阅读说明：本技术 一种生物大分子类药物加工设备 (Biomacromolecule medicine processing equipment ) 是由 王晓芳 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种生物大分子类药物加工设备,其结构包括进料口、驱动块、操作箱、闭合门,驱动块安装在操作箱上,操作箱与驱动块活动连接,操作箱上安装有进料口,进料口与操作箱相连接,操作箱上设有闭合门,闭合门与操作箱间隙配合,本发明将过滤结构安装在安装器上,加工药物导入过滤盒内后,通过安装体带动过滤盒滚动,使沉淀物在过滤盒内滑动,便可防止沉淀物堆积在过滤盒内,导致沉淀物因堆积而封堵住过滤盒的滤口,再者滤盒滚动时,滤液会受到离心力的影响,被甩出过滤盒,进一步减少沉淀物内的滤液含量,因滤液的减少,便可减少设备所需的烘干时间。(The invention discloses a biomacromolecule medicine processing device, which structurally comprises a feed inlet, a driving block, an operation box and a closing door, wherein the driving block is arranged on the operation box, the operation box is movably connected with the driving block, the feed inlet is arranged on the operation box, the feed inlet is connected with the operation box, the closing door is arranged on the operation box, the closing door is in clearance fit with the operation box, a filtering structure is arranged on an installer, after processed medicines are guided into the filtering box, the filter box is driven by the mounting body to roll, so that the sediment slides in the filter box, the sediment can be prevented from being accumulated in the filter box, the filter opening of the filter box is blocked by the sediment due to accumulation, when the filter box rolls, the filtrate can be thrown out of the filter box under the influence of centrifugal force, so that the content of the filtrate in the precipitate is further reduced, and the drying time required by the equipment can be reduced due to the reduction of the filtrate.)

1. A biological macromolecule medicine processing device is characterized in that: the structure of the device comprises a feeding hole (1), a driving block (2), an operation box (3) and a closing door (4), wherein the driving block (2) is installed on the operation box (3), the feeding hole (1) is connected with the operation box (3), and the closing door (4) is arranged on the operation box (3);

operation box (3) are equipped with reagent chamber (3a), box (3b), hybrid chamber (3c), clean liquid chamber (3d), filtrating chamber (3e), operation ware (3f), the body of drying (3g), sensing piece (3h), box (3b) inside is equipped with reagent chamber (3a), box (3b) and hybrid chamber (3c) swing joint, install on box (3b) operation ware (3f), box (3b) and filtrating chamber (3e) clearance fit, box (3b) inside is equipped with clean liquid chamber (3d), box (3b) and the gomphosis of the body of drying (3g), install sensing piece (3h) on hybrid chamber (3 c).

2. The apparatus for processing biological macromolecular drugs according to claim 1, wherein: the manipulator (3f) is provided with a guide plate (f1), a filter box (f2), an installer (f3) and an operation block (f4), the guide plate (f1) is provided with the operation block (f4), and the installer (f3) is embedded with the filter box (f 2).

3. The apparatus for processing biological macromolecular drugs according to claim 2, wherein: installer (f3) is equipped with closing piece (f31), treater (f32), mounting panel (f33), the installation body (f34), blender (f35), rotor plate (f36), installation piece (f37), treater (f32) and closing piece (f31) clearance fit, install installation body (f34) on mounting panel (f33), installation piece (f37) is connected with installation body (f34), rotor plate (f36) is established on installation body (f34), installation body (f34) and blender (f35) gomphosis.

4. The biomolecular drug processing device according to claim 3, wherein: the mounting block (f37) is provided with a movable cavity, and a connecting column is arranged inside the movable cavity of the mounting block (f 37).

5. The biomolecular drug processing device according to claim 3, wherein: the processor (f32) is provided with an assembly plate (321), an assembly block (322), an assembly shaft (323), an extension block (324), an adjustment channel (325), an adjustment shaft (326) and an extension shaft (327), wherein the adjustment channel (325) is provided with the adjustment shaft (326), the assembly plate (321) is in clearance fit with the assembly shaft (323), the assembly block (322) is arranged at the center of the assembly plate (321), and the extension shaft (327) is connected with the extension block (324).

6. The apparatus for processing biological macromolecular drugs according to claim 5, wherein: the extension block (324) is provided with a connecting block, and the center of the connecting block of the extension block (324) is provided with a semicircular protruding block.

7. The biomolecular drug processing device according to claim 3, wherein: the blender (f35) is provided with a combination block (351), a blending shaft (352), a blending block (353), a processing block (354) and a combination shaft (355), the combination block (351) is arranged on the combination shaft (355), the combination block (351) is movably clamped with the processing block (354), and the blending block (353) is arranged on the blending shaft (352).

8. The apparatus for processing biological macromolecular drugs according to claim 7, wherein: a connecting cavity is arranged inside the stirring shaft (352), and a connecting plate is arranged on the connecting cavity of the stirring shaft (352).

Technical Field

The invention relates to the technical field of research and development of biomacromolecule medicines, in particular to biomacromolecule medicine processing equipment.

Background

The biomacromolecule medicines are biomacromolecules which are produced by a modern biotechnology method, are derived from organisms and are used for diagnosis, treatment or prevention of diseases, are also called as biotechnology medicines in a narrow sense, and when certain specific disease medicines, such as anti-osteoporosis medicines, are prepared, biomacromolecule medicine processing equipment is required to be introduced to carry out pure processing on potassium etidronate powder required by medicine preparation;

the macromolecule medicine processing equipment guides potassium dihydrogen phosphate powder into the filter box to filter filtrate, the potassium dihydrogen phosphate powder is gradually precipitated on the filter box when the filtrate is filtered, a filter opening at a precipitation end of the filter box is blocked, the content of the filtrate in the precipitate is excessive, and the drying time required by the equipment is prolonged when the potassium dihydrogen phosphate powder is dried.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the structure of the processing equipment for the biomacromolecule medicines comprises a feeding port, a driving block, an operation box and a closing door, wherein the driving block is arranged on the operation box, the operation box is movably connected with the driving block, the feeding port is arranged on the operation box, the feeding port is connected with the operation box, the closing door is arranged on the operation box, and the closing door is in clearance fit with the operation box;

the operation box is equipped with reagent chamber, box, hybrid chamber, clean sap cavity, filtrating chamber, operation ware, the body of drying, sensing piece, the inside reagent chamber that is equipped with of box, the reagent chamber is connected with the box, the hybrid chamber is installed inside the box, box and hybrid chamber swing joint, the operation ware is installed on the box, the box is connected with the operation ware, the filtrating chamber is established inside the box, box and filtrating chamber clearance fit, the inside clean sap cavity that is equipped with of box, clean sap cavity and box activity block, the body of drying is established on the box, box and the gomphosis of the body of drying, install the sensing piece on the hybrid chamber, sensing piece and hybrid chamber swing joint.

As a further optimization of the technical scheme, the manipulator is provided with a guide plate, a filter box, an installer and an operation block, the guide plate is provided with the operation block, the operation block is in clearance fit with the guide plate, the filter box is provided with the installer, the installer is embedded with the filter box, the filter box is of a cylindrical filter barrel structure, the filter box is provided with two connecting plates, the connecting plates of the filter box are provided with arc-shaped notches, the filter box is provided with a circular hollowed opening, the wall body of the circular hollowed opening of the filter box is provided with threads, the filter box is provided with a square groove, the guide plate is provided with a guide groove opening, two sides of the operation block are provided with chutes, the operation block is movably clamped with an arc-shaped sheet, and the operation block is embedded on the guide groove opening of the guide plate.

As a further optimization of the technical scheme, the installer is provided with a sealing block, a processor, a mounting plate, a mounting body, a blender, a rotating plate and a mounting block, the sealing block is provided with the processor, the processor is in clearance fit with the sealing block, the mounting body is mounted on the mounting plate and is movably clamped with the mounting plate, the mounting body is provided with the mounting block, the mounting block is connected with the mounting body, the rotating plate is arranged on the mounting body, the mounting body is movably connected with the rotating plate, the blender is arranged on the mounting body, the mounting body is embedded with the blender, the sealing block is embedded on an arc-shaped notch of a connecting plate of the filter box, the sealing block is provided with a square groove, and the mounting plate is movably connected with the mounting body through a connecting shaft.

As the further optimization of this technical scheme, be equipped with movable cavity on the installation piece, the inside spliced pole that is equipped with of installation piece movable cavity, be equipped with square protruding piece on the spliced pole of installation piece, the central point that the installation body was established respectively to the installation piece puts and the periphery, be equipped with the rotation recess on the rotor plate, the rotor plate is connected with the installation piece of establishing at installation body central point and putting, be equipped with the slip track on the activity chamber of installation piece, the spliced pole of installation piece passes through loose axle and activity chamber sliding connection.

As a further optimization of the technical scheme, the processor is provided with an assembly plate, an assembly block, an assembly shaft, an extension block, an adjustment channel, an adjustment shaft and an extension shaft, wherein the adjustment channel is provided with the adjustment shaft, the adjustment shaft is slidably connected with the adjustment channel, the assembly plate is arranged on the assembly shaft, the assembly plate is in clearance fit with the assembly shaft, the assembly block is arranged at the center of the assembly plate and movably clamped with the assembly plate, the extension shaft is arranged in the extension block and connected with the extension block, the adjustment channel is an arc shaft body, a pulley is arranged on the adjustment shaft, an assembly gap is arranged on the assembly plate, the assembly block is provided with a connecting rod, one end of the assembly block connecting rod is provided with a square protruding block, the other end of the assembly block connecting rod is provided with a semicircular connecting block, and the center of the semicircular connecting block is provided with an arc groove, the outward flange of the semicircular connecting block of equipment piece is equipped with the circular arc connecting axle, be equipped with the spliced pole on the circular arc connecting axle of equipment piece, the spliced pole of equipment piece is the spiral cylinder of making by the copper wire, the other end of equipment piece spliced pole is established on the equipment board, the equipment breach of the outstanding equipment board of semicircular connecting block of equipment piece, the equipment axle is the ring connecting axle, the epaxial arc recess that is equipped with of equipment, the equipment board passes through the loose axle gomphosis on the arc recess of equipment axle.

As a further optimization of this technical scheme, be equipped with the connecting block on the extension piece, the central point that extends the piece connecting block puts and is equipped with semi-circular protruding piece, the both sides that extend the piece connecting block all are equipped with the spliced pole, be equipped with the fretwork notch on the spliced pole that extends the piece, extend the axle gomphosis on the fretwork notch that extends the piece spliced pole, extend epaxial slide that is equipped with, the spliced pole that extends the piece passes through the sliding shaft gomphosis on the slide that extends the axle.

As a further optimization of the technical proposal, the blender is provided with a combination block, a blending shaft, a blending block, a processing block and a combination shaft, the combined shaft is provided with a combined block which is in clearance fit with the combined shaft, the processing block is provided with a combined block, the combination block is movably clamped with the processing block, the stirring block is arranged on a stirring shaft, the stirring shaft is embedded with the stirring block, the combination block is a circular plate, the circular plate of the combination block is provided with a thread strip, the combination block is provided with a movable cavity, a rotating handle is arranged in the movable cavity of the combination block, a square groove is arranged at one end of the combination shaft facing the mounting block, the combined shaft is provided with a movable groove towards one end of the processing block, the movable groove of the processing block is provided with a connecting block, the connecting block is provided with a threaded groove, and threaded cylinders are arranged on two sides of the processing block.

As a further optimization of the technical scheme, a connecting cavity is arranged inside the mixing shaft, a connecting plate is arranged on the connecting cavity of the mixing shaft, a spiral column made of copper wires is arranged on the connecting plate of the mixing shaft, a movable block is arranged at the other end of the spiral column of the mixing shaft, the movable block of the mixing shaft is embedded inside the connecting cavity of the mixing shaft, the mixing block is connected with the movable block of the mixing shaft through a connecting wire body, an inclined connecting body is arranged on the movable block of the mixing shaft, the mixing block is a ball connecting block, and a solid ball is arranged at the junction of the connecting plate of the mixing shaft and the movable block.

Advantageous effects

Compared with the prior art, the processing equipment for the biomacromolecule medicines has the following advantages:

1. according to the invention, the filter structure is arranged on the mounting device, after the processing medicine is introduced into the filter box, the filter box is driven to roll by the mounting body, so that the precipitate slides in the filter box, the precipitate can be prevented from being accumulated in the filter box, the precipitate can block the filter opening of the filter box due to accumulation, and when the filter box rolls, the filtrate can be thrown out of the filter box under the influence of centrifugal force, so that the filtrate content in the precipitate is further reduced, and the drying time required by equipment can be reduced due to the reduction of the filtrate.

2. According to the invention, the stirring body is arranged on the filter box, when the device is dried, the medicine powder is stirred by the stirring body, so that the situation that the powder is accumulated in the precipitate and cannot be completely dried is prevented, the powder which is condensed into blocks can be smashed by the extending and striking of the stirring block, and the situation that the medicine which is clamped in the powder blocks is not dried due to the fact that the powder is condensed into blocks when the medicine powder is dried is prevented.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of the overall structure of a biomacromolecule drug processing device according to the present invention.

Fig. 2 is a schematic structural diagram of the operation box of the invention.

Fig. 3 is a schematic structural diagram of the manipulator of the present invention.

Fig. 4 is a schematic diagram of the mounter structure of the present invention.

FIG. 5 is a diagram of a processor according to the present invention.

Fig. 6 is a schematic view of the blender structure of the present invention.

In the figure: the device comprises a feed inlet 1, a driving block 2, an operation box 3, a closing door 4, a reagent cavity 3a, a box body 3b, a mixing cavity 3c, a cleaning liquid cavity 3d, a filtrate cavity 3e, an operator 3f, a drying body 3g, a sensing block 3h, a guide plate f1, a filter box f2, a mounting device f3, an operation block f4, a sealing block f31, a processor f32, a mounting plate f33, a mounting body f34, a blender f35, a rotating plate f36, a mounting block f37, an assembling plate 321, an assembling block 322, an assembling shaft 323, an extending block 324, an adjusting channel 325, an adjusting shaft 326, an extending shaft 327, a combining block 351, a blending shaft 352, a blending block 353, a processing block 354 and a combining shaft 355.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, a biomacromolecule medicine processing device structurally comprises a feed port 1, a driving block 2, an operation box 3 and a closing door 4, wherein the driving block 2 is installed on the operation box 3, the operation box 3 is movably connected with the driving block 2, the feed port 1 is installed on the operation box 3, the feed port 1 is connected with the operation box 3, the closing door 4 is arranged on the operation box 3, and the closing door 4 is in clearance fit with the operation box 3;

the operation box 3 is provided with a reagent cavity 3a, a box body 3b, a mixing cavity 3c, a cleaning liquid cavity 3d, a filtrate cavity 3e, an operator 3f, a drying body 3g and a sensing block 3h, the reagent cavity 3a is arranged in the box body 3b, the reagent cavity 3a is connected with the box body 3b, the mixing cavity 3c is arranged in the box body 3b, the box body 3b is movably connected with the mixing cavity 3c, the operator 3f is arranged on the box body 3b, the box body 3b is connected with the operator 3f, the filtrate cavity 3e is arranged in the box body 3b, the box body 3b is in clearance fit with the filtrate cavity 3e, the cleaning liquid cavity 3d is arranged in the box body 3b, the cleaning liquid cavity 3d is movably clamped with the box body 3b, the drying body 3g is arranged on the box body 3b, the box body 3b is embedded with the drying body 3g, the sensing block 3h is arranged on the mixing cavity 3c, the sensing block 3h is movably connected with the mixing cavity 3c, and solid medicines are processed.

The manipulator 3f is provided with a guide plate f1, a filter box f2, a mounting device f3 and an operation block f4, the guide plate f1 is provided with an operation block f4, the operation block f4 is in clearance fit with the guide plate f1, the filter box f2 is provided with a mounting device f3, the mounting device f3 is embedded with the filter box f2, the filter box f2 is a cylindrical filter barrel structure, two connecting plates are arranged on the filter box f2, an arc-shaped notch is arranged on the connecting plate of the filter box f2, a circular hollow is arranged on the filter box f2, threads are arranged on the wall body of the round hollow-out opening of the filter box f2, a square groove is arranged on the filter box f2, the guide plate f1 is provided with a guide groove opening, sliding grooves are arranged on two sides of the operating block f4, an arc sheet is movably clamped on the operating block f4, the operation block f4 is embedded on the flow guide notch of the flow guide plate f1, and the filtration of the medicine processing is solid.

The mounting device f3 is provided with a sealing block f31, a processor f32, a mounting plate f33, a mounting body f34, a blender f35, a rotating plate f36 and a mounting block f37, the processor f32 is arranged on the closing block f31, the processor f32 is in clearance fit with the closing block f31, the mounting plate f33 is provided with a mounting body f34, the mounting body f34 is movably clamped with the mounting plate f33, the mounting body f34 is provided with a mounting block f37, the mounting block f37 is connected with the mounting body f34, the rotating plate f36 is arranged on the installation body f34, the installation body f34 is movably connected with the rotating plate f36, the mixer f35 is arranged on a mounting body f34, the mounting body f34 is embedded with the mixer f35, the sealing block f31 is embedded on the arc-shaped notch of the connecting plate of the filter box f2, a square groove is arranged on the sealing block f31, the mounting plate f33 is movably connected with the mounting body f34 through a connecting shaft, so that the assembly and disassembly of the filter structure are realized.

Be equipped with movable cavity on the installation piece f37, the inside spliced pole that is equipped with of installation piece f37 movable cavity, be equipped with square protruding piece on installation piece f 37's the spliced pole, installation piece f37 establishes respectively that the central point of the installation body f34 puts and the periphery, be equipped with the rotation recess on the rotor plate f36, rotor plate f36 is connected with the installation piece f37 of establishing at the central point of the installation body f34 and putting, be equipped with the slip track on the activity chamber of installation piece f37, installation piece f 37's spliced pole passes through loose axle and activity chamber sliding connection, realizes the equipment of equipment through extending buckle structure.

The processor f32 is provided with an assembly plate 321, an assembly block 322, an assembly shaft 323, an extension block 324, an adjustment channel 325, an adjustment shaft 326 and an extension shaft 327, the adjustment channel 325 is provided with the adjustment shaft 326, the adjustment shaft 326 is connected with the adjustment channel 325 in a sliding manner, the assembly plate 321 is arranged on the assembly shaft 323, the assembly plate 321 is in clearance fit with the assembly shaft 323, the assembly block 322 is arranged at the center of the assembly plate 321, the assembly block 322 is movably clamped with the assembly plate 321, the extension shaft 327 is arranged inside the extension block 324 and connected with the extension block 324, the adjustment channel 325 is an arc shaft body, the adjustment shaft 326 is provided with pulleys, the assembly plate 321 is provided with an assembly notch, the assembly block 322 is provided with a connecting rod, one end of the connecting rod of the assembly block 322 is provided with a square protruding block, the other end of the connecting rod 322 of the assembly block is provided with a semicircular connecting block, the central point of the semicircular connecting block of the assembly block 322 puts and is equipped with the circular arc recess, the outward flange of the semicircular connecting block of the assembly block 322 is equipped with the circular arc connecting axle, be equipped with the spliced pole on the circular arc connecting axle of the assembly block 322, the spliced pole of the assembly block 322 is the spiral cylinder body of making by the copper wire, the other end of the spliced pole of the assembly block 322 is established on the assembly board 321, the outstanding equipment breach of assembly board 321 of the semicircular connecting block of the assembly block 322, the assembly axle 323 is the ring connecting axle, be equipped with the arc recess on the assembly axle 323, the assembly board 321 passes through the loose axle gomphosis on the arc recess of assembly axle 323, realizes the open-ended closed equipment of filtration cavity.

Be equipped with the connecting block on the extension piece 324, the central point that extends the piece 324 connecting block puts and is equipped with semi-circular protruding piece, the both sides that extend the piece 324 connecting block all are equipped with the spliced pole, be equipped with the fretwork notch on the spliced pole that extends piece 324, extend the gomphosis of axle 327 on the fretwork notch that extends the piece 324 spliced pole, be equipped with the slide on extending the axle 327, the spliced pole that extends piece 324 passes through the sliding shaft gomphosis on the slide that extends axle 327, through buckle structure, the opening and shutting of filtration cavity when realizing equipment fixing.

The power supply is started, the connecting plate surface of the filter box f2 is in contact with the mounting body f34, the connecting column of the mounting block f37 slides on the movable cavity, the square convex block on the connecting column of the mounting block f37 is buckled into the square notch of the filter box f2, the connecting column of the extending block 324 slides along the extending shaft 327, so that the connecting block of the extending block 324 is in contact with the assembling block 322, the assembling block 322 is pressed by the extending block 324, the assembling block 322 slides in the assembling plate 321, the square convex block on the assembling block 322 is attached to the groove of the sealing block f31, so that the assembling block 322 and the sealing block f31 are assembled, the adjusting shaft 326 slides along the adjusting channel 325, the sealing block f31 is driven to slide towards the arc notch of the filter box f2, the opening of the filter box f2 is opened, the assembling plate 321 rotates in the arc groove of the assembling shaft 323 along with the deflection angle required by the sliding, the mixed medicine slides into the flow guide groove of the filter box f2 of the flow guide plate f1, the operation block f4 slides along the sliding grooves on the two sides, the mixed medicine on the diversion trench is pushed through the arc piece on the operation block f4, powder is prevented from depositing on the diversion trench, the installation body f34 rotates along the connecting shaft with the installation plate f33, the filter box f2 is driven to roll, filtering of filtrate is achieved, the filter box f2 can be assembled and disassembled, and after powder precipitates are filtered and dried, the filter box f2 can be taken out to collect the powder medicine.

Example two

Referring to fig. 1-6, a biomacromolecule medicine processing device structurally comprises a feed port 1, a driving block 2, an operation box 3 and a closing door 4, wherein the driving block 2 is installed on the operation box 3, the operation box 3 is movably connected with the driving block 2, the feed port 1 is installed on the operation box 3, the feed port 1 is connected with the operation box 3, the closing door 4 is arranged on the operation box 3, and the closing door 4 is in clearance fit with the operation box 3;

the operation box 3 is provided with a reagent cavity 3a, a box body 3b, a mixing cavity 3c, a cleaning liquid cavity 3d, a filtrate cavity 3e, an operator 3f, a drying body 3g and a sensing block 3h, the reagent cavity 3a is arranged in the box body 3b, the reagent cavity 3a is connected with the box body 3b, the mixing cavity 3c is arranged in the box body 3b, the box body 3b is movably connected with the mixing cavity 3c, the operator 3f is arranged on the box body 3b, the box body 3b is connected with the operator 3f, the filtrate cavity 3e is arranged in the box body 3b, the box body 3b is in clearance fit with the filtrate cavity 3e, the cleaning liquid cavity 3d is arranged in the box body 3b, the cleaning liquid cavity 3d is movably clamped with the box body 3b, the drying body 3g is arranged on the box body 3b, the box body 3b is embedded with the drying body 3g, the sensing block 3h is arranged on the mixing cavity 3c, the sensing block 3h is movably connected with the mixing cavity 3c, and solid medicines are processed.

The manipulator 3f is provided with a guide plate f1, a filter box f2, a mounting device f3 and an operation block f4, the guide plate f1 is provided with an operation block f4, the operation block f4 is in clearance fit with the guide plate f1, the filter box f2 is provided with a mounting device f3, the mounting device f3 is embedded with the filter box f2, the filter box f2 is a cylindrical filter barrel structure, two connecting plates are arranged on the filter box f2, an arc-shaped notch is arranged on the connecting plate of the filter box f2, a circular hollow is arranged on the filter box f2, threads are arranged on the wall body of the round hollow-out opening of the filter box f2, a square groove is arranged on the filter box f2, the guide plate f1 is provided with a guide groove opening, sliding grooves are arranged on two sides of the operating block f4, an arc sheet is movably clamped on the operating block f4, the operation block f4 is embedded on the flow guide notch of the flow guide plate f1, and the filtration of the medicine processing is solid.

The mounting device f3 is provided with a sealing block f31, a processor f32, a mounting plate f33, a mounting body f34, a blender f35, a rotating plate f36 and a mounting block f37, the processor f32 is arranged on the closing block f31, the processor f32 is in clearance fit with the closing block f31, the mounting plate f33 is provided with a mounting body f34, the mounting body f34 is movably clamped with the mounting plate f33, the mounting body f34 is provided with a mounting block f37, the mounting block f37 is connected with the mounting body f34, the rotating plate f36 is arranged on the installation body f34, the installation body f34 is movably connected with the rotating plate f36, the mixer f35 is arranged on a mounting body f34, the mounting body f34 is embedded with the mixer f35, the sealing block f31 is embedded on the arc-shaped notch of the connecting plate of the filter box f2, a square groove is arranged on the sealing block f31, the mounting plate f33 is movably connected with the mounting body f34 through a connecting shaft, so that the assembly and disassembly of the filter structure are realized.

Be equipped with movable cavity on the installation piece f37, the inside spliced pole that is equipped with of installation piece f37 movable cavity, be equipped with square protruding piece on installation piece f 37's the spliced pole, installation piece f37 establishes respectively that the central point of the installation body f34 puts and the periphery, be equipped with the rotation recess on the rotor plate f36, rotor plate f36 is connected with the installation piece f37 of establishing at the central point of the installation body f34 and putting, be equipped with the slip track on the activity chamber of installation piece f37, installation piece f 37's spliced pole passes through loose axle and activity chamber sliding connection, realizes the equipment of equipment through extending buckle structure.

The processor f32 is provided with an assembly plate 321, an assembly block 322, an assembly shaft 323, an extension block 324, an adjustment channel 325, an adjustment shaft 326 and an extension shaft 327, the adjustment channel 325 is provided with the adjustment shaft 326, the adjustment shaft 326 is connected with the adjustment channel 325 in a sliding manner, the assembly plate 321 is arranged on the assembly shaft 323, the assembly plate 321 is in clearance fit with the assembly shaft 323, the assembly block 322 is arranged at the center of the assembly plate 321, the assembly block 322 is movably clamped with the assembly plate 321, the extension shaft 327 is arranged inside the extension block 324 and connected with the extension block 324, the adjustment channel 325 is an arc shaft body, the adjustment shaft 326 is provided with pulleys, the assembly plate 321 is provided with an assembly notch, the assembly block 322 is provided with a connecting rod, one end of the connecting rod of the assembly block 322 is provided with a square protruding block, the other end of the connecting rod 322 of the assembly block is provided with a semicircular connecting block, the central point of the semicircular connecting block of the assembly block 322 puts and is equipped with the circular arc recess, the outward flange of the semicircular connecting block of the assembly block 322 is equipped with the circular arc connecting axle, be equipped with the spliced pole on the circular arc connecting axle of the assembly block 322, the spliced pole of the assembly block 322 is the spiral cylinder body of making by the copper wire, the other end of the spliced pole of the assembly block 322 is established on the assembly board 321, the outstanding equipment breach of assembly board 321 of the semicircular connecting block of the assembly block 322, the assembly axle 323 is the ring connecting axle, be equipped with the arc recess on the assembly axle 323, the assembly board 321 passes through the loose axle gomphosis on the arc recess of assembly axle 323, realizes the open-ended closed equipment of filtration cavity.

Be equipped with the connecting block on the extension piece 324, the central point that extends the piece 324 connecting block puts and is equipped with semi-circular protruding piece, the both sides that extend the piece 324 connecting block all are equipped with the spliced pole, be equipped with the fretwork notch on the spliced pole that extends piece 324, extend the gomphosis of axle 327 on the fretwork notch that extends the piece 324 spliced pole, be equipped with the slide on extending the axle 327, the spliced pole that extends piece 324 passes through the sliding shaft gomphosis on the slide that extends axle 327, through buckle structure, the opening and shutting of filtration cavity when realizing equipment fixing.

The mixer f35 is provided with a combination block 351, a mixing shaft 352, a mixing block 353, a processing block 354 and a combination shaft 355, the combination shaft 355 is provided with the combination block 351, the combination block 351 and the combination shaft 355 are in clearance fit, the processing block 354 is provided with the combination block 351, the combination block 351 and the processing block 354 are movably clamped, the mixing block 353 is installed on the mixing shaft 352, the mixing shaft 352 is embedded with the mixing block 353, the combination block 351 is a circular plate, the circular plate of the combination block 351 is provided with a thread strip, the combination block is provided with a movable cavity, the movable cavity of the combination block 351 is internally provided with a rotating handle, one end of the combination shaft 355 facing the mounting block f37 is provided with a square groove, one end of the combination shaft 355 facing the processing block 354 is provided with a movable groove, the movable groove of the processing block 354 is provided with a connecting block, and the connecting block is provided with a thread groove, threaded cylinders are provided on both sides of the processing block 354 to stir the precipitates by a mixing structure.

The stirring shaft 352 is internally provided with a connecting cavity, the stirring shaft 352 is provided with a connecting plate on the connecting cavity, the connecting plate of the stirring shaft 352 is provided with a spiral column made of copper wires, the other end of the spiral column of the stirring shaft 352 is provided with a movable block, the movable block of the stirring shaft 352 is embedded in the connecting cavity of the stirring shaft 352, the stirring block 353 is connected with the movable block of the stirring shaft 352 through a connecting wire body, the movable block of the stirring shaft 352 is provided with an inclined connecting body, the stirring block 353 is a ball connecting block, a solid small ball is arranged at the junction of the connecting plate of the stirring shaft 352 and the movable block, and when sediment is stirred, the sediment can be dried more comprehensively.

The blender f35 is installed on the basis of the first embodiment, the blending shaft 352 is installed inside the filter box f2, the combination block 351 is rotated, the combination block 351 is connected with the circular hollowed-out thread of the filter box f2, the assembled filter box f2 is installed on the installation body f34, the installation block f37 at the central position of the installation body f34 is buckled with the groove of the combination shaft 355 through the connecting column, then the installation block f37 at the central position of the installation body f34 rotates along the rotating groove of the rotating plate f36, so as to drive the combination shaft 355 to rotate, the processing block 354 slides at the moving groove of the combination shaft 355 through the connecting block on the combination shaft 355, so that the processing block 354 and the combination shaft 355 are staggered, the blending range of the blending shaft 352 on the processing block 354 is enlarged, and the blending shaft 352 can be blended, when the blending shaft 352 rotates and blended, the blending block 353 is influenced by centrifugal force, medicine powder is extended from the blending shaft 352, so as to be blended into blocks, and crushed, when the solid small ball inside the mixing shaft 352 rotates, the movable block of the mixing shaft 352 is continuously knocked, so that the mixing block 353 is further pushed to hit, when medicine powder is collected, the movable block of the mixing shaft 352 is pulled through the connecting line body on the mixing block 353, and the powder attached to the inside of the mixing shaft 352 can be taken out through the movable block of the mixing shaft 352.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.