CN110699727A - Latex electrodeposition device - Google Patents

Abstract

The invention discloses a latex electrodeposition device, which comprises a negative electrode pool and a driving mechanism, wherein the negative electrode pool is used for containing glue solution, the output end of the driving mechanism is provided with a positive electrode reactor, the positive electrode reactor is rotationally connected with the negative electrode pool, the bottom of the negative electrode pool is provided with a plurality of strip-shaped holes, elastic layers are arranged inside the strip-shaped holes, the latex electrodeposition device also comprises a plurality of first magnets, the first magnets are arranged at the bottoms of different elastic layers at intervals, a translation mechanism is arranged below the negative electrode pool, a plurality of second magnets are arranged at two sides of the top of the translation mechanism, a plurality of third magnets are arranged between the second magnets, the third magnets are connected with the top of the translation mechanism, the first magnets are respectively mutually repelled with the second magnets and the third magnets, excitation coils are wound on the peripheries of the second magnets and the third magnets, the latex electrodeposition device can avoid the gradual increase of the volume caused by excessive deposition of solid glue which is not collected, thereby avoiding influencing the electrodeposition of the gel film and the normal collection work of the gel film.

Description

Latex electrodeposition device

Technical Field

The invention belongs to the field of rubber processing, and particularly relates to a latex electrodeposition device.

Background

The solidification of latex is an important link influencing the rubber quality, and the existing processing plants adopt formic acid, acetic acid, sulfuric acid, inorganic salt and other coagulants for solidification, although the method requires simple equipment and process and easy operation, the method also has a plurality of defects: 1. the acid solidification time is long, the product quality is not easy to control, and the continuous production capacity is not stable and poor; 2. the product has large taste and certain harm to human body; 3. the acid has high corrosion to equipment, and the like, which limits the industrialization degree of the acid. In addition, coagulants such as sulfuric acid, inorganic salt and the like are inevitably used in the production process, the cost is high, and the wastewater containing sulfate radicals and the like generated in the production process needs to be treated, so that the environmental pollution is great. In order to solve the problems in the process of rubber acid coagulation, the invention provides a device for extracting latex, which adopts the principle of electrodeposition to destroy the charged double electric layers on the surfaces of colloidal particles under the action of charges so as to ensure that latex particles move directionally, thereby demulsifying to obtain gel and finishing the coagulation process.

However, when the electrodeposition device is operated, since the positive electrode reactor needs to rotate relative to the negative electrode cell, a certain distance is required between the positive electrode reactor and the negative electrode cell to obtain a gel film with optimal performance.

In the electrodeposition process, the positive pole reactor is contacted with the surface of the glue solution in the negative pole pool, and the latex can form a gel film on the surface of the positive pole reactor, so that the coagulation of the glue blocks at the two ends of the positive pole reactor is easy to occur, and the coagulated gel film in the area can not be timely and completely collected by the positive pole reactor, so that the deposited solid colloid in the negative pole pool is easy to increase and accumulate, thereby affecting the continuous extraction of the latex, and the volume of the deposited solid colloid is too large and gradually approaches the liquid level of the glue solution due to the gradual accumulation of the solid colloid in the negative pole pool, thereby affecting the uniform winding work of the gel film and affecting the use of the subsequent gel film.

Disclosure of Invention

The invention aims to solve the problem that the latex electrodeposition device can avoid the gradual increase of the volume of the solid colloid which is not collected due to excessive deposition, thereby avoiding influencing the electrodeposition of a gel film and the normal collection work of the gel film.

The invention relates to a latex electrodeposition device, which comprises a negative electrode pool for containing glue solution and a driving mechanism, wherein the output end of the driving mechanism is provided with a positive electrode reactor, the positive electrode reactor is rotationally connected with the negative electrode pool, the bottom of the negative electrode pool is provided with a plurality of strip-shaped holes, elastic layers are arranged inside the strip-shaped holes, the latex electrodeposition device also comprises a plurality of first magnets, the first magnets are arranged at the bottoms of different elastic layers at intervals, a translation mechanism is arranged below the negative electrode pool, a plurality of second magnets are arranged on two sides of the top of the translation mechanism, a plurality of third magnets are arranged between the second magnets, the third magnets are connected with the top of the translation mechanism, the first magnets are respectively mutually repelled with the second magnets and the third magnets, excitation coils are wound on the peripheries of the second magnets and the third magnets, and the excitation coils, the driving mechanism and the translation mechanism are electrically connected with an external power supply, the negative electrode pool is connected with the negative electrode of an external power supply, and the positive electrode reactor is connected with the positive electrode of the external power supply.

Furthermore, actuating mechanism includes driving motor and first drive wheel, first drive wheel is located driving motor's output, positive pole reactor has worn first pivot, the both ends of first pivot are all passed the negative pole pond and rotate relatively with it, the one end of first pivot is equipped with the second drive wheel, the second drive wheel with be equipped with first drive belt between the first drive wheel.

Furthermore, one end of the first rotating shaft is further provided with a first gear, the outer wall of the negative electrode pool is provided with a second rotating shaft which is rotatably connected with the negative electrode pool, the second rotating shaft is provided with a second gear and a third driving wheel, the second gear is meshed with the first gear, the outer wall of the negative electrode pool is provided with a third rotating shaft which is rotatably connected with the negative electrode pool, the third rotating shaft is provided with a fourth driving wheel and a fifth driving wheel, a second driving belt is arranged between the fourth driving wheel and the third driving wheel, the negative electrode pool is provided with a plurality of supports, a winding drum is arranged between the supports, the winding drum penetrates through the fourth rotating shaft which rotates relative to the supports, a sixth driving wheel is arranged on the fourth rotating shaft, and a third driving belt is arranged between the sixth driving wheel and the fifth driving wheel.

Further, translation mechanism includes base, a plurality of support, guide rail and linear electric motor, the base is located the below in negative pole pond, the support with the both sides in negative pole pond link to each other, the base with the bottom of support links to each other, the guide rail is located the top of base, the guide rail is located the below in negative pole pond, linear electric motor locates on the guide rail, linear electric motor's top is equipped with the backup pad, second magnet with third magnet is all located the top of backup pad, driving motor locates the top of base, linear electric motor is connected with external power supply electricity.

Furthermore, a gap between the negative electrode pool and the positive electrode reactor is aligned with the first strip-shaped holes on two sides of the bottom of the negative electrode pool.

Further, the top in negative pole pond is equipped with the branch that links to each other with it, be equipped with between the branch and hold the board, the both sides of holding the board are equipped with the connecting rod, the surface of holding the board is equipped with a plurality of through-holes, the connecting rod penetrates in the branch, the connecting rod with can rotate relatively between the branch.

Furthermore, a water receiving disc is arranged below the furling drum, and the bottom of the water receiving disc is abutted to the base.

The invention has the beneficial effects that:

according to the latex electrodeposition device, under the action of the driving mechanism, the positive electrode reactor can rotate under the action of charges and the driving mechanism and winds up the gel film after electrodeposition in the negative electrode pool, the liquid level of the glue solution at two ends of the positive electrode reactor can generate a certain degree of electrodeposition phenomenon, the positive electrode reactor is not directly contacted with the electrodeposited solid glue in the area and cannot be completely collected, the first magnet at the bottom of the elastic layer is respectively identical with the magnetic poles of the second magnet and the third magnet at the top of the translation mechanism when the incompletely collected solid glue is not required to be collected and is mutually repelled under the action of the elastic layer in the strip-shaped hole, and the magnetic force of the second magnet and the third magnet is improved through the excitation coil, so that the elastic layer can be ensured to be not influenced by the gravity of the glue solution in the negative electrode pool to a certain degree And the deformation is too large, so that the liquid level in the negative pole pool can be ensured to be flat, the normal work of the positive pole reactor can be ensured, when the device works normally, the liquid levels of the glue solutions at the two ends of the positive pole reactor can generate a certain degree of electrodeposition and gelatinization phenomena, the current of the magnet exciting coil on the second magnet is adjusted, so that the elastic layer on the first magnet opposite to the second magnet falls below the bottom surface of the negative pole pool, keeps horizontal with the bottom surface of the negative pole pool and moves over the bottom surface of the negative pole pool, the current of the magnet exciting coil on the third magnet is adjusted, so that the elastic layer on the first magnet opposite to the second magnet moves over the bottom surface of the negative pole pool and keeps horizontal with the bottom surface of the negative pole pool, and the partially solidified solid glue moves towards the middle part of the negative pole pool and is uniformly pushed to the liquid capable of contacting with the positive pole reactor After the volume of the solid glue accumulated on the elastic layer close to the side wall of the negative electrode pool is increased, the volume of the solid glue is larger than the distance between the outermost strip-shaped hole and the side wall of the negative electrode pool, so that the solid glue with the increased volume can be moved to the surface of the elastic layer of the inner strip-shaped hole, the solidified solid glue is convenient to attach to the surface of the positive electrode reactor, the situation that the collection is influenced by the overlarge volume of the solid glue which is not collected due to the excessive deposition of the solid glue is avoided, the normal collection operation of the electrodeposition film and the gel film is ensured, the situation that the electrodeposition cannot be stably carried out due to the excessively high flow speed of the glue in the negative electrode pool can be avoided, in addition, the second magnet and the third magnet are intermittently staggered with the first magnet through the back and forth movement of the translation mechanism, and the elastic layer can descend, when the second magnet and the third magnet are aligned with the first magnet, the elastic layer can be reset, and through multiple cycles, the newly added latex in the negative electrode pool can be fully mixed with the original latex under the condition of slow flowing.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view showing the overall structure of a latex electrodeposition apparatus according to the present invention;

FIG. 2 is a top view of a latex electrodeposition apparatus of the present invention;

FIG. 3 is a side view of a latex electrodeposition apparatus of the invention;

FIG. 4 is a schematic view of another perspective of the latex electrodeposition apparatus of the present invention.

In the figure, 1 is a cathode pool, 2 is an anode reactor, 3 is a bar-shaped hole, 4 is an elastic layer, 5 is a first magnet, 6 is a second magnet, 7 is a third magnet, 8 is an excitation coil, 9 is a driving motor, 10 is a first transmission wheel, 11 is a first rotating shaft, 12 is a second transmission wheel, 13 is a first transmission belt, 14 is a first gear, 15 is a second rotating shaft, 16 is a second gear, 17 is a third transmission wheel, 18 is a third rotating shaft, 19 is a fourth transmission wheel, 20 is a fifth transmission wheel, 21 is a second transmission belt, 22 is a bracket, 23 is a winding drum, 24 is a fourth rotating shaft, 25 is a sixth transmission wheel, 26 is a third transmission belt, 27 is a base, 28 is a support, 29 is a guide rail, 30 is a linear motor, 31 is a support plate, 32 is a support rod, 33 is a holding plate, 34 is a connecting rod, 35 is a through hole, and 36 is a water receiving tray.

Detailed Description

In order to better understand the technical content of the invention, specific embodiments are provided below, and the invention is further described with reference to the accompanying drawings.

Referring to fig. 1 to 4, the latex electrodeposition device of the invention comprises a negative electrode tank 1 for containing a glue solution and a driving mechanism, wherein the glue solution can be continuously added into the negative electrode tank 1 in an electrodeposition process to ensure that the liquid level change of the negative electrode tank 1 is small, an output end of the driving mechanism is provided with a positive electrode reactor 2, the positive electrode reactor 2 is rotatably connected with the negative electrode tank 1, the bottom of the negative electrode tank 1 is provided with a plurality of strip-shaped holes 3, the strip-shaped holes 3 are internally provided with an elastic layer 4, the latex electrodeposition device further comprises a plurality of first magnets 5, two sides of the top of a translation mechanism are provided with a plurality of second magnets 6, a plurality of third magnets 7 are arranged between the second magnets 6, the third magnets 7 are connected with the top of the translation mechanism, the first magnets 5 are respectively mutually repulsive with the second magnets 6 and the third magnets 7, and excitation coils 8 are wound around the peripheries of the second magnets 6 and the third magnets 7, the excitation coil 8, the driving mechanism and the translation mechanism are all electrically connected with an external power supply, the negative electrode pool 1 is connected with the negative electrode of the external power supply, the positive electrode reactor 2 is connected with the positive electrode of the external power supply, so that the positive electrode reactor 2 can rotate under the action of charges and the driving mechanism and roll up the gel film after electrodeposition in the negative electrode pool 1, as the liquid level of the glue solution at the two ends of the positive electrode reactor 2 can also generate a certain degree of electrodeposition phenomenon, and the positive electrode reactor 2 is not directly contacted with the solid glue after electrodeposition in the area, the gel film can not be completely rolled up directly, through the action of the elastic layer 4 in the strip-shaped hole 3, when the solid glue which is not completely collected is not required to be collected, the magnetic poles of the first magnet 5 at the bottom of the elastic layer 4 are the same as and mutually exclusive with the magnetic poles of the second magnet 6 and the third magnet 7 at the top of the translation mechanism when not completely collected solid glue is required to be collected, the magnetic force of the second magnet 6 and the third magnet 7 is improved by the exciting coil 8, so that the elastic layer 4 can be ensured to be not influenced by the gravity of the glue solution in the negative electrode pool 1 to deform too much to a certain extent, thereby ensuring that the liquid level in the negative electrode pool 1 is flat, ensuring that the positive electrode reactor 2 can work normally, and when the device works normally, the liquid level of the glue solution at two ends of the positive electrode reactor 2 also has a certain degree of electrodeposition and gelation phenomena, and the current of the exciting coil 8 on the second magnet 6 is adjusted to enable the elastic layer 4 on the first magnet 5 opposite to the second magnet 6 to fall below the bottom surface of the negative electrode pool 1, keep level with the bottom surface of the negative electrode pool 1 and move beyond the bottom surface of the negative electrode pool 1, so as to adjust the current of the exciting coil 8 on the third magnet 7, the elastic layer 4 on the first magnet 5 opposite to the second magnet 6 moves beyond the bottom surface of the negative electrode pool 1 and keeps horizontal with the bottom surface of the negative electrode pool 1, so that the partially solidified solid glue moves towards the middle part of the negative electrode pool 1 and is uniformly pushed to the position near the liquid level which can be contacted with the positive electrode reactor 2, and after the volume of the solid glue accumulated on the elastic layer 4 close to the side wall of the negative electrode pool 1 is increased, the solid glue with the increased volume can be moved to the surface of the elastic layer 4 of the strip-shaped hole 3 at the inner side because the volume of the solid glue is larger than the distance between the outermost strip-shaped hole 3 and the side wall of the negative electrode pool 1, so that the solidified solid glue is uniformly pushed to the position near the liquid level which can be contacted with the positive electrode reactor 2, and the solidified solid is convenient to be attached to the surface of the positive electrode reactor 2, therefore, the gradual increase of the volume of the solid colloid which is not collected due to excessive deposition is avoided, the gel film electrodeposition and the normal collection work of the gel film are ensured, the colloid in the negative electrode pool 1 can be prevented from flowing too fast and being unstable for electrodeposition, in addition, through the back and forth movement of the translation mechanism, the second magnet 6 and the third magnet 7 are intermittently staggered with the first magnet 5, so that the elastic layer 4 can descend, when the second magnet 6 and the third magnet 7 are aligned with the first magnet 5, the elastic layer 4 can reset, and through multiple cycles, the newly added latex in the negative electrode pool 1 can be fully mixed with the original latex under the condition of slow flowing.

Specifically, actuating mechanism includes driving motor 9 and first drive wheel 10, first drive wheel 10 is located driving motor 9's output, positive pole reactor 2 has worn first pivot 11, the both ends of first pivot 11 are all passed negative pole pond 1 and rotate relatively with it, the one end of first pivot 11 is equipped with second drive wheel 12, second drive wheel 12 with be equipped with first drive belt 13 between the first drive wheel 10, through the rotation of first drive wheel 10 drives first drive belt 13 moves, and then passes through first drive belt 13 drives second drive wheel 12 rotates, thereby passes through first pivot 11 is ensured positive pole reactor 2 normally rotates and collects the gel membrane after the electrodeposition, ensures the use of this device.

Specifically, a first gear 14 is further arranged at one end of the first rotating shaft 11, a second rotating shaft 15 rotatably connected with the outer wall of the negative electrode pool 1 is arranged on the outer wall of the negative electrode pool 1, a second gear 16 and a third transmission wheel 17 are arranged on the second rotating shaft 15, the second gear 16 is meshed with the first gear 14, a third rotating shaft 18 rotatably connected with the outer wall of the negative electrode pool 1 is arranged on the outer wall of the negative electrode pool 1, a fourth transmission wheel 19 and a fifth transmission wheel 20 are arranged on the third rotating shaft 18, a second transmission belt 21 is arranged between the fourth transmission wheel 19 and the third transmission wheel 17, a plurality of brackets 22 are arranged on the negative electrode pool 1, a fourth rotating shaft 23 is arranged between the brackets 22, a fourth rotating shaft rotating relative to the brackets 22 penetrates through the fourth rotating shaft 23, a sixth transmission wheel 25 is arranged on the fourth rotating shaft, and a third transmission belt 26 is arranged between the sixth transmission wheel 25 and the fifth transmission wheel 20, when the gel film on the positive electrode reactor 2 needs to be timely collected and the continuous electrodeposition capability of the device is ensured, the gel film solidified on the surface of the positive electrode reactor 2 is removed and adhered to the surface of the fourth rotating shaft 23, the first rotating shaft 11 drives the first gear 14 to rotate, so that the second gear 16 meshed with the first gear 14 rotates, the second rotating shaft 15 rotates and drives the third driving wheel 17 to rotate, then the fourth driving wheel 19 is driven to rotate through the second driving belt 21, the third rotating shaft 18 and the fifth driving wheel 20 are driven to rotate through the fourth driving wheel 19, the third driving belt 26 on the fifth driving wheel 20 drives the sixth driving wheel 25 to rotate, and further the fourth rotating shaft is driven to rotate through the rotation of the sixth driving wheel 25, so that the fourth rotating shaft rotates, and the fourth rotating shaft 23 can timely collect the gel film on the anode reactor 2, so that the continuous electrodeposition capability of the device is ensured.

Specifically, the translation mechanism comprises a base 27, a plurality of supports 28, a guide rail 29 and a linear motor 30, wherein the base 27 is arranged below the negative electrode pool 1, the supports 28 are connected with two sides of the negative electrode pool 1, the base 27 is connected with the bottom of the supports 28, the guide rail 29 is arranged at the top of the base 27, the guide rail 29 is arranged below the negative electrode pool 1, the linear motor 30 is arranged on the guide rail 29, a support plate 31 is arranged at the top of the linear motor 30, the second magnet 6 and the third magnet 7 are both arranged at the top of the support plate 31, the driving motor 9 is arranged at the top of the base 27, the linear motor 30 is electrically connected with an external power supply, and the second magnet 6 and the third magnet 7 at the top of the support plate 31 are intermittently staggered with the first magnet 5 through the back and forth movement of the linear motor 30 on the guide rail 29, so that the elastic layer 4 can descend, and when the second magnet 6 and the third magnet 7 are aligned with the first magnet 5, the elastic layer 4 can be reset, and through multiple cycles, the newly added latex in the negative electrode tank 1 can be fully mixed with the original latex under the condition of slow flowing.

Specifically, clearance between negative pole pond 1 and the anodal reactor 2 with be located the bar hole 3 of 1 bottom both sides of negative pole pond is aligned, ensures the solid glue at 2 both ends of anodal reactor can sink to elastic layer 4 surfaces in the bar hole 3 of 1 bottom both sides of negative pole pond, thereby be convenient for carry the solid glue to the elastic layer 4 surfaces in the bar hole 3 of difference under the motion of elastic layer 4, be convenient for push away the solid glue to with near the liquid level of 2 contacts of anodal reactor, ensure the reliability of this device work.

Specifically, the top in negative pole pond 1 is equipped with branch 32 continuous with it, be equipped with between the branch 32 and hold board 33, the both sides of holding board 33 are equipped with connecting rod 34, the surface of holding board 33 is equipped with a plurality of through-holes 35, connecting rod 34 penetrates in the branch 32, connecting rod 34 with can rotate relatively between the branch 32, through hold the section of thick bamboo of blowing in the through-hole 35 on board 33 surface, be convenient for carry out timely weathering with the gel membrane, be convenient for subsequent collection, and pass through connecting rod 34 relative rotation between the branch 32 can adjust the section of thick bamboo of blowing direction of blowing according to actual need, avoids the gel membrane to blow off and influence the roll-up work of gel membrane by too strong wind-force.

Specifically, a water pan 36 is arranged below the fourth rotating shaft 23, the bottom of the water pan 36 is abutted to the base 27, water can be collected under the action of the water pan 36 and can be taken out and conveniently cleaned, water on the surface of the gel film is prevented from dripping on the surface of the experiment table, and the trouble of subsequent cleaning is reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a latex electrodeposition device, its characterized in that, including negative pole pond and the actuating mechanism that is used for holding the glue solution, actuating mechanism's output is equipped with positive pole reactor, rotate between positive pole reactor and the negative pole pond and be connected, the bottom in negative pole pond is equipped with a plurality of shape holes, the inside in bar hole all is equipped with the elastic layer, still includes a plurality of first magnets, first magnet interval sets up differently the elastic layer bottom, the below in negative pole pond is equipped with translation mechanism, translation mechanism's top both sides are equipped with a plurality of second magnets, be equipped with a plurality of third magnets between the second magnet, the third magnet with translation mechanism's top links to each other, first magnet respectively with second magnet and third magnet repel each other, second magnet and third magnet periphery are around there being excitation coil, excitation coil, The driving mechanism and the translation mechanism are electrically connected with an external power supply, the negative electrode pool is connected with the negative electrode of the external power supply, and the positive electrode reactor is connected with the positive electrode of the external power supply.

2. The latex electrodeposition device according to claim 1, wherein the driving mechanism comprises a driving motor and a first driving wheel, the first driving wheel is disposed at an output end of the driving motor, the positive electrode reactor is penetrated by a first rotating shaft, two ends of the first rotating shaft are both penetrated through the negative electrode pool and rotate relative to the negative electrode pool, one end of the first rotating shaft is provided with a second driving wheel, and a first driving belt is disposed between the second driving wheel and the first driving wheel.

3. The latex electrodeposition device according to claim 1, wherein said first rotating shaft is further provided at one end thereof with a first gear, the outer wall of the negative pole pool is provided with a second rotating shaft which is rotationally connected with the negative pole pool, the second rotating shaft is provided with a second gear and a third driving wheel, the second gear is meshed with the first gear, the outer wall of the negative electrode pool is provided with a third rotating shaft which is rotatably connected with the outer wall of the negative electrode pool, a fourth driving wheel and a fifth driving wheel are arranged on the third rotating shaft, a second driving belt is arranged between the fourth driving wheel and the third driving wheel, a plurality of brackets are arranged on the negative electrode pool, a furling drum is arranged between the brackets, a fourth rotating shaft which rotates relative to the brackets penetrates through the furling drum, a sixth driving wheel is arranged on the fourth rotating shaft, and a third driving belt is arranged between the sixth driving wheel and the fifth driving wheel.

4. The latex electrodeposition device according to claim 1, wherein the translation mechanism comprises a base, a plurality of supports, a guide rail and a linear motor, the base is disposed below the negative electrode pool, the supports are connected to both sides of the negative electrode pool, the base is connected to the bottom of the supports, the guide rail is disposed at the top of the base, the guide rail is disposed below the negative electrode pool, the linear motor is disposed on the guide rail, a support plate is disposed at the top of the linear motor, the second magnet and the third magnet are disposed at the top of the support plate, the driving motor is disposed at the top of the base, and the linear motor is electrically connected to an external power supply.

5. The latex electrodeposition apparatus of claim 1 wherein the gap between the negative cell and the positive reactor is aligned with the slotted holes on both sides of the bottom of the negative cell.

6. The latex electrodeposition device according to claim 1, wherein the top of the negative electrode tank is provided with support rods connected thereto, a holding plate is arranged between the support rods, connecting rods are arranged on both sides of the holding plate, a plurality of through holes are arranged on the surface of the holding plate, the connecting rods penetrate into the support rods, and the connecting rods and the support rods can rotate relatively.

7. The latex electrodeposition device according to claim 1, wherein a water pan is provided below the retraction cylinder, and the bottom of the water pan abuts against the base.

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