CN112090306A

CN112090306A - Preparation method of anti-inflammatory gynecological gel

Info

Publication number: CN112090306A
Application number: CN202010988806.1A
Authority: CN
Inventors: 周燕芳
Original assignee: 周燕芳
Current assignee: Zhong Zhenfeng
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2020-12-18
Anticipated expiration: 2040-09-18
Also published as: CN112090306B

Abstract

The invention discloses a preparation method of an anti-inflammatory gynecological gel, which comprises the following steps of: weighing appropriate raw materials according to the production requirements of the gel, pre-blending the raw materials which are not easy to mix into solution or gel liquid with a certain proportion, and adding the following raw materials: the device has the advantages that various raw materials are rapidly and uniformly added into the mixing cylinder through the convenient uniformly-distributed feeding mechanism, the gel raw materials are mixed twice through one-time stretching of the electric telescopic rod, the mixing efficiency of the gel raw materials is effectively improved, the coverage area of the fixed circular plate and the floating circular plate is large, the raw materials inside the mixing cylinder can be driven to synchronously move in the moving process, the occurrence of stirring dead angles is effectively avoided, meanwhile, the raw materials inside the mixing cylinder can be circulated up and down in the mixing process, the mixing efficiency of gynecological gel is effectively improved, the mixing quality of the gynecological gel is improved, and the production process of the gynecological gel is optimized.

Description

Preparation method of anti-inflammatory gynecological gel

Technical Field

The invention relates to the technical field of gynecological gel preparation, in particular to a preparation method of an anti-inflammatory gynecological gel.

Background

The gynecological gel is a gynecological medicine, is a gel, is used for treating various gynecological vaginitis and cervicitis, and comprises the following components: bacterial vaginitis, trichomonas vaginitis, mixed vaginitis, gonococcal infection and chronic cervicitis, has the functions of diminishing inflammation, sterilizing and relieving itching, has obvious inhibiting effect on the growth of pathogenic microorganisms such as staphylococcus aureus, escherichia coli, gonococcal, candida albicans, fungi, saccharomycetes and the like, and the gynecological gel needs to use gel production equipment in the production process;

but gel production facility on the existing market is carrying out the in-process that mixes to the raw materials, only stirs the purpose in order to reach the mixture through the stirring rake to all kinds of raw materials, and because the raw materials is mostly thick colloid, the inefficiency that the stirring was mixed, simultaneously because the effective effect space of stirring rake is limited, lead to the part to be located the raw materials outside the stirring rake effective space can't participate in the stirring mixing process at all to the speed of gel stirring processing has been slowed down, the finished product quality of gel has been reduced.

Disclosure of Invention

The invention provides a preparation method of an anti-inflammatory gynecological gel, which can effectively solve the problems that in the process of mixing raw materials, gel production equipment provided in the background technology only stirs various raw materials through a stirring paddle to achieve the purpose of mixing, the stirring and mixing efficiency is low because the raw materials are mostly viscous colloids, and meanwhile, because the effective action space of the stirring paddle is limited, part of the raw materials outside the effective space of the stirring paddle cannot participate in the stirring and mixing process at all, the stirring and processing speed of the gel is slowed down, and the quality of gel finished products is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: the preparation method of the anti-inflammatory gynecological gel comprises the following steps:

s1, preparing raw materials: weighing appropriate raw materials according to the production requirements of the gel, and pre-blending the raw materials which are not easy to mix into a solution or a gel solution with a certain proportion;

s2, adding raw materials: various raw materials are quickly and uniformly added into a mixing cylinder through a convenient uniformly-distributed feeding mechanism;

s3, mixing the raw materials: the raw materials added into the mixing cylinder are mixed together through the high-efficiency mixing mechanism, and the raw materials in the mixing cylinder are heated through the circulating heating mechanism to improve the flowability of the raw materials, so that a gel finished product can be obtained after a period of mixing;

s4, detection and collection: performing sampling inspection detection on the mixed raw materials through a convenient sampling mechanism, collecting gel finished products through a residue prevention collecting mechanism after the mixed raw materials are detected to be qualified, and transporting the gel finished products to subpackage equipment;

s5, gel packaging: and (4) subpackaging the gel by subpackaging equipment to obtain a gynecological gel finished product.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the efficient mixing mechanism is arranged, the fixed circular plate, the sealing circular block, the guide sliding rod, the floating circular plate, the buoyancy ring and the buoyancy block are driven to move downwards at the same time by the downward extension of the electric telescopic rod, so that raw materials at the bottom of the mixing cylinder are forced to enter a gap between the isolation barrel and the mixing cylinder and ascend along the inner wall of the mixing cylinder, and finally are uniformly sprayed to the middle part from the inner wall of the isolation barrel through the liquid through micropores, so that all raw material jet flows are fully mixed during collision, and the path can be irregularly changed when the liquid flows through the upper through hole and the lower through hole due to the mutual offset of the positions of the upper through hole and the lower through hole, and all the raw materials are further mixed;

two times of the realization to the gel raw materials are mixed through electric telescopic handle's a flexible, the effectual mixing efficiency who improves the gel raw materials, and the coverage area of fixed plectane and unsteady plectane is big, can drive the inside raw materials synchro-genesis motion of mixing jar in the motion process, thereby the effectual appearance of stirring dead angle of having avoided, can make the inside raw materials of mixing jar circulate from top to bottom simultaneously in mixing process, and then the effectual mixing efficiency who promotes gynaecology gel, the mixing quality of gynaecology gel has been improved, the production process of gynaecology gel has been optimized.

2. The convenient and uniform distribution feeding mechanism is arranged, the driving belt pulley is driven to rotate by rotating the motor, the driven belt pulley is driven to rotate by matching of the limiting belt pulley and the driving belt pulley, so that the discharging pipe and each component fixedly connected with the discharging pipe are driven to rotate by the driven belt pulley, raw materials enter the guide hopper from the top of the conical top under the guide of the guide inclined ring and diffuse towards the end part of the bottom of the guide hopper under the action of the guide cone, meanwhile, the viscous raw materials generate a downward acting force under the action of centrifugal force due to the rotation of the conical top of the guide cone, the raw materials are effectively prevented from being adhered to the inner walls of the guide hopper and the conical top, the waste of the raw materials is avoided, meanwhile, the discharging cone box is driven to rotate by the discharging pipe, the raw materials can be filamentous after entering the discharging cone box, and are thrown out from the discharging hole at the bottom end part of the discharging cone box and added into the mixing, the rapid and uniform feeding is realized, so that the raw materials in the mixing cylinder can be dispersed more uniformly before being stirred, and the burden of subsequent stirring is indirectly shortened;

through the design of a protective cylinder and a sealing cover, the rotating assemblies are effectively isolated, operators are prevented from being damaged when contacting the rotating assemblies, and meanwhile, external impurities are effectively prevented from entering the mixing cylinder from the top of the protective cylinder, so that the sealing performance of the mixing cylinder is effectively improved.

3. The circulating heating mechanism is arranged, water in the water storage tank is guided into the heating tank through the infusion pump, the water is heated under the action of the electric heating rod in the heating tank, enters the arc-shaped heating box through the liquid inlet arc-shaped pipe, slowly rises along the arc-shaped heating box, and finally returns to the return pipe and the water storage tank through the liquid outlet arc-shaped pipe, so that the mixing tank is uniformly heated, the flowability of gel is improved, and the stirring efficiency of the gel is indirectly improved;

meanwhile, the supporting ring provides auxiliary support for the installation of the arc-shaped heating boxes, and the positioning groove and the clamping buckle are matched to provide temporary positioning between the two arc-shaped heating boxes in the installation process of the arc-shaped heating boxes, so that the installation of the fixing bolt is more convenient, the fixing process between the two arc-shaped heating boxes is optimized, the installation and the disassembly of the circulating heating mechanism are more convenient, and the service performance of gel production equipment is improved;

synthesize the above-mentioned, through the cooperation between high-efficient mixing mechanism, convenient equipartition feed mechanism and the circulation heating mechanism, optimize material loading process and mixing process in the gel production process, the effectual mixing efficiency and the mixing quality who improves the gel, and then the effectual finished product quality who promotes the gel.

4. The sampling device is provided with a convenient sampling mechanism, the torsion rod is rotated to drive the rotary valve post, the rotary rod and the clamping post to rotate, the rotary valve post and the rotary rod can seal the liquid discharge hole after rotating along the inner wall of the rotary hole, the synchronous clamping post can deflect along the central axis of the rotary rod, and then after the clamping post leaves the bottom of the movable limiting sheet, the sampling tube can gradually withdraw from the inside of the rubber sealing ring under the action of gravity and fall into the collecting tube together with the movable limiting sheet to finish the sampling of gel finished products;

through the linkage design of rotating valve post, dwang, twist pole and pressing from both sides tight post, seal the outage when taking off the sampling tube, the effectual gel of having avoided in the transportation can be transported in a sealed environment always to avoid the sampling in-process to cause the pollution to gel, the security of effectual improvement sample.

5. The anti-residue collection mechanism is arranged, the threaded connector is installed at the bottom of the manual sealing valve through a bolt, the material guide hose is communicated with the threaded connector through the installation head, so that gel in the conveying pipeline enters the collection barrel after the manual sealing valve is opened, the installation head is more conveniently connected through the material guide hose in sliding connection, the outer side of the sealing plate is sealed and protected through the sealing plate, the sealing sleeve and the sealing pipe, the material guide hose is effectively prevented from being damaged by the outside, the installation head can be directly detached from the threaded connector after gel conveying is finished, the whole material guide hose is stored in the collection barrel, and the positions of the installation head and the sealing plate are fixed through the lower magnetic ring and the upper magnetic ring, so that gel waste caused by adhesion of the inner wall of the material guide hose is effectively avoided, and the gel conveying process is optimized;

simultaneously, the collecting barrel can be transported by manual liquid carrying and lifting equipment under the action of the carrying handle and the lifting ring, so that the transfer process of the collecting barrel is optimized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart of the steps of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of the internal structure of the mixing cylinder of the present invention;

FIG. 4 is a schematic structural view of the high efficiency mixing mechanism of the present invention;

FIG. 5 is a schematic illustration of the construction of the guide slide bar mounting of the present invention;

FIG. 6 is a schematic structural view of a convenient and uniform distribution feeding mechanism of the present invention;

FIG. 7 is a schematic view of the construction of the conical tip of the present invention;

FIG. 8 is a schematic structural view of the circulation heating mechanism of the present invention;

FIG. 9 is a schematic structural view of a convenient sampling mechanism of the present invention;

FIG. 10 is a schematic view of the construction of the anti-residue collection mechanism of the present invention;

reference numbers in the figures: 1. installing a bottom frame; 2. a mixing cylinder; 3. placing a platform;

4. a high efficiency mixing mechanism; 401. an isolation barrel; 402. a sliding groove; 403. liquid-passing micropores; 404. sliding the round frame; 405. a driving iron ring; 406. an electromagnet ring; 407. an electric telescopic rod; 408. fixing the circular plate; 409. an upper through hole; 410. sealing the round block; 411. a guide slide bar; 412. a floating circular plate; 413. a lower through hole; 414. a buoyancy ring; 415. a buoyancy block;

5. the feeding mechanisms are conveniently and uniformly distributed; 501. installing a vertical plate; 502. rotating the motor; 503. a drive pulley; 504. a limiting belt pulley; 505. a discharging pipe; 506. a driven pulley; 507. a drive belt; 508. discharging cone boxes; 509. a material guide hopper; 510. a material guide cone; 511. a conical tip; 512. a protective cylinder; 513. a material guiding inclined ring; 514. a sealing cover;

6. a circulating heating mechanism; 601. a support ring; 602. an arc-shaped heating box; 603. positioning a groove; 604. clamping and fastening; 605. fixing the bolt; 606. a water storage tank; 607. an infusion pump; 608. a heating box; 609. an electric heating rod; 610. a liquid inlet arc pipe; 611. a liquid outlet arc-shaped pipe; 612. a return pipe;

7. an electrically-operated seal valve; 8. a delivery pump;

9. a convenient sampling mechanism; 901. an upper connecting seat; 902. rotating the hole; 903. rotating the valve column; 904. a drain hole; 905. fixing a limiting block; 906. a rubber seal ring; 907. a movable limiting sheet; 908. a sampling tube; 909. rotating the rod; 910. twisting the rod; 911. clamping the column; 912. a lower connecting seat; 913. a collection pipe; 914. a buffer ring; 915. a manual seal valve; 916. a limiting cover; 917. a glass conduit;

10. a residue prevention collection mechanism; 1001. a threaded connector; 1002. a mounting head; 1003. a sealing plate; 1004. a material guiding hose; 1005. a limiting ring; 1006. a collection barrel; 1007. a sealing tube; 1008. a lower magnetic ring; 1009. an upper magnetic ring; 1010. sealing sleeves; 1011. carrying handles; 1012. lifting a lifting ring; 1013. a leak-proof valve.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1, the invention provides a technical scheme, a preparation method of an anti-inflammatory gynecological gel, which comprises the following steps:

s2, adding raw materials: various raw materials are quickly and uniformly added into the mixing cylinder 2 through a convenient uniformly-distributed feeding mechanism 5;

s3, mixing the raw materials: the raw materials added into the mixing cylinder 2 are mixed together by the high-efficiency mixing mechanism 4, and the raw materials in the mixing cylinder 2 are heated by the circulating heating mechanism 6 to improve the fluidity of the raw materials, so that a gel finished product can be obtained after a period of mixing;

s4, detection and collection: performing sampling inspection detection on the mixed raw materials through a convenient sampling mechanism 9, collecting gel finished products through a residue prevention collecting mechanism 10 after the mixed raw materials are qualified, and transporting the gel finished products to subpackaging equipment;

As shown in fig. 2-10, an installation bottom frame 1 is welded at the bottom end part of the mixing cylinder 2, a placing platform 3 is welded at one side of the installation bottom frame 1, and a high-efficiency mixing mechanism 4 is arranged at the inner side of the mixing cylinder 2;

the high-efficiency mixing mechanism 4 comprises an isolation barrel 401, a sliding groove 402, a liquid through micropore 403, a sliding circular frame 404, a driving iron ring 405, an electromagnet ring 406, an electric telescopic rod 407, a fixed circular plate 408, an upper through hole 409, a sealing circular block 410, a guide sliding rod 411, a floating circular plate 412, a lower through hole 413, a buoyancy ring 414 and a buoyancy block 415;

an isolation barrel 401 is fixedly connected to the middle of the inner side of the mixing cylinder 2, a sliding groove 402 is formed in the top of the inner side of the isolation barrel 401, liquid through micropores 403 are uniformly formed in the inner wall of the sliding groove 402 in a penetrating mode in the circumferential direction, a sliding circular frame 404 is connected to the inner side of the sliding groove 402 in a sliding mode, a driving iron ring 405 is embedded into the edge portion of the top end of the sliding circular frame 404, an electromagnet ring 406 is fixedly connected to the edge portion of the top end of the mixing cylinder 2, and the input end of the electromagnet;

an electric telescopic rod 407 is fixedly connected to the middle of the top end of the inner side of the mixing cylinder 2, the input end of the electric telescopic rod 407 is electrically connected with the output end of a mains supply, a fixed circular plate 408 is fixedly connected to the middle of the bottom end of the electric telescopic rod 407, upper through holes 409 are uniformly formed in the top end of the fixed circular plate 408, and sealing circular blocks 410 are uniformly and fixedly connected to positions, corresponding to one side of the upper through holes 409, of the bottom end of;

a guide sliding rod 411 is uniformly and movably connected to the middle of the fixed circular plate 408 in a circumferential direction corresponding to the edge of the electric telescopic rod 407, a floating circular plate 412 is fixedly connected to the bottom end of the guide sliding rod 411, a lower through hole 413 is formed in the position, corresponding to the bottom end of the sealing circular block 410, of the top end of the floating circular plate 412, a floating ring 414 is bonded to the position, corresponding to one side of the lower through hole 413, of the middle of the bottom end of the floating circular plate 412, a floating block 415 is bonded to the position, corresponding to one side of the lower through hole 413, of the bottom end of the floating circular plate 412, the;

the outer side of the sliding circular frame 404 is tightly attached to the inner wall of the sliding groove 402, the inner wall of the sliding circular frame 404 is flush with the inner wall of the isolation barrel 401, and the sliding circular frame 404 can slide along the axial direction of the isolation barrel 401;

the side surfaces of the fixed circular plate 408 and the floating circular plate 412 are tightly attached to the inner wall of the isolation barrel 401, the fixed circular plate 408 and the floating circular plate 412 are in sliding connection with the isolation barrel 401, and a limiting circular plate is arranged at the position, corresponding to the top of the fixed circular plate 408, of the top end of the guide sliding rod 411;

the lower through hole 413 and the sealing circular block 410 are the same in size, the density of the buoyancy ring 414 and the buoyancy block 415 is smaller than that of the floating circular block 412, the fixed circular block 408, the sealing circular block 410, the guide slide rod 411, the floating circular block 412, the buoyancy ring 414 and the buoyancy block 415 are driven to move downwards by the downward extension of the electric telescopic rod 407, so that raw materials at the bottom of the mixing cylinder 2 are forced to enter a gap between the isolation barrel 401 and the mixing cylinder 2 and rise along the inner wall of the mixing cylinder 2, and are uniformly sprayed to the middle part from the inner wall of the isolation barrel 401 through the liquid through micropores 403, so that raw material jet flows are fully mixed during collision, and as the positions between the upper through hole 409 and the lower through hole 413 are mutually offset, the path of the liquid flowing between the upper through hole 409 and the lower through hole 413 can be irregularly changed, and the raw materials are further mixed;

the two times of the realization to the gel raw materials are mixed through electric telescopic handle 407's a flexible, the effectual mixing efficiency who improves the gel raw materials, and the coverage area of fixed plectane 408 and unsteady plectane 412 is big, can drive the raw materials synchro emergence motion of mixing 2 inside jars in the motion process, thereby the effectual appearance at stirring dead angle of having avoided, can make the raw materials of mixing 2 inside jars to circulate from top to bottom simultaneously in mixing process, and then the effectual mixing efficiency who promotes gynaecology gel, the mixing quality of gynaecology gel has been improved, the production process of gynaecology gel has been optimized.

The top end of the mixing cylinder 2 is provided with a convenient and uniform distribution feeding mechanism 5;

the convenient uniform distribution feeding mechanism 5 comprises a mounting vertical plate 501, a rotating motor 502, a driving belt pulley 503, a limiting belt pulley 504, a blanking pipe 505, a driven belt pulley 506, a transmission belt 507, a discharging cone box 508, a material guide hopper 509, a material guide cone 510, a cone top 511, a protective cylinder 512, a material guide inclined ring 513 and a sealing cover 514;

an installation vertical plate 501 is welded on one side of the top end of the mixing cylinder 2, a rotating motor 502 is fixedly connected on one side of the installation vertical plate 501, the input end of the rotating motor 502 is electrically connected with the output end of an external power supply, a driving belt pulley 503 is fixedly connected on the outer side of the output shaft of the rotating motor 502, a limiting belt pulley 504 is rotatably connected on the circumferential direction of the top end of the mixing cylinder 2 through a rotating shaft, a discharging pipe 505 is uniformly and rotatably connected on the circumferential direction of the top end of the mixing cylinder 2, a driven belt pulley 506 is fixedly connected on the outer side of the discharging pipe 505 corresponding to the top position of the outer side of the mixing cylinder 2;

the bottom end of the blanking pipe 505 is fixedly connected with a discharging cone box 508 corresponding to the inner position of the mixing cylinder 2, the top end of the blanking pipe 505 is fixedly connected with a material guide hopper 509, the top part of the inner side of the material guide hopper 509 is fixedly connected with a material guide cone 510, the edge part of the top end of the material guide hopper 509 is fixedly connected with a conical top 511, the top end of the mixing cylinder 2 corresponding to the outer side of the material guide hopper 509 is fixedly connected with a protective cylinder 512, the top part of the conical top 511 corresponding to the inner side of the protective cylinder 512 is fixedly connected with a material guide inclined ring 513, the top end of the protective cylinder 512 is connected with a sealing cover 514 through threads, the circle centers of the limiting belt pulley 504 and the driving belt pulley 503 are uniformly distributed on the side line of a distribution circle with the same diameter, the circle centers of the limiting belt pulley 504 and the driving belt pulley 503 are uniformly distributed along the circumferential direction, the driven belt pulley 506 is driven to rotate by the matching of the limiting belt pulley 504 and the transmission belt 507, so that the blanking pipe 505 and each component fixedly connected with the blanking pipe are driven to rotate by the driven belt pulley 506, raw materials enter the material guide hopper 509 from the top of the conical top 511 under the guiding of the material guide inclined ring 513 and diffuse to the bottom end part of the material guide hopper 509 under the action of the material guide cone 510, meanwhile, the thick raw materials generate a downward acting force under the action of centrifugal force due to the rotation of the conical top 511 of the material guide cone 510, the raw materials are effectively prevented from adhering to the inner walls of the material guide hopper 509 and the conical top 511, the waste of the raw materials is avoided, meanwhile, the material discharge cone box 508 is driven to rotate by the blanking pipe 505, the raw materials can be thrown out from the discharge hole at the bottom end part of the material guide cone box 508 and added into the mixing cylinder 2 after entering the interior of the material discharge cone, the rapid and uniform feeding is realized, so that the raw materials in the mixing cylinder 2 can be dispersed more uniformly before being stirred, and the burden of subsequent stirring is indirectly shortened;

through the design of the protective cylinder 512 and the sealing cover 514, the rotating assemblies are effectively isolated, operators are prevented from being damaged when contacting the rotating assemblies, and meanwhile, external impurities are effectively prevented from entering the mixing cylinder 2 from the top of the protective cylinder 512, so that the sealing property of the mixing cylinder 2 is effectively improved;

discharge holes are uniformly formed in the circumferential direction of the bottom of the outer side of the discharge cone box 508, and the diameter of the bottom outlet of the material guide inclined ring 513 is smaller than that of the top inlet of the cone top 511.

A circulating heating mechanism 6 is arranged outside the mixing cylinder 2;

the circulating heating mechanism 6 comprises a supporting ring 601, an arc-shaped heating box 602, a positioning groove 603, a clamping buckle 604, a fixing bolt 605, a water storage tank 606, an infusion pump 607, a heating tank 608, an electric heating rod 609, a liquid inlet arc-shaped pipe 610, a liquid outlet arc-shaped pipe 611 and a return pipe 612;

the top of the outer side of the mixing cylinder 2 is welded with a supporting ring 601, the positions of the outer side of the mixing cylinder 2, corresponding to the top of the supporting ring 601, are symmetrically provided with arc-shaped heating boxes 602, positioning grooves 603 are respectively formed in two sides of each of the two arc-shaped heating boxes 602, clamping buckles 604 are movably connected to the inner sides of the positioning grooves 603, and the two arc-shaped heating boxes 602 are fixedly connected through fixing bolts 605;

the water storage tank 606 is placed on the top surface of the placing platform 3, the middle part of the top end of the water storage tank 606 is connected with a liquid delivery pump 607 through a pipeline, the input end of the liquid delivery pump 607 is electrically connected with the output end of an external power supply, the top end of the liquid delivery pump 607 is fixedly connected with a heating box 608 through a pipeline, the inner side of the heating box 608 is uniformly provided with electric heating rods 609, the input end of the electric heating rod 609 is electrically connected with the output end of the external power supply, the top end of the heating box 608 is fixedly connected with a liquid inlet arc pipe 610 corresponding to the inner bottom position of the arc heating box 602 through a pipeline, the inner top of the arc heating box 602 is fixedly connected with a liquid outlet arc pipe 611, one end of the liquid outlet arc pipe 611 is fixedly connected with a return pipe 612, the bottom end of the return pipe 612 is communicated with the water storage tank 606, water in the water storage, slowly rises along the arc-shaped heating box 602 and finally returns to the inside of the water storage tank 606 of the return pipe 612 through the liquid outlet arc-shaped pipe 611, so that the mixing cylinder 2 is uniformly heated, the fluidity of the gel is improved, and the stirring efficiency of the gel is indirectly improved;

simultaneously, the supporting ring 601 is used for providing auxiliary support for the installation of the arc-shaped heating boxes 602, and the positioning groove 603 and the clamping buckle 604 are matched to provide temporary positioning between the two arc-shaped heating boxes 602 in the installation process of the arc-shaped heating boxes 602, so that the installation of the fixing bolt 605 is more convenient, the fixing process between the two arc-shaped heating boxes 602 is optimized, the installation and the disassembly of the circulating heating mechanism 6 are more convenient, and the use performance of the gel production equipment is improved.

The middle part of the bottom end of the mixing cylinder 2 is fixedly connected with an electric sealing valve 7, the outlet position of the electric sealing valve 7 is fixedly connected with a delivery pump 8 through a pipeline, the input end of the delivery pump 8 is electrically connected with the output end of an external power supply, and the bottom end of the delivery pump 8 is connected with a convenient sampling mechanism 9 through a pipeline;

the convenient sampling mechanism 9 comprises an upper connecting seat 901, a rotating hole 902, a rotating valve column 903, a liquid discharging hole 904, a fixed limiting block 905, a rubber sealing ring 906, a movable limiting sheet 907, a sampling tube 908, a rotating rod 909, a twisting rod 910, a clamping column 911, a lower connecting seat 912, a collecting tube 913, a buffer ring 914, a manual sealing valve 915, a limiting cover 916 and a glass guide tube 917;

the bottom end of the delivery pump 8 is fixedly connected with an upper connecting seat 901 through a pipeline, the middle part of the bottom end of the upper connecting seat 901 is fixedly connected with a glass guide tube 917, and the bottom end of the glass guide tube 917 is fixedly connected with a lower connecting seat 912;

rotating holes 902 are uniformly formed in the circumferential direction of the bottom end of the outer side of the upper connecting seat 901, a rotating valve column 903 is movably connected inside the rotating holes 902, liquid discharging holes 904 are formed in the top end and the bottom end of each rotating hole 902, a fixed limiting block 905 is fixedly connected to the position, corresponding to the bottom end of each liquid discharging hole 904, of the edge of the bottom end of the upper connecting seat 901, and a rubber sealing ring 906 is bonded to the bottom of the inner side of each liquid discharging;

the bottom of the fixed limiting block 905 is movably connected with a movable limiting sheet 907, and one end of the movable limiting sheet 907 is fixedly connected with a sampling tube 908;

a rotating rod 909 is fixedly connected to the middle of one end of the rotating valve column 903, a limiting cover 916 is movably connected to a position, corresponding to one end of the rotating valve column 903, outside the rotating rod 909, a twisting rod 910 is fixedly connected to one end of the rotating rod 909, and a clamping column 911 is fixedly connected to a position, corresponding to the bottom of the movable limiting piece 907, at the bottom end of one side of the twisting rod 910;

the top end of the lower connecting seat 912 is provided with a collecting pipe 913 corresponding to the bottom end of the sampling pipe 908, the bottom of the inner side of the collecting pipe 913 is bonded with a buffer ring 914, the bottom end of the lower connecting seat 912 is connected with a manual sealing valve 915 through a pipeline, a liquid discharge hole 904, an inner cavity of the upper connecting seat 901 and a rotating hole 902 are arranged, the position of the liquid discharge hole 904 corresponds to the position of a through hole on the rotating valve column 903, the top of the outer side of the sampling pipe 908 is tightly attached to the inner side of a rubber sealing ring 906, and a limiting;

the outer side of the clamping column 911 is tightly attached to the bottom of the movable limiting sheet 907, the twisting rod 910 is rotated to drive the rotating valve column 903, the rotating rod 909 and the clamping column 911 to rotate, the rotating valve column 903 and the rotating rod 909 can seal the liquid discharge hole 904 after rotating along the inner wall of the rotating hole 902, the synchronous clamping column 911 can deflect along the central axis of the rotating rod 909, and then after the clamping column 911 leaves the bottom of the movable limiting sheet 907, the sampling tube 908 can gradually withdraw from the inside of the rubber sealing ring 906 under the action of gravity and fall into the collecting tube 913 together with the movable limiting sheet 907 to finish sampling of a gel finished product;

through the linkage design of the rotary valve column 903, the rotary rod 909, the torsion rod 910 and the clamping column 911, the liquid discharge hole 904 is sealed while the sampling tube 908 is taken down, so that the gel in transportation can be effectively prevented from being transported in a sealed environment all the time, the pollution to the gel in the sampling process is avoided, and the sampling safety is effectively improved;

the outlet of the manual sealing valve 915 is connected with a residue collection preventing mechanism 10 through a pipeline;

the residue-preventing collecting mechanism 10 comprises a threaded connector 1001, a mounting head 1002, a sealing plate 1003, a material guiding hose 1004, a limiting ring 1005, a collecting barrel 1006, a sealing pipe 1007, a lower magnetic ring 1008, an upper magnetic ring 1009, a sealing sleeve 1010, a carrying handle 1011, a lifting ring 1012 and a leakage-preventing valve 1013;

an outlet of the manual sealing valve 915 is fixedly connected with a threaded connector 1001 through a pipeline, the bottom end of the threaded connector 1001 is connected with a mounting head 1002 through threads, the edge portion of the bottom end of the mounting head 1002 is fixedly connected with a sealing plate 1003, the middle portion of the bottom end of the sealing plate 1003 is connected with a material guiding hose 1004, the edge portion of the bottom end of the material guiding hose 1004 is fixedly connected with a limiting ring 1005, the bottom portion of the outer side of the material guiding hose 1004 is movably connected with a collecting barrel 1006, the top end of the collecting barrel 1006 is fixedly connected with a sealing pipe 1007 at a position corresponding to the outer side of the material guiding hose 1004;

a sealing sleeve 1010 is bonded at the bottom end of the sealing plate 1003 corresponding to the edge of the bottom end of the material guiding hose 1004, a carrying handle 1011 is fixedly connected between the bottom end of the sealing sleeve 1010 and the inner wall of the sealing tube 1007, a lifting ring 1012 is fixedly connected to the outer side of the collecting barrel 1006 in the circumferential direction, a leakage-proof valve 1013 is fixedly connected to the middle of the bottom end of the collecting barrel 1006, the shape and the size of the lower magnetic ring 1008 are the same as those of the upper magnetic ring 1009, the magnetic poles of the opposite surfaces of the lower magnetic ring 1008 and the upper magnetic ring 1009 are opposite, the threaded connector 1001 is mounted at the bottom of the manual sealing valve 915 through bolts, the material guiding hose 1004 is communicated with the threaded connector 1001 through the mounting head 1002, so that after the manual sealing valve 915 is opened, gel in the conveying pipeline enters the collecting barrel 1006, the mounting head 1002 is more conveniently connected through the material guiding hose 1004 which is connected in a sliding manner, after the gel is conveyed, the mounting head 1002 can be directly detached from the threaded connector 1001, the whole material guiding hose 1004 is accommodated in the collecting barrel 1006, and the positions of the mounting head 1002 and the sealing plate 1003 are fixed through the lower magnetic ring 1008 and the upper magnetic ring 1009, so that gel waste caused by adhesion of the inner wall of the material guiding hose 1004 is effectively avoided, and the conveying process of the gel is optimized;

simultaneously through carrying 1011 and the effect that plays rings 1012, make collecting vessel 1006 both can transport through artifical carrier liquid also can be through lifting by crane equipment to the transportation of collecting vessel 1006 has been optimized.

The working principle and the using process of the invention are as follows: in the practical application process of the invention, in the production process of gynecological gel, various raw materials are required to be added into the mixing cylinder 2, before the raw materials are added into the mixing cylinder 2, the rotating motor 502 is started, the driving belt pulley 503 is driven to rotate by the rotating motor 502, the driven belt pulley 506 is driven to rotate by the matching of the limiting belt pulley 504 and the driving belt 507, so that the discharging pipe 505 and all components fixedly connected with the discharging pipe 505 are driven to rotate by the driven belt pulley 506, the raw materials can be directly poured into the protective cylinder 512 after the sealing cover 514 is opened, the raw materials enter the material guide hopper 509 from the top of the conical top 511 under the guiding of the material guide inclined ring 513 and are diffused to the bottom end part of the material guide hopper 509 under the action of the material guide cone 510, and meanwhile, the viscous raw materials generate a downward acting force under the action of centrifugal force due to the rotation of the conical top 511 of the material guide, furthermore, raw materials are effectively prevented from being adhered to the inner walls of the material guide hopper 509 and the conical top 511, waste of the raw materials is avoided, meanwhile, the discharging cone box 508 is driven by the discharging pipe 505 to rotate, the raw materials can be thrown out of a discharging hole in the edge part of the bottom end of the discharging cone box 508 in a filiform shape after entering the discharging cone box 508 and are added into the mixing cylinder 2, rapid and uniform feeding is realized, the raw materials in the mixing cylinder 2 can be dispersed more uniformly before being stirred, and burden of subsequent stirring is indirectly shortened;

after the raw materials are added into the mixing cylinder 2, the raw materials are required to be mixed, so that the raw materials can be uniformly mixed, firstly, the electromagnet ring 406 is closed, the sliding circular frame 404 falls to the top of the sliding groove 402 under the action of gravity and is communicated with the two sides of the isolation barrel 401 through the liquid through micropores 403, the electric telescopic rod 407 is started to extend downwards, the fixed circular plate 408, the sealing circular block 410, the guide sliding rod 411, the floating circular plate 412, the floating circular ring 414 and the floating block 415 are driven to move downwards simultaneously, after the floating circular ring 414 and the floating block 415 are contacted with the top of the liquid raw materials in the mixing cylinder 2, an upward buoyancy is generated on the floating circular plate 412, so that the floating circular plate 412 overcomes the action of the gravity to keep a suspended state, meanwhile, the fixed circular plate 408 continues to move downwards under the action of the electric telescopic rod 407, and further, the distance between the fixed circular plate 408 and the, meanwhile, the sealing round block 410 is gradually inserted into the lower through hole 413, so that the fixed round plate 408 and the floating round plate 412 form a liquid-impermeable pressing plate together, the fixed round plate 408 and the floating round plate 412 overcome buoyancy to continuously press down under the action of the electric telescopic rod 407, so that the raw materials at the bottom of the mixing cylinder 2 are forced to enter a gap between the isolation barrel 401 and the mixing cylinder 2 and rise along the inner wall of the mixing cylinder 2, and finally are uniformly sprayed to the middle part from the inner wall of the isolation barrel 401 through the liquid-through micropores 403, so that the raw material jet flows are fully mixed during collision;

after the electric telescopic rod 407 extends to the farthest distance, the electric telescopic rod starts to shorten again, and meanwhile, the liquid at the top end of the fixed circular plate 408 generates a downward pressure to the floating circular plate 412 through the upper through hole 409, so that the floating circular plate 412 overcomes buoyancy and starts to be away from the fixed circular plate 408 under the combined action of the pressure and gravity, and the sealing circular block 410 gradually exits from the lower through hole 413, so that the liquid on the upper layer of the fixed circular plate 408 flows downwards through the upper through hole 409 and the lower through hole 413, and simultaneously, due to the mutual offset of the positions of the upper through hole 409 and the lower through hole 413, the path is irregularly changed when the liquid flows between the upper through hole 409 and the lower through hole 413, and the raw materials are further mixed;

During the stirring process of gynecological gel, the viscosity of the gel can be reduced through heating, the fluidity of the gel is improved, water in the water storage tank 606 is introduced into the heating tank 608 through the infusion pump 607, the water is heated under the action of the electric heating rod 609 in the heating tank 608, enters the arc-shaped heating box 602 through the liquid inlet arc-shaped pipe 610, slowly rises along the arc-shaped heating box 602, and finally returns to the inside of the water storage tank 606 of the return pipe 612 through the liquid outlet arc-shaped pipe 611, so that the uniform heating of the mixing cylinder 2 is realized, the fluidity of the gel is improved, and the stirring efficiency of the gel is indirectly improved;

After the gel in the mixing cylinder 2 is mixed, the electric sealing valve 7 is opened, and the delivery pump 8 is started to discharge the gel in the mixing cylinder 2, when the gel flows through the upper connecting base 901, it flows through the drain hole 904 through the inside of the rotary spool 903 and into the sampling tube 908, after the gel of the sampling tube 908 is accumulated to one half of the total volume, the twisting rod 910 is rotated to drive the rotating valve spool 903, the rotating rod 909 and the clamping post 911 to rotate, the rotating valve spool 903 and the rotating rod 909 can seal the drainage hole 904 after rotating along the inner wall of the rotating hole 902, the synchronous clamping post 911 can deflect along the central axis of the rotating rod 909, after the clamping post 911 leaves the bottom of the movable stopper 907, the sampling tube 908 gradually withdraws from the inside of the rubber sealing ring 906 under the action of gravity, and falls into the collection tube 913 together with the movable limiting sheet 907 to finish the sampling of the gel finished product;

through the linkage design of rotating valve post 903, dwang 909, twist pole 910 and clamping column 911, seal the outage 904 when taking off the sampling tube 908, the effectual gel of having avoided in the transportation can be transported in a sealed environment always to avoid the sampling in-process to cause the pollution to the gel, the security of effectual improvement sample.

After the gel detection and sampling are completed, the gel can be transported into the collecting barrel 1006 to be stored for standby, and because the gel in the transportation process is gradually cooled and the viscosity is increased, a large amount of gel remains on the inner wall of the pipeline, the threaded connector 1001 is installed at the bottom of the manual sealing valve 915 through bolts, the material guiding hose 1004 is communicated with the threaded connector 1001 through the installing head 1002, so that the gel in the transportation pipeline enters the collecting barrel 1006 after the manual sealing valve 915 is opened, the installing head 1002 is more conveniently connected through the material guiding hose 1004 in a sliding connection manner, the sealing plate 1003, the sealing sleeve 1010 and the sealing pipe 1007 are used for sealing and protecting the outer side of the sealing plate 1003, the material guiding hose 1004 is effectively prevented from being damaged by the outside, after the gel transportation is completed, the installing head 1002 can be directly detached from the threaded connector 1001, and the whole material guiding hose 1004 is stored into the collecting barrel 1006, the positions of the mounting head 1002 and the sealing plate 1003 are fixed through the lower magnetic ring 1008 and the upper magnetic ring 1009, so that gel waste caused by adhesion of the inner wall of the material guide hose 1004 is effectively avoided, and the conveying process of gel is optimized;

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 method of the anti-inflammatory gynecological gel is characterized by comprising the following steps:

s2, adding raw materials: various raw materials are quickly and uniformly added into the mixing cylinder (2) through the convenient uniformly-distributed feeding mechanism (5);

s3, mixing the raw materials: the raw materials added into the mixing cylinder (2) are mixed together by the efficient mixing mechanism (4), and the raw materials in the mixing cylinder (2) are heated by the circulating heating mechanism (6) to improve the fluidity of the raw materials, so that a gel finished product can be obtained after a period of mixing;

s4, detection and collection: the mixed raw materials are subjected to sampling inspection and detection through a convenient sampling mechanism (9), and after the raw materials are qualified, gel finished products are collected through a residue prevention collecting mechanism (10) and are transported to subpackaging equipment;

2. The preparation method of the anti-inflammatory gynecological gel according to claim 1, characterized in that the bottom end edge of the mixing cylinder (2) is welded with an installation chassis (1), one side of the installation chassis (1) is welded with a placing platform (3), and the inner side of the mixing cylinder (2) is provided with a high-efficiency mixing mechanism (4);

the efficient mixing mechanism (4) comprises an isolation barrel (401), a sliding groove (402), a liquid through micro hole (403), a sliding circular frame (404), a driving iron ring (405), an electromagnet ring (406), an electric telescopic rod (407), a fixed circular plate (408), an upper through hole (409), a sealing circular block (410), a guide sliding rod (411), a floating circular plate (412), a lower through hole (413), a buoyancy ring (414) and a buoyancy block (415);

the middle part of the inner side of the mixing cylinder (2) is fixedly connected with an isolation barrel (401), the top of a gap between the isolation barrel (401) and the mixing cylinder (2) is completely sealed, a through notch is uniformly formed in the bottom of the gap, a sliding groove (402) is formed in the top of the inner side of the isolation barrel (401), liquid through micropores (403) are uniformly formed in the circumferential direction of the inner wall of the sliding groove (402) in a penetrating manner, a sliding circular frame (404) is slidably connected to the inner side of the sliding groove (402), a driving iron ring (405) is embedded and installed at the top end edge part of the sliding circular frame (404), an electromagnet ring (406) is fixedly connected to the top end edge part of the mixing cylinder (2), and the input end of the electromagnet ring (406);

an electric telescopic rod (407) is fixedly connected to the middle of the top end of the inner side of the mixing cylinder (2), the input end of the electric telescopic rod (407) is electrically connected with the output end of a mains supply, a fixed circular plate (408) is fixedly connected to the middle of the bottom end of the electric telescopic rod (407), upper through holes (409) are uniformly formed in the top end of the fixed circular plate (408), and sealing circular blocks (410) are uniformly and fixedly connected to positions, corresponding to the upper through holes (409), of the bottom end of the upper through holes (409);

the utility model discloses a floating energy-saving device, including fixed plectane (408) middle part, electric telescopic handle (407) limit portion circumferencial direction even swing joint has guide slide bar (411), guide slide bar (411) bottom fixedly connected with float plectane (412), through-hole (413) have been seted up down to float plectane (412) top correspondence sealed round piece (410) bottom position department, float plectane (412) bottom middle part corresponds through-hole (413) one side position department and bonds and has buoyancy ring (414) down, float plectane (412) bottom limit portion corresponds through-hole (413) one side position department and bonds and has buoyancy piece (415) down.

3. The preparation method of the anti-inflammatory gynecological gel according to claim 2, wherein the outer side of the sliding circular frame (404) is closely attached to the inner wall of the sliding groove (402), the inner wall of the sliding circular frame (404) is flush with the inner wall of the isolation barrel (401), and the sliding circular frame (404) can slide along the axial direction of the isolation barrel (401);

the side surfaces of the fixed circular plate (408) and the floating circular plate (412) are tightly attached to the inner wall of the isolation barrel (401), the fixed circular plate (408) and the floating circular plate (412) are in sliding connection with the isolation barrel (401), and a limiting circular plate is arranged at the position, corresponding to the top of the fixed circular plate (408), of the top end of the guide sliding rod (411);

the lower through hole (413) and the sealing circular block (410) have the same size, and the density of the buoyancy ring (414) and the buoyancy block (415) is smaller than that of the floating circular plate (412).

4. The preparation method of an anti-inflammatory gynecological gel according to claim 2, characterized in that a convenient and uniform distribution feeding mechanism (5) is arranged at the top end of the mixing cylinder (2);

the convenient uniform distribution feeding mechanism (5) comprises a mounting vertical plate (501), a rotating motor (502), a driving belt pulley (503), a limiting belt pulley (504), a discharging pipe (505), a driven belt pulley (506), a transmission belt (507), a discharging cone box (508), a material guide hopper (509), a material guide cone (510), a cone top (511), a protective cylinder (512), a material guide inclined ring (513) and a sealing cover (514);

the automatic feeding device is characterized in that an installation vertical plate (501) is welded on one side of the top end of the mixing cylinder (2), a rotating motor (502) is fixedly connected on one side of the installation vertical plate (501), the input end of the rotating motor (502) is electrically connected with the output end of an external power supply, a driving belt pulley (503) is fixedly connected on the outer side of an output shaft of the rotating motor (502), a limiting belt pulley (504) is rotatably connected in the circumferential direction of the top end of the mixing cylinder (2) through a rotating shaft, a discharging pipe (505) is uniformly and rotatably connected in the circumferential direction of the top end of the mixing cylinder (2), a driven belt pulley (506) is fixedly connected on the outer side of the discharging pipe (505) corresponding to the position of the top of the outer side of the mixing cylinder (2), and a;

the utility model discloses a material mixing device, including unloading pipe (505), guide hopper (509), guide cone (510), guide hopper (509), material guide hopper (509) and guide cone (508), the top fixedly connected with toper top (511) of guide hopper (509) are fixed on the bottom of unloading pipe (505) and correspond mixing cylinder (2) inside position department, mixing cylinder (2) top corresponds guide hopper (509) outside position department fixedly connected with protection tube (512), protection tube (512) inboard corresponds toper top (511) top position department fixedly connected with guide inclined ring (513), protection tube (512) top has sealed lid (514) through threaded connection.

5. The method for preparing an anti-inflammatory gynecological gel according to claim 4, wherein the centers of the limiting pulley (504) and the driving pulley (503) are all distributed on the edge line of a distribution circle with the same diameter, the centers of the limiting pulley (504) and the driving pulley (503) are equally distributed along the circumferential direction of the distribution circle, and the limiting pulley (504), the driving pulley (503) and the driven pulley (506) are all located at the same height;

the material discharging cone box (508) is uniformly provided with material discharging holes in the circumferential direction of the bottom of the outer side, and the diameter of a bottom outlet of the material guiding inclined ring (513) is smaller than that of an inlet at the top end of the conical top (511).

6. The preparation method of an anti-inflammatory gynecological gel according to claim 2 characterized in that a circulation heating mechanism (6) is arranged outside the mixing cylinder (2);

the circulating heating mechanism (6) comprises a supporting ring (601), an arc-shaped heating box (602), a positioning groove (603), a clamping buckle (604), a fixing bolt (605), a water storage tank (606), an infusion pump (607), a heating tank (608), an electric heating rod (609), a liquid inlet arc-shaped pipe (610), a liquid outlet arc-shaped pipe (611) and a return pipe (612);

the top of the outer side of the mixing cylinder (2) is welded with a supporting circular ring (601), arc-shaped heating boxes (602) are symmetrically arranged at positions, corresponding to the top of the supporting circular ring (601), of the outer side of the mixing cylinder (2), positioning grooves (603) are formed in two sides of each of the two arc-shaped heating boxes (602), clamping buckles (604) are movably connected to the inner sides of the positioning grooves (603), and the two arc-shaped heating boxes (602) are fixedly connected through fixing bolts (605);

a water storage tank (606) is arranged on the top surface of the placing platform (3), the middle part of the top end of the water storage tank (606) is connected with a liquid delivery pump (607) through a pipeline, the input end of the infusion pump (607) is electrically connected with the output end of an external power supply, the top end of the infusion pump (607) is fixedly connected with a heating box (608) through a pipeline, the inner side of the heating box (608) is uniformly provided with electric heating rods (609), the input ends of the electric heating rods (609) are electrically connected with the output end of an external power supply, the top end of the heating box (608) is fixedly connected with a liquid inlet arc-shaped pipe (610) through a pipeline corresponding to the bottom of the inner side of the arc-shaped heating box (602), the top of the inner side of the arc-shaped heating box (602) is fixedly connected with a liquid outlet arc-shaped pipe (611), one end of the arc-shaped liquid outlet pipe (611) is fixedly connected with a return pipe (612), and the bottom end of the return pipe (612) is communicated with the water storage tank (606).

7. The preparation method of an anti-inflammatory gynecological gel according to claim 2, wherein an electric sealing valve (7) is fixedly connected to the middle of the bottom end of the mixing cylinder (2), a delivery pump (8) is fixedly connected to the position of the outlet of the electric sealing valve (7) through a pipeline, the input end of the delivery pump (8) is electrically connected to the output end of an external power supply, and the bottom end of the delivery pump (8) is connected to a convenient sampling mechanism (9) through a pipeline;

the convenient sampling mechanism (9) comprises an upper connecting seat (901), a rotating hole (902), a rotating valve column (903), a liquid discharge hole (904), a fixed limiting block (905), a rubber sealing ring (906), a movable limiting sheet (907), a sampling tube (908), a rotating rod (909), a twisting rod (910), a clamping column (911), a lower connecting seat (912), a collecting tube (913), a buffer ring (914), a manual sealing valve (915), a limiting cover (916) and a glass guide tube (917);

the bottom end of the delivery pump (8) is fixedly connected with an upper connecting seat (901) through a pipeline, the middle part of the bottom end of the upper connecting seat (901) is fixedly connected with a glass guide pipe (917), and the bottom end of the glass guide pipe (917) is fixedly connected with a lower connecting seat (912);

rotating holes (902) are uniformly formed in the circumferential direction of the bottom end of the outer side of the upper connecting seat (901), a rotating valve column (903) is movably connected inside the rotating holes (902), liquid discharging holes (904) are formed in the top end and the bottom end of each rotating hole (902), a fixed limiting block (905) is fixedly connected to the position, corresponding to the bottom end of each liquid discharging hole (904), of the edge of the bottom end of the upper connecting seat (901), and a rubber sealing ring (906) is bonded to the bottom of the inner side of each liquid discharging hole (904);

the bottom of the fixed limiting block (905) is movably connected with a movable limiting piece (907), and one end of the movable limiting piece (907) is fixedly connected with a sampling tube (908);

a rotating rod (909) is fixedly connected to the middle of one end of the rotating valve column (903), a limiting cover (916) is movably connected to the position, corresponding to one end of the rotating valve column (903), of the outer side of the rotating rod (909), a twisting rod (910) is fixedly connected to one end of the rotating rod (909), and a clamping column (911) is fixedly connected to the position, corresponding to the bottom of the movable limiting piece (907), of the bottom end of one side of the twisting rod (910);

the collecting pipe (913) is arranged at the position, corresponding to the bottom end of the sampling pipe (908), of the top end of the lower connecting seat (912), a buffering ring (914) is bonded to the bottom of the inner side of the collecting pipe (913), and the bottom end of the lower connecting seat (912) is connected with a manual sealing valve (915) through a pipeline.

8. The preparation method of an anti-inflammatory gynecological gel according to claim 7, wherein the drainage hole (904) and the inner cavity of the upper connecting seat (901) and the rotation hole (902) are provided, the drainage hole (904) corresponds to the through hole of the rotation valve column (903), the top of the outer side of the sampling tube (908) is tightly attached to the inner side of the rubber sealing ring (906), and the limit cover (916) is connected to one end of the rotation hole (902) through threads;

the outer side of the clamping column (911) is tightly attached to the bottom of the movable limiting sheet (907).

9. The process for the preparation of an anti-inflammatory gynaecological gel according to claim 7, wherein the outlet of the manual sealing valve (915) is connected by a pipe to a collection means (10) for preventing residues;

the residue-preventing collecting mechanism (10) comprises a threaded connector (1001), a mounting head (1002), a sealing plate (1003), a material guiding hose (1004), a limiting ring (1005), a collecting barrel (1006), a sealing pipe (1007), a lower magnetic ring (1008), an upper magnetic ring (1009), a sealing sleeve (1010), a carrying handle (1011), a lifting ring (1012) and a leakage-preventing valve (1013);

an outlet of the manual sealing valve (915) is fixedly connected with a threaded connector (1001) through a pipeline, the bottom end of the threaded connector (1001) is connected with a mounting head (1002) through threads, the bottom end part of the mounting head (1002) is fixedly connected with a sealing plate (1003), the middle part of the bottom end of the sealing plate (1003) is connected with a material guiding hose (1004), the bottom end part of the material guiding hose (1004) is fixedly connected with a limiting ring (1005), the bottom of the outer side of the material guiding hose (1004) is movably connected with a collecting barrel (1006), the top end of the collecting barrel (1006) is fixedly connected with a sealing pipe (1007) at a position corresponding to the outer side of the material guiding hose (1004), the top end of the sealing pipe (1007) is fixedly connected with a lower magnetic ring (1008;

sealing plate (1003) bottom corresponds guide hose (1004) bottom limit portion bonding has seal cover (1010), fixed connection transport (1011) between seal cover (1010) bottom and sealed tube (1007) inner wall, the fixed circumferencial direction fixedly connected with in collecting vessel (1006) outside has rings (1012), collecting vessel (1006) bottom middle part fixedly connected with leak protection valve (1013).

10. The preparation method of an anti-inflammatory gynecological gel as claimed in claim 9, wherein the shape and size of the lower magnetic ring (1008) is the same as that of the upper magnetic ring (1009), and the magnetic poles of the opposite surfaces of the lower magnetic ring (1008) and the upper magnetic ring (1009) are opposite.