CN211805330U - Fan-shaped magnetic steel processing device - Google Patents

Abstract

The utility model discloses a fan-shaped magnet steel processingequipment, including first clamp plate, last grinding wheel assembly, lower grinding wheel assembly and guide rail set spare. The upper grinding wheel component for grinding the upper surface of the steel magnet to be processed and the lower grinding wheel component for grinding the lower surface of the steel magnet to be processed are arranged on the upper side and the lower side of the guide rail component capable of supporting and guiding the steel magnet to be processed, the steel magnet to be processed sequentially passes through the upper grinding wheel component and the lower grinding wheel component along the sliding process of the guide rail component, and the upper cambered surface and the lower cambered surface of the steel magnet to be processed are processed. This scheme just can realize treating the processing of processing the magnet steel through fan-shaped magnet steel processingequipment, for prior art, need will treat through the staff and process the magnet steel and shift to the mode of next grinding tool by a grinding tool, treat that the processing magnet steel independently slides at the guide rail subassembly to the artifical intensity of labour of fan-shaped magnet steel processing has been reduced.

Description

Fan-shaped magnetic steel processing device

Technical Field

The utility model relates to the technical field of motors, in particular to fan-shaped magnet steel processingequipment.

Background

With the development of new energy vehicles, disc motors have been applied to new energy vehicles, resulting in an increase in the usage amount of the sector magnetic steel of the rotor of the disc motor. However, in the prior art, the sector magnetic steel needs to use a plurality of different grinding tools in the machining process, and different positions of the different grinding tools are different, so that the working personnel needs to transfer the magnetic steel to be machined from one grinding tool to the next grinding tool, and the labor intensity of the sector magnetic steel machining is high.

Therefore, how to reduce the labor intensity of the fan-shaped magnetic steel processing is a technical problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a fan-shaped magnet steel processingequipment to reduce fan-shaped magnet steel's processing artifical intensity of labour.

In order to achieve the above object, the utility model provides a following technical scheme:

a fan-shaped magnetic steel processing device comprises:

the first pressing plate is used for pressing the upper cambered surface of the magnetic steel to be processed;

the upper grinding wheel assembly is used for grinding the upper cambered surface of the magnetic steel to be processed;

the lower grinding wheel assembly is used for grinding the lower arc surface of the magnetic steel to be processed, and corresponds to the first pressing plate in position;

the guide rail component can support and guide the fan-shaped magnetic steel, the fan-shaped magnetic steel can slide along the guide rail component,

the upper grinding wheel component and the first pressing plate are arranged above the guide rail component, the lower grinding wheel component is arranged below the guide rail component, a first opening corresponding to the lower grinding wheel component in position is formed in the guide rail component, and the lower grinding wheel component extends into the first opening to grind the lower cambered surface.

Preferably, in the above sector magnetic steel processing device, the guide rail assembly includes:

the upper end surface of the bottom plate is provided with a groove;

the first guide rail is arranged in the groove and can abut against the lower cambered surface, and the first guide rail is provided with a first opening;

the second guide rails are arranged on the bottom plate, the number of the second guide rails is two, the second guide rails are symmetrically distributed on two sides of the first guide rail, and the inner sides of the second guide rails can be abutted to the side faces of the magnetic steel to be processed.

Preferably, in the sector magnetic steel processing device, the number of the conveying assemblies is two, one of the conveying assemblies is located below the guide rail assembly and used for conveying the magnetic steel to be processed, and the other conveying assembly is located above the guide rail assembly and used for compressing the magnetic steel to be processed;

the transfer assembly includes:

a synchronous belt;

the number of gears is two, and sets up respectively the both ends of hold-in range, one of them the gear is connected with the motor.

Preferably, in the sector magnetic steel processing device, the conveying assembly further includes a tension wheel, and the tension wheel is matched with the gear to tension the synchronous belt.

Preferably, in the above-mentioned sector magnetic steel processing device, the length of the second guide rail extends from the conveying assembly to the lower grinding wheel assembly.

Preferably, in the sector magnetic steel processing device, the upper grinding wheel assembly includes two upper grinding wheels, and the two upper grinding wheels are arranged along the length direction of the guide rail assembly;

the lower grinding wheel assembly comprises two lower grinding wheels, and the two lower grinding wheels are arranged along the length direction of the guide rail assembly.

Preferably, in the sector magnetic steel processing device, the sector magnetic steel processing device further comprises a pressure plate assembly, the pressure plate assembly corresponds to the upper grinding wheel in position, the pressure plate assembly comprises two second pressure plates, the two second pressure plates are respectively located on two sides of the axis direction of the upper grinding wheel, the height of the second pressure plate located at the rear end is higher than that of the second pressure plate located at the front end,

and a second opening for the upper grinding wheel to extend out is arranged between the two second pressing plates, and the upper grinding wheel extends out of the second opening to grind the upper cambered surface.

Preferably, in the above-mentioned fan-shaped magnetic steel processing device, cooling water holes are all opened on the pressing plate assembly, the first pressing plate and the guide rail assembly.

Preferably, in the sector magnetic steel processing device, a first alloy block is arranged on the upper end surface of the first guide rail, and the first alloy block can abut against the lower arc surface;

and a second alloy block is arranged on the inner side of the second guide rail and can be abutted against the side surface of the magnetic steel to be processed.

Preferably, in the sector magnetic steel processing device, a third alloy block is arranged on the lower end surface of the first pressing plate, and the third alloy block can abut against the upper arc surface.

According to the above technical scheme, the utility model provides a fan-shaped magnet steel processingequipment, including first clamp plate, last grinding wheel assembly, lower grinding wheel assembly and guide rail set spare. The upper grinding wheel component for grinding the upper surface of the steel magnet to be processed and the lower grinding wheel component for grinding the lower surface of the steel magnet to be processed are arranged on the upper side and the lower side of the guide rail component capable of supporting and guiding the steel magnet to be processed, the steel magnet to be processed sequentially passes through the upper grinding wheel component and the lower grinding wheel component along the sliding process of the guide rail component, and the upper cambered surface and the lower cambered surface of the steel magnet to be processed are processed. This scheme just can realize treating the processing of processing the magnet steel through fan-shaped magnet steel processingequipment, for prior art, need will treat through the staff and process the magnet steel and shift to the mode of next grinding tool by a grinding tool, treat that the processing magnet steel independently slides at the guide rail subassembly to the artifical intensity of labour of fan-shaped magnet steel processing has been reduced.

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, 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 creative efforts.

Fig. 1 is a schematic structural view of a fan-shaped magnetic steel processing device provided in an embodiment of the present invention;

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

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

fig. 4 is a schematic structural view of the upper grinding wheel and the pressing plate assembly provided in the embodiment of the present invention;

FIG. 5 is a cross-sectional view of an upper grinding wheel according to an embodiment of the present invention;

fig. 6 is a cross-sectional view of a lower grinding wheel according to an embodiment of the present invention.

Wherein,

1. the steel plate machining device comprises a first pressing plate, 11, a third alloy block, 2, an upper grinding wheel assembly, 21, an upper grinding wheel, 3, a lower grinding wheel assembly, 31, a lower grinding wheel, 4, magnetic steel to be machined, 5, a guide rail assembly, 51, a bottom plate, 52, a first guide rail, 53, a second guide rail, 54, a first alloy block, 55, a second alloy block, 6, a conveying assembly, 61, a synchronous belt, 62, a gear, 63, a tensioning wheel, 7, a pressing plate assembly, 71, a second pressing plate, 8 and a cooling water hole.

Detailed Description

The utility model discloses a fan-shaped magnet steel processingequipment to reduce fan-shaped magnet steel's the artifical intensity of labour of processing.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses a fan-shaped magnet steel processingequipment, including first clamp plate 1, go up grinding wheel assembly 2, lower grinding wheel assembly 3 and guide rail set spare 5.

According to the scheme, the magnetic steel 4 to be processed is of a long strip-shaped structure with a trapezoidal section before being ground by the upper grinding wheel assembly 2 and the lower grinding wheel assembly 3.

The guide rail assembly 5 is used for supporting and guiding the magnetic steel 4 to be processed. The supporting function is that the guide rail component 5 supports the lower surface of the magnetic steel 4 to be processed when the upper grinding wheel component 2 grinds the magnetic steel 4 to be processed, the guiding function is that the magnetic steel 4 to be processed can slide along the length extending direction of the guide rail component 5,

the upper end of guide rail set spare 5 sets up grinding wheel set spare 2 and first clamp plate 1, and grinding wheel set spare 3 under the lower extreme of guide rail set spare 5 sets up, and first clamp plate 1 corresponds with grinding wheel set spare 3's position down, sets up the first opening that corresponds with grinding wheel set spare 3 position down on the guide rail set spare 5, and lower grinding wheel set spare 3 stretches into first opening and treats the lower surface of processing magnet steel 4 and grind. Specifically, when waiting to process magnet steel 4 and slide along guide rail set 5, can pass through grinding wheel set 2 and lower grinding wheel set 3 and first clamp plate 1 in proper order, and wait to process magnet steel 4 and pass through grinding wheel set 3 and first clamp plate 1 down simultaneously.

Because be provided with first opening on the guide rail set spare 5, when lower grinding wheel set spare 3 treats the lower surface grinding of processing magnet steel 4, treat the lower surface of processing magnet steel 4 and contact with lower grinding wheel set spare 3, treat the effective grinding of processing magnet steel 4 in order to guarantee lower grinding wheel set spare 3, need set up first clamp plate 1 in the position of first opening, first clamp plate 1 is used for compressing tightly treating processing magnet steel 4 under on grinding wheel set spare 3.

The utility model discloses a fan-shaped magnet steel processingequipment, treat the grinding and treat the upper surface of processing magnet steel 4's last grinding wheel assembly 2 and the grinding and treat the lower grinding wheel assembly 3 setting of processing magnet steel 4's lower surface and can support and lead the upper and lower both sides of treating the guide rail set 5 of processing magnet steel 4, treat that processing magnet steel 4 passes through grinding wheel assembly 2 and lower grinding wheel assembly 3 along the gliding in-process of guide rail set 5 in proper order, the completion is treated the last cambered surface and the lower cambered surface processing of processing magnet steel 4. This scheme just can realize treating the processing of processing magnet steel 4 through fan-shaped magnet steel processingequipment, for prior art, need will treat through the staff and process magnet steel 4 and shift to the mode of next grinding tool by a grinding tool, treat to process magnet steel 4 and independently slide at guide rail set 5 to the artifical intensity of labour of fan-shaped magnet steel processing has been reduced.

Simultaneously, the fan-shaped magnetic steel processing device of this scheme discloses treats that the grinding of processing magnet steel 4 only uses grinding wheel assembly 2 and lower grinding wheel assembly 3, has reduced grinding tool's use quantity, has reduced the cost of fan-shaped magnet steel processing to a certain extent.

In a particular embodiment of the present solution, the rail assembly 5 comprises a base plate 51, a first rail 52 and a second rail 53.

Wherein the first rail 52 and the second rail 53 are both mounted on the base plate 51.

As shown in fig. 2 and 3, the bottom plate 51 is provided with a groove, preferably, the groove is provided in the middle of the bottom plate 51, and the opening direction of the groove faces the upper end surface of the bottom plate 51; the first rail 52 is mounted in the groove; the second guide rails 53 are also mounted on the base plate 51 and mounted on the upper end surface of the base plate 51, the number of the second guide rails 53 is two, and the two first guide rails 52 are symmetrically distributed on both sides of the first guide rails 52.

In order to realize the matching with the lower grinding wheel assembly 3, a first opening is formed in the first guide rail 52, and the lower grinding wheel assembly 3 extends into the first opening to grind the lower surface of the magnetic steel 4 to be processed.

The first guide rail 52 can also abut against the lower surface of the steel magnet 4 to be processed, so as to support the lower surface of the steel magnet 4 to be processed.

The inner side of the second guide rail 53 of the guide rail assembly 5 can be abutted against the side surface of the magnetic steel 4 to be processed, so that the magnetic steel 4 to be processed can slide between the two second guide rails 53.

As shown in fig. 2 and 3, the first guide rail 52 is bolted to the base plate 51.

The sector magnetic steel processing device disclosed by the scheme further comprises a conveying assembly 6 for conveying the to-be-processed magnetic steel 4 to the guide rail assembly 5.

The number of conveying assembly 6 is two, and one of them conveying assembly 6 is located guide rail assembly 5's below for the conveying waits to process magnet steel 4, and another conveying assembly 6 is located guide rail assembly 5's top, is used for treating to process magnet steel 4 and compresses tightly on the conveying assembly 6 that is located guide rail assembly 5 below, and two conveying assembly 6 are pressed from both sides in step and are waited to process magnet steel 4 and move.

The two conveying assemblies 6 are arranged in a staggered manner in the length direction of the guide rail assembly 5, as shown in fig. 1, the conveying assembly 6 positioned below the guide rail assembly 5 has the same length as the conveying assembly 6 positioned above the guide rail assembly 5, and the conveying assembly 6 positioned below the guide rail assembly 5 is positioned at the front end of the conveying assembly 6 positioned above the guide rail assembly 5. The front end is referred to the transmission direction of the magnetic steel 4 to be processed.

In one particular embodiment of the present solution, the transfer assembly 6 comprises a timing belt 61 and a gear 62. The number of the gears 62 is two, and the two gears are respectively arranged at two ends of the synchronous belt 61, wherein one gear 62 is connected with the motor.

In order to ensure the conveying capacity of the synchronous belt 61, the conveying assembly 6 disclosed in the present embodiment further includes a tension wheel 63, and the tension wheel 63 is pressed on the synchronous belt 61 and cooperates with the gear 62 to tension the synchronous belt 61.

Preferably, the tension pulley 63 is arranged on the side of the timing belt 61 not used for conveying the magnetic steel 4 to be processed.

The number of the tension pulleys 63 is set according to actual needs, and is not particularly limited.

As shown in fig. 1, in order to ensure the guiding and supporting effect of the magnetic steel 4 to be processed, the length of the second guide rail 53 extends from the conveying assembly 6 to the lower grinding wheel assembly 3.

The head end of the second rail 53 is flush with the head end of the transfer assembly 6 below the rail assembly 5 and the tail end of the second rail 53 is flush with the tail end of the lower grinding wheel assembly 3.

This scheme is enough long with the design of second guide rail 53, and is preferred, and second guide rail 53's length is whole fan-shaped magnet steel processingequipment's length, and second guide rail 53 treats that processing fan-shaped magnet steel gets into fan-shaped magnet steel processingequipment and begins all to play direction and supporting role to leaving fan-shaped magnet steel processingequipment, and then guarantees fan-shaped magnet steel's processing effect.

In one embodiment of the present disclosure, the upper grinding wheel assembly 2 includes two upper grinding wheels 21, and the two upper grinding wheels 21 are disposed along the length direction of the guide rail assembly 5. The to-be-processed magnetic steel 4 can be ground twice when passing through the upper grinding wheel assembly 2, specifically, the upper grinding wheel 21 located at the front end carries out primary grinding on the upper surface of the to-be-processed magnetic steel 4, the upper grinding wheel 21 located at the rear end carries out secondary grinding on the upper surface of the to-be-processed magnetic steel 4, and the secondary grinding is auxiliary processing, so that the upper surface of the to-be-processed magnetic steel 4 meets the requirement on grinding precision.

In one embodiment of the present disclosure, the lower grinding wheel assembly 3 includes two lower grinding wheels 31, and the two lower grinding wheels 31 are disposed along the length direction of the guide rail assembly 5. Treat that processing magnet steel 4 can carry out twice grinding when grinding wheel assembly 3 down, it is specific, the lower emery wheel 31 that is located the front end carries out the grinding for the first time to treat the lower surface of processing magnet steel 4, and the lower emery wheel 31 that is located the rear end carries out the grinding for the second time to treat the lower surface of processing magnet steel 4, and the grinding for the second time is auxiliary processing to the lower surface that makes treat processing magnet steel 4 reaches the grinding precision requirement.

As shown in fig. 1, the upper grinding wheel assembly 2 is located at the front end of the lower grinding wheel assembly 3. During processing, the upper surface of the magnetic steel 4 to be processed is ground firstly, and then the lower surface of the magnetic steel 4 to be processed is ground.

The upper wheel assembly 2 may also be located at the rear end of the lower wheel assembly 3. During processing, the lower surface of the magnetic steel 4 to be processed is ground firstly, and then the upper surface of the magnetic steel 4 to be processed is ground.

Go up grinding wheel assembly 2 grinding and wait to process the one end of the upper surface of magnet steel 4, wait that the other end of processing magnet steel 4 can take place the slope, can influence the processing effect of waiting to process the upper surface of magnet steel 4 this moment. This scheme has designed clamp plate subassembly 7 in order to guarantee to wait to process the processing effect of the upper surface of magnet steel 4.

As shown in fig. 6, the platen assemblies 7 correspond to the upper grindstones 21 in position, and the number of the platen assemblies 7 is equal to the number of the upper grindstones 21.

The pressure plate assembly 7 includes two second pressure plates 71, the two second pressure plates 71 are respectively located at two sides of the upper grinding wheel 21 in the axial direction, and the height of the second pressure plate 71 located at the rear end is higher than the height of the second pressure plate 71 located at the front end.

When processing, the both ends that pressing plate assembly 7 can treat processing magnet steel 4 compress tightly, avoid because the one end of magnet steel prizes, influence the grinding effect of treating processing magnet steel 4.

The second pressing plate 71 at the rear end is matched with the ground magnetic steel 4 to be processed, and the second pressing plate 71 at the front end is matched with the ground magnetic steel 4 to be processed, so that the height of the second pressing plate 71 at the rear end needs to be higher than that of the second pressing plate 71 at the front end.

A second opening for the upper grinding wheel 21 to extend out is arranged between the two second pressing plates 71, the upper grinding wheel 21 extends out of the second opening and contacts with the magnetic steel 4 to be processed below the second pressing plates 71, and grinding of the upper surface of the magnetic steel 4 to be processed is achieved.

The magnetic steel 4 to be processed can generate a lot of abrasive dust and a lot of heat in the processing process. This scheme has seted up cooling water hole 8 on clamp plate subassembly 7, first clamp plate 1 and guide rail set spare 5, and cooling water is connected with cooling water feeding device, supplies the cooling water in cooling water hole 8. The cooling water not only can wash away the abrasive dust, but also can take away the heat generated by grinding.

The number of the cooling water holes 8 is designed according to actual needs, and is not particularly limited herein.

In order to reduce damage to the rail assembly 5, in this embodiment, the first alloy block 54 is provided on the upper end surface of the first rail 52, and the first alloy block 54 can abut against the lower arc surface. The first alloy blocks 54 are hard alloy blocks, have good wear resistance, and reduce the wear on the first guide rail 52.

In order to further reduce the damage to the guide rail assembly 5, the second alloy block 55 is arranged on the inner side of the second guide rail 53, and the second alloy block 55 can be abutted against the side surface of the magnetic steel 4 to be processed. The second alloy block 55 is a hard alloy block, has good wear resistance, and reduces damage to the second guide rail 53.

Preferably, the first alloy block 54 and the second alloy block 55 are made of the same cemented carbide material.

In order to reduce the abrasion to the pressure plate assembly 7, the third alloy block 11 is arranged on the lower end face of the first pressure plate 1, and the third alloy block 11 can be abutted against the upper cambered surface.

Preferably, the third alloy block 11 and the first alloy block 54 are made of the same cemented carbide material.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a fan-shaped magnet steel processingequipment which characterized in that includes:

the first pressing plate (1) is used for pressing the upper cambered surface of the magnetic steel (4) to be processed;

the upper grinding wheel component (2) is used for grinding the upper cambered surface of the magnetic steel (4) to be processed;

the lower grinding wheel component (3) is used for grinding the lower arc surface of the magnetic steel (4) to be processed, and the lower grinding wheel component (3) corresponds to the first pressing plate (1) in position;

a guide rail component (5) which can support and guide the fan-shaped magnetic steel, the fan-shaped magnetic steel can slide along the guide rail component (5),

the grinding wheel assembly grinding machine is characterized in that the upper grinding wheel assembly (2) and the first pressing plate (1) are arranged above the guide rail assembly (5), the lower grinding wheel assembly (3) is arranged below the guide rail assembly (5), a first opening corresponding to the lower grinding wheel assembly (3) in position is formed in the guide rail assembly (5), and the lower grinding wheel assembly (3) stretches into the first opening to grind the lower cambered surface.

2. A magnetic sector steel machining device according to claim 1, characterized in that said guide assembly (5) comprises:

the device comprises a bottom plate (51), wherein a groove is formed in the upper end surface of the bottom plate (51);

the first guide rail (52) is arranged in the groove and can be abutted against the lower cambered surface, and the first guide rail (52) is provided with a first opening;

the second guide rails (53) are mounted on the bottom plate (51), the number of the second guide rails (53) is two, the two second guide rails are symmetrically distributed on two sides of the first guide rail (52), and the inner sides of the second guide rails (53) can be abutted to the side faces of the magnetic steel (4) to be processed.

3. The sector magnetic steel processing device according to claim 2, further comprising two conveying assemblies (6), wherein one of the two conveying assemblies (6) is located below the guide rail assembly (5) and used for conveying the magnetic steel (4) to be processed, and the other conveying assembly (6) is located above the guide rail assembly (5) and used for pressing the magnetic steel (4) to be processed;

the transfer assembly (6) comprises:

a timing belt (61);

the number of gears (62) is two, and sets up respectively the both ends of hold-in range (61), one of them gear (62) are connected with the motor.

4. The magnetic sector steel processing device according to claim 3, wherein the conveying assembly (6) further comprises a tension wheel (63), and the tension wheel (63) is matched with the gear (62) to tension the synchronous belt (61).

5. A magnetic sector steel machining device according to claim 3, characterized in that the length of said second guide (53) extends from said conveying assembly (6) to said lower grinding wheel assembly (3).

6. A sector magnetic steel processing device according to claim 2, wherein said upper grinding wheel assembly (2) comprises two upper grinding wheels (21), two of said upper grinding wheels (21) being disposed along a length direction of said guide rail assembly (5);

the lower grinding wheel assembly (3) comprises two lower grinding wheels (31), and the two lower grinding wheels (31) are arranged along the length direction of the guide rail assembly (5).

7. The sector magnetic steel processing device according to claim 6, further comprising a pressure plate assembly (7), wherein the pressure plate assembly (7) corresponds to the upper grinding wheel (21), the pressure plate assembly (7) comprises two second pressure plates (71), the two second pressure plates (71) are respectively located on two sides of the upper grinding wheel (21) in the axial direction, the height of the second pressure plate (71) located at the rear end is higher than the height of the second pressure plate (71) located at the front end,

a second opening for extending the upper grinding wheel (21) is formed between the two second pressing plates (71), and the upper grinding wheel (21) extends out of the second opening to grind the upper cambered surface.

8. The fan-shaped magnetic steel processing device according to claim 7, wherein the pressure plate assembly (7), the first pressure plate (1) and the guide rail assembly (5) are provided with cooling water holes (8).

9. The fan-shaped magnetic steel processing device according to claim 2, wherein the upper end face of the first guide rail (52) is provided with a first alloy block (54), and the first alloy block (54) can be abutted against the lower arc surface;

and a second alloy block (55) is arranged on the inner side of the second guide rail (53), and the second alloy block (55) can be abutted against the side surface of the magnetic steel (4) to be processed.

10. A sector magnetic steel processing device according to claim 2, characterized in that a third alloy block (11) is arranged on the lower end surface of the first pressing plate (1), and the third alloy block (11) can be abutted against the upper arc surface.

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