CN218175159U - Pre-formation device with steam guide device and formation system - Google Patents

Abstract

The utility model provides a predicamation becomes device and formation system with steam guider, including pretreatment components, steam direction subassembly, the pretreatment components includes conductive roller, support groove, pure water tank, steam direction subassembly includes the shielding plate, conductive roller is located support groove top, conductive roller's both ends with support the both sides in groove and connect, pure water tank with support the one end in groove and connect, pure water tank is located the lower part of shielding plate, the both sides of shielding plate with pure water tank's both sides are connected, the shielding plate is close to pure water tank with support one side that the groove is connected, become steam when the pure water is heated, steam can upwards rise from pure water tank, when steam upwards rises to the position of shielding plate, steam slowly drifts out along one side that the conductive roller was kept away from to the shielding plate for steam can not arrive the surface of conductive roller, and then can not influence the conductive roller and give normal power-up.

Description

Pre-formation device with steam guide device and formation system

Technical Field

The utility model relates to a change into system technical field, concretely relates to it becomes device and change into system to become in advance with steam guider.

Background

In the aluminium foil preparation process, divide into the precooking stage, become the stage, the heat treatment stage, when precooking the stage, be the pure water in the tank liquor of precooking, the aluminium foil can be through the pure water reaction of being heated then get into and become the stage, when the pure water is heated, can produce a large amount of steam, and the aluminium foil is when getting into the precooking stage, can advance to carry out electrically conductive with the conducting roller contact, and meanwhile, pure water tank liquor produces a large amount of steam, because the horizontal distance of one end apart from the conducting roller of pure water groove is 15 centimetres, consequently steam very easily with the conducting roller contact at the in-process of diffusion at will, conducting roller and vapor contact can, lead to the conducting roller trouble, can't give the aluminium foil power-up.

Disclosure of Invention

In view of this, the utility model provides a can make the conducting roller do not break down the preliminary formation device that has steam guiding device.

A formation system is also provided.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a become device in advance with steam guider, includes preprocessing subassembly, steam direction subassembly, the preprocessing subassembly includes conductive roll, supports groove, pure water tank, steam direction subassembly includes the shielding plate, conductive roll is located support groove top, conductive roll's both ends with support the both sides in groove and be connected, pure water tank with the one end that supports the groove is connected, pure water tank is located the lower part of shielding plate, the both sides of shielding plate with pure water tank's both sides are connected, the shielding plate is close to pure water tank with the one side that the support groove is connected to guide the steam in pure water tank to the one side of keeping away from conductive roll.

Preferably, the steam direction subassembly still includes the deflector, the deflector is the arc, the radian direction of deflector deviates from the conducting roller, the shield plate for with the opposite side that the pure water groove is connected with deflector one side is connected, the shield plate with one side that the deflector is connected is close to the conducting roller, the opposite side of deflector extends to pure water inslot portion.

Preferably, the steam guide assembly further comprises a gas guide pipe, the gas guide pipe is located above the conductive roller, and the gas hole is formed in the direction, away from the conductive roller, of the gas guide pipe.

Preferably, the included angle between the air holes and the horizontal plane is a, and a is 0-90 degrees.

Preferably, the number of the gas guide pipes is three, and the gas guide pipes are sequentially arranged along the direction from the conductive roller to the steam guide assembly.

Preferably, two sides of the shielding plate are inserted into two sides of the pure water tank, and two ends of one side of the shielding plate, which is connected with the guide plate, are inserted into the pure water tank.

Preferably, the pretreatment assembly further comprises a transition roller, the steam guide assembly further comprises a water-cooling pipe, water dripping holes are formed in the bottom of the water-cooling pipe in the direction away from the conductive roller, the transition roller is located above the pure water tank and the support tank, and the transition roller is located below the water-cooling pipe.

Preferably, the included angle between the water dropping hole and the vertical line is b, and the included angle between the 0<b and 45 degrees is less than or equal to.

Preferably, the pretreatment assembly further comprises a water-cooling roller and a water pipe, the water-cooling roller is located between the conductive roller and the transition roller, the interior of the water-cooling roller is hollow, one end of the water-cooling pipe is connected with the water pipe, and one end of the water-cooling pipe is also connected with the water pipe.

A formation system comprising a pre-formation apparatus as described above with a steam guide.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides a pre-formation device with a steam guide device, wherein a shielding plate is arranged above a pure water tank, and the shielding plate is close to one side of the pure water tank connected with a support tank; when the pure water in the pure water tank is heated to be pre-converted into water vapor, the pure water is heated to be changed into the water vapor, the water vapor can be upwards lifted from the pure water tank, when the water vapor upwards rises to the position of the shielding plate, the shielding plate limits the path of water vapor walking, and the water vapor slowly drifts out along one side of the shielding plate far away from the conductive roller, so that the water vapor can not reach the surface of the conductive roller, and further the aluminum foil can not be normally powered on by the conductive roller.

Drawings

FIG. 1 is a schematic diagram of a pre-formation apparatus having a steam guide.

Fig. 2 is a structural sectional view of a preforming device having a steam guide.

Fig. 3 is a side view of a preforming device with a steam guiding device.

Fig. 4 is a schematic structural diagram of the formation system.

FIG. 5 is a schematic diagram of a chemical conversion apparatus having a cleaning electrode surface.

FIG. 6 is a sectional view showing the structure of a chemical conversion apparatus having a cleaning electrode surface.

Fig. 7 is a schematic structural view of the water spray part.

Fig. 8 is a sectional view of a connection pipe.

Fig. 9 is a schematic view showing a first state of the heat treatment apparatus having the elevating function.

Fig. 10 is a schematic view showing a second state of the heat treatment apparatus having the elevating function.

Fig. 11 is a schematic structural view of the lifting assembly.

Fig. 12 is another schematic structural diagram of the lifting assembly.

In the figure: the formation system 1, the pre-formation device 10 with a steam guide device, the formation device 20 with an electrode surface cleaning function, the heat treatment device 30 with a lifting function, the pre-treatment assembly 100, the conductive roller 110, the support groove 120, the pure water groove 130, the transition roller 140, the transmission roller 150, the steam guide assembly 200, the shielding plate 210, the guide plate 220, the gas guide pipe 230, the gas hole 231, the water cooling pipe 240, the water dropping hole 241, the water cooling roller 250, the water pipe 260, the formation assembly 300, the formation groove 310, the electrode 320, the water spraying assembly 400, the water spraying part 420, the connecting pipe 421, the first connecting piece 4211, the first circular table 42111, the second circular table 42112, the second connecting piece 4212, the third circular table 42121, the water spraying pipe 422, the fourth circular table 4221, the nozzle 4222, the first circular opening 42221, the heat treatment box 500, the box body 510, the cover body 520, the fastener 521, the lifting assembly 600, the supporting plate 610, the connecting plate 612, the connecting groove 620, the lifting groove 621, the arc block 6211, the first connecting block 62623, the second lifting block 623 and the driving rod 623.

Detailed Description

The following combines the utility model discloses an attached drawing is right the technical scheme and the technological effect of the embodiment of the utility model are further elaborated.

Referring to fig. 1 to 3, a pre-formation apparatus 10 with a steam guide device includes a pre-treatment assembly 100 and a steam guide assembly 200, wherein the pre-treatment assembly 100 includes a conductive roller 110, a support groove 120 and a pure water groove 130, the steam guide assembly 200 includes a shielding plate 210, the conductive roller 110 is located above the support groove 120, two ends of the conductive roller 110 are connected to two sides of the support groove 120, the pure water groove 130 is connected to one end of the support groove 120, the pure water groove 130 is located at a lower portion of the shielding plate 210, two sides of the shielding plate 210 are connected to two sides of the pure water groove 130, and the shielding plate 210 is close to a side where the pure water groove 130 is connected to the support groove 120 to guide steam of the pure water groove 130 to a side away from the conductive roller 110.

Compared with the prior art, the beneficial effects of the utility model reside in that:

in the pre-formation assembly 10 with the steam guide device, the shielding plate 210 is arranged above the pure water tank 130, and the shielding plate 210 is close to one side of the pure water tank 130 connected with the support tank 120; when the pure water in the pure water tank 130 is heated for performing the pre-formation operation, the pure water is heated to become water vapor, the water vapor can rise upwards from the pure water tank 130, when the water vapor rises upwards to the position of the shielding plate 210, the shielding plate 210 limits the path of the water vapor, the water vapor slowly drifts out along one side of the shielding plate 210 away from the conductive roller 110, the water vapor can not reach the surface of the conductive roller 110, and the normal power-up of the aluminum foil by the conductive roller 110 can not be influenced.

Further, the distance between the shielding plate 210 and the pure water tank 130 is 8-13cm.

Further, the steam guide assembly 200 further includes a guide plate 220, the guide plate 220 is an arc-shaped plate, an arc direction of the guide plate 220 deviates from the conductive roller 110, the other side of the shielding plate 210, which is connected with the pure water tank 130, is connected with one side of the guide plate 220, one side of the shielding plate 210, which is connected with the guide plate 220, is close to the conductive roller 110, the other side of the guide plate 220 extends towards the inside of the pure water tank 130, the guide plate 220 guides the steam in the pure water tank 130 to a place far away from the conductive roller 110 in advance in the pure water tank 130, and the guide plate 220 and the shielding plate 210 cooperate to make the steam float along an oblique line as far as possible, so as to prevent the steam from floating to the surface of the conductive roller 110 as far as possible.

Further, a plurality of driving rollers 150 are arranged in the purified water tank 130, the driving rollers 150 are sequentially arranged in the purified water tank 130, two ends of the driving rollers 150 are connected with two sides of the purified water tank 130, and the guide plate 220 is located above the driving rollers 150.

Further, the steam guide assembly 200 further includes a gas guide pipe 230, the gas guide pipe 230 is located above the conductive roller 110, and a gas hole 231 is formed in a direction, away from the conductive roller 110, of the gas guide pipe 230, so that steam coming out of the gap is purged through the gas hole 231.

Further, the included angle between the air hole 231 and the horizontal plane is a, and a is 0-90 °.

Further, there are three gas guide pipes 230, and the gas guide pipes 230 are sequentially arranged along the direction from the conductive roller 110 to the steam guide assembly 200.

Further, two sides of the shielding plate 210 are inserted into two sides of the purified water tank 130, and two ends of one side of the shielding plate 210 connected to the guide plate 220 are inserted into the purified water tank 130.

Specifically, the specific structure of the plug-in connection is that the shielding plate 210 is provided with an insertion hole, the pure water tank 130 is provided with an insertion hole, and the insertion hole of the shielding plate 210 and the insertion hole of the pure water tank 130 are connected through a plug pin.

When in maintenance or daily inspection, the two sides of the shielding plate 210 and the two sides of the purified water tank 130 are inserted into each other to form a turnover shaft, the inserted pin on the other side is pulled out, the shielding plate 210 is turned over and erected, and people can conveniently inspect the shielding plate.

When the machine is shut down, the pure water tank 130 needs to be cleaned, one side of the shielding plate 210 connected with the guide plate 220 is used as a turning shaft, the plug pin inserted at the other side is pulled out, the shielding plate 210 is turned and erected to shield the transition roller 140, the water cooling roller 250 and the conductive roller 110, so that liquid cannot splash onto the transition roller 140, the water cooling roller 250 and the conductive roller 110 in the cleaning process of the pure water tank 130, and the transition roller 140, the water cooling roller 250 and the conductive roller 110 cannot be damaged.

Further, the pretreatment module 100 further comprises a transition roller 140, the steam guide module 200 further comprises a water-cooling pipe 240, a water dropping hole 241 is arranged at the bottom of the water-cooling pipe 240 in a direction away from the conductive roller 110, the transition roller 140 is located above the connection between the pure water tank 130 and the support tank 120, and the transition roller 140 is located below the water-cooling pipe 240.

Further, an included angle between the water dropping hole 241 and the vertical line is b, the angle between 0<b is less than or equal to 45 degrees, the pure water tank 130 needs water replenishing in the working process, water replenishing is performed through the water dropping hole 241 of the water cooling pipe 240, and in the water replenishing process, water flow presses down water vapor flowing out from between the side wall at one end of the pure water tank 130 and the guide plate 220, so that the water vapor cannot flow out from a gap between the side wall at one end of the pure water tank 130 and the guide plate 220, and the dripped water cannot affect the conductive roller 110.

Further, the pretreatment assembly 100 further comprises a water-cooling roller 250 and a water pipe 260, wherein the water-cooling roller 250 is located between the conductive roller 110 and the transition roller 140, the water-cooling roller 250 is hollow, one end of the water-cooling pipe 240 is connected with the water pipe 260, one end of the water-cooling pipe 240 is also connected with the water pipe 260, and the water-cooling roller 250 is filled with water to cool the aluminum foil.

Referring to fig. 4, a formation system 1 includes the above-mentioned pre-formation device 10 with steam guide device, the formation device 20 with cleaning electrode surface, and the heat treatment device 30 with lifting function, the pre-formation device 10 with steam guide device, the formation device 20 with cleaning electrode surface, and the heat treatment device 30 with lifting function are connected in sequence,

referring to fig. 5 to 8, a formation device 20 with a cleaning electrode surface includes a formation assembly 300 and a water spraying assembly 400, the formation assembly 300 includes a formation tank 310 and electrodes 320, one end of the formation tank 310 is connected to the pure water tank 130, the other end of the formation tank 310 is connected to the heat treatment tank 500, the electrodes 320 are located at two sides of the formation tank 310, two ends of the electrodes 320 are respectively connected to two ends of the formation tank 310, the water spraying assembly 400 includes a water spraying portion 420, one end of the water spraying portion 420 is connected to a water pipe 260, and the other end of the water spraying portion 420 points to the electrodes 320.

Specifically, the electrode 320 and the bath solution are negative electrodes, and the titanium plate is a positive electrode for energizing the aluminum foil.

Specifically, one end of the water spraying part 420 is connected with the pure water pipe 260, the other end of the water spraying part 420 points to the exposed part of the electrode 320, and the electrode 320 is cleaned by pure water, so that the surface of the electrode 320 is clean, no solid is precipitated, the evaporation concentration of the formed liquid is increased after a long time, the concentration of the formed liquid is kept constant by the added pure water, and the quality of the aluminum foil is not affected.

Further, the electrode 320 is U-shaped.

Furthermore, the number of the water spraying assemblies 400 is four, the water spraying assemblies 400 are respectively located on one side of the electrode 320 connected with the formation tank 310, and the exposed end portions of the electrodes are all provided with the water spraying assemblies 400, so that the surfaces of the electrodes 320 are clean.

Referring to fig. 7 to 8, further, the water spraying part 420 includes a plurality of connecting pipes 421 and a water spraying pipe 422, the connecting pipes 421 are sequentially connected to form a conveying channel, one end of the conveying channel formed by the connecting pipes 421 is connected to the water pipe 260, the other end of the conveying channel formed by the connecting pipes 421 is connected to the water spraying pipe 422, and an end of the water spraying pipe 422 is directed to the electrode 320.

Further, the connecting pipe 421 includes a first connecting member 4211 and a second connecting member 4212, the first connecting member 4211 and the second connecting member 4212 are communicated with each other, an opening of one end of the first connecting member 4211 is large, an opening of the other end of the first connecting member 4211 is small, an opening of one end of the second connecting member 4212 is large, an opening of the other end of the connecting member is small, one end of the first connecting member 4211 with the small opening is connected with one end of the second connecting member 4212 with the small opening, so that the first connecting member 4211 is communicated with the second connecting member 4212, and one end of the second connecting member 4212 with the large opening can rotate at one end of the first connecting member 4211 with the large opening of the other connecting pipe 421.

Further, the first connecting piece 4211 comprises a first round table 42111 and a second round table 42112, one end of the first round table 42111 with a large opening is connected with one end of the second round table 42112 with a large opening, and one end of the second round table 42112 with a small opening is connected with the second connecting piece 4212.

Further, the second connecting member 4212 comprises a third circular table 42121, and the end of the third circular table 42121 with a small opening is connected with the end of the second circular table 42112 with a small opening.

Further, the outer diameter of the end with the large opening of the third circular table 42121 is smaller than the inner diameter of the end with the large opening of the first circular table 42111, and the outer diameter of the end with the large opening of the third circular table 42121 is larger than the inner diameter of the end with the small opening of the first circular table 42111.

Specifically, through the matching relationship between the first circular truncated cone 42111 and the second circular truncated cone 42112 of the first connecting piece 4211 and the third circular truncated cone 42121 of the second connecting piece 4212, the formed water flow of the conveying channel can pass through, and the conveying channel can be upright and can change any angle, so that the use is more convenient.

Further, the interior of the water spray pipe 422 is hollow, the water spray pipe 422 includes a fourth circular table 4221 and a nozzle 4222, the size of the fourth circular table 4221 is the same as that of the third circular table 42121, the nozzle 4222 is a cylinder, one end of the nozzle 4222 is provided with a straight opening 42221, one end of a large opening of the fourth circular table 4221 is sleeved in the first circular table 42111, one end of a small opening of the fourth circular table 4221 is connected with the nozzle 4222, one end of the nozzle 4222, provided with the straight opening 42221, points to the electrode 320, and by the arrangement of the straight opening 42221, when the water is sprayed out from the straight opening 42221 of the nozzle 4222, the water is fan-shaped water flow, so that the spraying area is increased, and the electrode 320 exposed outside can be sprayed and washed.

Referring to fig. 9 to 10, a heat treatment apparatus 30 with a lifting function includes a heat treatment box 500 and a lifting assembly 600, wherein the heat treatment box 500 includes a box 510 and a cover 520, one side of the box 510 is rotatably connected to one side of the cover 520, a latch 521 is disposed on the other side of the cover 520 rotatably connected to the box 510, the lifting assembly 600 includes a support portion 610 and a lifting portion 620, one end of the support portion 610 is connected to the box 510, the other end of the support portion 610 is connected to one end of the lifting portion 620, and the other end of the lifting portion 620 can be engaged with the latch 521.

Specifically, the clamping piece is U-shaped, the open end of the clamping piece is connected with the cover 520, and the other end of the clamping piece 521 is clamped with the lifting part 620.

Specifically, through lid 520 sets up fastener 521 under the support of supporting part 610, lift portion 620 with fastener 521 joint, lift portion 620 goes up and down to make lid 520 can open and shut, and then the staff no longer need hard will lid 520 is opened, only needs the lift through lift portion 620 can open lid 520, greatly reduced staff's work load.

Referring to fig. 11 and 12, further, the supporting portion 610 includes: one end of the support plate 611 is vertically connected to the case 510, the other end of the support plate 611 is obliquely connected to one end of the connection groove 612, and the other end of the connection groove 612 is connected to the elevating part 620.

Further, the angle between the connecting groove 612 and the supporting plate 611 is greater than 90 °.

Further, the support plate 611 and the coupling groove 612 form a receiving cavity.

Further, lift portion 620 includes lift groove 621, first link 622, actuating lever 623, first link 622 is located lift groove 621 one end, lift groove 621 is located in the holding cavity that backup pad 611 and connecting groove 612 formed, lift groove 621 one end with first link 622 is connected, lift groove 621 the other end with connecting groove 612 rotates and is connected, first link 622 with actuating lever 623 is connected.

Further, lift portion 620 still includes second connecting block 624, the through-hole is seted up to second connecting block 624, the through-hole inner wall sets up the screw thread, the outer wall of actuating lever 623 sets up the external screw thread, for the backup pad 611 with the one end that connecting groove 612 is connected, second connecting block 624 is located the other end of connecting groove 612, second connecting block 624 with connecting groove 612 rotates and is connected, actuating lever 623 passes the through-hole of second connecting block 624, the one end of actuating lever 623 with first connecting block 622 cup joints, second connecting block 624 with connecting groove 612 rotates the tie point of connecting, lift groove 621 with the tie point that first connecting block 622 is connected constitutes obtuse triangle.

Furthermore, one side of the arc-shaped limiting plate 6211 close to the box 510 is provided with a protrusion, and the disturbing fastener 521 is disengaged from the arc-shaped limiting plate 6211.

Specifically, during the sleeving of one end of the driving rod 623 and the first connecting block 622, the sleeving has a specific structure that: a protrusion is disposed inside the first connecting block 622, and after one end of the driving rod 623 is inserted into the first connecting block 622, the driving rod 623 rotates in the first connecting block 622 and the driving rod 623 cannot be disengaged from the first connecting block 622.

Specifically, when the cover 520 and the box 510 are tightly closed, the arc-shaped limiting plate 6211 is located at the lower portion of the clip 521, when the cover 520 needs to be opened, the rotating handle 625 is rotated counterclockwise, the rotating handle 625 drives the driving rod 623 to be pulled out, a connection line from a connection point of the lifting groove 621 connected to the first connecting block 622 to a connection point of the lifting groove 621 rotatably connected to the connecting groove 612 is shortened, an included angle formed by the lifting groove 621 and the connecting groove 612 is gradually reduced from 180 °, one end of the lifting groove 621 close to the box 510 is lifted, and the cover 520 is lifted along with the fact that the arc-shaped limiting plate 6211 is too high.

Further, the cover 520 is raised to 35-45cm.

Further, the lifting groove 621 has the same shape as the receiving cavity formed by the support plate 611 and the coupling groove 612.

Further, an arc-shaped limiting plate 6211 is arranged on one side, away from the second connecting block 624, of the lifting groove 621, and the arc-shaped limiting plate 6211 contacts with the clip 521.

Further, the lifting unit 620 further includes a rotation handle 625, and the rotation handle 625 is connected to one end of the driving rod 623.

Specifically, the aluminum foil is pretreated by pure water through the pretreatment device 10 having a steam guide device, is treated by the treatment liquid in the treatment tank 310 through the treatment device 20 having a cleaning electrode surface, is treated by the heat treatment device 30 having a lifting function, and is then collected.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a form device in advance with steam guider, its characterized in that includes preliminary treatment subassembly, steam direction subassembly, preliminary treatment subassembly includes conductive roller, support groove, pure water groove, steam direction subassembly includes the shielding plate, conductive roller is located support groove top, conductive roller's both ends with support the both sides in groove and be connected, pure water groove with support the one end in groove and be connected, pure water groove is located the lower part of shielding plate, the both sides of shielding plate with the both sides of pure water groove are connected, the shielding plate is close to pure water groove with support the one side that the groove is connected to guide the steam in pure water groove to the one side of keeping away from conductive roller.

2. The preshaping device with the steam guide device according to claim 1, wherein the steam guide assembly further comprises a guide plate, the guide plate is an arc-shaped plate, the arc direction of the guide plate is away from the conductive roller, the other side of the shielding plate connected with the pure water tank is connected with one side of the guide plate, the side of the shielding plate connected with the guide plate is close to the conductive roller, and the other side of the guide plate extends towards the inside of the pure water tank.

3. The preshaping device with the vapor guiding device according to claim 1, wherein the vapor guiding assembly further comprises a gas guiding pipe, the gas guiding pipe is positioned above the conductive roller, and the gas guiding pipe is provided with a gas hole in a direction away from the conductive roller.

4. The precondensation apparatus with steam guide, as claimed in claim 3, wherein the air holes are at an angle a from 0 ° to 90 ° to the horizontal.

5. The precondensation apparatus with steam guide device of claim 3, wherein the number of the gas guide pipes is three, and the gas guide pipes are arranged in sequence along the direction from the conductive roller to the steam guide component.

6. The presynthesizing apparatus with vapor guide according to claim 2, wherein both sides of said shielding plate are inserted into both sides of said pure water tank, and both ends of one side of said shielding plate connected to said guide plate are inserted into said pure water tank.

7. The precondensation device with steam guide device of claim 1, wherein the pretreatment module further comprises a transition roller, the steam guide module further comprises a water-cooling pipe, the bottom of the water-cooling pipe is provided with water dropping holes in the direction away from the conductive roller, the transition roller is positioned above the connection of the pure water tank and the support tank, and the transition roller is positioned below the water-cooling pipe.

8. The preshaping device with steam guide of claim 7, wherein the angle between the weep hole and the vertical is b, wherein 0<b ≦ 45 °.

9. The precondensation device with a steam guide device according to claim 7, wherein the pretreatment module further comprises a water-cooled roller and a water pipe, the water-cooled roller is positioned between the conductive roller and the transition roller, the water-cooled roller is hollow inside, one end of the water-cooled pipe is connected with the water pipe, and one end of the water-cooled pipe is also connected with the water pipe.

10. A chemical conversion system comprising a preliminary chemical conversion apparatus having a steam guide apparatus as claimed in any one of claims 1 to 9.

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