CN208033608U - A kind of continuous cast mold - Google Patents
A kind of continuous cast mold Download PDFInfo
- Publication number
- CN208033608U CN208033608U CN201820159811.XU CN201820159811U CN208033608U CN 208033608 U CN208033608 U CN 208033608U CN 201820159811 U CN201820159811 U CN 201820159811U CN 208033608 U CN208033608 U CN 208033608U
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- coolant jacket
- plate
- graphite cannula
- cooling
- continuous cast
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Abstract
The utility model discloses a kind of continuous cast molds, it is related to copper and Copper alloy bar horizontal casting manufacture field, include the graphite cannula equipped with several towing pads and the interior coolant jacket for setting cooling sap cavity, the graphite cannula is plate-like, the coolant jacket is plate-like and is equipped at least two, the plate face both sides of the graphite cannula are sticked the coolant jacket, with the cooling graphite cannula.The utility model can draw five or more copper rods simultaneously, greatly improve production efficiency.
Description
【Technical field】
The utility model is related to copper and Copper alloy bar horizontal casting manufacture fields, and in particular to a kind of continuous cast mold.
【Background technology】
In the prior art, copper and Copper alloy bar continuous casting generally use horizontal casting, crystallizer are all made of circular crystallizer,
For the Copper alloy bar of red copper and the above specifications of diameter of phi 20mm, continuous casting of a set of circular crystallizer draws an allotment;For
Diameter of phi 10mm copper alloy spillikins below, the most continuous castings of a set of circular crystallizer draw five hereinafter, low production efficiency,
Specific yield is small.
【Utility model content】
To solve foregoing problems, the utility model provides a kind of continuous cast mold, can draw five or more copper rods simultaneously,
Greatly improve production efficiency.
In order to achieve the above object, the utility model adopts the following technical solution:
A kind of continuous cast mold includes the graphite cannula equipped with several towing pads and the interior coolant jacket for setting cooling sap cavity, institute
State that graphite cannula is plate-like and tool is there are two plate face, the towing pad runs through institute along the length direction or width direction of the graphite cannula
State graphite cannula, the coolant jacket is plate-like and is equipped at least two, and two plate faces are sticked the coolant jacket, to cool down
State graphite cannula.
Further, the coolant jacket includes First coolant jacket, and the First coolant jacket includes cover board and lower seat, described
Lower seat includes bottom plate, is parallel to the first side plate of the towing pad length direction and perpendicular to the of the towing pad length direction
Two side plates, the cover board, bottom plate, the first side plate and the second side plate are enclosed the cooling sap cavity, and the cover board is equipped with the
One inlet opening, first side plate are equipped with the first fluid hole.
Further, the bottom plate is equipped with the fin of several bar shapeds, and the length direction of the fin is parallel to described the
Side plate, adjacent two fins formed coolings but liquid by runner, two end faces and second side plate of the fin
Between be respectively equipped with the first gap and the second gap, first fluid hole is located at first gap.
Further, the First coolant jacket includes draining plate, and the draining plate is set to the fin and the cover board
Between, the medial surface of the cover board is equipped with the intake chute being connected to first inlet opening, the intake chute and the draining plate
The top to second gap is guided to enter the cooling sap cavity coolant liquid.
Further, the draining plate be equipped with it is multiple, multiple draining plates along the direction that the towing pad arranges simultaneously
Row is arranged, and partition, side and described second of the partition positioned at second gap are equipped between the adjacent draining plate
Side plate connects, and the quantity of the quantity of the intake chute and first inlet opening is corresponding with the quantity of the draining plate.
Preferably, there are one the graphite cannula sets, the both sides of the graphite cannula plate face are sticked the First coolant jacket.
Preferably, the coolant jacket includes the second coolant jacket, the continuous cast mold includes graphite cannula, First coolant jacket
With the second coolant jacket, the graphite cannula set there are two and it is more than two, be sticked described the between two adjacent graphite cannulas
Two coolant jackets, there are two the First coolant jacket is set, the graphite cannula and second coolant jacket be located at two it is described first cold
But between covering.
Preferably, second coolant jacket is equipped with the second inlet opening and the second fluid hole, second inlet opening and the
Two fluid holes are located at the same side of the towing pad length direction.
Preferably, the coolant liquid intracavitary of second coolant jacket is equipped with multiple cooling passages.
Preferably, along the length direction of the towing pad, there are two side, the coolant jacket includes the graphite cannula tool
Third coolant jacket, two sides are sticked the third coolant jacket, with the side of the cooling graphite cannula.
After adopting the above technical scheme, the utility model has the following advantages that:
1, graphite cannula is plate-like, and towing pad runs through graphite cannula along the length direction or width direction of graphite cannula, then can root
The width of graphite cannula is set according to the quantity for the copper rod for needing to draw, and therefore, when graphite cannula is sufficiently wide, the copper rod that can be drawn is then
It can be more.And coolant jacket is also configured to plate and is attached at the both sides of graphite cannula plate face, it ensure that the cooling of coolant jacket
Effect.At the same time, can be by way of Multi-layer graphite be set and is covered when needing to increase yield, further increasing can lead
The quantity of the copper rod drawn.
2, cooling sap cavity is surrounded by cover board, bottom plate, the first side plate and the second side plate, that is to say, that when graphite cannula
When length is more than the length of coolant jacket, coolant jacket can be connected by way of assembled, furthermore, it is also possible to produce not
Coolant jacket with length is mutually assembled, come meet different length graphite cannula cooling requirement, increase the adaptability of coolant jacket.
Moreover, when the length value of graphite cannula is larger, it is likely to occur that inhomogeneous cooling is even to be showed if the coolant jacket using comparable size
As, and in such a way that multiple coolant jackets are assembled, then it can ensure the quality of production to avoid the even generation of inhomogeneous cooling.In cover board
Upper setting inlet opening makes feed liquor evenly into cooling sap cavity, fluid hole is arranged on the first side plate, the cooling for making completion cool down
Liquid can Self-discharged cooling sap cavity.
3, fin is set in pedestal, and fin formed cooling but liquid by runner, while the first fluid hole being set
It sets in close proximity to the position of the second side plate, thus the coolant liquid of runner is formed by into fin, runner can only be flowed through and enter the
It can be discharged behind one gap, can then extend the time of coolant liquid discharge in this way, keep cooling more abundant, while graphite can be made
The plate face of set is cooling uniform in the direction of the width.
4, the first gap and the second gap are located at both ends of the cooling sap cavity on towing pad length direction, pass through setting
Draining plate and intake chute make coolant liquid enter cooling sap cavity from the top in the second gap, force coolant liquid complete rectified entire
It can be discharged after runner, be further ensured that cooling effect, make cooling more uniform and complete.
5, multiple draining plates are set, each draining plate corresponds to intake chute and the first inlet opening, makes entire coolant jacket can be with
Many places simultaneously enter coolant liquid, avoid only there are one the first inlet opening when, it is larger in graphite cannula and coolant jacket width value
In the case of, coolant liquid into cooling sap cavity can only cool down near the first inlet opening and can not cool down the first inlet opening remotely
Situation ensure that no matter lateral graphite cannula is or longitudinal direction can uniformly be cooled down, it is ensured that the quality of production.
6, one graphite cannula or the multiple graphite cannulas of setting are set, can flexibly be determined according to production requirement, and when setting
When one graphite cannula, only need to it be sticked First coolant jacket in the both sides of graphite cannula plate face;And when needing to increase yield, if
Multiple graphite cannulas are set, the second coolant jacket is set in adjacent graphite inner room, first is sticked in the lateral surface of outermost graphite cannula
Coolant jacket can increase the quantity for the copper rod that can be drawn while meeting production technology demand.
7, since location is different, the structure of First coolant jacket and the second coolant jacket is different, in order to adapt to
Position between two neighboring graphite cannula, the second coolant jacket are made that corresponding adjustment, by the second inlet opening and the second fluid hole
It is arranged in the same side, while multiple cooling passages is set in coolant liquid intracavitary, ensure that the second coolant jacket is adjusted still
Meet the cooling requirement of graphite cannula.
8, it is sticked coolant jacket in two sides of graphite cake, it is ensured that coolant jacket is more thorough to the cooling of graphite cake.
These features and advantages of the utility model will carry out in detail in following specific implementation mode and attached drawing
Exposure.The best embodiment of the utility model or means will carry out detailed performance in conjunction with attached drawing, but be not new to this practicality
The limitation of type technical solution.In addition, it is each be with these features, element and the component occurred in attached drawing hereafter have it is multiple,
And different symbols or number is marked in order to indicate convenient, but indicates same or similar construction or the component of function.
【Description of the drawings】
The utility model is described in further detail below in conjunction with the accompanying drawings:
Fig. 1 is the sectional view of the utility model embodiment one;
Fig. 2 is the schematic diagram of cooling sap cavity in the utility model embodiment one;
Fig. 3 is that coolant liquid flows to schematic diagram in the utility model embodiment one;
Fig. 4 is the sectional view of the utility model embodiment two;
Fig. 5 is the three-dimensional view of the utility model embodiment two.
In attached drawing:
1- graphite cannulas, 11- towing pads, seat under 2-, 21- fins, 22- partitions, the first fluid holes of 23-, the first gaps 24-,
The second gaps 25-, the first side plates of 26-, the second side plates of 27-, 28- bottom plates, 3- cover boards, the first inlet openings of 31-, 32- intake chutes, 4-
Draining plate, the upper mounting brackets of 51-, the sides 52- mounting bracket, mounting bracket under 63-, the second coolant jackets of 6-, the second inlet openings of 61-, 62- second
Fluid hole, 63- cooling passages, the direction that arrow is directed toward are the direction of coolant flow.
【Specific implementation mode】
The technical solution of the utility model embodiment is explained with reference to the attached drawing of the utility model embodiment and
Illustrate, but following embodiments are only the preferred embodiment of the utility model, and not all.Based on the implementation example in the implementation mode,
Those skilled in the art's obtained other embodiment without making creative work, belongs to the utility model
Protection domain.
" one embodiment " or " example " or " example " mean that itself is described in conjunction with the embodiments quoted in this specification
A particular feature, structure, or characteristic can be included at least one embodiment disclosed in this patent.Phrase is " in one embodiment
In " appearance of each position in the description is not necessarily all referring to the same embodiment.
In the description of the utility model embodiment, term "upper", "lower", "left", "right", " transverse direction ", " longitudinal direction ",
The orientation or positional relationship of the instructions such as "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of retouching
It states the utility model rather than requires the utility model must be with specific azimuth configuration and operation, therefore should not be understood as to this
The limitation of utility model.
Embodiment one:
As shown in Figure 1 to Figure 3, include the graphite equipped with several towing pads 11 the present embodiment provides a kind of continuous cast mold
Set 1 and the interior coolant jacket for setting cooling sap cavity.In the present embodiment, coolant liquid uses cooling water.Graphite cannula 1 is plate-like, this implementation
In example, towing pad 11 is equipped with ten, therefore can draw ten copper rods.Ten towing pads 11 and in a row be arranged, can also
The width of the quantity setting graphite cannula 1 of the copper rod drawn as needed and the quantity of towing pad 11, therefore the copper that can be drawn
Stick then can be more.Towing pad 11 runs through graphite cannula 1, there are one graphite cannula 1 is set, 1 plate of graphite cannula along the length direction of graphite cannula 1
The both sides in the face First coolant jacket that is sticked ensure that the cooling effect of First coolant jacket to cool down graphite cannula 1.
First coolant jacket includes cover board 3 and lower seat 2, and lower seat 2 includes bottom plate 28, is parallel to 11 length direction of towing pad
First side plate 26 and the second side plate 27 perpendicular to 11 length direction of towing pad, cover board 3, bottom plate 28, the first side plate 26 and
Two side plates 28 are enclosed cooling water cavity.When the length of graphite cannula 1 is more than the length of First coolant jacket, assembly can be passed through
Mode connects First coolant jacket, furthermore, it is also possible to which the First coolant jacket for producing different length is mutually assembled, to meet
The cooling requirement of the graphite cannula 1 of different length, increases the adaptability of First coolant jacket.Moreover, when graphite cannula 1 length value compared with
When big, the even phenomenon of inhomogeneous cooling is likely to occur if the First coolant jacket using comparable size, and it is cold using multiple first
But assembled mode is covered, then can ensure the quality of production to avoid the even generation of inhomogeneous cooling.Cover board 3 is equipped with the first inlet opening 31,
Make feed liquor evenly into cooling sap cavity, bottom plate 28 is equipped with the fin 21 of several bar shapeds, and the length direction of fin 21 is parallel to the
Side plate 26, adjacent two fins 21 formed Cooling Waters by runner, therefore cooling water can only flow through runner and enter
It can be discharged behind first gap 24, can then extend the time of coolant liquid discharge in this way, keep cooling more abundant, while can make
The plate face of graphite cannula 1 is cooling uniform in the direction of the width.It is equipped with interval between two end faces and the second side plate 27 of fin 21,
The first gap 24 and the second gap 25 are formed, the first side plate 26 is equipped with the first fluid hole 23, and two the first sides of both sides
It is respectively provided with the first fluid hole 23 on plate 26, makes the coolant liquid that completion cools down can Self-discharged cooling sap cavity.First fluid hole 23
Position in the first gap 24.First coolant jacket includes draining plate 4, and draining plate 4 is set between fin 21 and cover board 3 and against convex
Rib 21, the medial surface of cover board 3 are equipped with the intake chute 32 being connected to the first inlet opening 31, intake chute 32 and draining plate 4 by cooling water
Guiding to the top in the second gap 25 enters cooling water cavity, by the way that draining plate 4 and intake chute 32 is arranged, makes coolant liquid between second
The top of gap 25 enters cooling sap cavity, can be discharged, be further ensured that cold after forcing the complete rectified entire runner of coolant liquid
But effect makes cooling more uniform and complete.
In the present embodiment, there are three draining plate 4 is set, three draining plates 4 are arranged side by side along the direction that towing pad 11 arranges, phase
Partition 22 is equipped between adjacent draining plate 4, partition 22 is increased by fin 21 to be formed.Partition 22 be located at the second gap 25 side with
Second side plate 27 connects, and the second gap 25 is separated and is divided into three sections, and the other side of partition 22 is not connect with the second side plate 27, is protected
It holds three section of first gap 24 corresponding with three section of second gap 25 to keep unimpeded, in order to which cooling water passes through.Intake chute 32
Quantity and the quantity of the first inlet opening 31 are corresponding with the quantity of draining plate 4, keep entire First coolant jacket same with many places
When enter coolant liquid, avoid only there are one the first inlet opening 31 when, it is larger in graphite cannula 1 and First coolant jacket width value
In the case of, the coolant liquid into cooling sap cavity can only cool down near the first inlet opening 31 and can not cool down the first inlet opening 31 farther out
The case where place, ensure that no matter lateral graphite cannula 1 is or longitudinal direction can uniformly be cooled down, it is ensured that the quality of production.
Along the length direction of towing pad 11, the tool of graphite cannula 1 there are two side, coolant jacket include third coolant jacket (in figure not
Mark), two sides are sticked third coolant jacket, to cool down the side of graphite cannula 11.
In the present embodiment, lower seat 2 and the first side plate 26 on lower seat 2, the second side plate 27, pedestal 28, fin 21,
Partition 22 is all made of copper or other heat-conductings, and cover board 3, draining plate 4 are all made of irony.
Graphite cannula 1 and the First coolant jacket for being attached at 1 plate face both sides of graphite cannula are installed in mounting bracket, and mounting bracket is by upper
51, two side mounting brackets 52 of mounting bracket and lower mounting bracket 53 are constituted, and the first inlet opening 31 and the first fluid hole 23 pass through pipe
Road is connect with external cooling water system.
In the present embodiment when in use, copper liquid is drawn by leader (drawing bar) from the towing pad 11 on graphite cannula 1, and in graphite
In the towing pad 11 of set 1, copper rod is frozen under the cooling of coolant jacket, copper rod is constantly drawn by sustained continuous.In this way for straight
The copper rod of the following specifications of diameter Φ 50mm can often cover crystallizer and can be achieved to 5 or more or even tens copper and copper alloy
The horizontal continuous-casting of stick.
As shown in figure 3, cooling water is entered by the first inlet opening 31, and the intake chute 32 being equipped in 3 inside of cover board force it is cold
But water can only flow to the direction opposite with the first fluid hole 23, and enter cooling sap cavity in the top in the second gap 25.Meanwhile by
In the interval action for separating 22 pair of second gap 25, the cooling water entered by first inlet opening 31 can only be at corresponding one section
In second gap 25, runner is formed by into fin 21.Cooling water flow to the first gap 24 along runner, not due to partition 22
Separate the first gap 24, the cooling water in three section of first gap 24 comes together in this and is discharged by the first fluid hole 23 of both sides.
Embodiment two
As shown in Figure 4 and Figure 5, the present embodiment provides a kind of continuous cast molds.
What is different from the first embodiment is that in the present embodiment, continuous cast mold further includes the second coolant jacket 6, and graphite cannula 1 is equipped with
Two, be sticked between adjacent two graphite cannulas 1 second coolant jacket 6, there are two First coolant jacket is set, two graphite cannulas 1 and one
A second coolant jacket 6 is located between two First coolant jackets.Two graphite cannulas 1 or multiple graphite cannulas 1 are set, it can be according to production
Demand flexibly determines.
Second coolant jacket 6 is equipped with the second inlet opening 61 and the second fluid hole 62, the second inlet opening 61 and the second fluid hole 62
In the same side of 11 length direction of towing pad, the present embodiment, the both sides of 11 length direction of towing pad are respectively provided with the second feed liquor
Hole 61 and the second fluid hole 62, the cooling water cavity of the second coolant jacket 6 is interior to be equipped with multiple cooling-water ducts 63.And it is produced when needing to increase
When amount, the second coolant jacket 6 is set between adjacent graphite cannula 1, is sticked the first cooling in the lateral surface of outermost graphite cannula 1
Set, while meeting production technology demand, can increase the quantity for the copper rod that can be drawn.In order to adapt in two neighboring stone
Position between ink set, the second coolant jacket 6 are made that corresponding adjustment, and the second inlet opening 61 and the setting of the second fluid hole 62 are existed
The same side, while multiple cooling passages 63 are set in coolant liquid intracavitary, it ensure that the second coolant jacket is adjusted and still meet
The cooling requirement of graphite cannula.
More than, only specific embodiment of the present utility model, but protection scope of the utility model is not limited thereto,
It is familiar with the those skilled in the art and should be understood that the utility model includes but not limited to attached drawing and above in specific implementation mode
The content of description.The modification of any function and structure principle without departing from the utility model is intended to be included in the model of claims
In enclosing.
Claims (10)
1. a kind of continuous cast mold includes the graphite cannula equipped with several towing pads and the interior coolant jacket for setting cooling sap cavity, spy
Sign is:The graphite cannula is plate-like and tool is there are two plate face, length direction or width of the towing pad along the graphite cannula
The graphite cannula is run through in direction, and the coolant jacket is plate-like and is equipped at least two, and two plate faces are sticked the cooling
Set, with the cooling graphite cannula.
2. continuous cast mold according to claim 1, it is characterised in that:The coolant jacket includes First coolant jacket, described
First coolant jacket includes cover board and lower seat, and the lower seat includes bottom plate, is parallel to the first side of the towing pad length direction
Plate and the second side plate perpendicular to the towing pad length direction, the cover board, bottom plate, the first side plate and the second side plate enclose
The cooling sap cavity is formed, the cover board is equipped with the first inlet opening, and first side plate is equipped with the first fluid hole.
3. continuous cast mold according to claim 2, it is characterised in that:The bottom plate is equipped with the fin of several bar shapeds, institute
The length direction for stating fin is parallel to first side plate, adjacent two fins formed coolings but liquid by runner, it is described
It is respectively equipped with the first gap and the second gap between two end faces and second side plate of fin, first fluid hole is located at
First gap.
4. continuous cast mold according to claim 3, it is characterised in that:The First coolant jacket includes draining plate, described
Draining plate is set between the fin and the cover board, and the medial surface of the cover board is equipped with leads with what first inlet opening was connected to
Coolant liquid is guided the top to second gap to enter the cooling sap cavity by liquid bath, the intake chute and the draining plate.
5. continuous cast mold according to claim 4, it is characterised in that:The draining plate be equipped with it is multiple, it is multiple described to lead
Liquid plate is arranged side by side along the direction that the towing pad arranges, and partition is equipped between the adjacent draining plate, and the partition is located at
The side in second gap is connect with second side plate, the quantity of the quantity of the intake chute and first inlet opening
It is corresponding with the quantity of the draining plate.
6. the continuous cast mold according to one of claim 2 to 5, it is characterised in that:It is described there are one the graphite cannula is set
The both sides of graphite cannula plate face are sticked the First coolant jacket.
7. the continuous cast mold according to one of claim 2 to 5, it is characterised in that:The coolant jacket includes the second cooling
Set, the continuous cast mold include graphite cannula, First coolant jacket and the second coolant jacket, the graphite cannula set there are two and two with
On, be sticked second coolant jacket between adjacent two graphite cannulas, there are two the First coolant jacket is set, the graphite
Set and second coolant jacket are located between two First coolant jackets.
8. continuous cast mold according to claim 7, it is characterised in that:Second coolant jacket be equipped with the second inlet opening and
Second fluid hole, second inlet opening and the second fluid hole are located at the same side of the towing pad length direction.
9. continuous cast mold according to claim 7, it is characterised in that:The coolant liquid intracavitary of second coolant jacket is equipped with
Multiple cooling passages.
10. the continuous cast mold according to one of claim 2 to 5, it is characterised in that:Along the length side of the towing pad
To, graphite cannula tool there are two side, the coolant jacket includes third coolant jacket, and two sides are sticked the third
Coolant jacket, with the side of the cooling graphite cannula.
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CN201820159811.XU CN208033608U (en) | 2018-01-30 | 2018-01-30 | A kind of continuous cast mold |
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CN201820159811.XU CN208033608U (en) | 2018-01-30 | 2018-01-30 | A kind of continuous cast mold |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108237208A (en) * | 2018-01-30 | 2018-07-03 | 浙江海亮股份有限公司 | A kind of continuous cast mold |
CN111014596A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Graphite mould |
CN111014595A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Continuous casting crystallizer |
CN112059130A (en) * | 2020-09-09 | 2020-12-11 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
-
2018
- 2018-01-30 CN CN201820159811.XU patent/CN208033608U/en active Active
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108237208A (en) * | 2018-01-30 | 2018-07-03 | 浙江海亮股份有限公司 | A kind of continuous cast mold |
WO2019149138A1 (en) * | 2018-01-30 | 2019-08-08 | 浙江海亮股份有限公司 | Continuous casting cooling mold |
EP3626365A4 (en) * | 2018-01-30 | 2020-10-21 | Zhejiang Hailiang Co., Ltd. | Continuous casting cooling mold |
US11298743B2 (en) | 2018-01-30 | 2022-04-12 | Zhejiang Hailiang Co., Ltd. | Crystallizer for continuous casting |
CN108237208B (en) * | 2018-01-30 | 2024-06-25 | 浙江海亮股份有限公司 | Continuous casting crystallizer |
CN111014596A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Graphite mould |
CN111014595A (en) * | 2019-11-29 | 2020-04-17 | 浙江科宇金属材料有限公司 | Continuous casting crystallizer |
CN112059130A (en) * | 2020-09-09 | 2020-12-11 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
CN112059130B (en) * | 2020-09-09 | 2022-07-12 | 铜陵有色兴铜机电制造有限公司 | Horizontal continuous crystallizer |
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