CN114149480A - Production line for extracting marine polypeptide - Google Patents

Abstract

A production line for extracting marine polypeptide comprises a controller, and a sampling assembly, a filtering assembly, a reaction assembly and a collecting assembly which are sequentially communicated, wherein the sampling assembly is used for collecting marine raw material particles; the filtering component is used for carrying out multi-stage filtering on the marine raw material particles to remove impurities; the reaction component is used for injecting a reaction reagent into the ocean raw material particles to extract the polypeptide; the collecting component is used for collecting and collecting the polypeptides obtained by the reaction; the controller is correspondingly connected with the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly through the wireless transceiver and the instruction input device respectively, and the instruction input device is used for transmitting control instructions to the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly respectively so as to complete the extraction of the marine polypeptide; the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are respectively provided with a detection assembly, and the controller is also connected with a remote control assembly, a power supply assembly and a communication assembly.

Description

Production line for extracting marine polypeptide

The technical field is as follows:

the invention relates to a production line for extracting marine polypeptide.

Background art:

the polypeptide is a compound formed by connecting alpha-amino acids together by peptide bonds, is an intermediate product of protein hydrolysis, and is a compound formed by dehydrating and condensing two amino acid molecules, namely dipeptide, tripeptide, tetrapeptide, pentapeptide and the like; generally, a compound formed by dehydration and condensation of 10-100 amino acid molecules is called polypeptide, a natural organism contains a large amount of natural bioactive polypeptide and cell growth factors beneficial to a human body, a protein is strong in physiological activity in the form of polypeptide, and a small molecular peptide has higher biological effect than a single amino acid when being taken orally or externally used; particularly, the ocean accounts for about 71 percent of the surface area of the earth, lives more than 20 million organisms, has various biological varieties, sound biological chains and strong regeneration capacity, and accounts for about half of the total amount of the organisms in the world; the marine bioactive substances can be metabolized to generate a plurality of chemical substances with unique structures in the long-term evolution process under the environment of high salt, high pressure and oxygen deficiency, and the bioactive substances with important functions are numerous, so that a large number of marine bioactive substances with different functions are provided for human beings.

The marine bioactive polypeptide is a functional marine active substance with the most varieties, the most extensive distribution and the most research at present; the marine active peptide has the functions of optimizing the metabolic environment of the organism and benefiting the health of the organism, and finally plays roles of improving the immunity of the organism, reducing the occurrence of chronic diseases and the like by acting on a plurality of metabolic systems of the organism, such as a digestive system, a cardiovascular system, an immune system, a nervous system and the like.

In order to obtain a large amount of marine polypeptides, in the prior art, a production line is often arranged to realize extraction of the marine polypeptides; because each functional device in the traditional production line is independently arranged, an integrated control element is lacked, all the functional devices cannot be uniformly controlled, and a plurality of functional devices cannot be effectively linked, the whole marine polypeptide extraction process can generate more operation errors, and the extraction efficiency is low; meanwhile, a detection feedback element is also lacked, a worker cannot accurately master the working state of each functional component in real time, and when functional equipment breaks down, the worker cannot maintain the functional equipment in time, so that the overall extraction quality and the flow steps of marine polypeptide are affected, and large-scale popularization and application are not facilitated.

The invention content is as follows:

the embodiment of the invention provides a production line for extracting marine polypeptide, which has reasonable structural design, is based on the integrated control principle of a single chip microcomputer controller, is matched with various types of electric elements, and can uniformly configure and control all functional equipment used in the polypeptide extraction process, so that the functional equipment is effectively linked, the generation of operation errors is avoided, and the overall extraction efficiency of the marine polypeptide is improved; meanwhile, the working state parameters of each functional device can be detected in real time, faults are avoided, and the normal operation of each functional device is guaranteed, so that a large number of high-quality marine polypeptides are obtained, and the problems in the prior art are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a production line for extracting marine polypeptide comprises a controller, and a sampling assembly, a filtering assembly, a reaction assembly and a collecting assembly which are sequentially communicated, wherein the sampling assembly is used for collecting marine raw material particles; the filtering component is used for carrying out multi-stage filtering on the marine raw material particles to remove impurities; the reaction component is used for injecting a reaction reagent into the ocean raw material particles to extract the polypeptide; the collecting component is used for collecting and collecting the polypeptides obtained by the reaction; the controller is correspondingly connected with the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly through a wireless transceiver and an instruction input device respectively, the wireless transceiver is used for establishing a wireless communication network, and the instruction input device is used for transmitting control instructions to the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly respectively so as to complete the extraction of the marine polypeptide; the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are respectively provided with a detection assembly, and the detection assemblies are used for detecting the working state of the functional assembly; the remote control assembly is used for remotely controlling the controller, the power supply assembly is used for continuously and stably supplying power to the controller, and the communication assembly is used for establishing wired network communication between the controller and an upper computer so as to remotely transmit and interact data.

The sampling component is a large-particle grading sampler; the filtering component comprises a multistage filter and an electromagnetic valve which are matched with each other; the reaction assembly comprises a reaction tank and a plunger pump, wherein a sealing plug is arranged at the top of the reaction tank, two liquid inlet pipes are arranged on the sealing plug, the plunger pump is connected with the reaction tank through the liquid inlet pipes, and a trigger is also connected to the plunger pump and used for transmitting a trigger driving instruction to the plunger pump; the collecting assembly comprises a collecting bottle and a peristaltic pump which are arranged in a matched mode, the peristaltic pump is connected with the reaction tank through a flow guide pipe, a driver is connected to the peristaltic pump, and the driver is used for transmitting a driving control instruction to the peristaltic pump; the electromagnetic valve is connected with the reaction tank through a guide pipe.

The power supply assembly comprises a solar cell panel, a voltage stabilizer and a lithium battery which are arranged in a matched mode; the remote control assembly comprises a radio frequency remote controller and an infrared transceiver which are matched with each other; the communication component is a 485 communicator; the detection assembly comprises an AD converter, and a temperature sensor and a pressure sensor are connected to the AD converter; the model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the lithium cell through a pin, the controller links to each other with infrared transceiver through No. four pins, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with wireless transceiver through No. twenty pin and No. twenty-one pin, the controller links to each other with 485 communicators through thirty-three number pin, No. thirty-four number pin and No. thirty-five number pin.

The solar cell comprises a voltage stabilizer, a controller and a controller, wherein the voltage stabilizer is LM317 in model, three pins are arranged on the voltage stabilizer, the voltage stabilizer is connected with a solar cell panel through the first pin, a fourth capacitor and a fifth resistor are arranged between the first pin and the second pin of the voltage stabilizer, the fifth capacitor and a sixth resistor are arranged between the second pin and the third pin of the voltage stabilizer, the third pin of the voltage stabilizer is connected with a lithium battery, and the lithium battery is connected with the first pin of the controller; the type of the infrared transceiver is HC-SR505, 6 pins are arranged on the infrared transceiver, the infrared transceiver is connected with a fourth pin of the controller through a second pin, and the infrared transceiver is connected with the radio frequency remote controller through a fifth pin.

The type of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the pressure sensor and the temperature sensor through a No. three pin; the model of the pressure sensor is MIK-P300, and the model of the temperature sensor is SHT 20.

The model of the wireless transceiver is ESP8266, the wireless transceiver is connected with a No. twenty pin of the controller through a No. four pin, and the wireless transceiver is connected with a No. twenty-one pin of the controller through an No. eight pin; the model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the instruction input device is connected with a second pin of the wireless transceiver through a first pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected between the first pin and the second pin of the instruction input device in parallel, a fifth capacitor and an eighth resistor are connected between a third pin and a fourth pin of the instruction input device in parallel, and the third pin of the instruction input device is a control interface to connect the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly.

The model of trigger is FDS9945, No. two pins of trigger link to each other with No. three pins of instruction input ware, No. three pins of trigger link to each other with No. three pins of instruction input ware, are equipped with first resistance between No. one pin and No. two pins of trigger, are equipped with the second resistance between No. three pins and No. four pins of trigger, are connected with the plunger pump on No. eight pin and No. five pins of trigger.

The driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with a pin III of the instruction input device through a pin I, a pin sixteen of the driver is connected with a first relay, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a peristaltic pump interface is arranged on the first relay.

The model of the 485 communicator is SP3485, 8 pins are arranged on the 485 communicator, the 485 communicator is connected with thirty-five pins of the controller through a first pin, a second pin and a third pin of the 485 communicator are in short circuit connection with thirty-four pins of the controller, and a fourth pin of the 485 communicator is connected with thirty-three pins of the controller; the 485 communicator is connected with an upper computer through a six-number pin and a seven-number pin.

The upper computer is mobile terminal equipment, PC terminal equipment or a cloud platform server.

According to the structure, the marine raw material particles are collected for multiple times through the sampling assembly, the marine raw material particles are subjected to multistage filtration through the filtering assembly to remove impurities in the marine raw material particles, the reaction assembly is used for injecting a reaction reagent into the marine raw material particles to extract polypeptides, and the polypeptides obtained through reaction are collected and collected through the collecting assembly; the actions of the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are controlled through the wireless transceiver and the command input device; the working state of each functional component is detected through the detection component, remote control is carried out on the controller through the remote control component, the communication component is used for establishing wired network communication between the controller and an upper computer, remote transmission and interaction of data are carried out, stable power supply voltage is provided for the controller through the power supply component, and the remote control device has the advantages of safety, practicability, accuracy and high efficiency.

Description of the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a functional module according to the present invention.

Fig. 3 is a schematic structural diagram of the power supply assembly of the present invention.

Fig. 4 is a schematic structural diagram of the remote control assembly of the present invention.

FIG. 5 is a schematic structural view of a reaction module according to the present invention.

Fig. 6 is a schematic structural view of the collecting assembly of the present invention.

Fig. 7 is a schematic structural diagram of the detecting assembly of the present invention.

Fig. 8 is an electrical schematic of the controller of the present invention.

Fig. 9 is an electrical schematic diagram of the voltage regulator of the present invention.

Fig. 10 is an electrical schematic of an infrared transceiver of the present invention.

Fig. 11 is an electrical schematic diagram of the AD converter of the present invention.

Fig. 12 is a schematic structural view of the pressure sensor of the present invention.

Fig. 13 is a schematic structural diagram of the temperature sensor of the present invention.

Fig. 14 is an electrical schematic diagram of the wireless transceiver of the present invention.

FIG. 15 is an electrical schematic of the command input unit of the present invention.

Fig. 16 is an electrical schematic of the trigger of the present invention.

Fig. 17 is an electrical schematic of the actuator of the present invention.

Fig. 18 is an electrical schematic of the 485 communicator of the present invention.

In the figure, the device comprises a multi-stage filter 1, a multi-stage filter 2, an electromagnetic valve 3, a reaction tank 4, a plunger pump 5, a sealing plug 6, a liquid inlet pipe 7, a collecting bottle 8, a peristaltic pump 9 and a guide pipe.

The specific implementation mode is as follows:

in order to clearly explain the technical features of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings.

As shown in fig. 1-18, a production line for marine polypeptide extraction comprises a controller, and a sampling assembly, a filtering assembly, a reaction assembly and a collection assembly which are communicated in sequence, wherein the sampling assembly is used for collecting marine raw material particles; the filtering component is used for carrying out multi-stage filtering on the marine raw material particles to remove impurities; the reaction component is used for injecting a reaction reagent into the ocean raw material particles to extract the polypeptide; the collecting component is used for collecting and collecting the polypeptides obtained by the reaction; the controller is correspondingly connected with the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly through a wireless transceiver and an instruction input device respectively, the wireless transceiver is used for establishing a wireless communication network, and the instruction input device is used for transmitting control instructions to the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly respectively so as to complete the extraction of the marine polypeptide; the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are respectively provided with a detection assembly, and the detection assemblies are used for detecting the working state of the functional assembly; the remote control assembly is used for remotely controlling the controller, the power supply assembly is used for continuously and stably supplying power to the controller, and the communication assembly is used for establishing wired network communication between the controller and an upper computer so as to remotely transmit and interact data.

The sampling component is a large-particle grading sampler; the filtering component comprises a multistage filter and an electromagnetic valve which are matched with each other; the reaction assembly comprises a reaction tank and a plunger pump, wherein a sealing plug is arranged at the top of the reaction tank, two liquid inlet pipes are arranged on the sealing plug, the plunger pump is connected with the reaction tank through the liquid inlet pipes, and a trigger is also connected to the plunger pump and used for transmitting a trigger driving instruction to the plunger pump; the collecting assembly comprises a collecting bottle and a peristaltic pump which are arranged in a matched mode, the peristaltic pump is connected with the reaction tank through a flow guide pipe, a driver is connected to the peristaltic pump, and the driver is used for transmitting a driving control instruction to the peristaltic pump; the electromagnetic valve is connected with the reaction tank through a guide pipe.

The power supply assembly comprises a solar cell panel, a voltage stabilizer and a lithium battery which are arranged in a matched mode; the remote control assembly comprises a radio frequency remote controller and an infrared transceiver which are matched with each other; the communication component is a 485 communicator; the detection assembly comprises an AD converter, and a temperature sensor and a pressure sensor are connected to the AD converter; the model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the lithium cell through a pin, the controller links to each other with infrared transceiver through No. four pins, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with wireless transceiver through No. twenty pin and No. twenty-one pin, the controller links to each other with 485 communicators through thirty-three number pin, No. thirty-four number pin and No. thirty-five number pin.

The solar cell comprises a voltage stabilizer, a controller and a controller, wherein the voltage stabilizer is LM317 in model, three pins are arranged on the voltage stabilizer, the voltage stabilizer is connected with a solar cell panel through the first pin, a fourth capacitor and a fifth resistor are arranged between the first pin and the second pin of the voltage stabilizer, the fifth capacitor and a sixth resistor are arranged between the second pin and the third pin of the voltage stabilizer, the third pin of the voltage stabilizer is connected with a lithium battery, and the lithium battery is connected with the first pin of the controller; the type of the infrared transceiver is HC-SR505, 6 pins are arranged on the infrared transceiver, the infrared transceiver is connected with a fourth pin of the controller through a second pin, and the infrared transceiver is connected with the radio frequency remote controller through a fifth pin.

The type of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the pressure sensor and the temperature sensor through a No. three pin; the model of the pressure sensor is MIK-P300, and the model of the temperature sensor is SHT 20.

The model of the wireless transceiver is ESP8266, the wireless transceiver is connected with a No. twenty pin of the controller through a No. four pin, and the wireless transceiver is connected with a No. twenty-one pin of the controller through an No. eight pin; the model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the instruction input device is connected with a second pin of the wireless transceiver through a first pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected between the first pin and the second pin of the instruction input device in parallel, a fifth capacitor and an eighth resistor are connected between a third pin and a fourth pin of the instruction input device in parallel, and the third pin of the instruction input device is a control interface to connect the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly.

The model of trigger is FDS9945, No. two pins of trigger link to each other with No. three pins of instruction input ware, No. three pins of trigger link to each other with No. three pins of instruction input ware, are equipped with first resistance between No. one pin and No. two pins of trigger, are equipped with the second resistance between No. three pins and No. four pins of trigger, are connected with the plunger pump on No. eight pin and No. five pins of trigger.

The driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with a pin III of the instruction input device through a pin I, a pin sixteen of the driver is connected with a first relay, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a peristaltic pump interface is arranged on the first relay.

The model of the 485 communicator is SP3485, 8 pins are arranged on the 485 communicator, the 485 communicator is connected with thirty-five pins of the controller through a first pin, a second pin and a third pin of the 485 communicator are in short circuit connection with thirty-four pins of the controller, and a fourth pin of the 485 communicator is connected with thirty-three pins of the controller; the 485 communicator is connected with an upper computer through a six-number pin and a seven-number pin.

The upper computer is mobile terminal equipment, PC terminal equipment or a cloud platform server.

The working principle of the production line for extracting marine polypeptide in the embodiment of the invention is as follows: based on the integrated control principle of the single chip microcomputer controller, and in cooperation with various types of electric elements, all functional devices used in the polypeptide extraction process can be uniformly configured and controlled, so that each functional device is effectively linked, the generation of operation errors is avoided, and the overall extraction efficiency of marine polypeptides is improved; meanwhile, the working state parameters of each functional device can be detected in real time, faults are avoided, and normal operation of each functional device is guaranteed, so that a large number of high-quality marine polypeptides are obtained, the method is easy to popularize, and the application scene is wide.

In the integral scheme, the device comprises a controller, and a sampling assembly, a filtering assembly, a reaction assembly and a collecting assembly which are sequentially communicated, wherein the sampling assembly is used for collecting marine raw material particles; the filtering component is used for carrying out multi-stage filtering on the marine raw material particles to remove impurities; the reaction component is used for injecting a reaction reagent into the ocean raw material particles to extract the polypeptide; the collecting component is used for collecting the polypeptides obtained by the reaction; the controller is correspondingly connected with the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly through a wireless transceiver and an instruction input device respectively, the wireless transceiver is used for establishing a wireless communication network, and the instruction input device is used for transmitting control instructions to the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly respectively so as to complete the extraction of the marine polypeptide; the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are respectively provided with a detection assembly for detecting the working state of the functional assembly; the controller is also connected with a remote control assembly, a power supply assembly and a communication assembly, the remote control assembly is used for remotely controlling the controller, the power supply assembly is used for providing continuous and stable power supply for the controller, and the communication assembly is used for establishing wired network communication between the controller and an upper computer so as to remotely transmit and interact data; by means of the integrated control function of the functional components and the controller, the functional components act in sequence, and thus the production and extraction of the marine polypeptide are completed.

Specifically, the sampling assembly is a large-particle grading sampler; the filtering component comprises a multistage filter and an electromagnetic valve which are matched with each other; the reaction assembly comprises a reaction tank and a plunger pump, wherein a sealing plug is arranged at the top of the reaction tank, two liquid inlet pipes are arranged on the sealing plug, the plunger pump is connected with the reaction tank through the liquid inlet pipes, and a trigger is also connected to the plunger pump and used for transmitting a trigger driving instruction to the plunger pump; the collecting assembly comprises a collecting bottle and a peristaltic pump which are arranged in a matched mode, the peristaltic pump is connected with the reaction tank through a flow guide pipe, and a driver is connected to the peristaltic pump and used for transmitting a driving control instruction to the peristaltic pump; the solenoid valve passes through the honeycomb duct and links to each other with the retort, and in this technical scheme, through above-mentioned specific structure and relation of connection, can be fast accurate realize marine polypeptide's extraction.

Preferably, the power supply assembly comprises a solar panel, a voltage stabilizer and a lithium battery which are arranged in a matched manner; the remote control assembly comprises a radio frequency remote controller and an infrared transceiver which are matched with each other; the communication component is a 485 communicator; the detection assembly comprises an AD converter, and a temperature sensor and a pressure sensor are connected to the AD converter; the model of controller is STM32F103C8T6, be equipped with 64 pins on the controller, the controller links to each other with the lithium cell through a pin, the controller links to each other with infrared transceiver through No. four pins, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with wireless transceiver through No. twenty pin and No. twenty-one pin, the controller passes through No. thirty-three pin, No. thirty-four pin and No. thirty-five pin link to each other with the 485 communicator, thereby whole hardware circuit has been constituted, and rely on whole hardware circuit to realize automatic control and drive to a plurality of functional component, make a plurality of functional component realize the quick high-quality of ocean polypeptide and draw according to established flow.

Preferably, the model of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the pressure sensor and the temperature sensor through a No. three pin; the model of the pressure sensor is MIK-P300, the model of the temperature sensor is SHT20, the temperature parameter and the working pressure parameter of each functional component can be detected in real time, and normal operation of each functional component can be guaranteed.

Preferably, the wireless transceiver is of an ESP8266 type, and is connected with a No. twenty pin of the controller through a No. four pin, and is connected with a No. twenty-first pin of the controller through an No. eight pin; the model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the instruction input device is connected with a second pin of the wireless transceiver through a first pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected between the first pin and the second pin of the instruction input device in parallel, a fifth capacitor and an eighth resistor are connected between the third pin and the fourth pin of the instruction input device in parallel, and the third pin of the instruction input device is a control interface to connect the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly; and wireless communication is established, and under the action of the instruction input device, control driving instructions are transmitted to different functional components to finish the acquisition and filtration of raw materials and the extraction and collection of marine polypeptides.

Preferably, the model of the 485 communicator is SP3485, 8 pins are arranged on the 485 communicator, the 485 communicator is connected with thirty-five pins of the controller through a first pin, a second pin and a third pin of the 485 communicator are connected with thirty-four pins of the controller in a short circuit manner, and a fourth pin of the 485 communicator is connected with thirty-three pins of the controller; the 485 communicator is connected with the upper computer through a six-number pin and a seven-number pin, so that wireless communication is established between the controller and the upper computer, data transmission and interaction are carried out, and the extraction of marine polypeptide is smoothly carried out.

When the marine polypeptide extraction device is actually used, a plurality of functional components are spliced and installed according to a set structure, and a controller transmits control instructions to the functional components through a wireless transceiver and an instruction input device respectively to enable the functional components to perform corresponding actions respectively so as to complete extraction of marine polypeptides; in the working process, the detection assembly can detect the working state and the operating parameters of the functional assembly in real time, the normal operation of the functional assembly is guaranteed, and the detection assembly can be communicated with an upper computer of a worker, so that the worker can conveniently master the operating state of the production line.

In summary, the production line for extracting marine polypeptide in the embodiment of the present invention is based on the integrated control principle of the single chip microcomputer controller, and is matched with multiple types of electrical elements, so that all functional devices used in the polypeptide extraction process can be configured and controlled in a unified manner, and each functional device is effectively linked with each other, thereby avoiding the generation of operation errors and improving the overall extraction efficiency of marine polypeptide; meanwhile, the working state parameters of each functional device can be detected in real time, faults are avoided, and normal operation of each functional device is guaranteed, so that a large number of high-quality marine polypeptides are obtained, the method is easy to popularize, and the application scene is wide.

The above-described embodiments should not be construed as limiting the scope of the invention, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (10)

1. A production line that ocean polypeptide drawed which characterized in that: the device comprises a controller, and a sampling assembly, a filtering assembly, a reaction assembly and a collecting assembly which are sequentially communicated, wherein the sampling assembly is used for collecting marine raw material particles; the filtering component is used for carrying out multi-stage filtering on the marine raw material particles to remove impurities; the reaction component is used for injecting a reaction reagent into the ocean raw material particles to extract the polypeptide; the collecting component is used for collecting and collecting the polypeptides obtained by the reaction; the controller is correspondingly connected with the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly through a wireless transceiver and an instruction input device respectively, the wireless transceiver is used for establishing a wireless communication network, and the instruction input device is used for transmitting control instructions to the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly respectively so as to complete the extraction of the marine polypeptide; the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly are respectively provided with a detection assembly, and the detection assemblies are used for detecting the working state of the functional assembly; the remote control assembly is used for remotely controlling the controller, the power supply assembly is used for continuously and stably supplying power to the controller, and the communication assembly is used for establishing wired network communication between the controller and an upper computer so as to remotely transmit and interact data.

2. The production line for marine polypeptide extraction as claimed in claim 1, wherein: the sampling component is a large-particle grading sampler; the filtering component comprises a multistage filter and an electromagnetic valve which are matched with each other; the reaction assembly comprises a reaction tank and a plunger pump, wherein a sealing plug is arranged at the top of the reaction tank, two liquid inlet pipes are arranged on the sealing plug, the plunger pump is connected with the reaction tank through the liquid inlet pipes, and a trigger is also connected to the plunger pump and used for transmitting a trigger driving instruction to the plunger pump; the collecting assembly comprises a collecting bottle and a peristaltic pump which are arranged in a matched mode, the peristaltic pump is connected with the reaction tank through a flow guide pipe, a driver is connected to the peristaltic pump, and the driver is used for transmitting a driving control instruction to the peristaltic pump; the electromagnetic valve is connected with the reaction tank through a guide pipe.

3. The production line for marine polypeptide extraction as claimed in claim 2, wherein: the power supply assembly comprises a solar cell panel, a voltage stabilizer and a lithium battery which are arranged in a matched mode; the remote control assembly comprises a radio frequency remote controller and an infrared transceiver which are matched with each other; the communication component is a 485 communicator; the detection assembly comprises an AD converter, and a temperature sensor and a pressure sensor are connected to the AD converter; the model of controller is STM32F103C8T6, is equipped with 64 pins on the controller, the controller links to each other with the lithium cell through a pin, the controller links to each other with infrared transceiver through No. four pins, the controller links to each other with the AD converter through No. fifteen pins, the controller links to each other with wireless transceiver through No. twenty pin and No. twenty-one pin, the controller links to each other with 485 communicators through thirty-three number pin, No. thirty-four number pin and No. thirty-five number pin.

4. The production line for marine polypeptide extraction as claimed in claim 3, wherein: the solar cell comprises a voltage stabilizer, a controller and a controller, wherein the voltage stabilizer is LM317 in model, three pins are arranged on the voltage stabilizer, the voltage stabilizer is connected with a solar cell panel through the first pin, a fourth capacitor and a fifth resistor are arranged between the first pin and the second pin of the voltage stabilizer, the fifth capacitor and a sixth resistor are arranged between the second pin and the third pin of the voltage stabilizer, the third pin of the voltage stabilizer is connected with a lithium battery, and the lithium battery is connected with the first pin of the controller; the type of the infrared transceiver is HC-SR505, 6 pins are arranged on the infrared transceiver, the infrared transceiver is connected with a fourth pin of the controller through a second pin, and the infrared transceiver is connected with the radio frequency remote controller through a fifth pin.

5. The production line for marine polypeptide extraction as claimed in claim 3, wherein: the type of the AD converter is AD8551, 8 pins are arranged on the AD converter, the AD converter is connected with a No. fifteen pin of the controller through a No. six pin, and the AD converter is connected with the pressure sensor and the temperature sensor through a No. three pin; the model of the pressure sensor is MIK-P300, and the model of the temperature sensor is SHT 20.

6. The production line for marine polypeptide extraction as claimed in claim 3, wherein: the model of the wireless transceiver is ESP8266, the wireless transceiver is connected with a No. twenty pin of the controller through a No. four pin, and the wireless transceiver is connected with a No. twenty-one pin of the controller through an No. eight pin; the model of the instruction input device is TLP290, four pins are arranged on the instruction input device, the instruction input device is connected with a second pin of the wireless transceiver through a first pin, a ninth resistor, a tenth resistor and a fourth capacitor are connected between the first pin and the second pin of the instruction input device in parallel, a fifth capacitor and an eighth resistor are connected between a third pin and a fourth pin of the instruction input device in parallel, and the third pin of the instruction input device is a control interface to connect the sampling assembly, the filtering assembly, the reaction assembly and the collecting assembly.

7. The production line for marine polypeptide extraction as claimed in claim 6, wherein: the model of trigger is FDS9945, No. two pins of trigger link to each other with No. three pins of instruction input ware, No. three pins of trigger link to each other with No. three pins of instruction input ware, are equipped with first resistance between No. one pin and No. two pins of trigger, are equipped with the second resistance between No. three pins and No. four pins of trigger, are connected with the plunger pump on No. eight pin and No. five pins of trigger.

8. The production line for marine polypeptide extraction as claimed in claim 6, wherein: the driver is in a ULN2003 model, 16 pins are arranged on the driver, the driver is connected with a pin III of the instruction input device through a pin I, a pin sixteen of the driver is connected with a first relay, a first resistor and a first diode which are connected in parallel are arranged on the first relay, and a peristaltic pump interface is arranged on the first relay.

9. The production line for marine polypeptide extraction as claimed in claim 3, wherein: the model of the 485 communicator is SP3485, 8 pins are arranged on the 485 communicator, the 485 communicator is connected with thirty-five pins of the controller through a first pin, a second pin and a third pin of the 485 communicator are in short circuit connection with thirty-four pins of the controller, and a fourth pin of the 485 communicator is connected with thirty-three pins of the controller; the 485 communicator is connected with an upper computer through a six-number pin and a seven-number pin.

10. The production line for marine polypeptide extraction as claimed in claim 9, wherein: the upper computer is mobile terminal equipment, PC terminal equipment or a cloud platform server.

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