CN113648895B

CN113648895B - A rabbling mechanism for preparing astallulon

Info

Publication number: CN113648895B
Application number: CN202111218438.3A
Authority: CN
Inventors: 皮红军
Original assignee: Tuoxinda Qidong Pharmaceutical Biotechnology Co ltd
Current assignee: Tuoxinda Qidong Pharmaceutical Biotechnology Co ltd
Priority date: 2021-10-20
Filing date: 2021-10-20
Publication date: 2022-01-04
Anticipated expiration: 2041-10-20
Also published as: CN113648895A

Abstract

The invention relates to the field of biological medicine, in particular to a stirring mechanism for preparing atralon, which comprises a reaction kettle body, wherein the reaction kettle body is provided with a feeding hole; the filtering device is positioned above the feeding hole and comprises a filtering box, a discharging hole arranged at the bottom of the filtering box, an opening and closing part arranged at the bottom of the filtering box and a filtering part arranged between the opening and closing parts, wherein the opening and closing part comprises two oppositely arranged baffles which are rotatably arranged on the filtering box; the filtering part comprises mounting plates respectively fixed on the two baffles and a filter screen arranged between the two mounting plates. The material outlet is opened by rotating the baffle plate, and in the process, the baffle plate rotates to pull the filter screen open, so that the material is filtered when coming out of the material outlet.

Description

A rabbling mechanism for preparing astallulon

Technical Field

The invention relates to the field of biological medicine, in particular to a stirring mechanism for preparing atraumatic.

Background

In the field of medical applications, the requirement for a stirrer for the stirring operation of medicines is high. The conventional stirring apparatus generally has the following problems:

1. traditional agitated vessel stirs through the stirring rod constantly and mixes, makes like this can't be stirred thoroughly to the material of bottom, and material mixing velocity is slow, has influenced the work efficiency of processing stirring material.

2. When pouring the material into agitated vessel, the material the inside mixes there is impurity, can influence the mixture of material, and serious can cause this batch of material to scrap.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the technical problems in the prior art, the invention provides a stirring mechanism for preparing the arturin, which comprises,

the reaction kettle comprises a reaction kettle body, a reaction kettle body and a reaction kettle cover, wherein the reaction kettle body is provided with a feeding hole;

the filtering device is positioned above the feeding hole and comprises a filtering box, a discharging hole arranged at the bottom of the filtering box, an opening and closing part arranged at the bottom of the filtering box and a filtering part arranged between the opening and closing parts, wherein,

the opening and closing part comprises two oppositely arranged baffles, and the two baffles are rotatably arranged on the filter box;

the filtering part comprises mounting plates respectively fixed on the two baffles and a filter screen arranged between the two mounting plates;

when the two baffles move towards opposite directions, the baffles drive the mounting plate to move towards opposite directions, so that the filter screen is pulled away;

when the two baffles move towards the same direction, the baffles drive the mounting plate to move towards the same direction, so that the filter screens are overlapped.

Further, the opening and closing part also comprises a connecting plate, wherein,

one end of the connecting plate is fixedly connected with the baffle, and the other end of the connecting plate is rotatably arranged on the filter box.

Further, the section of the discharge hole is arc-shaped, the baffle is arc-shaped, wherein,

the baffle is suitable for blocking the discharge hole.

Furthermore, two connecting plates are fixed at the ends far away from the baffle plates, two gears meshed with each other are fixed at the ends far away from the baffle plates, an air cylinder is hinged to one of the connecting plates, and an output shaft of the air cylinder is hinged to the other connecting plate.

Furthermore, connecting rods are fixed on the two mounting plates, a hinged seat is fixed on the filter screen, wherein,

and the two connecting rods are hinged with the hinged seats.

Further, the hinged seat is located in the middle of the filter screen.

Furthermore, a flexible block is arranged between the mounting plate and the filter screen, a mounting groove is arranged on the flexible block, wherein,

the mounting groove with the baffle adaptation, so that when the both sides of filter screen are folded, the baffle can block in the mounting groove.

Furthermore, the mounting plate and the baffle plate are fixedly connected through a locking part, the locking part comprises a main body part, a supporting slot arranged on the main body part, a clamping part arranged at one end of the main body part and a supporting column for supporting the supporting slot, wherein,

the opening column is suitable for being inserted into the opening groove, so that the clamping part is opened towards two sides to prop against the baffle.

Furthermore, one end of the strutting column is fixed with a U-shaped flexible sheet, wherein,

when the opening column moves upwards, the flexible sheet props against the main body part, and the flexible sheet is changed into an inverted U shape from a U shape.

Further, the reaction kettle body comprises an outer sleeve, an inner sleeve rotatably arranged in the outer sleeve, a material turning part arranged in the inner sleeve, and,

the material turning part comprises an upper ring sliding in the inner sleeve, a lower ring fixed in the inner sleeve and a flexible membrane fixedly connected with the upper ring and the lower ring, the size of the upper ring is matched with that of the inner sleeve, and the size of the upper ring is larger than that of the lower ring;

when the upper ring is positioned at the lower part of the lower ring, the material turning part is in an inverted U shape, so that the material falls between the material turning part and the inner wall of the inner sleeve;

when the upper ring is positioned on the upper part of the lower ring, the material turning part is U-shaped, so that the material falls into the material turning part.

Has the advantages that:

1. the material outlet is opened by rotating the baffle plate, and in the process, the baffle plate rotates to pull the filter screen open, so that the material is filtered when coming out of the material outlet.

2. The invention adopts the material turning part which is positioned above the inner sleeve, thereby reducing the problem of dust caused by the pouring of materials into the material turning part.

3. The stirring part is adopted in the invention, the whole inner sleeve is driven to rotate by the stirring part, and the upper ring is fixed with the guide block which slides in the guide groove and the spiral groove, so that the upper ring slides up and down in the guide groove on the peripheral wall of the inner sleeve, and the material is stirred.

4. According to the stirring part, two ends of the stirring part are respectively hinged to the two mounting plates, one hinge seat slides on the mounting plates, and the stirring shaft rotates forwards and backwards, so that different angles of inclination of the stirring blades are realized, and the stirring effect is improved.

5. The material turning device is provided with the extrusion rings, when the upper ring of the material turning part moves downwards to the lowest position, the extrusion rings support the flexible membrane, so that materials on the flexible membrane are turned again, and the material turning effect is improved.

Drawings

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

FIG. 2 is a schematic view of a filtration apparatus according to the present invention;

FIG. 3 is a schematic view of a filter portion according to the present invention;

FIG. 4 is a fragmentary view of the latch portion of the present invention;

FIG. 5 is an assembled view of the latch portion of the present invention;

FIG. 6 is a schematic view of the opening/closing portion of the present invention;

FIG. 7 is a sectional view of the reactor body structure of the present invention;

FIG. 8 is a schematic view of the stirring section of the present invention;

in the figure:

100. the device comprises a filtering device, 110, a filtering box, 111, a discharge port, 120, an opening and closing part, 121, a baffle, 122, a connecting plate, 123, a gear, 130, a filtering part, 131, a mounting plate, 132, a filtering net, 133, a connecting rod, 134, a hinged seat, 135, a mounting groove, 136, a flexible block, 140, a locking part, 141, a main body part, 142, a distraction groove, 143, a clamping part, 144, a distraction column, 145, a flexible sheet, 150 and an air cylinder;

200. the reaction kettle comprises a reaction kettle body, 210, an outer sleeve, 211, a spiral groove, 220, an inner sleeve, 221, a guide groove, 222, an organ pipe, 230, a stirring part, 231, an upper ring, 232, a lower ring, 233, a flexible membrane, 234, a guide block, 240, an extrusion ring, 2500, a stirring part, 251, a rotating shaft, 252, an upper fixing plate, 253, a lower fixing plate, 254, a stirring blade, 255, a scraping plate, 256, a hinge block, 257, a limiting groove, 260 and a feeding hole.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In the description of the present invention, it is to be understood that the terms "upper", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be taken as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

Example one

A rabbling mechanism for preparing astallurens includes

The reaction kettle comprises a reaction kettle body 200, wherein the reaction kettle body 200 is provided with a feeding hole 260; the filtering device 100 is located above the feeding hole 260, the filtering device 100 comprises a filtering box 110, a discharging hole 111 arranged at the bottom of the filtering box 110, an opening and closing part 120 arranged at the bottom of the filtering box 110 and a filtering part 130 arranged between the opening and closing parts 120, wherein the opening and closing part 120 comprises two oppositely arranged baffles 121, and the two baffles 121 are rotatably arranged on the filtering box 110; the filter part 130 includes mounting plates 131 respectively fixed to the two baffles 121 and a filter screen 132 disposed between the two mounting plates 131; when the two baffles 121 move in opposite directions, the baffles 121 drive the mounting plate 131 to move in opposite directions, so as to pull the filter screen 132 apart; when the two baffles 121 move in the same direction, the baffles 121 drive the mounting plate 131 to move in the same direction, so as to overlap the filter screens 132.

The opening and closing part 120 further includes a connecting plate 122, wherein one end of the connecting plate 122 is fixedly connected to the baffle 121, and the other end is rotatably disposed on the filter box 110. The discharge hole 111 is arc-shaped in cross section, the baffle 121 is arc-shaped, wherein the baffle 121 is suitable for blocking the discharge hole 111. Two gears 123 which are meshed with each other are fixed at one ends of the two connecting plates 122 far away from the baffle 121, wherein an air cylinder 150 is hinged on one connecting plate 122, and an output shaft of the air cylinder 150 is hinged with the other connecting plate 122.

Because the cylinder 150 is hinged on the connecting plate 122, the output shaft of the cylinder 150 is hinged on the other connecting plate 122, the cylinder 150 can drive the connecting plate 122 to rotate, and because the end of the connecting plate 122 far away from the baffle 121 is fixed with the gear 123, the two gears 123 are meshed with each other, so that the two connecting plates 122 can synchronously rotate, namely, the two connecting plates 122 are driven to move oppositely or oppositely around the output shaft of the motor, and finally the discharge hole 111 is opened or closed. During the rotation of the baffle 121, the filter 132 can be pulled away, or the filter 132 can be folded.

Two all be fixed with connecting rod 133 on the mounting panel 131, be fixed with articulated seat 134 on the filter screen 132, wherein, two connecting rod 133 all with articulated seat 134 is articulated. The connecting rod 133 mechanism is adopted, so that the movement stability of the mounting plate 131 is improved. The hinge base 134 is located in the middle of the filter mesh 132. When the two mounting plates 131 move toward each other, the hinge base 134 moves upward, thereby pulling the filter 132 upward in the middle and finally folding the filter 132. When the two mounting plates 131 move in opposite directions, the hinge base 134 moves downward, and the two mounting plates 131 move away from the hinge base 134, thereby pulling the filter mesh 132 apart.

The mounting panel 131 with still be equipped with flexible piece 136 between the filter screen 132, flexible piece 136 is last to have seted up mounting groove 135, wherein, mounting groove 135 with baffle 121 adaptation, so that when the both sides of filter screen 132 were folded, baffle 121 can block in the mounting groove 135. When baffle 121 moved in opposite directions, baffle 121 removed to mounting groove 135 gradually, until the card in mounting groove 135, at this moment, filter screen 132 has folded together, and two flexible piece 136 laminating, baffle 121 are located flexible piece 136 both sides to play sealed effect, make sealed effect better.

The mounting plate 131 and the baffle 121 are fixedly connected through a locking portion 140, the locking portion 140 includes a main body portion 141, a supporting slot 142 formed in the main body portion 141, a locking portion 143 disposed at one end of the main body portion 141, and a supporting post 144 for supporting the supporting slot 142, wherein the supporting post 144 is adapted to be inserted into the supporting slot 142, so that the locking portion 143 is supported to both sides to support the baffle 121. The body portion 141 defines a notch therein, the size of which is adapted to the size of the distraction posts 144. A U-shaped flexible sheet 145 is fixed to one end of the spreading column 144, wherein when the spreading column 144 moves upward, the flexible sheet 145 abuts against the main body 141, and the flexible sheet 145 changes from a U shape to an inverted U shape. The main body part 141 is firstly pinched towards the direction of the opening groove 142, the clamping part 143 is drawn close towards the middle, then the main body part 141 is inserted into the grooves on the mounting plate 131 and the baffle plate 121 until the clamping part 143 is sprung to abut against the end face of the baffle plate 121, then the opening column 144 is inserted into the main body part 141 and is pressed upwards towards the middle part of the flexible sheet 145, along with the upward movement of the opening column 144, the flexible sheets 145 on two sides press the main body part 141, the flexible sheet 145 is gradually changed into an inverted U shape from the U shape until the bottom of the opening column 144 is flush with the bottom of the main body part 141, at the moment, the flexible sheet 145 is already changed into the inverted U shape, and the opening column 144 is taken out when the dismounting is convenient.

The reaction kettle body 200 comprises an outer sleeve 210, an inner sleeve 220 rotatably arranged in the outer sleeve 210, and a material overturning part 230 arranged in the inner sleeve 220, wherein the material overturning part 230 comprises an upper ring 231 sliding in the inner sleeve 220, a lower ring 232 fixed in the inner sleeve 220, and a flexible membrane 233 fixedly connected with the upper ring 231 and the lower ring 232, the size of the upper ring 231 is matched with that of the inner sleeve 220, and the size of the upper ring 231 is larger than that of the lower ring 232; a spiral groove 211 is formed in the inner wall of the outer sleeve 210, a guide groove 221 is formed in the inner sleeve 220 in the length direction, a guide block 234 is fixed to the upper ring 231, and the guide block 234 penetrates through the guide groove 221 and slides in the spiral groove 211; when the inner sleeve 220 rotates to drive the guide block 234 to slide downwards in the guide groove 221 until the upper ring 231 is located at the lower part of the lower ring 232, the material overturning part 230 is in an inverted U shape, so that the material falls between the material overturning part 230 and the inner wall of the inner sleeve 220; when the inner sleeve 220 rotates reversely, the guide block 234 is driven to slide upwards in the guide groove 221 until the upper ring 231 is located at the upper part of the lower ring 232, the material overturning part 230 is U-shaped, so that the material falls into the material overturning part 230.

In order to realize the rotation of the inner sleeve 220 relative to the outer sleeve 210, a stirring part 2500 is arranged in the outer sleeve 210, the stirring part 2500 comprises a rotating shaft 251, an upper fixing plate 252 fixed on the rotating shaft 251, a lower fixing plate 253 and stirring blades 254 respectively hinged with the two upper and lower fixing plates, the stirring blades 254 are hinged on the upper and lower fixing plates 253 through hinge blocks 256, wherein the hinge blocks 256 close to the lower fixing plate 253 are slidably arranged on the lower fixing plate 253, a limiting groove 257 is arranged on the lower fixing plate 253, and the limiting groove 257 is suitable for the hinge blocks 256 to slide. A scraper 255 is further fixed on the stirring blade 254, and the scraper 255 is suitable for scraping off the materials adhered on the flexible film 233. The rotating shaft 251 is fixed at the bottom of the inner sleeve 220, and drives the inner sleeve 220 to rotate. With the forward rotation and reverse installation of the rotating shaft 251, the inclination of the stirring blades 254 at different angles is realized, and the stirring effect is improved. An insertion block is fixed on the lower fixing plate 253, a slot is formed in the length direction of the rotating shaft 251, and the insertion block on the lower fixing plate 253 is inserted into the slot, so that the lower fixing plate 252 slides more stably.

In order to realize the up-and-down sliding of the upper ring 231 in the inner sleeve 220, the inner wall of the outer sleeve 210 is provided with a spiral groove 211, the inner sleeve 220 is provided with a guide groove 221, the upper ring 231 is further fixed with a guide block 234, and the guide block 234 is inserted into the spiral groove 211 from the guide groove 221. When inner skleeve 220 rotates, drives guide block 234 is in the guide way 221 is inside to the gliding, works as when inner skleeve 220 antiport, drives guide block 234 is in upwards slide in the guide way 221, because guide block 234 is fixed on last ring 231 to drive last ring 231 and reciprocate, so that stirring portion 230 is the type of falling U or U, and the material can be turned over from top to bottom, when stirring of stirring portion 2500, makes the stirring more thorough, and the material that is located the bottom also can be mixed by the stirring, has improved the mixed effect. In order to prevent the material from entering between the guide groove 221 and the outer sleeve 210, an accordion pipe 222 is connected to the upper end of the guide groove 221 and the guide block 234.

In this embodiment, the material turning part 230 is located above the reaction kettle body 200, so that the dust phenomenon caused by the material poured into the material turning part 230 is reduced.

The bottom of the inner sleeve 220 is further provided with a squeezing ring 240, when the upper ring 231 of the material overturning part 230 moves downwards to the lowest position, the squeezing ring 240 props the flexible membrane 233, so that the material on the flexible membrane 233 is overturned again, and the material overturning effect is improved.

One end of the upper ring 231 close to the axis of the inner sleeve 220 is obliquely arranged, and when the upper ring 231 slides upwards or downwards, the material on the inner wall of the inner sleeve 220 can be scraped off.

The working principle is as follows: the cylinder 150 is started, the cylinder 150 drives the two baffles 121 to move in opposite directions, so that the two baffles 121 respectively drive the two mounting plates 131 to move in opposite directions, the filter screen 132 is pulled open, the discharge hole 111 of the filter box 110 is opened, and the material is poured into the material overturning part 230. The rotation shaft 251 rotates, and when the rotation shaft 251 rotates clockwise, the lower end of the stirring blade 254 is driven to rotate counterclockwise, and the hinge block 256 at the lower end of the stirring blade 254 slides in the limiting groove 257, so that the upper end of the stirring blade 254 is inclined toward the rotation direction. Due to the clockwise rotation of the rotating shaft 251, the inner sleeve 220 also rotates clockwise, so that the guide block 234 moves downwards under the action of the guide groove 221 and the spiral groove 211, the upper ring 231 is driven to move downwards, the material overturning part 230 is in an inverted U shape, and the material above the material overturning part 230 falls between the flexible film 233 and the inner wall of the inner sleeve 220. When the upper ring 231 slides to the lowest end of the guide groove 221, the pressing ring 240 supports the flexible membrane 233, so that the material is turned over again.

When the rotating shaft 251 rotates counterclockwise, the lower end of the stirring vane 254 is driven to rotate clockwise, and the hinge block 256 at the lower end of the stirring vane 254 slides in the limiting groove 257, so that the upper end of the stirring vane 254 is inclined toward the rotating direction. Due to the counterclockwise rotation of the rotating shaft 251, the inner sleeve 220 also rotates counterclockwise, so that the guide block 234 moves upward under the action of the guide groove 221 and the spiral groove 211 to drive the upper ring 231 to move upward, the material overturning part 230 gradually takes on a U shape, and the material between the material overturning part 230 and the inner wall of the inner sleeve 220 moves upward and finally falls into the material overturning part 230 completely. Stirring leaf 254 is constantly stirring for the stirring is more thorough, and the material that is located the bottom also can mix, makes stirring effect better, and mixing efficiency is higher. In the process that the upper ring 231 slides upwards, one end, close to the axis of the inner sleeve 220, of the upper ring 231 is obliquely arranged, the upper ring 231 can scrape off materials on the inner wall of the inner sleeve 220, and meanwhile, the materials can conveniently fall into the material overturning part 230 to play a guiding role.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A stirring mechanism for preparing the atractylen is characterized by comprising,

the filtering device is positioned above the feeding hole and comprises a filtering box, a discharging hole arranged at the bottom of the filtering box, an opening and closing part arranged at the bottom of the filtering box and a filtering part arranged between the opening and closing parts;

the reaction kettle body comprises an outer sleeve, an inner sleeve rotatably arranged in the outer sleeve, a material turning part arranged in the inner sleeve, and,

a spiral groove is formed in the inner wall of the outer sleeve, a guide groove is formed in the inner sleeve in the length direction, a guide block is fixed on the upper ring, and the guide block penetrates through the guide groove and slides in the spiral groove;

when the inner sleeve rotates to drive the guide block to slide downwards in the guide groove until the upper ring is positioned at the lower part of the lower ring, the material overturning part is in an inverted U shape, so that materials fall between the material overturning part and the inner wall of the inner sleeve;

when the inner sleeve rotates reversely, the guide block is driven to slide upwards in the guide groove until the upper ring is positioned at the upper part of the lower ring, and the material turning part is U-shaped, so that materials fall into the material turning part;

when the two baffles move towards the same direction, the baffles drive the mounting plate to move towards the same direction, so that the filter screens are overlapped;

the outer sleeve is internally provided with a stirring part, the stirring part comprises a rotating shaft, an upper fixed plate and a lower fixed plate which are fixed on the rotating shaft, and stirring blades which are respectively hinged with the upper fixed plate and the lower fixed plate, the stirring blades are respectively hinged on the upper fixed plate and the lower fixed plate through hinge blocks, wherein,

a limiting groove is formed in the lower fixing plate, and the hinge block close to the lower fixing plate is arranged in the limiting groove in a sliding mode.

2. A stirring mechanism for preparing astallulons as claimed in claim 1,

the opening and closing part also comprises a connecting plate, wherein,

3. A stirring mechanism for preparing astallulons as claimed in claim 2,

the section of the discharge hole is arc-shaped, the baffle is arc-shaped, wherein,

the baffle is suitable for blocking the discharge hole.

4. A stirring mechanism for preparing astallulons as claimed in claim 2,

two the even board one end of keeping away from the baffle all is fixed with two intermeshing's gear, and articulated on one of them even board has the cylinder, the output shaft of cylinder with another even board is articulated to be connected.

5. A stirring mechanism for preparing astallulons as claimed in claim 1,

connecting rods are fixed on the two mounting plates, a hinged seat is fixed on the filter screen, wherein,

and the two connecting rods are hinged with the hinged seats.

6. A stirring mechanism for preparing artolurons according to claim 5,

the hinged seat is positioned in the middle of the filter screen.

7. A stirring mechanism for preparing astallulons as claimed in claim 1,

a flexible block is arranged between the mounting plate and the filter screen, a mounting groove is arranged on the flexible block, wherein,

8. A stirring mechanism for preparing astallulons as claimed in claim 1,

the mounting plate and the baffle plate are fixedly connected through a locking part, the locking part comprises a main body part, a supporting groove arranged on the main body part, a clamping part arranged at one end of the main body part and a supporting column for supporting the supporting groove, wherein,

9. A stirring mechanism for preparing artolurons according to claim 8,

one end of the strutting column is fixed with a U-shaped flexible sheet, wherein,