CN119819182B - Equipment and method for preparing soft capsule coating - Google Patents

Abstract

This invention relates to the field of soft capsule production equipment technology, specifically to a soft capsule production rubber preparation equipment and method, including a support frame, a stirring tank fixedly connected inside the support frame, a sedimentation chamber fixedly connected to the inner wall of the support frame, a water inlet pipe fixedly connected to the outer wall of the stirring tank, a feed pipe fixedly connected to the outer wall of the stirring tank, two forward-rotating arc-shaped stirring rods fixedly connected to the outer wall of the stirring shaft rotating at low speed under the drive of the stirring shaft, and two reverse-rotating arc-shaped stirring rods attached to the outer wall of the stirring shaft rotating in opposite directions. The reverse-rotating arc-shaped stirring rods are powered by gears installed at the bottom of the stirring shaft to reverse. One pair of rotating fan blades rotates forward, and the other pair rotates in opposite directions. At the same time, the low-speed, high-torque rotation reduces the generation of air bubbles in the rubber solution, and the material in the tank is fully stirred by the large-area, low-speed rotation of the special rotating blades.

Description

Equipment and method for preparing rubber for soft capsule production

Technical Field

The invention relates to the technical field of soft capsule production equipment, in particular to equipment and a method for preparing rubber for soft capsule production.

Background

The rubber of soft capsule is mainly made of gelatin, glycerin and other medicinal auxiliary materials, when the rubber of soft capsule is produced, various raw materials are usually required to be accurately weighed and placed into a clean container, then the raw materials are quickly dissolved at a certain temperature, and the glue solution is extruded through a special extrusion head or pump head to form continuous slender filiform substances so as to quickly dry and form solid rubber.

However, if the raw materials are excessively stirred at a high speed in order to accelerate the fusion forming of the gel coat in the process of preparing the gel coat, unnecessary small bubbles are generated in the raw materials of the gel coat at the moment to cause the production of holes in the gel coat, and the soft capsules are easy to be sticky in saliva and difficult to swallow smoothly after being produced.

Disclosure of Invention

In order to solve the technical problems, the invention provides rubber preparation equipment for soft capsule production, which comprises a support frame, wherein a stirring barrel is fixedly connected to the inner part of the support frame, a sedimentation chamber is fixedly connected to the inner wall of the support frame, a water inlet pipe is fixedly connected to the outer wall of the stirring barrel, and a feed pipe is fixedly connected to the outer wall of the stirring barrel;

the stirring mechanism comprises a motor, a large particle filter plate for filtering materials, a stirring shaft, a fan blade scraper and a stirring assembly for limiting stirring speed and reducing bubbles;

The inner wall department of agitator and the outer wall department fixed connection of large granule filter plate, the outer wall department of motor and the outer wall department fixed connection of agitator, the inner wall department of agitator rotates with the (mixing) shaft to be connected, the outer wall department of (mixing) shaft and the rotation department fixed connection of motor, the outer wall department of (mixing) shaft and flabellum scraper blade fixed connection.

Preferably, the stirring assembly comprises two forward rotation arc stirring rods fixedly connected to the outer wall of the stirring shaft, one end, away from the stirring shaft, of each forward rotation arc stirring rod is fixedly connected with a fixing ring, and the outer wall of each fixing ring is connected with the inner wall of the stirring barrel in a fitting mode.

Preferably, one end of the stirring shaft far away from the motor is fixedly connected with a first gear, the outer wall of the stirring shaft is fixedly connected with a shell, the inner wall of the shell is fixedly connected with a second shell, the outer wall of the second shell is fixedly connected with a connecting rod, the outer wall of the connecting rod is fixedly connected with two gears II, the outer wall of the two gears II is in meshed connection with the outer wall of the first gear, the inner wall of the second shell is in meshed connection with the inner wall of the stirring barrel, the inner wall of the stirring barrel is rotationally connected with a third gear, the outer wall of the third gear is in meshed connection with the outer wall of the second gear, the outer wall of the second connecting shaft is in through connection with the inner wall of the stirring barrel, the motor is powered on before use, the motor is ensured to be in a working state, a water inlet pipe is in butt joint with a corresponding hot water pipe before use, the material inlet pipe is in butt joint with a corresponding material pipe, ensuring normal circulation of two pipelines, driving a stirring shaft to rotate by a motor during operation, rotating, filtering and fusing materials on a large-particle filter plate by a fan blade scraper connected to the stirring shaft when the materials enter the stirring barrel through a feeding pipe, pushing the materials and the large-particle filter plate to grind, enabling the large particles to enter the lower part while grinding the large particles to be reduced in the rotating process of the fan blade scraper, mixing and stirring the materials and pure hot water below the large-particle filter plate through the large-particle filter plate, driving two forward rotating arc stirring rods to rotate at a low speed under the driving of the stirring shaft, attaching two reverse rotating arc stirring rods to the outer wall of the stirring shaft to rotate reversely, providing power for reversing the reverse rotating arc stirring rods through gears installed at the bottom of the stirring shaft, rotating a pair of fan blades to rotate positively, and another pair of rotating reversely, meanwhile, the low-speed large-torque rotation reduces the generation of bubbles in the glue solution, and simultaneously, the materials in the tank are fully stirred by the special rotating blades in a large-area low-speed rotation mode.

Preferably, the connecting rod is kept away from the both ends fixedly connected with reversal arc puddler of shell two, and the one end fixedly connected with dead lever of shell two is kept away from to two reversal arc puddlers, and the inner wall department of dead lever rotates with the outer wall department of (mixing) shaft to be connected.

Preferably, the outer wall fixedly connected with discharging pipe of agitator, the inner wall department of discharging pipe and the inner wall department through connection of agitator, the inner wall department fixedly connected with stainless steel screen cloth of discharging pipe, the outer wall department fixedly connected with backup pad of discharging pipe, the outer wall department fixedly connected with a plurality of backup pad has the spring, the one end fixedly connected with shale shaker shell of backup pad is kept away from to the spring, the lower extreme fixedly connected with shale shaker of shale shaker shell, the outer wall department fixedly connected with height slide of shale shaker shell.

Preferably, the outer wall of the fixed rod is fixedly connected with a plurality of pushing rotating rods, the outer wall of the plurality of connecting shafts II is rotationally and fittingly connected with the outer wall of the stirring barrel, one end of the connecting shaft II, which is far away from the gear III, is fixedly connected with a cross connecting rotating shaft, one end of the cross connecting rotating shaft, which is far away from the connecting shaft II, is fixedly connected with a transmission shaft I, the outer wall of the sedimentation chamber is fixedly connected with a shell III, the outer wall of the shell III is provided with a transmission hole, the outer wall of the transmission shaft I is rotationally connected with the inner wall of the transmission hole, one end of the transmission shaft I, which is far away from the cross connecting rotating shaft, is rotationally connected with the inner wall of the shell III, the outer wall of the connecting shaft I is fixedly connected with a gear IV, the outer wall of the gear IV is in meshed connection with the outer wall of the gear V, one end of the first connecting shaft far away from the gear five is rotationally connected with a belt, the inner wall of the settling chamber is rotationally connected with a transmission shaft, one end of the belt far away from the first connecting shaft is rotationally connected with the outer wall of the transmission shaft, the outer wall of the second connecting shaft is fixedly connected with a plurality of pushing rotating rods, each time the pushing rotating rods rotate through the pushing high-low sliding plate to push the lower part of the high-low sliding plate so as to lead the pushing rotating rods to move downwards, when the pushing rotating rods rotate at the highest place of the high-low sliding plate, a spring fixedly connected on the supporting plate below the high-low sliding plate drives the vibrating screen shell and the high-low sliding plate to reset upwards, because the pushing rotating rods directly leave from the highest place of the high-low sliding plate without buffering, and simultaneously, by the characteristic of the spring, shaking is generated when the pushing rotating rods are reset upwards, the pushing rotating rods pass through the high-low sliding plate, the shaking repeatedly occurs, the glue solution flowing downwards through the vibrating screen is provided with vertical high-frequency vibration, tiny bubbles generated in the glue solution are removed through vibration, and meanwhile, the glue solution with the tiny bubbles removed can flow downwards along holes of the vibrating screen.

Preferably, the inner wall of the support frame is rotationally connected with a transmission shaft II, the outer wall of the precipitation chamber is fixedly connected with a casing IV, the outer wall of the belt II is rotationally connected with the outer wall of the transmission shaft II, the inner wall of the casing IV is rotationally connected with a rotating column, the outer wall of the transmission shaft is rotationally connected with a belt II, the inner wall of the belt II is rotationally connected with the outer wall of the rotating column, the outer wall of the belt II is rotationally connected with the outer wall of the transmission shaft II, the inner wall of the casing IV is rotationally connected with a transmission shaft III in a penetrating manner, and the inner wall of the belt II is rotationally connected with the outer wall of the transmission shaft III.

Preferably, the outer wall department fixedly connected with rotary drum of transmission shaft, the outer wall department fixedly connected with recipient of transmission shaft two, the inner wall department rotation of support frame is connected with the axis of rotation, the one end that the shell was kept away from to the transmission shaft three is rotated with the outer wall department of support frame and is connected, the outer wall department rotation of shell three is connected with the conveyer belt, the one end that the transmission shaft was kept away from to the conveyer belt is rotated with the outer wall department of axis of rotation, the outer wall department fixedly connected with axis of rotation of shell four is first, the one end rotation that the shell was kept away from to axis of rotation is connected with the cutting wheel, the cross connection axis of rotation that the connecting axle two bottom was connected has changed the hookup location, make cross connection axis of rotation below fixedly connected with transmission shaft one present vertical downward connection, the rotation force is given gear five through the transmission of gear, five transmissions give the connecting axle one, the transmission shaft makes the transmission shaft drive the rotary drum rotate in the settling chamber, can present the film because of the viscidity adhesion of glue solution itself on the rotary drum when the rotary drum rotates, the scraper blade laminating on the outer wall of rotary drum is not far away, strike off the glue solution of unnecessary part, the upper end is provided with recipient simultaneously, it is to have recipient, through pour into cooling water into the recipient or to its recipient surface, it is added to the recipient surface of edible glue, make its inside smooth rolling clothing, the inside is smooth rolling clothing is smooth, and the clothing is smooth rolling clothing is avoided.

Preferably, the outer wall department fixedly connected with another axis of rotation of settling chamber is first, another axis of rotation is first to keep away from the one end of settling chamber and rotates and be connected with another cutting wheel, outer wall department fixedly connected with relief (stock) board of settling chamber, relief (stock) board both sides upper end is provided with a bin outlet respectively, the one end that the support frame was kept away from to transmission shaft two is run through with four shell, add the mouth has been seted up on the transmission shaft two, the inner wall department fixedly connected with scraper blade of settling chamber, the inner wall department fixedly connected with spiller of settling chamber, the one end that the spiller kept away from settling chamber and the outer wall department fixedly connected with of shell four, the cutting wheel is tight laminating on the surface of rotary drum, when the rotary drum rotates, because the effect of frictional force, make its cutting wheel rotate at the rotary drum, also can the opposite direction laminating rotate, thereby reach, for the glue solution cutting corner on the rotary drum, be glue film shaping size corner unanimous, on the spiller conveyer belt through fixing on the settling chamber, the spiller part laminating on the surface of rotary drum, unnecessary glue film corner that the while is got rid of through the bin outlet through both sides falls on the relief (stock) board, discharge board, also can make the surface of the glue film corner drop down on the rotary drum and remove the surface of the side of the piece and make the glue film through the uniform and make the surface of the shaping and remove the surface of the piece and make the smooth and remove the adhesive film through the uniform.

A method for preparing rubber preparation equipment for soft capsule production comprises the following steps,

And S1, connecting the pipeline, namely connecting the feed pipe and the water inlet pipe with corresponding pipelines before use, and ensuring that the power supply of the motor is in a working state.

And S2, starting equipment, namely connecting a power supply to ensure that a motor starts to work to drive a stirring shaft to rotate at a low speed, enabling material particles to enter a feeding pipe, screening large particles to enter a lower stirring mechanism when the material particles are rubbed by a fan blade scraping plate and a large particle filter plate in a rotating way, driving a reverse rotation arc stirring rod to perform reverse rotation stirring of the reverse rotation arc stirring rod by the bottom end of the stirring shaft, and ensuring that the bottom mechanical energy is in a normal working state.

The invention has the following beneficial effects:

(1) According to the invention, aiming at the problem that excessive bubbles are generated when glue solution is stirred, the stirring mechanism and the stirring assembly are arranged on the inner wall of the equipment, the motor is powered on before use, the motor is in a working state, the water inlet pipe is in butt joint with a corresponding hot water pipeline before use, the material inlet pipe is in butt joint with a corresponding material pipe, normal circulation use of the two pipelines is guaranteed, the motor drives the stirring shaft to rotate during operation, when the material enters the stirring barrel through the material inlet pipe, the material falls on a large-particle filter plate and is subjected to rotary filtering fusion through a fan blade scraper connected to the stirring shaft, the material and the large-particle filter plate are pushed to grind, so that the material enters the lower part, the large-particle filter plate is ground to be reduced during the rotation of the fan blade scraper and then mixed with pure hot water through the large-particle filter plate, two arc stirring rods are fixed on the outer wall of the stirring shaft and driven by the stirring shaft to rotate at a low speed, the two arc stirring rods are attached to the outer wall of the stirring shaft to rotate reversely, the arc stirring rods are powered on the gear arranged at the bottom of the stirring shaft to rotate reversely, the fan blades rotate reversely, one pair of fan blades rotate reversely, the fan blades rotate relatively, and the fan blades rotate reversely, and the large-particle filter blades rotate relatively, and the large-particle filter blades rotate at the low speed and the material rotates at a large torque in the tank, and the large torque is reduced, and the special rotation area of the glue solution is generated.

(2) The stirring shaft is utilized to drive the bottom connecting shaft II to rotate, the outer wall of the connecting shaft II is fixedly connected with a plurality of pushing rotating rods, each time the pushing rotating rods rotate through the connecting shaft II, the pushing rotating rods are pushed from the lower parts of the high-low sliding plates through pushing the high-low sliding plates, when the pushing rotating rods rotate to the highest parts of the high-low sliding plates, springs fixedly connected to the supporting plates below the high-low sliding plates drive the vibrating screen shell and the high-low sliding plates to reset upwards, because the pushing rotating rods directly leave from the highest parts of the high-low sliding plates without buffering, and shake is generated during reset upwards through the characteristics of the springs, the pushing rotating rods rotate through the high-low sliding plates, the shaking is repeatedly generated, lower high-frequency vibration is provided for glue liquid flowing downwards through the vibrating screen, tiny bubbles generated in the glue liquid are removed through vibration, and meanwhile the glue liquid with the tiny bubbles removed can flow into the lower parts along holes of the vibrating screen.

(3) By utilizing the characteristic of viscosity of the glue solution, the connection position of the cross connection rotating shaft connected with the bottom end of the connecting shaft II is changed, the first transmission shaft fixedly connected with the lower end of the cross connection rotating shaft is vertically and downwards connected, the rotating force is transmitted to the fifth transmission gear through the fourth transmission gear, the fifth transmission gear is transmitted to the first transmission shaft, the first transmission shaft drives the transmission shaft to drive the rotary drum to rotate in the sedimentation chamber, when the rotary drum rotates, the glue solution is adhered to the rotary drum to form a film shape due to the viscosity of the glue solution, the rotary drum continuously rolls upwards, the scraping plate fixed on the sedimentation chamber is adhered to the outer wall of the rotary drum, the glue solution of the surplus part is scraped, meanwhile, the upper end of the rotary drum is provided with the extrusion cylinder, and cooling water is injected into the extrusion cylinder through the adding port or edible oil is added to the surface of the extrusion cylinder, so that the extrusion cylinder extrudes and rolls the glue coating, the surface of the glue coating is smooth and the glue coating is also prevented from leaving small bubbles inside the glue coating.

(4) The utility model provides a glue solution is convenient to carry out down on the conveyer belt, the glue solution is convenient to carry out down the process through the shovel blade on the rotary drum, the shovel blade part laminating of shovel blade is on the surface of rotary drum, the unnecessary glue that gets rid of the while edge of the glue film falls on the relief bar through the bin outlet of both sides and discharges, also can demolish the relief bar and make its leftover bits drop in the settling chamber again, through above-mentioned part, through the extrusion section of thick bamboo, make its surface level and smooth unanimous to glue film surface, the unnecessary limit of glue film both sides removal of cutting wheel makes it neatly unanimous, last through the shovel blade with the glue solution shovel of shaping on the rotary drum down to the conveyer belt on the going on of a process.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the inside of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of a support frame of the overall structure of the present invention;

FIG. 4 is a schematic view of the interior of the stirring mechanism of the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4A in accordance with the present invention;

FIG. 6 is a schematic view of the overall structure of the present invention;

FIG. 7 is a schematic cross-sectional view of a discharge port according to the present invention;

FIG. 8 is an enlarged schematic view of B of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic view of the bottom structure of the present invention;

FIG. 10 is a schematic view of the left side cross-section of the present invention;

FIG. 11 is a schematic view of a portion of the structure of the present invention;

FIG. 12 is an enlarged schematic view of FIG. 11C in accordance with the present invention;

FIG. 13 is an enlarged schematic view of D of FIG. 11 in accordance with the present invention;

fig. 14 is a schematic diagram of the workflow of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

In the figure, 1, a support frame, 11, a stirring barrel, 12, a sedimentation chamber, 13, a water inlet pipe, 14, a feed pipe, 2, a stirring mechanism, 21, a motor, 22, a large particle filter plate, 23, a stirring shaft, 24, a fan blade scraper, 3, a stirring assembly, 31, a fixed ring, 32, a forward arc stirring rod, 33, a first gear, 34, a second gear, 35, a third gear, 36, a reverse arc stirring rod, 37, a shell, 38, a connecting rod, 39, a second shell, 310, a connecting shaft, 41, a pushing rotary rod, 42, a discharge pipe, 43, a high-low slide plate, 44, a spring, 45, a support plate, 46, a vibrating screen shell, 47, a stainless steel screen, 48, a vibrating screen, 49, a cross connection rotary shaft, 51, a third shell, 52, a first transmission shaft, 53, a fourth gear, 54, a fifth gear, 55, a connecting shaft, 56, a belt, 57, a transmission shaft, 58, a second belt, 59, a second transmission shaft, 511, a third transmission shaft, 512, a fourth shell, 61, a rotary drum, 62, a squeezing drum, 63, a rotary shaft, 64, a transmission shaft, a first transmission shaft, 65, a rotary shaft, a 65, a rotary blade, a 65, a rotary blade, a 67, a blade, a cutting blade, a 65, a blade, a 67, a blade, a 60.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the present invention is a rubber preparation device for soft capsule production, comprising a support frame 1, wherein a stirring barrel 11 is fixedly connected to the inner portion of the support frame 1, a settling chamber 12 is fixedly connected to the inner wall of the support frame 1, a water inlet pipe 13 is fixedly connected to the outer wall of the stirring barrel 11, and a feeding pipe 14 is fixedly connected to the outer wall of the stirring barrel 11.

The stirring mechanism 2 comprises a motor 21, a large particle filter plate 22 for filtering materials, a stirring shaft 23 and a fan blade scraper 24, and a stirring assembly 3 for limiting stirring speed and reducing bubbles;

The inner wall of the stirring barrel 11 is fixedly connected with the outer wall of the large-particle filter plate 22, the outer wall of the motor 21 is fixedly connected with the outer wall of the stirring barrel 11, the inner wall of the stirring barrel 11 is rotationally connected with the stirring shaft 23, the outer wall of the stirring shaft 23 is fixedly connected with the rotation of the motor 21, and the outer wall of the stirring shaft 23 is fixedly connected with the fan blade scraping plate 24.

The stirring assembly 3 comprises two forward rotation arc stirring rods 32 fixedly connected to the outer wall of the stirring shaft 23, one end, far away from the stirring shaft 23, of each forward rotation arc stirring rod 32 is fixedly connected with a fixing ring 31, and the outer wall of each fixing ring 31 is connected with the inner wall of the stirring barrel 11 in a fitting mode.

One end of the stirring shaft 23 far away from the motor 21 is fixedly connected with a first gear 33, the outer wall of the stirring shaft 23 is fixedly connected with a shell 37, the inner wall of the shell 37 is in meshed connection with a second shell 39, the outer wall of the second shell 39 is fixedly connected with a connecting rod 38, the outer wall of the connecting rod 38 is fixedly connected with two second gears 34, the outer wall of the two second gears 34 is in meshed connection with the outer wall of the first gear 33, the inner wall of the second shell 39 is in meshed connection with the inner wall of the stirring barrel 11, the inner wall of the stirring barrel 11 is rotationally connected with a third gear 35, the outer wall of the third gear 35 is in meshed connection with the outer walls of the two second gears 34, the outer wall of the third gear 35 is fixedly connected with a second connecting shaft 310, the outer wall of the second connecting shaft 310 is in through connection with the inner wall of the stirring barrel 11, the motor 21 is powered on before use, and the motor 21 is ensured to be in a working state, before use, the water inlet pipe 13 is in butt joint with a corresponding hot water pipe, the material inlet pipe 14 is in butt joint with a corresponding material pipe, normal circulation of the two pipes is guaranteed, the motor 21 drives the stirring shaft 23 to rotate during operation, when the material enters the stirring barrel 11 through the material inlet pipe 14, the material falls on the large-particle filter plate 22 and is subjected to rotary filtering fusion through the fan blade scraping plate 24 connected to the stirring shaft 23, the material and the large-particle filter plate 22 are pushed to grind, so that the large particles are enabled to be ground to be smaller in the rotating process of the fan blade scraping plate 24 and enter the lower part through the large-particle filter plate 22 to be mixed and stirred with pure hot water of the large-particle filter plate, the outer wall of the stirring shaft 23 is fixedly provided with two forward rotation arc stirring rods 32 which rotate at a low speed under the driving of the stirring shaft 23, the outer wall of the stirring shaft 23 is attached with two reverse rotation arc stirring rods 36 for reverse rotation, the reversing arc stirring rod 36 is powered by a gear which is arranged at the bottom of the stirring shaft 23 in a rotating way to reversely rotate, one pair of rotating blades rotates positively, the other pair rotates reversely relatively, meanwhile, the low-speed large-torque rotation reduces the generation of bubbles in the glue solution, and meanwhile, the materials in the tank are sufficiently stirred by special rotating blades in a large area and low-speed rotation mode.

Referring to fig. 4-8, the present invention relates to a rubber preparation device for producing soft capsules, wherein on the basis of the first embodiment, two ends of a connecting rod 38, which are far away from a second shell 39, are fixedly connected with reversing arc stirring rods 36, one ends of the two reversing arc stirring rods 36, which are far away from the second shell 39, are fixedly connected with fixing rods, and the inner wall of each fixing rod is rotatably connected with the outer wall of a stirring shaft 23.

The outer wall department fixedly connected with discharging pipe 42 of agitator 11, the inner wall department of discharging pipe 42 and the inner wall department through connection of agitator 11, the inner wall department fixedly connected with stainless steel screen cloth 47 of discharging pipe 42, the outer wall department fixedly connected with backup pad 45 of discharging pipe 42, the outer wall department fixedly connected with of backup pad 45 a plurality of has spring 44, the one end fixedly connected with shale shaker shell 46 that the backup pad 45 was kept away from to spring 44, the lower extreme fixedly connected with shale shaker 48 of shale shaker shell 46, the outer wall department fixedly connected with height slide 43 of shale shaker shell 46.

The outer wall of the fixed rod is fixedly connected with a plurality of pushing rotating rods 41, the outer wall of a plurality of connecting shafts II 310 is rotationally and fittingly connected with the outer wall of the stirring barrel 11, one end of the connecting shaft II 310 away from a gear III 35 is fixedly connected with a cross connecting rotating shaft 49, one end of the cross connecting rotating shaft 49 away from the connecting shaft II 310 is fixedly connected with a first transmission shaft 52, the outer wall of the sedimentation chamber 12 is fixedly connected with a third shell 51, the outer wall of the third shell 51 is provided with a transmission hole 410, the outer wall of the first transmission shaft 52 is rotationally connected with the inner wall of the transmission hole 410, one end of the first transmission shaft 52 away from the cross connecting rotating shaft 49 is rotationally connected with the inner wall of the third shell 51, the outer wall of the first transmission shaft 52 is fixedly connected with a fourth gear 53, the inner wall of the third shell 51 is in through connection with a first transmission shaft 55, the outer wall of the first transmission shaft 55 is fixedly connected with a fifth gear 54, the outer wall of the gear IV 53 is meshed with the outer wall of the gear V54, one end of the connecting shaft I55 far away from the gear V54 is rotationally connected with a belt 56, the inner wall of the sedimentation chamber 12 is rotationally connected with a transmission shaft 57, one end of the belt 56 far away from the connecting shaft I55 is rotationally connected with the outer wall of the transmission shaft 57, the outer wall of the connecting shaft II 310 is fixedly connected with a plurality of pushing rotating rods 41, each rotation of the pushing rotating rod 41 through the connecting shaft II 310 pushes the lower part of the high-low sliding plate 43 to push the pushing rotating rod 41 downwards through pushing the high-low sliding plate 43, when the pushing rotating rod 41 rotates to the highest place of the high-low sliding plate 43, a spring fixedly connected with the supporting plate 45 below the high-low sliding plate 43 drives the vibrating screen shell 46 and the high-low sliding plate 43 to reset upwards, because the pushing rotating rod 41 directly leaves the highest place of the high-low sliding plate 43 without buffering, and meanwhile, through the characteristics of the spring, when the glue solution is reset upwards, the vibration is generated, a plurality of pushing rotating rods 41 rotate through the high-low sliding plates 43, the vibration repeatedly occurs, upper and lower high-frequency vibration is provided for the glue solution flowing downwards through the vibrating screen 48, tiny bubbles generated in the glue solution are removed through vibration, and meanwhile the glue solution with the tiny bubbles removed can flow downwards along holes of the vibrating screen 48.

The inner wall of the support frame 1 is rotationally connected with a transmission shaft II 59, the outer wall of the settling chamber 12 is fixedly connected with a casing IV 512, the outer wall of the belt II 58 is rotationally connected with the outer wall of the transmission shaft II 59, the inner wall of the casing IV 512 is rotationally connected with a rotating column 513, the outer wall of the transmission shaft 57 is rotationally connected with a belt II 58, the inner wall of the belt II 58 is rotationally connected with the outer wall of the rotating column 513, the outer wall of the belt II 58 is rotationally connected with the outer wall of the transmission shaft II 59, the inner wall of the casing IV 512 is in penetrating connection with a transmission shaft III 511, and the inner wall of the belt II 58 is rotationally connected with the outer wall of the transmission shaft III 511.

The outer wall of the transmission shaft 57 is fixedly connected with a rotary drum 61, the outer wall of the transmission shaft II 59 is fixedly connected with an extrusion cylinder 62, the inner wall of the support frame 1 is rotationally connected with a rotary shaft 63, one end of the transmission shaft III 511 away from the outer shell IV 512 is rotationally connected with the outer wall of the support frame 1, the outer wall of the outer shell III 51 is rotationally connected with a conveying belt 64, one end of the conveying belt 64 away from the transmission shaft III 511 is rotationally connected with the outer wall of the rotary shaft 63, the outer wall of the outer shell IV 512 is fixedly connected with a rotary shaft I65, one end of the rotary shaft I65 away from the outer shell IV 512 is rotationally connected with a cutting wheel 66, a cross connection rotary shaft 49 connected with the bottom end of the connecting shaft II 310 changes the connection position, the rotary force is transmitted to a gear IV 54 through a gear IV 53, the gear IV is transmitted to the connecting shaft I55, the connecting shaft I55 is transmitted to the transmission shaft 57, the transmission shaft 57 drives the transmission shaft 61 to rotate in a precipitating chamber 12, when the rotary drum 61 rotates, the rotary drum 61 is rotationally adhered on the rotary drum 61, the film-shaped glue solution is rolled upwards, the scraper blade 61 is fixed on the precipitating chamber 12 is adhered to the outer wall 611 of the precipitating chamber, the rotary drum 61 is not adhered to the rotary drum 62, the inner surface of the rotary drum is extruded with the adhesive film-shaped glue solution, and the adhesive film-shaped drum 61 is continuously, and the adhesive film-shaped glue solution is filled into the rotary drum 61, and the inner surface of the rotary drum 61 is simultaneously, and the water drum is filled with the water drum 62, and the water-coated with the water film, and the water film is filled into the drum.

The outer wall of the settling chamber 12 is fixedly connected with the first rotating shaft 65, one end of the first rotating shaft 65, which is far away from the settling chamber 12, is rotationally connected with the second cutting wheel 66, the outer wall of the settling chamber 12 is fixedly connected with the discharge plate 68, the upper ends of the two sides of the discharge plate 68 are respectively provided with a discharge opening 67, one end of the second transmission shaft 59, which is far away from the support frame 1, is in penetrating connection with the fourth shell 512, the second transmission shaft 59 is provided with an adding opening 69, the inner wall of the settling chamber 12 is fixedly connected with a scraping plate 611, the inner wall of the settling chamber 12 is fixedly connected with a scraper blade 612, one end of the scraper blade 612, which is far away from the settling chamber 12, is fixedly connected with the outer wall of the fourth shell 512, the cutting wheel 66 is tightly attached to the surface of the rotary drum 61, and when the rotary drum 61 rotates, the cutting wheel 66 is attached to the rotary drum 61 in the opposite direction due to the action of friction force, so that the glue solution on the rotary drum 61 is cut corners, the glue solution on the rotary drum 61 is consistent in size, the edges and corners of the glue solution are formed, the glue solution on the edge of the scraper blade 612 are conveyed on the edge of the scraper blade conveying belt 64 through the scraper blade 612, the scraping plate 612, the glue solution is removed from the surface of the rotary drum 61, and the surface of the glue solution is removed from the upper surface of the rotary drum 61 through the upper and the upper part through the upper part of the glue film 68, and the glue solution, the glue solution is removed through the upper and lower part of the glue solution, and the glue solution is removed.

The preparation method of the device for preparing the rubber for producing the soft capsules is characterized by comprising the following steps of,

And S1, connecting the pipelines, namely connecting the feed pipe 14 and the water inlet pipe 13 with corresponding pipelines before use, and ensuring that the power supply of the motor 21 is in a working state.

And S2, starting equipment, namely connecting a power supply to ensure that a motor 21 starts to work to drive a stirring shaft 23 to rotate at a low speed, enabling material particles to enter a feeding pipe 14, screening large particles to enter a lower stirring mechanism when the material particles are rubbed by a fan blade scraper 24 and a large particle filter plate 22 in a rotating way, driving a reverse rotation arc stirring rod 36 to stir in a reverse rotation way compared with a forward rotation arc stirring rod 32 by the bottom end of the stirring shaft 23, and ensuring that the bottom mechanical energy is in a normal working state.

One specific application of this embodiment is: before use, the motor 21 is powered on, the motor 21 is ensured to be in a working state, the water inlet pipe 13 is in butt joint with a corresponding hot water pipe, the feed pipe 14 is in butt joint with a corresponding material pipe, normal circulation and use of the two pipes are ensured, the motor 21 is ensured to be powered on, the motor 21 drives the stirring shaft 23 to rotate in working, when the material enters the stirring barrel 11 through the feed pipe 14, the material falls on the large-particle filter plate 22 to rotate and filter and fuse through the fan blade scraper 24 connected to the stirring shaft 23, the material and the large-particle filter plate 22 are pushed to grind, the large particles are enabled to be reduced to enter the lower part through the large-particle filter plate 22 in the rotating process of the fan blade scraper 24 and are mixed and stirred with pure hot water, the two positive rotation arc stirring rods 32 are fixed on the outer wall of the stirring shaft 23 and rotate at a low speed under the driving of the stirring shaft 23, the outer wall of the stirring shaft 23 is attached with two reversing arc stirring rods 36 for reverse rotation, the reversing arc stirring rods 36 provide power for reversing through gears which are arranged at the bottom of the stirring shaft 23, one pair of rotating blades rotate forward, the other pair of rotating blades rotate reversely relatively, simultaneously rotate at a low speed and with large torque, the bubble generation in glue solution is reduced by the low-speed rotation, meanwhile, the materials in a tank are fully stirred by a large-area low-speed rotating blade through special rotating blades, the stirring shaft 23 drives the bottom connecting shaft II 310 to rotate, the outer wall of the connecting shaft II 310 is fixedly connected with a plurality of pushing rotating rods 41, each rotation of the pushing rotating rods 41 through the rotating of the connecting shaft II 310 pushes a lower part of the high-low sliding plate 43 to push the pushing rotating rods 41 downwards, when the push rod 41 rotates to the highest place of the high-low sliding plate 43, the springs fixedly connected to the supporting plate 45 below the high-low sliding plate 43 will drive the vibrating screen shell 46 and the high-low sliding plate 43 to reset upwards, because the push rod 41 directly leaves from the highest place of the high-low sliding plate 43 without buffering, and meanwhile, by the characteristics of the springs, shake is generated when the push rod 41 resets upwards, a plurality of push rods 41 rotate through the high-low sliding plate 43, the shake is repeatedly generated, upper-lower high frequency shake is provided for glue flowing downwards through the vibrating screen 48, tiny bubbles generated in the glue are removed through the shake, and meanwhile, the glue with the tiny bubbles removed can flow downwards along holes of the vibrating screen 48.

The cross connection rotating shaft 49 connected with the bottom end of the second connecting shaft 310 changes the connection position, so that the first transmission shaft 52 fixedly connected with the lower part of the cross connection rotating shaft 49 is vertically and downwards connected, the rotating force is transmitted to the fifth gear 54 through the fourth gear 53, the fifth gear 54 is transmitted to the first connecting shaft 55, the first connecting shaft 55 is transmitted to the first transmission shaft 57, the transmission shaft 57 drives the rotary drum 61 to rotate in the sedimentation chamber 12, when the rotary drum 61 rotates, the rotary drum 61 is in a film shape because the viscosity of glue solution is adhered to the rotary drum 61, the rotary drum 61 continuously rolls upwards, the scraping plate 611 fixed on the sedimentation chamber 12 is adhered to the outer wall of the rotary drum 61, redundant glue solution is scraped off, meanwhile, the upper end of the rotary drum 61 is provided with the extrusion cylinder 62, and cooling water is injected into the extrusion cylinder 62 through the adding port 69 or edible oil is added to the surface of the extrusion cylinder 62, so that the extrusion cylinder 62 extrudes and rolls the glue coating which rolls, and simultaneously small bubbles remained inside the glue coating.

When the rotary drum 61 rotates, the cutting wheel 66 is tightly attached to the surface of the rotary drum 61, and the cutting wheel 66 rotates in the opposite direction due to the action of friction force, so that glue on the rotary drum 61 is cut into corners, glue forming size and corners are consistent, a shovel blade 612 fixed on the sedimentation chamber 12 is attached to a shovel blade conveying belt 64 of the rotary drum 61, the shovel blade part of the shovel blade 612 is attached to the surface of the rotary drum 61, meanwhile, removed excessive glue corners drop on the discharge plate 68 through discharge holes 67 on two sides to be discharged, the discharge plate 68 can be removed to enable the leftover materials to drop in the sedimentation chamber 12 again, by the components, the surface of the glue is flattened and consistent through the extrusion barrel 62, the excessive corners on two sides of the glue are removed by the cutting wheel 66 to enable the glue forming size and corners to be consistent, and finally the glue forming on the rotary drum 61 is shoveled onto the conveying belt 64 through the shovel blade 612 to be convenient for the next procedure.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (5)

1. A rubber coating preparation device for soft capsule production, comprising a support frame (1), wherein a stirring tank (11) is fixedly connected to the interior of the support frame (1), a sedimentation chamber (12) is fixedly connected to the inner wall of the support frame (1), a water inlet pipe (13) is fixedly connected to the outer wall of the stirring tank (11), and a feed pipe (14) is fixedly connected to the outer wall of the stirring tank (11), characterized in that it further comprises: The stirring mechanism (2) includes a motor (21), a large particle filter plate (22) for filtering materials, a stirring shaft (23), a fan blade scraper (24), and a stirring assembly (3) for limiting the stirring speed and reducing bubbles. The inner wall of the mixing tank (11) is fixedly connected to the outer wall of the large particle filter plate (22), the outer wall of the motor (21) is fixedly connected to the outer wall of the mixing tank (11), the inner wall of the mixing tank (11) is rotatably connected to the mixing shaft (23), the outer wall of the mixing shaft (23) is fixedly connected to the rotating part of the motor (21), and the outer wall of the mixing shaft (23) is fixedly connected to the fan blade scraper (24). The stirring assembly (3) includes two forward-rotating arc-shaped stirring rods (32) fixedly connected to the outer wall of the stirring shaft (23). A fixing ring (31) is fixedly connected to one end of the two forward-rotating arc-shaped stirring rods (32) away from the stirring shaft (23). The outer wall of the fixing ring (31) is in close contact with the inner wall of the stirring tank (11). A discharge pipe (42) is fixedly connected to the outer wall of the mixing tank (11). The inner wall of the discharge pipe (42) is connected to the inner wall of the mixing tank (11). A stainless steel screen (47) is fixedly connected to the inner wall of the discharge pipe (42). A support plate (45) is fixedly connected to the outer wall of the discharge pipe (42). Several springs (44) are fixedly connected to the outer wall of the support plate (45). A vibrating screen shell (46) is fixedly connected to the end of the spring (44) away from the support plate (45). A vibrating screen (48) is fixedly connected to the lower end of the vibrating screen shell (46). A high and low sliding plate (43) is fixedly connected to the outer wall of the vibrating screen shell (46). Gear 1 (33) is fixedly connected to the end of the stirring shaft (23) away from the motor (21). A housing (37) is fixedly connected to the outer wall of the stirring shaft (23). A housing 2 (39) is meshed with the inner wall of the housing (37). A connecting rod (38) is fixedly connected to the outer wall of the housing 2 (39). Two gears 2 (34) are fixedly connected to the outer wall of the connecting rod (38). The outer walls of the two gears 2 (34) mesh with the outer walls of the gear 1 (33). The inner wall of the housing 2 (39) meshes with the interior of the stirring tank (11). Gear 3 (35) is rotatably connected to the inner wall of the stirring tank (11). The outer wall of the gear 3 (35) meshes with the outer walls of the two gears 2 (34). A connecting shaft 2 (310) is fixedly connected to the outer wall of the gear 3 (35). The outer wall of the connecting shaft 2 (310) penetrates the inner wall of the stirring tank (11). The two ends of the connecting rod (38) away from the outer shell (39) are fixedly connected to a reverse arc-shaped stirring rod (36), and the two ends of the reverse arc-shaped stirring rod (36) away from the outer shell (39) are fixedly connected to a fixing rod. The inner wall of the fixing rod is rotatably connected to the outer wall of the stirring shaft (23). Several push rods (41) are fixedly connected to the outer wall of the fixed rod. Several connecting shafts (310) are rotatably connected to the outer wall of the mixing tank (11). A cross-connecting rotating shaft (49) is fixedly connected to the end of the connecting shaft (310) away from the gear (35). A transmission shaft (52) is fixedly connected to the end of the cross-connecting rotating shaft (49) away from the connecting shaft (310). A shell (51) is fixedly connected to the outer wall of the sedimentation chamber (12). A transmission hole (410) is opened on the outer wall of the shell (51). The outer wall of the transmission shaft (52) is rotatably connected to the inner wall of the transmission hole (410). The transmission shaft (52) is rotatably connected to the inner wall of the transmission hole (410). One end of the cross-connecting rotating shaft (49) is rotatably connected to the inner wall of the outer shell three (51). The outer wall of the transmission shaft one (52) is fixedly connected to the gear four (53). The inner wall of the outer shell three (51) is connected through the connecting shaft one (55). The outer wall of the connecting shaft one (55) is fixedly connected to the gear five (54). The outer wall of the gear four (53) meshes with the outer wall of the gear five (54). The end of the connecting shaft one (55) away from the gear five (54) is rotatably connected to the belt (56). The inner wall of the sedimentation chamber (12) is rotatably connected to the transmission shaft (57). The end of the belt (56) away from the connecting shaft one (55) is rotatably connected to the outer wall of the transmission shaft (57). The rotating rod (41) driven by the rotation of the connecting shaft (310) pushes the high and low slide plate (43) downwards each time it rotates. When the rotating rod (41) rotates past the highest point of the high and low slide plate (43), the spring fixedly connected to the support plate (45) below the high and low slide plate (43) will drive the vibrating screen housing (46) and the high and low slide plate (43) to return to the upper position. Because the rotating rod (41) leaves directly from the highest point of the high and low slide plate (43) without buffering, and due to the characteristics of the spring, it will generate a shaking when returning to the upper position. Several rotating rods (41) rotate through the high and low slide plate (43) and repeat the above shaking, providing high-frequency vibration for the glue flowing downward through the vibrating screen (48). The vibration removes the tiny air bubbles generated in the glue, and the glue with the tiny air bubbles removed will flow downward through the holes of the vibrating screen (48). 2. The rubber preparation equipment for producing soft capsules according to claim 1, characterized in that: a second transmission shaft (59) is rotatably connected to the inner wall of the support frame (1), a fourth outer shell (512) is fixedly connected to the outer wall of the sedimentation chamber (12), a rotating column (513) is rotatably connected to the inner wall of the fourth outer shell (512), a second belt (58) is rotatably connected to the outer wall of the transmission shaft (57), the inner wall of the second belt (58) is rotatably connected to the outer wall of the rotating column (513), the outer wall of the second belt (58) is rotatably connected to the outer wall of the second transmission shaft (59), a third transmission shaft (511) is penetratingly connected to the inner wall of the fourth outer shell (512), and the inner wall of the second belt (58) is rotatably connected to the outer wall of the third transmission shaft (511). 3. A rubber preparation device for producing soft capsules according to claim 2, characterized in that: a rotating cylinder (61) is fixedly connected to the outer wall of the transmission shaft (57), an extrusion cylinder (62) is fixedly connected to the outer wall of the second transmission shaft (59), a rotating shaft (63) is rotatably connected to the inner wall of the support frame (1), one end of the third transmission shaft (511) away from the fourth outer shell (512) is rotatably connected to the outer wall of the support frame (1), a conveyor belt (64) is rotatably connected to the outer wall of the third outer shell (51), one end of the conveyor belt (64) away from the third transmission shaft (511) is rotatably connected to the outer wall of the rotating shaft (63), a rotating shaft (65) is fixedly connected to the outer wall of the fourth outer shell (512), and a cutting wheel (66) is rotatably connected to the one end of the rotating shaft (65) away from the fourth outer shell (512). 4. The rubber preparation equipment for soft capsule production according to claim 3, characterized in that: another rotating shaft (65) is fixedly connected to the outer wall of the sedimentation chamber (12), and another cutting wheel (66) is rotatably connected to the end of the other rotating shaft (65) away from the sedimentation chamber (12); a discharge plate (68) is fixedly connected to the outer wall of the sedimentation chamber (12), and a discharge port (67) is respectively provided on the upper ends of both sides of the discharge plate (68); the end of the transmission shaft (59) away from the support frame (1) is connected through the outer shell (512); an addition port (69) is opened on the transmission shaft (59); a scraper (611) is fixedly connected to the inner wall of the sedimentation chamber (12); a shovel (612) is fixedly connected to the inner wall of the sedimentation chamber (12), and the end of the shovel (612) away from the sedimentation chamber (12) is fixedly connected to the outer wall of the outer shell (512). 5. A method for preparing a rubber sheet preparation device for soft capsule production, using the apparatus for preparing a rubber sheet for soft capsule production as described in claim 4, characterized in that it includes the following steps: S1: Connect the pipes: Before use, connect the feed pipe (14) and the water inlet pipe (13) to the corresponding pipes, and ensure that the power supply of the motor (21) is in working condition; S2: Start the equipment: Connect the power supply to ensure that the motor (21) starts working and drives the stirring shaft (23) to rotate at low speed. The material particles enter the feed pipe (14). When the large particles are rotated and rubbed by the fan blade scraper (24) and the large particle filter plate (22), the large particles are screened and enter the lower stirring mechanism. The bottom end of the stirring shaft (23) drives the reverse arc stirring rod (36) to perform the reverse rotation stirring compared with the forward arc stirring rod (32), and ensure that the bottom mechanical energy is in normal working condition.