CN114276434B - Multiple peptide stock solution processing equipment and application method thereof - Google Patents

Abstract

The invention discloses a multiple peptide stock solution processing device and a use method thereof, and relates to the multiple peptide stock solution processing device in the field of multiple peptide production. According to the invention, the fixed sleeve and the discharge mechanism are arranged, the output shaft drives the movable fan blade to rotate reversely, the unidirectional spring rod can not limit the movable fan blade at the moment, so that the movable fan blade can rotate, the movable fan blade can be unfolded and kept vertical, the movable fan blade can collect concentrated liquid during backwashing through the current limiting plate and the baffle plate, the concentrated liquid is guided through the current limiting plate, the outer wall of the movable fan blade can be in contact with the pressure rod, the pressure rod is pushed to move to switch on the switch, and the power supply of the water pump is switched on, so that the concentrated liquid can be extracted by the water pump.

Description

Multiple peptide stock solution processing equipment and application method thereof

Technical Field

The invention relates to the field of production of multiple peptides, in particular to a processing device of multiple peptide stock solution and a use method thereof.

Background

The peptide is a degraded micromolecular collagen, contains amino acid groups, belongs to raw material products, is a chain structure formed by amino acids, is a familiar protein, is a polypeptide chain, is a main component of anti-aging and skin tightening, can be extracted from plants or animals, is widely applied in various fields, is also widely applied in the cosmetic field, and can provide nutrition for the skin of a user.

The utility model provides a polypeptide stoste processing equipment disclosed in chinese patent publication No. CN213493162U, includes solar panel, the bottom both sides symmetry fixedly connected with support column of solar panel, the bottom fixedly connected with base of support column, the inboard fixedly connected with processing case of support column, the bottom fixedly connected with solenoid valve of processing case, the bottom fixedly connected with edulcoration case of solenoid valve, the both ends of edulcoration case and the inboard bottom fixed connection of support column, the outside bottom fixedly connected with debris collecting box of support column, the outside top fixedly connected with motor of support column, the top fixedly connected with gear of motor, the one end swing joint of gear has the belt, top one side fixedly connected with pan feeding mouth of processing case, one side fixedly connected with rose box of the edulcoration case is kept away from to the support column, the one end fixedly connected with switch of support column is kept away from to the rose box, the inside top fixedly connected with bearing of bearing, the top of pivot of edulcoration case runs through the top of processing case, one side of pivot, one side swing joint of pivot is close to the pivot, the pivot is close to the pivot is equipped with the flexible shaft, the flexible carrier bar is close to one side of the pivot, the flexible carrier bar is close to the pivot is equipped with the top of extension bar, the extension bar is close to the pivot, the extension bar is equipped with the pivot.

The existing processing method generally adopts a plurality of groups of stirring blades to stir and mix raw materials and enrich the raw materials at the same time, so that the concentration of products is improved, the existing enrichment method generally adopts a filtering and adsorbing mode to enrich peptide chains, clear liquid is removed after filtering, concentrated liquid is recovered, but the existing enrichment equipment generally adopts additional equipment alone, the concentration cannot be adjusted in the processing process, the equipment cannot be automatically controlled in the adjusting process, the products are required to be detected manually, and the use efficiency is poor.

Disclosure of Invention

Based on the above, the invention aims to provide a multiple peptide stock solution processing device and a using method thereof, so as to solve the technical problems that raw materials are inconvenient to purify and cannot be automatically fed.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multiple peptide stock solution processing device comprises a protective shell and a driving motor, wherein a sealing ring is arranged at the top end of the protective shell, a conducting rod is connected at the bottom end of the sealing ring, an output end of the driving motor is connected with an output shaft, a stirring tank is arranged in the protective shell, the output shaft extends to the inside of the stirring tank, a blanking opening is arranged at the bottom end of the stirring tank, a conduit is arranged in the stirring tank around the outside of the output shaft, two groups of fixed sleeves are arranged on the outer wall of the conduit, the two groups of fixed sleeves are vertically symmetrically arranged in the stirring tank, fixed blades are arranged at two sides of each group of fixed sleeves, the fixed blades are obliquely arranged, movable blades are connected to the outside of the fixed blades, the movable blades are in limiting movable connection with the fixed blades, the side of the movable fan blade is provided with a current limiting plate, the outer side of the movable fan blade is connected with a baffle plate below the current limiting plate, the joint of the movable fan blade and the current limiting plate is an inclined plane, the end part of the movable fan blade is attached to the inner wall of the stirring tank, the outer wall of the protective shell is provided with a plurality of groups of material discharging mechanisms, each group of material discharging mechanisms is internally provided with a water pump, the output end of the water pump is provided with a material discharging pipe extending to the outer side of the protective shell, the material discharging mechanism is internally connected with a pressure rod, the bottom end of the pressure rod is internally provided with a switch, the inner part of the pressure rod is positioned above the movable fan blade, the outer side of the guide pipe is positioned above or below each group of fixed sleeves, the inner part of the water dividing sleeve is communicated with the guide pipe, the two sides of the water dividing sleeve are provided with water spraying pipes, and the water spraying pipes keep the same angle with the movable fan blade, the outer wall of the spray pipe is provided with a plurality of groups of spray heads, a positive ion adsorption plate is arranged between the upper fixing sleeve and the close water diversion sleeve, a negative ion adsorption plate is arranged between the lower fixing sleeve and the close water diversion sleeve, and the top ends of the positive ion adsorption plate and the negative ion adsorption plate are connected through a conductive rod.

Through adopting above-mentioned technical scheme, can adsorb the peptide chain through multiunit adsorption plate, and after adsorbing, can carry out the backwash through spray pipe and sprinkler bead to the raw materials of adsorption, when the backwash, can strike off the adsorbed material in the adsorption plate outside through movable flabellum, and can collect and guide the peptide chain when backwashing through current limiting plate and baffle to movable flabellum can start corresponding water pump through the extrusion to the depression bar, take out the concentrate from the agitator tank in, convenient unloading.

The invention is further characterized in that the inside of the sealing ring is connected with a wire, the driving motor is communicated with an external power supply through the wire, the conducting rod is communicated with the anode and the cathode of the external power supply through the wire, the positive ion adsorption plate is communicated with the external anode through the conducting rod, and the negative ion adsorption plate is communicated with the external cathode through the conducting rod.

Through adopting above-mentioned technical scheme, can pass through the power through each group of motor mechanism in the convenient equipment, make equipment can normal operating.

The stirring tank is further provided with the buffer seat at the bottom end, the buffer seat is composed of a spring and a hydraulic rod, the stirring tank is in limiting connection with the inside of the protective shell through the buffer seat, a plurality of groups of through holes are formed in the outer wall of the protective shell, and the discharge pipe extends to the outer side of the protective shell through the through holes.

Through adopting above-mentioned technical scheme, can absorb the vibrations when agitator tank operation through the buffering seat.

The invention is further characterized in that an electromagnetic valve and a reflux pump are arranged below the stirring tank in the blanking port, the reflux pump is arranged below the electromagnetic valve, a reflux pipe is connected to the side face of the reflux pump, a water inlet pipe is connected to the interior of the reflux pipe extending to the stirring tank, and the water inlet pipe is sleeved at the bottom end opening position of the guide pipe.

Through adopting above-mentioned technical scheme, can retrieve the light liquid through the back flow, make the light liquid can backwash the adsorption plate.

The movable fan blade is further provided with a one-way spring rod connected to the side face of the movable fan blade, a one-way sleeve is arranged in the one-way spring rod extending to the fixed fan blade, a stop block is arranged on the inner wall of the one-way sleeve, a spring and a pressing plate are arranged on the outer side of the one-way spring rod and located in the one-way sleeve, and the one-way spring rod is movably connected with the stop block through the spring and the pressing plate.

Through adopting above-mentioned technical scheme, can carry out spacing rotation to movable flabellum through one-way spring rod.

The invention is further characterized in that the unidirectional spring rod and the movable fan blade are eccentrically arranged, the unidirectional spring rod limits the movable fan blade when the movable fan blade rotates, the unidirectional spring rod extrudes the spring to rotate through the pressing plate when the movable fan blade reversely rotates, and the directions of the needed stress are the same when the upper and lower groups of movable fan blades deflect.

By adopting the technical scheme, the movable fan blades outside the upper and lower groups of fixed sleeves can keep the same direction when rotating.

The invention is further arranged that the outer side of the guide pipe is connected with a plurality of groups of fixing plates, the guide pipe is fixedly connected with the fixing sleeve through the fixing plates, the bottom end of the guide pipe extends to the inside of the water inlet pipe and is communicated with the water inlet pipe, each group of water jackets is communicated with the water diversion sleeve through the guide pipe, and a transmission plate is welded between the inner wall of the guide pipe and the output shaft.

Through adopting above-mentioned technical scheme, can be convenient install fixed cover to transport light liquid through the pipe.

A processing and using method of a multiple peptide stock solution comprises the following steps:

step one: firstly, filling sufficient raw materials into a stirring tank, and switching on power supplies of a positive ion adsorption plate and a negative ion adsorption plate through a conductive rod so that the two groups of adsorption plates can adsorb peptide chains in the raw materials;

step two: starting a driving motor, driving the output shaft to rotate by the driving motor, enabling the output shaft to drive the guide pipe and the fixed sleeve to rotate, enabling the fixed sleeve to drive the fixed fan blades and the movable fan blades to rotate, limiting the movable fan blades through the unidirectional spring rod, preventing the movable fan blades from shifting, and stirring raw materials by the movable fan blades;

step three: after the adsorption is finished, the driving motor is closed, the electromagnetic valve is opened, and raw materials in the stirring tank are discharged, so that the diluted dilute solution is lowered to the position above the positive ion adsorption plate;

step four: closing an electromagnetic valve, wherein the adsorbed peptide chains are required to be recovered, and at the moment, reversely starting a driving motor to drive an output shaft to reversely rotate, so that the output shaft reversely drives a plurality of groups of fixed sleeves to reversely rotate, and drives movable fan blades outside the fixed sleeves to reversely rotate;

step five: starting a reflux pump, sucking the discharged light liquid into a reflux pipe, enabling the light liquid to enter a guide pipe, enabling the light liquid to enter a spray pipe through each component water jacket, enabling the light liquid to be sprayed out through a spray nozzle, backwashing each group of adsorption plates, and fixing a water diversion sleeve on the outer side of an output shaft along with the guide pipe, so that the water diversion sleeve can drive the spray pipe and the movable fan blade to synchronously rotate, enabling concentrated liquid generated during backwashing of the adsorption plates to enter the movable fan blade, and enabling the concentrated liquid to flow to the end part of the movable fan blade along with a flow limiting plate through the flow limiting plate and a baffle plate;

step six: the movable fan blades can extrude the compression bar after being unfolded, the switch is extruded after the compression bar is extruded, and the switch is started, so that the water pump is started to suck the concentrated liquid;

step seven: after backwashing is completed, the reflux pump is closed, the rest light liquid is discharged, and new raw materials are connected to carry out subsequent purification processing.

In summary, the invention has the following advantages: .

According to the invention, through the stirring tank, each group of adsorption plates, the fixed sleeve and the guide pipe, when the raw materials are stirred, the positive ion adsorption plates and the negative ion adsorption plates are connected with the positive electrode and the negative electrode of the power supply through the conductive rods, so that each group of adsorption plates can adsorb ions in the raw materials, the adsorption time can be adjusted according to the required concentration of the stock solution, so that the adsorption plates can absorb the raw materials with different concentrations, when the concentrated solution is required to be discharged, the thin solution can be absorbed through the guide pipe to wash the raw materials on each group of adsorption plates, the discharged concentrated solution is guided through the movable fan blade, the concentrated solution is discharged through the discharge mechanism, peptide chains in the raw materials can be conveniently recovered, no additional purification equipment is required to purify the raw materials, the use efficiency is improved, and the problem that the raw materials are inconvenient to purify is effectively solved

According to the invention, when concentrated liquid is required to be discharged, the driving motor is reversed to drive the movable fan blade to rotate reversely, the unidirectional spring rod can not limit the movable fan blade, the movable fan blade can rotate, the movable fan blade is unfolded to keep vertical, the movable fan blade can collect the concentrated liquid in backwashing through the current limiting plate and the baffle plate, the concentrated liquid is guided through the current limiting plate which is obliquely arranged, the concentrated liquid can move to the end part of the movable fan blade, after the movable fan blade rotates and is unfolded, the outer wall of the movable fan blade can be contacted with the pressure rod, so that the pressure rod can be pushed to move, the pressure rod is used for extruding the switch, the power supply of the water pump is connected, the water pump can extract the concentrated liquid, and the concentrated liquid can be discharged through the discharging pipe, so that the problem that raw materials cannot be automatically discharged is effectively solved.

The invention also provides the adsorption efficiency by arranging the groups of adsorption plates and the movable fan blades, the movable fan blades not only can guide the concentrated solution, but also can stir the concentrated solution when adsorbing and purifying the concentrated solution, and the scraping part of the end part of the movable fan blade can be attached to the end surface of each group of adsorption plates when the movable fan blades are reversely rotated and unfolded, so that substances attached to the outer sides of the adsorption plates are scraped, the substances are conveniently cleaned, and the recovery efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the protective shell according to the present invention;

FIG. 3 is a schematic view of the internal structure of the stirring tank of the present invention;

FIG. 4 is a schematic view of a retaining sleeve according to the present invention;

FIG. 5 is a schematic cross-sectional view of an upper retaining sleeve according to the present invention;

FIG. 6 is a schematic cross-sectional view of the lower retaining sleeve of the present invention;

FIG. 7 is a schematic view of an ionization adsorption plate structure of the present invention;

FIG. 8 is a schematic view of a sprinkler head according to the present invention;

FIG. 9 is a schematic view of a discharge mechanism according to the present invention;

FIG. 10 is a schematic view of a movable blade and a discharge mechanism according to the present invention;

FIG. 11 is a schematic cross-sectional view of a discharge mechanism according to the present invention;

fig. 12 is a schematic view of the inner structure of the one-way spring rod of the present invention.

In the figure: 1. a protective shell; 101. a seal ring; 2. a driving motor; 201. an output shaft; 3. a discharging mechanism; 301. a discharge pipe; 302. a water pump; 303. a compression bar; 304. a switch; 4. a stirring tank; 401. a feed opening; 402. an electromagnetic valve; 403. a reflux pump; 404. a return pipe; 405. a buffer seat; 5. a conductive rod; 6. a positive ion adsorption plate; 7. an anion adsorption plate; 8. a fixed sleeve; 801. fixing fan blades; 802. a movable fan blade; 803. a flow-limiting plate; 804. a baffle; 805. a unidirectional spring rod; 806. a one-way sleeve; 807. a stop block; 9. a water dividing sleeve; 901. a water spray pipe; 902. a water spray head; 10. a conduit; 1001. a fixing piece; 11. a water inlet pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

1-12, including protective housing 1 and driving motor 2, sealing ring 101 is installed on the top of protective housing 1, the bottom of sealing ring 101 is connected with conducting rod 5, driving motor 2's output is connected with output shaft 201, the internally mounted of protective housing 1 has agitator tank 4, and output shaft 201 extends to the inside of agitator tank 4, feed opening 401 is installed to the bottom of agitator tank 4, pipe 10 is installed around the outside of output shaft 201 in the inside of agitator tank 4, and two sets of fixed cover 8 are installed to the outer wall of pipe 10, and two sets of fixed cover 8 up-and-down symmetry set up in the inside of agitator tank 4, fixed flabellum 801 is all installed to the both sides of every fixed cover 8, fixed flabellum 801 slope sets up, the stirring of raw materials that can be convenient makes the stoste can circulate, and the outside of fixed flabellum 801 is connected with movable flabellum 802, the movable fan blade 802 is in limit movable connection with the fixed fan blade 801, the side surface of the movable fan blade 802 is connected with a one-way spring rod 805, the one-way spring rod 805 extends to the inside of the fixed fan blade 801 and is provided with a one-way sleeve 806, the inner wall of the one-way sleeve 806 is provided with a stop block 807, the outer side of the one-way spring rod 805 is positioned in the one-way sleeve 806 and is provided with a spring and a pressing plate, the one-way spring rod 805 is movably connected with the stop block 807 through the spring and the pressing plate, the one-way spring rod 805 is eccentrically arranged with the movable fan blade 802, the movable fan blade 802 limits the movable fan blade 802 when rotating, the one-way spring rod 805 extrudes the spring to rotate through the pressing plate when the movable fan blade 802 reversely rotates, the movable fan blade 802 can be limited through the one-way spring rod 805 during forward and backward rotation of the movable fan blade 802, the movable fan blade 802 is ensured not to deviate when stirring, the movable fan blades 802 can rotate under the action of resistance, the directions of the needed stress are the same when the upper movable fan blades 802 and the lower movable fan blades 802 deflect, the side face of each movable fan blade 802 is provided with a current limiting plate 803, the outer side of each movable fan blade 802 is positioned below the corresponding current limiting plate 803 and is connected with a baffle 804, the connection part of each movable fan blade 802 and the corresponding current limiting plate 803 is an inclined face, the end part of each movable fan blade 802 is attached to the inner wall of the stirring tank 4, concentrate during backwashing can be conveniently guided, the concentrate can flow to the inner wall of the stirring tank 4 along the corresponding current limiting plate 803, an electromagnetic valve 402 and a reflux pump 403 are arranged in the inner part of the blanking port 401 and are arranged below the stirring tank 4, the reflux pump 403 is positioned below the electromagnetic valve 402, the side face of the reflux pump 403 is connected with a reflux pipe 404, the reflux pipe 404 extends to the inner part of the stirring tank 4 and is connected with a water inlet pipe 11, and the water inlet pipe 11 is sleeved at the bottom end opening position of the guide pipe 10;

the outer wall of the protective shell 1 is provided with a plurality of groups of discharge mechanisms 3, the inside of each group of discharge mechanisms 3 is provided with a water pump 302, the output end of the water pump 302 is provided with a discharge pipe 301 extending to the outer side of the protective shell 1, the inside of the discharge mechanism 3 positioned in the stirring tank 4 is connected with a pressure lever 303, the bottom end of the pressure lever 303 is provided with a switch 304 positioned in the discharge mechanism 3, the inside of the pressure lever 303 is positioned above a movable fan blade 802, when the movable fan blade 802 stirs raw liquid, the movable fan blade 802 can not contact the pressure lever 303, and during backwashing, as the movable fan blade 802 is unfolded due to resistance, the movable fan blade 802 can contact the pressure lever 303 at the moment, so that the pressure lever 303 can be pushed to move to switch on the switch 304, the water pump 302 can operate, concentrate can be pumped out, make things convenient for the unloading, water-splitting sleeve 9 is installed to the outside of pipe 10 in the top or the below of each fixed cover 8 of group, water-splitting sleeve 9's inside is put through with pipe 10, spray pipe 901 is all installed to water-splitting sleeve 9's both sides, and spray pipe 901 keeps the same angle with movable flabellum 802, multiunit sprinkler bead 902 has been seted up to the outer wall of spray pipe 901, and install positive ion adsorption plate 6 between fixed cover 8 of top and the water-splitting sleeve 9 that is close to, install negative ion adsorption plate 7 between fixed cover 8 of below and the water-splitting sleeve 9 that is close to, positive ion adsorption plate 6 is all connected through conducting rod 5 with the top of negative ion adsorption plate 7, can adsorb the peptide chain in the stoste through multiunit adsorption plate, thereby the convenience is purified the raw materials.

Referring to fig. 2 and 3, the sealing ring 101 is internally connected with a wire, the driving motor 2 is connected with an external power supply through the wire, the conducting rod 5 is connected with the positive electrode and the negative electrode of the external power supply through the wire, the positive ion adsorption plate 6 is connected with the positive electrode of the external through the conducting rod 5, and the negative ion adsorption plate 7 is connected with the negative electrode of the external through the conducting rod 5, so that the power utilization mechanism in the device is conveniently connected with the external power supply, and the normal operation of the device is ensured.

Referring to fig. 1 and 2, a buffer seat 405 is installed at the bottom end of a stirring tank 4, the buffer seat 405 is composed of a spring and a hydraulic rod, the stirring tank 4 is in limiting connection with the inside of a protective shell 1 through the buffer seat 405, a plurality of groups of through holes are formed in the outer wall of the protective shell 1, and a discharge pipe 301 extends to the outer side of the protective shell 1 through the through holes, so that vibration generated when the stirring tank 4 runs can be absorbed, and stability when the equipment runs is provided.

Referring to fig. 5, a plurality of sets of fixing plates 1001 are connected to the outer side of the guide tube 10, the guide tube 10 is fixedly connected to the fixing sleeve 8 through the fixing plates 1001, the bottom end of the guide tube 10 extends to the inside of the water inlet tube 11 and is communicated with the water inlet tube 11, each set of water jackets 9 is communicated with the water diversion sleeve 9 through the guide tube 10, and a transmission plate is welded between the inner wall of the guide tube 10 and the output shaft 201.

Referring to fig. 1 to 12, a method for processing and using a multiple peptide stock solution includes the following steps:

step one: firstly, filling sufficient raw materials into a stirring tank, and switching on power supplies of a positive ion adsorption plate and a negative ion adsorption plate through a conductive rod so that the two groups of adsorption plates can adsorb peptide chains in the raw materials;

step two: starting a driving motor, driving the output shaft to rotate by the driving motor, enabling the output shaft to drive the guide pipe and the fixed sleeve to rotate, enabling the fixed sleeve to drive the fixed fan blades and the movable fan blades to rotate, limiting the movable fan blades through the unidirectional spring rod, preventing the movable fan blades from shifting, and stirring raw materials by the movable fan blades;

step three: after the adsorption is finished, the driving motor is closed, the electromagnetic valve is opened, and raw materials in the stirring tank are discharged, so that the diluted dilute solution is lowered to the position above the positive ion adsorption plate;

step four: closing an electromagnetic valve, wherein the adsorbed peptide chains are required to be recovered, and at the moment, reversely starting a driving motor to drive an output shaft to reversely rotate, so that the output shaft reversely drives a plurality of groups of fixed sleeves to reversely rotate, and drives movable fan blades outside the fixed sleeves to reversely rotate;

step five: starting a reflux pump, sucking the discharged light liquid into a reflux pipe, enabling the light liquid to enter a guide pipe, enabling the light liquid to enter a spray pipe through each component water jacket, enabling the light liquid to be sprayed out through a spray nozzle, backwashing each group of adsorption plates, and fixing a water diversion sleeve on the outer side of an output shaft along with the guide pipe, so that the water diversion sleeve can drive the spray pipe and the movable fan blade to synchronously rotate, enabling concentrated liquid generated during backwashing of the adsorption plates to enter the movable fan blade, and enabling the concentrated liquid to flow to the end part of the movable fan blade along with a flow limiting plate through the flow limiting plate and a baffle plate;

step six: the movable fan blades can extrude the compression bar after being unfolded, the switch is extruded after the compression bar is extruded, and the switch is started, so that the water pump is started to suck the concentrated liquid;

step seven: after backwashing is completed, the reflux pump is closed, the rest light liquid is discharged, and new raw materials are connected to carry out subsequent purification processing.

The working principle of the invention is as follows: when the device is used, firstly, the device is assembled, the electromagnetic valve 402 and the reflux pump 403 are installed on the feed opening 401, the reflux pipe 404 is installed at the output end of the reflux pump 403, the reflux pipe 404 is extended into the stirring tank 4, then the stirring tank 4 is installed in the protective shell 1, the stirring tank 4 is limited and fixed through the plurality of groups of buffer seats 405, the end part of the feed opening 401 is extended to the outer side of the protective shell 1, then the plurality of groups of discharge mechanisms 3 are installed on the outer side of the stirring tank 4, the discharge pipe 301 installed at the end part of the discharge mechanisms 3 is extended to the outer side of the protective shell 1, the driving motor 2 is installed in the sealing ring 101, the output shaft 201 is installed on the output end of the driving motor 2, then the guide tube 1001 is sleeved on the outer side of the output shaft 201, and the reflux pipe 404 is communicated with the guide tube 10 through the water inlet pipe 11, the conducting rod 5 is then installed at the bottom end of the sealing ring 101, the conducting rod 5 is extended into the stirring tank 4, the negative ion adsorption plate 7 is firstly installed at the bottom end of the conducting rod 5, two groups of fixing sleeves 8 are symmetrically installed at the outer side of the guide pipe 10, the fixing sleeves 8 are limited through the fixing sheets 1001, the symmetrical two groups of fixing sleeves 8 are aligned with each group of discharging mechanisms 3, the lower part of a movable fan blade 802 at the outer side of one group of fixing sleeves 8 is aligned with the top end adsorption plate of the negative ion adsorption plate 7, the positive ion adsorption plate 6 is also installed at the outer side of the conducting rod 5, the appearance of the positive ion adsorption plate 6 is aligned with the upper part of one group of movable fan blade 802, and the positive ion adsorption plate 6 and the negative ion adsorption plate 7 are respectively communicated with the positive electrode and the negative electrode of an external power supply through the conducting rod 5, so that the installation of the equipment is completed;

when the device is used, firstly, enough raw materials are injected into a stirring tank 4, and the power supplies of a positive ion adsorption plate 6 and a negative ion adsorption plate 7 are connected through a conducting rod, so that two groups of adsorption plates can adsorb peptide chains in the raw materials, then a driving motor 2 is started, the driving motor 2 drives an output shaft 201 to rotate, the output shaft 201 drives a guide pipe 10 and a fixed sleeve 8 to rotate, the fixed sleeve drives a fixed fan blade 801 and a movable fan blade 802 to rotate, at the moment, the movable fan blade 802 is limited by a unidirectional spring rod 805 and does not deviate, the movable fan blade 802 stirs the raw materials, the raw materials are circulated through all groups of adsorption plates for convenient adsorption, after the adsorption is finished, the driving motor 2 is closed, an electromagnetic valve 402 is opened, the raw materials in the stirring tank 4 are discharged, the diluted light liquid is reduced to be above the positive ion adsorption plate 6, the electromagnetic valve 402 is closed, at this time, the adsorbed peptide chain needs to be recovered, at this time, the driving motor 2 is reversely started at first, thereby driving the output shaft 201 to reversely rotate, so that the output shaft 201 reversely drives the plurality of groups of fixed sleeves 8 to reversely rotate, the movable fan blades 802 outside the fixed sleeves 8 are driven to reversely rotate, at this time, the unidirectional spring rod 805 does not limit the movable fan blades 802, the movable fan blades 802 rotate under the pushing of water flow, the movable fan blades 802 are unfolded, at this time, the scraping parts of the side surfaces of the upper and lower groups of movable fan blades 802 are respectively attached to the outer walls of the positive ion adsorption plate 6 and the negative ion adsorption plate 7, so that the movable fan blades 802 can scrape the peptide chain generated when the adsorption plates of each group are backwashed, the cleaning is convenient, then the reflux pump 403 is started, the discharged light liquid is pumped into the reflux pipe 404, the light liquid enters the guide pipe 10, and the water spray pipe 901 through each group of water jackets 9, the thin liquid can be sprayed out through the spray heads 902 to backwash each group of adsorption plates, the water diversion sleeve 9 is also fixed on the outer side of the output shaft 201 along with the guide pipe 10, so that the water diversion sleeve 9 can drive the spray pipe 901 and the movable fan blades 802 to rotate synchronously, thick liquid generated during backwashing of the adsorption plates can enter the movable fan blades 802, the thick liquid is limited and guided through the limiting plates 803 and the baffle 804, the thick liquid can flow to the end parts of the movable fan blades 802 along with the limiting plates 803, the compression rod 303 can be extruded after the movable fan blades 802 are unfolded, the compression rod 303 is extruded to the switch 304 after being extruded, the switch 304 is started, the water pump 302 is started, the thick liquid can be sucked out by the water pump 302, the thick liquid can be conveniently discharged, the recovery efficiency is improved, the back flushed thick liquid can be stored and driven to synchronously move through the movable fan blades 802, the thick liquid can be effectively recovered, the thick liquid can be intercepted by each group of the limiting plates 803, and mutual interference of thick liquid with different ions is avoided;

after the backwashing is completed, the reflux pump 403 is turned off, and the rest of the light liquid is discharged, and a new raw material is accessed for subsequent purification processing.

Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.

Claims (8)

1. The utility model provides a multiple peptide stoste processing equipment, includes protective housing (1) and driving motor (2), sealing ring (101) are installed on the top of protective housing (1), the bottom of sealing ring (101) is connected with conducting rod (5), the output of driving motor (2) is connected with output shaft (201), the internally mounted of protective housing (1) has agitator tank (4), and output shaft (201) extend to the inside of agitator tank (4), feed opening (401) are installed to the bottom of agitator tank (4), its characterized in that: the utility model discloses a stirring tank, including stirring tank (4) and baffle plate (803) and baffle plate (804) are arranged on the outside of output shaft (201), two sets of fixed cover (8) are installed to the outside of output shaft (201) around in stirring tank (4), and two sets of fixed cover (8) up-down symmetry set up in stirring tank (4)'s inside, fixed flabellum (801) are all installed to the both sides of fixed cover (8), fixed flabellum (801) slope sets up, and the outside of fixed flabellum (801) is connected with movable flabellum (802), movable flabellum (802) and fixed flabellum (801) spacing swing joint, current limiting plate (803) have been seted up to the side of movable flabellum (802), and the below that is located current limiting plate (803) is located in movable flabellum (802), the tip of movable flabellum (802) is the laminating with the inner wall of stirring tank (4), multiunit discharge mechanism (3) are installed to the outer wall of protective housing (1), and every group discharge mechanism (3) internally mounted has water pump (302), and discharge mechanism (302) are located in the extension of the output of stirring tank (302) is located in the extension pipe (303), the bottom of depression bar (303) is located internally mounted of bin outlet mechanism (3) and has switch (304), the inside of depression bar (303) is located the top of activity flabellum (802), water jacket (9) are installed to the top or the below that the outside of pipe (10) is located each fixed cover (8), the inside and pipe (10) switch on of water jacket (9), spray pipe (901) are all installed to the both sides of water jacket (9), and spray pipe (901) keep the same angle with activity flabellum (802), multiunit sprinkler bead (902) have been seted up to the outer wall of spray pipe (901), and install positive ion adsorption plate (6) between fixed cover (8) of top and water jacket (9) that are close to, install negative ion adsorption plate (7) between fixed cover (8) of below and the water jacket (9) that are close to, positive ion adsorption plate (6) all are connected through conducting rod (5) with the top of negative ion adsorption plate (7).

2. The apparatus for processing multiple peptide stock solution according to claim 1, wherein: the inside of sealing ring (101) is connected with the wire, driving motor (2) are put through with external power through the wire, conducting rod (5) are put through with external power's positive negative pole through the wire, and positive ion adsorption plate (6) are put through with external positive pole through conducting rod (5), negative ion adsorption plate (7) are put through with external negative pole through conducting rod (5).

3. The apparatus for processing multiple peptide stock solution according to claim 2, wherein: the bottom of agitator tank (4) is installed buffering seat (405), buffering seat (405) comprises spring and hydraulic stem, agitator tank (4) are through the inside spacing connection of buffering seat (405) with protective housing (1), multiunit through-hole has been seted up to the outer wall of protective housing (1), and arranges material pipe (301) and extend to the outside of protective housing (1) through the through-hole.

4. The apparatus for processing multiple peptide stock solution according to claim 3, wherein: the inside of feed opening (401) is located the below of agitator tank (4) and installs solenoid valve (402) and backwash pump (403), and backwash pump (403) are located the below of solenoid valve (402), the side of backwash pump (403) is connected with back flow (404), back flow (404) extend to the internal connection of agitator tank (4) have inlet tube (11), and inlet tube (11) cup joint in the bottom open position of pipe (10).

5. The apparatus for processing multiple peptide stock solution according to claim 4, wherein: the movable fan blade (802) side is connected with one-way spring rod (805), one-way spring rod (805) extends to the internally mounted of fixed fan blade (801) and is provided with one-way sleeve (806), the inner wall of one-way sleeve (806) is provided with a stop block (807), the outside of one-way spring rod (805) is located the inside of one-way sleeve (806) and begins to have spring and clamp plate, one-way spring rod (805) is movably connected with stop block (807) through spring and clamp plate.

6. The apparatus for processing multiple peptide stock solution according to claim 5, wherein: the unidirectional spring rod (805) is eccentrically arranged with the movable fan blade (802), the movable fan blade (802) is limited by the unidirectional spring rod (805) when rotated, the unidirectional spring rod (805) is extruded to rotate by the pressing plate when the movable fan blade (802) reversely rotates, and the directions of the needed stress are the same when the upper movable fan blade (802) and the lower movable fan blade (802) are deflected.

7. The apparatus for processing multiple peptide stock solution according to claim 6, wherein: the utility model discloses a water distribution device, including pipe (10), fixed cover (201), pipe (10), fixed cover (8), each group water jacket (9) all put through with branch water jacket (9) through pipe (10), the pipe (10) is connected with multiunit stationary blade (1001) outside, the bottom of pipe (10) extends to the inside of inlet tube (11) and put through with inlet tube (11) through fixed cover (8) through stationary blade (1001), the welding has the transmission piece between the inner wall of pipe (10) and output shaft (201).

8. A method for processing and using a multiple peptide stock solution, characterized in that the multiple peptide stock solution processing equipment in claim 7 is used, and the process comprises the following steps:

step one: firstly, filling sufficient raw materials into a stirring tank, and switching on power supplies of a positive ion adsorption plate and a negative ion adsorption plate through a conductive rod so that the two groups of adsorption plates can adsorb peptide chains in the raw materials;

step two: starting a driving motor, driving the output shaft to rotate by the driving motor, enabling the output shaft to drive the guide pipe and the fixed sleeve to rotate, enabling the fixed sleeve to drive the fixed fan blades and the movable fan blades to rotate, limiting the movable fan blades through the unidirectional spring rod, preventing the movable fan blades from shifting, and stirring raw materials by the movable fan blades;

step three: after the adsorption is finished, the driving motor is closed, the electromagnetic valve is opened, and raw materials in the stirring tank are discharged, so that the diluted dilute solution is lowered to the position above the positive ion adsorption plate;

step four: closing an electromagnetic valve, wherein the adsorbed peptide chains are required to be recovered, and at the moment, reversely starting a driving motor to drive an output shaft to reversely rotate, so that the output shaft reversely drives a plurality of groups of fixed sleeves to reversely rotate, and drives movable fan blades outside the fixed sleeves to reversely rotate;

step five: starting a reflux pump, sucking the discharged light liquid into a reflux pipe, enabling the light liquid to enter a guide pipe, enabling the light liquid to enter a spray pipe through each component water jacket, enabling the light liquid to be sprayed out through a spray nozzle, backwashing each group of adsorption plates, and fixing a water diversion sleeve on the outer side of an output shaft along with the guide pipe, so that the water diversion sleeve can drive the spray pipe and the movable fan blade to synchronously rotate, enabling concentrated liquid generated during backwashing of the adsorption plates to enter the movable fan blade, and enabling the concentrated liquid to flow to the end part of the movable fan blade along with a flow limiting plate through the flow limiting plate and a baffle plate;

step six: the movable fan blades can extrude the compression bar after being unfolded, the switch is extruded after the compression bar is extruded, and the switch is started, so that the water pump is started to suck the concentrated liquid;

step seven: after backwashing is completed, the reflux pump is closed, the rest light liquid is discharged, and new raw materials are connected to carry out subsequent purification processing.