CN113941506A

CN113941506A - Screening device for granulating health-care medicine capsules and operation method

Info

Publication number: CN113941506A
Application number: CN202111384209.9A
Authority: CN
Inventors: 杜丽娟; 刘申; 杜丽萍; 单林; 孙福才; 石龙; 任天一; 徐嘉莹; 修爽
Original assignee: Harbin Vocational and Technical College
Current assignee: Harbin Vocational and Technical College
Priority date: 2021-11-19
Filing date: 2021-11-19
Publication date: 2022-01-18
Anticipated expiration: 2041-11-19
Also published as: CN113941506B

Abstract

The utility model provides a health care medicine capsule pelletization is with screening plant and operation method, includes the frame, throws material device, screening plant, throws the material device including throwing the flitch, stir the feed cylinder, throw the silo, screening plant includes screening board, ring gear, screening wheel, transmission shaft, slider, crank, frame upper portion has the screening board, and screening board front side has throws the material chamber, throws material chamber lower part and has three screening race, and every screening race upper portion both sides have the arc, and every screening race upper portion has connects the flitch, and screening board rear side has three blanking groove, and the blanking groove runs through the screening race, and every blanking groove lower part has the blanking mouth, has the fixed plate in the middle of the frame front side, throws material device lower part fixed connection fixed plate upper portion, screening plant fixed connection frame rear side.

Description

Screening device for granulating health-care medicine capsules and operation method

Technical Field

The invention relates to the field of screening for granulating health-care medicine capsules, in particular to a screening device for granulating health-care medicine capsules and an operation method.

Background

In the production process of granulating the health-care medicine capsules, the capsules need to be screened to sort out defective products, and due to the large capsule yield, the sorting speed of the capsules needs to be adapted to the requirements of capsule production, and the capsules are rapidly screened.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a screening device for granulating health-care medicine capsules, which can screen the capsules quickly and accurately, and an operation method thereof.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a health care medicine capsule is pelletization and is used screening plant, includes the frame, throws material device, screening plant, throws the material device including throwing the flitch, stirring the feed cylinder, throw the silo, screening plant includes screening board, ring gear, screening wheel, transmission shaft, slider, crank, frame upper portion has the screening board, and screening board front side has throws the material chamber, throws material chamber lower part and has three screening race, and every screening race upper portion both sides have the arc, and every screening race upper portion has connects the flitch, and screening board rear side has three blanking groove, and the blanking groove runs through the screening race, and every blanking groove lower part has the blanking mouth, has the fixed plate in the middle of the frame front side, throws material device lower part fixed connection fixed plate upper portion, screening plant fixed connection frame rear side.

The material feeding device is characterized in that a material feeding plate hole is formed in the middle of the upper portion of the material feeding plate, a fixing frame is arranged in the middle of the front side of the material feeding plate, a material stirring cylinder gear is arranged outside the front side of the material stirring cylinder, a center hole is formed in the middle of the front side of the material stirring cylinder, a shaft collar is arranged on the front side outside the center hole, a plurality of material stirring plates are uniformly distributed on the cylindrical surface inside the material stirring cylinder, a discharge port is formed in the cylindrical surface of the material stirring cylinder, two symmetrically-arranged sockets are formed in two sides of the discharge port, a material feeding port is formed in the front side of the material feeding groove, a chute is formed in the rear side of the material feeding groove, the shaft collar is inserted into the material feeding plate hole from the rear side, the material stirring cylinder rotates in the material feeding plate hole, the material feeding groove penetrates through the center hole from the inner side of the material stirring cylinder, the lower portion of the material feeding port is fixedly connected with the upper portion of the fixing frame, the lower portion of the material feeding plate is fixedly connected with the upper portion of the fixing plate, the rear portion of the material stirring cylinder and the front portion of the screening plate are inserted into the sockets in the two sides, and the cover plate is fixed on the stirring cylinder.

The side surface of the screening plate is provided with an annular groove, the lower part of the annular groove is provided with three screening wheel holes, the left side of the annular groove is provided with a transmission shaft hole, the left side of the transmission shaft hole is provided with a sliding chute, the upper left corner of the screening plate is provided with a bearing seat, the left side of the bearing seat is provided with a motor seat, the inner side of the gear ring is provided with an inner gear, the outer side of the gear ring is provided with an outer gear, the side surface of the gear ring is provided with an annular boss, a plurality of screening grooves are uniformly distributed on the excircle of the screening wheel, the middle of the screening wheel is provided with a screening wheel shaft, the rear side of the screening wheel shaft is provided with a screening wheel gear, the front side of the transmission shaft is provided with a second gear, the rear side of the transmission shaft is provided with a first gear, the annular boss is rotatably connected with the annular groove, the gear ring rotates in the annular groove, the inside of each screening wheel hole is rotatably connected with one screening wheel shaft, each screening wheel rotates in the screening wheel hole, each screening wheel is meshed with the inner gear, the rear part of the transmission shaft is rotatably connected with the transmission shaft hole, the first gear and the external gear are meshed with each other.

The outer side of the upper portion of the sliding block is provided with a sliding block shaft, the inner side of the upper portion of the sliding block is provided with a rack, a crank shaft is arranged in the middle of the crank, an eccentric shaft is arranged on the side face of the crank, the sliding block is connected with a sliding groove in a sliding mode, the crank shaft penetrates through a bearing seat from the inner side, the crank shaft is connected with the bearing seat in a rotating mode, the crank rotates in the bearing seat, the outer side of the crank shaft is fixedly connected with a motor output shaft, the lower portion of a motor is fixedly connected with the upper portion of a motor seat, one side of a connecting rod is hinged with the sliding block shaft, the other side of the connecting rod is hinged with the eccentric shaft, the lower portion of a screening plate is fixedly connected with the upper portion of a rack, a second gear and a stirring barrel gear are meshed with each other, and each screening wheel is placed inside each screening wheel groove.

Has the advantages that:

when the capsule screening machine is used, capsules are thrown from a feeding port, slide down to each material receiving plate on the rear side along the inclined surface of the chute, slide down to each screening wheel along the material receiving plates, the capsules which are smaller than the screening grooves and have the same direction with the screening grooves can fall into the screening grooves, a motor is started, the motor drives a crank to rotate, the crank drives a sliding block to slide back and forth along the chute through a connecting rod, the sliding block slides back and forth to drive a transmission shaft to rotate back and forth, a first gear drives a gear ring to rotate back and forth, the gear ring rotates back and forth to drive three screening wheels to rotate simultaneously, the capsules falling into the upper screening grooves are driven to the lower parts of the screening wheels by the rotation of the screening wheels, the capsules fall from each material falling port to a lower collecting box under the action of gravity, the transmission shaft rotates back and forth, a second gear drives a material stirring barrel to rotate back and forth, the material stirring barrel rotates back and forth, the capsules in the material stirring barrel at the bottom can be driven to the upper parts by the material stirring plates, when the stirring board moves to upper portion, inside the chute can be fallen to the capsule in the stirring board to fall every screening wheel upper portion once more from the chute, sieve once more, the circulation is reciprocal, and all capsules that are less than normal size can be sieved away by three screening wheel, wait that the screening wheel is not when going out the capsule, the stop motor rotates, opens the apron, takes out qualified capsule from stirring the feed cylinder, accomplishes the screening of capsule.

The capsule screening machine can rapidly screen out unqualified capsules, three screening wheels screen simultaneously, a plurality of screening grooves in the upper part of each screening wheel screen simultaneously, the screening is performed circularly, the screening speed is high, capsules with normal sizes cannot enter the screening grooves, the screening is accurate, the transmission shaft rotates back and forth, the feeding requirement is met, the time is saved, a plurality of stirring plates participate in the feeding simultaneously, the screening speed is improved, the transmission shaft transmits the rotation to the screening wheels and the stirring cylinders simultaneously, the feeding and the screening are performed simultaneously, the capsules are thrown into the inner sides of the receiving plates by the inclined grooves, the number of the capsules falling into the upper parts of the screening wheels is increased by the receiving plates, the capsules falling into the screening grooves are prevented by the arc plates on the two sides of the screening wheel grooves, and the capsules can be screened rapidly and accurately.

Drawings

Fig. 1 is a schematic structural view of a screening device for granulating health care medicine capsules.

Fig. 2 is a schematic sectional structure view of the front side of the screening device for granulating health care medicine capsules.

Fig. 3 is a schematic structural view of a rear side cross section of the screening device for granulating the health care medicine capsule of the present invention.

FIG. 4 is a schematic view of the construction of the front side of the screening wheel and frame connection of the present invention.

FIG. 5 is a schematic view of the construction of the screening wheel and the frame at the rear side of the connection.

Fig. 6 is a schematic diagram of a front side structure of a rack according to the present invention.

Fig. 7 is a schematic view of the structure of the screening wheel groove of the present invention.

Fig. 8 is a schematic view of a rear side structure of the rack according to the present invention.

Fig. 9 is a schematic front side structure view of the feeding device of the present invention.

Fig. 10 is a schematic diagram of the rear side structure of the feeding device of the present invention.

Fig. 11 is a schematic diagram of a feeding plate structure according to the present invention.

FIG. 12 is a schematic diagram of the front side structure of the stirring barrel according to the present invention.

FIG. 13 is a rear side view of the mixing barrel according to the present invention.

Fig. 14 is a schematic structural view of a feeding chute according to the present invention.

Fig. 15 is a schematic structural diagram of a screening device according to the present invention.

Figure 16 is a schematic illustration of the construction of the screen panel according to the present invention.

Fig. 17 is a schematic view of a ring gear structure according to the present invention.

Fig. 18 is a schematic view of the structure of the screening wheel according to the present invention.

Fig. 19 is a schematic structural view of a transmission shaft according to the present invention.

Fig. 20 is a schematic view of a slider structure according to the present invention.

Fig. 21 is a schematic view of the crank structure according to the present invention.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples:

a screening device for granulating health medicine capsules comprises a frame 110, a feeding device 200 and a screening device 300, wherein the feeding device 200 comprises a feeding plate 210, a stirring barrel 220 and a feeding groove 230, the screening device 300 comprises a screening plate 310, a gear ring 320, a screening wheel 330, a transmission shaft 340, a slide block 350 and a crank 360, the upper portion of the frame 110 is provided with a screening plate 111, the front side of the screening plate 111 is provided with a feeding cavity 112, the lower portion of the feeding cavity 112 is provided with three screening wheel grooves 113, two sides of the upper portion of each screening wheel groove 113 are provided with arc-shaped plates 114, the upper portion of each screening wheel groove 113 is provided with a material receiving plate 115, the rear side of the screening plate 111 is provided with three blanking grooves 116, the blanking grooves 116 penetrate through the screening wheel grooves 113, the lower portion of each blanking groove 116 is provided with a blanking port 117, the middle of the front side of the frame 110 is provided with a fixing plate 118, the lower portion of the feeding device 200 is fixedly connected with the upper portion of the fixing plate 118, and the screening device 300 is fixedly connected with the rear side of the frame 110.

The middle of the upper part of the feeding plate 210 is provided with a feeding plate hole 211, the middle of the front side of the feeding plate 210 is provided with a fixing frame 212, the outer part of the front side of the stirring barrel 220 is provided with a stirring barrel gear 221, the middle of the front side of the stirring barrel 220 is provided with a central hole 222, the front side of the outer part of the central hole 222 is provided with a shaft collar 226, a plurality of stirring plates 223 are uniformly distributed on the cylindrical surface inside the stirring barrel 220, the cylindrical surface of the stirring barrel 220 is provided with a discharge hole 224, two symmetrically arranged jacks 225 are arranged at two sides of the discharge hole 224, the front side of the feeding groove 230 is provided with a feeding port 231, the rear side of the feeding groove 230 is provided with a chute 232, the shaft collar 226 is inserted into the feeding plate hole 211 from the rear side, the shaft collar 226 is rotatably connected with the feeding plate hole 211, the stirring barrel 220 rotates in the feeding plate hole 211, the feeding groove 230 passes through the central hole 222 from the inner side of the stirring barrel 220, the lower part of the feeding port 231 is fixedly connected with the upper part of the fixing frame 212, the lower part of the feeding plate 210 is fixedly connected with the upper part of the fixing frame 118, the rear part of the stirring barrel 220 and the front part of the sieving plate 111 forms a closed space, the cover plate 240 is inserted into the two-sided socket 225, and the bolt fixes the cover plate 240 to the agitating barrel 220.

The side surface of the screening plate 310 is provided with an annular groove 311, the lower part of the annular groove 311 is provided with three screening wheel holes 312, the left side of the annular groove 311 is provided with a transmission shaft hole 313, the left side of the transmission shaft hole 313 is provided with a sliding groove 314, the upper left corner of the screening plate 310 is provided with a bearing seat 315, the left side of the bearing seat 315 is provided with a motor seat 316, the inner side of the gear ring 320 is provided with an inner gear 321, the outer side of the gear ring 320 is provided with an outer gear 322, the side surface of the gear ring 320 is provided with an annular boss 323, the outer circle of the screening wheel 330 is uniformly distributed with a plurality of screening grooves 331, the middle of the screening wheel 330 is provided with a screening wheel shaft 332, the rear side of the screening wheel shaft 332 is provided with a screening wheel gear 333, the front side of the transmission shaft 340 is provided with a second gear 342, the rear side of the transmission shaft 340 is provided with a first gear 341, the annular boss 323 rotates to connect the annular groove 311, the gear ring 320 rotates in the annular groove 311, one screening wheel hole 332 is rotatably connected in each screening wheel hole 312, each screening wheel 330 rotates in the screening wheel hole 312, each of the sifting wheel gears 333 and the inner gear 321 are engaged with each other, the rear portion of the transmission shaft 340 is rotatably connected to the transmission shaft hole 313, the transmission shaft 340 rotates in the transmission shaft hole 313, and the first gear 341 and the outer gear 322 are engaged with each other.

The slider 350 has a slider shaft 351 on the outside, the slider 350 has a rack 352 on the inside, the crank 360 has a crank shaft 361 in the middle, the crank 360 has an eccentric shaft 362 on the side, the slider 350 is connected with the sliding groove 314 in a sliding manner, the slider 350 slides in the sliding groove 314, the crank shaft 361 passes through the bearing seat 315 from the inside, the crank shaft 361 is connected with the bearing seat 315 in a rotating manner, the crank 360 rotates in the bearing seat 315, the outside of the crank shaft 361 is fixedly connected with the output shaft of the motor 380, the lower part of the motor 380 is fixedly connected with the upper part of the motor seat 316, one side of the connecting rod 370 is hinged with the slider shaft 351, the other side of the connecting rod 370 is hinged with the eccentric shaft 362, the lower part of the sieving plate 310 is fixedly connected with the upper part of the frame 110, the second gear 342 and the stirring barrel gear 221 are engaged with each other, and each sieving wheel 330 is placed in each sieving wheel groove 113.

When the capsule screening machine is used, capsules are thrown from the feeding port 231, slide down to each material receiving plate 115 at the rear side along the inclined surface of the chute 232, slide down to each screening wheel 330 along the material receiving plate 115, capsules which are smaller than the screening groove 331 and have the same direction with the screening groove 331 fall into the screening groove 331, the motor 380 is started, the motor 380 drives the crank 360 to rotate, the crank 360 drives the slider 350 to slide back and forth along the chute 314 through the connecting rod 370, the slider 350 slides back and forth to drive the transmission shaft 340 to rotate back and forth, the first gear 341 drives the gear ring 320 to rotate back and forth, the gear ring 320 rotates back and forth to drive the three screening wheels 330 to rotate simultaneously, the screening wheels 330 rotate to bring the capsules falling into the upper screening groove 331 to the lower part of the screening wheel 330, the capsules fall from each blanking port 117 to the lower part under the action of gravity for collection, the transmission shaft 340 rotates back and forth, the second gear 342 drives the stirring barrel 220 to rotate back and forth, stirring barrel 220 round trip rotation, bottom stirring board 223 can take the capsule in stirring barrel 220 to upper portion, when stirring board 223 removed upper portion, the capsule in stirring board 223 can fall inside chute 232, and fall every screening wheel 330 upper portion once more from chute 232, sieve once more, it is effectual to sieve, the circulation is reciprocal, all capsules that are less than normal size can be sieved away by three screening wheels 330, when waiting to sieve wheel 330 and not going out the capsule, stop motor 380 and rotate, open apron 240, take out qualified capsule from stirring barrel 220, accomplish the screening of capsule.

The capsule screening machine can rapidly screen out unqualified capsules, three screening wheels 330 screen at the same time, a plurality of screening grooves 331 on the upper portion of each screening wheel 330 screen at the same time, the screening is performed circularly, the screening speed is high, capsules with normal sizes cannot enter the screening grooves 331, the screening is accurate, the transmission shaft 340 rotates back and forth, the feeding requirement is met, the time is saved, a plurality of stirring plates 223 feed the capsules at the same time, the screening speed is improved, the transmission shaft 340 transmits the rotation to the screening wheels 330 and the stirring barrel 220 at the same time, the feeding and the screening are performed at the same time, the capsules are fed into the inner side of the material receiving plate 115 by the inclined groove 232, the quantity of the capsules falling into the upper portion of the screening wheels 330 is improved by the material receiving plate 115, and the capsules falling into the screening grooves 331 are prevented by the arc-shaped plates 114 on the two sides of the screening wheel grooves 113.

An operation method of a screening device for granulating health care medicine capsules comprises the following steps: firstly, the capsule is thrown from the feed opening 231, the motor 380 is started, the sieving device automatically sieves the capsule, the motor 380 is stopped to rotate when the sieving wheel 330 is not discharging the capsule, and secondly, the cover plate 240 is opened, the qualified capsule is taken out from the stirring barrel 220, and the sieving of the capsule is completed.

Claims

1. The screening device for granulating the health-care medicine capsules is characterized by comprising a rack, a feeding device and a screening device, wherein the feeding device comprises a feeding plate, a stirring barrel and a feeding groove, the screening device comprises a screening plate, a gear ring, screening wheels, a transmission shaft, a slider and a crank, the screening plate is arranged on the upper portion of the rack, a feeding cavity is formed in the front side of the screening plate, three screening wheel grooves are formed in the lower portion of the feeding cavity, arc-shaped plates are arranged on two sides of the upper portion of each screening wheel groove, a material receiving plate is arranged on the upper portion of each screening wheel groove, three blanking grooves are formed in the rear side of the screening plate, the blanking grooves penetrate through the screening wheel grooves, a blanking port is formed in the lower portion of each blanking groove, a fixing plate is arranged in the middle of the front side of the rack, the lower portion of the feeding device is fixedly connected with the upper portion of the fixing plate, and the screening device is fixedly connected with the rear side of the rack.

2. The screening device for health drug capsule granulation as claimed in claim 1, wherein the feeding plate has a feeding plate hole in the middle of the upper portion thereof, the feeding plate has a fixing frame in the middle of the front side thereof, the stirring cylinder has a stirring cylinder gear in the outside of the front side thereof, the stirring cylinder has a central hole in the middle of the front side thereof, a shaft collar in the front side of the outside of the central hole, a plurality of stirring plates are uniformly distributed on the cylindrical surface inside the stirring cylinder, the cylindrical surface of the stirring cylinder has a discharge port with two symmetrically arranged spigots on both sides thereof, the feeding port is provided on the front side thereof, the chute is provided on the rear side thereof, the shaft collar is inserted into the feeding plate hole from the rear side thereof, the shaft collar is rotatably connected to the feeding plate hole, the stirring cylinder rotates in the feeding plate hole, the feeding groove passes through the central hole from the inside of the stirring cylinder, the lower portion of the feeding port is fixedly connected to the upper portion of the fixing frame, the lower portion of the feeding plate is fixedly connected to the upper portion of the fixing plate, the rear portion of the stirring cylinder and the front portion of the screening plate form a closed space, the cover plate is inserted into the insertion openings at the two sides, and the cover plate is fixed on the stirring barrel through bolts.

3. The screening device for granulating health-care medicine capsules as claimed in claim 2, wherein the screening plate has an annular groove on the side surface, three screening wheel holes are formed in the lower part of the annular groove, a transmission shaft hole is formed in the left side of the annular groove, a sliding groove is formed in the left side of the transmission shaft hole, a bearing seat is formed in the upper left corner of the screening plate, a motor seat is formed in the left side of the bearing seat, an internal gear is formed in the inner side of the gear ring, an external gear is formed in the outer side of the gear ring, an annular boss is formed in the side surface of the gear ring, a plurality of screening grooves are uniformly distributed on the outer circle of the screening wheel, a screening wheel shaft is formed in the middle of the screening wheel, a screening wheel gear is formed in the rear side of the screening wheel shaft, a second gear is formed in the front side of the transmission shaft, a first gear is formed in the rear side of the transmission shaft, the annular boss is rotatably connected with the annular groove, the gear ring rotates in the annular groove, a screening wheel shaft is rotatably connected with the inside of each screening wheel hole, each screening wheel rotates in the screening wheel hole, and each screening wheel gear is meshed with the internal gear, the rear part of the transmission shaft is rotatably connected with a transmission shaft hole, the transmission shaft rotates in the transmission shaft hole, and the first gear and the external gear are meshed with each other.

4. The sieving device for granulating the capsules of health care medicines as claimed in claim 3, wherein the outer side of the upper part of the slide block is provided with a slide block shaft, the inner side of the upper part of the slide block is provided with a rack, the middle of the crank is provided with a crank shaft, the side surface of the crank is provided with an eccentric shaft, the slide block is slidably connected with a sliding groove, the slide block slides in the sliding groove, the crank shaft penetrates through a bearing seat from the inner side, the crank shaft is rotatably connected with the bearing seat, and the crank rotates in the bearing seat.

5. The sieving device for granulating capsules of health drugs as claimed in claim 4, wherein the motor output shaft is fixedly connected to the outside of the crank shaft, the motor lower part is fixedly connected to the upper part of the motor base, the slide block shaft is hinged to one side of the connecting rod, the eccentric shaft is hinged to the other side of the connecting rod, the lower part of the sieving plate is fixedly connected to the upper part of the frame, the second gear and the gear of the stirring barrel are engaged with each other, and each sieving wheel is disposed in each sieving wheel groove.

6. The method for operating the sieving device for granulating the health care medicine capsules as claimed in claim 2, wherein the method comprises the following steps: firstly, the capsule is thrown from the dog-house, and the starter motor, this screening plant carries out the screening work of capsule automatically, waits that the screening wheel is not when going out the capsule, stops the motor and rotates, and second step, open the apron, take out qualified capsule from stirring the feed cylinder, accomplish the screening of capsule.