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CN-121971295-A - Composite probiotics preparation device and preparation process thereof

CN121971295ACN 121971295 ACN121971295 ACN 121971295ACN-121971295-A

Abstract

The invention relates to the technical field of composite probiotics preparation, in particular to a composite probiotics preparation device and a preparation process thereof, wherein the composite probiotics preparation device comprises a coating box, a transverse transmission mechanism, a longitudinal transmission mechanism, a detection mechanism and a compensation mechanism are arranged in the coating box, a feeding device is communicated with the top of the left end of the coating box, the transverse transmission mechanism comprises a conveyor belt which is transmitted in the coating box left and right, the left end of the conveyor belt reaches the bottom side of the feeding device, the right end of the conveyor belt reaches the longitudinal transmission mechanism, the longitudinal transmission mechanism comprises a first transmission seat which is adjacent to the right end of the conveyor belt and is used for converting materials from transverse transmission to longitudinal transmission, the output end of the first transmission seat is connected with a second transmission seat, and by means of the angle deflection design of a cavity of the first transmission seat and the second transmission seat, the detection surface can be driven to be automatically switched between the tablet close range, and the close range double-sided detection of the left side and the right side can be completed.

Inventors

  • CHEN JING
  • CHEN DAWEI
  • LI WEIGUO

Assignees

  • 潘蓓益(盐城)生物科技有限公司

Dates

Publication Date
20260505
Application Date
20260120

Claims (10)

  1. 1. The utility model provides a compound probiotic preparation facilities, a serial communication port, including coating case (1), be equipped with transverse transmission mechanism (2) in coating case (1), vertical transmission mechanism (3), detection mechanism (4) and compensation mechanism (5), the left end top intercommunication of coating case (1) has feed arrangement (6), transverse transmission mechanism (2) are including controlling conveyer belt (7) of transmission in coating case (1), the bottom side of feed arrangement (6) is reached to the left end of conveyer belt (7), vertical transmission mechanism (3) are reached to the right-hand member, vertical transmission mechanism (3) are including adjacent the right-hand member of conveyer belt (7) make the material by horizontal transport to vertical transfer first transfer seat (8) of conversion, the output of first transfer seat (8) is connected with second transfer seat (9), the output of second transfer seat (9) is connected with third transfer seat (10), first transfer seat (8), second transfer seat (9) and third transfer seat (10) are last to have seted up V-shaped chamber way (22), the upper chamber (8) is opened and is gone up towards conveyer belt (7) for the output end of conveyer belt (5) of the conversion. The channel (22) on the second transfer seat (9) is deflected clockwise (15) with respect to the channel (22) on the first transfer seat (8) next to the top surface of the conveyor belt (7). -30. The channel (22) on the third transfer seat (10) is deflected counter-clockwise (15) relative to the channel (22) on the second transfer seat (9). -30. The detection mechanism (4) comprises a first sensor (11) arranged on the left side surface of a cavity channel (22) of the first transmission seat (8) and a second sensor (12) arranged on the right side surface of a second cavity channel (22), the compensation mechanism (5) comprises a first nozzle (29) and a second nozzle (28), the first nozzle (29) is arranged on the second transmission seat (9), the nozzle direction of the first nozzle faces the right surface of the cavity channel (22), the second nozzle (28) is arranged on the third transmission seat (10), and the nozzle direction of the second nozzle faces the left surface of the cavity channel (22).
  2. 2. The composite probiotic preparation device according to claim 1, characterized in that the first transfer seat (8), the second transfer seat (9) and the third transfer seat (10) gradually incline downwards from the feed end to the discharge end in the cavity (22) one by one.
  3. 3. A composite probiotic preparation device according to claim 2, characterized in that the feeding device (6) is an automatic tablet counter.
  4. 4. A device for preparing composite probiotics according to claim 3, characterized in that the inner cavity of the coating box (1) is provided with a baffle plate (18) respectively corresponding to the front side and the rear side of the conveyor belt (7), and the baffle plate (18) reaches the feeding end of the first transfer seat (8) along the length of two sides of the conveyor belt (7).
  5. 5. The composite probiotic preparation device according to claim 4, wherein the coating box (1) is internally and rotatably connected with a left group of driving rollers (19) and a right group of driving rollers (19), and the conveyor belt (7) is in transmission connection with the left group of driving rollers (19) and the right group of driving rollers (19) are driven to rotate by a motor.
  6. 6. The composite probiotic preparation device according to claim 5, characterized in that a sloping plate (20) is arranged in the coating box (1) at a position above and adjacent to the conveyor belt (7), the left end of the sloping plate (20) reaches the front side of the feeding device (6), and the right side gradually and backwardly extends to the discharge end of the conveyor belt (7).
  7. 7. The preparation device of composite probiotics according to claim 6, characterized in that the left side of the feeding end of the cavity channel (22) of the second transfer seat (9) is provided with a first chamfer (21), the first chamfer (21) is inclined towards the right side of the cavity channel (22) where the first chamfer is located, the right side of the feeding end of the cavity channel (22) of the third transfer seat (10) is provided with a second chamfer (27), and the second chamfer (27) is inclined towards the left side of the cavity channel (22) where the second chamfer is located.
  8. 8. The composite probiotic preparation device according to claim 7, wherein a first detection reserved opening (23) is formed in the left surface of the cavity channel (22) of the first transmission seat (8), a second detection reserved opening (24) is formed in the right surface of the cavity channel (22) of the second transmission seat (9), at least two first sensors (11) are equidistantly arranged in the first transmission seat (8), detection ends of the first sensors (11) are exposed in the first detection reserved opening (23), at least two second sensors (12) are equidistantly arranged in the second transmission seat (9), and detection ends of the second sensors (12) are exposed in the second detection reserved opening (24).
  9. 9. The composite probiotic preparation device according to claim 8, wherein an assembly hole is formed between the first transfer seat (8), the second transfer seat (9) and the third transfer seat (10) along the feeding direction, a threaded conveying rod (25) is connected in the assembly hole in a rotating mode, a through hole (26) is formed between the V-shaped cavity bottom of the cavity channel (22) and the assembly hole along the feeding direction, a threaded portion of the threaded conveying rod (25) is exposed at the cavity bottom of the cavity channel (22) through the through hole (26), and a power end of the threaded conveying rod (25) is connected with the driving roller (19).
  10. 10. A process for preparing a composite probiotic by a preparation device according to claim 9, comprising the following process steps: step s01, feeding and positioning, namely, the probiotic tablets fall on a conveyor belt (7) of a transverse transmission mechanism (2) through the left end of a coating box (1) of a preparation device, and are conveyed to a longitudinal transmission mechanism (3) through the conveyor belt (7); step s02, transferring the tablets transversely and longitudinally, namely, enabling the tablets to enter a V-shaped cavity channel (22) of a first transfer seat (8) through the output end of a conveyor belt (7), and enabling the left medicament surface of the tablets to roll and transfer towards the second transfer seat (9) along the left side surface of the cavity channel (22) by means of a deflection angle of 5 degrees of the left side surface of the cavity channel (22) relative to the output end of the conveyor belt, so as to realize stable transfer of the tablets from transverse transfer to longitudinal transfer; Step S03, detecting PH of the left medicament surface of the tablet, namely, in the process that the tablet rolls along a V-shaped cavity (22) of the first transmission seat (8), the first sensor (11) carries out close PH detection on a probiotic coating layer of the left medicament surface of the tablet, and the control unit synchronously records identity information and PH detection data of the tablet, and marks that left compensation is needed if the detected PH value is lower than a threshold value; step s04, conveying the tablets to a V-shaped cavity (22) of a second conveying seat (9) through a first conveying seat (8), enabling the right medicament surface of the tablets to be attached to the right side surface of the cavity (22) of the second conveying seat (9) by means of a clockwise deflection angle of 15-30 degrees relative to the cavity (22) of the first conveying seat (8) of the cavity (22) of the second conveying seat (9), enabling the probiotic coating layer on the right side surface of the tablets to be subjected to close-range PH detection by a second sensor (12) on the right side surface of the cavity (22) of the second conveying seat (9) in the rolling process, and synchronously recording PH detection data on the right side surface of the tablets by a control unit, and marking that the right medicament surface is required to be compensated if the PH detection value is lower than a threshold value; Step s05, targeting PH compensation, namely accurately spraying quantitative PH regulator solution to the left side medicament surface of the tablet to finish PH compensation; And step s06, discharging a finished product, namely rolling the composite probiotic tablet subjected to double-sided PH detection and targeted compensation along a cavity (22) of the third transfer seat (10) to a discharge pipe/discharge port of the coating box (1) to finish the preparation process.

Description

Composite probiotics preparation device and preparation process thereof Technical Field The invention relates to the technical field of preparation of probiotics, in particular to a preparation device and a preparation process of composite probiotics. Background The compound probiotics are prepared by mixing a plurality of probiotics, wherein bacillus coagulans belongs to one type of probiotics, can regulate the balance of microbial flora in intestinal tracts, and improve the immunity and disease resistance of organisms The most suitable growth ph value of bacillus coagulans for reducing the occurrence of intestinal diseases is 6.67.0. Based on the background, the patent with the application number of CN202310710219.X discloses a composite probiotic preparation device and a preparation process thereof, wherein the composite probiotic preparation device comprises a coating box, and a container, a liquid spraying unit, a ph detection unit, a heating unit, a control unit and the like are arranged in the coating box. The coating box is internally provided with a conveyor belt, the ph detection unit is arranged above the conveyor belt, the sensing end is far away from tablets on the conveyor belt, the travel of the conveyor belt is large, the tablets are difficult to ensure not to be misplaced with the ph detection unit in the conveying process, the detection precision is affected, a plurality of coating residues are retained on the conveyor belt after the liquid spraying unit sprays liquid, the coating residues are difficult to clean, and a single conveyor belt conveys in one direction, so that equipment is long, occupied space is large, and the integration is poor. Disclosure of Invention In order to solve the problems, the invention provides a composite probiotics preparation device which comprises a coating box, wherein a transverse transmission mechanism, a longitudinal transmission mechanism, a detection mechanism and a compensation mechanism are arranged in the coating box, the top of the left end of the coating box is communicated with a feeding device, the transverse transmission mechanism comprises a conveyor belt which is transmitted in the coating box left and right, the left end of the conveyor belt reaches the bottom side of the feeding device, the right end of the conveyor belt reaches the longitudinal transmission mechanism, the longitudinal transmission mechanism comprises a first transmission seat which is adjacent to the right end of the conveyor belt and enables materials to be converted from transverse transmission to longitudinal transmission, the output end of the first transmission seat is connected with a second transmission seat, the output end of the second transmission seat is connected with a third transmission seat, V-shaped channels are formed in the first transmission seat, the second transmission seat and the third transmission seat, and the channel on the first transmission seat is opened upwards and deflects 5 relative to the output end of the conveyor belt. The channel on the second transfer seat is deflected 15 clockwise relative to the channel on the first transfer seat, behind and adjacent to the top surface of the conveyor belt. -30. The channel on the third transfer seat is deflected counter-clockwise 15 with respect to the channel on the second transfer seat. -30. The detection mechanism comprises a first sensor arranged on the left side face of the cavity channel of the first transmission seat and a second sensor arranged on the right side face of the second cavity channel, the compensation mechanism comprises a first nozzle and a second nozzle, the first nozzle is arranged on the second transmission seat, the spout direction of the first nozzle faces the right face of the cavity channel, the second nozzle is arranged on the third transmission seat, and the spout direction of the second nozzle faces the left face of the cavity channel. Preferably, the first transfer seat, the second transfer seat and the third transfer seat gradually incline downwards from the feeding end to the discharging end. Preferably, the feeding device is an automatic granule counting machine. Preferably, the inner cavity of the suitcase is respectively provided with a baffle plate relative to the front side of the conveyor belt, and the baffle plates reach the feeding end of the first transfer seat along the lengths of two sides of the conveyor belt. Preferably, the coating box is internally connected with a left group of driving rollers and a right group of driving rollers in a switching way, and the conveying belt is connected to the left group of driving rollers and the right group of driving rollers in a transmission way and is driven by a motor to rotate. Preferably, an inclined plate is arranged in the coating box at a position adjacent to the upper part of the conveyor belt, the left end of the inclined plate reaches the front side of the feeding device, and the right side gradually and b