CN113457789A - Genetic engineering bacteria crusher of TPA derivative - Google Patents

Abstract

The invention discloses a gene engineering bacteria crusher of TPA derivatives, which comprises a driving body, an operation box, a bracket, a discharge box and a closing door, wherein the driving body is arranged on the operation box, the operation box is movably connected with the driving body, the discharge box is arranged on the operation box, the discharge box is connected with the operation box, the closing door is arranged on the operation box, the operation box is movably clamped with the closing door, the bracket is arranged at the bottom of the discharge box, the discharge box is connected with the bracket, the crushing balls are wrapped in a ball cavity formed by the wrapping body through the wrapping structure, when the wrapping structure is pushed by a stirring body, the crushing ball only moves in the packaging cavity, and the scribing sheets on the crushing ball are not in direct contact with the separating net, so that the separating net can be prevented from being scratched by the scribing sheets on the crushing ball, the separating net is abraded excessively, so that cracks appear, and impurities broken by the cell sap are guided into the separating liquid from the cracks.

Description

Genetic engineering bacteria crusher of TPA derivative

Technical Field

The invention relates to the technical field of genetic engineering, in particular to a genetic engineering bacteria crusher of TPA derivatives.

Background

The genetic engineering bacteria are bacteria which introduce a target gene into a bacterial body to express the target gene and produce a required protein, such as derivatives, and the core technology of the genetic engineering is a recombination technology, namely, the recombination is that genetic materials of donor organisms or artificially synthesized genes are utilized, after the bacterial culture of the derivatives is finished, a genetic engineering bacteria crusher is used for crushing cells to obtain the protein, and the protein is further separated and passivated;

the gene engineering bacteria crusher utilizes the mixing and stirring of the crushing ball and the cell suspension to realize the crushing of cells, the crushing ball is provided with the scraper, the crushing ball is collided with the separation net in the stirring process, the scraper on the crushing ball continuously impacts, scrapes and grinds the separation net, the separation net is excessively worn and torn, and cracks appear, and when the crusher is separated, impurities generated by crushing some cells are guided to flow from the cracks and are mixed with separation liquid.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a genetic engineering bacteria crusher of a derivative structurally comprises a driving body, an operation box, a support, a discharge box and a closing door, wherein the driving body is installed on the operation box, the operation box is movably connected with the driving body, the discharge box is arranged on the operation box and is connected with the operation box, the closing door is installed on the operation box, the operation box is movably clamped with the closing door, the support is arranged at the bottom of the discharge box, and the discharge box is connected with the support;

the operation box is equipped with broken jar, box, parcel ware, separation net, operation ware, stirring body, water conservancy diversion mouth, install the water conservancy diversion mouth on the box, water conservancy diversion mouth and box swing joint, broken jar is established on the box, the box is connected with broken jar, the inside stirring body that is equipped with of box, stirring body and box clearance fit, the parcel ware is established inside the box, box and parcel ware gomphosis, the separation net is established on the box, box and separation net clearance fit, the operation ware is installed inside the box, the box is connected with the operation ware.

As a further optimization of the technical scheme, the packaging device is provided with an assembly body, a processor, a pusher, a crushing ball and a packaging body, the packaging body is provided with the assembly body, the assembly body is connected with the packaging body, the packaging body is provided with the pusher, the pusher is in clearance fit with the packaging body, the crushing ball is arranged inside the packaging body, the crushing ball is embedded with the packaging body, the processor is arranged on the crushing ball, the processor is connected with the crushing ball, the assembly body is provided with a thread strip, one end of the assembly body is provided with a movable cavity, an arc-shaped connecting block is arranged inside the movable cavity of the assembly body, a connecting column is arranged at the junction of the arc-shaped connecting block of the assembly body and the movable cavity, the connecting column of the assembly body is a spiral cylinder made of copper wires, and the other end of the assembly body is provided with the arc-shaped connecting block.

As a further optimization of the technical scheme, the inclusion is provided with two semi-sphere connecting blocks, one semi-sphere connecting block of the inclusion is provided with a circular groove, the other semi-sphere connecting block of the inclusion is provided with a circular convex block, the semi-sphere connecting blocks of the inclusion are all provided with threaded hollow holes, the semi-sphere of the inclusion is a net-shaped connecting block provided with the hollow holes, and the two connecting blocks of the inclusion are assembled to form a sphere movable cavity.

As a further optimization of the technical scheme, the pusher is provided with a pushing shaft, an installation shaft, a touch block, a breaking block, a limiting shaft and an installation body, the installation shaft is provided with the installation body, the installation body is in clearance fit with the installation shaft, the pushing shaft is arranged inside the installation shaft and is embedded with the installation shaft, the limiting shaft is arranged inside the pushing shaft and is movably clamped with the pushing shaft, the breaking block is arranged on the touch block, the touch block is in clearance fit with the breaking block, the limiting shaft is an I-shaped connecting block, the breaking block is provided with a conical connecting block, the touch block is an arc connecting block, the touch block is internally provided with a connecting rod, the connecting rod of the touch block and the outer edge of the limiting shaft are wound with spring copper wires, the two sides of the breaking block are provided with connecting blocks, and the connecting blocks are provided with hollowed-out holes, the breaking block is connected with the connecting rod of the touch block through the connecting blocks, the inside of breaking piece is equipped with the connecting cavity, spacing axle gomphosis is in breaking the connecting cavity of piece.

As a further optimization of the technical scheme, the mounting body is a connecting shaft body of an arc shaft, an arc connecting shaft is arranged at the center of the mounting body, the arc connecting shaft of the mounting body is connected with the pushing shaft, connectors are arranged on two sides of the pushing shaft, the connectors of the pushing shaft are line body structures woven by rubber wires, the other end of each connector of the pushing shaft is connected with the mounting body, a spiral spring copper wire is arranged inside the mounting body, a conical protruding block is arranged on one side of the mounting body, facing the pushing shaft, sliding wheels are arranged on two sides of the mounting body, a sliding groove is arranged on the mounting shaft, and the sliding wheels of the mounting body are embedded on the sliding groove of the mounting shaft.

As a further optimization of the technical scheme, the processor is provided with a processing shaft, a handle, an assembly cavity, a grinding block, an adjusting body and a replacement block, wherein the grinding block is arranged on two sides of the assembly cavity and movably connected with the assembly cavity, the replacement block is arranged inside the assembly cavity and movably clamped with the assembly cavity, the handle is arranged on the replacement block and movably clamped with the replacement block, the processing shaft is arranged on the adjusting body and connected with the adjusting body, a connecting column is arranged on the handle, the handle is connected with the replacement block through the connecting column, a threaded hollow opening is arranged on the handle, a movable block is arranged on the connecting column of the replacement block, a threaded notch is arranged on the movable block of the replacement block, a circular connecting plate is arranged on the replacement block, a hollow opening is arranged at the center of the circular connecting plate of the replacement block, and an arc-shaped connecting block is arranged at the outer edge of the circular connecting plate of the replacement block, the arc-shaped connecting block of the replacing block is provided with a sharp knife edge, the grinding block is provided with an arc-shaped notch, and the notch of the grinding block is provided with a protruding block.

As a further optimization of the technical scheme, the adjusting body is a cylindrical connecting block, a circular groove opening is formed in the adjusting body, a notch is formed in the circular groove opening of the adjusting body, the diameter of the notch of the adjusting body is identical to that of a connecting column of the handle, a hollowed-out opening is formed in the center of the adjusting body, the processing shaft is embedded in the hollowed-out opening in the center of the adjusting body, the processing shaft is a combined column, threads are formed in two sides of the combined column of the processing shaft, the center of the combined column of the processing shaft is a smooth cylinder, circular connecting blocks are arranged on two sides of the processing shaft, a threaded groove is formed in one circular connecting block of the processing shaft, and the combined column of the processing shaft is in threaded connection with the circular connecting blocks.

As a further optimization of the technical scheme, the manipulator is provided with a rotating body, a shell, an operation cavity, an operation body, a rotating body, a sealing block and a rotating block, wherein the shell is provided with the rotating body, the rotating body is embedded with the shell, the rotating body is arranged inside the rotating body and connected with the rotating body, the rotating body is provided with the sealing block, the sealing block is movably clamped with the rotating body, the shell is provided with the rotating block, the rotating block is movably connected with the shell, the operation body is arranged on the operation cavity and connected with the operation cavity, the rotating block is provided with a square protruding block, one side of the shell, which is attached with the rotating block, is provided with a connecting groove, the rotating block is embedded on the connecting groove of the shell through a movable shaft, the sealing block is provided with a threaded cylinder, the threaded cylinder of the sealing block is provided with a clamping groove, and the other end of the sealing block is provided with a square groove, the interior of the rotating body is of a hollow structure, the rotating body is provided with arc-shaped convex blocks and arc-shaped grooves, the convex blocks of the rotating body are matched with the arc-shaped grooves at different positions of the shell, the shell is provided with rotating body structure matched combined blocks, the operating body is movably connected with the operating cavity through a movable shaft, the operating body is provided with a movable cavity, the movable cavity of the operating body is provided with a sliding shaft, the movable cavity of the operating body is internally provided with a square connecting block, the square connecting block of the operating body is embedded on the sliding shaft of the movable cavity through a sliding block, one side of the rotating body, facing the sealing block, is provided with a thread groove and a circulation opening, the opening of the rotating body is provided with a connecting cavity, the connecting block is arranged inside the connecting cavity of the rotating body, the connecting cavity of the rotating body is slidably connected with the connecting block, the rotating body is provided with a connecting column, and the connecting column of the rotating body is movably connected with the connecting plate of the rotating body through the movable shaft, the rotary body connecting column is provided with a circular ring connecting block, and the outer edge of the rotary body circular ring connecting block of the rotary body connecting column is provided with a circular arc connecting shaft.

Advantageous effects

Compared with the prior art, the gene engineering bacteria crusher of the TPA derivative has the following advantages:

1. according to the invention, the crushing ball is wrapped in the ball cavity formed by the wrapping body through the wrapping structure, when the wrapping structure is pushed by the stirring body, the crushing ball only moves in the wrapping cavity, and the scribing sheets on the crushing ball are not in direct contact with the separation net, so that the separation net can be prevented from being scratched by the scribing sheets on the crushing ball, the separation net is excessively worn, cracks are generated, and impurities crushed by cell sap are guided into the separation liquid from the cracks.

2. The invention is internally provided with a rotor which is blocked between the separation net and the wrapping movable ball, when the structure of the wrapping body is stirred and impacted, the impacting acting force is acted on the rotor and is not contacted with the separation net, thus preventing the separation net from being deformed due to the impact of the wrapping 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 of the overall structure of a genetically engineered bacteria crusher of TPA derivatives of the present invention.

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

Fig. 3 is a schematic view of the structure of the wrapper of the present invention.

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

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

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

In the figure: the device comprises a driving body 1, an operation box 2, a support 3, a discharge box 4, a closing door 5, a crushing tank 2a, a box body 2b, a wrapper 2c, a separation net 2d, an operator 2e, a stirring body 2f, a diversion port 2g, an assembly body c1, a processor c2, a pusher c3, a crushing ball c4, an inclusion c5, a pushing shaft c31, a mounting shaft c32, a touch block c33, a crushing block c34, a limiting shaft c35, a mounting body c36, a processing shaft c21, a handle c22, an assembly cavity c23, a grinding block c24, an adjusting body c25, a replacing block c26, a rotating body e1, a shell e2, an operation cavity e3, an operation body e4, a rotating body e5, a closing block e6 and a rotating block e 7.

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. 1-4, a TPA derivative genetically engineered bacteria crusher structurally comprises a driving body 1, an operation box 2, a support 3, a discharge box 4, and a closing door 5, wherein the driving body 1 is mounted on the operation box 2, the operation box 2 is movably connected with the driving body 1, the operation box 2 is provided with the discharge box 4, the discharge box 4 is connected with the operation box 2, the closing door 5 is mounted on the operation box 2, the operation box 2 is movably engaged with the closing door 5, the support 3 is arranged at the bottom of the discharge box 4, and the discharge box 4 is connected with the support 3 to crush cells;

operation box 2 is equipped with broken jar 2a, box 2b, parcel ware 2c, separation net 2d, operation ware 2e, stirring body 2f, water conservancy diversion mouth 2g, install water conservancy diversion mouth 2g on the box 2b, water conservancy diversion mouth 2g and box 2b swing joint, broken jar 2a is established on box 2b, box 2b is connected with broken jar 2a, the inside stirring body 2f that is equipped with of box 2b, stirring body 2f and box 2b clearance fit, parcel ware 2c is established inside box 2b, box 2b and parcel ware 2c gomphosis, separation net 2d is established on box 2b, box 2b and separation net 2d clearance fit, operation ware 2e is installed inside box 2b, box 2b is connected with operation ware 2e, realizes the breakage of cell through stirring the board.

The wrapper 2c is provided with an assembly c1, a processor c2, a pusher c3, a crushing ball c4 and a wrapper c5, the wrapper c5 is provided with an assembly c1, the assembly c1 is connected with the wrapper c5, the wrapper c5 is provided with a pusher c3, the pusher c3 is in clearance fit with the wrapper c5, the wrapper c5 is internally provided with a crushing ball c4, the crushing ball c4 is embedded with the wrapper c5, the crushing ball c4 is provided with a processor c2, the processor c2 is connected with the crushing ball c2, the assembly c2 is provided with a thread strip, one end of the assembly c2 is provided with a movable cavity, the movable cavity of the assembly c2 is internally provided with an arc-shaped connecting block, the connecting column of the assembly c2 and the movable cavity is provided with a connecting column, the other end of the assembly c2 is provided with a spiral connecting column made of a copper wire, and the arc-shaped connecting column 2 is provided with an arc-shaped connecting column boundary of the assembly c2, the broken ball bodies are wrapped inside by the wrapping structure.

The inclusion c5 is equipped with two hemisphere connecting blocks, be equipped with the ring recess on a hemisphere connecting block of inclusion c5, be equipped with the protruding piece of ring on another hemisphere connecting block of inclusion c5, all be equipped with the screw thread fretwork on the hemisphere connecting block of inclusion c5, inclusion c5 hemisphere is for being equipped with the netted connecting block of fretwork, two connecting block equipment of inclusion c5 constitute a spheroid activity chamber, realize the connection of parcel structure.

The pusher c3 is provided with a pushing shaft c31, a mounting shaft c32, a touch block c33, a breaking block c34, a limiting shaft c35 and a mounting body c36, the mounting shaft c32 is provided with the mounting body c36, the mounting body c36 is in clearance fit with the mounting shaft c36, the pushing shaft c36 is arranged inside the mounting shaft c36, the pushing shaft c36 is embedded with the mounting shaft c36, the limiting shaft c36 is arranged inside the pushing shaft c36, the limiting shaft c36 is movably clamped with the pushing shaft c36, the breaking block c36 is arranged on the touch block c36, the touch block c36 is in clearance fit with the breaking block c36, the limiting shaft c36 is an i-shaped connecting block, the breaking block c36 is provided with a conical connecting block, the touch block c36 is an arc connecting block, a connecting rod is arranged inside the touch block c36, the connecting rod c36 and the limiting shaft c36 of the connecting rod c36 are provided with spring, and the outer edges of the breaking block 36 are provided with the connecting block 36, and a hollow-out hole is formed in the connecting block, the breaking block c34 is connected with the connecting rod of the touch block c33 through the connecting block, a connecting cavity is formed in the breaking block c34, and the limiting shaft c35 is embedded in the connecting cavity of the breaking block c34 to further push the breaking ball.

The mounting body c36 is a connecting shaft body of an arc-shaped shaft, an arc connecting shaft is arranged at the center of the mounting body c36, the arc connecting shaft of the mounting body c36 is connected with the pushing shaft c31, connectors are arranged on two sides of the pushing shaft c31, the connectors of the pushing shaft c31 are of a linear structure woven by rubber wires, the other end of the connector of the pushing shaft c31 is connected with the mounting body c36, a spiral spring copper wire is arranged inside the mounting body c36, a conical convex block is arranged on one side, facing the pushing shaft c31, of the mounting body c36, sliding wheels are arranged on two sides of the mounting body c36, a sliding groove is arranged on the mounting shaft c32, and the sliding wheels of the mounting body c36 are embedded in the sliding groove of the mounting shaft c32, so that the crushed ball is pushed.

The using method comprises the following steps:

putting the breaking ball c4 into the inclusion c5, connecting two inclusions c5 into a ball connecting pipe through a snap notch of the inclusion c5, rotating the assembly c1, penetrating a hollowed-out opening on the inclusion c5 through the assembly c1, extending out an arc-shaped connecting block inside a movable cavity of the assembly c1, snapping the notch of the hollowed-out opening of the inclusion c5 to ensure that the connection between the inclusion c5 and the inclusion c5 is firmer, starting a power supply, pushing the inclusion c5 to move by the stirring body 2f, impacting cells by the inclusion c5, allowing some cell sap to enter the inner part from the hollowed-out opening of the inclusion c5, being broken by a scribing sheet on the breaking ball c4 and the breaking block c34, pressing the installation c36 by the impact force when the inclusion c5 impacts a wall body of the box 2b, sliding a pulley of the installation c36 along the installation shaft c32, pushing the pushing shaft c31 to slide towards the inner part of the installation shaft 86 31, the cell in the enclosure c5 is punctured by the breaking block c34, the conical block on the mounting body c36 can further puncture the cell in the box body 2b, the conical block on the mounting body c36 is arranged on the side facing the pushing shaft c31, the conical block does not contact with the separating net 2d during the breaking, if the pushing shaft c31 extends to contact with the breaking ball c4, the breaking block c34 slides along the limiting shaft c35, so that the breaking block c34 contracts into the contact block c33, the breaking ball c4 is pushed by the contact block c33, the breaking ball c4 is further stirred, the breaking block c34 contracts, and the sharp edge of the breaking block c34 can be prevented from directly hitting the breaking ball c 4.

Example two

Referring to fig. 1-6, a TPA derivative genetically engineered bacteria crusher structurally comprises a driving body 1, an operation box 2, a support 3, a discharge box 4, and a closing door 5, wherein the driving body 1 is mounted on the operation box 2, the operation box 2 is movably connected with the driving body 1, the operation box 2 is provided with the discharge box 4, the discharge box 4 is connected with the operation box 2, the closing door 5 is mounted on the operation box 2, the operation box 2 is movably engaged with the closing door 5, the support 3 is arranged at the bottom of the discharge box 4, and the discharge box 4 is connected with the support 3 to crush cells;

operation box 2 is equipped with broken jar 2a, box 2b, parcel ware 2c, separation net 2d, operation ware 2e, stirring body 2f, water conservancy diversion mouth 2g, install water conservancy diversion mouth 2g on the box 2b, water conservancy diversion mouth 2g and box 2b swing joint, broken jar 2a is established on box 2b, box 2b is connected with broken jar 2a, the inside stirring body 2f that is equipped with of box 2b, stirring body 2f and box 2b clearance fit, parcel ware 2c is established inside box 2b, box 2b and parcel ware 2c gomphosis, separation net 2d is established on box 2b, box 2b and separation net 2d clearance fit, operation ware 2e is installed inside box 2b, box 2b is connected with operation ware 2e, realizes the breakage of cell through stirring the board.

The wrapper 2c is provided with an assembly c1, a processor c2, a pusher c3, a crushing ball c4 and a wrapper c5, the wrapper c5 is provided with an assembly c1, the assembly c1 is connected with the wrapper c5, the wrapper c5 is provided with a pusher c3, the pusher c3 is in clearance fit with the wrapper c5, the wrapper c5 is internally provided with a crushing ball c4, the crushing ball c4 is embedded with the wrapper c5, the crushing ball c4 is provided with a processor c2, the processor c2 is connected with the crushing ball c2, the assembly c2 is provided with a thread strip, one end of the assembly c2 is provided with a movable cavity, the movable cavity of the assembly c2 is internally provided with an arc-shaped connecting block, the connecting column of the assembly c2 and the movable cavity is provided with a connecting column, the other end of the assembly c2 is provided with a spiral connecting column made of a copper wire, and the arc-shaped connecting column 2 is provided with an arc-shaped connecting column boundary of the assembly c2, the broken ball bodies are wrapped inside by the wrapping structure.

The inclusion c5 is equipped with two hemisphere connecting blocks, be equipped with the ring recess on a hemisphere connecting block of inclusion c5, be equipped with the protruding piece of ring on another hemisphere connecting block of inclusion c5, all be equipped with the screw thread fretwork on the hemisphere connecting block of inclusion c5, inclusion c5 hemisphere is for being equipped with the netted connecting block of fretwork, two connecting block equipment of inclusion c5 constitute a spheroid activity chamber, realize the connection of parcel structure.

The pusher c3 is provided with a pushing shaft c31, a mounting shaft c32, a touch block c33, a breaking block c34, a limiting shaft c35 and a mounting body c36, the mounting shaft c32 is provided with the mounting body c36, the mounting body c36 is in clearance fit with the mounting shaft c36, the pushing shaft c36 is arranged inside the mounting shaft c36, the pushing shaft c36 is embedded with the mounting shaft c36, the limiting shaft c36 is arranged inside the pushing shaft c36, the limiting shaft c36 is movably clamped with the pushing shaft c36, the breaking block c36 is arranged on the touch block c36, the touch block c36 is in clearance fit with the breaking block c36, the limiting shaft c36 is an i-shaped connecting block, the breaking block c36 is provided with a conical connecting block, the touch block c36 is an arc connecting block, a connecting rod is arranged inside the touch block c36, the connecting rod c36 and the limiting shaft c36 of the connecting rod c36 are provided with spring, and the outer edges of the breaking block 36 are provided with the connecting block 36, and a hollow-out hole is formed in the connecting block, the breaking block c34 is connected with the connecting rod of the touch block c33 through the connecting block, a connecting cavity is formed in the breaking block c34, and the limiting shaft c35 is embedded in the connecting cavity of the breaking block c34 to further push the breaking ball.

The mounting body c36 is a connecting shaft body of an arc-shaped shaft, an arc connecting shaft is arranged at the center of the mounting body c36, the arc connecting shaft of the mounting body c36 is connected with the pushing shaft c31, connectors are arranged on two sides of the pushing shaft c31, the connectors of the pushing shaft c31 are of a linear structure woven by rubber wires, the other end of the connector of the pushing shaft c31 is connected with the mounting body c36, a spiral spring copper wire is arranged inside the mounting body c36, a conical convex block is arranged on one side, facing the pushing shaft c31, of the mounting body c36, sliding wheels are arranged on two sides of the mounting body c36, a sliding groove is arranged on the mounting shaft c32, and the sliding wheels of the mounting body c36 are embedded in the sliding groove of the mounting shaft c32, so that the crushed ball is pushed.

The processor c2 is provided with a processing shaft c21, a handle c22, an assembly cavity c23, a grinding block c24, an adjusting body c25 and a replacing block c26, the grinding block c26 is arranged on two sides of the assembly cavity c26, the grinding block c26 is movably connected with the assembly cavity c26, the replacing block c26 is arranged inside the assembly cavity c26 and movably clamped with the assembly cavity c26, the replacing block c26 is provided with the handle c26, the handle c26 is movably clamped with the replacing block c26, the adjusting body c26 is provided with the processing shaft c26, the processing shaft c26 is connected with the adjusting body c26, the handle c26 is provided with a connecting column, the handle c26 is connected with the replacing block c26 through the connecting column, the handle c26 is provided with a hollow hole, the replacing block c26 is provided with a connecting column, the movable block c26 is provided with a slot, the replacing block c26 is provided with a circular connecting plate, and the circular central position of the replacing block 26 is provided with a circular connecting plate 26, the outward flange of the circular connecting plate of replacement piece c26 is equipped with the arc connecting block, be equipped with sharp edge of a knife on the arc connecting block of replacement piece c26, be equipped with the arc breach on the abrasive brick c24, the breach department of abrasive brick c24 is equipped with protruding piece, realizes shear structure's replacement.

The adjusting body c25 is a cylindrical connecting block, an annular notch is formed in the adjusting body c25, a notch is formed in the annular notch of the adjusting body c25, the diameter of the notch of the adjusting body c25 is matched with the diameter of a connecting column of the handle c22, a hollow-out hole is formed in the center of the adjusting body c25, the processing shaft c21 is embedded in the hollow-out hole in the center of the adjusting body c25, the processing shaft c21 is a combined column, threads are arranged on two sides of the combined column of the processing shaft c21, the center of the combined column of the processing shaft c21 is a smooth column, annular connecting blocks are arranged on two sides of the processing shaft c21, a threaded groove is formed in one annular connecting block of the processing shaft c21, the combined column of the processing shaft c21 is in threaded connection with the annular connecting blocks, and assembly and polishing are performed through a shearing structure.

The operator 2e is provided with a rotating body e1, a housing e1, an operating cavity e1, an operating body e1, the rotating body e1, a sealing block e1 and a rotating block e1, wherein the housing e1 is provided with the rotating body e1, the rotating body e1 is embedded with the housing e1, the rotating body e1 is arranged inside the rotating body e1, the rotating body e1 is connected with the rotating body e1, the sealing block e1 is arranged on the rotating body e1, the sealing block e1 is movably clamped with the rotating body e1, the rotating block e1 is provided with the rotating block e1, the rotating block e1 is movably connected with the housing e1, the operating body e1 is provided with the operating body e1, the operating body e1 is connected with the operating cavity e1, the rotating block e1 is provided with a square protruding block, one side of the housing e1, the rotating block e1 is provided with a connecting groove, the connecting groove is embedded with the rotating block e1 on the housing e1 through a movable shaft, the screw thread of the rotating block e1, the rotating block 1 is provided with the connecting groove, the screw thread cylinder of the sealing block e6 is provided with a buckle groove, the other end of the sealing block e6 is provided with a square groove, the inside of the rotor e1 is of a hollow structure, the rotor e1 is provided with an arc convex block and an arc groove, the convex block of the rotor e1 at different positions of the shell e2 is matched with the arc groove, the shell e2 is provided with a combination block matched with the rotor e1 in structure, the operator e4 is movably connected with the operation cavity e3 through a movable shaft, the operator e4 is provided with a movable cavity, the movable cavity of the operator e4 is provided with a sliding shaft, the inside of the movable cavity of the operator e4 is provided with a square connecting block, the square connecting block of the operator e4 is embedded on the sliding shaft of the movable cavity through a sliding block, one side of the e1 facing the sealing block e6 is provided with a screw thread groove and a circulation opening, and the opening of the rotor e1 is provided with a connection cavity, the inside connecting block that is equipped with of connection chamber of rotor e1, rotor e 1's connection chamber and connecting block sliding connection, be equipped with the spliced pole on the rotator e5, the spliced pole of rotator e5 spliced pole passes through loose axle and rotator e 5's connecting plate swing joint, be equipped with the ring connecting block on the rotator e5 spliced pole, rotator e5 spliced pole rotator e5 ring connecting block outward flange is equipped with the circular arc connecting axle, blocks the striking of parcel structure to separation structure net through rotating-structure.

Installing a processor c2 on the basis of the first embodiment, installing a notch of an adjusting body c25 of a handle c22 by a replacing block c26, buckling the notch into an assembling cavity c23, inserting a processing shaft c21 through a hollow opening of a replacing block c26, utilizing the connection of an annular connecting block and a processing shaft c21, installing the replacing block c26 on an assembling cavity c23, embedding the replacing block c26 on a smooth column of the processing shaft c21, if an arc-shaped connecting block on the replacing block c26 is abraded due to impact, pulling the handle c22, rotating the handle c22 along the notch of the adjusting body c25, enabling the arc-shaped connecting block of the replacing block c26 to slide from the notch of the grinding block c24, utilizing a convex rough surface on the grinding block c24 to grind the arc-shaped connecting block c26, prolonging the service life of the grinding ball c4, if the arc-shaped connecting block of the replacing block c26 is broken, rotating the replacing block c26, enabling the arc-shaped connecting block c23 at the other end to rotate through the threaded column of the assembling cavity, a hollow hole penetrating through a handle c22 is connected with a circular ring connecting block on a processing shaft c21 to realize the conversion and positioning of an arc connecting block, a coolant is filled into a rotating body e1, a threaded cylinder of a sealing block e6 is utilized to seal an opening of the rotating body e1, one end of the sealing block e6 is buckled into a square protruding block on the rotating block e7, the other end of the sealing block e6 is jointed with an operating body e4, a power supply is started, the square connecting block of the operating body e4 on a shell e2 slides along a sliding shaft of a movable cavity by a slide block, the buckle is combined with the rotating body e1, the connecting block at the opening of the rotating body e1 slides along a connecting cavity and is buckled into a buckling groove of the sealing block e6, a connecting column of the rotating body e5 rotates along the movable shaft, the liquid in the rotating body e1 is stirred, the temperature of the liquid in the rotating body is uniform, the operating body e4 rotates along the movable shaft of the operating cavity e3 to drive the rotating body e1 to press cells through an assembly structure between the e1 and the rotating body e1, the cell is broken, the cell sap is contacted with the rotating body e1, the coolant in the rotating body e1 can reduce the stability of the cell sap and prevent the internal stability of the cell sap from being too high, so that the protein loses activity, and when the inclusion c5 collides, the inclusion c1 collides, so that the inclusion c does not directly collide with the separation net 2d, and the separation net 2d is not deformed.

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 (8)

1. A genetic engineering bacteria crusher of TPA derivatives is characterized in that: the structure of the device comprises a driving body (1), an operation box (2), a support (3), a discharge box (4) and a closing door (5), wherein the driving body (1) is installed on the operation box (2), the discharge box (4) is connected with the operation box (2), the closing door (5) is installed on the operation box (2), and the support (3) is arranged at the bottom of the discharge box (4);

operation box (2) are equipped with broken jar (2a), box (2b), parcel ware (2c), separation net (2d), operation ware (2e), the stirring body (2f), water conservancy diversion mouth (2g), install water conservancy diversion mouth (2g) on box (2b), box (2b) is connected with broken jar (2a), the inside stirring body (2f) that is equipped with of box (2b), box (2b) and parcel ware (2c) gomphosis, establish on box (2b) separation net (2d), box (2b) is connected with operation ware (2 e).

2. The crusher for genetically engineered bacteria of TPA derivatives according to claim 1, wherein: the packaging device (2c) is provided with an assembly body (c1), a processor (c2), a pusher (c3), a crushing ball (c4) and a packaging body (c5), the assembly body (c1) is connected with the packaging body (c5), the packaging body (c5) is provided with the pusher (c3), the crushing ball (c4) is embedded with the packaging body (c5), and the processor (c2) is arranged on the crushing ball (c 4).

3. The crusher for genetically engineered bacteria of TPA derivatives according to claim 2, wherein: the inclusion (c5) is provided with two semi-sphere connecting blocks, and a circular groove is formed in one semi-sphere connecting block of the inclusion (c 5).

4. The crusher for genetically engineered bacteria of TPA derivatives according to claim 2, wherein: pusher (c3) is equipped with propelling movement axle (c31), installation axle (c32), touching piece (c33), breaks piece (c34), spacing axle (c35), installation body (c36), be equipped with installation body (c36) on installation axle (c32), propelling movement axle (c31) and installation axle (c32) gomphosis, propelling movement axle (c31) internally mounted has spacing axle (c35), touch piece (c33) and break piece (c34) clearance fit.

5. The crusher for genetically engineered bacteria of TPA derivatives according to claim 4, wherein: the mounting body (c36) is a connecting shaft body of an arc-shaped shaft, and an arc connecting shaft is arranged at the center of the mounting body (c 36).

6. The crusher for genetically engineered bacteria of TPA derivatives according to claim 2, wherein: treater (c2) are equipped with processing axle (c21), handle (c22), equipment chamber (c23), abrasive brick (c24), regulating body (c25), replacement piece (c26), the both sides of equipment chamber (c23) are equipped with abrasive brick (c24), replacement piece (c26) and equipment chamber (c23) activity block, be equipped with handle (c22) on replacement piece (c26), processing axle (c21) is connected with regulating body (c 25).

7. The crusher for genetically engineered bacteria of TPA derivatives according to claim 6, wherein: the adjusting body (c25) is a cylindrical connecting block, and a circular groove opening is formed in the adjusting body (c 25).

8. The crusher for genetically engineered bacteria of TPA derivatives according to claim 1, wherein: the manipulator (2e) is provided with a rotating body (e1), a shell (e2), an operating cavity (e3), an operating body (e4), a rotating body (e5), a sealing block (e6) and a rotating block (e7), the shell (e2) is provided with the rotating body (e1), the rotating body (e5) is connected with the rotating body (e1), the rotating body (e1) is provided with the sealing block (e6), the rotating block (e7) is movably connected with the shell (e2), and the operating cavity (e3) is provided with the operating body (e 4).

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