CN113583831A

CN113583831A - Synthesizer of biological cell enzyme

Info

Publication number: CN113583831A
Application number: CN202110815213.XA
Authority: CN
Inventors: 徐淑怡
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-19
Filing date: 2021-07-19
Publication date: 2021-11-02

Abstract

The invention discloses a synthesis device of biological cellular enzyme, which comprises a liquid guide body, a sealing cover, an operation box, a discharge pipe and a support, wherein the liquid guide body is arranged on the operation box, the operation box is movably connected with the liquid guide body, the discharge pipe is arranged at the bottom of the operation box, the operation box is connected with the discharge pipe, the support is arranged on the operation box and movably clamped with the operation box, the sealing cover is arranged on the operation box, and the operation box is in clearance fit with the sealing cover. Can not fall off.

Description

Synthesizer of biological cell enzyme

Technical Field

The invention relates to the technical field of biosynthesis, in particular to a synthesis device of biological cell enzyme.

Background

The enzyme is protein or RNA which is produced by living cells and has high specificity and high catalytic efficiency on a substrate of the enzyme, the catalytic action of the enzyme depends on the integrity of a primary structure and a spatial structure of an enzyme molecule, and the biological cell enzyme is a biochemical enzyme product which is obtained by a special microorganism through a synthesis device of the biological cell enzyme and has the functions of improving the feed conversion rate and promoting the growth;

the synthesis device of the biological cell enzyme utilizes a centrifugal spraying drying structure to carry out centrifugal drying work on the biological cell enzyme, the cell enzyme and the cell enzyme in the mixed liquid of the biological cell enzyme are easily adhered together, after the biological cell enzyme is dried, the adhered biological cell enzyme is coagulated into a blocky structure, and if the blocky structure formed after the biological cell enzyme is dried is too large in diameter, the biological cell enzyme is not easy to discharge from a material guide port of the device.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a synthesis device of biological cell enzyme structurally comprises a liquid guide body, a sealing cover, an operation box, a discharge pipe and a support, wherein the liquid guide body is arranged on the operation box, the operation box is movably connected with the liquid guide body, the discharge pipe is arranged at the bottom of the operation box, the operation box is connected with the discharge pipe, the support is arranged on the operation box, the support is movably clamped with the operation box, the sealing cover is arranged on the operation box, and the operation box is in clearance fit with the sealing cover;

the operation box is provided with a rubbing cavity, a box body, a stirring box, a centrifugal spraying body, an operator and an alkali liquid cavity, wherein the rubbing cavity is installed inside the box body and is movably connected with the box body, the stirring box is installed on the box body, the box body is connected with the stirring box, the alkali liquid cavity is arranged on the box body and is embedded with the box body, the centrifugal spraying body is arranged on the operator, and the centrifugal spraying body is in clearance fit with the operator.

As a further optimization of the technical scheme, the manipulator is provided with a stirring block, a processor, a sealing block, a regulator and a shell, wherein the stirring block is arranged inside the shell, the stirring block is embedded with the shell, the two sides of the shell are respectively provided with the sealing block, the sealing block is movably clamped with the shell, the processor is arranged on the shell, the shell is connected with the processor, the regulator is arranged on the shell, the shell is movably connected with the regulator, the shell is provided with an inclined connecting cavity, a slide way is arranged inside the inclined connecting cavity of the shell, a connecting block is arranged on the sealing block, the connecting block is embedded on the slide way of the shell connecting cavity, and a rubber layer is arranged on the surface of the sealing block.

According to the technical scheme, the stirring block is further optimized, connecting columns are arranged on the stirring block, movable shafts are arranged on two sides of the connecting columns of the stirring block, T-shaped hollow holes are formed in the movable shafts of the stirring block, triangular pyramid connecting blocks are arranged on the movable shafts of the stirring block, protruding blocks matched with the hollow hole structures of the movable shafts of the stirring block are arranged on the triangular pyramid connecting blocks of the stirring block, the connecting columns of the stirring block are movably connected with the shell through the movable shafts, and conical connecting blocks are arranged at the other ends of the stirring block.

As a further optimization of the technical solution, the adjuster is provided with a crusher, a deflection block, a turning cover, an attachment plate, an assembly block, an extension shaft, an extension plate, and a rotation shaft, the crusher is mounted on the rotation shaft, the crusher is connected to the rotation shaft, the outer edge of the extension shaft is provided with the extension plate, the extension plate is in clearance fit with the extension shaft, the two sides of the attachment plate are both provided with the assembly block, the assembly block is movably engaged with the attachment plate, the deflection block is provided with the turning cover, the turning cover is engaged with the deflection block, the extension shaft is provided with a sliding track, the extension plate is provided with a sliding block, the sliding block of the extension plate is engaged with the sliding track of the extension shaft, the extension plate is provided with an annular slide way, the rotation shaft is engaged with the annular slide way of the extension plate through a connection block, the assembly block is provided with a cylinder, the cylinder of the assembly block is provided with an arc-shaped slide way, be equipped with the spliced pole on the laminating board, the spliced pole of laminating board and the arc spout sliding connection on the equipment piece cylinder.

As a further optimization of this technical scheme, the deflection block is the arc connecting axle, the inside activity chamber that is equipped with of connecting axle of deflection block, the movable rod is installed to the activity intracavity of deflection block, the activity chamber and the movable rod sliding connection of deflection block, the other end of deflection block movable rod is equipped with connects the ball, be equipped with the fretwork mouth on the rigging board, the upset lid is circular connecting plate, the upset lid passes through the loose axle gomphosis in the fretwork mouth department of rigging board, the deflection block is installed in the one side towards the discharging pipe, the upset is covered and is equipped with the circular arc recess, be equipped with the opening on the circular arc recess of upset lid, the opening diameter of upset lid circular arc recess is less than the diameter that the ball was connected to the deflection block, the connection ball gomphosis of deflection block is in the circular arc recess of upset lid.

As a further optimization of the technical scheme, the crusher is provided with a piercing body, a sweeping block, a mounting plate, a mounting shaft, a pushing block and a rolling body, wherein the piercing body is mounted on the mounting plate, the mounting plate is movably connected with the piercing body, the rolling body is mounted on the mounting plate, the mounting plate is embedded with the rolling body, the mounting plate is provided with the pushing block, the pushing block is in clearance fit with the mounting plate, the sweeping block is arranged on the mounting plate, the mounting plate is connected with the sweeping block, the mounting shaft is provided with the mounting plate, the mounting plate is movably clamped with the mounting shaft, both sides of the mounting plate are provided with connecting cavities, the connecting cavities of the mounting plate are provided with moving notches, the pushing block and the sweeping block are connected inside the connecting cavities of the mounting plate through embedded connecting shafts, the pushing block is a triangular pyramid connecting block, and the connecting plate block of the sweeping block is provided with threaded notches, the both sides of mounting panel are equipped with and roll the body, roll the body through loose axle and mounting panel swing joint, be equipped with the protruding piece of triangle-shaped structure on the mounting panel, roll and be equipped with the connecting plate on the body, and be equipped with the protruding piece of circular arc on the connecting plate, be equipped with the movable block on rolling the connecting plate of the body, the outward flange that rolls the body is equipped with the ring slide rail, the movable block gomphosis that rolls the body connecting plate is on rolling outer edge ring slide rail, puncture the body and pass through loose axle and mounting panel swing joint.

As a further optimization of the technical scheme, a circular connecting plate is arranged on the puncturing body, a protruding block is arranged on the circular connecting plate of the puncturing body, a sliding rail is arranged on the circular connecting plate of the puncturing body, a movable column is arranged on the sliding rail of the puncturing body, a movable shaft of the puncturing body is embedded on the sliding rail of the circular connecting plate of the puncturing body through a sliding shaft, and a conical connecting block is arranged on the movable column of the puncturing body.

As a further optimization of the technical scheme, the processor is provided with a displacement shaft, a pushing cavity, a displacement block, a processing block, a runner pipe, a rotating block and a processing plate, wherein the displacement shaft is provided with the displacement block, the displacement block is in sliding connection with the displacement shaft, the processing plate is provided with the rotating block, the rotating block is embedded with the processing plate, the rotating block is provided with the runner pipe, the runner pipe is movably clamped with the rotating block, the processing block is arranged on the pushing cavity, the pushing cavity is movably connected with the processing block, one end of the displacement block is provided with a connecting plate, the connecting plate of the displacement block is embedded in the pushing cavity, the connecting plate of the displacement block is provided with a rubber layer, the pushing cavity is provided with a square opening, both sides of the square opening of the pushing cavity are provided with buckle notches, the processing block is provided with a square plate, and the square plate of the processing block is matched with the square opening of the pushing cavity in structure, the processing device comprises a pushing cavity, a rotating block, a brush body, a movable cavity, a slide way, a connecting plate, a hollow assembly channel, a movable plate, a connecting shaft, a circular raised block, a circular groove and a circular groove, wherein the pushing cavity is arranged on one side of the processing block facing the processing block, the processing block is embedded in the movable cavity of the pushing cavity through a pulley, the rotating block is provided with the connecting plate, the outer edge of the rotating block connecting plate is provided with the connecting pipe, the hollow assembly channel is arranged on the connecting plate of the rotating block, the hollow assembly channel of the rotating block is communicated with the connecting pipe of the rotating block, the processing plate clamps the rotating block in the middle, the surface of the rotating block connecting pipe is movably connected with the combined block through the movable shaft, the brush body is arranged on the combined block of the rotating block, the movable plate is arranged inside the connecting pipe of the rotating block, the movable plate of the rotating block is movably connected with the connecting pipe of the rotating block through the movable shaft, the connecting shaft is provided with the circular raised block, the circular groove is arranged on the connecting plate of the rotating block, the circular ring convex block of the circulating pipe is embedded on the circular ring groove on the rotating block connecting plate, and hollow-out openings are formed in the connecting shaft of the circulating pipe and the connecting plate of the rotating block.

Advantageous effects

Compared with the prior art, the synthesis device of the biological cell enzyme has the following advantages:

1. the centrifugal spraying structure sprays the mixed liquid of the biological cell enzyme into the shell, the mixed liquid is stirred and beaten through the stirring structure, the adhesion between the biological cell enzyme and the biological cell enzyme can be reduced, the formation of a large-diameter adhesion block when the biological cell enzyme is dried is avoided, the material guide outlet of the shell is blocked and is not easy to discharge, and the triangular pyramid assembly block on the stirring structure can scratch the wall body of the shell to prevent the biological cell enzyme from adhering to the wall body of the shell and being incapable of falling off.

2. According to the invention, the biological cell enzyme is further refined through the mashing structure of the crusher, the biological cell enzyme is mashed into a granular structure, and the mashed biological cell enzyme is led out from the hollow opening of the attaching plate through the pushing block on the mounting plate, so that the biological cell enzyme is a biochemical enzyme product, and the subsequent use of the biological cell enzyme is more convenient when the biological cell enzyme is mashed into the granular structure.

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 showing the overall structure of a device for synthesizing a biological cellular enzyme 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 view of the regulator of the present invention.

FIG. 5 is a schematic view of the structure of the mill of the present invention.

FIG. 6 is a diagram of a processor according to the present invention.

In the figure: the device comprises a liquid guide 1, a closing cover 2, an operation box 3, a discharge pipe 4, a support 5, a mincing cavity 3a, a box body 3b, a stirring box 3c, a centrifugal spraying body 3d, an operator 3e, a lye cavity 3f, a blending block e1, a processor e2, a sealing block e3, a regulator e4, a shell e5, a crusher e41, a deflecting block e42, a turnover cover e43, a laminating plate e44, an assembling block e45, an extending shaft e46, an extending plate e47, a rotating shaft e48, a puncturing body 411, a sweeping block 412, an installing plate 413, an installing shaft 414, a pushing block 415, a rolling body 416, a displacement shaft e21, a pushing cavity e22, a displacement block e23, a treatment block e24, a flow pipe e25, a rotating block e26 and a treatment plate e 27.

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 device for synthesizing bio-cellular enzymes structurally comprises a liquid guide 1, a sealing cover 2, an operation box 3, a discharge pipe 4 and a support 5, wherein the liquid guide 1 is mounted on the operation box 3, the operation box 3 is movably connected with the liquid guide 1, the discharge pipe 4 is mounted at the bottom of the operation box 3, the operation box 3 is connected with the discharge pipe 4, the support 5 is arranged on the operation box 3, the support 5 is movably clamped with the operation box 3, the sealing cover 2 is arranged on the operation box 3, and the operation box 3 is in clearance fit with the sealing cover 2;

the operation box 3 is provided with a rubbing cavity 3a, a box body 3b, a stirring box 3c, a centrifugal spraying body 3d, an operator 3e and an alkali liquor cavity 3f, the rubbing cavity 3a is installed inside the box body 3b, the rubbing cavity 3a is movably connected with the box body 3b, the stirring box 3c is installed on the box body 3b, the box body 3b is connected with the stirring box 3c, the box body 3b is provided with the alkali liquor cavity 3f, the alkali liquor cavity 3f is embedded with the box body 3b, the operator 3e is provided with the centrifugal spraying body 3d, and the centrifugal spraying body 3d is in clearance fit with the operator 3e to realize synthesis of the biological cell enzyme.

The manipulator 3e is provided with an agitating block e1, a processor e2, a sealing block e3, a regulator e4 and a shell e5, the interior of the shell e5 is provided with an agitating block e1, the agitating block e1 is embedded with the shell e5, sealing blocks e3 are arranged on two sides of the shell e5, the sealing block e3 is movably clamped with the shell e5, the processor e2 is arranged on the shell e5, the shell e5 is connected with the processor e2, the regulator e4 is installed on the shell e5, the shell e5 is movably connected with the regulator e4, the shell e5 is provided with an inclined connecting cavity, the inclined connecting cavity of the shell e5 is internally provided with a slide way, the sealing block e3 is provided with a connecting block, the connecting block of the sealing block e5 3 is arranged on the slide way of the connecting cavity of the shell e5, and the surface of the sealing block 3 is provided with a rubber layer to realize the biological cell enzyme drying process of agitating and biological cell drying.

The bio-cell enzyme mixing liquid is characterized in that a connecting column is arranged on the mixing block e1, movable shafts are arranged on two sides of the connecting column of the mixing block e1, T-shaped hollowed-out openings are formed in the movable shaft of the mixing block e1, triangular pyramid connecting blocks are arranged on the movable shaft of the mixing block e1, protruding blocks matched with the hollowed-out opening structures of the movable shafts of the mixing block e1 are arranged on the triangular pyramid connecting blocks of the mixing block e1, the connecting column of the mixing block e1 is movably connected with the shell e5 through the movable shafts, a conical connecting block is arranged at the other end of the mixing block e1, and bio-cell enzyme mixing liquid is mixed through the mixing structures.

The adjuster e4 is provided with a crusher e41, a deflecting block e42, a flip cover e43, an abutting plate e43, an assembling block e43, an extending shaft e43, an extending plate e43, a rotating shaft e43, wherein the crusher e43 is mounted on the rotating shaft e43, the crusher e43 is connected with the rotating shaft e43, the extending shaft e43 is provided with the extending plate e43 at the outer edge thereof, the extending plate e43 is in clearance fit with the extending shaft e43, the abutting plate e43 is provided with assembling blocks e43 at both sides thereof, the assembling block e43 is movably engaged with the abutting plate e43, the deflecting block e43 is provided with the flip cover e43, the flip cover e43 is engaged with the deflecting block e43, the extending shaft e43 is provided with a sliding track, the extending plate e43 is provided with a sliding block, the sliding block of the extending plate e43 is engaged with the sliding track of the rotating shaft e43, the annular sliding track of the extending plate e43 is provided with the sliding track of the sliding block 43, and the annular connecting block 43 is extended through the annular slideway 43, be equipped with the cylinder on equipment piece e45, be equipped with the arc spout on equipment piece e 45's the cylinder, be equipped with the spliced pole on the rigging board e44, the spliced pole of rigging board e44 and the arc spout sliding connection on the equipment piece e45 cylinder smash the biological cell enzyme adhesion piece to pieces through triturating the structure.

The utility model discloses a tilting plate, including tilting block e42, tilting block e42, tilting block e42, tilting cover e 4654, tilting cover e43, tilting cover e42, tilting block e42, tilting block e42, tilting block e43, the connecting axle is inside to be equipped with movable cavity, the movable intracavity of tilting block e42 installs the movable rod, tilting block e 42's movable cavity and movable rod sliding connection, the other end of tilting block e42 movable rod is equipped with the connection ball, be equipped with the fretwork mouth on laminating board e44, tilting cover e43 is circular connecting plate, tilting cover e43 passes through the loose axle gomphosis in laminating board e 44's fretwork mouth department, tilting block e42 installs in the one side of orientation discharging pipe 4, be equipped with the circular arc recess on tilting cover e43, be equipped with the opening on the circular arc recess of tilting cover e43, the opening diameter of tilting cover e43 circular arc recess is less than the diameter of tilting block e42 connection ball, the gomphosis of connection ball gomphosis of tilting block e42 is in the circular arc recess of tilting cover e43, realizes laminating connection plate open-ended opening.

The breaker e41 is equipped with puncture body 411, sweep piece 412, mounting panel 413, installation axle 414, propelling movement piece 415, roll body 416, puncture body 411 is installed on mounting panel 413, mounting panel 413 and puncture body 411 swing joint, roll body 416 and install on mounting panel 413, mounting panel 413 and roll body 416 gomphosis, be equipped with propelling movement piece 415 on mounting panel 413, propelling movement piece 415 and mounting panel 413 clearance fit, sweep piece 412 and establish on mounting panel 413, mounting panel 413 is connected with sweeping piece 412, be equipped with mounting panel 413 on mounting axis 414, mounting panel 413 and installation axle 414 activity block, the both sides of mounting panel 413 all are equipped with the connection chamber, be equipped with on the connection chamber of mounting panel 413 and remove the notch, propelling movement piece 415 and sweeping piece 412 all through the connection intracavity portion of connecting axle gomphosis at mounting panel 413, propelling movement piece 415 is the triangular pyramid connecting block, be equipped with the screw thread notch on sweeping the connection plate piece of piece 412, the both sides of mounting panel 413 are equipped with rolls body 416, roll body 416 through loose axle and mounting panel 413 swing joint, be equipped with the protruding piece of triangular structure on the mounting panel 413, it is equipped with the connecting plate on the body 416 to roll, and is equipped with the protruding piece of circular arc on the connecting plate, it is equipped with the loose piece on the connecting plate of the body 416 to roll, the outward flange that rolls body 416 is equipped with the ring slide rail, the movable block gomphosis that rolls the body 416 connecting plate is rolling on body 416 outward flange ring slide rail, puncture body 411 through loose axle and mounting panel 413 swing joint, the utilization is ground the structure and is further ground up biological cell enzyme and glues the piece.

The cell puncture device is characterized in that a circular connecting plate is arranged on the puncture body 411, a protruding block is arranged on the circular connecting plate of the puncture body 411, a sliding track is arranged on the circular connecting plate of the puncture body 411, a movable column is arranged on the sliding track of the puncture body 411, a movable shaft of the puncture body 411 is embedded on the sliding track of the circular connecting plate of the puncture body 411 through a sliding shaft, a conical connecting block is arranged on the movable column of the puncture body 411, and the puncture structure punctures a harder cell enzyme adhesion block.

The mixed liquid of the biological cell enzyme is sprayed into a shell e5 through a centrifugal spraying body 3d, a stirring block e1 rotates along a movable shaft connected with a shell e5, the mixed liquid of the biological cell enzyme is stirred, the biological cell enzyme which is bonded together is stirred, a triangular pyramid structure on the stirring block e1 scratches and scrapes the wall body of the shell e5, the biological cell enzyme which is attached to the wall body of the shell e5 is scraped, a sealing block e3 slides on a slide way on an inclined connecting cavity of the shell e5, the cavity opening of a regulator e4 is opened, the caked biological cell enzyme falls on a jointing plate e44, an extending plate e47 slides along an extending shaft e46 according to the diameter of the caked biological cell enzyme, the biological cell enzyme is pressed, a rolling body 416 movable block rotates along a circular ring slide rail of a rolling body 416, the rolling body is continuously rolled with the biological cell enzyme, a piercing body 411 rotates along the movable shaft connected with a mounting plate 413, a piercing column on the round movable connecting plate 411 slides along a sliding rail of the piercing body 411, the movable column clamps a harder biological cell enzyme block, the biological cell enzyme block is clamped by a conical structure on the movable column, the mounting plate 413 rotates along a movable shaft on the mounting shaft 414, the rolling bodies 416 on two sides of the mounting plate 413 rotate along the movable shaft, the cell enzyme block can be further crushed by the overturning impact force, the rotating shaft e48 slides on an annular slide way of the extension plate e47 to comprehensively crush the cellular enzyme on the attachment plate e44, a movable rod of the deflection block e42 slides along a movable cavity to drive the overturning cover e43 to overturn, an opening of the attachment plate e44 is opened, the pushing block 415 slides and extends on a connecting cavity of the mounting plate 413, when the mounting plate 413 rotates, the extended pushing block 415 is in contact with the attachment plate e44 to push out the crushed biological cell enzyme from the attachment plate e44, a triangular structure on the mounting plate 413 can further scrape the cellular enzyme attached to the assembly block e45, and after the cellular enzyme of the device is led out, the attachment plate e44 rotates along the cylinder of the assembly block e45, so that the attachment plate e44 faces the discharge pipe 4, the sweeping block 412 extends out along the connecting cavity of the attachment plate e44, before that, the brush body is arranged on the column body with the threads, the brush body is arranged on the threaded notch of the sweeping block 412, when the mounting plate 413 rotates, the brush body assembled by the sweeping block 412 can sweep attachments on the attachment plate e44, and the derivation of the biological cell enzymes is more comprehensive.

Example two

Referring to fig. 1-6, a device for synthesizing bio-cellular enzymes structurally comprises a liquid guide 1, a sealing cover 2, an operation box 3, a discharge pipe 4 and a support 5, wherein the liquid guide 1 is mounted on the operation box 3, the operation box 3 is movably connected with the liquid guide 1, the discharge pipe 4 is mounted at the bottom of the operation box 3, the operation box 3 is connected with the discharge pipe 4, the support 5 is arranged on the operation box 3, the support 5 is movably clamped with the operation box 3, the sealing cover 2 is arranged on the operation box 3, and the operation box 3 is in clearance fit with the sealing cover 2;

The processor e2 is provided with a displacement shaft e21, a pushing cavity e22, a displacement block e23, a processing block e24, a circulating pipe e25, a rotating block e26 and a processing plate e27, the displacement shaft e21 is provided with a displacement block e23, the displacement block e23 is connected with the displacement shaft e21 in a sliding manner, the processing plate e27 is provided with a rotating block e26, the rotating block e26 is embedded with the processing plate e27, the rotating block e26 is provided with a circulating pipe e25, the circulating pipe e25 is movably embedded with the rotating block e26, the processing block e24 is installed on the pushing cavity e22, the pushing cavity e22 is movably connected with the processing block e24, one end of the displacement block e23 is provided with a connecting plate, the connecting plate of the displacement block e23 is embedded inside the pushing cavity e22, the connecting plate of the displacement block e23 is provided with a rubber layer, the pushing cavity e22 is provided with a square opening, the square pushing cavity e22 is provided with a square opening, and the processing plate 24 is provided with a slot 24, the square plate of the processing block e24 is matched with the square opening structure of the pushing cavity e22, a movable cavity is arranged on one side of the pushing cavity e22 facing the processing block e24, a slide way is arranged on the movable cavity of the processing block e24, the processing block e24 is embedded in the movable cavity of the pushing cavity e22 through a pulley, a connecting plate is arranged on the rotating block e26, a connecting pipe is arranged on the outer edge of the connecting plate of the rotating block e26, a hollow-out assembly channel is arranged on the connecting plate of the rotating block e26, the hollow-out assembly channel of the rotating block e26 is communicated with the connecting pipe of the rotating block e26, the rotating block e26 is clamped in the middle by the processing plate e27, a combined block is movably connected to the surface of the connecting pipe of the rotating block e26 through a movable shaft, a brush body is arranged on the combined block of the rotating block e26, a movable plate is arranged inside the connecting pipe of the rotating block e26, and the movable plate of the rotating block e26 is movably connected with the connecting pipe of the rotating block e26 through the movable shaft, the device is characterized in that a connecting shaft is arranged on the flow pipe e25, a circular ring protruding block is arranged on the connecting shaft of the flow pipe e25, a circular ring groove is formed in the connecting plate of the rotating block e26, the circular ring protruding block of the flow pipe e25 is embedded in the circular ring groove in the connecting plate of the rotating block e26, hollow-out holes are formed in the connecting shaft of the flow pipe e25 and the connecting plate of the rotating block e26, and biological cell enzymes attached to the included angle between the centrifugal structure and the drying cylinder are blown off by blowing air.

In the first embodiment, processor e2 is installed, the square plate of processing block e24 slides on the slide way of the movable chamber of pushing chamber e22 through the pulley, the square connecting plate of processing block e24 snaps into the square opening of pushing chamber e22, the opening of pushing chamber e22 is closed, before that, the electric heating wire is installed at the notch of flow-through tube e25, the movable plate on the connecting tube of rotating block e26 rotates along the movable shaft, the opening of rotating block e26 is opened, the displacement block e23 slides along the displacement shaft e21, the pushing chamber e22 is pushed from flow-through tube e25 to rotating block e26 through the connecting plate on displacement block e23, the rotating block e26 is ejected from the connecting tube of rotating block e26, the rotating block e26 rotates along the movable shaft engaged with processing plate e27, the brush body on the surface of rotating block e26 further wipes processing plate e27, the gas ejected by rotating block e26 can spray the interface between housing e5 and the movable attachment 39d, and the centrifugal cell-blowing attachment 1 on the movable shaft, meanwhile, the gas sprayed by the rotating block e26 passes through the electric heating wire arranged at the notch of the circulating pipe e25, and hot air can be blown to the cell enzymes, so that the water content of the biological cell enzyme mixed liquid is heated uniformly, and the drying of the drying structure is accelerated.

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.

Claims

1. A device for synthesizing a biological cellular enzyme, comprising: the structure of the device comprises a liquid guide body (1), a sealing cover (2), an operation box (3), a discharge pipe (4) and a support (5), wherein the liquid guide body (1) is installed on the operation box (3), the operation box (3) is connected with the discharge pipe (4), the support (5) is arranged on the operation box (3), and the operation box (3) is in clearance fit with the sealing cover (2);

the operation box (3) is provided with a mincing cavity (3a), a box body (3b), a stirring box (3c), a centrifugal spraying body (3d), an operator (3e) and an alkaline solution cavity (3f), the mincing cavity (3a) is installed inside the box body (3b), the box body (3b) is connected with the stirring box (3c), the alkaline solution cavity (3f) is arranged on the box body (3b), and the centrifugal spraying body (3d) is in clearance fit with the operator (3 e).

2. The apparatus for synthesizing enzyme of biological cell as claimed in claim 1, wherein: the operation ware (3e) are equipped with and stir piece (e1), treater (e2), seal piece (e3), regulator (e4), casing (e5), casing (e5) inside is equipped with stirs piece (e1), seal piece (e3) and casing (e5) activity block, treater (e2) are established on casing (e5), casing (e5) and regulator (e4) swing joint.

3. The apparatus for synthesizing enzyme of biological cell as claimed in claim 2, wherein: connecting columns are arranged on the mixing blocks (e1), and movable shafts are arranged on two sides of the connecting columns of the mixing blocks (e 1).

4. The apparatus for synthesizing enzyme of biological cell as claimed in claim 2, wherein: regulator (e4) are equipped with and grind ware (e41), deflect piece (e42), flip lid (e43), rigging board (e44), equipment piece (e45), extend axle (e46), extend board (e47), axis of rotation (e48), grind ware (e41) and install on axis of rotation (e48), extend board (e47) and extend axle (e46) clearance fit, the both sides of rigging board (e44) all are equipped with equipment piece (e45), upset lid (e43) and deflection piece (e42) gomphosis.

5. The apparatus for synthesizing enzyme of biological cell as claimed in claim 4, wherein: the deflection block (e42) is an arc-shaped connecting shaft, and a movable cavity is arranged inside the connecting shaft of the deflection block (e 42).

6. The apparatus for synthesizing enzyme of biological cell as claimed in claim 4, wherein: the crusher (e41) is equipped with puncture body (411), sweeping block (412), mounting panel (413), installation axle (414), propelling movement piece (415), rolls body (416), puncture body (411) is installed on mounting panel (413), mounting panel (413) with roll body (416) gomphosis, be equipped with propelling movement piece (415) on mounting panel (413), mounting panel (413) is connected with sweeping block (412), be equipped with mounting panel (413) on installation axle (414).

7. The apparatus for synthesizing enzyme of biological cell as claimed in claim 6, wherein: the puncture body (411) is provided with a circular connecting plate, and the circular connecting plate of the puncture body (411) is provided with a convex block.

8. The apparatus for synthesizing enzyme of biological cell as claimed in claim 2, wherein: treater (e2) are equipped with displacement axle (e21), propelling movement chamber (e22), displacement piece (e23), handle piece (e24), runner tube (e25), rotatory piece (e26), handle board (e27), be equipped with displacement piece (e23) on displacement axle (e21), rotatory piece (e26) and handle board (e27) gomphosis, be equipped with runner tube (e25) on rotatory piece (e26), propelling movement chamber (e22) and handle piece (e24) swing joint.