CN110271697B - Wheel disc type partition storage device for ore dressing and screening samples and use method - Google Patents

Abstract

The utility model provides a ore dressing sieve appearance wheel disk subregion storage device, includes barrel one, characterized by: the top of the first barrel body is provided with an air hole communicated with the outer wheel, the bottom of the first barrel body is hermetically connected with a second barrel body, the top of the second barrel body is communicated with the inside of the first barrel body, and the invention has the beneficial effects that: the mineral powder separating and storing device has a simple structure, is simple and convenient to operate, greatly reduces the difficulty of screening and sampling minerals, can independently and separately store different minerals, prevents the experimental result from being influenced by powder mixing, does not need to transfer and split-pack the samples, can automatically seal and store the samples after collection, prevents the samples from being damaged by redundant operation, has low dependence on manual experience requirements, and can quickly collect and separate the mineral powder.

Description

Wheel disc type partition storage device for ore dressing and screening samples and use method

Technical Field

The invention relates to the field of geological sample isotope analysis and collection, in particular to a wheel disc type partition storage device for ore dressing and screening and a using method.

Background

At present, in the process of processing a rare gas isotope analysis sample of a geological sample, pure single minerals such as quartz, mica, feldspar, cassiterite and the like must be screened out. At present, the common method is to crush the minerals to 40-80 meshes and then manually screen the single minerals in binoculars, but no good tool exists in the manual mineral screening process, and a self-made simple shifting sheet (such as a blade) is mainly adopted to separate the minerals and divide the same minerals. However, the mineral particles are very fine, are not easy to separate and are very easy to stick on the plectrum, and the operation is very complicated; the split charging process is also manually transferred into the sample bag, the whole operation process is fine, and the requirement on the experience of operators is high.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a wheel disc type partitioned storage device for mineral dressing and screening, which can automatically collect crushed mineral powder and automatically isolate and partition the collected powder, so that the processes of fine operation by using a shifting sheet and manual subpackaging are avoided, and the dependence on manual experience is reduced.

The invention adopts the technical scheme for solving the technical problems that: the ore dressing sieve sample wheel disc type partition storage device comprises a first cylinder body, wherein the top of the first cylinder body is provided with an air hole communicated with an outer wheel, the bottom of the first cylinder body is hermetically connected with a second cylinder body, the top of the first cylinder body is communicated with the inside of the first cylinder body, a first main shaft is fixedly arranged between the top of the inner wall of the first cylinder body and the bottom of the inner wall of the second cylinder body, the first main shaft is positioned at the outer side of the upper half part of the inside of the first cylinder body and is movably connected with a first wheel disc through a bearing, collecting cylinders in threaded connection with the first wheel disc are distributed in the first wheel disc in an array mode, the bottom and the top of each collecting cylinder are communicated with the outside, a filter screen is arranged between the inner walls of the upper half part of each collecting cylinder, the top and the bottom of each collecting cylinder respectively penetrate through the top and the, a third wheel disc is arranged below the second wheel disc and the first wheel disc, a first connecting column is fixedly arranged at the center of the third bottom of the wheel disc, a second bevel gear is fixedly arranged at the outer side of the middle part of the first connecting column, a second connecting column is movably connected to the bottom of the first connecting column, a first fixing plate fixedly connected with the outer side of the first main shaft is fixedly arranged at the bottom of the second connecting column, a semicircular block attached to the outer side of the wheel disc is fixedly arranged at the center of the third top of the wheel disc, a small round column capable of being meshed with a groove and driving the first wheel disc to rotate is fixedly arranged at the edge of the third top of the wheel disc, a second fixing plate is fixedly arranged at the left half part of the first top of the fixing plate, a remote control exhaust fan is fixedly arranged at the left half part of the first bottom of the fixing plate, the positioning rod is connected with the third fixing plate in a sliding manner, a spring is fixedly arranged between the top of the right half part of the third fixing plate and the bottom of the right half part of the third fixing plate, a first bevel gear movably connected with the outer side of the first main shaft through a bearing is arranged above the third fixing plate, a cylinder is arranged at the bottom of the first bevel gear, the bottom of the rear half part of the cylinder is flush with the top of the third fixing plate, an arc-shaped inclined plate with gradually increased length is hermetically connected with the bottom of the front half part of the cylinder, a first guide pipe positioned below the one-way valve is arranged in the collecting cylinder, the central axis of the first guide pipe is aligned with the central axis of the collecting cylinder, the bottom of the first guide pipe penetrates through the third fixing plate, the second fixing plate and the first fixing plate in sequence and then is fixedly connected with the remote control exhaust fan, the, the bottom of the remote control air draft machine is provided with a second guide pipe, the bottom of the second guide pipe sequentially penetrates through the left end of the lower half part of the main shaft, the bottom of the first main shaft and the bottom of the second cylinder and then reaches the lower part of the second cylinder, the right side of the first bevel gear is meshed with a third bevel gear, the center of the third bevel gear is provided with a second main shaft, the right end of the second main shaft respectively penetrates through the inner walls of the second connecting column and the right end of the first cylinder and then reaches the right side of the first cylinder, the right end of the second main shaft is fixedly provided with a handle, the second main shaft is movably connected with the second connecting column through a bearing, the second main shaft is fixedly provided with a fourth bevel gear outside the third bevel gear and the second connecting column, the top of the four bevel gears is meshed with the left end of the second bevel gear, and the inner wall of the left, the small cylinder can rotate the second wheel disc by an angle of 30 degrees when revolving around the third wheel disc for one circle.

A use method of a wheel disc type partition storage device for ore dressing and screening comprises the following steps:

firstly, an exit conduit: the handle is rotated clockwise, the handle rotates to drive the second main shaft to rotate clockwise, the second main shaft rotates clockwise to drive the third bevel gear to rotate clockwise, the third bevel gear rotates clockwise to drive the first bevel gear to rotate anticlockwise, the first bevel gear rotates anticlockwise to drive the arc-shaped inclined plate to gradually press down the third fixing plate, the third fixing plate descends along the positioning rod, the third fixing plate drives the spring to contract and store force after being pressed down, the third fixing plate drives the first upper half part of the guide pipe to descend after being pressed down, the top of the first guide pipe leaves the interior of the collecting cylinder, and the first upper half part of the;

II, replacing the cylinder position: in the first step, the handle is rotated clockwise to drive the second spindle to rotate clockwise, while the second spindle rotates clockwise to drive the third bevel gear to rotate clockwise, the second spindle also drives the fourth bevel gear to rotate clockwise, the fourth bevel gear rotates clockwise to drive the second bevel gear to rotate clockwise, the second bevel gear rotates clockwise to drive the first connecting post to rotate clockwise, the first connecting post rotates clockwise to drive the third turntable to rotate clockwise, the third turntable rotates clockwise to drive the small cylinder to revolve clockwise around the three centers of the third turntable, the top of the first guide pipe can be separated from the collecting cylinder when the arc-shaped inclined plate rotates counterclockwise by one third arc length in the first step, the small cylinder is just meshed with the groove through the clockwise revolution, the first guide pipe continues to descend along with the continuous clockwise rotation of the handle, the small cylinder drives the second bevel gear to rotate counterclockwise by 30 degrees through the clockwise revolution, the wheel disc II rotates anticlockwise by 30 degrees to drive the wheel disc I to rotate anticlockwise by 30 degrees, the wheel disc I rotates by a fixed angle to enable the old collecting cylinder to rotate away, and the new collecting cylinder reaches the upper part of the guide pipe I;

thirdly, resetting: the small cylinder is disengaged from the groove along with the continuous rotation of the handle, the arc-shaped inclined plate does not press the third fixing plate after rotating to the maximum arc length, the spring releases pressure at the moment to drive the third fixing plate to ascend along the positioning rod, the third fixing plate ascends to drive the top of the first guide pipe to ascend to the inside of the collecting barrel, and the corrugated pipe extends;

fourthly, collection: aim at the pure ore deposit powder that needs the collection with two bottoms of pipe, press shift knob, the remote control air exhauster starts, and the check valve is backed up to wind-force, and inside ore deposit powder got into the surge drum through pipe one after being sucked two insides, the filter screen discharged air when can blockking ore deposit powder, when stopping pressing shift knob, the check valve was closed, and the ore deposit powder falls into and accomplishes the collection in the surge drum.

The invention has the beneficial effects that: the mineral powder separating and storing device has a simple structure, is simple and convenient to operate, greatly reduces the difficulty of screening and sampling minerals, can independently and separately store different minerals, prevents the experimental result from being influenced by powder mixing, does not need to transfer and split-pack the samples, can automatically seal and store the samples after collection, prevents the samples from being damaged by redundant operation, has low dependence on manual experience requirements, and can quickly collect and separate the mineral powder.

Drawings

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

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of the collection cartridge of FIG. 1;

fig. 4 is a schematic structural view of the arc-shaped sloping plate of the invention.

Description of reference numerals: the device comprises a cylinder body I1, a main shaft I2, a wheel disc I3, a wheel disc II 4, a semicircular block 5, a connecting column I6, a wheel disc III 7, a bevel gear II 8, a main shaft II 9, a handle 10, a connecting column II 11, a bevel gear IV 12, a fixing plate I13, a bevel gear III 14, a guide pipe II 15, a collecting cylinder 16, a bevel gear I17, a fixing plate III 18, a spring 19, a guide pipe I20, a remote control exhaust fan 21, a fixing plate II 22, a corrugated pipe 23, a positioning rod 24, a one-way valve 25, a small round column 26, a groove 27, a cylinder 28, an arc-shaped inclined plate 29, a cylinder body II 30, a switch button.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

with reference to figures 1, 2, 3, 4: the ore dressing sieve sample wheel disc type partition storage device in the embodiment comprises a cylinder body I1, wherein the top of the cylinder body I1 is provided with an air hole 33 communicated with an outer wheel, the bottom of the cylinder body I1 is hermetically connected with a cylinder body II 30, the top of the cylinder body I1 is communicated with the inside of the cylinder body I1, a main shaft I2 is fixedly arranged between the top of the inner wall of the cylinder body I1 and the bottom of the inner wall of the cylinder body II 30, the main shaft I2 is positioned at the outer side of the upper half part of the inside of the cylinder body I1 and is movably connected with a wheel disc I3 through a bearing, collecting cylinders 16 in threaded connection with the wheel disc I3 are distributed in an array manner in the wheel disc I3, the bottoms and the tops of the collecting cylinders 16 are communicated with the outside, a filter screen 32 is arranged between the inner walls of the upper half part of the collecting cylinders 16, the, the outer side of the wheel disc I3 is fixedly connected with a wheel disc II 4, grooves 27 are distributed in the outer side of the wheel disc II 4 in an array manner, a wheel disc III 7 is arranged below the wheel disc II 4 and the wheel disc I3, a connecting column I6 is fixedly arranged at the center of the bottom of the wheel disc III 7, a bevel gear II 8 is fixedly arranged at the outer side of the middle of the connecting column I6, a connecting column II 11 is movably connected with the bottom of the connecting column I6, a fixing plate I13 fixedly connected with the outer side of the main shaft I2 is fixedly arranged at the bottom of the connecting column II 11, a semicircular block 5 attached to the outer side of the wheel disc II 4 is fixedly arranged at the center of the top of the wheel disc III 7, a small cylinder 26 capable of being meshed with the grooves 27 and driving the wheel disc I3 to rotate when the wheel disc III 7 rotates is fixedly arranged at the edge of the top, a third fixing plate 18 is arranged above the second fixing plate 22, a positioning rod 24 is fixedly arranged on the left half part of the top of the second fixing plate 22, the top of the positioning rod 24 passes through the third fixing plate 18 and then reaches the top of the third fixing plate 18, the positioning rod 24 is connected with the third fixing plate 18 in a sliding manner, a spring 19 is fixedly arranged between the top of the right half part of the second fixing plate 22 and the bottom of the right half part of the third fixing plate 18, a first bevel gear 17 movably connected with the outer side of the first main shaft 2 through a bearing is arranged above the third fixing plate 18, a cylinder 28 is arranged at the bottom of the first bevel gear 17, the first main shaft 2 is positioned in the cylinder 28, the bottom of the rear half part of the cylinder 28 is flush with the top of the third fixing plate 18, an arc-shaped inclined plate 29 with gradually increased length is hermetically connected to the bottom of the front half part of the, the bottom of the first guide pipe 20 penetrates through a third fixed plate 18, a second fixed plate 22 and a first fixed plate 13 in sequence and then is fixedly connected with a remote control exhaust fan 21, the outer side of the first guide pipe 20 is fixedly connected with the third fixed plate 18 and the second fixed plate 22, a corrugated pipe 23 is arranged on the part, located between the third fixed plate 18 and the second fixed plate 22, of the first guide pipe 20, the bottom of the second guide pipe 15 is installed at the bottom of the remote control exhaust fan 21, the bottom of the second guide pipe 15 penetrates through the left end of the lower half part of a first main shaft 2, the bottom of the first main shaft 2 and the bottom of a second cylinder 30 in sequence and then reaches the lower part of the second cylinder 30, a third bevel gear 14 is meshed on the right side of the first bevel gear 17, a second main shaft 9 is arranged in the center of the third bevel gear 14, the right end of the second main shaft 9 penetrates through the, the outer side of the second spindle 9 between the third bevel gear 14 and the second connecting column 11 is fixedly provided with a fourth bevel gear 12, the top of the fourth bevel gear 12 is meshed with the left end of the second bevel gear 8, and the inner wall of the left end of the first cylinder 1 is fixedly provided with a switch button 31.

With reference to figures 1, 2, 3, 4: a use method of a wheel disc type partition storage device for ore dressing and screening comprises the following steps:

firstly, an exit conduit: the handle 10 is rotated clockwise, the handle 10 rotates to drive the second spindle 9 to rotate clockwise, the second spindle 9 rotates clockwise to drive the third bevel gear 14 to rotate clockwise, the third bevel gear 14 rotates clockwise to drive the first bevel gear 17 to rotate anticlockwise, the first bevel gear 17 rotates anticlockwise to drive the arc-shaped inclined plate 29 to gradually press down the third fixing plate 18, the third fixing plate 18 descends along the positioning rod 24, the third fixing plate 18 drives the spring 19 to contract and store force after being pressed down, the third fixing plate 18 drives the upper half part of the first guide pipe 20 to descend after being pressed down, the top of the first guide pipe 20 leaves the interior of the collecting barrel 16, and the upper half part of the first guide pipe 20 descends;

II, replacing the cylinder position: in the first step, the handle 10 is rotated clockwise, the handle 10 rotates to drive the second spindle 9 to rotate clockwise, the second spindle 9 rotates clockwise to drive the third bevel gear 14 to rotate clockwise, the second spindle 9 rotates clockwise to drive the fourth bevel gear 12 to rotate clockwise, the fourth bevel gear 12 rotates clockwise to drive the second bevel gear 8 to rotate clockwise, the second bevel gear 8 rotates clockwise to drive the first connecting post 6 to rotate clockwise, the first connecting post 6 rotates clockwise to drive the third rotary disc 7 to rotate clockwise, the third rotary disc 7 rotates clockwise to drive the small cylinder 26 to revolve clockwise around the center of the third rotary disc 7, when the arc-shaped inclined plate 29 rotates counterclockwise for one third of arc length in the first step, the top of the first guide pipe 20 can be separated from the collecting cylinder 16, at the moment, the small cylinder 26 is just meshed with the groove 27 through the clockwise revolution, and along with the continuous clockwise rotation of the handle 10, the arc-, the small cylinder 26 drives the second wheel disc 4 to rotate anticlockwise by 30 degrees through clockwise revolution, the second wheel disc 4 rotates anticlockwise by 30 degrees and drives the first wheel disc 3 to rotate anticlockwise by 30 degrees, the old collecting cylinder 16 rotates away after the first wheel disc 3 rotates by a fixed angle, and the new collecting cylinder 16 reaches the upper part of the first guide pipe 20;

thirdly, resetting: with the continuous rotation of the handle 10, the small cylinder 26 is disengaged from the groove 27, the arc-shaped sloping plate 29 rotates to the maximum arc length and then does not press the third fixing plate 18, the spring 19 releases the pressure to drive the third fixing plate 18 to ascend along the positioning rod 24, the third fixing plate 18 ascends to drive the top of the first guide pipe 20 to ascend to the inside of the collecting cylinder 16, and the corrugated pipe 23 extends;

fourthly, collection: aim at the pure ore powder that needs the collection with two 15 bottoms of pipe, press shift knob 31, remote control air exhauster 21 starts, and check valve 25 is backed up to wind-force, and inside ore powder got into the surge drum 16 through pipe one 20 after being inhaled two 15 insides, discharge air when filter screen 32 can block ore powder, and when stopping pressing shift knob 31, check valve 25 closed, the ore powder falls into and accomplishes the collection in the surge drum 16.

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

Claims (2)

1. The utility model provides a ore dressing sieve appearance wheel disk subregion storage device, includes barrel one (1), characterized by: the top of the first barrel (1) is provided with an air vent (33) communicated with an outer wheel, the bottom of the first barrel (1) is hermetically connected with a second barrel (30) with the top communicated with the inside of the first barrel (1), a first main shaft (2) is fixedly arranged between the top of the inner wall of the first barrel (1) and the bottom of the inner wall of the second barrel (30), the first main shaft (2) is positioned at the outer side of the upper half part of the inside of the first barrel (1) and is movably connected with a first wheel disc (3) through a bearing, collecting cylinders (16) in threaded connection with the first wheel disc (3) are distributed in the first wheel disc (3) in an array manner, the bottom and the top of each collecting cylinder (16) are communicated with the outside, a filter screen (32) is arranged between the inner walls of the upper half part of each collecting cylinder (16), and the top and the bottom of each collecting cylinder (, collection cylinder (16) inner wall lower half is equipped with check valve (25), rim plate one (3) outside fixedly connected with rim plate two (4), rim plate two (4) outside array distribution has recess (27), rim plate two (4) and rim plate one (3) below are equipped with rim plate three (7), rim plate three (7) bottom center fixed mounting has spliced pole one (6), spliced pole one (6) middle part outside fixed mounting has bevel gear two (8), spliced pole one (6) bottom swing joint has spliced pole two (11), spliced pole two (11) bottom fixed mounting has fixed plate one (13) with main shaft one (2) outside fixed connection, rim plate three (7) top center fixed mounting has semicircle piece (5) with rim plate two (4) outside laminating, rim plate three (7) top edge fixed mounting can mesh with recess (27) and drive rim plate one (3) rotatory when rim plate three (7) are rotatory The device comprises a small cylinder (26), a first fixing plate (13) is fixedly provided with a second fixing plate (22) at the top left half part, the first fixing plate (13) is fixedly provided with a remote control exhaust fan (21) at the bottom left half part, a third fixing plate (18) is arranged above the second fixing plate (22), a positioning rod (24) is fixedly arranged at the top left half part of the second fixing plate (22), the top of the positioning rod (24) passes through the third fixing plate (18) and then reaches the top of the third fixing plate (18), the positioning rod (24) is in sliding connection with the third fixing plate (18), a spring (19) is fixedly arranged between the top of the right half part of the second fixing plate (22) and the bottom of the right half part of the third fixing plate (18), a first bevel gear (17) movably connected with the outer side of a first main shaft (2) through a bearing is arranged above the third fixing, the utility model discloses a pipe-type dust collector, including main shaft one (2) and drum (28), drum (28) latter half bottom and three fixed plate (18) top parallel and level, drum (28) former half bottom sealing connection has arc swash plate (29) that length is crescent, the inside pipe one (20) that is located check valve (25) below that is equipped with of surge drum (16), pipe one (20) the central axis aligns with surge drum (16) the central axis, pipe one (20) the bottom pass fixed plate three (18), fixed plate two (22), fixed plate one (13) back and remote control air exhauster (21) fixed connection in proper order, pipe one (20) the outside and three fixed plate (18) and two fixed plate (22) fixed connection, pipe one (20) are located and partly are equipped with bellows (23) between three fixed plate (18) and two fixed plate (22), pipe two (15) are installed to remote control air exhauster (21) bottom, the bottom of the second conduit (15) sequentially passes through the left end of the lower half part of the first main shaft (2), the bottom of the first main shaft (2) and the bottom of the second cylinder (30) and then reaches the lower part of the second cylinder (30), a bevel gear III (14) is meshed on the right side of the bevel gear I (17), a main shaft II (9) is arranged at the center of the bevel gear III (14), the right end of the second main shaft (9) respectively penetrates through the second connecting column (11) and the inner wall of the right end of the first cylinder body (1) and then reaches the right side of the first cylinder body (1), a handle (10) is fixedly arranged at the right end of the second main shaft (9), the second main shaft (9) is movably connected with the second connecting column (11) through a bearing, a bevel gear IV (12) is fixedly arranged on the outer side of the second main shaft (9) between the third bevel gear (14) and the second connecting column (11), the top of the bevel gear II (8) is meshed with the top of the bevel gear II (12), and a switch button (31) is fixedly mounted on the inner wall of the left end of the cylinder I (1).

2. The use method of the ore dressing sieve sample wheel disc type partition storage device according to claim 1 comprises the following steps:

firstly, an exit conduit: the handle (10) is rotated clockwise, the handle (10) rotates to drive the second spindle (9) to rotate clockwise, the second spindle (9) rotates clockwise to drive the third bevel gear (14) to rotate clockwise, the third bevel gear (14) rotates clockwise to drive the first bevel gear (17) to rotate anticlockwise, the first bevel gear (17) rotates anticlockwise to drive the arc-shaped inclined plate (29) to gradually press down the third fixing plate (18), the third fixing plate (18) descends along the positioning rod (24), the third fixing plate (18) drives the spring (19) to contract and store force after being pressed down, the third fixing plate (18) drives the upper half part of the first guide pipe (20) to descend after being pressed down, the top of the first guide pipe (20) leaves the interior of the collecting barrel (16), and the upper half part of the first guide pipe (20) descends to enable the;

II, replacing the cylinder position: in the first step, the handle (10) is rotated clockwise, the handle (10) rotates to drive the second spindle (9) to rotate clockwise, the second spindle (9) rotates clockwise to drive the third bevel gear (14) to rotate clockwise, the second spindle (9) rotates clockwise to drive the fourth bevel gear (12) to rotate clockwise, the fourth bevel gear (12) rotates clockwise to drive the second bevel gear (8) to rotate clockwise, the second bevel gear (8) rotates clockwise to drive the first connecting column (6) to rotate clockwise, the first connecting column (6) rotates clockwise to drive the third wheel disc (7) to rotate clockwise, the third wheel disc (7) rotates clockwise to drive the small cylinder (26) to revolve clockwise around the center of the third wheel disc (7), the top of the first guide pipe (20) can be separated from the collecting cylinder (16) when the arc-shaped inclined plate (29) rotates counterclockwise by one third arc length in the first step, and the small cylinder (26) is just meshed with the groove (27) through the clockwise revolution, with the continuous clockwise rotation of the handle (10), the arc-shaped sloping plate (29) rotates anticlockwise to enable the first guide pipe (20) to continuously descend, the small cylinder (26) drives the second wheel disc (4) to rotate anticlockwise by 30 degrees through clockwise revolution, the second wheel disc (4) rotates anticlockwise by 30 degrees to drive the first wheel disc (3) to rotate anticlockwise by 30 degrees, the first wheel disc (3) rotates by a fixed angle to enable the old collecting cylinder (16) to rotate away, and the new collecting cylinder (16) reaches the position above the first guide pipe (20);

thirdly, resetting: with the continuous rotation of the handle (10), the small cylinder (26) is disengaged from the groove (27), the arc-shaped inclined plate (29) does not press the third fixing plate (18) after rotating to the maximum arc length, the spring (19) releases pressure at the moment, the third fixing plate (18) is driven to ascend along the positioning rod (24), the third fixing plate (18) ascends to drive the top of the first guide pipe (20) to ascend to the inside of the collecting barrel (16), and the corrugated pipe (23) extends at the moment;

fourthly, collection: aim at the pure ore deposit powder that needs the collection with two (15) bottoms of pipe, press shift knob (31), remote control air exhauster (21) start, check valve (25) are backed up to wind-force, ore deposit powder gets into inside collecting vessel (16) through pipe one (20) after being inhaled two (15) inside, exhaust air when filter screen (32) can block ore deposit powder, when stopping pressing shift knob (31), check valve (25) are closed, ore deposit powder falls into and accomplishes the collection in collecting vessel (16).

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