CN217342535U - Nylon chip batching device - Google Patents

Abstract

The utility model discloses a polyamide fibre section dosing unit relates to polyamide fibre section production technical field, including batch bin and weighing structure, the top of batch bin is provided with the feeder hopper, and the left side of batch bin is fixed with the washing case, the heating mantle is installed to the bottom of batch bin. The utility model discloses a set up the weighing cylinder, the scale mark, blown down tank and stopper, when reinforced, drive whole weighing cylinder and shift up in the feeder hopper inboard, pour the addendum into the weighing cylinder, and according to what of the scale mark adjustment addendum of weighing cylinder inner wall, the addendum is weighed and is accomplished the back, then transfer the weighing cylinder, make the weighing cylinder transfer the back completely, the stopper and the feeder hopper inner wall block of its outer wall, and then make the weighing cylinder fixed with the feeder hopper, and the blown down tank of weighing cylinder bottom at this moment moves down the inboard that stretches out to the batching box, then the inside added material of weighing cylinder has flowed out through the blown down tank of slope, enter into the batching box, then reinforced the completion.

Description

Nylon chip batching device

Technical Field

The utility model relates to a polyamide fibre section production technical field specifically is a polyamide fibre section dosing unit.

Background

The nylon chip is a kind of polyamide fibre, also called nylon, its basic component is aliphatic polyamide connected by amide- [ NHCO ] -, and is an important synthetic fibre nylon chip continuous production including the steps of using caprolactam solid as raw material, melting, proportioning, pre-polymerization, strip casting and slicing, and extracting, etc..

Prior art publication number is CN 209521147U's patent document provides a reinforced feed proportioning system of 6 section continuous production of polyamide fibre, realize reinforced in succession, material handling has been saved, do not produce the pollution, the waste has been avoided, the accurate control of batching has been realized, when reinforced jam, need not to stop production, the production flexibility has been improved, but current CN 209521147U's patent, though can reach reinforced function in succession, but when reinforced, can't weigh reinforced, make reinforced needs to weigh alone, and then influence whole polyamide fibre machining efficiency, need for a polyamide fibre section dosing unit for this reason.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a polyamide fibre section dosing unit to solve current when reinforced, can't weigh reinforced, make reinforced needs weigh alone, and then add the material outer wall and be stained with the problem that can influence the batching quality and can't the sample detection in the batching process with the dust when influencing whole polyamide fibre machining efficiency, batching.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a polyamide fibre section dosing unit, includes batching box and weighs the structure, the top of batching box is provided with the feeder hopper, and the left side of batching box is fixed with the washing case, the heating mantle is installed to the bottom of batching box, and the front end of batching box is connected with the discharging pipe, first motor is installed to the both sides of feeder hopper, the output of first motor is provided with first stirring frame, the second heating pipe is installed to the inner wall of heating mantle, and the inboard block of heating mantle has the mixing box, electric putter is installed to the inner wall of mixing box, and the inboard of mixing box is provided with the second stirring frame, electric putter's top swing joint has a flitch, the second motor is installed to the rear end of second stirring frame.

The top block that washs the case has sealed lid, and the left side of wasing the case is connected with the inlet tube, the inboard block that washs the case has the box that sieves, and the inner wall of wasing the case installs first heating pipe, the bottom mounting that sieves the box has the protection casing, and the top welding that sieves the box has the handle, the internally mounted of protection casing has the battery, the shock motor is installed to the both sides of battery, the below of inlet tube is provided with the outlet pipe.

The right side of batching box is fixed with the sampling tube, the inboard block of sampling tube has first baffle, and the inner wall bottom of sampling tube has seted up the block groove, the right side of first baffle is provided with the second baffle.

Preferably, the weighing structure comprises a weighing cylinder, a lifting ring, scale marks, a discharge chute and a limiting block, the weighing cylinder is arranged on the inner side of the feeding hopper, the lifting ring is fixed to the top end of the weighing cylinder, the scale marks are arranged on the inner wall of the weighing cylinder, the discharge chute is formed in the inner side of the weighing cylinder, and the limiting block is welded to the outer wall of the weighing cylinder.

Preferably, the weighing cylinder is connected with the feed hopper through a limiting block in a clamping mode, the limiting block is fixedly connected with the weighing cylinder, and the lifting ring is fixedly connected with the weighing cylinder through a baffle.

Preferably, wash the case and pass through support fixed connection with the heating mantle, and sealed lid is connected with washing case block, inlet tube, outlet pipe all run through to the inboard of washing the case, and all install the water pump on inlet tube, outlet pipe, the discharging pipe.

Preferably, the box that sieves is connected with washing case block, and the handle with sieve box top end fixed connection, the protection casing with sieve box bottom end fixed connection, the quantity of shock motor is two, and shock motor and battery pass through power cord electric connection.

Preferably, the heating tank has been seted up to the inside of heating mantle, and second heating pipe and heating tank fixed connection, electric putter passes through mount pad fixed connection with the mixing box inner wall, and the electric putter output passes through chain swing joint with the play flitch, go out flitch and batching incasement wall through pivot swing joint, and the quantity of going out the flitch is two, first stirring frame passes through adjustable shelf swing joint with the batching case.

Preferably, the second motor passes through mounting bracket fixed connection with the heating mantle, and the second stirring frame passes through bearing swing joint with the mixing box, the quantity in block groove is two, and just first baffle, second baffle all are connected through block groove block with the sampling tube, discharging pipe, sampling tube all run through to the inside of mixing box.

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

1. the utility model discloses a set up the weighing cylinder, the scale mark, blown down tank and stopper, when reinforced, drive whole weighing cylinder and shift up in the feeder hopper inboard, pour the addition material into the weighing cylinder, and adjust the volume of addition material according to the scale mark of weighing cylinder inner wall, after the addition material is weighed and is accomplished, then transfer the weighing cylinder, make the weighing cylinder transfer the back completely, the stopper of its outer wall and the inner wall block of feeder hopper, and then make weighing cylinder and feeder hopper fixed, and the blown down tank of weighing cylinder bottom at this moment moves down and stretches out to the inboard of batching box, then the addition material inside the weighing cylinder has flowed out through the blown down tank of slope, enter into the batching box, then reinforced the completion;

2. the utility model discloses a set up the washing case, sieve the box, vibrations motor and first heating pipe, when the material loading, pour into the nylon raw materials in the box that sieves in the washing case, and sieve the box and pass through the supporting shoe with the washing case and fix, seal lid and washing case are fixed, open the water pump on the inlet tube this moment and open, the water pump internal technology is prior art, make the water purification enter into the washing case through the inlet tube, then control the battery operation in the protection casing, make the battery provide power for two real motors through the power cord, make after the vibrations motor circular telegram, produce vibrations, and transmit vibrations to sieving on the box, and then make the nylon raw materials in the box that sieves receive vibrations and fully contact with the water purification, the clean water of top washes the raw materials, and then make the dust that dopes in the nylon raw materials after contacting with the clean water, and filter through sieving the box, and flow out through the outlet pipe, after the raw materials are cleaned, the screen box is lifted up and moved to the upper part of the cleaning box, at the moment, two groups of first heating pipes are controlled to operate, the raw materials in the filter screen are dried, and the dried raw materials can be poured into the batching box;

3. the utility model discloses a set up first baffle, the sampling tube, second baffle and block groove, in mixing process, then open first baffle, make the mixture in the mixing box enter into the sampling tube, take a sample, after the sample, then push down first baffle, make it move down the back, with the block groove block of sampling tube inner wall, then first baffle and sampling tube sealing tube, then will pull up the second baffle, make the mouth of pipe of sampling tube opened, then the sample in the sampling tube flows, collect the back, can carry out experimental study, then the sample is accomplished.

Drawings

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

FIG. 2 is a schematic view of the front cross-section structure of the present invention;

FIG. 3 is a schematic view of the weighing structure of the present invention;

FIG. 4 is a schematic view of the structure of the cleaning tank of the present invention;

fig. 5 is a schematic structural view of a second stirring frame of the present invention;

fig. 6 is a schematic view of the sampling tube structure of the present invention.

In the figure: 1. a batching box; 2. a feed hopper; 3. a weighing structure; 301. a weighing cylinder; 302. lifting the ring; 303. scale lines; 304. a discharge chute; 305. a limiting block; 4. a first motor; 5. a first stirring frame; 6. a cleaning tank; 7. a water inlet pipe; 8. sieving the box; 9. a handle; 10. a protective cover; 11. a vibration motor; 12. a storage battery; 13. a water outlet pipe; 14. a first heating pipe; 15. a sealing cover; 16. a heating mantle; 17. a second heating pipe; 18. a mixing box; 19. an electric push rod; 20. a discharge plate; 21. a second stirring frame; 22. a second motor; 23. a discharge pipe; 24. a sampling tube; 25. a first baffle plate; 26. a clamping groove; 27. a second baffle.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

Please refer to fig. 2 and fig. 3, a polyamide fiber slice batching device, comprising a batching box 1 and a weighing structure 3, characterized in that: the top end of the batching box 1 is provided with a feed hopper 2, the left side of the batching box 1 is fixed with a cleaning box 6, the bottom end of the batching box 1 is provided with a heating cover 16, the front end of the batching box 1 is connected with a discharge pipe 23, the two sides of the feed hopper 2 are provided with first motors 4, the output end of each first motor 4 is provided with a first stirring frame 5, the inner wall of each heating cover 16 is provided with a second heating pipe 17, the inner side of each heating cover 16 is clamped with a mixing box 18, the inner wall of each mixing box 18 is provided with an electric push rod 19, the inner side of each mixing box 18 is provided with a second stirring frame 21, the upper part of each electric push rod 19 is movably connected with a discharge plate 20, the rear end of each second stirring frame 21 is provided with a second motor 22, the weighing structure 3 comprises a weighing cylinder 301, a lifting ring 302, a scale line 303, a discharge chute 304 and a limiting block 305, the inner side of the feed hopper 2 is provided with a weighing cylinder 301, the top end of the weighing cylinder 301 is fixed with a lifting ring 302, the inner wall of the weighing cylinder 301 is provided with scale lines 303, the inner side of the weighing cylinder 301 is provided with a discharge chute 304, the outer wall of the weighing cylinder 301 is welded with a limit block 305, the weighing cylinder 301 is connected with the feed hopper 2 in a clamping manner through the limit block 305, the limit block 305 is fixedly connected with the weighing cylinder 301, the lifting ring 302 is fixedly connected with the weighing cylinder 301 through a baffle, when in feeding, the whole weighing cylinder 301 is driven to move upwards in the inner side of the feed hopper 2 through the lifting ring 302, after the lifting ring moves upwards, the discharge chute 304 at the bottom end of the weighing cylinder 301 enters the inner side of the feed hopper 2, so that the discharge chute 304 is shielded by the inner wall of the feed hopper 2, at the moment, the additive is poured into the weighing cylinder 301, the amount of the additive is adjusted according to the scale lines 303 on the inner wall of the weighing cylinder 301, after the additive is weighed, the weighing cylinder 301 is lowered, so that the limit block 305 on the outer wall of the weighing cylinder 301 is clamped with the inner wall of the feed hopper 2 after the weighing cylinder is completely lowered, and then make weighing cylinder 301 fixed with feeder hopper 2, and the blown down tank 304 of weighing cylinder 301 bottom moved down and stretches out to the inboard of batching box 1 this moment, then the inside additive of weighing cylinder 301 has flowed out through the blown down tank 304 of slope, enters into batching box 1, then reinforced the completion.

Referring to fig. 2 and 4, a nylon chip batching device, a sealing cover 15 is clamped at the top end of a cleaning box 6, a water inlet pipe 7 is connected at the left side of the cleaning box 6, a sieving box 8 is clamped at the inner side of the cleaning box 6, a first heating pipe 14 is installed on the inner wall of the cleaning box 6, a protective cover 10 is fixed at the bottom end of the sieving box 8, a handle 9 is welded at the top end of the sieving box 8, a storage battery 12 is installed inside the protective cover 10, vibration motors 11 are installed at two sides of the storage battery 12, a water outlet pipe 13 is arranged below the water inlet pipe 7, the cleaning box 6 is fixedly connected with the heating cover 16 through a bracket, the sealing cover 15 is clamped with the cleaning box 6, the water inlet pipe 7 and the water outlet pipe 13 penetrate through the inner side of the cleaning box 6, water pumps are installed on the water inlet pipe 7, the water outlet pipe 13 and the water outlet pipe 23, the sieving box 8 is clamped with the cleaning box 6, and the handle 9 is fixedly connected with the top end of the sieving box 8, the protective cover 10 is fixedly connected with the bottom end of the sieving box 8, the number of the vibrating motors 11 is two, the vibrating motors 11 are electrically connected with the storage battery 12 through power lines, when the nylon raw materials are fed, the nylon raw materials are poured into the sieving box 8 in the cleaning box 6, the sieving box 8 is fixed with the cleaning box 6 through supporting blocks, the sealing cover 15 is fixed with the cleaning box 6, a water pump on the water inlet pipe 7 is opened at the moment, the internal technology of the water pump is the prior art, the purified water enters the cleaning box 6 through the water inlet pipe 7, then the storage battery 12 in the protective cover 10 is controlled to operate, the storage battery 12 supplies power to the two real motors 11 through the power lines, after the vibrating motors 11 are electrified, vibration is generated and transmitted to the sieving box 8, the nylon raw materials in the sieving box 8 are further vibrated to be fully contacted with the purified water, the purified water above washes the raw materials, and further, after dust doped in the raw materials is contacted with the purified water, and through sieving box 8 and filtering, and flow out through outlet pipe 13 for the raw materials washs and accomplishes, then lift sieve box 8, make it move to the upper portion of wasing case 6 on it, control two sets of first heating pipe 14 operation this moment, dry the raw materials in the filter sieve 8, after being convenient for the raw materials stoving, can pour into batching box 1.

Referring to fig. 1 and 6, a nylon chip batching apparatus, wherein a sampling tube 24 is fixed on the right side of a batching box 1, a first baffle 25 is clamped on the inner side of the sampling tube 24, a clamping groove 26 is formed at the bottom end of the inner wall of the sampling tube 24, a second baffle 27 is arranged on the right side of the first baffle 25, a heating groove is formed inside a heating cover 16, a second heating tube 17 is fixedly connected with the heating groove, an electric push rod 19 is fixedly connected with the inner wall of a mixing box 18 through a mounting seat, the output end of the electric push rod 19 is movably connected with a discharge plate 20 through a chain, the discharge plate 20 is movably connected with the inner wall of the batching box 1 through a rotating shaft, the number of the discharge plates 20 is two, a first stirring frame 5 is movably connected with the batching box 1 through a movable frame, a second motor 22 is fixedly connected with the heating cover 16 through a mounting frame, and a second stirring frame 21 is movably connected with the mixing box 18 through a bearing, the number of the clamping grooves 26 is two, the first baffle plate 25, the second baffle plate 27 and the sampling tube 24 are connected through the clamping grooves 26 in a clamping manner, the discharge tube 23 and the sampling tube 24 penetrate through the mixing box 18 to control the operation of the first motor 4, the technology inside the first motor 4 is the prior art, after the first motor 4 operates, the first stirring frame 5 is driven to rotate to mix and stir the polyamide raw materials, after the stirring is completed, the two electric push rods 19 operate to control the technology inside the electric push rods 19 to be the prior art, after the electric push rods 19 operate, the two discharge plates 20 are driven by a chain to rotate downwards through a rotating shaft at the end part and are opened after the rotation, the raw materials in the batching box 1 fall into the mixing box 18, then the second motor 22 operates to control the technology inside the second motor 22 to be the prior art, after the second motor 22 operates, the second stirring frame 21 is driven to rotate, make second stirring frame 21 mix the stirring to the polyamide fibre raw materials, in mixing process, then open first baffle 25, make the mixture in the mixing box 18 enter into sampling tube 24, take a sample, after the sample, then push down first baffle 25, make it move down the back, with the block groove 26 block of sampling tube 24 inner wall, then first baffle 25 and sampling tube 24 sealing tube, then will pull up second baffle 27, make the mouth of pipe of sampling tube 24 opened, then the sample in the sampling tube 24 flows out, collect the back, can carry out experimental study, then the sample is accomplished.

The working principle is as follows: when the cleaning box is used, during feeding, polyamide raw materials are poured into the sieving box 8 in the cleaning box 6, the sieving box 8 and the cleaning box 6 are fixed through the supporting block, the sealing cover 15 and the cleaning box 6 are fixed, the water pump on the water inlet pipe 7 is opened at the moment, the internal technology of the water pump is the prior art, purified water enters the cleaning box 6 through the water inlet pipe 7, then the storage battery 12 in the protective cover 10 is controlled to run, the storage battery 12 supplies power to the two real motors 11 through a power line, the vibration motor 11 generates vibration after being electrified and transmits the vibration to the sieving box 8, the polyamide raw materials in the sieving box 8 are vibrated and fully contact with the purified water, the purified water above washes the raw materials, and dust doped in the polyamide raw materials is in contact with the purified water, filtered through the sieving box 8 and flows out through the water outlet pipe 13, so that the raw materials are cleaned, then the screen box 8 is lifted up to be moved to the upper part of the cleaning box 6, at the moment, two groups of first heating pipes 14 are controlled to operate, raw materials in the filter screen 8 are dried, the dried raw materials can be poured into the batching box 1 after being dried, when the materials are fed, the whole weighing cylinder 301 is driven to move upwards on the inner side of the feed hopper 2 through the lifting ring 302, after the raw materials are moved upwards, the discharge chute 304 at the bottom end of the weighing cylinder 301 enters the inner side of the feed hopper 2, so that the discharge chute 304 is shielded by the inner wall of the feed hopper 2, at the moment, the added materials are poured into the weighing cylinder 301, the amount of the added materials is adjusted according to the scale mark 303 of the inner wall of the weighing cylinder 301, after the weighing of the added materials is finished, the weighing cylinder 301 is placed downwards, after the weighing cylinder 301 is completely placed downwards, the limiting block 305 on the outer wall of the weighing cylinder is clamped with the inner wall of the feed hopper 2, so that the weighing cylinder 301 is fixed with the feed hopper 2, and at the discharge chute 304 at the bottom end of the weighing cylinder 301 is moved downwards and extends to the inner side of the batching box 1, the additive inside the weighing cylinder 301 flows out through the inclined discharging chute 304 and enters the batching box 1, the feeding is completed, the operation of the first motor 4 is controlled, the internal technology of the first motor 4 is the prior art, after the operation of the first motor 4, the first stirring frame 5 is driven to rotate, the nylon raw materials are mixed and stirred, after the stirring is completed, the operation of the two electric push rods 19 is controlled, the internal technology of the electric push rods 19 is the prior art, after the operation of the electric push rods 19, the two discharging plates 20 are driven to rotate downwards through the rotating shafts at the end parts by chains, and are opened after the rotation, the raw materials in the batching box 1 fall into the mixing box 18, then the operation of the second motor 22 is controlled, the internal technology of the second motor 22 is the prior art, after the operation of the second motor 22, the second stirring frame 21 is driven to rotate, so that the second stirring frame 21 mixes and stirs the nylon raw materials, in the mixing process, the first baffle 25 is opened, so that the mixture in the mixing box 18 enters the sampling tube 24 for sampling, after sampling, the first baffle 25 is pushed down to move downwards and be clamped with the clamping groove 26 on the inner wall of the sampling tube 24, the first baffle 25 and the sampling tube 24 seal the tube, then the second baffle 27 is pulled up to open the tube opening of the sampling tube 24, so that the sample in the sampling tube 24 flows out, after collection, experimental study can be performed, and then sampling is completed.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the scope of the invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a polyamide fibre section dosing unit, includes batching box (1) and weighs structure (3), its characterized in that: the top end of the batching box (1) is provided with a feed hopper (2), the left side of the batching box (1) is fixed with a cleaning box (6), the bottom end of the batching box (1) is provided with a heating cover (16), the front end of the batching box (1) is connected with a discharge pipe (23), two sides of the feed hopper (2) are provided with a first motor (4), a first stirring frame (5) is arranged at the output end of the first motor (4), a second heating pipe (17) is arranged on the inner wall of the heating cover (16), a mixing box (18) is clamped at the inner side of the heating cover (16), an electric push rod (19) is arranged on the inner wall of the mixing box (18), a second stirring frame (21) is arranged on the inner side of the mixing box (18), a discharge plate (20) is movably connected above the electric push rod (19), a second motor (22) is installed at the rear end of the second stirring frame (21);

the cleaning device is characterized in that a sealing cover (15) is clamped at the top end of the cleaning box (6), a water inlet pipe (7) is connected to the left side of the cleaning box (6), a sieving box (8) is clamped at the inner side of the cleaning box (6), a first heating pipe (14) is installed on the inner wall of the cleaning box (6), a protective cover (10) is fixed at the bottom end of the sieving box (8), a handle (9) is welded at the top end of the sieving box (8), a storage battery (12) is installed inside the protective cover (10), vibrating motors (11) are installed on two sides of the storage battery (12), and a water outlet pipe (13) is arranged below the water inlet pipe (7);

the right side of batching box (1) is fixed with sampling tube (24), the inboard block of sampling tube (24) has first baffle (25), and the inner wall bottom of sampling tube (24) has seted up block groove (26), the right side of first baffle (25) is provided with second baffle (27).

2. The nylon chip batching device of claim 1, characterized in that: the weighing structure (3) comprises a weighing cylinder (301), a lifting ring (302), scale marks (303), a discharge chute (304) and a limiting block (305), the weighing cylinder (301) is arranged on the inner side of the feeding hopper (2), the lifting ring (302) is fixed to the top end of the weighing cylinder (301), the scale marks (303) are arranged on the inner wall of the weighing cylinder (301), the discharge chute (304) is formed in the inner side of the weighing cylinder (301), and the limiting block (305) is welded to the outer wall of the weighing cylinder (301).

3. A polyamide fibre section dosing unit of claim 2 characterized in that: the weighing cylinder (301) is connected with the feed hopper (2) through a limiting block (305) in a clamping mode, the limiting block (305) is fixedly connected with the weighing cylinder (301), and the lifting ring (302) is fixedly connected with the weighing cylinder (301) through a baffle.

4. The nylon chip batching device of claim 1, characterized in that: wash case (6) and heating mantle (16) and pass through support fixed connection, and sealed lid (15) are connected with washing case (6) block, inlet tube (7), outlet pipe (13) all run through to the inboard of washing case (6), and all install the water pump on inlet tube (7), outlet pipe (13), discharging pipe (23).

5. A chinlon chip batching device according to claim 1, characterized in that; sieve box (8) and washing case (6) block and be connected, and handle (9) and sieve box (8) top fixed connection, protection casing (10) and the box (8) bottom fixed connection that sieves, the quantity of vibrations motor (11) is two, and vibrations motor (11) and battery (12) pass through power cord electric connection.

6. The nylon chip batching device according to claim 1, wherein: heating tank has been seted up to the inside of heating mantle (16), and second heating pipe (17) and heating tank fixed connection, electric putter (19) pass through mount pad fixed connection with mixing box (18) inner wall, and electric putter (19) output and play flitch (20) pass through chain swing joint, go out flitch (20) and batching case (1) inner wall through pivot swing joint, and the quantity that goes out flitch (20) is two, first stirring frame (5) and batching case (1) are through adjustable shelf swing joint.

7. The nylon chip batching device of claim 1, characterized in that: second motor (22) and heating mantle (16) pass through mounting bracket fixed connection, and second stirring frame (21) and mixing box (18) pass through bearing swing joint, the quantity in block groove (26) is two, and just first baffle (25), second baffle (27) all are connected through block groove (26) block with sampling tube (24), discharging pipe (23), sampling tube (24) all run through to the inside of mixing box (18).

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