CN117225189B - Amino acid film decoloring equipment and process - Google Patents

Abstract

The invention relates to the technical field of decoloring equipment, and provides amino acid film decoloring equipment and a process, wherein the equipment can be used for realizing timely and dynamic cleaning of a decoloring film along with decoloring treatment of amino acid, the cleaning is timely, the decoloring operation stability of the amino acid is good, the decoloring operation of the amino acid can be performed in the cleaning process, the relative influence between the two steps is low, the practicability is good, the equipment comprises a vertical rod and an equipment frame, the equipment frame comprises a top frame and a bottom frame, an arc-shaped liquid discharging cylinder and a contact sealing frame are fixedly connected between the top frame and the bottom frame, a liquid discharging pipe is communicated with the arc-shaped liquid discharging cylinder, a squirrel cage cylinder and a driving cylinder are rotatably connected between the top frame and the bottom frame, a servo motor for driving the driving cylinder to rotate is arranged at the top end of the top frame, a decoloring film belt is in transmission connection between the driving cylinder and the squirrel cage cylinder, and a first rotary sealing roller and a second rotary sealing roller are rotatably matched on the contact sealing frame, and the first rotary sealing roller and the second rotary sealing roller are rotatably connected between the top frame and the bottom frame.

Description

Amino acid film decoloring equipment and process

Technical Field

The invention relates to the technical field of decoloring equipment, in particular to amino acid film decoloring equipment and process.

Background

As is well known, amino acids are organic compounds containing basic amino groups and acidic carboxyl groups, are basic substances of animal nutrition proteins, and are usually decolorized in the production process of amino acids, so that an amino acid membrane decolorization device and an amino acid membrane decolorization process are provided.

Through retrieving, chinese patent application number CN 201922025164.0's patent discloses a decoloration jar for amino acid production, it roughly describes, including the decoloration jar, the bottom fixedly connected with spacer sleeve of decoloration jar inner wall, the spacer sleeve has been cup jointed to the top of spacer sleeve inner chamber, the constant head tank has all been seted up to the left and right sides of spacer sleeve inner wall, the cross rod has been cup jointed in the spacer sleeve, the top of cross rod overlaps with the bottom of spacer sleeve, the bottom of cross rod is through elastic component and the bottom of spacer sleeve inner wall offset, the middle part fixedly connected with ejector rod at cross rod top, the decoloration jar endotheca has cylindricality to adsorb cotton, cylindricality adsorbs the axle center department at cotton top and is provided with the cylinder chamber, the cylinder intracavity has cup jointed cylindricality reposition of redundant personnel jar, cylindricality reposition of redundant personnel jar endotheca has filtered the cover, the top fixedly connected with stop collar of filter cover, the bottom fixedly connected with montant of filter cover, the bottom and the top fixedly connected with of ejector rod of montant, it is when using, when handling the residue in the filter cover, press down, the filter cover, the bottom of sliding sleeve moves at the bottom of cylindricality adsorption cotton at this moment, thereby the cross rod is rotated with the space that the bottom of spacer sleeve moves, rotate, the filter sleeve, at the bottom of spacer sleeve, and filter sleeve is rotated, and the elastic component is kept in advance, can be cleared up.

The above-mentioned prior art scheme is although can realize taking out the clearance of filter mantle, but because the decoloration link of amino acid is lasting and is left the residue on the filter mantle, and the residue on the filter screen is more simultaneously, and the decoloration operation to amino acid influences greatly, therefore even though the convenient clearance of taking out of filter mantle of aforementioned technical scheme also influences the decoloration stability of amino acid easily, when the clearance of taking out of filter mantle moreover, only can go on after need amino acid decoloration operation to pause or shut down, the practicality is relatively poor.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the amino acid film decoloring equipment and the process, which can realize timely and dynamic cleaning of a decoloring film along with decoloring treatment of amino acid, the cleaning is timely, the decoloring operation stability of the amino acid is good, the decoloring operation of the amino acid can be performed in the cleaning process, the relative influence between the two steps is low, and the practicability is good.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an amino acid membrane decoloration equipment, includes the montant, still includes the equipment frame, the equipment frame includes roof-rack and chassis, fixedly connected with arc flowing back section of thick bamboo and contact seal between roof-rack and the chassis, the intercommunication has the fluid-discharge tube on the arc flowing back section of thick bamboo, rotate between roof-rack and the chassis and be connected with squirrel cage section of thick bamboo and actuating cylinder, the servo motor that is used for actuating cylinder rotation drive is installed on the top of roof-rack, and the transmission is connected with decoloration membrane area between actuating cylinder and the squirrel cage section of thick bamboo, normal running fit has first rotation seal roller and second rotation seal roller on the contact seal, first rotation seal roller and second rotation seal roller all rotate and connect between roof-rack and chassis, the intercommunication has the inlet pipe on the squirrel cage section of thick bamboo, open the valve along with being installed to the bottom of the inlet pipe, the intercommunication has the guide seal section of thick bamboo on the inlet pipe, montant sliding connection is in the guide seal section of thick bamboo, along with the lift change realization along with the actuating cylinder, sliding connection has the piston disc, the piston disc is connected with the montant, installs electric lift pole on the roof-rack, electric lift pole connection has the telescopic link, can dismantle the supporting structure with the chassis with the cleaning fluid, can dismantle the supporting structure with the chassis.

As a further scheme of this scheme, open the valve along with including fixed end plate, fixed end plate fixed connection is in the bottom of inlet pipe, set up a plurality of first fan-shaped holes on the fixed end plate, the top rotation of fixed end plate is connected with the regulation end plate, be provided with a plurality of second fan-shaped holes on the regulation end plate, be provided with first centre bore on the fixed end plate, montant sliding fit is in the first centre bore, set up the second centre bore on the regulation end plate, fixedly connected with screw block in the second centre bore, set up the screw track on the montant, screw block sliding fit is in the screw track, and screw track's top is provided with the perpendicular track groove that matches with the screw block.

As a further scheme of the scheme, a middle through hole is formed in the piston disc, a plurality of connecting plates are fixedly connected in the middle through hole, and the connecting plates are connected with the vertical rods.

As a further scheme of this scheme, clearance structure includes top mounting bracket and end mounting bracket, top embedding entry and end embedding mouth have been seted up respectively on the roof-mount and the chassis, top embedding entry and end embedding mouth respectively with top mounting bracket and end mounting bracket match, be provided with the limiting plate that matches with end mounting bracket in the end embedding entry, install spacing subassembly on the roof-mount, spacing subassembly is used for the spacing of top mounting bracket, is connected with the well support between top mounting bracket and the end mounting bracket, and the bottom of end mounting bracket and the top of top mounting bracket fixedly connected with fixed guide frame and assembly jig respectively, be connected with a plurality of clearance area on the fixed guide frame, rotate on the assembly jig and be connected with the rotation guide frame, a plurality of clearance area all with the interior ring surface contact in decoloration membrane area installs on the assembly jig and is used for the driven electronic subassembly of rotation guide frame.

As a further scheme of this scheme, electronic subassembly includes driving motor, driving motor installs the left end of assembly jig, install driving pulley on driving motor's the output shaft, rotate on the assembly jig and be connected with the transmission shaft, the left end fixedly connected with drive gear of transmission shaft, be connected with the external gear ring on the rotation guide frame, the external gear ring with driving gear meshing, the right-hand member fixedly connected with driving pulley of transmission shaft, driving pulley with driving pulley passes through the hold-in range transmission and is connected.

As a further scheme of this scheme, spacing subassembly includes trapezoidal piece and mounting hole frame, trapezoidal piece with assembly jig fixed connection, mounting hole frame fixed connection is in the top of roof-rack, sliding connection has the spacer pin on the mounting hole frame, fixedly connected with trapezoidal stopper on the spacer pin, trapezoidal stopper matches with trapezoidal piece, and the rear end fixedly connected with of trapezoidal stopper pops out the spring, pop out the rear end of spring and the front end fixed connection of mounting hole frame.

As a further scheme of this scheme, the bottom fixedly connected with of chassis is connected and is sealed ring plate and spacing hook frame, connect and seal ring inboard fixedly connected with support rail, be provided with two support rail grooves on the lateral wall of cleaning box, two support rail respectively sliding fit is in two support rail grooves, has seted up spacing hook groove on the cleaning box, spacing hook groove with spacing hook frame matches.

As a further scheme of this scheme, the bottom of squirrel cage section of thick bamboo is connected with the guide cylinder axle, guide cylinder axle and the inside intercommunication of squirrel cage section of thick bamboo, and the bottom fixedly connected with tail outer calandria of chassis, tail outer calandria and guide cylinder axle intercommunication.

As a further scheme of the scheme, a plurality of outer inclined supporting legs are fixedly connected to the bottom end of the underframe.

A process for an amino acid film decolorization apparatus comprising the steps of:

s1, when the device is used, the whole amino acid film decoloring device is placed at a use place, then a servo motor, an electric lifting rod and a driving motor are connected with corresponding control circuits according to respective corresponding installation specifications, the control circuits comprise switches, the energizing operation of the servo motor, the electric lifting rod and the driving motor can be controlled through the corresponding switches respectively, then a feed pipe is communicated with an external storage container of amino acid to be decolored, the feed of the feed pipe is realized, and a valve is arranged on a tail discharge pipe to realize the on-off control of the tail discharge pipe;

s2, adjusting the valve in the step S1 to be in a closed state, starting a servo motor and a driving motor, wherein the servo motor is powered to work to drive a driving column to rotate, the driving column rotates to drive a decoloring membrane belt to move, the first rotary sealing roller, the second rotary sealing roller and the arc-shaped liquid discharging cylinder are matched to form contact sealing relative to the decoloring membrane belt, so that the relative independent sealing in a decoloring area formed by surrounding the first rotary sealing roller, the second rotary sealing roller, the arc-shaped liquid discharging cylinder, the contact sealing frame, the top frame and the bottom frame is realized, the slow in-out movement of the decoloring membrane belt in the decoloring area is also met, the decoloring membrane belt realizes the relative segmentation of the decoloring area, the driving motor works to realize the rotary driving of a rotary guiding frame through the matching of a driving belt wheel, a driving gear, an outer gear ring, a driving belt wheel and a synchronous belt, and the rotary guiding frame realizes the motion driving of a cleaning belt, and the cleaning of the decoloring membrane belt is realized through the relative movement of the cleaning belt relative to the decoloring membrane belt;

s3, after the belt to be cleaned runs stably relatively to the decolorizing membrane belt, starting an electric telescopic rod, wherein the electric telescopic rod works to realize the up-and-down reciprocating motion of a vertical rod, the up-and-down reciprocating motion of the vertical rod realizes the up-and-down reciprocating motion of a piston disc in a squirrel cage cylinder, as a plurality of vertical bar holes are formed in the squirrel cage cylinder, a section of closed cylinder body exists above the vertical bar holes, and the moving range of the piston disc is positioned in the closed cylinder body, the synchronous rising of the piston disc and the vertical rod is accompanied, under the cooperation of a spiral block and a spiral track, an adjusting end plate rotates relatively to a fixed end plate, the first fan-shaped hole and the second fan-shaped hole are overlapped up and down, the aim that materials in a feeding pipe enter the squirrel cage cylinder is fulfilled, when the vertical rod and the piston disc synchronously move down, under the cooperation of the spiral block and the spiral track, the adjusting end plate rotates reversely to the rotating direction relative to the fixed end plate, therefore, the upper and lower dislocation of the first fan-shaped hole and the second fan-shaped hole is realized, the cutting-off of the inner parts of the feeding pipe and the squirrel cage cylinder is realized, and after the spiral block enters the vertical track groove, the relative sealing of the adjusting end plate and the fixing end plate can be kept, meanwhile, the piston disc can still form the downward movement of the relative position, the stage can realize the extrusion inflow of the amino acid materials in the squirrel cage cylinder to one side close to the arc-shaped liquid discharge cylinder through the movement of the piston disc, the decoloring treatment of the materials is realized, the materials passing through the decoloring film belt can form an outer row through the liquid discharge pipe, the materials adhered on the decoloring film belt can move out of the decoloring area along with the movement of the decoloring film belt, the retention of the adhered materials in the decoloring film belt is better due to the action of the first rotary sealing roller and the second rotary sealing roller, therefore, the decoloring membrane belt can carry materials adhered in the decoloring membrane belt to synchronously move out of the decoloring area and enter a cleaning area of the cleaning belt, so that auxiliary cleaning is realized;

s4, the cleaning belt can assist in cleaning through cleaning liquid in the cleaning box, so that the cleaning effect of the cleaning belt is guaranteed.

(III) beneficial effects

Compared with the prior art, the invention provides the amino acid film decoloring equipment and the process, which have the following beneficial effects:

1. according to the invention, the main bracket operation structure of the amino acid membrane decoloring device is realized through the cooperation of the device frame, the driving column, the squirrel cage and the decoloring membrane belt, and meanwhile, the decoloring membrane belt can realize slow dynamic switching along with the progress of the amino acid decoloring, so that the amino acid decoloring operation has good stability.

2. According to the invention, through the design of the cleaning structure, dynamic cleaning of the inner ring of the whole decoloring membrane belt can be formed by matching with the movement of the decoloring membrane belt, the decoloring operation of amino acid can be performed in the cleaning process, the relative influence between the two steps is low, and the timely dynamic cleaning of the decoloring membrane belt is realized along with the decoloring treatment of the amino acid, so that the cleaning is timely.

3. According to the invention, through the cooperation of the piston disc, the vertical rod and the electric lifting rod, auxiliary pressurization of the material of amino acid entering the squirrel cage can be realized, so that the passage of the amino acid relative to a decolorizing membrane belt is improved, the decolorizing efficiency of the amino acid is improved, the piston disc is convenient to realize the sealing of the feeding pipe and the squirrel cage when relatively moving downwards in the squirrel cage through the design of the valve, and meanwhile, the piston disc is convenient to realize the sealing of the feeding pipe relative to the squirrel cage after rising in the squirrel cage, so that the practicability is better.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 3 is a schematic perspective view, partially in section, of the entire present invention;

FIG. 4 is a schematic view of a partial enlarged structure at B in FIG. 3 according to the present invention;

FIG. 5 is a schematic perspective view in section of the whole of the present invention;

FIG. 6 is a schematic view of a partially cut-away perspective view of the cooperation of the stationary guide frame, mounting frame, cleaning belt, etc. of the present invention;

FIG. 7 is a schematic view of another perspective view of the whole of the present invention;

FIG. 8 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 7;

FIG. 9 is a schematic view showing the bottom perspective of the invention in combination with the attachment of the closure ring plate, spacing hook and support rail;

FIG. 10 is a schematic exploded perspective view of the cooperation of the feed tube, guide seal cartridge and piston disc of the present invention;

FIG. 11 is a schematic perspective view of the engagement of the adjustment end plate and the screw block of the present invention;

FIG. 12 is a schematic perspective view of a cleaning cartridge according to the present invention;

fig. 13 is a partially cut-away perspective view of a cartridge of the present invention.

In the figure: 1. a vertical rod; 2. a top frame; 3. a chassis; 4. contacting the sealing frame; 5. an arc-shaped liquid discharge cylinder; 6. a liquid discharge pipe; 7. a squirrel cage; 8. a drive column; 9. a decolorizing membrane belt; 10. a first rotary seal roller; 11. a second rotary seal roller; 12. a feed pipe; 13. guiding the sealing cylinder; 14. a piston disc; 15. a synchronizing plate; 16. a cleaning box; 17. fixing the end plate; 18. a first fan-shaped aperture; 19. adjusting the end plate; 20. a second fan-shaped hole; 21. a screw block; 22. a spiral track; 23. a vertical rail groove; 24. a connecting plate; 25. a top mounting rack; 26. a bottom mounting rack; 27. a limiting plate; 28. a middle bracket; 29. fixing a guide frame; 30. an assembly frame; 31. cleaning the belt; 32. rotating the guide frame; 33. a driving belt wheel; 34. a transmission shaft; 35. a drive gear; 36. an outer gear ring; 37. a transmission belt wheel; 38. a trapezoid block; 39. a mounting hole frame; 40. a limiting pin; 41. a trapezoid limiting block; 42. spring is ejected; 43. connecting a closed ring plate; 44. a limit hook frame; 45. a support rail; 46. a support rail groove; 47. a limit hook groove; 48. a guide cylinder shaft; 49. tail material discharge pipes; 50. an outer oblique leg; 51. a synchronous belt.

Detailed Description

Examples

Referring to fig. 1-13, an amino acid film decolorization device comprises a vertical rod 1, a device frame, a top frame 2 and a bottom frame 3, wherein the bottom end of the bottom frame 3 is fixedly connected with a plurality of outer oblique supporting legs 50 to realize an auxiliary support of the bottom frame 3, a certain installation area is arranged at the bottom end of the bottom frame 3, an arc-shaped liquid discharging cylinder 5 and a contact sealing frame 4 are fixedly connected between the top frame 2 and the bottom frame 3, a liquid discharging pipe 6 is communicated on the arc-shaped liquid discharging cylinder 5, a squirrel cage 7 and a driving column 8 are rotationally connected between the top frame 2 and the bottom frame 3, a servo motor for rotationally driving the driving column 8 is arranged at the top end of the top frame 2, a decolorization film belt 9 is connected between the driving column 8 and the squirrel cage 7 in a transmission manner, and the main support operation structure of the amino acid film decolorization device is realized through the cooperation of the device frame, the driving column 8, the squirrel cage 7 and the decolorization film belt 9, simultaneously, the decolorizing membrane belt 9 can realize slow dynamic switching along with the progress of amino acid decolorizing, the stability of the amino acid decolorizing operation is better, the contact sealing frame 4 is rotatably matched with a first rotary sealing roller 10 and a second rotary sealing roller 11, the first rotary sealing roller 10 and the second rotary sealing roller 11 are rotatably connected between the top frame 2 and the bottom frame 3, the squirrel cage drum 7 is communicated with a feed pipe 12, the bottom end of the feed pipe 12 is provided with an opening following valve, the feed pipe 12 is communicated with a guiding sealing drum 13, the vertical rod 1 is slidingly connected in the guiding sealing drum 13, the opening following valve can realize the opening following valve along with the lifting change of the vertical rod 1, the opening following valve comprises a fixed end plate 17, the fixed end plate 17 is fixedly connected at the bottom end of the feed pipe 12, a plurality of first fan-shaped holes 18 are formed on the fixed end plate 17, the top end of the fixed end plate 17 is rotatably connected with an adjusting end plate 19, the adjusting end plate 19 is provided with a plurality of second fan-shaped holes 20, the fixed end plate 17 is provided with a first center hole, the vertical rod 1 is in sliding fit in the first center hole, the adjusting end plate 19 is provided with a second center hole, a spiral block 21 is fixedly connected in the second center hole, the vertical rod 1 is provided with a spiral track 22, the spiral block 21 is in sliding fit in the spiral track 22, the top end of the spiral track 22 is provided with a vertical track groove 23 matched with the spiral block 21, through the valve-following design, the piston disc 14 is convenient to realize the sealing of the feeding pipe 12 and the squirrel cage 7 when relatively downwards moving in the squirrel cage 7, meanwhile, the piston disc 14 is convenient to realize the sealing of the feeding pipe 12 relative to the squirrel cage 7 after rising in the squirrel cage 7, the practicability is good, the bottom end of the squirrel cage 7 is connected with a guide cylinder shaft 48, the guide cylinder shaft 48 is communicated with the inside of the squirrel cage 7, the bottom end of the underframe 3 is fixedly connected with a tail material outer drain 49, the tail material outer drain 49 is communicated with the guide cylinder 48, and the stage of the residual materials in the squirrel cage 7 are conveniently cleaned.

The device is further provided with a piston disc 14 in sliding connection with the squirrel cage 7, the piston disc 14 is connected with the vertical rod 1, an electric lifting rod is arranged on the top frame 2, a synchronizing plate 15 is connected with the vertical rod 1 on a telescopic rod of the electric lifting rod, the synchronizing plate 15 is connected with the vertical rod 1, auxiliary pressurization of materials of amino acid entering the squirrel cage 7 can be realized through the cooperation of the piston disc 14, the vertical rod 1 and the electric lifting rod, so that the passage of the amino acid relative to the decolorizing membrane belt 9 is improved, the decolorizing efficiency of the amino acid is improved, a middle through hole is formed in the piston disc 14, a plurality of connecting plates 24 are fixedly connected in the middle through hole, the connecting plates 24 are connected with the vertical rod 1, the feeding pipe 12 is always in sliding fit in the middle through hole in the up-down motion process, contact sealing is arranged between the feeding pipe 12 and the middle through hole, and the sealing effect between the piston disc 14 and the feeding pipe 12 is ensured, realize the smooth extrusion operation of the piston disc 14 to the materials below the piston disc 14, a cleaning structure is detachably arranged between the top frame 2 and the bottom frame 3, the cleaning structure is used for assisting cleaning of the decolorizing membrane belt 9, the cleaning structure comprises a top mounting frame 25 and a bottom mounting frame 26, a top embedding inlet and a bottom embedding inlet are respectively arranged on the top frame 2 and the bottom frame 3, the top embedding inlet and the bottom embedding inlet are respectively matched with the top mounting frame 25 and the bottom mounting frame 26, a limiting plate 27 matched with the bottom mounting frame 26 is arranged in the bottom embedding inlet, a limiting component is arranged on the top frame 2 and comprises a trapezoid block 38 and a mounting hole frame 39, the trapezoid block 38 is fixedly connected with the assembly frame 30, the mounting hole frame 39 is fixedly connected with the top end of the top frame 2, a limiting pin 40 is slidingly connected with the limiting pin 40, a trapezoid limiting block 41 is matched with the trapezoid block 38, the rear end fixedly connected with of trapezoidal stopper 41 pops out spring 42, the rear end of popping out spring 42 and the front end fixed connection of mounting hole frame 39, spacing subassembly is used for the spacing of top mounting bracket 25, be connected with well support 28 between top mounting bracket 25 and the bottom mounting bracket 26, the bottom of bottom mounting bracket 26 and the top of top mounting bracket 25 are fixedly connected with fixed guide frame 29 and assembly jig 30 respectively, be connected with a plurality of clearance area 31 on the fixed guide frame 29, be connected with rotation guide frame 32 on the assembly jig 30 in a rotating way, a plurality of clearance area 31 all are connected with rotation guide frame 32 transmission, a plurality of clearance area 31 all contact with the inner ring face of decoloration membrane area 9, through the design of clearance structure, can cooperate decoloration membrane area 9 motion and form the dynamic clearance to whole decoloration membrane area 9 inner ring, the decoloration operation of amino acid also can be carried out in the clearance process, relative influence is lower between the two steps, the timely dynamic clearance of decoloration membrane area 9 is realized in the decoloration processing of accompanying amino acid, it is comparatively timely to clear up.

Still further, it is to say, install the electronic subassembly that is used for rotating the guide frame 32 drive on the assembly jig 30, the electronic subassembly includes driving motor, driving motor installs the left end at the assembly jig 30, install driving pulley 33 on driving motor's the output shaft, rotationally be connected with transmission shaft 34 on the assembly jig 30, driving gear 35 is fixedly connected with in the left end of transmission shaft 34, be connected with external gear ring 36 on the rotation guide frame 32, external gear ring 36 meshes with driving gear 35, driving pulley 37 is fixedly connected with in the right-hand member of transmission shaft 34, driving pulley 37 passes through synchronous belt 51 transmission with driving pulley 33 and is connected, realize the motion drive to clearance area 31, the bottom demountable installation of chassis 3 has cleaning box 16, cleaning box 16 is used for holding the washing liquid with clearance structure is supporting, the bottom fixedly connected with of chassis 3 connects and seals ring plate 43 and spacing hook frame 44, fixedly connected with support rail 45 in the connection sealing ring plate 43, be provided with two support rail grooves 46 on the lateral wall of cleaning box 16, two support rail 45 sliding fit respectively in two support rail grooves 46, set up hook 47 on cleaning box 16, the bottom end of chassis 47 and spacing hook 47 form the removable box 16 simultaneously, the cleaning box 16 is located in the relative position of spacing hook 47, the bottom of the chassis 3 is convenient for the cleaning box 16 to be changed.

The servo motor, the electric lifting rod and the driving motor in this embodiment are all conventional devices known to those skilled in the art and purchased in the market, in this patent, only the servo motor, the electric lifting rod and the driving motor are used, the structure and the function of the servo motor are not improved, the setting mode, the installation mode and the electric connection mode of the servo motor are set, and for those skilled in the art, only the debugging operation is performed according to the requirements of the application specification of the servo motor, and the repeated description of the servo motor is omitted.

In summary, the working process of the amino acid membrane decoloring device and the process is that, when in use, the amino acid membrane decoloring device is firstly placed at a use place as a whole, then a servo motor, an electric lifting rod and a driving motor are respectively connected with corresponding control circuits according to respective corresponding installation specifications, the control circuits comprise switches, the corresponding switches can respectively control the electrifying operation of the servo motor, the electric lifting rod and the driving motor, then a feed pipe 12 is communicated with an external storage container of amino acid requiring decoloring treatment, the feed pipe 12 is fed, a valve is arranged on a tail discharge pipe 49 to realize on-off control of the tail discharge pipe 49, the valve is adjusted to a closed state, the servo motor and the driving motor are started, the servo motor is powered to drive a driving column 8 to rotate, the driving column 8 rotates to drive a decoloring membrane belt 9, and as the first rotary sealing roller 10, the second rotary sealing roller 11 and the arc discharge cylinder 5 are matched, contact sealing is formed relative to the decoloring membrane 9, the first rotary sealing roller 10, the second rotary sealing roller 11, the arc discharge cylinder 5, the contact sealing frame 4, the top frame 3 and the driving belt 33 are matched with the driving belt wheel 33, the driving belt is matched with the driving belt 33, the driving belt 32 is matched with the driving belt 33, and the driving belt 32 is matched with the driving belt 32, and the driving belt 33 is matched with the driving belt 32, the cleaning of the decolorizing membrane band 9 is achieved by the relative movement of the cleaning band 31 with respect to the decolorizing membrane band 9.

Further, after the cleaning belt 31 moves stably relatively to the decolorizing film belt 9, an electric telescopic rod is started, the electric telescopic rod works to realize the up-and-down reciprocating motion of the vertical rod 1, the up-and-down reciprocating motion of the vertical rod 1 realizes the up-and-down reciprocating motion of the piston disc 14 in the squirrel cage 7, as a plurality of vertical bar holes are formed in the squirrel cage 7, a section of closed cylinder body is arranged above the vertical bar holes, and the moving range of the piston disc 14 is positioned in the closed cylinder body, so that the synchronous rising of the piston disc 14 and the vertical rod 1 is accompanied, under the cooperation of the spiral block 21 and the spiral track 22, the adjusting end plate 19 rotates relatively to the fixed end plate 17, so that the first fan-shaped hole 18 and the second fan-shaped hole 20 are overlapped up and down, the material in the feeding pipe 12 enters the squirrel cage 7, and under the cooperation of the spiral block 21 and the spiral track 22 when the vertical rod 1 and the piston disc 14 move down synchronously, the adjusting end plate 19 rotates opposite to the rotating direction relative to the fixed end plate 17, so that the upper and lower dislocation of the first fan-shaped hole 18 and the second fan-shaped hole 20 is realized, the cutting of the interiors of the feeding pipe 12 and the squirrel cage 7 is realized, after the spiral block 21 enters the vertical track groove 23, the relative sealing of the adjusting end plate 19 and the fixed end plate 17 can be kept, the piston disc 14 can still form the downward movement of the relative position, the stage can realize the extrusion inflow of the amino acid materials in the squirrel cage 7 to the side close to the arc-shaped liquid discharge tube 5 through the movement of the piston disc 14, realize the decoloring treatment of the materials, the materials passing through the decoloring membrane band 9 can form an outer row through the liquid discharge tube 6, the materials adhered on the decoloring membrane band 9 can move out of the decoloring area along with the movement of the decoloring membrane band 9, due to the action of the first rotary sealing roller 10 and the second rotary sealing roller 11, the retention of the adhered substances in the decolorizing film belt 9 is good, so that the decolorizing film belt 9 can carry the adhered substances in the decolorizing film belt to synchronously move out of the decolorizing area and enter the cleaning area of the cleaning belt 31, auxiliary cleaning is realized, and the cleaning belt 31 can perform auxiliary cleaning through the cleaning liquid in the cleaning box 16 so as to ensure the cleaning effect of the cleaning belt 31.

Claims (9)

1. The utility model provides an amino acid membrane decoloration equipment, includes montant (1), its characterized in that still includes equipment rack, equipment rack includes roof-rack (2) and chassis (3), fixedly connected with arc flowing back section of thick bamboo (5) and contact seal frame (4) between roof-rack (2) and chassis (3), the intercommunication has fluid-discharge tube (6) on arc flowing back section of thick bamboo (5), rotates between roof-rack (2) and chassis (3) and is connected with squirrel cage (7) and actuating cylinder (8), and servo motor that is used for actuating cylinder (8) rotation drive is installed on the top of roof-rack (2), and the transmission is connected with decoloration membrane area (9) between actuating cylinder (8) and squirrel cage (7), the last normal running fit of contact seal frame (4) has first running seal roller (10) and second running seal roller (11), first running seal roller (10) and second running seal roller (11) all rotate and connect between roof-rack (2) and chassis (3), and the intercommunication has squirrel cage (12) on roof-rack (7), actuating cylinder (12) are connected with the feed tube (1) along with the change in the guide cylinder (13) is connected with the feed tube (1) in order to realize that the feed tube (1) is opened and closed, the valve is opened along with including fixed end plate (17), fixed end plate (17) fixed connection is in the bottom of inlet pipe (12), set up a plurality of first fan-shaped holes (18) on fixed end plate (17), the top rotation of fixed end plate (17) is connected with adjusting end plate (19), be provided with a plurality of second fan-shaped holes (20) on adjusting end plate (19), be provided with first centre bore on fixed end plate (17), montant (1) sliding fit is in the first centre bore, set up the second centre bore on adjusting end plate (19), second centre bore internal fixation has screw block (21), set up screw track (22) on montant (1), screw block (21) sliding fit is in screw track (22), and screw track (22)'s top be provided with screw block (21) matched vertical track groove (23), squirrel cage (7) sliding connection has piston disc (14), piston disc (14) are connected with (1), electric motor-driven frame (2) are in the first centre bore, electric motor-driven frame (2) is installed in the lifter (2) screw track (22), can be connected with clearance membrane (15) on the lifter (15) and take (15) to dismantle simultaneously, take on the lifter (15) clearance membrane (3) and be equipped with clearance, take on the lifter (15) clearance together, take (3) clearance together, and can be dismantled simultaneously, the bottom end of the underframe (3) is detachably provided with a cleaning box (16), and the cleaning box (16) is used for containing cleaning liquid matched with the cleaning structure.

2. The amino acid film decoloring device according to claim 1, wherein a central through hole is formed in the piston disc (14), a plurality of connecting plates (24) are fixedly connected in the central through hole, and the connecting plates (24) are connected with the vertical rods (1).

3. The amino acid membrane decoloring device of claim 2, wherein the cleaning structure comprises a top mounting frame (25) and a bottom mounting frame (26), a top embedded inlet and a bottom embedded inlet are respectively formed in the top mounting frame (2) and the bottom mounting frame (3), the top embedded inlet and the bottom embedded inlet are respectively matched with the top mounting frame (25) and the bottom mounting frame (26), a limiting plate (27) matched with the bottom mounting frame (26) is arranged in the bottom embedded inlet, a limiting assembly is arranged on the top mounting frame (2), the limiting assembly is used for limiting the top mounting frame (25), a middle support (28) is connected between the top mounting frame (25) and the bottom mounting frame (26), a fixed guide frame (29) and an assembly frame (30) are respectively fixedly connected to the bottom end of the bottom mounting frame (26) and the top of the top mounting frame (3), a plurality of cleaning belts (31) are connected to the assembly frame (30) in a rotating manner, a plurality of cleaning belts (31) are both connected to the rotating guide frames (32), and the rotating guide frames (32) are connected to the driving belt (32) and the driving belt (32) are used for the driving belt (32) to be in contact with the driving belt (32).

4. The amino acid film decoloring device according to claim 3, wherein the electric component comprises a driving motor, the driving motor is mounted at the left end of the assembly frame (30), a driving belt wheel (33) is mounted on an output shaft of the driving motor, a transmission shaft (34) is rotatably connected to the assembly frame (30), a driving gear (35) is fixedly connected to the left end of the transmission shaft (34), an external gear ring (36) is connected to the rotation guide frame (32), the external gear ring (36) is meshed with the driving gear (35), a driving belt wheel (37) is fixedly connected to the right end of the transmission shaft (34), and the driving belt wheel (37) is in driving connection with the driving belt wheel (33) through a synchronous belt (51).

5. The amino acid film decoloring device according to claim 4, wherein the limiting component comprises a trapezoid block (38) and a mounting hole frame (39), the trapezoid block (38) is fixedly connected with the mounting frame (30), the mounting hole frame (39) is fixedly connected to the top end of the top frame (2), a limiting pin (40) is slidingly connected to the mounting hole frame (39), a trapezoid limiting block (41) is fixedly connected to the limiting pin (40), the trapezoid limiting block (41) is matched with the trapezoid block (38), an ejecting spring (42) is fixedly connected to the rear end of the trapezoid limiting block (41), and the rear end of the ejecting spring (42) is fixedly connected with the front end of the mounting hole frame (39).

6. The amino acid film decoloring device according to claim 5, wherein the bottom end of the bottom frame (3) is fixedly connected with a connecting closed ring plate (43) and a limiting hook frame (44), a supporting rail (45) is fixedly connected in the connecting closed ring plate (43), two supporting rail grooves (46) are arranged on the side wall of the cleaning box (16), the two supporting rail grooves (45) are respectively in sliding fit with the two supporting rail grooves (46), a limiting hook groove (47) is formed in the cleaning box (16), and the limiting hook groove (47) is matched with the limiting hook frame (44).

7. The amino acid film decoloring device according to claim 6, characterized in that the bottom end of the squirrel cage (7) is connected with a guiding cylinder shaft (48), the guiding cylinder shaft (48) is communicated with the inside of the squirrel cage (7), and the bottom end of the underframe (3) is fixedly connected with a tail outer drain pipe (49), and the tail outer drain pipe (49) is communicated with the guiding cylinder shaft (48).

8. The amino acid film decoloring device according to claim 7, wherein the bottom end of the bottom frame (3) is fixedly connected with a plurality of outer oblique legs (50).

9. A process of an amino acid film decoloring apparatus according to any of claims 7 to 8, characterized in that an amino acid film decoloring apparatus is used comprising the steps of:

s1, when the device is used, the whole amino acid film decoloring device is placed at a use place, then a servo motor, an electric lifting rod and a cleaning structure are connected with corresponding control circuits according to respective corresponding installation specifications, the control circuits comprise switches, the energizing operation of the servo motor, the electric lifting rod and the cleaning structure can be controlled through the corresponding switches, then a feed pipe (12) is communicated with an external storage container of amino acid to be decolored, the feed of the feed pipe (12) is realized, and a valve is arranged on a tail outer discharge pipe (49) to realize the on-off control of the tail outer discharge pipe (49);

s2, adjusting the valve in the step S1 to be in a closed state, starting a servo motor and a cleaning structure, wherein the servo motor is powered to work so as to drive a driving column (8) to rotate, the driving column (8) rotates so as to drive a decoloring membrane belt (9) to move, and the first rotary sealing roller (10), the second rotary sealing roller (11) and the arc-shaped liquid discharging cylinder (5) are matched to form contact sealing relative to the decoloring membrane belt (9), so that the relative independent sealing in a decoloring area formed by surrounding the first rotary sealing roller (10), the second rotary sealing roller (11), the arc-shaped liquid discharging cylinder (5), the contact sealing frame (4), the top frame (2) and the bottom frame (3) is realized, the slow in-out movement of the decoloring membrane belt (9) in the decoloring area is also met, the decoloring membrane belt (9) is divided relatively, and the cleaning structure works so as to clean the decoloring membrane belt (9);

s3, after the structure to be cleaned is relatively stable in operation relative to the decolorizing membrane belt (9), an electric telescopic rod is started, the electric telescopic rod works to realize the up-and-down reciprocating motion of the vertical rod (1), the up-and-down reciprocating motion of the vertical rod (1) realizes the up-and-down reciprocating motion of the piston disc (14) in the squirrel cage (7), as a plurality of vertical strip holes are formed in the squirrel cage (7), a section of closed cylinder body exists above the vertical strip holes, and the movement range of the piston disc (14) is positioned in the closed cylinder body, so that the material in the feeding pipe (12) enters the squirrel cage (7) along with the synchronous rising of the piston disc (14) and the vertical rod (1) is opened along with the opening of a valve, and when the vertical rod (1) and the piston disc (14) synchronously move downwards, the valve is closed along with opening so as to realize the cutting-off of the feed pipe (12) and the inner part of the squirrel cage (7), and then the valve is opened along with opening so as to keep the closed state, and the piston disc (14) can still form the downward movement of the relative position, so that the amino acid materials in the squirrel cage (7) can flow into the side close to the arc-shaped liquid discharge tube (5) through the extrusion of the decolorizing membrane belt (9) at the stage, the decolorizing treatment of the materials is realized, the materials which pass through the decolorizing membrane belt (9) can form an outer row through the liquid discharge tube (6), the materials adhered on the decolorizing membrane belt (9) can move out of the decolorizing region along with the movement of the decolorizing membrane belt (9), due to the action of the first rotary sealing roller (10) and the second rotary sealing roller (11), the retention of substances adhered in the decolorizing film belt (9) is good, so that the decolorizing film belt (9) can carry the materials adhered in the decolorizing film belt to synchronously move out of the decolorizing area and enter the cleaning area of the cleaning structure, and dynamic auxiliary cleaning of the decolorizing film belt (9) is realized;

s4, the cleaning structure can assist in cleaning through cleaning liquid in the cleaning box (16) so as to ensure the cleaning effect of the cleaning structure.