CN113120324A

CN113120324A - Filling all-in-one is smashed to mineral medicine class

Info

Publication number: CN113120324A
Application number: CN202110596498.2A
Authority: CN
Inventors: 祁美贤
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-07-16

Abstract

A mineral medicine crushing and filling integrated machine comprises a shell, a bottle feeding mechanism, a crushing mechanism, a screening mechanism, a filling mechanism and a bottle cap feeding mechanism grinding mechanism, wherein a bottle inlet, a feed inlet and a bottle cap inlet are formed in the shell; the crushing mechanism is arranged in the shell, realizes crushing of the medicines and can be adjusted according to requirements, so that the size of crushed particles is controlled; the screening mechanism is arranged in the shell, and can be used for screening the crushed medicines again and pouring large medicines into the waste bin for use next time; the filling mechanism is arranged in the shell, and the filling capacity can be adjusted according to the requirement; send bottle lid mechanism to install in the inside of shell, send bottle lid mechanism to have realized the automatic function of twisting the bottle lid on the medicine soon.

Description

Filling all-in-one is smashed to mineral medicine class

Technical Field

The invention relates to the technical field of traditional Chinese medicine processing, in particular to a mineral medicine crushing and filling integrated machine.

Background

The Chinese medicine is used for preventing, diagnosing and treating diseases or regulating human body functions under the guidance of the theory of traditional Chinese medicine. Most of them are plant drugs, also animal drugs, mineral drugs and some of the drugs in the class of chemical and biological products. The Chinese medicine is divided into Chinese patent medicine and Chinese medicinal materials according to the processing technology. The Chinese medicinal materials mainly originate from China, and except for plant materials, animal materials such as fel Serpentis, fel Ursi, Agkistrodon, cornu Cervi Pantotrichum, and cornu Cervi, etc.; mesochites such as pearls, clam shells; minerals such as Long Gu and Magnetitum are all used as Chinese herbs for treating diseases. At present, the traditional Chinese medicines are still used in a large share, but the traditional processing method is used for slicing and segmenting, particularly the traditional Chinese medicines of herbs and woody materials are decocted and decocted into decoction for oral administration, and the decoction is difficult to be taken by patients. Because the segments and tablets of the traditional Chinese medicine are large, a lot of effective components can not be dissolved and separated out, and waste is caused. With the continuous development of modernization of traditional Chinese medicine, the traditional Chinese medicine is developed to the aspect of fine processing, but the defects exist at the present stage, in the processing of various raw materials of the Chinese herbal medicine, the horn, the bone and the carapace of animals, plant fiber or resin and the like are difficult to crush and process, and a plurality of medicinal materials are required to be processed separately, generally, the medicinal materials are crushed in a classified manner and then mixed, so that the operation procedures are increased, the workload is increased, and the difficulty is increased for the crushing work. Traditional shredding mode adopts stone grinder and stone to grind, and its intensity of labour is big, and work efficiency is low, and wastes time and energy, has increased the recruitment cost, has studied many automatic grinders for this reason, and current automatic grinder is of a great variety, and the cost is higher, and then has increased use cost to small-size enterprise, and the operation is complicated to there is the problem that the fineness of smashing is low and the ejection of compact is not smooth and easy in most traditional chinese medicine grinder ubiquitous.

Disclosure of Invention

In order to solve the problems, the invention provides a mineral medicine crushing and filling all-in-one machine, which is characterized in that a gear A rotates by controlling a motor B to work, a gear B rotates, a gear C rotates, a gear D rotates, a gear E rotates, a gear F rotates, a large cylinder rotates when the gear C rotates, another large cylinder rotates when the gear F rotates, the function of crushing medicines is realized, a hydraulic cylinder can be controlled to adjust the distance between the two large cylinders, the function of adjusting the size of crushed particles is realized, because the distance between the two large cylinders is adjusted by setting a three-circle connecting rod and a two-circle connecting rod, the gears can keep a meshing state and cannot influence the transmission between the two large cylinders, if finer powder is needed, the motor C is controlled to work, when the motor C works, a belt B rotates so as to rotate the shaft of a telescopic cylinder, thereby belt C rotates to cylinder A rotates, has realized the function of grinding kibbling medicine once more, can also adjust the distance between two cylinder A through swivel nut B, controls the particle size of powder.

The technical scheme adopted by the invention is as follows: a mineral medicine crushing and filling integrated machine comprises a shell, a bottle feeding mechanism, a crushing mechanism, a screening mechanism, a filling mechanism and a bottle cap feeding mechanism grinding mechanism, wherein a bottle inlet, a feed inlet and a bottle cap inlet are formed in the shell; the crushing mechanism is arranged in the shell, and can crush the medicines and be adjusted according to requirements, so that the size of crushed particles can be controlled, and the medicines can be more finely ground; the screening mechanism is arranged in the shell, and can be used for screening the crushed medicines again and pouring large medicines into the waste bin for use next time; the filling mechanism is arranged in the shell, and the filling capacity can be adjusted according to the requirement; send bottle lid mechanism to install in the inside of shell, send bottle lid mechanism to have realized the automatic function of twisting the bottle lid on the medicine soon.

Preferably, the bottle conveying mechanism comprises a square barrel, a motor A, a disc A, a clamping wheel, a belt A and a cylinder A, wherein the square barrel is fixedly arranged in the shell, and the motor A is fixedly arranged in the shell; the disc A is rotationally connected with a motor shaft of the motor A; the clamping wheel is fixedly connected with a motor shaft of the motor A; a belt A is arranged between the square barrel and the disc A; the cylinder A and the disc A are fixedly connected.

Preferably, the crushing mechanism comprises a motor B, a gear A, a gear B, a gear C, a gear D, a gear E, a gear F, three circles of connecting rods, a large cylinder, a round rod A, a round rod B, a hydraulic cylinder and two circles of connecting rods, wherein the motor B is fixedly arranged in the shell; the gear A is fixedly arranged on a motor shaft of the motor B; the gear B is meshed with the gear A; the gear C is meshed with the gear B, and the gear C and the large cylinder are fixedly installed; two large cylinders are provided; the gear D is meshed with the gear C; the gear E is meshed with the gear D; the gear F is meshed with the gear E and fixedly arranged with the other large cylinder; the three circles of connecting rods and the two circles of connecting rods are rotatably arranged; the large cylinder is rotatably arranged on the round rod A, and the other cylinder is rotatably arranged on the round rod B; two hydraulic cylinders are respectively and fixedly connected with the round rod B and the round rod A;

preferably, the crushing mechanism is further provided with a grinding mechanism, comprising: the motor C, the belt B, the belt C, the telescopic column, the cylinder A, the nut B and the screw are fixedly arranged in the shell; the nut A and the screw are installed in a sliding mode; the nut B is rotatably arranged in the nut A, and the thread on the nut B is divided into two sections, wherein one section is a forward thread, and the other section is a reverse thread; the two columns A are respectively and rotatably installed with the two nuts A; the telescopic column is fixedly arranged inside the shell; one end of the belt B is connected with the shaft of the cylinder A, and the other end of the belt B is connected with the shaft of the telescopic column; one end of the belt C is connected with the shaft of the other cylinder A, and the other end of the belt C is connected with the shaft of the telescopic column; a motor shaft of the motor C is fixedly connected with the belt B, and the motor C is slidably arranged in the shell;

preferably, the screening mechanism comprises a motor D, a round rod C, a triangular wheel, a connecting rod, a round disc B, a motor E, a long plate A, a screening disc, a long frame, a round rod D and a long plate B, wherein the motor D is slidably arranged in the shell; the motor shafts of the round rod C and the motor D are fixedly installed; the triangular wheel and the round bar C are fixedly installed; one end of the connecting rod is rotatably installed with the round rod C, and the other end of the connecting rod is rotatably installed with the disc B; a motor shaft disc B of a motor E is fixedly arranged, and the motor E is fixedly arranged in the shell; the long plate A and the sieve tray are fixedly installed; a spring is arranged between the sieve tray and the long frame, and the sieve tray is slidably arranged inside the long frame; the round rod D is fixedly arranged in the shell; the long frame and the round rod D are rotatably installed; the long plate B is fixedly arranged in the shell.

Preferably, the filling mechanism comprises a motor F, a half gear, a gear G, a cylinder B, a disc C, a cylinder, a gear H, a rack, a connecting rod frame, a convex disc, a disc D, a cylinder B and a key-shaped switch door, wherein the motor F is fixedly arranged inside the shell; the half gear is fixedly installed with a motor shaft of a motor F; the gear G is meshed with the half gear; the cylinder B and the gear G are fixedly arranged, and the cylinder B is rotatably arranged on a shaft in the shell; the disc C and the cylinder B are fixedly installed; the cylinder and the disc C are fixedly arranged; the gear H is rotatably arranged in the shell; the rack is meshed with the gear H and is arranged in the chute in the shell in a sliding way; the connecting rod frame and the rack are fixedly arranged; the convex disc and the connecting rod frame are fixedly arranged, and the convex disc is arranged on the column B in a sliding manner; the disc D and the cylinder B are installed in a sliding mode; the cylinder B and the disc D are fixedly installed, and the cylinder B and the cylinder are installed in a sliding mode; a key-shaped switch door is arranged below the cylinder B, and a torsion spring is arranged in the key-shaped switch door.

Preferably, the bottle cap feeding mechanism comprises: the motor G, the disc E, the air outlet hole, the long plate C, the chuck, the sliding rail, the cylinder C, the clamping jaw, the long plate D, the motor H and the cylinder C are fixedly arranged in the shell; the disc E and a motor shaft of the motor G are rotatably arranged; three air outlet holes are formed in the disc E, and a fan is arranged at the bottom end of the disc E; the chuck is fixedly installed with a motor shaft of a motor G, and a long plate C is arranged on the chuck; fixing the cylinder C and the disc E; a slide rail is arranged below the disc E; a long plate D and a clamping jaw are arranged at the lower end of the sliding rail, and a spring is arranged between the clamping jaw and the long plate D; the motor H is fixedly arranged in the shell, and the cylinder C and a motor shaft of the motor H are fixedly arranged.

The working principle is as follows: when motor A during operation card wheel rotates, put into square bucket with the medicine bottle one by one, in belt A rotated the draw-in groove that takes turns to the card with the medicine bottle, rotated disc A's round hole department when the draw-in groove that takes turns to the card, the medicine bottle falls down, has realized can save a plurality of medicine bottles and has delivered to the function on the conveyer belt with a plurality of medicine bottles in proper order.

When motor B during operation, gear A rotates, thereby gear B rotates, thereby gear C rotates, thereby gear D rotates, thereby gear E rotates, thereby gear F rotates, big cylinder rotates when gear C rotates, another big cylinder rotates when gear F rotates, the kibbling function of medicine class extrusion has been realized, still control the pneumatic cylinder and adjust the distance between two big cylinders, thereby realize the function of the size of adjustment crushing granule, when the distance between two big cylinders is readjusted to the settlement of three rings of connecting rods and two rings of connecting rods, the gear still can keep the meshing state can not influence transmission between them.

If need more meticulous powder, control motor C work, thereby belt B rotates the rotation of the axle of flexible post when motor C during operation to belt C rotates, thereby cylinder A rotates, has realized the function of grinding kibbling medicine once more, can also adjust the distance between two cylinder A through swivel nut B, controls the particle size of powder.

When motor D during operation pole C rotates, thereby the triangle wheel rotates, thereby promote long board A and remove, thereby the sieve dish removes, because the setting for sieve dish of spring can be reciprocating motion, realized screening kibbling medicine class, individual bold stays in the sieve dish, the sieve play that accords with the standard, thereby control motor E work disc B rotates, thereby pole C overturns, thereby the triangle wheel upset, thereby long board A, the sieve dish, the long frame, the upset, realized pouring the bold medicine class in the sieve dish into long board B on the convenient next use that flows into the dump bin again.

The shaft of the gear H is rotated through the rotation of the rocker outside the shell, so that the rack moves upwards, the connecting rod rack moves upwards, the convex disc moves upwards, the disc D and the cylinder B move upwards, the distance between the cylinder B and the cylinder is shortened, the capacity is reduced, and the function of adjusting the filling capacity is realized; in the medicine class that is handled falls into the drum, control motor F work, thereby half gear rotates gear G and rotates, thereby cylinder B rotates, thereby disc C, the drum, disc D, drum B, key shape switch door rotates, the protruding department key shape switch door that rotates protruding type dish when key shape switch door opens, realized in pouring the medicine bottle on the conveyer belt into the medicine class that will handle, because the settlement of half gear, can make cylinder B intermittent type nature rotate, thereby give and connect and get and pour out the medicine class and provide the time.

Put into drum C with a plurality of bottle lids, then control motor G work, thereby the chuck can rotate, because long slab C's settlement, all can have a bottle lid in every draw-in groove of chuck when the chuck rotates, because the settlement of venthole, if the concave surface of bottle lid is down, can be blown out in the draw-in groove of chuck, thereby ensure that the bottle lid falls into for the plane down when the slide rail is interior, the bottle lid can slide down when the recess of chuck rotates slide rail department, because the radian of slide rail is set for, the in-process that slides down at the bottle lid can overturn for the concave surface down, can be blocked when the bottle lid slides down claw department, then when having the medicine bottle to come, medicine bottle touching bottle lid, the bottle lid covers the medicine bottleneck and follows the medicine bottle and removes, thereby motor H work cylinder C rotates, when the medicine bottle that has the bottle lid removes cylinder C department, thereby cylinder C rotates and screws up the bottle lid.

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

1. big cylinder rotates when rotating through gear C, and another big cylinder rotates when gear F rotates and accomplishes grinding for the first time, thereby rotates the axle rotation of flexible post through motor C during operation belt B to belt C rotates, thereby cylinder A rotates, has realized the function of grinding kibbling medicine once more.

2. The rack moves upwards, so that the connecting rod frame moves upwards, the convex disc moves upwards, the disc D and the cylinder B move upwards, the distance between the cylinder B and the cylinder is shortened, the capacity is reduced, and the function of adjusting the filling capacity is realized.

3. Can be blocked when the bottle lid glides to jack catch department, then when having the medicine bottle to come, medicine bottle touching bottle lid, the bottle lid covers the medicine bottleneck and follows the medicine bottle and remove, thereby motor H work cylinder C rotates, when the medicine bottle that has the bottle lid moves cylinder C department, thereby cylinder C rotates and screws up the bottle lid, has realized automaticly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic structural diagram of the bottle feeding mechanism of the present invention.

Fig. 4 is a schematic structural view of the crushing mechanism of the present invention.

FIG. 5 is a schematic structural diagram of a polishing mechanism according to the present invention.

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

Fig. 7 is a schematic structural view of the filling mechanism of the present invention.

Fig. 8 is a schematic structural view of the bottle cap feeding mechanism of the present invention.

Reference numerals: 1-a housing; 2-bottle feeding mechanism; 3-a crushing mechanism; 4-a screening mechanism; 5-a filling mechanism; 6-bottle cap feeding mechanism; 101-entering a bottle mouth; 102-a feed inlet; 103-feeding bottle cap mouth; 104-discharge hole; 105-a conveyor belt; 106-waste bin; 201-square barrel; 202-Motor A; 203-disc a; 204-card wheel; 205-Belt A; 206-cylinder A; 301-motor B; 302-gear a; 303-gear B; 304-gear C; 305-gear D; 306-gear E; 307-gear F; 308-three rings of connecting rods; 309-large cylinder; 310-round bar a; 311-round bar B; 312-a hydraulic cylinder; 313-two rings of connecting rods; 314-motor C; 315-belt B; 316-Belt C; 317-telescopic column; 318-column A; 319-nut A; 320-nut B; 321-a screw rod; 401-electric machine D; 402-round bar C; 403-triangular wheel; 404-a connecting rod; 405-disc B; 406-Motor E; 407-long panel A; 408-a sieve tray; 409-long frame; 410-round bar D; 411-long panel B; 501-motor F; 502-half gear; 503-gear G; 504-cylinder B; 505-disc C; 506-a cylinder; 507-Gear H; 508-a rack; 509-connecting rod rest; 510-a convex disc; 511-disc D; 512-cylinder B; 513-a key-shaped switch door; 601-motor G; 602-disc E; 603-air outlet holes; 604-long plate C; 605-a chuck; 606-a slide rail; 607-Cylinder C; 608-pawl; 609-long panel D; 610-motor H; 611-cylinder C.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8

The utility model provides a filling all-in-one is smashed to mineral medicine class, includes shell 1, send bottle mechanism 2, rubbing crusher constructs 3, screening mechanism 4, and filling mechanism 5 sends 6 grinding mechanism of bottle lid mechanism, its characterized in that: the bottle feeding mechanism 2 is arranged in the shell 1, and the shell 1 is provided with a bottle inlet 101, a feeding hole 102 and a bottle inlet cover opening 103, a conveyor belt 105 and a waste material box 106 are arranged in the shell 1, the bottle feeding mechanism 2 is arranged in the shell 1, and the bottle feeding mechanism 2 achieves the function of sequentially feeding a plurality of medicine bottles onto the conveyor belt 105; the crushing mechanism 3 is arranged in the shell 1, and the crushing mechanism 3 realizes crushing of the medicines and can be adjusted according to needs, so that the size of crushed particles is controlled, and finer grinding can be performed; the screening mechanism 4 is arranged in the shell 1, and the screening mechanism 4 realizes the secondary screening of the crushed medicines and pours the large medicines into the waste bin 106 for the next use; the filling mechanism 5 is arranged in the shell 1, and the filling capacity can be adjusted according to the requirement; the bottle cap feeding mechanism 6 is arranged inside the shell 1, and the bottle cap feeding mechanism 6 achieves the function of automatically screwing the bottle caps to the medicines.

In an optional implementation manner of the embodiment of the invention, except for the same parts as those in the previous embodiment, the bottle feeding mechanism 2 comprises a square barrel 201, a motor A202, a disc A203, a clamping wheel 204, a belt A205, a cylinder A206, wherein the square barrel 201 is fixedly arranged inside the shell 1, and the motor A202 is fixedly arranged inside the shell 1; the disc A203 is rotationally connected with a motor shaft of the motor A202; the clamp wheel 204 is fixedly connected with a motor shaft of the motor A202; a belt A205 is arranged between the square barrel 201 and the disc A203; the cylinder a206 and the disc a203 are fixedly connected.

When motor A202 during operation card wheel 204 rotates, put into square bucket 201 with the medicine bottle one by one, in belt A205 rotated the draw-in groove that removes the medicine bottle on the card wheel 204, rotated the round hole department of disc A203 when the draw-in groove of card wheel 204, the medicine bottle fell down, has realized can save a plurality of medicine bottles and has delivered the function on the conveyer belt 105 with a plurality of medicine bottles in proper order.

In an optional implementation manner of the embodiment of the invention, except for the same parts as those in the previous embodiment, the crushing mechanism 3 comprises a motor B301, a gear A302, a gear B303, a gear C304, a gear D305, a gear E306, a gear F307, a three-circle connecting rod 308, a large cylinder 309, a round rod A310, a round rod B311, a hydraulic cylinder 312 and two circles of connecting rods 313, wherein the motor B301 is fixedly arranged in the shell 1; the gear A302 is fixedly arranged on a motor shaft of the motor B301; gear B303 meshes with gear a 302; the gear C304 is meshed with the gear B303, and the gear C304 and the large cylinder 309 are fixedly installed; two of the large cylinders 309 are provided; gear D305 and gear C304 mesh; gear E306 and gear D305 mesh; the gear F307 is meshed with the gear E306, and the gear F307 is fixedly arranged with the other large cylinder 309; the three-circle connecting rod 308 and the two-circle connecting rod 313 are rotatably arranged; the large cylinder 309 is rotatably mounted on a round rod A310, and the other is rotatably mounted on a round rod B311; two hydraulic cylinders 312 are fixedly connected with a round rod B311 and a round rod A310 respectively;

when the motor B301 works, the gear A302 rotates, the gear B303 rotates, the gear C304 rotates, the gear D305 rotates, the gear E306 rotates, the gear F307 rotates, the large cylinder 309 rotates when the gear C304 rotates, the other large cylinder 309 rotates when the gear F307 rotates, the function of crushing the medicines by squeezing is realized, the hydraulic cylinder 312 can be controlled to adjust the distance between the two large cylinders 309, the function of adjusting the size of crushed particles is realized, and the gears can be kept in an engaged state without influencing the transmission between the two large cylinders 309 when the distance between the two large cylinders 309 is adjusted by setting the three-circle connecting rod 308 and the two-circle connecting rod 313.

In an alternative embodiment of the present invention, in addition to the same components as those in the previous embodiment, the crushing mechanism 3 is further provided with a grinding mechanism, which includes: the motor C314, the belt B315, the belt C316, the telescopic column 317, the cylinder A318, the nut A319, the nut B320, the screw 321 and the screw 321 are fixedly arranged in the shell 1; the nut A319 and the screw 321 are installed in a sliding mode; the nut B320 is rotatably arranged in the nut A319, and the thread on the nut B320 is divided into two sections, wherein one section is a forward thread and the other section is a reverse thread; the number of the cylinders A318 is two, and the cylinders A are respectively rotatably installed with the two nuts A319; the telescopic column 317 is fixedly arranged inside the shell 1; one end of the belt B315 is connected with the shaft of the cylinder A318, and the other end is connected with the shaft of the telescopic column 317; one end of the belt C316 is connected with the shaft of the other cylinder A318, and the other end is connected with the shaft of the telescopic column 317; a motor shaft of the motor C314 is fixedly connected with the belt B315, and the motor C314 is slidably arranged in the shell 1;

if finer powder is needed, the motor C314 is controlled to work, the belt B315 rotates when the motor C314 works, so that the shaft of the telescopic column 317 rotates, the belt C316 rotates, the cylinder A318 rotates, the function of grinding the crushed medicine again is realized, the distance between the two cylinders A318 can be adjusted by rotating the nut B320, and the particle size of the powder is controlled.

In an optional implementation manner of the embodiment of the invention, except for the same parts as those in the previous embodiment, the screening mechanism 4 comprises a motor D401, a round rod C402, a triangular wheel 403, a connecting rod 404, a round disk B405, a motor E406, a long plate a407, a sieve tray 408, a long frame 409, a round rod D410, a long plate B411 and a motor D401 which are slidably mounted inside the housing 1; the round rod C402 and the motor shaft of the motor D401 are fixedly installed; the triangular wheel 403 and the round bar C402 are fixedly arranged; one end of the connecting rod 404 is rotatably arranged with the round rod C402, and the other end is rotatably arranged with the disc B405; a motor shaft disc B405 of a motor E406 is fixedly arranged, and the motor E406 is fixedly arranged in the shell 1; the long plate A407 and the sieve tray 408 are fixedly arranged; a spring is arranged between the sieve tray 408 and the long frame 409, and the sieve tray 408 is slidably arranged inside the long frame 409; the round rod D410 is fixedly arranged inside the shell 1; the long frame 409 and the round rod D410 are rotatably installed; the long plate B411 is fixedly installed inside the housing 1.

When the motor D401 works, the round rod C402 rotates, so that the triangular wheel 403 rotates, the long plate A407 is pushed to move, the sieve tray 408 moves due to the fact that the sieve tray 408 is set by the spring to reciprocate, crushed medicines are screened, individual large medicines are left in the sieve tray 408 and are screened out according with standards, then the motor E406 is controlled to work, the round plate B405 rotates, the round rod C402 overturns, the triangular wheel 403 overturns, and the long plate A407, the sieve tray 408, the long frame 409 overturn, so that large medicines in the sieve tray 408 are poured onto the long plate B411 and then flow into the waste bin 106 for next use.

In an alternative implementation manner of the embodiment of the invention, except for the same parts as those in the previous embodiment, the filling mechanism 5 comprises a motor F501, a half gear 502, a gear G503, a cylinder B504, a disc C505, a cylinder 506, a gear H507, a rack 508, a connecting rod rack 509, a convex disc 510, a disc D511, a cylinder B512 and a key switch door 513, wherein the motor F501 is fixedly installed inside the housing 1; a half gear 502 and a motor shaft of the motor F501 are fixedly arranged; gear G503 meshes with half gear 502; the cylinder B504 and the gear G503 are fixedly arranged, and the cylinder B504 is rotatably arranged on a shaft in the shell 1; the disc C505 and the cylinder B504 are fixedly arranged; the cylinder 506 and the disc C505 are fixedly arranged; the gear H507 is rotatably arranged inside the shell 1; the rack 508 is meshed with the gear H507, and the rack 508 is slidably arranged in a chute in the shell 1; the link frame 509 and the rack 508 are fixedly mounted; the convex disc 510 and the connecting rod rack 509 are fixedly arranged, and the convex disc 510 is slidably arranged on the column B504; the disk D511 and the cylinder B504 are slidably mounted; the cylinder B512 and the disk D511 are fixedly arranged, and the cylinder B512 and the cylinder 506 are arranged in a sliding way; a key-shaped switch door 513 is arranged below the cylinder B512, and a torsion spring is arranged in the key-shaped switch door 513.

The shaft of the gear H507 is rotated by the rotation of the rocker on the outer side of the housing 1, so that the rack 508 moves upwards and the connecting rod rack 509 moves upwards, so that the convex disc 510 moves upwards, the disc D511 and the cylinder B512 move upwards, the distance between the cylinder B512 and the cylinder 506 is shortened, the capacity is reduced, and the function of adjusting the filling capacity is realized; when the processed medicines fall into the cylinder 506, the motor F501 is controlled to work, so that the half gear 502 rotates, the gear G503 rotates, the cylinder B504 rotates, the disc C505, the cylinder 506, the disc D511, the cylinder B512 and the key switch door 513 rotate, when the key switch door 513 rotates to the protruding part of the convex disc 510, the key switch door 513 is opened, the processed medicines are poured into the medicine bottles on the conveyor belt 105, and the cylinder B504 can intermittently rotate due to the setting of the half gear 502, so that time is provided for receiving and pouring the medicines.

In an alternative embodiment of the present invention, the cap feeding mechanism 6 includes, in addition to the same components as in the previous embodiment: the motor G601, the disc E602, the air outlet 603, the long plate C604, the chuck 605, the sliding rail 606, the cylinder C607, the clamping jaws 608, the long plate D609, the motor H610 and the cylinder C611 are fixedly arranged in the shell 1; the disc E602 and a motor shaft of the motor G601 are rotatably arranged; three air outlet holes 603 are formed in the disc E602, and a fan is arranged at the bottom end of the disc E602; the chuck 605 and the motor shaft of the motor G601 are fixedly arranged, and the chuck 605 is provided with a long plate C604; the cylinder C607 and the disc E602 are fixedly mounted; a slide rail 606 is arranged below the disc E602; a long plate D609 and a clamping jaw 608 are arranged at the lower end of the sliding rail 606, and a spring is arranged between the clamping jaw 608 and the long plate D609; the motor H610 is fixedly installed inside the housing 1, and the cylinder C611 and the motor shaft of the motor H610 are fixedly installed.

A plurality of caps are put into the cylinder C607, and then the motor G601 is controlled to operate, so that the chuck 605 is rotated, because of the configuration of the elongated plate C604, there is one cap in each slot of the chuck 605 when the chuck 605 is rotated, because of the configuration of the air outlet 603, if the concave surface of the bottle cap is downward, it will be blown out of the neck of the chuck 605, thereby ensuring that the bottle cap falls into the slide 606 with a flat surface facing downwards, and that the bottle cap slides downwards when the groove of the chuck 605 reaches the slide 606, because of the curvature of the slide 606, the bottle cap will turn concave downwards during the process of sliding down, and will be clamped when sliding down to the clamping jaw 608, then, when a medicine bottle comes, the medicine bottle touches the bottle cap, the bottle cap covers the medicine bottle opening and moves along with the medicine bottle, the motor H610 works so that the cylinder C611 rotates, when the vial with the cap is moved to the column C611, the column C611 is rotated to tighten the cap.

The working principle is as follows: when motor A202 during operation card wheel 204 rotates, put into square bucket 201 with the medicine bottle one by one, in belt A205 rotated the draw-in groove that removes the medicine bottle on the card wheel 204, rotated the round hole department of disc A203 when the draw-in groove of card wheel 204, the medicine bottle fell down, has realized can save a plurality of medicine bottles and has delivered the function on the conveyer belt 105 with a plurality of medicine bottles in proper order.

When the motor B301 works, the gear A302 rotates, the gear B303 rotates, the gear C304 rotates, the gear D305 rotates, the gear E306 rotates, the gear F307 rotates, the large cylinder 309 rotates when the gear C304 rotates, the other large cylinder 309 rotates when the gear F307 rotates, the function of crushing the medicines by squeezing is realized, the hydraulic cylinder 312 is also controlled to adjust the distance between the two large cylinders 309, and the function of adjusting the size of crushed particles is realized, and the gears can be kept in an engaged state without influencing the transmission between the two large cylinders 309 when the setting of the three-circle connecting rod 308 and the two-circle connecting rod 313 is used for adjusting the distance between the two large cylinders 309.

Claims

1. The utility model provides a filling all-in-one is smashed to mineral medicine class which characterized in that, includes shell (1), send bottle mechanism (2), rubbing crusher structure (3), screening mechanism (4), filling mechanism (5), send bottle lid mechanism (6) to grind mechanism, its characterized in that: the automatic medicine bottle feeding device is characterized in that a bottle inlet (101), a feeding port (102) and a bottle inlet cover opening (103) are formed in the shell (1), a conveyor belt (105) and a waste box (106) are arranged in the shell (1), the bottle feeding mechanism (2) is installed in the shell (1), and the bottle feeding mechanism (2) achieves the function of sequentially feeding a plurality of medicine bottles onto the conveyor belt (105); the crushing mechanism (3) is arranged in the shell (1), and the crushing mechanism (3) realizes crushing of medicines and can be adjusted according to needs, so that the size of crushed particles can be controlled, and finer grinding can be performed; the screening mechanism (4) is arranged in the shell (1), and the screening mechanism (4) realizes the screening of the crushed medicines again and pours the large medicines into the waste bin (106) for the next use; the filling mechanism (5) is arranged in the shell (1) and can adjust the filling capacity according to the requirement; send bottle lid mechanism (6) to install in the inside of shell (1), send bottle lid mechanism (6) to have realized screwing the function on the medicine with the bottle lid is automatic.

2. The mineral medicine crushing and filling all-in-one machine as claimed in claim 1, wherein the bottle feeding mechanism (2) comprises a square barrel (201), a motor A (202), a disc A (203), a clamping wheel (204), a belt A (205) and a cylinder A (206), the square barrel (201) is fixedly arranged inside the shell (1), and the motor A (202) is fixedly arranged inside the shell (1); the disc A (203) is rotationally connected with a motor shaft of the motor A (202); the clamping wheel (204) is fixedly connected with a motor shaft of the motor A (202); a belt A (205) is arranged between the square barrel (201) and the disc A (203); the cylinder A (206) is fixedly connected with the disc A (203).

3. The mineral medicine crushing and filling all-in-one machine is characterized in that the crushing mechanism (3) comprises a motor B (301), a gear A (302), a gear B (303), a gear C (304), a gear D (305), a gear E (306), a gear F (307), a three-ring connecting rod (308), a large column (309), a round rod A (310), a round rod B (311), a hydraulic cylinder (312), a two-ring connecting rod (313), wherein the motor B (301) is fixedly arranged in the shell (1); the gear A (302) is fixedly arranged on a motor shaft of the motor B (301); gear B (303) and gear a (302) mesh; the gear C (304) is meshed with the gear B (303), and the gear C (304) and the large cylinder (309) are fixedly installed; two large cylinders (309); gear D (305) and gear C (304) mesh; gear E (306) and gear D (305) mesh; the gear F (307) is meshed with the gear E (306), and the gear F (307) and the other large cylinder (309) are fixedly arranged; the three-circle connecting rod (308) and the two-circle connecting rod (313) are rotatably arranged; the large cylinder (309) is rotatably arranged on the round rod A (310), and the other cylinder is rotatably arranged on the round rod B (311); the two hydraulic cylinders (312) are respectively and fixedly connected with the round rod B (311) and the round rod A (310);

the mineral and medicine crushing and filling all-in-one machine according to claim 1, wherein the crushing mechanism (3) is further provided with a grinding mechanism, comprising: the motor C (314), the belt B (315), the belt C (316), the telescopic column (317), the column A (318), the nut A (319), the nut B (320), the screw rod (321) and the screw rod (321) are fixedly arranged in the shell (1); the nut A (319) and the screw rod (321) are installed in a sliding mode; the nut B (320) is rotatably arranged in the nut A (319), the thread on the nut B (320) is divided into two sections, one section is a forward thread, and the other section is a reverse thread; the number of the cylinders A (318) is two, and the cylinders A are respectively rotatably installed with the two nuts A (319); the telescopic column (317) is fixedly arranged in the shell (1); one end of the belt B (315) is connected with the shaft of the column A (318), and the other end of the belt B is connected with the shaft of the telescopic column (317); one end of the belt C (316) is connected with the shaft of the other cylinder A (318), and the other end of the belt C is connected with the shaft of the telescopic column (317); the motor shaft of the motor C (314) is fixedly connected with the belt B (315), and the motor C (314) is slidably arranged in the shell (1).

4. The crushing and filling integrated machine for mineral medicines according to claim 1 is characterized in that the screening mechanism (4) comprises a motor D (401), a round rod C (402), a triangular wheel (403), a connecting rod (404), a disc B (405), a motor E (406), a long plate A (407), a sieve tray (408), a long frame (409), a round rod D (410) and a long plate B (411), wherein the motor D (401) is slidably mounted in the shell (1); a motor shaft of the round rod C (402) and a motor D (401) are fixedly installed; the triangular wheel (403) and the round bar C (402) are fixedly arranged; one end of the connecting rod (404) is rotatably arranged with the round rod C (402), and the other end of the connecting rod is rotatably arranged with the round disc B (405); a motor shaft disc B (405) of a motor E (406) is fixedly installed, and the motor E (406) is fixedly installed in the shell (1); the long plate A (407) and the sieve tray (408) are fixedly arranged; a spring is arranged between the sieve tray (408) and the long frame (409), and the sieve tray (408) is installed inside the long frame (409) in a sliding manner; the round rod D (410) is fixedly arranged in the shell (1); the long frame (409) and the round rod D (410) are rotatably arranged; the long plate B (411) is fixedly arranged in the shell (1).

5. The mineral medicine crushing and filling all-in-one machine as claimed in claim 1, wherein the filling mechanism (5) comprises a motor F (501), a half gear (502), a gear G (503), a cylinder B (504), a disc C (505), a cylinder (506), a gear H (507), a rack (508), a connecting rod rack (509), a convex disc (510), a disc D (511), a cylinder B (512) and a key switch door (513), wherein the motor F (501) is fixedly arranged inside the shell (1); a half gear (502) and a motor shaft of a motor F (501) are fixedly arranged; the gear G (503) is meshed with the half gear (502); the cylinder B (504) and the gear G (503) are fixedly arranged, and the cylinder B (504) is rotatably arranged on a shaft in the shell (1); the disc C (505) and the cylinder B (504) are fixedly arranged; the cylinder (506) and the disc C (505) are fixedly arranged; the gear H (507) is rotatably arranged in the shell (1); the rack (508) is meshed with the gear H (507), and the rack (508) is slidably arranged in a chute in the shell (1); the connecting rod rack (509) and the rack (508) are fixedly arranged; the convex disc (510) and the connecting rod frame (509) are fixedly arranged, and the convex disc (510) is arranged on the column B (504) in a sliding manner; the disc D (511) and the cylinder B (504) are installed in a sliding mode; the cylinder B (512) and the disc D (511) are fixedly arranged, and the cylinder B (512) and the cylinder (506) are arranged in a sliding way; a key-shaped switch door (513) is arranged below the cylinder B (512), and a torsion spring is arranged in the key-shaped switch door (513).

6. The mineral medicine crushing and filling all-in-one machine as claimed in claim 1, wherein the bottle cap feeding mechanism (6) comprises: the device comprises a motor G (601), a disc E (602), an air outlet hole (603), a long plate C (604), a chuck (605), a sliding rail (606), a cylinder C (607), a clamping jaw (608), a long plate D (609), a motor H (610) and a cylinder C (611), wherein the motor G (601) is fixedly arranged in a shell (1); the disc E (602) and a motor shaft of the motor G (601) are rotatably arranged; three air outlet holes (603) are formed in the disc E (602), and a fan is arranged at the bottom end of the disc E (602); the chuck (605) and a motor shaft of the motor G (601) are fixedly installed, and the chuck (605) is provided with a long plate C (604); a cylinder C (607) and a disc E (602) are fixedly mounted; a slide rail (606) is arranged below the disc E (602); a long plate D (609) and a clamping jaw (608) are arranged at the lower end of the sliding rail (606), and a spring is arranged between the clamping jaw (608) and the long plate D (609); the motor H (610) is fixedly arranged in the shell (1), and the cylinder C (611) and a motor shaft of the motor H (610) are fixedly arranged.