CN112350131A - Hardware terminal stamping equipment - Google Patents

Abstract

The invention relates to a hardware terminal stamping device, which comprises: the device comprises a rack, a telescopic mechanism, a rotating mechanism, a clamping mechanism, a first stamping die and a second stamping die; the telescopic mechanism is arranged on the rack, the telescopic mechanism is in driving connection with the rotating mechanism, the rotating mechanism is in driving connection with the clamping mechanism, the first stamping die and the second stamping die are respectively movably arranged on the rack, the first stamping die and the second stamping die are oppositely arranged, the first stamping die and the second stamping die are movably abutted, the clamping mechanism is used for clamping a hardware, and the telescopic mechanism is used for driving the hardware on the clamping mechanism to move between the first stamping die and the second stamping die. Through the tight hardware of clamping mechanism clamp, telescopic machanism drive clamping mechanism's hardware activity aligns different first press die and second press die to rotate the hardware through rotary mechanism after the punching press again at every turn, realize the punching press on the different angles of hardware and form the hardware terminal, thereby improved the punching press efficiency of hardware terminal.

Description

Hardware terminal stamping equipment

Technical Field

The invention relates to the technical field of hardware stamping production, in particular to hardware terminal stamping equipment.

Background

The stamping device is used for stamping hardware, such as stamping hardware terminals and the like. The stamping equipment drives a stamping die to stamp the hardware through a press machine. To the comparatively complicated five metals terminal of partial structure, need punch on the different faces, form required structure, often need send into the hardware to different stamping equipment like this and carry out the punching press many times, need establish a plurality of pipeline like this, perhaps need artifically carry the hardware to different stamping equipment, lead to machining efficiency low.

Disclosure of Invention

Based on this, it is necessary to provide a hardware terminal stamping device.

The utility model provides a five metals terminal stamping equipment, includes: the device comprises a rack, a telescopic mechanism, a rotating mechanism, a clamping mechanism, a first stamping die and a second stamping die;

the telescopic machanism set up in the frame, telescopic machanism with the rotary mechanism drive is connected, rotary mechanism with the clamping mechanism drive is connected, first stamping die with the second stamping die activity respectively set up in the frame, just first stamping die with the second stamping die sets up relatively, first stamping die with second stamping die activity butt, clamping mechanism is used for pressing from both sides tight hardware, telescopic machanism is used for the drive hardware on the clamping mechanism move extremely first stamping die with between the second stamping die.

In one embodiment, the stamping die further comprises a first stamping driver and a second stamping driver, the first stamping driver and the second stamping driver are both arranged on the machine frame, the first stamping driver is used for driving the first stamping die to move towards or away from the second stamping die, and the second stamping driver is used for driving the second stamping die to move towards or away from the first stamping die.

In one embodiment, the telescopic mechanism comprises a telescopic driver and a telescopic guide rail, the telescopic driver and the telescopic guide rail are both arranged on the rack, the rotating mechanism is connected with a sliding block, the telescopic driver is in driving connection with the sliding block, and the sliding block is slidably arranged on the telescopic guide rail.

In one embodiment, the telescopic drive comprises a pneumatic cylinder.

In one embodiment, the rotating mechanism comprises a rotating motor, the rotating motor is arranged on the sliding block, and the rotating motor is in driving connection with the clamping mechanism.

In one embodiment, the clamping mechanism comprises a clamp cylinder and a connecting block, the rotating mechanism is in driving connection with the connecting block, and the clamp cylinder is arranged on the connecting block.

In one embodiment, the stamping die further comprises a plurality of first stamping dies and a plurality of second stamping dies, each first stamping die is arranged opposite to one second stamping die, the transverse moving guide rail is arranged on the rack, the transverse moving guide rail extends along the arrangement direction of the first stamping dies, the telescopic mechanism is connected with a transverse moving block, the transverse moving block is arranged on the transverse moving guide rail in a sliding mode, the transverse moving driver is in driving connection with the transverse moving block, and the transverse moving driver is used for driving the telescopic mechanism to move along the transverse moving guide rail and movably align each pair of the first stamping die and the second stamping die.

In one embodiment, the traverse actuator comprises a traverse driving motor and a screw rod, the traverse driving motor is in driving connection with the screw rod, the traverse block is provided with a screw hole, and the screw rod is arranged through the screw hole and is in threaded connection with the side wall of the screw hole.

In one embodiment, the traverse drive motor is a servo motor.

The invention has the beneficial effects that: through the tight hardware of clamping mechanism clamp, telescopic machanism drive clamping mechanism's hardware activity aligns different first press die and second press die to rotate the hardware through rotary mechanism after the punching press again at every turn, realize the punching press on the different angles of hardware and form the hardware terminal, thereby improved the punching press efficiency of hardware terminal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a hardware terminal stamping apparatus according to an embodiment in one direction;

fig. 2 is a schematic structural diagram of another direction of the hardware terminal stamping device according to an embodiment.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, a hardware terminal stamping apparatus 10 according to an embodiment of the present invention includes: the machine frame 100, the telescoping mechanism 200, the rotating mechanism 300, the clamping mechanism 400, the first stamping die 510 and the second stamping die 520;

telescopic machanism 200 set up in on the frame 100, telescopic machanism 200 with rotary mechanism 300 drive is connected, rotary mechanism 300 with clamping mechanism 400 drive is connected, first press die 510 with second press die 520 respectively the activity set up in on the frame 100, just first press die 510 with second press die 520 sets up relatively, first press die 510 with second press die 520 activity butt, clamping mechanism 400 is used for pressing from both sides tight hardware, telescopic machanism 200 is used for the drive hardware on the clamping mechanism 400 move extremely first press die 510 with between the second press die 520.

Specifically, a plurality of first stamping dies 510 and a plurality of second stamping dies 520 are arranged on the machine frame 100, each first stamping die 510 corresponds to one second stamping die 520, the opposite first stamping die 510 and second stamping die 520 are used for stamping a hardware in one direction, and the first stamping die 510 and the second stamping die 520 of each pair are sequentially arranged on the machine frame 100.

The telescoping mechanism 200 moves in a direction close to or away from each pair of the first stamping die 510 and the second stamping die 520 to drive the rotating mechanism 300 and the clamping mechanism 400 to be close to or away from each pair of the first stamping die 510 and the second stamping die 520, the rotating mechanism 300 is used for driving the clamping mechanism 400 to rotate ninety degrees each time, so that the hardware on the clamping mechanism 400 moves between one pair of the first stamping die 510 and the second stamping die 520 each time, and rotates ninety degrees each time, so that multiple surfaces of the hardware are stamped by different first stamping die 510 and second stamping die 520.

In order to drive the movement of the first stamping die 510 and the second stamping die 520, in one embodiment, the hardware terminal stamping device 10 further includes a first stamping driver (not shown) and a second stamping driver 540, the first stamping driver and the second stamping driver 540 are both disposed on the rack 100, the first stamping driver is configured to drive the first stamping die 510 to move towards or away from the second stamping die 520, and the second stamping driver 540 is configured to drive the second stamping die 520 to move towards or away from the first stamping die 510.

In this embodiment, the rack 100 is provided with a plurality of first stamping drivers and a plurality of second stamping drivers 540, each first stamping driver is in driving connection with a first stamping die 510, each second stamping driver 540 is in driving connection with a second stamping die 520, and under the driving of the first stamping driver and the second stamping driver 540, the first stamping die 510 and the second stamping die 520 which are oppositely arranged move in opposite directions and move towards a hardware located between the two, so as to stamp the hardware. When the first stamping die 510 and the second stamping die 520 which are oppositely arranged are far away from each other, the hardware completes stamping and is separated from the first stamping die 510 and the second stamping die 520 which are oppositely arranged.

In the above embodiment, press from both sides tight hardware through clamping mechanism, telescopic machanism drive clamping mechanism's hardware activity aligns different first press die and second press die to rotate the hardware through rotary mechanism after the punching press again at every turn, realize the punching press on the different angles of hardware and form the hardware terminal, thereby improved the punching press efficiency of hardware terminal. Like this, need not to set up the conveyer belt and carry the five metals terminal, and need not the semi-manufactured goods of manual transport five metals terminal, effectively improved punching efficiency.

In order to drive the hardware to approach the first stamping die 510 and the second stamping die 520 during stamping and to be separated from the first stamping die 510 and the second stamping die 520 after stamping, in an embodiment, as shown in fig. 2, the telescopic mechanism 200 includes a telescopic driver 210 and a telescopic rail 220, the telescopic driver 210 and the telescopic rail 220 are both disposed on the rack 100, the rotating mechanism 300 is connected with a sliding block 230, the telescopic driver 210 is in driving connection with the sliding block 230, and the sliding block 230 is slidably disposed on the telescopic rail 220.

In this embodiment, the telescopic driver includes an air cylinder. The telescopic rail 220 extends along a direction from close to far away from the first stamping die 510 and the second stamping die 520, or the extending direction of the telescopic rail 220 is perpendicular to the direction in which each pair of the first stamping die 510 and the second stamping die 520 is arranged, so that the air cylinder drives the slide block 230 to move along the telescopic rail 220, the slide block 230 drives the rotating mechanism 300 to move close to the pair of the first stamping die 510 and the second stamping die 520 to realize stamping, after stamping, the slide block 230 drives the rotating mechanism 300 to move away from the first stamping die 510 and the second stamping die 520, and after aligning the first stamping die 510 and the second stamping die 520 of the next pair, the slide block 230 drives the rotating mechanism 300 to move close to the first stamping die 510 and the second stamping die 520 of the next pair, and the hardware is fed into the first stamping die 510 and the second stamping die 520 of the next pair to be stamped, so as to realize stamping of multiple faces of the hardware.

To drive the hardware of the clamping mechanism 400 to rotate, in one embodiment, the rotating mechanism 300 includes a rotating motor disposed on the slider 230, the rotating motor being drivingly connected to the clamping mechanism 400.

In this embodiment, the rotating motor is disposed on the sliding block 230, and as the sliding block 230 moves along the telescopic rail 220, the power output shaft of the rotating motor is in driving connection with the clamping mechanism 400 to drive the clamping mechanism 400 to rotate, and in one embodiment, the rotating motor is a servo motor, and when each pair of the first stamping die 510 and the second stamping die 520 aligned with each other is used, the power output shaft of the servo motor rotates ninety degrees, so that hardware on the clamping mechanism 400 can rotate ninety degrees.

In order to clamp hardware, in one embodiment, as shown in fig. 2, the clamping mechanism 400 includes a clamp cylinder 410 and a connection block 420, the rotating mechanism 300 is in driving connection with the connection block 420, and the clamp cylinder 410 is disposed on the connection block 420.

In this embodiment, rotating electrical machines's power output shaft and connecting block 420 drive are connected, and clip cylinder 410 is used for opening or closing, and clip cylinder 410 presss from both sides tight hardware when closing, and when clip cylinder 410 opened, the hardware drops for the five metals terminal that the punching press was accomplished can the unloading.

Specifically, in this embodiment, the rack 100 is further provided with a vibration tray (not shown) and a material delivery chute (not shown) connected to the vibration tray, the material delivery chute is disposed at one side of the pair of first stamping die 510 and the second stamping die 520 located at the edge, the extending direction of the material delivery chute is parallel to the straight line where each pair of the first stamping die 510 and the second stamping die 520 are arranged, the clamping mechanism 400 is movably aligned to the material delivery chute, hardware placed on the vibration tray is orderly arranged and conveyed into the material delivery chute under the vibration of the vibration tray, and the clamping mechanism 400 clamps the hardware in the material delivery chute and sequentially moves to each pair of the first stamping die 510 and the second stamping die 520 to perform stamping. It is worth mentioning that the structure and implementation principle of the vibrating tray and the material conveying chute are the techniques known to those skilled in the art, and are not described in detail in this embodiment.

To enable the hardware on the clamping mechanism 400 to move and align the first and second dies 510 and 520 of each pair, in one embodiment, the hardware terminal stamping device 10 further includes a traverse actuator 610 and traverse guide 620, the number of the first press die 510 and the second press die 520 is plural, each of the first press die 510 and the second press die 520 is disposed opposite to each other, the traverse guide 620 is provided on the frame 100, the traverse guide 620 is provided to extend along the arrangement direction of the first press dies 510, the telescoping mechanism 200 is connected with a traverse block 650, the traverse block 650 is slidably arranged on the traverse guide rail 620, the traverse actuator 610 is drivingly connected to the traverse block 650, and the traverse actuator 610 is configured to drive the telescoping mechanism 200 along the traverse rail 620 and to movably align each pair of the first press die 510 and the second press die 520.

In this embodiment, the extension direction of the traverse rail 620 is parallel to the arrangement direction of each pair of the first stamping die 510 and the second stamping die 520, the traverse block 650 is driven by the traverse driver 610 to move along the traverse rail 620, the traverse block 650 drives the telescoping mechanism 200 to move along the traverse rail 620, so that the telescoping mechanism 200 can align the pair of the first stamping die 510 and the second stamping die 520 one by one in motion, after the telescoping mechanism 200 is aligned with the pair of the first stamping die 510 and the second stamping die 520, the traverse driver 610 stops moving, so that the telescoping mechanism 200 drives the clamping mechanism 400 to be close to the first stamping die 510 and the second stamping die 520, so that the hardware on the clamping mechanism 400 can be stamped by the current first stamping die 510 and the current second stamping die 520, and then the current first stamping die 510 and the current second stamping die 520 are separated, the telescoping mechanism 200 drives the clamping mechanism 400 to be far away from the current first stamping die 510 and the current second stamping die 520, the traverse actuator 610 is operated again to actuate the traverse block 650 to move again and move the telescoping mechanism 200 to align the next pair of first and second dies 510 and 520, and then the rotary mechanism 300 actuates the hardware on the clamping mechanism 400 to rotate ninety degrees, and the telescoping mechanism 200 again actuates the hardware on the clamping mechanism 400 to move closer to and deeper into between the next pair of first and second dies 510 and 520, which punch the rotated hardware. This enables the hardware to align the first stamping die 510 and the second stamping die 520 of each pair one by one, and realize stamping at different angles.

In order to drive the traverse block 650 to move on the traverse rail 620, in one embodiment, the traverse driver 610 includes a traverse driving motor 630 and a screw rod 640, the traverse driving motor 630 is drivingly connected to the screw rod 640, the traverse block 650 is provided with a screw hole, and the screw rod 640 is inserted through the screw hole and is screwed with a side wall of the screw hole. In this embodiment, the axial direction of the screw shaft 640 is parallel to the extending direction of the traverse guide 620, the traverse driving motor 630 drives the screw shaft 640 to rotate, and the screw shaft 640 is screwed with the traverse block 650, so that the screw shaft 640 can convert the circular motion into the linear motion of the traverse block 650, and the traverse block 650 can move along the traverse guide 620.

When the hardware moves to the last pair of the first stamping die 510 and the second stamping die 52 along the traverse guide rail 620 and is stamped by the last pair of the first stamping die 510 and the second stamping die 520, the clamp cylinder 410 is opened, so that the stamped hardware terminal falls down, and blanking of the stamped hardware terminal is realized.

In one embodiment, the traverse drive motor 630 is a servo motor. The servo motor can precisely control the rotation angle of the lead screw 640, and further precisely control the movement distance of the traverse block 650, so that the telescopic mechanism 200 can precisely align each pair of the first stamping die 510 and the second stamping die 520.

In order to accurately control the operations of the transverse moving driving motor, the telescopic driver, the rotating motor and the clamp cylinder, in one embodiment, the hardware terminal stamping device further comprises a control module, the control module is electrically connected with the transverse moving driving motor, the telescopic driver, the rotating motor and the clamp cylinder, and the control module enables hardware to be accurately aligned with the first stamping die and the second stamping die in each pair by controlling the operations of the transverse moving driving motor, the telescopic driver, the rotating motor and the clamp cylinder.

In one embodiment, a plurality of touch components are arranged on the rack along the transverse moving guide rail, each touch component comprises a fixed block, an elastic piece and a touch switch, each fixed block is arranged along the transverse moving guide rail, each fixed block is arranged on one side of the transverse moving guide rail, the position of each fixed block corresponds to a pair of a first stamping die and a second stamping die, the first end of each elastic piece is connected with the fixed block, the second end of each elastic piece extends to the transverse moving guide rail, one end of each elastic piece is connected with the fixed block, the other end of each elastic piece is connected with the middle of each elastic piece, when the transverse moving block moves along the transverse moving guide rail, each transverse moving block movably abuts against one surface of the second end of each elastic piece, the other surface of the middle of each elastic. Therefore, when the traverse motion driving motor drives the traverse motion block to move, the control module is used for detecting a touch signal generated when the touch switch is abutted by the elastic sheet when the traverse motion block touches the second end of the elastic sheet so that the second end of the elastic sheet is abutted to the touch switch, and when the control module acquires the touch signal of the touch switch, the traverse motion driving motor is controlled to stop working, so that the traverse motion block can accurately stop and align the first stamping die and the second stamping die which are respectively aligned.

In the above embodiment, the elastic sheet is used for abutting against the touch switch and abutting against the traverse block, the elastic sheet deforms under the abutting action of the touch switch and the traverse block, and the elastic sheet has elasticity and can restore to the shape under the action of the elasticity of the elastic sheet after the traverse block is separated from the elastic sheet. Compared with the conventional key of the touch switch, the elastic sheet is adopted in the embodiment, so that the touch component can be effectively protected, and the touch component is prevented from being damaged.

In one embodiment, the resilient member is a spring.

In one embodiment, the spring plate has an S-shaped structure, so that when the transverse moving block moves forward and abuts against the spring plate, the spring plate compresses the elastic piece, the spring plate abuts against the touch switch, when the transverse moving block drives the hardware to be stamped by the first stamping die 510 and the second stamping die 520 in multiple pairs, the transverse moving block returns, in the returning process, the transverse moving block moves in the reverse direction and abuts against the spring plate again, and because the other surface of the spring plate is an arc surface, the transverse moving block abuts against the spring plate along the arc surface, the spring plate is bent, and the spring plate is prevented from being bent due to impact of the transverse moving block in the returning process of the transverse moving block.

It should be understood that, because the sideslip piece is in the forward motion in-process, the sideslip piece is behind the butt shell fragment, sideslip driver stop work, sideslip piece stop motion, it strikes the shell fragment and causes the shell fragment unable reset of buckling to have avoided the high-speed motion of sideslip piece, when sideslip piece reverse motion, because the clip cylinder did not carry the hardware this moment, therefore the quick return of sideslip piece, and because the another side of flexure strip is crooked along the direction of sideslip piece reverse motion, can cater to the motion of sideslip piece better, thereby the flexure strip damage that the impact of sideslip piece leads to has been avoided.

In order to further avoid the traversing block to impact the elastic sheet to cause the damage of the elastic sheet, in one embodiment, the opposite angle of the traversing block is arranged to be an arc-shaped surface, so that the elastic sheet can deform along the arc-shaped surface by arranging the arc-shaped surface, and the traversing block is staggered with the traversing block in the moving process, thereby avoiding the traversing block from being abutted against the elastic sheet by a large margin to cause the deformation that the elastic sheet cannot recover, and avoiding the damage of the elastic sheet.

It should be understood that the control module may also determine the moving distance of the traverse block according to the rotation speed and the rotation speed of the traverse driving motor, and control the operation of the traverse driving motor according to the moving distance of the traverse block, so that the traverse block can be precisely aligned with the first and second dies of each pair. And furthermore, in the process that the hardware moves along with the traverse block, the hardware can accurately align the first stamping die and the second stamping die in each pair, and under the driving of the telescopic mechanism, in the embodiment, the control module controls the operation of the traverse driving motor according to the movement distance of the traverse block and a touch signal of the touch switch, so that the traverse block can accurately align the first stamping die and the second stamping die in each pair.

In order to accurately control the transverse moving block to accurately align the first stamping die and the second stamping die of each pair, in one embodiment, a plurality of limiting components are arranged on the frame along the transverse moving guide rail, each limiting component corresponds to a touch component, each limiting component is arranged adjacent to the touch component, each limiting component comprises a limiting driver, a limiting slide rail and a limiting block, the limiting block is arranged on the limiting slide rail in a sliding manner, the limiting driver is an air cylinder, the limiting drivers are connected with the limiting blocks in a driving manner, the limiting slide rails are perpendicular to the transverse moving guide rail, each limiting slide rail is arranged close to a fixed block, the control module is used for controlling the limiting drivers corresponding to the touch switches to work when detecting touch signals of the touch switches, driving the limiting slide blocks to move along the limiting slide rails, enabling the limiting slide blocks to slide onto the transverse moving guide rail, and enabling the transverse moving, the limiting slide block is limited for the transverse moving block, and the transverse moving block is prevented from deviating due to inertia, so that the transverse moving block is accurately aligned with the first stamping die and the second stamping die in each pair.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The utility model provides a five metals terminal stamping equipment which characterized in that includes: the device comprises a rack, a telescopic mechanism, a rotating mechanism, a clamping mechanism, a first stamping die and a second stamping die;

the telescopic machanism set up in the frame, telescopic machanism with the rotary mechanism drive is connected, rotary mechanism with the clamping mechanism drive is connected, first stamping die with the second stamping die activity respectively set up in the frame, just first stamping die with the second stamping die sets up relatively, first stamping die with second stamping die activity butt, clamping mechanism is used for pressing from both sides tight hardware, telescopic machanism is used for the drive hardware on the clamping mechanism move extremely first stamping die with between the second stamping die.

2. The hardware terminal stamping device according to claim 1, further comprising a first stamping driver and a second stamping driver, wherein the first stamping driver and the second stamping driver are both arranged on the rack, the first stamping driver is used for driving the first stamping die to move towards or away from the second stamping die, and the second stamping driver is used for driving the second stamping die to move towards or away from the first stamping die.

3. The hardware terminal stamping device according to claim 2, wherein the telescopic mechanism comprises a telescopic driver and a telescopic guide rail, the telescopic driver and the telescopic guide rail are both arranged on the rack, the rotating mechanism is connected with a sliding block, the telescopic driver is in driving connection with the sliding block, and the sliding block is slidably arranged on the telescopic guide rail.

4. The hardware terminal stamping apparatus of claim 3, wherein the telescopic drive comprises an air cylinder.

5. The hardware terminal stamping device according to claim 4, wherein the rotating mechanism comprises a rotating motor, the rotating motor is arranged on the sliding block, and the rotating motor is in driving connection with the clamping mechanism.

6. The hardware terminal stamping device according to claim 1, wherein the clamping mechanism comprises a clamp cylinder and a connecting block, the rotating mechanism is in driving connection with the connecting block, and the clamp cylinder is arranged on the connecting block.

7. The hardware terminal stamping apparatus according to any one of claims 1 to 6, further comprising a plurality of first stamping dies and a plurality of second stamping dies, wherein each first stamping die is disposed opposite to one second stamping die, the traverse rail is disposed on the frame, the traverse rail extends along an arrangement direction of the first stamping dies, the telescoping mechanism is connected with a traverse block, the traverse block is slidably disposed on the traverse rail, the traverse driver is drivingly connected with the traverse block, and the traverse driver is configured to drive the telescoping mechanism to move along the traverse rail and to movably align each pair of the first stamping die and the second stamping die.

8. The hardware terminal stamping device according to claim 7, wherein the traverse actuator comprises a traverse driving motor and a screw rod, the traverse driving motor is in driving connection with the screw rod, the traverse block is provided with a screw hole, and the screw rod penetrates through the screw hole and is in threaded connection with a side wall of the screw hole.

9. The hardware terminal stamping apparatus of claim 8, wherein the traverse drive motor is a servo motor.

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