CN116273834A - Finished product vibrations sieving mechanism is used in capsule production - Google Patents

Abstract

The invention relates to the technical field of screening equipment for capsule production, in particular to a finished product vibration screening device for capsule production, which comprises a vibration screening driving mechanism and a screening auxiliary component, wherein the vibration screening driving mechanism is arranged at the side position of a main body of processing equipment, and the vibration screening driving mechanism is internally connected with the screening auxiliary component; the capsule screening device is mainly characterized in that the capsule screening device is matched with the screening auxiliary assembly to be used, the capsule is subjected to vibration screening, the screening barrel is enabled to roll under the control and driving action of the control motor, the driving gear and the transmission outer toothed ring, the capsule material is screened in a rolling mode, material accumulation and deposition are avoided, the screening quality of the material is improved, good distinguishing and collecting are carried out on the screened capsule, the whole working economic benefit is improved, and the actual production requirements are met.

Description

Finished product vibrations sieving mechanism is used in capsule production

Technical Field

The invention relates to the technical field of screening equipment for capsule production, in particular to a finished product vibration screening device for capsule production.

Background

The capsule is a solid preparation prepared by filling the medicine into a hollow hard capsule or sealing the medicine into an elastic soft capsule, and the material for forming the hollow hard capsule shell or the elastic soft capsule shell is gelatin, glycerol, water and other medicinal materials; the capsule is usually divided into a hard capsule and a soft capsule, wherein the hard capsule is also called a hollow capsule and consists of a cap body and a soft capsule; soft capsules are manufactured from both the film-forming material and the contents.

The Chinese patent document with the prior publication number of CN205056470U discloses a capsule sorting workbench, the rotating speed of a rotating shaft motor is regulated by a control device, then the rotating shaft motor, a dust collector and a motor are started respectively, then capsules to be sorted are added into a sorting box from a hopper, dust, medicine powder and unqualified capsules in the capsules are sucked by the dust collector, so that the first sorting of the capsules is finished, the capsules with serious deformation in the capsules are screened out by a vibration screening device, the second sorting of the capsules is finished, the capsules after the second sorting fall into a conveyor belt through a discharge port and a guide channel, then are manually sorted for the third time, and the completely qualified capsules fall into a qualified capsule placement box through the transmission of the conveyor belt, so that the sorting work of the capsules is finished.

In the scheme and in the prior art, when vibration screening work is carried out on the capsule finished product, the capsule finished product enters a vibration box body, a screening net is arranged at the bottom end of the box body, and the screening box is arranged on a vibration device for vibration screening work; on one hand, in the process, the screened capsules are accumulated in the box body, when the capsules are accumulated more, the capsules are required to be taken out, or the screening work of other capsules is influenced, the process is troublesome to operate, and the materials are temporarily put into, the screened capsules are taken out and then the screening equipment is started, so that the screening work of finished capsules is continued, the screening work efficiency is delayed, and the processing economic benefit of the capsules is influenced; moreover, can block the screening of other capsules to the capsule of stay, the screening dynamics is not enough, also can cause the influence to screening quality, and then also can have the influence to the whole productivity effect of capsule, can not satisfy actual production demand, needs to improve and optimize.

Therefore, the invention provides a finished product vibration screening device for capsule production, which is used for solving the problems.

Disclosure of Invention

The invention aims to provide a finished product vibration screening device for capsule production, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a finished product vibrations sieving mechanism is used in capsule production, includes vibrations screening actuating mechanism and screening auxiliary assembly, vibrations screening actuating mechanism sets up in the avris position of processing equipment main part, and connects in the vibrations screening actuating mechanism and be provided with screening auxiliary assembly, one side of processing equipment main part is provided with the discharge gate, and the capsule is followed enter into vibrations screening actuating mechanism in the discharge gate and screen, and the material of screening is collected in first receipts workbin and second receipts workbin respectively.

Preferably, the vibration screening driving mechanism comprises a vibration device, a front end supporting leg, a rear end supporting leg, a fixed base, a rear end fixing ring, a front end fixing ring, an annular chute, balls, a screening cylinder, a material guiding extending ring, a transmission outer toothed ring, a driving gear, a supporting plate, a control motor, an extending plate, a stirring plate, a positioning through groove and a screening auxiliary component; the vibration device is arranged at the side position of the processing equipment main body, the front end supporting legs are symmetrically and fixedly arranged at two sides of the front end fixing ring, the tail end supporting legs are symmetrically and fixedly arranged at two sides of the tail end fixing ring, the tail end fixing ring and the bottom end of the front end supporting legs are fixedly provided with fixing bases, the fixing bases are fixedly connected with the vibration device through bolts, the tail end fixing ring and the inner side of the front end supporting legs are respectively provided with an annular chute, the rolling connection of balls is arranged in the annular chute, the movable scarfing of the balls is arranged at the side positions of two ends of the screening cylinder, the end fixing of the tail end of the screening cylinder is provided with a guide extending ring, the end fixing of the front end of the screening cylinder is provided with a transmission outer toothed ring, the transmission outer toothed ring is in meshed connection with a driving gear, the driving gear is fixedly arranged at one end of a control motor, the control motor is fixedly connected with a supporting plate, the supporting plate is fixedly arranged on the front end fixing ring, the equidistant plate is fixedly arranged on the outer side wall of the screening cylinder, the screening cylinder is arranged on the inner side wall of the screening cylinder, the screening cylinder is in a manner of the positioning groove is formed in the positioning groove, and the screening cylinder is extended, and the positioning groove is extended into the positioning groove.

Preferably, the setting height of screening section of thick bamboo front end is higher than the setting height of tail end, and screening section of thick bamboo carries out the slope setting promptly, and screening section of thick bamboo rotates under the meshing transmission effect of transmission outer ring gear and driving gear.

Preferably, the setting positions of the stirring plates and the extending plates are corresponding, the setting groups are the same, four groups are arranged between the stirring plates and the extending plates, and the setting lengths of the stirring plates and the extending plates are equal.

Preferably, the screening aid is provided with a first screening aid and a second screening aid.

Preferably, the first screening auxiliary assembly comprises a buffer stop ring, a guide through groove, a connecting rod, a first drainage inclined plane, a first limiting clamping groove, a first mounting thread groove, a positioning threaded rod and a knob; the setting of buffering fender ring equidistance connection is at the screening section of thick bamboo inside wall, and the equidistance is provided with the leading logical groove of material on the buffering fender ring, fixedly be provided with the connecting rod in the leading logical groove, and leading logical groove bilateral symmetry is provided with first drainage inclined plane, first spacing draw-in groove equidistance setting is on the buffering fender ring, and first mounting thread groove sets up in first spacing draw-in groove, the location threaded rod passes the location logical groove and with first mounting thread groove looks adaptation threaded connection, the fixed knob that is provided with of one end of location threaded rod.

Preferably, the first limit clamping groove corresponds to the setting position of the stirring plate, has the same setting group number, and is in fit and clamping connection with the stirring plate; the buffering stop ring is in sliding connection on the stirring plate through the first limiting clamping groove, the stirring plate stirs materials in the screening barrel, and the buffering stop ring is in position limiting.

Preferably, the first installation thread groove corresponds to the setting position of the positioning through groove; four guide through grooves are formed in the buffer baffle ring at equal intervals; the buffer stop ring is positioned through the threaded connection of the positioning threaded rod and the first installation threaded groove.

Preferably, the second screening auxiliary assembly comprises an arc-shaped buffer baffle, a second drainage inclined plane, a second limiting clamping groove, a second mounting thread groove, a positioning thread column and a handle; the both ends symmetry of arc buffering baffle is provided with the second drainage inclined plane, and the avris middle part position of arc buffering baffle is provided with the spacing draw-in groove of second, the spacing draw-in groove of second and stirring flitch looks adaptation joint, and fixed second installation thread groove that is provided with in the spacing draw-in groove of second, the location screw thread post passes location through groove and carries out threaded connection with the second installation thread groove, the fixed handle that is provided with of one end of location screw thread post.

Preferably, the arc-shaped buffer baffle plate is arranged singly, and the size of the arc-shaped buffer baffle plate is selected according to actual screening requirements; the arc-shaped buffering baffle slides on the stirring plate through the second limiting clamping groove, and positions are located through the threaded connection of the locating threaded column and the locating through groove.

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

the vibration screening device for capsule production is mainly used for vibration screening of capsules through the cooperation between the vibration screening driving mechanism and the screening auxiliary component, and the screening cylinder is enabled to roll under the control and driving action of the control motor, the driving gear and the transmission outer gear ring to screen capsule materials in a rolling manner, so that material accumulation and deposition are avoided, the screening quality of the materials is improved, good distinguishing and collecting are carried out on the screened capsules, the overall working economic benefit is improved, and the actual production requirements are met.

Drawings

Fig. 1 is a right side schematic view of structural connection of a vibration screening device for capsule production.

Fig. 2 is an enlarged schematic view of a portion of the structural connection of fig. 1 in accordance with the present invention.

Fig. 3 is a schematic diagram of the structural connection of the vibration screening device for capsule production according to the present invention.

FIG. 4 is a schematic diagram showing the connection of the front end structure of the screening cartridge according to the present invention.

Fig. 5 is an enlarged partial schematic view of the structural connection of fig. 4 in accordance with the present invention.

FIG. 6 is a schematic view showing the connection of the tail end structure of the screening cartridge according to the present invention.

Fig. 7 is an enlarged partial schematic view of the structural connection of fig. 6 in accordance with the present invention.

Fig. 8 is a schematic diagram showing the connection of the first screening auxiliary component structure according to the present invention.

Fig. 9 is a schematic diagram showing the connection of the second screening auxiliary component structure of the present invention.

In the figure: the processing equipment comprises a processing equipment main body 1, a discharge hole 2, a first material receiving box 3, a second material receiving box 4, a vibration screening driving mechanism 5, a vibration device 501, a front supporting leg 502, a rear supporting leg 503, a fixed base 504, a rear fixed ring 505, a front fixed ring 506, an annular chute 507, a ball 508, a screening cylinder 509, a material guiding extension ring 510, a transmission outer gear 511, a driving gear 512, a support plate 513, a control motor 514, an extension plate 515, a stirring plate 516, a positioning through groove 517, a first screening auxiliary component 6, a material buffering baffle ring 601, a material guiding through groove 602, a connecting rod 603, a first drainage inclined plane 604, a first limiting clamping groove 605, a first mounting threaded groove 606, a positioning threaded rod 607, a knob 608, a second screening auxiliary component 7, an arc-shaped material buffering baffle 701, a second drainage inclined plane 702, a second limiting clamping groove 703, a second mounting threaded groove 704, a positioning threaded column 705 and a handle 706.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. Embodiments of the present invention are intended to be within the scope of the present invention as defined by the appended claims.

Embodiment one: referring to fig. 1-8, a finished product vibration screening device for capsule production comprises a vibration screening driving mechanism 5 and a screening auxiliary component, wherein the vibration screening driving mechanism 5 is arranged at the side position of a processing device main body 1, the vibration screening driving mechanism 5 is internally connected with the screening auxiliary component, a discharge hole 2 is formed in one side of the processing device main body 1, a capsule enters the vibration screening driving mechanism 5 from the discharge hole 2 for screening, and screened materials are respectively collected in a first material receiving box 3 and a second material receiving box 4.

The vibration screening driving mechanism 5 comprises a vibration device 501, a front supporting leg 502, a rear supporting leg 503, a fixed base 504, a rear fixing ring 505, a front fixing ring 506, an annular chute 507, balls 508, a screening cylinder 509, a material guiding extending ring 510, a transmission outer toothed ring 511, a driving gear 512, a supporting plate 513, a control motor 514, an extending plate 515, a stirring plate 516, a positioning through slot 517 and a screening auxiliary component; the vibration device 501 is arranged at the side position of the processing equipment main body 1, the front end supporting legs 502 are symmetrically and fixedly arranged at two sides of the front end fixing ring 506, the tail end supporting legs 503 are symmetrically and fixedly arranged at two sides of the tail end fixing ring 505, the tail end fixing ring 505 and the bottom end of the front end supporting legs 502 are fixedly provided with the fixing base 504, the fixing base 504 is fixedly connected and arranged on the vibration device 501 through bolts, the tail end fixing ring 505 and the inner side of the front end supporting legs 502 are respectively provided with an annular chute 507, the balls 508 are in rolling connection and are movably embedded and arranged at the side positions of two ends of the screening drum 509 at equal intervals, the end part of the tail end of the screening drum 509 is fixedly provided with a material guiding extension ring 510, the end part of the front end of the screening drum 509 is fixedly provided with a transmission outer toothed ring 511, the transmission outer toothed ring 511 is in meshed connection with a driving gear 512, the driving gear 512 is fixedly arranged at one end of a control motor 514, the control motor 514 is fixedly connected and arranged on a support plate 513, the support plate 515 is fixedly arranged on the front end fixing ring 506, the extension plate 515 is fixedly arranged on the outer side wall of the screening drum 509, the inner side of the screening drum 509 is in equal interval, the inner wall 516 is arranged on the inner side of the screening drum 509 is in rolling connection and extends through a positioning assembly 517, and extends through the positioning groove 517, and is arranged in the auxiliary positioning assembly 517; the setting height of the front end of the screening cylinder 509 is higher than the setting height of the tail end, namely the screening cylinder 509 is obliquely arranged, and the screening cylinder 509 rotates under the meshing transmission action of the transmission outer toothed ring 511 and the driving gear 512; the stirring plates 516 and the extending plates 515 are arranged in the same number of groups, and four groups are arranged between the stirring plates 516 and the extending plates 515, and the setting lengths of the stirring plates 516 and the extending plates 515 are equal.

The screening aid is provided with a first screening aid 6 and a second screening aid 7.

The first screening auxiliary assembly 6 comprises a buffer stop ring 601, a guide through groove 602, a connecting rod 603, a first drainage inclined plane 604, a first limiting clamping groove 605, a first mounting thread groove 606, a positioning threaded rod 607 and a knob 608; the buffer baffle rings 601 are equidistantly connected and arranged on the inner side wall of the screening cylinder 509, guide through grooves 602 are equidistantly arranged on the buffer baffle rings 601, connecting rods 603 are fixedly arranged in the guide through grooves 602, first drainage inclined planes 604 are symmetrically arranged on two sides of the guide through grooves 602, first limit clamping grooves 605 are equidistantly arranged on the buffer baffle rings 601, first mounting thread grooves 606 are formed in the first limit clamping grooves 605, and positioning threaded rods 607 penetrate through the positioning through grooves 517 and are in threaded connection with the first mounting thread grooves 606 in an adapting mode, and knobs 608 are fixedly arranged at one ends of the positioning threaded rods 607; the first limiting clamping groove 605 corresponds to the setting position of the stirring plate 516, has the same setting group number, and is in fit and clamping connection with the stirring plate 516; the buffer stop ring 601 is in sliding connection with the stirring plate 516 through the first limiting clamping groove 605, the stirring plate 516 stirs materials in the screening cylinder 509, and the buffer stop ring 601 is in position limiting; the first mounting thread groove 606 corresponds to the setting position of the positioning through groove 517; four guide through grooves 602 are equidistantly arranged on the buffer baffle ring 601; the buffer stop ring 601 is positioned by threaded connection of the positioning threaded rod 607 and the first mounting thread groove 606.

The vibration screening device for capsule production is mainly used for vibration screening of capsules through the cooperation between the vibration screening driving mechanism 5 and the screening auxiliary component, and rolling screening is carried out under the control and driving action of the control motor 514, the driving gear 512, the transmission outer toothed ring 511 and the screening cylinder 509, so that the screening quality of materials is improved, the screened capsules are well distinguished and collected, and the overall working economic benefit is improved; the material enters into the screening cylinder 509 from discharge gate 2, screening cylinder 509 rolls under the meshing transmission drive effect of driving gear 512 and transmission outer ring gear 511, and then the phenomenon that the material can not cause the deposit, guarantee the normal clear of capsule screening work, improve screening work efficiency, the material enters into screening cylinder 509 after, at first receive the blocking of being in screening cylinder 509 upside slow material baffle ring 601, and the capsule of screening falls in second receipts workbin 4, afterwards the stirring board 516 of screening cylinder 509 inside wall drives the material, make the material drop again, stir the material, avoid gathering, and this process is equivalent to carrying out secondary screening to the capsule material, afterwards when the capsule material moves down along screening cylinder 509 when the guide through groove 602 on slow material baffle ring 601, can advance the slow material baffle ring 601 of next position this moment, afterwards carry out rotatory vibrations screening work again, carry out multistage screening to the material, improve screening quality, the capsule that selects from screening cylinder 509 all can fall in second receipts workbin 4, finally, it is in order to carry out the collection to follow capsule material from screening cylinder tail end baffle ring 510, and the capsule that falls in first guide ring 510 and the guide groove 602 is convenient for setting up in the slope that the capsule is located in the first guide groove 602 that the guide groove 602 falls down.

Embodiment two: on the basis of the first embodiment, referring to fig. 1 to 8,

the buffer stop ring 601 is provided with the multiunit in screening cylinder 509, buffer stop ring 601 carries out sliding connection on stirring flitch 516 through first spacing draw-in groove 605, and fix a position through the threaded connection of location threaded rod 607 and first installation thread groove 606, buffer stop ring 601's position can carry out nimble adjustment, and buffer stop ring 601's group number also can increase and decrease according to actual demand, set up the multiunit to buffer stop ring 601, on the one hand, improve its screening quality, on the other hand, when the capsule material is more from the blowout in discharge gate 2, to the middle part hollow position from buffer stop ring 601 flies out, the buffer stop ring 601 of setting up in next group also can block the capsule material, guarantee its normal screening, avoid producing the screening.

Embodiment III: on the basis of the second embodiment, referring to fig. 9, the second screening auxiliary assembly 7 includes an arc-shaped buffer baffle 701, a second drainage inclined plane 702, a second limiting clamping groove 703, a second mounting thread groove 704, a positioning thread post 705, and a handle 706; second drainage inclined planes 702 are symmetrically arranged at two ends of the arc-shaped buffer baffle 701, a second limiting clamping groove 703 is formed in the middle of the side of the arc-shaped buffer baffle 701, the second limiting clamping groove 703 is in fit and clamping connection with the stirring plate 516, a second mounting thread groove 704 is fixedly arranged in the second limiting clamping groove 703, a positioning thread column 705 passes through the positioning through groove 517 to be in threaded connection with the second mounting thread groove 704, and a handle 706 is fixedly arranged at one end of the positioning thread column 705; the arc-shaped buffer baffle 701 is arranged singly, and the size of the arc-shaped buffer baffle 701 is selected according to actual screening requirements; the arc-shaped buffer baffle 701 slides on the stirring plate 516 through the second limiting clamping groove 703, and is in position positioning through the threaded connection of the positioning threaded column 705 and the positioning through groove 517.

To the fender material subassembly in the second screening auxiliary assembly 7 set up to arc buffering baffle 701, when its adoption disconnection, the purpose is convenient for later stage to change and maintain to its part, and the specification size of arc buffering baffle 701 can set up the multiunit and form a fender material ring, and its work flexibility is higher.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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. Finished product vibrations sieving mechanism is used in capsule production, its characterized in that: the device comprises a vibration screening driving mechanism (5) and a screening auxiliary component, wherein the vibration screening driving mechanism (5) is arranged at the side position of a processing equipment main body (1), the vibration screening driving mechanism (5) is internally connected with the screening auxiliary component, one side of the processing equipment main body (1) is provided with a discharge hole (2), capsules enter the vibration screening driving mechanism (5) from the discharge hole (2) to be screened, and the screened materials are respectively collected in a first material receiving box (3) and a second material receiving box (4);

the vibration screening driving mechanism (5) comprises a vibration device (501), a front end supporting leg (502), a rear end supporting leg (503), a fixed base (504), a rear end fixing ring (505), a front end fixing ring (506), an annular chute (507), balls (508), a screening cylinder (509), a material guiding extension ring (510), a transmission outer toothed ring (511), a driving gear (512), a supporting plate (513), a control motor (514), an extension plate (515), a stirring plate (516), a positioning through groove (517) and a screening auxiliary component; the vibration device (501) is arranged at the side position of the processing equipment main body (1), the front end supporting legs (502) are symmetrically and fixedly arranged at the two sides of the front end fixing ring (506), the tail end supporting legs (503) are symmetrically and fixedly arranged at the two sides of the tail end fixing ring (505), the bottom ends of the tail end fixing ring (505) and the front end supporting legs (502) are fixedly provided with fixing bases (504), the fixing bases (504) are fixedly connected and arranged on the vibration device (501) through bolts, the inner sides of the tail end fixing ring (505) and the front end supporting legs (502) are provided with annular sliding grooves (507), the ball (508) is arranged in the annular chute (507) in a rolling connection way, the ball (508) is movably embedded and arranged at the side positions of two ends of the screening barrel (509) at equal intervals, the end part of the tail end of the screening barrel (509) is fixedly provided with a guide extension ring (510), the end part of the front end of the screening barrel (509) is fixedly provided with a transmission outer toothed ring (511), the transmission outer toothed ring (511) is meshed and connected with a driving gear (512), the driving gear (512) is fixedly arranged at one end of a control motor (514), the control motor (514) is fixedly connected and arranged on a support plate (513), the support plate (513) is fixedly arranged on a front end fixing ring (506), the extension plates (515) are fixedly arranged on the outer side wall of the screening cylinder (509) at equal intervals, the stirring plates (516) are arranged on the inner side wall of the screening cylinder (509) at equal intervals, positioning through grooves (517) are formed in the stirring plates (516) at equal intervals, the positioning through grooves (517) penetrate through and extend into the extension plates (515), and screening auxiliary components are connected in the screening cylinder (509);

the screening aid is provided with a first screening aid (6) and a second screening aid (7).

2. The finished vibration screening device for capsule production according to claim 1, wherein: the setting height of screening section of thick bamboo (509) front end is higher than the setting height of tail end, and screening section of thick bamboo (509) slope sets up promptly, and screening section of thick bamboo (509) rotates under the meshing transmission effect of transmission outer ring gear (511) and driving gear (512).

3. The finished vibration screening device for capsule production according to claim 1, wherein: the stirring plates (516) and the extending plates (515) are corresponding in arrangement position and same in arrangement group number, four groups are arranged on the stirring plates (516) and the extending plates (515), and the setting lengths of the stirring plates (516) and the extending plates are equal.

4. The finished vibration screening device for capsule production according to claim 1, wherein: the first screening auxiliary assembly (6) comprises a buffer baffle ring (601), a guide through groove (602), a connecting rod (603), a first drainage inclined plane (604), a first limiting clamping groove (605), a first mounting thread groove (606), a positioning threaded rod (607) and a knob (608); the utility model discloses a screening device, including screening cylinder (509) and fixed screw rod (606), including screening cylinder (509) and fixed screw rod (607), buffering stop ring (601) equidistance is connected and is set up in screening cylinder (509) inside wall, and the equidistance is provided with guide through groove (602) on buffering stop ring (601), fixed connecting rod (603) being provided with in guide through groove (602), and guide through groove (602) bilateral symmetry is provided with first drainage inclined plane (604), first spacing draw-in groove (605) equidistance sets up on buffering stop ring (601), and first mounting thread groove (606) set up in first spacing draw-in groove (605), location threaded rod (607) pass location through groove (517) and with first mounting thread groove (606) looks adaptation threaded connection, the fixed knob (608) that is provided with of one end of location threaded rod (607).

5. The vibration screening device for finished products for capsule production according to claim 4, wherein: the first limit clamping grooves (605) correspond to the setting positions of the stirring plates (516) and have the same setting group number, and the first limit clamping grooves and the stirring plates are in fit clamping connection; the buffer baffle ring (601) is connected with the stirring plate (516) in a sliding mode through the first limiting clamping groove (605), the stirring plate (516) is used for stirring materials in the screening cylinder (509), and the buffer baffle ring (601) is limited in position.

6. The vibration screening device for finished products for capsule production according to claim 4, wherein: the first installation thread groove (606) corresponds to the setting position of the positioning through groove (517); four guide through grooves (602) are formed in the buffer baffle ring (601) at equal intervals; the buffer stop ring (601) is positioned through threaded connection of a positioning threaded rod (607) and a first installation threaded groove (606).

7. The finished vibration screening device for capsule production according to claim 1, wherein: the second screening auxiliary assembly (7) comprises an arc-shaped buffer baffle (701), a second drainage inclined plane (702), a second limiting clamping groove (703), a second mounting thread groove (704), a positioning thread column (705) and a handle (706); the two ends symmetry of arc buffering baffle (701) is provided with second drainage inclined plane (702), and the avris middle part position of arc buffering baffle (701) is provided with second spacing draw-in groove (703), second spacing draw-in groove (703) and stirring flitch (516) looks adaptation joint, and fixedly provided with second mounting thread groove (704) in second spacing draw-in groove (703), location screw thread post (705) pass location logical groove (517) and carry out threaded connection with second mounting thread groove (704), the one end of location screw thread post (705) is fixed and is provided with handle (706).

8. The finished vibration screening device for capsule production according to claim 7, wherein: the arc-shaped buffer baffle plates (701) are arranged singly, and the sizes of the arc-shaped buffer baffle plates (701) are selected according to actual screening requirements; the arc-shaped buffering baffle plate (701) slides on the stirring plate (516) through the second limiting clamping groove (703), and position positioning is performed through threaded connection of the positioning threaded column (705) and the positioning through groove (517).

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