阅读说明：本技术 一种基于药物研发的生物大分子类检测装置 (Biomacromolecule detection device based on drug research and development ) 是由 王军伟 于 2021-07-16 设计创作，主要内容包括：本发明公开了一种基于药物研发的生物大分子类检测装置,其结构包括处理箱、控制箱、移动轮、连接门、提把,处理箱上设有提把,提把与处理箱活动连接,移动轮安装在处理箱上,处理箱与移动轮活动卡合,连接门设在处理箱上,本发明通过转动板上的镂空口将药物导入量筒内部,转动板增加了药物导料的出料口,药物便可填充在量筒内的不同位置,药物的填充堆积层与填充堆积层之间间距较为密集,填充时堆积层相互融合,不易形成锥形堆,偏转轴带动转动板在偏转道上滑动,利用转动板的转动改变药物的堆积在量筒内的位置,防止药物只堆积在一处,而形成锥形的堆层,导致量筒内药物的实际含有量偏少。(The invention discloses a biomolecular detection device based on drug research and development, which structurally comprises a processing box, a control box, a moving wheel, a connecting door and a carrying handle, wherein the carrying handle is arranged on the processing box and movably connected with the processing box, the moving wheel is arranged on the processing box, the processing box is movably clamped with the moving wheel, and the connecting door is arranged on the processing box. Resulting in a lower actual content of the drug in the cylinder.)

1. A biomolecular detection device based on drug development is characterized in that: the structure of the device comprises a processing box (1), a control box (2), a moving wheel (3), a connecting door (4) and a carrying handle (5), wherein the carrying handle (5) is arranged on the processing box (1), the processing box (1) is movably clamped with the moving wheel (3), the connecting door (4) is arranged on the processing box (1), and the control box (2) is connected with the processing box (1);

the processing box (1) is provided with a funnel (1a), a box body (1b), a moving block (1c), a processor (1d), a placing plate (1e), a measuring cylinder (1f) and a moving shaft (1g), the placing plate (1e) is installed inside the box body (1b), the moving shaft (1g) is in sliding connection with the moving block (1c), the funnel (1a) is arranged on the processor (1d), and the measuring cylinder (1f) is in clearance fit with the placing plate (1 e).

2. The biomolecular detection device based on drug development according to claim 1, wherein: treater (1d) is equipped with processing axle (d1), casing (d2), operation ware (d3), screening ware (d4), be equipped with casing (d2) on processing axle (d1), operation ware (d3) is connected with casing (d2), screening ware (d4) is installed on operation ware (d 3).

3. The biomolecular detection device based on drug development according to claim 2, wherein: the outer edge of the shell (d2) is provided with an arc connecting block, and a circular hollow is arranged on the arc connecting block of the shell (d 2).

4. The biomolecular detection device based on drug development according to claim 2, wherein: manipulator (d3) are equipped with rotor plate (d31), sealer (d32), the installation body (d33), deflect way (d34), deflect axle (d35), adjust way (d36), deflect way (d34) and installation body (d33) swing joint, the both sides that deflect way (d34) all are equipped with and adjust way (d36), rotor plate (d31) and deflection axle (d35) clearance fit, install sealer (d32) on rotor plate (d 31).

5. The biomolecular detection device based on drug development according to claim 4, wherein: the rotating plate (d31) is of a circular plate structure, and a hollow-out opening is formed in the circular plate of the rotating plate (d 31).

6. The biomolecular detection device based on drug development according to claim 4, wherein: sealing machine (d32) is equipped with equipment piece (321), equipment axle (322), rotation axis (323), contact (324), closed piece (325), rotatory piece (326), equipment axle (322) are installed to the outward flange of rotatory piece (326), equipment piece (321) and equipment axle (322) clearance fit, contact (324) are installed on equipment axle (322), closed piece (325) and rotation axis (323) clearance fit.

7. The biomolecular detection device based on drug development according to claim 6, wherein: the assembling shaft (322) is of a triangular pyramid long shaft structure, and a sliding rod is arranged on the assembling shaft (322).

8. The biomolecular detection device based on drug development according to claim 2, wherein: the screening device (d4) is provided with a buckle body (d41), an adjusting shaft (d42), an installation shaft (d43), a turnover block (d44) and a screening plate (d45), the buckle body (d41) is installed on the installation shaft (d43), the turnover block (d44) is movably connected with the installation shaft (d43), and the adjusting shaft (d42) is provided with the screening plate (d 45).

Technical Field

The invention relates to the technical field of biomacromolecule drug research and development, in particular to a biomacromolecule detection device based on drug research and development.

Background

The biomacromolecule medicine is a medicine which is prepared by applying microorganisms and cells obtained by biotechnology such as general or genetic engineering, cell engineering, protein engineering, fermentation engineering and the like, various animal and human tissues, liquid and other biological materials and is used for preventing, treating and diagnosing human diseases, when the medicine is researched and developed, a biomacromolecule detection device based on medicine research and development is used for detecting the researched and developed medicine, and the bulk density of the researched and developed medicine is measured by utilizing the mass difference between an empty measuring cylinder of the detection device and the filled medicine particles;

biomacromolecule detection device can pile up the central point that puts at the graduated flask naturally when the medicine that detects falls to the graduated flask, and the nature of medicine granule is piled up and is all had a steady angle certainly, and the medicine can form a cone structure gradually when piling up, and the cone pile layer is by the bottom to the accumulational medicine volume of top less and less, takes out the graduated flask and examines time-measuring, and the actual filling volume of medicine is few in the graduated flask, has increased the error that the device detected.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a biomolecular detection device based on drug research and development structurally comprises a processing box, a control box, a moving wheel, a connecting door and a carrying handle, wherein the carrying handle is arranged on the processing box and movably connected with the processing box;

the processing box is provided with a funnel, a box body, a moving block, a processor, a placing plate, a measuring cylinder and a moving shaft, the placing plate is installed inside the box body, the box body is in clearance fit with the placing plate, the moving shaft is arranged on the moving block, the moving shaft is connected with the moving block in a sliding mode, the funnel is arranged on the processor, the funnel is embedded with the processor, the measuring cylinder is arranged on the placing plate, and the measuring cylinder is in clearance fit with the placing plate.

As a further optimization of the technical scheme, the processor is provided with a processing shaft, a shell, an operator and a screening device, the shell is arranged on the processing shaft and is movably connected with the processing shaft, the operator is arranged inside the shell and is connected with the shell, the screening device is installed on the operator, and the operator is embedded with the screening device.

As a further optimization of the technical scheme, an arc connecting block is arranged on the outer edge of the shell, a circular hollow is arranged on the arc connecting block of the shell, a groove is arranged on the processing shaft, the groove structure of the processing shaft is matched with the arc connecting block of the shell, a threaded connector is arranged on the groove of the shell, and the processing shaft is movably connected with the movable shaft.

As a further optimization of this technical scheme, the operation ware is equipped with rotor plate, sealer, installation body, deflection way, deflection axle, regulation way, be equipped with the deflection way on the installation body, deflection way and installation body swing joint, the both sides of deflection way all are equipped with the regulation way, regulation way and deflection way sliding connection, install the rotor plate on the deflection axle, rotor plate and deflection axle clearance fit, install the sealer on the rotor plate, the sealer is connected with the rotor plate, the regulation way is the major axis spliced pole, be equipped with the slide on the regulation way, the deflection way passes through the loose axle gomphosis on the slide of regulation way, be equipped with arc slip track on the deflection way, be equipped with the traveller on the deflection axle, the traveller gomphosis of deflection axle is on the arc slip track of deflection way.

As a further optimization of the technical scheme, the rotating plate is of a circular plate block structure, a hollowed-out opening is formed in the circular plate of the rotating plate, an inclined edge is formed in the hollowed-out opening of the rotating plate, a connecting strip is arranged at one end of the rotating plate, which faces the measuring cylinder, the connecting strip of the measuring cylinder is of a triangular pyramid structure, a sliding block is arranged on the outer edge of the rotating plate, an arc-shaped sliding groove is formed in the deflection shaft, and the sliding block of the rotating plate is embedded in the arc-shaped sliding groove of the deflection shaft.

As a further optimization of the technical scheme, the sealing device is provided with an assembly block, an assembly shaft, a rotating shaft, a contact body, a closing block and a rotating block, the assembly shaft is installed at the outer edge of the rotating block and movably clamped with the rotating block, the assembly block is installed on the assembly shaft and is in clearance fit with the assembly shaft, the contact body is installed on the assembly shaft, the assembly shaft is embedded with the contact body, the closing block is arranged on the rotating shaft and is in clearance fit with the rotating shaft, the diameter of the assembly shaft is matched with the diameter of a hollow opening of a rotating plate, a movable cavity is arranged on the assembly block, a connecting ball is arranged on the movable cavity of the assembly block, gas is filled in the connecting ball of the assembly block, a connecting column is arranged in the movable cavity of the assembly block, a hemisphere connecting block is arranged at one end of the connecting column of the assembly block, and an arc groove is arranged at the center of the hemisphere connecting block, the inside gomphosis of circular arc recess have the activity ball, be equipped with the breach on the equipment piece semicircle connecting block, the breach diameter on the equipment piece semicircle connecting block is less than the diameter of activity ball, be equipped with the rotation recess on the rotation axis, rotatory piece passes through the connecting axle gomphosis on the rotation recess of rotation axis, the closed piece is the circular arc piece of quarter circle, the closed piece passes through loose axle and rotation axis swing joint, be equipped with the protruding piece of triangle-shaped on the closed piece.

As a further optimization of this technical scheme, the assembly shaft is the major axis structure of triangular pyramid, the epaxial slide bar that is equipped with of assembly, both sides on the contact are equipped with the removal recess, the slide bar gomphosis of assembly shaft is on the removal recess of contact, be equipped with protruding piece on the contact, the contact surface is equipped with the soft glue layer.

As a further optimization of the technical scheme, the screening device is provided with a buckling body, an adjusting shaft, an installing shaft, a turnover block and a screening plate, wherein the buckling body is installed on the installing shaft, the installing shaft is embedded with the buckling body, the turnover block is arranged on the installing shaft and is movably connected with the installing shaft, the screening plate is arranged on the adjusting shaft and is connected with the adjusting shaft, a grid hollowed-out opening is arranged on the screening plate, an arc hollowed-out opening is arranged on the adjusting shaft, a connecting shaft is arranged on the adjusting shaft, a cylindrical connecting block is arranged on one side of the turnover block connecting shaft facing the adjusting shaft, a notch is arranged on the installing shaft, the diameter of the notch of the installing shaft is matched with the diameter of the assembling shaft, the buckling body is in a cylindrical connecting shaft structure, connecting blocks are arranged on two sides of a shaft body of the buckling body, and a movable column is arranged on the installing shaft, the adjustable buckle is characterized in that a sliding groove is formed in the movable column of the installation shaft, the connecting block of the buckle body is embedded in the sliding groove of the movable column of the installation shaft, an arc-shaped groove is formed in the adjusting shaft, the diameter of the arc-shaped groove of the adjusting shaft is matched with the diameter of the cylindrical connecting shaft of the buckle body, and a pulling handle is arranged on the adjusting shaft.

Advantageous effects

Compared with the prior art, the biomolecular detection device based on drug research and development has the following advantages:

1. according to the invention, the medicine is guided into the measuring cylinder through the hollow-out openings on the rotating plate, the rotating plate is provided with the discharge hole for guiding the medicine, the medicine can be filled at different positions in the measuring cylinder, the space between the filling accumulation layer and the filling accumulation layer of the medicine is relatively dense, the accumulation layers are fused with each other during filling, a conical pile is not easy to form, the rotating plate is driven by the deflection shaft to slide on the deflection channel, the position of the medicine accumulated in the measuring cylinder is changed by the rotation of the rotating plate, and the medicine is prevented from being accumulated at one position to form the conical accumulation layer, so that the actual content of the medicine in the measuring cylinder is relatively small.

2. According to the invention, the screening plate is arranged on the mounting shaft, when the medicine falls, the falling detection medicine is screened firstly, and the medicine particles meeting the detection specification are guided onto the guide plate surface, so that the medicine with larger diameter in the medicine is prevented from entering the measuring cylinder, the quality of the medicine detected in the measuring cylinder is increased, and the error in medicine detection is increased.

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 view of the overall structure of a biomolecular detection device based on drug development according to the present invention.

FIG. 2 is a schematic view of the structure of the treatment tank of the present invention.

FIG. 3 is a diagram of a processor according to the present invention.

Fig. 4 is a schematic structural diagram of the manipulator of the present invention.

Fig. 5 is a schematic view of the structure of the sealing device of the present invention.

Fig. 6 is a schematic structural diagram of the screening device of the present invention.

In the figure: the device comprises a processing box 1, a control box 2, a moving wheel 3, a connecting door 4, a carrying handle 5, a funnel 1a, a box body 1b, a moving block 1c, a processor 1d, a placing plate 1e, a measuring cylinder 1f, a moving shaft 1g, a processing shaft d1, a shell d2, an operator d3, a screening device d4, a rotating plate d31, a sealing device d32, an installation body d33, a deflecting channel d34, a deflecting shaft d35, an adjusting channel d36, an assembly block 321, an assembly shaft 322, a rotating shaft 323, a contact body 324, a closing block 325, a rotating block 326, a buckling body d41, an adjusting shaft d42, an installation shaft d43, an overturning block d44 and a screening plate d 45.

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 biomolecular detection device based on drug development structurally comprises a processing box 1, a control box 2, a moving wheel 3, a connecting door 4 and a handle 5, wherein the processing box 1 is provided with the handle 5, the handle 5 is movably connected with the processing box 1, the moving wheel 3 is mounted on the processing box 1, the processing box 1 is movably clamped with the moving wheel 3, the connecting door 4 is arranged on the processing box 1, the processing box 1 is in clearance fit with the connecting door 4, the processing box 1 is provided with the control box 2, and the control box 2 is connected with the processing box 1;

the processing box 1 is provided with a funnel 1a, a box body 1b, a moving block 1c, a processor 1d, a placing plate 1e, a measuring cylinder 1f and a moving shaft 1g, the placing plate 1e is installed inside the box body 1b, the box body 1b is in clearance fit with the placing plate 1e, the moving shaft 1g is arranged on the moving block 1c, the moving shaft 1g is in sliding connection with the moving block 1c, the funnel 1a is arranged on the processor 1d, the funnel 1a is embedded with the processor 1d, the measuring cylinder 1f is arranged on the placing plate 1e, the measuring cylinder 1f is in clearance fit with the placing plate 1e, and bulk density detection in drug research and development is achieved.

The processor 1d is provided with a processing shaft d1, a shell d2, an operator d3 and a screening device d4, the processing shaft d1 is provided with a shell d2, the shell d2 is movably connected with the processing shaft d1, an operator d3 is arranged inside the shell d2, the operator d3 is connected with the shell d2, the screening device d4 is installed on the operator d3, and the operator d3 is embedded with the screening device d4, so that the medicine is guided.

The outer edge of the shell d2 is provided with an arc connecting block, a circular hollow hole is formed in the arc connecting block of the shell d2, a groove is formed in the processing shaft d1, the groove structure of the processing shaft d1 is matched with the arc connecting block of the shell d2, a threaded connecting port is formed in the groove of the shell d2, and the processing shaft d1 is movably connected with the moving shaft 1g to achieve assembly of the material guiding structure.

The manipulator d3 is provided with a rotating plate d31, a sealing device d32, an installation body d33, a deflection channel d34, a deflection shaft d35 and an adjustment channel d36, the installation body d36 is provided with a deflection channel d36, the deflection channel d36 is movably connected with the installation body d36, two sides of the deflection channel d36 are provided with adjustment channels d36, the adjustment channel d36 is in sliding connection with the deflection channel d36, the deflection shaft d36 is provided with the rotating plate d36, the rotating plate d36 is in clearance fit with the deflection shaft d36, the rotating plate d36 is provided with the sealing device d36, the sealing device d36 is connected with the rotating plate d36, the adjustment channel d36 is a long-shaft connecting column, the adjustment channel d36 is provided with a slideway, the deflection channel d36 is embedded on the slideway of the adjustment channel d36 through a movable shaft, the arc-shaped sliding track is arranged on the deflection channel d36, the arc-shaped sliding track of the deflection channel d36 is arranged on the deflection shaft 36, the rotation of the material guiding structure plate is realized.

The material guide structure plate is characterized in that the rotating plate d31 is of a circular plate structure, a hollowed-out opening is formed in the circular plate of the rotating plate d31, an inclined edge is arranged on the hollowed-out opening of the rotating plate d31, a connecting strip is arranged at one end, facing the measuring cylinder 1f, of the rotating plate d31, the connecting strip of the measuring cylinder 1f is of a triangular pyramid structure, a sliding block is arranged on the outer edge of the rotating plate d31, an arc-shaped sliding groove is formed in the deflection shaft d35, the sliding block of the rotating plate d31 is embedded in the arc-shaped sliding groove of the deflection shaft d35, and the material guide structure plate is shaken through the rotating structure.

Sealer d32 is equipped with equipment piece 321, equipment axle 322, rotation axis 323, contact body 324, closed piece 325, rotatory piece 326, equipment axle 322 is installed to rotatory piece 326's outward flange, equipment axle 322 and rotatory piece 326 activity block, install equipment piece 321 on the equipment axle 322, equipment piece 321 and equipment axle 322 clearance fit, contact body 324 installs on equipment axle 322, equipment axle 322 and contact body 324 gomphosis, be equipped with closed piece 325 on the rotation axis 323, closed piece 325 and rotation axis 323 clearance fit, the diameter of equipment axle 322 is identical with rotor plate d31 fretwork mouth diameter, be equipped with movable chamber on the equipment piece 321, be equipped with the connection ball on the movable chamber of equipment piece 321, the inside packing of the connection ball of equipment piece 321 has gas, be equipped with the spliced pole in the movable chamber of equipment piece 321, the one end of the spliced pole of equipment piece 321 is equipped with the hemisphere connecting block, the central point of equipment piece 321 hemisphere connecting block puts and is equipped with the circular arc recess, the inside gomphosis of circular arc recess have the movable ball, be equipped with the breach on the equipment piece 321 semicircle connecting block, the breach diameter on the equipment piece 321 semicircle connecting block is less than the diameter of movable ball, be equipped with the rotation recess on the rotation axis 323, rotatory piece 326 passes through the connecting axle gomphosis on the rotation recess of rotation axis 323, closed piece 325 is the circular arc piece of quarter circle, closed piece 325 passes through loose axle and rotation axis 323 swing joint, be equipped with the protruding piece of triangle-shaped on the closed piece 325, realize the closure of guide mouth.

Assembly shaft 322 is the major axis structure of triangular pyramid, be equipped with the slide bar on the assembly shaft 322, both sides on the contact 324 are equipped with the removal recess, the slide bar gomphosis of assembly shaft 322 is on the removal recess of contact 324, be equipped with protruding piece on the contact 324, the contact 324 surface is equipped with the hose lining, and through assembly structure's rotation, the guide mouth is plugged up in the shutoff.

An arc connecting block on a shell d2 is buckled on a groove on a processing shaft d1 in a clamping manner, a shell d2 is connected with the processing shaft d1 through a bolt, a moving block 1c slides on a moving shaft 1g, the shell d2 is contacted with a measuring cylinder 1f, a power supply is started, a detection medicine is poured into a shell d2 and falls onto a rotating plate d31, the detection medicine is guided into the measuring cylinder 1f through a hollowed-out opening on the rotating plate d31, the position range of the medicine falling into the measuring cylinder 1f is expanded by the hollowed-out opening of the rotating plate d31, the position range of the medicine falling into the measuring cylinder is not limited to the central position of the measuring cylinder, the distance between the hollowed-out opening of the rotating plate and the hollowed-out opening is small, the medicine at the central position can be fused with the medicine at the positions of the peripheral hollowed-out openings during filling, the formation of a conical pile is prevented, a deflection shaft d35 drives the rotating plate d31 to slide on a channel d34, and the position and the direction of the falling medicine in the measuring cylinder 1f is changed, the medicine is prevented from being accumulated at one position to form a conical pile layer, the contact body 324 slides along the sliding rod on the assembly shaft 322 to hit the rotating plate d31, the medicine on the rotating plate d31 is further shaken off by vibration force, after the measuring cylinder 1f is filled, the rotating block 326 rotates along the rotating groove of the rotating shaft 323, so that the assembly shaft 322 rotates to the hollowed-out opening of the rotating plate d31, the connecting column on the assembly block 321 extends out from the movable cavity of the assembly block 321 and is clamped on the hollowed-out opening of the rotating plate d31, the closing block 325 rotates along the movable shaft connected with the rotating shaft 323 to block the hollowed-out opening at the central position, the deflecting shaft d35 slides on the adjusting channel d36, so that the rotating plate d31 is close to the measuring cylinder 1f, the sliding block on the rotating plate d31 slides along the arc-shaped sliding groove of the deflecting shaft d35, and the protruding block on the closing block 325 is scraped off by the connecting strip on the rotating plate d31, so that the surplus medicine on the measuring cylinder 1f, so that the medicine is completely filled in the measuring cylinder 1f, and the detection error of the detection equipment is reduced.

Example two

Referring to fig. 1-6, a biomolecular detection device based on drug development structurally comprises a processing box 1, a control box 2, a moving wheel 3, a connecting door 4 and a handle 5, wherein the processing box 1 is provided with the handle 5, the handle 5 is movably connected with the processing box 1, the moving wheel 3 is mounted on the processing box 1, the processing box 1 is movably clamped with the moving wheel 3, the connecting door 4 is arranged on the processing box 1, the processing box 1 is in clearance fit with the connecting door 4, the processing box 1 is provided with the control box 2, and the control box 2 is connected with the processing box 1;

the processing box 1 is provided with a funnel 1a, a box body 1b, a moving block 1c, a processor 1d, a placing plate 1e, a measuring cylinder 1f and a moving shaft 1g, the placing plate 1e is installed inside the box body 1b, the box body 1b is in clearance fit with the placing plate 1e, the moving shaft 1g is arranged on the moving block 1c, the moving shaft 1g is in sliding connection with the moving block 1c, the funnel 1a is arranged on the processor 1d, the funnel 1a is embedded with the processor 1d, the measuring cylinder 1f is arranged on the placing plate 1e, the measuring cylinder 1f is in clearance fit with the placing plate 1e, and bulk density detection in drug research and development is achieved.

The processor 1d is provided with a processing shaft d1, a shell d2, an operator d3 and a screening device d4, the processing shaft d1 is provided with a shell d2, the shell d2 is movably connected with the processing shaft d1, an operator d3 is arranged inside the shell d2, the operator d3 is connected with the shell d2, the screening device d4 is installed on the operator d3, and the operator d3 is embedded with the screening device d4, so that the medicine is guided.

The outer edge of the shell d2 is provided with an arc connecting block, a circular hollow hole is formed in the arc connecting block of the shell d2, a groove is formed in the processing shaft d1, the groove structure of the processing shaft d1 is matched with the arc connecting block of the shell d2, a threaded connecting port is formed in the groove of the shell d2, and the processing shaft d1 is movably connected with the moving shaft 1g to achieve assembly of the material guiding structure.

The manipulator d3 is provided with a rotating plate d31, a sealing device d32, an installation body d33, a deflection channel d34, a deflection shaft d35 and an adjustment channel d36, the installation body d36 is provided with a deflection channel d36, the deflection channel d36 is movably connected with the installation body d36, two sides of the deflection channel d36 are provided with adjustment channels d36, the adjustment channel d36 is in sliding connection with the deflection channel d36, the deflection shaft d36 is provided with the rotating plate d36, the rotating plate d36 is in clearance fit with the deflection shaft d36, the rotating plate d36 is provided with the sealing device d36, the sealing device d36 is connected with the rotating plate d36, the adjustment channel d36 is a long-shaft connecting column, the adjustment channel d36 is provided with a slideway, the deflection channel d36 is embedded on the slideway of the adjustment channel d36 through a movable shaft, the arc-shaped sliding track is arranged on the deflection channel d36, the arc-shaped sliding track of the deflection channel d36 is arranged on the deflection shaft 36, the rotation of the material guiding structure plate is realized.

The material guide structure plate is characterized in that the rotating plate d31 is of a circular plate structure, a hollowed-out opening is formed in the circular plate of the rotating plate d31, an inclined edge is arranged on the hollowed-out opening of the rotating plate d31, a connecting strip is arranged at one end, facing the measuring cylinder 1f, of the rotating plate d31, the connecting strip of the measuring cylinder 1f is of a triangular pyramid structure, a sliding block is arranged on the outer edge of the rotating plate d31, an arc-shaped sliding groove is formed in the deflection shaft d35, the sliding block of the rotating plate d31 is embedded in the arc-shaped sliding groove of the deflection shaft d35, and the material guide structure plate is shaken through the rotating structure.

Sealer d32 is equipped with equipment piece 321, equipment axle 322, rotation axis 323, contact body 324, closed piece 325, rotatory piece 326, equipment axle 322 is installed to rotatory piece 326's outward flange, equipment axle 322 and rotatory piece 326 activity block, install equipment piece 321 on the equipment axle 322, equipment piece 321 and equipment axle 322 clearance fit, contact body 324 installs on equipment axle 322, equipment axle 322 and contact body 324 gomphosis, be equipped with closed piece 325 on the rotation axis 323, closed piece 325 and rotation axis 323 clearance fit, the diameter of equipment axle 322 is identical with rotor plate d31 fretwork mouth diameter, be equipped with movable chamber on the equipment piece 321, be equipped with the connection ball on the movable chamber of equipment piece 321, the inside packing of the connection ball of equipment piece 321 has gas, be equipped with the spliced pole in the movable chamber of equipment piece 321, the one end of the spliced pole of equipment piece 321 is equipped with the hemisphere connecting block, the central point of equipment piece 321 hemisphere connecting block puts and is equipped with the circular arc recess, the inside gomphosis of circular arc recess have the movable ball, be equipped with the breach on the equipment piece 321 semicircle connecting block, the breach diameter on the equipment piece 321 semicircle connecting block is less than the diameter of movable ball, be equipped with the rotation recess on the rotation axis 323, rotatory piece 326 passes through the connecting axle gomphosis on the rotation recess of rotation axis 323, closed piece 325 is the circular arc piece of quarter circle, closed piece 325 passes through loose axle and rotation axis 323 swing joint, be equipped with the protruding piece of triangle-shaped on the closed piece 325, realize the closure of guide mouth.

Assembly shaft 322 is the major axis structure of triangular pyramid, be equipped with the slide bar on the assembly shaft 322, both sides on the contact 324 are equipped with the removal recess, the slide bar gomphosis of assembly shaft 322 is on the removal recess of contact 324, be equipped with protruding piece on the contact 324, the contact 324 surface is equipped with the hose lining, and through assembly structure's rotation, the guide mouth is plugged up in the shutoff.

The screening device d4 is provided with a buckle body d41, an adjusting shaft d42, an installation shaft d43, an overturning block d44 and a screening plate d45, the buckle body d41 is installed on the installation shaft d43, the installation shaft d43 is embedded with the buckle body d41, the installation shaft d43 is provided with an overturning block d44, the overturning block d44 is movably connected with the installation shaft d43, the adjusting shaft d42 is provided with a screening plate d45, the screening plate d45 is connected with the adjusting shaft d42, the screening plate d45 is provided with a grid hollowed-out opening, the adjusting shaft d42 is provided with an arc hollowed-out opening, the adjusting shaft d42 is provided with a connecting shaft, one side of the connecting shaft of the overturning block d44, which faces the adjusting shaft d42, the installation shaft d43 is provided with a notch, the diameter of the notch of the installation shaft d43 is matched with the diameter of the assembling shaft 322, the buckle body d41 is of a cylindrical structure, and connecting blocks are arranged on two sides of the shaft body 41, be equipped with movable post on the installation axle d43, be equipped with sliding groove on the movable post of installation axle d43, buckle body d 41's connecting block gomphosis is on the sliding groove of installation axle d43 movable post, be equipped with the arc recess on the regulating shaft d42, the diameter of regulating shaft d42 arc recess is identical with buckle body d41 cylinder connecting axle diameter, be equipped with the pulling handle on the regulating shaft d42, the screening of medicine when realizing the device and detecting.

The sieving device d4 is installed on the basis of the first embodiment, the adjusting shaft d42 is inserted into the installation shaft d43 from the notch of the installation shaft d43, the turning block d44 rotates along the movable shaft connected with the installation shaft d43, so that the cylindrical connecting block on the turning block d44 is buckled into the arc hollow of the adjusting shaft d42, the connection of the adjusting shaft d42 is realized, the cylindrical connecting shaft of the buckle body d41 slides on the sliding groove of the movable column of the installation shaft d43 through the connecting blocks on two sides, the cylindrical connecting shaft of the buckle body d41 is buckled on the arc groove of the adjusting shaft d42, the handle on the front end adjusting shaft d42 rotates the adjusting shaft d42, the buckle of the buckle body d41 and the arc groove of the adjusting shaft d42, the driving direction of the adjusting shaft d42 during rotation is regulated, the sieving plate d45 is shaken continuously through the rotation of the adjusting shaft d42, the vibration force during the rotation, the drug particles which meet the specification are piled up and have large diameter, the assemblability of the adjusting shaft d42 can replace the screening plate d45 with different hollow hole diameters to screen medicines according to the required specification of the detected medicines.

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.