CN112220089B

CN112220089B - Compound probiotic tablet preparation system

Info

Publication number: CN112220089B
Application number: CN202011117219.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Ningbo Gelukang Biotechnology Co ltd
Current assignee: Ningbo gelukang Biotechnology Co.,Ltd.
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-09-17
Anticipated expiration: 2040-10-19
Also published as: CN112220089A

Abstract

The utility model provides a compound probiotic piece preparation system, belongs to probiotic technical field, including the circular shape bottom plate, the vertical rotation of bottom plate upper surface installs the erection column rather than the axis coincidence, and the fixed cover of level is equipped with outer ring gear on the erection column, and the horizontal fixed mounting in erection column top has square mount pad. The upper surface of the bottom plate is vertically and fixedly provided with a driving motor through a motor base, and the top end of an output shaft of the driving motor is horizontally and fixedly provided with an incomplete gear which is meshed with the outer gear ring. Four receiving mechanisms are uniformly arranged on the side wall of the mounting seat. The invention realizes the integrated processing of pressing, conveying and discharging the mixed raw material powder, can automatically clean the surface of the butt material groove, and has convenient operation and higher processing efficiency; the invention ensures that the surface of the piled material of the mixed raw material powder in the material receiving groove is smooth and evenly distributed before pressing.

Description

Compound probiotic tablet preparation system

Technical Field

The invention belongs to the technical field of probiotics, and particularly relates to a preparation system of a composite probiotic tablet.

Background

Probiotics are active microorganisms which are beneficial to a host and change the composition of flora at a certain part of the host by colonizing in a human body. The probiotics has the function of promoting nutrient absorption and keeping intestinal tract healthy by regulating the immune function of host mucous membrane and system or regulating the flora balance in the intestinal tract, thereby generating single microorganism or mixed microorganism with definite composition which is beneficial to health. The composite probiotics is prepared by mixing probiotics and auxiliary materials, and the probiotics powder and the powdery auxiliary materials are required to be fully mixed and then subjected to tabletting with fixed thickness in the preparation process. The following problems exist in the preparation process of the composite probiotic tablet preparation system at present: (1) after the mixed raw material powder obtained by mixing the probiotic powder and the powdery auxiliary materials is pressed into tablets, the composite probiotic tablet preparation system needs to be manually taken out of the mold, and then the surface of the mold is cleaned, so that the operation is inconvenient and the processing efficiency is low; (2) the mixed raw material powder after mixing of the probiotic powder and the powdery auxiliary material is in an irregular conical shape on the surface in a stacking state after blanking, and the internal distribution is not uniform, so that the raw materials in the composite probiotic tablet preparation system after pressing are not uniformly distributed.

Disclosure of Invention

Technical problem to be solved

The invention provides a compound probiotic tablet preparation system, aiming at solving the following problems in the preparation process of the compound probiotic tablet preparation system at present: (1) after the mixed raw material powder obtained by mixing the probiotic powder and the powdery auxiliary materials is pressed into tablets, the composite probiotic tablet preparation system needs to be manually taken out of the mold, and then the surface of the mold is cleaned, so that the operation is inconvenient and the processing efficiency is low; (2) the mixed raw material powder after mixing of the probiotic powder and the powdery auxiliary material is in an irregular conical shape on the surface in a stacking state after blanking, and the internal distribution is not uniform, so that the raw materials in the composite probiotic tablet preparation system after pressing are not uniformly distributed.

(II) technical scheme

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a compound probiotic piece preparation system, includes the circular shape bottom plate, and the vertical rotation of bottom plate upper surface installs the erection column rather than the axis coincidence, and the fixed cover of level is equipped with outer ring gear on the erection column, and the horizontal fixed mounting in erection column top has square mount pad. The upper surface of the bottom plate is vertically and fixedly provided with a driving motor through a motor base, and the top end of an output shaft of the driving motor is horizontally and fixedly provided with an incomplete gear which is meshed with the outer gear ring. Four receiving mechanisms are uniformly arranged on the side wall of the mounting seat. The incomplete gear is driven to rotate by the driving motor and drives the outer gear ring, the mounting column and the mounting seat to periodically rotate; when the incomplete gear rotates for one circle, the outer gear ring, the mounting column and the mounting seat rotate for one quarter of a circle.

The receiving mechanism comprises a first circular rod, a receiving disc, a receiving groove, a torsion spring, a second circular rod and a bevel gear. The first round rod is horizontally and rotatably arranged on the side wall of the mounting base along the radial direction of the mounting column. A material receiving disc is horizontally and fixedly arranged at the outer end of the first circular rod, and a circular material receiving groove is vertically formed in the middle of the upper surface of the material receiving disc. A torsion spring sleeved on the first round rod is arranged between the side wall of the mounting seat and the side wall of the receiving disc. And a second circular rod which is overlapped with the axis of the first circular rod is arranged on the side wall of the receiving disc, and a bevel gear is fixedly arranged at the outer end of the second circular rod. The lower surface of the take-up pan is fixedly provided with a first magnet block, the upper surface of the bottom plate is fixedly provided with an arc-shaped strip plate which is coincided with the axis of the mounting column through the support horizontally, and the upper surface of the arc-shaped strip plate is uniformly and fixedly provided with a plurality of second magnet blocks. And under the static state of the outer gear ring, the mounting column, the mounting seat and the receiving mechanism, prepared mixed raw material powder is conveyed into the receiving groove through the conventional material conveying equipment. After the outer gear ring, the mounting column and the mounting seat start to rotate, the material receiving mechanism synchronously rotates horizontally. In the rotating process of the receiving mechanism, when the first magnet block and the second magnet block are close to each other, attractive force is generated between the first magnet block and the second magnet block, and the first magnet block drives the receiving disc, the first circular rod, the second circular rod and the bevel gear to overcome the elastic force of the torsion spring to rotate. When the first magnet block and the second magnet block are far away from each other, the attraction between the first magnet block and the second magnet block is reduced, and the receiving disc, the first circular rod, the second circular rod and the bevel gear are driven to reversely rotate and recover to the original position under the elastic action of the torsion spring. Along with the continuous rotation of receiving mechanism, first magnet piece and second magnet piece are close to and separate with the periodicity, and the take-up (stock) pan produces the reciprocal swing of periodicity to it is even to spread out the mixed raw materials powder in the take-up (stock) groove.

Fixed surface installs three first L template on the mount pad, and the lower fixed surface of first L template horizontal segment installs the third magnet piece. The upper surface of the bottom plate is sequentially provided with a material pressing mechanism, a discharging mechanism and a cleaning mechanism around the mounting column. The swaging mechanism comprises a second L-shaped plate, a limiting sleeve, a first lifting column, a first circular plate, a fourth magnet block, a first return spring and a pressing block, and the second L-shaped plate is fixedly installed on the upper surface of the bottom plate. The lower surface of the horizontal section of the second L-shaped plate is vertically and fixedly provided with a limiting sleeve, and a first lifting column penetrating through the horizontal section of the second L-shaped plate is vertically and slidably matched in the limiting sleeve. A first circular plate is horizontally and fixedly mounted at the top of the first lifting column, and a fourth magnet block corresponding to the third magnet block in position is fixedly mounted on the upper surface of the first circular plate. A first return spring sleeved on the first lifting column is vertically arranged between the upper surface of the horizontal section of the second L-shaped plate and the first circular plate. And a pressing block matched with the material receiving groove is fixedly arranged at the bottom end of the first lifting column. Along with the rotation of outer ring gear, erection column and mount pad, first L template synchronous rotation. When the third magnet block is close to the fourth magnet block, mutual repulsion force is generated between the third magnet block and the fourth magnet block, the fourth magnet block pushes the first circular plate, the first lifting column and the pressing block to overcome the elastic action of the first return spring and descend along the limiting sleeve, and the pressing block enters the material receiving groove to compact mixed raw material powder into blocks. Along with the rotation of outer ring gear, erection column and mount pad, first L template synchronous rotation. When the third magnet block is far away from the fourth magnet block, the mutual repulsion between the third magnet block and the fourth magnet block is reduced; the first circular plate, the first lifting column and the pressing block are driven to ascend and restore to the initial height under the elastic force action of the first return spring. When needing to explain, the bottom surface edge of briquetting is convex, and the briquetting is with mixed raw materials powder compaction blocking back, the bottom surface of briquetting with connect between the silo top surface apart from less to connect silo top surface edge can release the briquetting and connect the silo thereby guarantee receiving mechanism's normal rotation when guaranteeing to connect charging tray horizontal migration.

The discharging mechanism comprises a third L-shaped plate, a first conical rack, a second lifting column, a second circular plate, a fifth magnet block, a second return spring and a knocking block. And the third L-shaped plate is fixedly arranged on the upper surface of the bottom plate. The upper surface of the bottom plate is positioned between the third L-shaped plate and the second L-shaped plate, an arc-shaped first bevel rack is horizontally and fixedly arranged between the third L-shaped plate and the second L-shaped plate through a support, and the first bevel rack is meshed with the bevel gear. And a second lifting column is vertically matched with the horizontal section of the third L-shaped plate in a sliding manner, and a second circular plate is horizontally and fixedly installed at the top of the second lifting column. And a fifth magnet block corresponding to the third magnet block in position is fixedly arranged on the upper surface of the second circular plate. A second return spring sleeved on the second lifting column is vertically arranged between the upper surface of the horizontal section of the third L-shaped plate and the second circular plate. And the bottom surface of the second lifting column is fixedly provided with a knocking block matched with the bottom surface of the material receiving disc. In the process that the material receiving mechanism moves from the material pressing mechanism to the material discharging mechanism, the bevel gear and the first bevel rack are in a meshed state, and the bevel gear drives the material receiving disc, the first circular rod and the second circular rod to rotate against the elastic force of the torsion spring. When the third magnet block and the fifth magnet block approach to each other to reach the nearest distance, the material receiving disc just turns over a half circle, and the opening of the material receiving groove faces downwards; at the moment, the mutual repulsion between the third magnet block and the fifth magnet block pushes the fifth magnet block, the second circular plate, the second lifting column and the knocking block to descend under the action of the elastic force of the second return spring until the knocking block impacts the upward bottom surface of the receiving tray after being turned over. The composite probiotic tablet preparation system compacted in the material receiving groove is vibrated down by vibration generated when the knocking block collides with the material receiving disc. Along with the rotation of outer ring gear, erection column and mount pad, first L template and receiving mechanism synchronous rotation. When the third magnet block and the fifth magnet block are far away from each other, the mutual repulsion force between the third magnet block and the fifth magnet block is reduced, and the fifth magnet block, the second circular plate, the second lifting column and the knocking block rise and return to the initial height under the elastic action of the second return spring. Meanwhile, the bevel gear and the first bevel rack are disengaged, and the bevel gear, the receiving disc, the first circular rod and the second circular rod rotate under the elastic action of the torsion spring to restore to the original position, namely, the receiving groove is in an upward state.

As a preferred technical solution of the present invention, an inclined reinforcing plate is fixedly installed between the horizontal section and the vertical section of the first L-shaped plate, so as to prevent the horizontal section of the first L-shaped plate from being bent due to the repulsive force between the third magnet block and the fourth magnet block.

As a preferable technical scheme of the invention, a material receiving box with an opening on the top surface is fixedly arranged at the position, corresponding to the knocking block, of the upper surface of the bottom plate, and the falling composite probiotic tablet preparation system is collected through the material receiving box.

As a preferable technical scheme of the invention, the cleaning mechanism comprises a fourth L-shaped plate, a third lifting column, a third circular plate, a sixth magnet block, a third return spring and a brush roller. And the fourth L-shaped plate is fixedly arranged on the upper surface of the bottom plate. A vertical third lifting column is arranged on the horizontal section of the fourth L-shaped plate in a sliding fit mode, and a third circular plate is horizontally and fixedly arranged at the top of the third lifting column. And a sixth magnet block corresponding to the third magnet block in position is fixedly arranged on the upper surface of the third circular plate. A third return spring sleeved on the third lifting column is vertically arranged between the upper surface of the horizontal section of the fourth L-shaped plate and the third circular plate. The bottom surface of the third lifting column is fixedly provided with a brush roller. The receiving mechanism leaves the discharging mechanism and then moves towards the cleaning mechanism, when the third magnet block is close to the sixth magnet block, mutual repulsion force is generated between the third magnet block and the sixth magnet block, the third circular plate, the third lifting column and the brush roller are pushed to overcome the elastic action of the third reset spring to descend, and the brush roller enters the receiving groove and cleans the inner wall of the receiving groove. The material receiving mechanism continues to horizontally move, the third magnet block is far away from the sixth magnet block, the mutual repulsion force between the third magnet block and the sixth magnet block is reduced, and the sixth magnet block, the third circular plate, the third lifting column and the brush roller rise and recover to the initial height under the elastic action of the third return spring.

As a preferable technical scheme of the invention, the outer surface of the third lifting column is provided with a spiral groove, and the third lifting column is in running fit with the horizontal section of the fourth L-shaped plate through the spiral groove. The upper surface of the horizontal section of the fourth L-shaped plate is matched with a mounting ring in a rotating mode, and the bottom of the third return spring is fixedly mounted on the mounting ring. When the third lifting column vertically reciprocates, the third lifting column simultaneously drives the brush roller, the third circular plate, the sixth magnet block, the third reset spring and the mounting ring to rotate, so that the cleaning effect of the inner wall of the butt joint material groove is improved through the rotary cleaning of the brush roller.

As a preferable technical scheme of the invention, an arc-shaped second taper rack is horizontally and fixedly arranged between the fourth L-shaped plate and the arc-shaped strip plate on the upper surface of the bottom plate through a bracket, and the second taper rack is meshed with the bevel gear. After the receiving mechanism leaves the cleaning mechanism, the bevel gear and the second bevel rack are in an engaged state, and the bevel gear drives the receiving disc, the first circular rod and the second circular rod to overcome the elastic action of the torsion spring to rotate. In the overturning process of the receiving disc, the powder material cleaned in the receiving groove automatically falls and leaves the receiving groove, so that the residue of the powder material is avoided. When the bevel gear is disengaged from the second bevel rack, the bevel gear, the receiving tray, the first circular rod and the second circular rod rotate under the action of the elastic force of the torsion spring to restore to the initial state, namely the receiving groove is in an upward state.

As a preferred technical scheme of the invention, a horizontal bearing plate is fixedly arranged on the upper surface of the bottom plate through a bracket, and the bearing plate is positioned right below the pressing block. The upper surface of the bearing plate is rotatably provided with a plurality of balls. The ball is tangent to the lower surface of the receiving disc. When the briquetting gets into and connects the material inslot to carry out the compaction blocking in-process to mixed raw materials powder, the ball laminating on the bearing plate plays the supporting role at the take-up (stock) pan lower surface butt joint charging tray, avoids the take-up (stock) pan to produce because of the pressure effect of briquetting and warp.

(III) advantageous effects

The invention has at least the following beneficial effects:

(1) the invention solves the following problems in the preparation process of the composite probiotic tablet preparation system at present: after the mixed raw material powder is pressed into tablets, the composite probiotic tablet preparation system needs to be manually taken out of the mold, and then the surface of the mold is cleaned, so that the operation is inconvenient and the processing efficiency is low; the mixed raw material powder after mixing of the probiotic powder and the powdery auxiliary material is in an irregular conical shape on the surface in a stacking state after blanking, and the internal distribution is not uniform, so that the raw materials in the composite probiotic tablet preparation system after pressing are not uniformly distributed.

(2) According to the invention, the integrated processing of pressing, conveying and discharging of the mixed raw material powder is realized through the composite probiotic tablet preparation system, the surface of the material groove can be automatically cleaned after the discharging is finished, the operation is convenient, and the processing efficiency is higher.

(3) In the conveying process before the mixed raw material powder formed by mixing the probiotic powder and the powdery auxiliary material is pressed, the receiving disc is driven to swing back and forth under the action of attraction between the first magnet block and the second magnet block, so that the mixed raw material powder in the receiving groove is uniformly spread, and the surface of the stacked material of the mixed raw material powder is flat and uniformly distributed.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of a first three-dimensional structure according to an embodiment of the present invention;

FIG. 2 is a second perspective view of an embodiment of the present invention;

FIG. 3 is a third perspective view of an embodiment of the present invention;

FIG. 4 is a side view of an embodiment of the present invention;

FIG. 5 is an enlarged schematic view at A in FIG. 1;

FIG. 6 is an enlarged schematic view at B of FIG. 2;

fig. 7 is an enlarged schematic view at C in fig. 2.

In the figure: 1-bottom plate, 2-mounting column, 3-external gear ring, 4-mounting seat, 5-driving motor, 6-incomplete gear, 7-material receiving mechanism, 71-first circular rod, 72-material receiving disk, 73-material receiving groove, 74-torsion spring, 75-second circular rod, 76-bevel gear, 8-first magnet block, 9-arc strip plate, 10-second magnet block, 11-first L-shaped plate, 12-third magnet block, 13-material pressing mechanism, 131-second L-shaped plate, 132-limit sleeve, 133-first lifting column, 134-first circular plate, 135-fourth magnet block, 136-first reset spring, 137-press block, 14-material discharging mechanism, 141-third L-shaped plate, 142-first bevel rack, 137-first bevel gear, 14-material discharging mechanism, etc, 143-a second lifting column, 144-a second circular plate, 145-a fifth magnet block, 146-a second return spring, 147-a knocking block, 15-a cleaning mechanism, 151-a fourth L-shaped plate, 152-a third lifting column, 153-a third circular plate, 154-a sixth magnet block, 155-a third return spring, 156-a brush roller, 157-a mounting ring, 16-a reinforcing plate, 17-a material receiving box and 18-a second bevel gear rack.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, the embodiment provides a composite probiotic tablet preparation system, which includes a circular bottom plate 1, wherein an installation column 2 coinciding with an axis of the bottom plate 1 is vertically and rotatably installed on the upper surface of the bottom plate 1, an external gear ring 3 is horizontally and fixedly sleeved on the installation column 2, and a square installation seat 4 is horizontally and fixedly installed on the top of the installation column 2. The upper surface of the bottom plate 1 is vertically and fixedly provided with a driving motor 5 through a motor base, and the top end of an output shaft of the driving motor 5 is horizontally and fixedly provided with an incomplete gear 6 which is meshed with the outer gear ring 3. Four receiving mechanisms 7 are uniformly arranged on the side wall of the mounting seat 4. The incomplete gear 6 is driven to rotate by the driving motor 5, and the incomplete gear 6 drives the outer gear ring 3, the mounting column 2 and the mounting seat 4 to periodically rotate; and when the incomplete gear 6 rotates for one circle, the outer gear ring 3, the mounting column 2 and the mounting seat 4 rotate for one quarter of a circle.

The receiving mechanism 7 comprises a first circular rod 71, a receiving tray 72, a receiving groove 73, a torsion spring 74, a second circular rod 75 and a bevel gear 76. The first circular rod 71 is horizontally and rotatably mounted on the side wall of the mounting seat 4 along the radial direction of the mounting column 2. A material receiving tray 72 is horizontally and fixedly arranged at the outer end of the first circular rod 71, and a circular material receiving groove 73 is vertically formed in the middle of the upper surface of the material receiving tray 72. A torsion spring 74 sleeved on the first circular rod 71 is arranged between the side wall of the mounting seat 4 and the side wall of the receiving tray 72. A second circular rod 75 which is overlapped with the axis of the first circular rod 71 is arranged on the side wall of the receiving tray 72, and a bevel gear 76 is fixedly arranged at the outer end of the second circular rod 75. The lower surface of the receiving tray 72 is fixedly provided with a first magnet block 8, the upper surface of the bottom plate 1 is fixedly provided with an arc-shaped strip plate 9 which is coincided with the axis of the mounting column 2 through the support horizontally, and the upper surface of the arc-shaped strip plate 9 is uniformly and fixedly provided with a plurality of second magnet blocks 10. And under the static state of the outer gear ring 3, the mounting column 2, the mounting seat 4 and the receiving mechanism 7, prepared mixed raw material powder is conveyed into the receiving groove 73 through the existing material conveying equipment. After the outer gear ring 3, the mounting column 2 and the mounting seat 4 start to rotate, the material receiving mechanism 7 synchronously horizontally rotates. In the rotation process of the receiving mechanism 7, when the first magnet block 8 and the second magnet block 10 approach each other, an attractive force is generated between the two, and the first magnet block 8 drives the receiving tray 72, the first circular rod 71, the second circular rod 75 and the bevel gear 76 to rotate against the elastic force of the torsion spring 74. When the first magnet block 8 and the second magnet block 10 are away from each other, the attraction force between the two is reduced, and the receiving plate 72, the first circular rod 71, the second circular rod 75 and the bevel gear 76 are driven by the elastic force of the torsion spring 74 to rotate reversely and return to the original position. As the receiving mechanism 7 continues to rotate, the first magnet block 8 and the second magnet block 10 periodically approach and separate from each other, and the receiving tray 72 periodically reciprocates, thereby uniformly spreading the mixed raw material powder in the receiving groove 73.

Three first L-shaped plates 11 are fixedly mounted on the upper surface of the mounting seat 4, and inclined reinforcing plates 16 are fixedly mounted between the horizontal sections and the vertical sections of the first L-shaped plates 11. The lower surface of the horizontal section of the first L-shaped plate 11 is fixedly provided with a third magnet block 12. The upper surface of the bottom plate 1 is provided with a pressing mechanism 13, a discharging mechanism 14 and a cleaning mechanism 15 in sequence around the mounting column 2. The material pressing mechanism 13 comprises a second L-shaped plate 131, a limiting sleeve 132, a first lifting column 133, a first circular plate 134, a fourth magnet block 135, a first return spring 136 and a pressing block 137, wherein the second L-shaped plate 131 is fixedly installed on the upper surface of the bottom plate 1. The lower surface of the horizontal section of the second L-shaped plate 131 is vertically and fixedly provided with a limiting sleeve 132, and a first lifting column 133 penetrating through the horizontal section of the second L-shaped plate 131 is vertically and slidably matched in the limiting sleeve 132. A first circular plate 134 is horizontally and fixedly installed on the top of the first elevating column 133, and a fourth magnet 135 corresponding to the third magnet 12 is fixedly installed on the upper surface of the first circular plate 134. A first return spring 136 sleeved on the first lifting column 133 is vertically installed between the upper surface of the horizontal section of the second L-shaped plate 131 and the first circular plate 134. The bottom end of the first lifting column 133 is fixedly provided with a pressing block 137 which is matched with the material receiving groove 73. Along with the rotation of outer ring gear 3, erection column 2 and mount pad 4, first L template 11 rotates in step. When the third magnet block 12 is close to the fourth magnet block 135, a mutual repulsion force is generated between the third magnet block and the fourth magnet block, the fourth magnet block 135 pushes the first circular plate 134, the first lifting column 133 and the pressing block 137 to overcome the elastic action of the first return spring 136 and descend along the limiting sleeve 132, and the pressing block 137 enters the material receiving groove 73 to compact the mixed raw material powder into blocks. Along with the rotation of outer ring gear 3, erection column 2 and mount pad 4, first L template 11 rotates in step. When the third magnet block 12 is away from the fourth magnet block 135, the repulsive force therebetween is reduced; the first circular plate 134, the first elevating post 133 and the pressing piece 137 are lifted and restored to the original height by the elastic force of the first return spring 136. When the material receiving tray 72 moves horizontally, the edge of the top surface of the material receiving groove 73 can push the pressing block 137 out of the material receiving groove 73, so that the normal rotation of the material receiving mechanism 7 is ensured. The upper surface of the bottom plate 1 is fixedly provided with a horizontal bearing plate 19 through a bracket, and the bearing plate 19 is positioned under the pressing block 137. The upper surface of the bearing plate 19 is rotatably provided with a plurality of balls 20. The ball 20 is tangent to the lower surface of the take-up pan 72. When the pressing block 137 enters the material receiving groove 73 to compact and form the mixed raw material powder into blocks, the balls 20 on the pressure bearing plate 19 are attached to the lower surface of the material receiving tray 72 to support the material receiving tray 72, and the material receiving tray 72 is prevented from deforming under the pressure action of the pressing block 137.

The discharging mechanism 14 includes a third L-shaped plate 141, a first bevel rack 142, a second lifting column 143, a second circular plate 144, a fifth magnet 145, a second return spring 146, and a striking block 147. The third L-shaped plate 141 is fixedly mounted on the upper surface of the base plate 1. An arc-shaped first bevel rack 142 is horizontally and fixedly arranged between the third L-shaped plate 141 and the second L-shaped plate 131 on the upper surface of the base plate 1 through a bracket, and the first bevel rack 142 is meshed with the bevel gear 76. A second lifting column 143 is vertically and slidably matched on the horizontal section of the third L-shaped plate 141, and a second circular plate 144 is horizontally and fixedly installed at the top of the second lifting column 143. A fifth magnet piece 145 is fixedly mounted on the upper surface of the second circular plate 144 at a position corresponding to the third magnet piece 12. A second return spring 146 sleeved on the second lifting column 143 is vertically installed between the upper surface of the horizontal section of the third L-shaped plate 141 and the second circular plate 144. The bottom surface of the second lifting column 143 is fixedly provided with a knocking block 147 which is matched with the bottom surface of the receiving tray 72. In the process that the material receiving mechanism 7 moves from the material pressing mechanism 13 to the discharging mechanism 14, the bevel gear 76 and the first bevel rack 142 enter a meshed state, and the bevel gear 76 drives the material receiving tray 72, the first circular rod 71 and the second circular rod 75 to rotate against the elastic force of the torsion spring 74. When the third magnet block 12 and the fifth magnet block 145 approach each other to reach the closest distance, the receiving tray 72 is just turned over by half a turn, and the opening of the receiving groove 73 faces downward; at this time, the repulsive force between the third magnet block 12 and the fifth magnet block 145 pushes the fifth magnet block 145, the second circular plate 144, the second lifting column 143, and the striking block 147 to descend against the elastic force of the second return spring 146 until the striking block 147 strikes the inverted bottom surface of the receiving tray 72. The composite probiotic tablet preparation system compacted in the material receiving groove 73 is vibrated down by vibration generated when the knocking block 147 collides with the material receiving disc 72. Along with the rotation of outer ring gear 3, erection column 2 and mount pad 4, first L template 11 and receiving mechanism 7 synchronous rotation. When the third magnet block 12 and the fifth magnet block 145 are separated from each other, the repulsive force therebetween is decreased, and the fifth magnet block 145, the second circular plate 144, the second elevation column 143, and the striking block 147 are raised by the elastic force of the second return spring 146 to be restored to the initial height. Meanwhile, the bevel gear 76 is disengaged from the first bevel gear rack 142, and the bevel gear 76, the material receiving tray 72, the first circular rod 71 and the second circular rod 75 rotate to return to the original position under the elastic force of the torsion spring 74, that is, the material receiving groove 73 faces upward. The position of the upper surface of the bottom plate 1 corresponding to the knocking block 147 is fixedly provided with a material receiving box 17 with an opening on the top surface, and the falling composite probiotic tablet preparation system is collected through the material receiving box 17.

The cleaning mechanism 15 includes a fourth L-shaped plate 151, a third lifting column 152, a third circular plate 153, a sixth magnet block 154, a third return spring 155, and a brush roller 156. The fourth L-shaped plate 151 is fixedly mounted on the upper surface of the base plate 1. A vertical third lifting column 152 is slidably fitted on the horizontal section of the fourth L-shaped plate 151, and a third circular plate 153 is horizontally and fixedly mounted at the top of the third lifting column 152. A sixth magnet block 154 is fixedly mounted on the upper surface of the third circular plate 153 at a position corresponding to the third magnet block 12. A third return spring 155 sleeved on the third lifting column 152 is vertically arranged between the upper surface of the horizontal section of the fourth L-shaped plate 151 and the third circular plate 153. A brush roller 156 is fixedly installed on the bottom surface of the third elevating column 152. The material receiving mechanism 7 moves towards the cleaning mechanism 15 after leaving the discharging mechanism 14, when the third magnet block 12 is close to the sixth magnet block 154, a mutual repulsion force is generated between the sixth magnet block 154 and the sixth magnet block 154, the third circular plate 153, the third lifting column 152 and the brush roller 156 are pushed to descend under the action of the elastic force of the third return spring 155, and the brush roller 156 enters the material receiving groove 73 to clean the inner wall of the material receiving groove 73. The material receiving mechanism 7 continues to move horizontally, the third magnet block 12 is far away from the sixth magnet block 154, the mutual repulsion force between the third magnet block and the sixth magnet block is reduced, and the sixth magnet block 154, the third circular plate 153, the third lifting column 152 and the brush roller 156 rise and restore to the initial height under the elastic action of the third return spring 155. The outer surface of the third lifting column 152 is provided with a spiral groove, and the third lifting column 152 is rotatably matched with the horizontal section of the fourth L-shaped plate 151 through the spiral groove. The upper surface of the horizontal section of the fourth L-shaped plate 151 is rotatably fitted with a mounting ring 157, and the bottom of the third return spring 155 is fixedly mounted on the mounting ring 157. When the third lifting column 152 vertically moves up and down, the third lifting column 152 simultaneously drives the brush roller 156, the third circular plate 153, the sixth magnet block 154, the third return spring 155 and the mounting ring 157 to rotate, so that the cleaning effect of the inner wall of the docking chute 73 is improved by the rotary cleaning of the brush roller 156.

An arc-shaped second taper rack 18 is horizontally and fixedly arranged between the fourth L-shaped plate 151 and the arc-shaped plates 9 on the upper surface of the bottom plate 1 through a bracket, and the second taper rack 18 is meshed with the bevel gear 76. After the receiving mechanism 7 leaves the cleaning mechanism 15, the bevel gear 76 and the second bevel rack 18 enter a meshed state, and the bevel gear 76 drives the receiving tray 72, the first circular rod 71 and the second circular rod 75 to rotate against the elastic force of the torsion spring 74. In the overturning process of the receiving tray 72, the powder cleaned in the receiving groove 73 automatically falls and leaves the receiving groove 73, so that the residue of the powder is avoided. When the bevel gear 76 is disengaged from the second bevel gear 18, the bevel gear 76, the receiving tray 72, the first circular rod 71, and the second circular rod 75 are rotated by the elastic force of the torsion spring 74 to return to the initial state, i.e., the receiving slot 73 is directed upward.

The specific working process in this embodiment is as follows: the incomplete gear 6 is driven to rotate by the driving motor 5, and the incomplete gear 6 drives the outer gear ring 3, the mounting column 2 and the mounting seat 4 to periodically rotate; and when the incomplete gear 6 rotates for one circle, the outer gear ring 3, the mounting column 2 and the mounting seat 4 rotate for one quarter of a circle. And under the static state of the outer gear ring 3, the mounting column 2, the mounting seat 4 and the receiving mechanism 7, prepared mixed raw material powder is conveyed into the receiving groove 73 through the existing material conveying equipment. After the outer gear ring 3, the mounting column 2 and the mounting seat 4 start to rotate, the material receiving mechanism 7 synchronously horizontally rotates, the first magnet block 8 and the second magnet block 10 are periodically close to and separated from each other, and the material receiving disc 72 periodically swings back and forth, so that the mixed raw material powder in the material receiving groove 73 is uniformly spread. Along with the rotation of outer ring gear 3, erection column 2 and mount pad 4, first L template 11 rotates in step. When the third magnet block 12 is close to the fourth magnet block 135, a mutual repulsion force is generated between the third magnet block and the fourth magnet block, the fourth magnet block 135 pushes the first circular plate 134, the first lifting column 133 and the pressing block 137 to overcome the elastic action of the first return spring 136 and descend along the limiting sleeve 132, and the pressing block 137 enters the material receiving groove 73 to compact the mixed raw material powder into blocks.

In the process that the material receiving mechanism 7 moves from the material pressing mechanism 13 to the discharging mechanism 14, the bevel gear 76 and the first bevel rack 142 enter a meshed state, and the bevel gear 76 drives the material receiving tray 72, the first circular rod 71 and the second circular rod 75 to rotate against the elastic force of the torsion spring 74. When the third magnet block 12 and the fifth magnet block 145 approach each other to reach the closest distance, the receiving tray 72 is just turned over by half a turn, and the opening of the receiving groove 73 faces downward; at this time, the repulsive force between the third magnet block 12 and the fifth magnet block 145 pushes the fifth magnet block 145, the second circular plate 144, the second lifting column 143, and the striking block 147 to descend against the elastic force of the second return spring 146 until the striking block 147 strikes the inverted bottom surface of the receiving tray 72. The composite probiotic tablet preparation system compacted in the material receiving groove 73 is vibrated down by vibration generated when the knocking block 147 collides with the material receiving disc 72. The falling composite probiotic tablet preparation system is collected by the material receiving box 17.

The material receiving mechanism 7 moves towards the cleaning mechanism 15 after leaving the discharging mechanism 14, when the third magnet block 12 is close to the sixth magnet block 154, a mutual repulsion force is generated between the sixth magnet block 154 and the sixth magnet block 154, the third circular plate 153, the third lifting column 152 and the brush roller 156 are pushed to descend under the action of the elastic force of the third return spring 155, and the brush roller 156 enters the material receiving groove 73 to clean the inner wall of the material receiving groove 73.

After the receiving mechanism 7 leaves the cleaning mechanism 15, the bevel gear 76 and the second bevel rack 18 enter a meshed state, and the bevel gear 76 drives the receiving tray 72, the first circular rod 71 and the second circular rod 75 to rotate against the elastic force of the torsion spring 74. In the overturning process of the receiving tray 72, the powder cleaned in the receiving groove 73 automatically falls and leaves the receiving groove 73, so that the residue of the powder is avoided. When the bevel gear 76 is disengaged from the second bevel gear 18, the bevel gear 76, the receiving tray 72, the first circular rod 71, and the second circular rod 75 are rotated by the elastic force of the torsion spring 74 to return to the initial state, i.e., the receiving slot 73 is directed upward.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The preparation system of the composite probiotic tablets is characterized by comprising a round bottom plate (1), wherein an installation column (2) which is coincident with the axis of the bottom plate (1) is vertically and rotatably installed on the upper surface of the bottom plate (1), an outer gear ring (3) is horizontally and fixedly sleeved on the installation column (2), and a square installation seat (4) is horizontally and fixedly installed at the top of the installation column (2); a driving motor (5) is vertically and fixedly installed on the upper surface of the bottom plate (1) through a motor base, and an incomplete gear (6) meshed with the outer gear ring (3) is horizontally and fixedly installed at the top end of an output shaft of the driving motor (5); four receiving mechanisms (7) are uniformly arranged on the side wall of the mounting seat (4);

the material receiving mechanism (7) comprises a first circular rod (71), a material receiving tray (72), a material receiving groove (73), a torsion spring (74), a second circular rod (75) and a bevel gear (76); the first round rod (71) is horizontally and rotatably arranged on the side wall of the mounting base (4) along the radial direction of the mounting column (2); a material receiving disc (72) is horizontally and fixedly arranged at the outer end of the first circular rod (71), and a circular material receiving groove (73) is vertically formed in the middle of the upper surface of the material receiving disc (72); a torsion spring (74) sleeved on the first round rod (71) is arranged between the side wall of the mounting seat (4) and the side wall of the receiving disc (72); a second circular rod (75) which is overlapped with the axis of the first circular rod (71) is arranged on the side wall of the receiving disc (72), and a bevel gear (76) is fixedly arranged at the outer end of the second circular rod (75); a first magnet block (8) is fixedly mounted on the lower surface of the receiving disc (72), an arc-shaped batten (9) which is overlapped with the axis of the mounting column (2) is horizontally and fixedly mounted on the upper surface of the bottom plate (1) through a support, and a plurality of second magnet blocks (10) are uniformly and fixedly mounted on the upper surface of the arc-shaped batten (9);

three first L-shaped plates (11) are fixedly arranged on the upper surface of the mounting seat (4), and a third magnet block (12) is fixedly arranged on the lower surface of the horizontal section of each first L-shaped plate (11); a material pressing mechanism (13), a discharging mechanism (14) and a cleaning mechanism (15) are sequentially arranged on the upper surface of the bottom plate (1) around the mounting column (2); the material pressing mechanism (13) comprises a second L-shaped plate (131), a limiting sleeve (132), a first lifting column (133), a first circular plate (134), a fourth magnet block (135), a first return spring (136) and a pressing block (137), and the second L-shaped plate (131) is fixedly arranged on the upper surface of the bottom plate (1); a limiting sleeve (132) is vertically and fixedly mounted on the lower surface of the horizontal section of the second L-shaped plate (131), and a first lifting column (133) penetrating through the horizontal section of the second L-shaped plate (131) is vertically and slidably matched in the limiting sleeve (132); a first circular plate (134) is horizontally and fixedly installed at the top of the first lifting column (133), and a fourth magnet block (135) corresponding to the third magnet block (12) in position is fixedly installed on the upper surface of the first circular plate (134); a first return spring (136) sleeved on the first lifting column (133) is vertically arranged between the upper surface of the horizontal section of the second L-shaped plate (131) and the first circular plate (134); a pressing block (137) matched with the material receiving groove (73) is fixedly arranged at the bottom end of the first lifting column (133);

the discharging mechanism (14) comprises a third L-shaped plate (141), a first bevel rack (142), a second lifting column (143), a second circular plate (144), a fifth magnet block (145), a second return spring (146) and a knocking block (147); the third L-shaped plate (141) is fixedly arranged on the upper surface of the bottom plate (1); an arc-shaped first bevel rack (142) is horizontally and fixedly arranged between the third L-shaped plate (141) and the second L-shaped plate (131) on the upper surface of the bottom plate (1) through a bracket, and the first bevel rack (142) is meshed with the bevel gear (76); a second lifting column (143) is vertically matched on the horizontal section of the third L-shaped plate (141) in a sliding manner, and a second circular plate (144) is horizontally and fixedly installed at the top of the second lifting column (143); a fifth magnet block (145) corresponding to the third magnet block (12) is fixedly arranged on the upper surface of the second circular plate (144); a second return spring (146) sleeved on the second lifting column (143) is vertically arranged between the upper surface of the horizontal section of the third L-shaped plate (141) and the second circular plate (144); the bottom surface of the second lifting column (143) is fixedly provided with a knocking block (147) which is matched with the bottom surface of the receiving tray (72);

the cleaning mechanism (15) comprises a fourth L-shaped plate (151), a third lifting column (152), a third circular plate (153), a sixth magnet block (154), a third return spring (155) and a brush roller (156); the fourth L-shaped plate (151) is fixedly arranged on the upper surface of the bottom plate (1); a vertical third lifting column (152) is slidably matched on the horizontal section of the fourth L-shaped plate (151), and a third circular plate (153) is horizontally and fixedly installed at the top of the third lifting column (152); a sixth magnet block (154) corresponding to the third magnet block (12) is fixedly arranged on the upper surface of the third circular plate (153); a third return spring (155) sleeved on the third lifting column (152) is vertically arranged between the upper surface of the horizontal section of the fourth L-shaped plate (151) and the third circular plate (153); a brush roller (156) is fixedly arranged on the bottom surface of the third lifting column (152);

the outer surface of the third lifting column (152) is provided with a spiral groove, and the third lifting column (152) is in rotating fit with the horizontal section of the fourth L-shaped plate (151) through the spiral groove; the upper surface of the horizontal section of the fourth L-shaped plate (151) is in running fit with an installation ring (157), and the bottom of a third return spring (155) is fixedly installed on the installation ring (157);

an arc-shaped second taper rack (18) is horizontally and fixedly arranged between the fourth L-shaped plate (151) and the arc-shaped strip plate (9) on the upper surface of the bottom plate (1) through a support, and the second taper rack (18) is meshed with the bevel gear (76).

2. The system for preparing composite probiotic tablet according to claim 1, characterized in that: an inclined reinforcing plate (16) is fixedly arranged between the horizontal section and the vertical section of the first L-shaped plate (11).

3. The system for preparing composite probiotic tablet according to claim 1, characterized in that: and a material receiving box (17) with an opening on the top surface is fixedly arranged on the upper surface of the bottom plate (1) corresponding to the position of the knocking block (147).

4. The system for preparing composite probiotic tablet according to claim 1, characterized in that: a horizontal pressure bearing plate (19) is fixedly arranged on the upper surface of the bottom plate (1) through a support, and the pressure bearing plate (19) is positioned under the pressing block (137); the upper surface of the pressure bearing plate (19) is rotatably provided with a plurality of balls (20); the ball (20) is tangent to the lower surface of the receiving tray (72).