fixing frames in a sliding mode and matched with the extrusion rod and the material bearing plate, two first compression springs are wound on the vibration rod, the tops of the first compression springs are connected with the vibration rod, and the bottoms of the first compression springs are connected with the first fixing frames.

Optionally, the inner side of the material bearing plate is slidably provided with two second pull rods, a second compression spring is wound on each second pull rod, the second compression springs are connected between the second pull rods and the material bearing plate, a scraper is connected between the two second pull rods, the scraper is matched with the material bearing plate, two first fixed blocks are arranged on the fixed frame, a first connecting rod is connected between the two extrusion rods, the inner portion of the first connecting rod is slidably connected with a second connecting rod, the second connecting rod is matched with the first fixed block, the inner side of the upper portion of the second connecting rod is provided with two first clamping blocks, the first clamping blocks are slidably connected with the first connecting rods, the first clamping blocks are matched with the scraper, a third compression spring is wound on each of the two first clamping blocks, the bottom of the third compression spring is connected with the second connecting rod, and the top of the third compression spring is.

Optionally, the inboard slidingtype of feeding case is equipped with two third connecting rods, be equipped with two second fixed blocks on the feeding case, all be equipped with the link on two third connecting rods, be connected with the baffle between two links, baffle and feeding case slidingtype connection, all around having fourth compression spring on two third connecting rods, fourth compression spring connects between third connecting rod and feeding case, the inboard slidingtype of link is equipped with the second fixture block, second fixture block and second fixed block and the cooperation of stirring the piece, around having fifth compression spring on the second fixture block, fifth compression spring connects between link and second fixture block.

Optionally, two second fixing frames are arranged on the material bearing plate, a storage box is connected between the two second fixing frames in a sliding mode, the storage box is matched with the material bearing plate, a stop block is arranged on the material bearing plate, and the stop block is matched with the storage box.

Compared with the prior art, the invention has the beneficial effects that:

1. the amoxicillin powder grinding machine is provided with the pulling mechanism and the grinding mechanism, wherein the pulling mechanism operates to drive the grinding mechanism to operate, and the grinding mechanism repeatedly grinds amoxicillin powder to achieve the purpose of automatic grinding;

2. the amoxicillin drug grinding device is provided with the extrusion mechanism, the pulling mechanism operates to drive the extrusion mechanism to operate, so that amoxicillin drugs are extruded, the purpose of automatic extrusion is achieved, and the amoxicillin drugs can be ground more fully;

3. according to the invention, the vibrating mechanism is arranged, the pulling mechanism operates to drive the vibrating mechanism to operate, so that part of the rolling mechanism vibrates, and the ground medicine powder can be prevented from being stuck in the rolling mechanism;

4. according to the automatic medicine powder scraping mechanism, the scraping mechanism is arranged, the pulling mechanism operates to drive the scraping mechanism to operate, and the scraping mechanism scrapes medicine powder in the rolling mechanism, so that the automatic material scraping effect is achieved;

5. according to the invention, the opening and closing mechanism is arranged, and the pulling mechanism operates to drive the opening and closing mechanism to operate, so that the extruded medicine intermittently falls into the rolling mechanism from the extrusion mechanism, and the effect of intermittent blanking is achieved;

6. according to the invention, the storage mechanism is arranged, so that when the scraping mechanism scrapes off the medicine powder in the rolling mechanism, the medicine powder falls into the storage mechanism due to gravity, and the storage mechanism collects the medicine powder, thereby achieving the effect of automatic collection.

Drawings

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

Fig. 2 is a schematic perspective view of the pulling mechanism of the present invention.

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

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

Fig. 5 is a schematic perspective view of a first part of the vibration mechanism of the present invention.

Fig. 6 is a schematic perspective view of a second part of the vibration mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first part of the scraping mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of a second scraping mechanism according to the present invention.

Fig. 9 is a schematic view of a first partial structure of the opening and closing mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second mechanism of the opening and closing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a third opening and closing mechanism of the present invention.

Fig. 12 is a schematic perspective view of the storage mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: support table, 2: support plate, 3: pulling mechanism, 31: cylinder, 32: first tie bar, 33: extrusion stem, 34: first rack, 35: toggle block, 4: rolling mechanism, 41: fixing frame, 42: material-receiving plate, 43: drum, 44: first full gear, 45: second rack, 5: pressing mechanism, 51: feed box, 52: first transmission shaft, 521: one-way gear, 53: second drive shaft, 54: belt assembly, 55: extrusion block, 56: second full gear, 6: vibration mechanism, 61: first mount, 62: vibration rod, 63: first compression spring, 7: scraping mechanism, 71: second tie rod, 72: first fixing block, 73: second compression spring, 74: scraper, 75: first connecting rod, 76: second connecting rod, 77: first latch, 78: third compression spring, 8: opening and closing mechanism, 81: third connecting rod, 82: second fixed block, 83: connecting frame, 84: fourth compression spring, 85: second latch, 86: fifth compression spring, 87: baffle, 9: storage mechanism, 91: second mount, 92: stopper, 93: and a storage box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, the present invention provides a technical solution: a medical medicine amoxicillin high-efficiency grinding device comprises a supporting table 1, a supporting plate 2, a pulling mechanism 3, a cylinder 31, a first pull rod 32, an extrusion rod 33, a first rack 34, a poking block 35, a rolling mechanism 4, a fixing frame 41, a material bearing plate 42, a roller 43, a first full gear 44, a second rack 45, an extrusion mechanism 5, a feeding box 51, a first transmission shaft 52, a one-way gear 521, a second transmission shaft 53, a belt component 54, an extrusion block 55, a second full gear 56, a vibration mechanism 6, a first fixing frame 61, a vibration rod 62, a first compression spring 63, a scraping mechanism 7, a second pull rod 71, a first fixing block 72, a second compression spring 73, a scraper 74, a first connecting rod 75, a second connecting rod 76, a first fixture block 77, a third compression spring 78, an opening and closing mechanism 8, a third connecting rod 81, a second fixing block 82, a connecting frame 83, a fourth compression spring 84, a third compression spring 73, a second fixing, Second fixture block 85, fifth compression spring 86, baffle 87, storage mechanism 9, second mount 91, dog 92 and storage box 93, be connected with backup pad 2 between two supporting bench 1 lower parts, backup pad 2 top is equipped with pulling mechanism 3, is connected with rolling mechanism 4 between two supporting bench 1, and rolling mechanism 4 is connected with pulling mechanism 3.

The cylinder 31 is arranged on the inner side of the upper portion of the supporting plate 2, the first pull rod 32 is arranged on the rolling mechanism 4, the first pull rod 32 is connected with the rear side of the cylinder 31, the extrusion rods 33 are arranged on the left and right sides of the front portion of the first pull rod 32, a first rack 34 is arranged on the left side of the left extrusion rod 33, and the toggle blocks 35 are arranged on the left and right sides of the upper portion of the front side of the first pull rod 32.

The upper portion of the inboard of brace table 1 is equipped with fixed frame 41, is connected with holding board 42 between two brace tables 1, and slidingly be connected with cylinder 43 between the fixed frame 41 of the left and right sides, and cylinder 43 is connected with first pull rod 32, and cylinder 43 and holding board 42 cooperation all are equipped with first full gear 44 the left and right sides of cylinder 43, and the left and right sides of holding board 42 top all is equipped with second rack 45, and second rack 45 and first full gear 44 meshing.

Be connected with feeding case 51 between two brace table 1 upper portions, the inboard rotary type in left brace table 1 upper portion is equipped with first transmission shaft 52, first transmission shaft 52 right side is equipped with one-way gear 521, one-way gear 521 meshes with first rack 34, the rotary type is connected with two second transmission shafts 53 between the inside left and right sides of feeding case 51, all be equipped with extrusion piece 55 on the second transmission shaft 53 of front and back both sides, two extrusion piece 55 are mutually supported, be connected with belt assembly 54 between the second transmission shaft 53 left part of front side and the first transmission shaft 52, two second transmission shaft 53 left parts all are equipped with second full gear 56, the second full gear 56 intermeshing of front and back both sides.

Three first fixing frames 61 are arranged at the bottom of the material bearing plate 42, a vibration rod 62 is arranged on the inner side of each first fixing frame 61 in a sliding mode, the vibration rod 62 is matched with the extrusion rod 33 and the material bearing plate 42, two first compression springs 63 are wound on the vibration rod 62, the tops of the first compression springs 63 are connected with the vibration rod 62, and the bottoms of the first compression springs 63 are connected with the first fixing frames 61.

Two second pull rods 71 are slidably arranged on the inner side of the rear part of the material bearing plate 42, a second compression spring 73 is wound on the rear part of each second pull rod 71, the second compression springs 73 are connected between the second pull rods 71 and the material bearing plate 42, scrapers 74 are connected between the front sides of the second pull rods 71 on the left side and the right side, the scrapers 74 are matched with the material bearing plate 42, first fixing blocks 72 are respectively arranged on the left side and the right side of the front part of the bottom side of the fixing frame 41, first connecting rods 75 are connected between the extrusion rods 33 on the left side and the right side, second connecting rods 76 are slidably connected inside the first connecting rods 75, the second connecting rods 76 are matched with the first fixing blocks 72, two first clamping blocks 77 are arranged on the inner side of the upper part of each second connecting rod 76, the first clamping blocks 77 are slidably connected with the first connecting rods 75, the first clamping blocks 77 are matched with the scrapers 74, third compression springs 78 are wound, the top of the third compression spring 78 is connected to the first connecting rod 75.

Third connecting rods 81 are arranged on the inner sides of the lower portions of the left side and the right side of the feeding box 51 in a sliding mode, second fixing blocks 82 are arranged on the rear sides of the lower portions of the left side and the right side of the feeding box 51 in a sliding mode, connecting frames 83 are arranged on the front sides of the third connecting rods 81 of the left side and the right side, baffle plates 87 are connected between the connecting frames 83 of the left side and the right side, the baffle plates 87 are connected with the feeding box 51 in a sliding mode, fourth compression springs 84 are wound on the two third connecting rods 81, the fourth compression springs 84 are connected between the third connecting rods 81 and the feeding box 51, second clamping blocks 85 are arranged on the inner sides of the connecting frames 83 in a sliding mode, the second clamping blocks 85 are matched with the second fixing blocks 82 and the poking block 35, fifth compression springs 86 are wound on.

Two second fixing frames 91 are arranged at the front part of the bottom side of the material bearing plate 42, a storage box 93 is connected between the second fixing frames 91 at the left side and the right side in a sliding manner, the storage box 93 is matched with the material bearing plate 42, a stop block 92 is arranged at the left side of the front part of the bottom side of the material bearing plate 42, and the stop block 92 is matched with the storage box 93.

When people need grind the medical medicine amoxicillin, at first people put the amoxicillin medicine in rolling mechanism 4, then make pulling mechanism 3 operate, pulling mechanism 3 operates and drives rolling mechanism 4 to operate, rolling mechanism 4 rolls repeatedly the amoxicillin medicine, thereby grind it into powder, so reached the purpose of high-efficient grinding, later people manually scrape powdered amoxicillin in rolling mechanism 4 off, and collect it, if people still need grind the amoxicillin medicine, can continue to put unground amoxicillin medicine in rolling mechanism 4, if amoxicillin medicine grinding work has all been accomplished, people make pulling mechanism 3 stop operating, thereby make rolling mechanism 4 stop operating, if use this equipment once more, can repeatedly above-mentioned step.

After people put the amoxicillin medicine, open cylinder 31, cylinder 31 function can make first pull rod 32 remove repeatedly from beginning to end, and then make extrusion stem 33 and dial piece 35 remove repeatedly from beginning to end, left extrusion stem 33 removes and makes first rack 34 remove repeatedly from beginning to end, first pull rod 32 removes and makes partial rolling mechanism 4 operation in addition, and then roll the amoxicillin medicine repeatedly, thereby grind it into powder, treat that the work of grinding is whole to be accomplished the back, people close cylinder 31, make first rack 34 and dial piece 35 stop motion, make rolling mechanism 4 stall simultaneously, the operation so, time saving and labor saving.

The amoxicillin medicine is placed on the top of the material bearing plate 42, when the first pull rod 32 moves backwards, the first pull rod 32 makes the roller 43 slide backwards in the fixing frame 41, the roller 43 moves to drive the first full gear 44 to move backwards, the second rack 45 makes the first full gear 44 rotate due to the engagement of the first full gear 44 and the second rack 45, and then the roller 43 rotates, when the first pull rod 32 moves forwards, the first pull rod 32 makes the roller 43 and the first full gear 44 move forwards, and simultaneously the second rack 45 makes the first full gear 44 rotate reversely, and then the roller 43 rotates reversely, during the movement and rotation of the roller 43, the roller 43 cooperates with the material bearing plate 42, and then the amoxicillin medicine on the top of the material bearing plate 42 is repeatedly rolled, so that the amoxicillin medicine is ground into powder, then the powdery amoxicillin on the top of the material bearing plate 42 is scraped off and collected manually, thus, the purpose of automatic grinding is achieved.

When the first rack 34 moves forwards to be meshed with the one-way gear 521, the first rack 34 moves to enable the one-way gear 521 to rotate, the first transmission shaft 52 rotates, the belt assembly 54 rotates, the second transmission shaft 53 on the front side rotates to drive the second full gear 56 on the front side and the extrusion block 55 to rotate, the second full gear 56 on the front side rotates to drive the second full gear 56 on the rear side to rotate due to the fact that the second full gears 56 on the front side and the rear side are meshed with each other, the second full gear 56 on the rear side rotates to drive the second full gear 56 on the rear side to rotate, the extrusion blocks 55 on the rear side and the front side and the rear side rotate to extrude the amoxicillin, the amoxicillin crushed amoxicillin falls to the top of the material bearing plate 42 from between the two extrusion blocks 55 after extrusion due to gravity, the roller 43 rolls the amoxicillin drug, so that the amoxicillin drug can be ground more fully, when the first rack 34 moves backwards to be meshed with the one-way gear 521, the first rack 34 moves backwards to enable the one-way gear 521 to idle, and at the moment, the extrusion block 55 cannot rotate.

When the extrusion rod 33 moves to contact with the vibration rod 62, the extrusion rod 33 enables the vibration rod 62 to slide downwards in the first fixing frame 61, the first compression spring 63 is changed from an initial state to a compressed state, when the extrusion rod 33 is separated from the vibration rod 62, the first compression spring 63 is reset from the compressed state, the vibration rod 62 moves back upwards to the original position due to the elastic force, due to the influence of inertia, the vibration rod 62 moves upwards to impact the material bearing plate 42 in a small amplitude, and then the material bearing plate 42 is vibrated, so that the ground medicine powder can be prevented from being stuck on the material bearing plate 42.

In the initial state, since the second connecting rod 76 is matched with the first fixing block 72, and the third compression spring 78 is in a compressed state, when the extruding rod 33 moves backwards, the extruding rod 33 drives the first connecting rod 75 to move backwards, so that the second connecting rod 76 moves backwards, so that the first clamping block 77 and the third compression spring 78 move backwards, when the second connecting rod 76 is separated from the first fixing block 72, the third compression spring 78 is reset from the compressed state, the second connecting rod 76 moves downwards by the elastic force, so that the first clamping block 77 moves downwards, the roller 43 moves backwards and rolls the medicine, when the first clamping block 77 is moved to be in contact with the scraper 74, the scraper 74 makes the first clamping block 77 slide upwards in the first connecting rod 75, so that the second connecting rod 76 moves upwards, and simultaneously, the third compression spring 78 changes from the initial state to the compressed state, when the first clamping block 77 is separated from the scraper 74, the third compression spring 78 is reset from the compression state, the first fixture block 77 and the second fixture block 76 move downwards due to the elastic force, at the moment, the first fixture block 77 clamps the scraper 74, when the extrusion rod 33 moves forwards, the extrusion rod 33 enables the second connection rod 76 and the first fixture block 77 to move forwards, meanwhile, the roller 43 rolls the medicines again, the first fixture block 77 moves to enable the scraper 74 to slide forwards on the material bearing plate 42, further, the second pull rod 71 slides forwards in the material bearing plate 42, the second compression spring 73 changes from the initial state to the compression state, the scraper 74 moves and scrapes powdery amoxicillin medicines on the material bearing plate 42, so that the powdery medicines move forwards, then, the powdery medicines fall off from the material bearing plate 42 due to the gravity, people manually collect the powdery medicines, when the second connection rod 76 moves to be in contact with the first fixing block 72, the first fixing block 72 enables the second connection rod 76 to move upwards, and then the first block 77 slides upwards in the scraper 74, the third compression spring 78 is changed from the initial state to the compression state, when the first block 77 is separated from the scraper 74, the second compression spring 73 is reset from the compression state, and the elastic force enables the second pull rod 71 and the scraper 74 to move back to the original position, so that the purpose of automatic scraping is achieved.

When the shifting block 35 and the first rack 34 move forward, the squeezing blocks 55 squeeze amoxicillin drugs, the squeezed amoxicillin drugs fall from between the two squeezing blocks 55 to the top of the baffle 87 due to gravity, when the shifting block 35 moves forward to contact with the second clamping block 85, the shifting block 35 enables the second clamping block 85 to slide upward in the connecting frame 83, the fifth compression spring 86 changes from an initial state to a compression state, when the shifting block 35 is separated from the second clamping block 85, the fifth compression spring 86 resets from the compression state, the second clamping block 85 moves back downward by elasticity, when the shifting block 35 moves backward to contact with the second clamping block 85, the shifting block 35 pushes the second clamping block 85 to move backward, so that the connecting frame 83 moves backward, the third connecting rod 81 slides backward in the feeding box 51, the fourth compression spring 84 changes from the initial state to the compression state, and simultaneously the connecting frame 83 enables the baffle 87 to slide backward in the feeding box 51, at this time, the amoxicillin medicine on the top of the baffle 87 falls to the top of the material bearing plate 42 due to gravity, when the second fixture block 85 moves to contact with the second fixture block 82, the second fixture block 85 slides upwards in the connecting frame 83 due to the second fixture block 82, the fifth compression spring 86 changes from an initial state to a compressed state, then the toggle block 35 is separated from the second fixture block 85, the fourth compression spring 84 is reset from the compressed state, the elastic force enables the connecting frame 83 and the baffle 87 to move back to the original position, the connecting frame 83 enables the second fixture block 85 to move forwards, and the fifth compression spring 86 is reset from the compressed state, so that the second fixture block 85 is reset to the original position, the purpose of intermittent blanking is achieved, and the medicine which is not ground can be prevented from being scraped from the material bearing plate 42 by the scraper 74.

When the scraper 74 moves forwards, the scraper 74 enables the powdery amoxicillin medicine on the material bearing plate 42 to move forwards, then the powdery medicine falls into the storage box 93 from the material bearing plate 42 due to gravity, the storage box 93 collects the powdery amoxicillin medicine, and therefore the purpose of automatic collection is achieved, after sufficient powdery amoxicillin medicine is accumulated in the storage box 93, people manually slide the storage box 93 out of the second fixing frame 91 to the right, people pour out the powdery amoxicillin medicine again, then the storage box 93 moves back to the original position, and at the moment, the stop block 92 can prevent the storage box 93 from moving too much to the left.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a medical treatment medicine amoxicillin high-efficient grinding device, is including brace table (1) and backup pad (2), characterized by, is connected with backup pad (2) between two brace table (1) lower parts, and backup pad (2) top is equipped with pulling mechanism (3), is connected with between two brace table (1) and rolls mechanism (4), rolls mechanism (4) and is connected with pulling mechanism (3).

2. The efficient amoxicillin grinding equipment as medical medicine as claimed in claim 1, wherein an air cylinder (31) is arranged at the inner side of the upper part of the support plate (2), a first pull rod (32) is arranged on the rolling mechanism (4), the first pull rod (32) is connected with the air cylinder (31), two extrusion rods (33) are arranged on the first pull rod (32), a first rack (34) is arranged on the extrusion rod (33) at one side, and two shifting blocks (35) are arranged on the first pull rod (32).

3. The efficient amoxicillin grinding equipment as claimed in claim 2, wherein the upper part of the inside of the supporting platforms (1) is provided with a fixed frame (41), a material bearing plate (42) is connected between the two supporting platforms (1), a roller (43) is slidably connected between the two fixed frames (41), the roller (43) is connected with the first pull rod (32), the roller (43) is matched with the material bearing plate (42), the roller (43) is provided with two first full gears (44), the material bearing plate (42) is provided with two second racks (45), and the second racks (45) are engaged with the first full gears (44).

4. The efficient amoxicillin grinding device as claimed in claim 3, wherein a feeding box (51) is connected between the upper portions of the two supporting platforms (1), a first transmission shaft (52) is rotatably arranged on the inner side of the upper portion of the supporting platform (1) near one side of the first rack (34), a one-way gear (521) is arranged on the first transmission shaft (52), the one-way gear (521) is engaged with the first rack (34), two second transmission shafts (53) are rotatably connected in the feeding box (51), two extrusion blocks (55) are arranged on the two second transmission shafts (53), the two extrusion blocks (55) are matched with each other, a belt assembly (54) is connected between the second transmission shaft (53) near one side of the roller (43) and the first transmission shaft (52), a second full gear (56) is arranged on each of the two second transmission shafts (53), and the two second full gears (56) are engaged with each other.

5. The efficient amoxicillin grinding equipment as claimed in claim 4, wherein three first fixing frames (61) are arranged at the bottom of the material bearing plate (42), a vibration rod (62) is slidably arranged inside each first fixing frame (61), the vibration rod (62) is matched with the extrusion rod (33) and the material bearing plate (42), two first compression springs (63) are wound on the vibration rod (62), the tops of the first compression springs (63) are connected with the vibration rod (62), and the bottoms of the first compression springs (63) are connected with the first fixing frames (61).

6. The efficient amoxicillin grinding device for medical treatment as claimed in claim 5, wherein two second pull rods (71) are slidably disposed inside the material-holding plate (42), a second compression spring (73) is wound on the second pull rods (71), the second compression spring (73) is connected between the second pull rods (71) and the material-holding plate (42), a scraper (74) is connected between the two second pull rods (71), the scraper (74) is matched with the material-holding plate (42), two first fixing blocks (72) are disposed on the fixing frame (41), a first connecting rod (75) is connected between the two extrusion rods (33), a second connecting rod (76) is slidably connected inside the first connecting rod (75), the second connecting rod (76) is matched with the first fixing block (72), a first clamping block (77) is disposed inside the upper portion of the second connecting rod (76), and the first clamping block (77) is slidably connected with the first connecting rod (75), the first clamping blocks (77) are matched with the scraper (74), the third compression springs (78) are wound on the two first clamping blocks (77), the bottoms of the third compression springs (78) are connected with the second connecting rod (76), and the tops of the third compression springs (78) are connected with the first connecting rod (75).

7. The efficient amoxicillin grinding equipment as claimed in claim 6, wherein two third connecting rods (81) are slidably arranged on the inner side of the feeding box (51), two second fixing blocks (82) are arranged on the feeding box (51), two connecting frames (83) are arranged on each of the two third connecting rods (81), a baffle (87) is connected between the two connecting frames (83), the baffle (87) is slidably connected with the feeding box (51), a fourth compression spring (84) is wound on each of the two third connecting rods (81), the fourth compression spring (84) is connected between the third connecting rod (81) and the feeding box (51), a second clamping block (85) is slidably arranged on the inner side of the connecting frame (83), the second clamping block (85) is matched with the second fixing block (82) and the poking block (35), a fifth compression spring (86) is wound on each of the second clamping block (85), and the fifth compression spring (86) is connected between the connecting frame (83) and the second clamping block (85).

8. The efficient amoxicillin grinding equipment for medical treatment as claimed in claim 7, wherein two second fixing frames (91) are arranged on the material-holding plate (42), a storage box (93) is slidably connected between the two second fixing frames (91), the storage box (93) is matched with the material-holding plate (42), a stop block (92) is arranged on the material-holding plate (42), and the stop block (92) is matched with the storage box (93).

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