CN109759560B - Aluminum alloy die casting die with quick cooling function - Google Patents

Aluminum alloy die casting die with quick cooling function Download PDF

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Publication number
CN109759560B
CN109759560B CN201910256850.0A CN201910256850A CN109759560B CN 109759560 B CN109759560 B CN 109759560B CN 201910256850 A CN201910256850 A CN 201910256850A CN 109759560 B CN109759560 B CN 109759560B
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plate
die
cooling water
cooling
sliding
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CN109759560A (en
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钱应平
周志明
王刚
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Jiangsu Xianghe Electronic Science & Technology Co Ltd
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Jiangsu Xianghe Electronic Science & Technology Co Ltd
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Abstract

The invention discloses an aluminum alloy die-casting die with a rapid cooling function, and belongs to the technical field of die-casting dies. An aluminum alloy die-casting die with a rapid cooling function comprises a bottom plate, a lower template and an upper template, wherein a sliding plate is connected to a limiting rod in a sliding mode, the upper template is connected to the bottom of the sliding plate, a water tank, a first cooling water channel and a third cooling water channel are respectively formed in the lower template, second cooling water channels are respectively formed in the sliding plate and the upper template in a drilling mode, and two ends of each second cooling water channel penetrate through the sliding plate and are respectively matched with the first cooling water channel and the third cooling water channel; the invention can carry out overall cooling on the die, improves the cooling speed, and then can cool the die again through the cooling fan, thereby achieving the effect of rapid cooling, improving the production efficiency of the casting, ensuring the quality of the casting and further avoiding causing huge economic loss to die using enterprises.

Description

Aluminum alloy die casting die with quick cooling function
Technical Field
The invention relates to the technical field of die-casting molds, in particular to an aluminum alloy die-casting mold with a rapid cooling function.
Background
The die casting die is a method for casting liquid die forging, a process finished on a special die casting die forging machine, and the basic process of the die casting die forging machine comprises the following steps: molten metal is cast at low speed or high speed and filled into the cavity of the mold, the mold has movable cavity surface, and it is pressurized and forged along with the cooling process of the molten metal, so that the shrinkage cavity and shrinkage porosity defects of the blank are eliminated, and the internal structure of the blank reaches the broken crystal grains in the forged state.
During die casting die, the mould die cavity is poured into to molten metal, release a large amount of heats in the time of the utmost point short, make the temperature of mould improve, need to take cooling measure to cool off the mould, current die casting die adopts water-cooled mode to cool off the mould usually, but present water-cooled mode is only cooled off upper die plate or lower bolster singleness usually, can not reach and carry out comprehensive cooling to the mould, the cooling capacity exists not enoughly, therefore foundry goods production efficiency has been reduced, and can not guarantee the quality of foundry goods, and then cause huge economic loss for mould use enterprise.
Disclosure of Invention
The invention aims to solve the problems in the prior art, and provides an aluminum alloy die-casting die with a rapid cooling function.
In order to achieve the purpose, the invention adopts the following technical scheme:
an aluminum alloy die-casting die with a rapid cooling function comprises a bottom plate, a lower template and an upper template, wherein the lower template is connected to the bottom plate, a limiting rod is connected to the lower template, one end, far away from the lower template, of the limiting rod is connected to a sliding plate, the sliding plate is connected to the limiting rod in a sliding mode, the upper template is connected to the bottom of the sliding plate, a die groove matched with the upper template is formed in the lower template in a chiseled mode, a water groove, a first cooling water path and a third cooling water path are formed in the lower template in a chiseled mode, the first cooling water path and the third cooling water path are communicated with the water groove, one ends, far away from the water groove, of the first cooling water path and one end, far away from the water groove, of the third cooling water path penetrate through the lower template and are communicated with the atmosphere, a second cooling water path is formed in the sliding plate and the upper template, two ends of the, a concave hole is drilled at the bottom of the sliding plate, the inner wall of the concave hole is connected with a rotating plate through a rotating shaft, a cooling fan is connected in the rotating plate, and the upper template and the lower template are surrounded by the first cooling water path, the second cooling water path and the third cooling water path;
the slide bottom is connected with the fixed plate, the inner wall of fixed plate and shrinkage pool has all been dug the arc groove, the rotor plate is connected in the arc groove through the pivot to the arc inslot rotation of the pivot on the fixed plate that makes the rotor plate outer wall, thereby make the certain angle of rotor plate leanin.
Preferably, the top of the rotating plate is movably connected with a connecting rod, and one end of the connecting rod, which is far away from the rotating plate, penetrates through the sliding plate and is connected with a baffle.
Preferably, the outer wall of the connecting rod is sleeved with an elastic element, and the elastic element is connected between the baffle and the outer wall of the sliding plate.
Preferably, a supporting plate is connected between the limiting rods and abuts against the baffle, and the baffle is pressed by the supporting plate between the limiting rods.
Preferably, the outer wall of the rotating plate is provided with a sliding groove, a sliding block is connected in the sliding groove in a sliding mode, and the connecting rod is rotatably connected to the outer wall of the sliding block.
Preferably, the inner wall of the water tank is connected with a water pump, the first cooling water path is connected to the water outlet end of the water pump, the outer wall of the lower template is respectively provided with a water inlet pipe and a water outlet pipe, and the water inlet pipe and the water outlet pipe are both communicated with the water tank.
Preferably, the lower bolster outer wall is dug there is the ring hole, the slide bottom be connected with ring hole matched with sleeve, the one end that the water pump was kept away from in first cooling water route is connected with rubber packing, rubber packing offsets with the diapire of slide, the sleeve of slide bottom then can cooperate with the ring hole on the lower bolster this moment.
Preferably, a water injection port and a pipeline are respectively arranged in the sliding plate and the upper template, the water injection port is communicated with the pipeline, one end of the pipeline, which is far away from the water injection port, penetrates through the upper template and is communicated with the atmosphere, and molten metal is injected from the water injection port and flows between the upper template and the die cavity through the pipeline.
Compared with the prior art, the invention provides an aluminum alloy die-casting die with a rapid cooling function, which has the following beneficial effects:
1. the aluminum alloy die-casting die with the rapid cooling function injects water flow into a water tank through a water inlet pipe, then starts to work, a sliding plate can slide on a limiting rod, so as to drive an upper die plate at the bottom of the sliding plate to move downwards to be matched with a die groove on a lower die plate, then injects molten metal from a water injection port to flow between the upper die plate and the die groove through a pipeline, then a water pump is started, so that the water pump pumps water into the water tank, then the molten metal enters a first cooling water path through a water outlet end, a sleeve at the bottom of the sliding plate can be matched with a circular hole on the lower die plate, meanwhile, a rubber sealing gasket on the lower die plate can enable the first cooling water path and a second cooling water path to be connected in a sealing manner, so that the water flow is injected into the second cooling water path, meanwhile, the second cooling water path is also connected with a third cooling water path in a sealing manner, get into the basin once more, and the rivers accessible in the cooling completion back second cooling water route takes out after dismantling the cope match-plate pattern, and the outlet pipe discharge can be followed to rivers in the basin, and first cooling water route, second cooling water route and third cooling water route surround cope match-plate pattern and lower bolster to can carry out omnidirectional cooling to the mould, make cooling's effect better, therefore improve the production efficiency of foundry goods, guarantee the quality of foundry goods moreover.
2. The aluminum alloy die-casting die with the rapid cooling function comprises a die plate, a sliding plate, a fixing plate, a limiting rod, a connecting plate, a fixing plate, a sliding plate, a baffle plate, a cooling fan, an elastic element, a connecting rod, a rotating plate, a fixing plate, a sliding plate, a fixing plate, a connecting rod, a fixing plate, a connecting rod, a, is convenient to be placed.
3. This aluminum alloy die casting die with rapid cooling function, when through when the connecting rod downstream, then can drive the slider removal of connecting rod bottom to make the slider remove in the spout on the rotor plate, thereby make the connecting rod conveniently drive the rotor plate at the shrinkage pool internal rotation.
Drawings
FIG. 1 is a schematic structural diagram of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention during die-casting;
FIG. 2 is a schematic structural diagram of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention when the aluminum alloy die-casting mold is not die-cast;
FIG. 3 is a sectional view of a front view of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention;
FIG. 4 is a side cross-sectional view of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention;
FIG. 5 is a schematic structural diagram of the bottom of a slide plate of an aluminum alloy die-casting die with a rapid cooling function according to the present invention;
FIG. 6 is a schematic structural diagram of a part A in FIG. 3 of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention;
FIG. 7 is a schematic structural diagram of a part B in FIG. 3 of an aluminum alloy die-casting mold with a rapid cooling function according to the present invention;
fig. 8 is a schematic structural diagram of a part C in fig. 5 of an aluminum alloy die-casting die with a rapid cooling function according to the present invention.
In the figure: 1. a base plate; 2. a lower template; 201. a die cavity; 202. a water tank; 203. a water outlet pipe; 204. a water inlet pipe; 3. a slide plate; 301. mounting a template; 302. concave holes; 303. a rotating plate; 304. a cooling fan; 4. a limiting rod; 401. a support plate; 5. a water pump; 501. a first cooling water path; 502. a second cooling water path; 503. a third cooling water path; 504. a rubber gasket; 505. a circular ring hole; 506. a sleeve; 6. a water injection port; 601. a pipeline; 7. a fixing plate; 701. an arc groove; 702. a baffle plate; 703. a slider; 704. a connecting rod; 705. an elastic element.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
Example 1:
referring to fig. 1-6, an aluminum alloy die-casting die with rapid cooling function comprises a bottom plate 1, a lower template 2 and an upper template 301, wherein the lower template 2 is connected to the bottom plate 1, a limiting rod 4 is connected to the lower template 2, a sliding plate 3 is connected to one end, away from the lower template 2, of the limiting rod 4, the sliding plate 3 is connected to the limiting rod 4 in a sliding manner, the upper template 301 is connected to the bottom of the sliding plate 3, a die slot 201 matched with the upper template 301 is formed in the lower template 2, a water slot 202, a first cooling water channel 501 and a third cooling water channel 503 are respectively formed in the lower template 2 in a drilling manner, the first cooling water channel 501 and the third cooling water channel 503 are both communicated with the water slot 202, one ends, away from the water slot 202, of the first cooling water channel 501 and the third cooling water channel 503 penetrate through the lower template 2 and are communicated with the atmosphere, a second cooling water channel 502 is respectively formed in the sliding plate 3 and the upper template 301, and two ends of the second cooling water channel 502 penetrate through And (6) mixing.
The bottom of the sliding plate 3 is provided with a concave hole 302, the inner wall of the concave hole 302 is connected with a rotating plate 303 through a rotating shaft, and a cooling fan 304 is connected in the rotating plate 303.
The bottom of slide 3 is connected with fixed plate 7, and the inner wall of fixed plate 7 and shrinkage pool 302 all cuts arc groove 701, and rotor plate 303 passes through the pivot to be connected in arc groove 701.
The top of the rotating plate 303 is movably connected with a connecting rod 704, and one end of the connecting rod 704 far away from the rotating plate 303 penetrates through the sliding plate 3 and is connected with a baffle 702.
The outer wall of the connecting rod 704 is sleeved with an elastic element 705, and the elastic element 705 is connected between the baffle 702 and the outer wall of the sliding plate 3.
A supporting plate 401 is connected between the limiting rods 4, and the supporting plate 401 is abutted to the baffle 702.
The outer wall of the rotating plate 303 is provided with a sliding groove, a sliding block 703 is connected in the sliding groove in a sliding mode, and a connecting rod 704 is connected to the outer wall of the sliding block 703 in a rotating mode.
The inner wall of the water tank 202 is connected with a water pump 5, the first cooling water path 501 is connected with the water outlet end of the water pump 5, the outer wall of the lower template 2 is respectively provided with a water inlet pipe 204 and a water outlet pipe 203, and the water inlet pipe 204 and the water outlet pipe 203 are both communicated with the water tank 202.
The outer wall of the lower template 2 is provided with a circular ring hole 505, the bottom of the sliding plate 3 is connected with a sleeve 506 matched with the circular ring hole 505, one end of the first cooling water path 501, which is far away from the water pump 5, is connected with a rubber sealing gasket 504, and the rubber sealing gasket 504 is abutted to the bottom wall of the sliding plate 3.
The slide plate 3 and the upper template 301 are internally provided with a water injection port 6 and a pipeline 601 respectively, the water injection port 6 is communicated with the pipeline 601, and one end of the pipeline 601 far away from the water injection port 6 penetrates through the upper template 301 and is communicated with the atmosphere.
The water flow is injected into the water tank 202 through the water inlet pipe 204 and then starts to work, the sliding plate 3 slides on the limiting rod 4, so as to drive the upper template 301 at the bottom of the sliding plate 3 to move downwards to be matched with the die cavity 201 on the lower template 2, then molten metal is injected from the water injection port 6 to flow into the space between the upper template 301 and the die cavity 201 through the pipeline 601, then the water pump 5 is started, so that the water pump 5 pumps water into the water tank 202 and then enters the first cooling water path 501 through the water outlet end, at this time, the sleeve 506 at the bottom of the sliding plate 3 is matched with the circular ring hole 505 on the lower template 2, meanwhile, the rubber sealing gasket 504 on the lower template 2 can enable the first cooling water path 501 and the second cooling water path 502 to be in sealed connection, so as to enable the water flow to be injected into the second cooling water path 502, and the second cooling water path 502 and the third cooling water path 503 are also in sealed connection, so as to, get into basin 202 once more, and take out after the rivers accessible in the second cooling water route 502 is dismantled cope match-plate pattern 301 after the cooling is accomplished, rivers in the basin 202 can be followed outlet pipe 203 and discharged, first cooling water route 501, second cooling water route 502 and third cooling water route 503 surround cope match-plate pattern 301 and lower bolster 2, thereby can carry out omnidirectional cooling to the mould, make cooling effect better, therefore the production efficiency of foundry goods has been improved, and the quality of foundry goods has been guaranteed.
Example 2:
referring to fig. 1-8, an aluminum alloy die-casting die with a rapid cooling function comprises a bottom plate 1, a lower template 2 and an upper template 301, wherein the lower template 2 is connected to the bottom plate 1, a limiting rod 4 is connected to the lower template 2, a sliding plate 3 is connected to one end, away from the lower template 2, of the limiting rod 4, the sliding plate 3 is connected to the limiting rod 4 in a sliding manner, the upper template 301 is connected to the bottom of the sliding plate 3, a die groove 201 matched with the upper template 301 is formed in the lower template 2, a water groove 202, a first cooling water channel 501 and a third cooling water channel 503 are respectively formed in the lower template 2 in a drilling manner, the first cooling water channel 501 and the third cooling water channel 503 are both communicated with the water groove 202, one ends, away from the water groove 202, of the first cooling water channel 501 and the third cooling water channel 503 penetrate through the lower template 2 and are communicated with the atmosphere, a second cooling water channel 502 is respectively formed in the sliding plate 3 and the upper template 301, and two ends of the second cooling water channel 502 penetrate And (6) mixing.
The bottom of the sliding plate 3 is provided with a concave hole 302, the inner wall of the concave hole 302 is connected with a rotating plate 303 through a rotating shaft, and a cooling fan 304 is connected in the rotating plate 303.
The bottom of slide 3 is connected with fixed plate 7, and the inner wall of fixed plate 7 and shrinkage pool 302 all cuts arc groove 701, and rotor plate 303 passes through the pivot to be connected in arc groove 701.
The top of the rotating plate 303 is movably connected with a connecting rod 704, and one end of the connecting rod 704 far away from the rotating plate 303 penetrates through the sliding plate 3 and is connected with a baffle 702.
The outer wall of the connecting rod 704 is sleeved with an elastic element 705, and the elastic element 705 is connected between the baffle 702 and the outer wall of the sliding plate 3.
A supporting plate 401 is connected between the limiting rods 4, and the supporting plate 401 is abutted to the baffle 702.
The outer wall of the rotating plate 303 is provided with a sliding groove, a sliding block 703 is connected in the sliding groove in a sliding mode, and a connecting rod 704 is connected to the outer wall of the sliding block 703 in a rotating mode.
The inner wall of the water tank 202 is connected with a water pump 5, the first cooling water path 501 is connected with the water outlet end of the water pump 5, the outer wall of the lower template 2 is respectively provided with a water inlet pipe 204 and a water outlet pipe 203, and the water inlet pipe 204 and the water outlet pipe 203 are both communicated with the water tank 202.
The outer wall of the lower template 2 is provided with a circular ring hole 505, the bottom of the sliding plate 3 is connected with a sleeve 506 matched with the circular ring hole 505, one end of the first cooling water path 501, which is far away from the water pump 5, is connected with a rubber sealing gasket 504, and the rubber sealing gasket 504 is abutted to the bottom wall of the sliding plate 3.
The slide plate 3 and the upper template 301 are internally provided with a water injection port 6 and a pipeline 601 respectively, the water injection port 6 is communicated with the pipeline 601, and one end of the pipeline 601 far away from the water injection port 6 penetrates through the upper template 301 and is communicated with the atmosphere.
After cooling, the sliding plate 3 drives the upper mold plate 301 to move upwards, at this time, the supporting plate 401 between the limiting rods 4 presses the baffle 702, so that the baffle 702 drives the connecting rod 704 to move downwards, so that the connecting rod 704 drives the rotating plate 303 to rotate in the concave hole 302, so that the rotating shaft of the outer wall of the rotating plate 303 rotates in the arc groove 701 on the fixed plate 7, so that the rotating plate 303 tilts inwards by a certain angle, so that the cooling fan 304 on the rotating plate 303 blows air to cool the mold in the mold groove 201, further cools the mold, so that the mold is cooled quickly, when the upper mold plate 301 needs to be die-casted again, the sliding plate 3 moves downwards, so that the supporting plate 401 does not press the baffle 702, so that the baffle 702 automatically resets under the action of the elastic element 705, so that the rotating plate 303 is driven to automatically reset, and the rotating plate 303 is placed in the concave hole 302, is convenient to be placed.
When the connecting rod 704 moves downwards, the sliding block 703 at the bottom of the connecting rod 704 is driven to move, so that the sliding block 703 moves in the sliding groove on the rotating plate 303, and the connecting rod 704 drives the rotating plate 303 to rotate in the concave hole 302 conveniently.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The aluminum alloy die-casting die with the rapid cooling function comprises a bottom plate (1), a lower template (2) and an upper template (301), and is characterized in that the lower template (2) is connected to the bottom plate (1), a limiting rod (4) is connected to the lower template (2), one end, away from the lower template (2), of the limiting rod (4) is connected with a sliding plate (3), the sliding plate (3) is connected to the limiting rod (4) in a sliding manner, the upper template (301) is connected to the bottom of the sliding plate (3), a die groove (201) matched with the upper template (301) is drilled in the lower template (2), a water groove (202), a first cooling water channel (501) and a third cooling water channel (503) are respectively drilled in the lower template (2), and the first cooling water channel (501) and the third cooling water channel (503) are both communicated with the water groove (202), one ends of the first cooling water channel (501) and the third cooling water channel (503), which are far away from the water tank (202), penetrate through the lower template (2) and are communicated with the atmosphere, second cooling water channels (502) are respectively formed in the sliding plate (3) and the upper template (301), two ends of each second cooling water channel (502) penetrate through the sliding plate (3) and are respectively matched with the first cooling water channel (501) and the third cooling water channel (503), a concave hole (302) is formed in the bottom of the sliding plate (3), the inner wall of the concave hole (302) is connected with a rotating plate (303) through a rotating shaft, a cooling fan (304) is connected in the rotating plate (303), and the upper template (301) and the lower template (2) are surrounded by the first cooling water channel (501), the second cooling water channel (502) and the third cooling water channel (503);
slide (3) bottom is connected with fixed plate (7), arc groove (701) have all been dug to the inner wall of fixed plate (7) and shrinkage pool (302), rotor plate (303) are connected in arc groove (701) through the pivot to make the rotation of rotor plate (303) outer wall arc groove (701) internal rotation on fixed plate (7), thereby make rotor plate (303) certain angle of leanin.
2. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 1, wherein a connecting rod (704) is movably connected to the top of the rotating plate (303), and one end, away from the rotating plate (303), of the connecting rod (704) penetrates through the sliding plate (3) and is connected with the baffle (702).
3. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 2, wherein an elastic element (705) is sleeved on the outer wall of the connecting rod (704), and the elastic element (705) is connected between the baffle plate (702) and the outer wall of the sliding plate (3).
4. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 2, wherein a support plate (401) is connected between the limiting rods (4), the support plate (401) abuts against the baffle (702), and the baffle (702) is pressed by the support plate (401) between the limiting rods (4).
5. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 2, wherein a sliding groove is formed in the outer wall of the rotating plate (303), a sliding block (703) is slidably connected in the sliding groove, and the connecting rod (704) is rotatably connected to the outer wall of the sliding block (703).
6. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 1, wherein a water pump (5) is connected to an inner wall of the water tank (202), the first cooling water path (501) is connected to a water outlet end of the water pump (5), a water inlet pipe (204) and a water outlet pipe (203) are respectively arranged on an outer wall of the lower template (2), and the water inlet pipe (204) and the water outlet pipe (203) are both communicated with the water tank (202).
7. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 1, wherein an annular hole (505) is formed in the outer wall of the lower die plate (2), a sleeve (506) matched with the annular hole (505) is connected to the bottom of the sliding plate (3), a rubber sealing gasket (504) is connected to one end, away from the water pump (5), of the first cooling water path (501), the rubber sealing gasket (504) abuts against the bottom wall of the sliding plate (3), and at the moment, the sleeve (506) at the bottom of the sliding plate (3) is matched with the annular hole (505) in the lower die plate (2).
8. The aluminum alloy die-casting die with the rapid cooling function as recited in claim 1, wherein a water injection port (6) and a pipeline (601) are respectively arranged in the sliding plate (3) and the upper die plate (301), the water injection port (6) is communicated with the pipeline (601), one end of the pipeline (601) far away from the water injection port (6) penetrates through the upper die plate (301) and is communicated with the atmosphere, and molten metal is injected from the water injection port (6) and flows between the upper die plate (301) and the die cavity (201) through the pipeline (601).
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CN112317722A (en) * 2020-10-27 2021-02-05 朱尉榕 Mould for casting castings
CN113020566B (en) * 2021-02-26 2022-08-02 广东铸和精密五金制品有限公司 Die casting die of aluminum alloy of easy quick refrigeration cooling
CN115383080A (en) * 2022-09-19 2022-11-25 阚卓 Die-casting die for angle grinder

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