CN210231373U - A leading-in frame of antiskid for processing of nickel alloy anchor line - Google Patents

Abstract

The utility model discloses a leading-in frame of antiskid for processing of nickel alloy anchor line relates to the technical field of nickel alloy anchor line processing, including frame and the rack that is used for placing nickel alloy anchor line book in the frame of setting, its characterized in that, still be provided with the mounting bracket of vertical setting in the frame, be provided with the godet on the mounting bracket, the godet parallels with the feed port of straightening equipment, still be provided with many spinal branchs branch on the mounting bracket, be provided with the positioning disk on the branch, and all be provided with the nickel alloy anchor wire casing that is used for placing the nickel alloy anchor line around its circumference on godet and the positioning disk. The plurality of guide discs are arranged to increase the movement path of the nickel alloy anchor line on the guide-in frame, so that the nickel alloy anchor line on the nickel alloy anchor line roll does not move to excessively influence the operation of the nickel alloy anchor line on the wire guide disc, the stability of the nickel alloy anchor line in the straightening equipment is improved, and the transportation quality of the nickel alloy anchor line is improved.

Description

A leading-in frame of antiskid for processing of nickel alloy anchor line

Technical Field

The utility model relates to a technical field of nickel alloy anchor line processing, more specifically say, it relates to an antiskid leading-in frame that is used for nickel alloy anchor line processing.

Background

When the nickel alloy anchor wire is processed, the nickel alloy anchor wire coiled into a coil is generally uncoiled, then is guided into straightening equipment through a guide-in frame for straightening, then is conveyed into a flattening device for flattening, then is guided into an oiling device for oiling, and after being naturally dried, the flattened nickel alloy anchor wire is conveyed into a coiling device for coiling.

The leading-in frame is used in processing of current nickel alloy anchor line includes the frame, sets up the rack that is used for placing nickel alloy anchor line book in the frame and sets up the godet in the frame, the godet parallels with the feedstock port of straightening equipment, just be provided with drive nickel alloy anchor line book pivoted decoiling motor on the rack.

When the device works, the nickel alloy anchor wire coil is placed on the placing frame, the head of the nickel alloy anchor wire coil is taken out, the nickel alloy anchor wire coil passes through the wire guide disc and then is introduced into the straightening equipment, then the uncoiling motor and driving pieces in other equipment are started, the nickel alloy anchor wire coil is uncoiled and transported, and the nickel alloy anchor wire is processed.

The above prior art solutions have the following drawbacks: the nickel alloy anchor wire on the nickel alloy anchor wire coil is not fixed at one position for transportation due to the unique winding method of the nickel alloy anchor wire, and the nickel alloy anchor wire can reciprocate along the axial direction of the nickel alloy anchor wire, so that the nickel alloy anchor wire on the godet can reciprocate in a certain space. When the transportation speed of the nickel alloy anchor line is too high, the friction between the nickel alloy anchor line and the wire guide disc is reduced, so that the limiting effect of the wire guide disc on the nickel alloy anchor line is reduced, and when the nickel alloy anchor line swings in a reciprocating mode in a certain space, the nickel alloy anchor line is easy to separate from the wire guide disc, and the transportation of the nickel alloy anchor line is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of the prior art, the utility model aims to provide a lead-in frame of antiskid for processing of nickel alloy anchor line through being provided with a plurality of positioning disks for increase the motion distance of nickel alloy anchor line on lead-in frame, make nickel alloy anchor line motion that nickel alloy anchor line was rolled up can not the nickel alloy anchor line operation on the too big influence godet, improve the stability of nickel alloy anchor line in transporting into straightening equipment, increase the transportation quality of nickel alloy anchor line.

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

the utility model provides a leading-in frame of antiskid for processing of nickel alloy anchor line, includes the frame and sets up the rack that is used for placing nickel alloy anchor line book in the frame, still be provided with the mounting bracket of vertical setting in the frame, be provided with the godet on the mounting bracket, the godet parallels with the feed port of straightening equipment, still be provided with many spinal branchs pole on the mounting bracket, be provided with the positioning disk on the branch, and all be provided with the nickel alloy anchor line groove that is used for placing nickel alloy anchor line around its circumference on godet and the positioning disk.

By adopting the technical scheme, when the nickel alloy anchor wire coil is in work, the nickel alloy anchor wire coil is placed on the placing rack, the head of the nickel alloy anchor wire coil is taken out, the nickel alloy anchor wire coil sequentially penetrates through the nickel alloy anchor wire grooves on the plurality of guide discs, then is introduced into the nickel alloy anchor wire grooves in the wire guide disc, then is introduced into equipment for processing other nickel alloy anchor wires such as straightening equipment, and finally, the uncoiling motor and driving pieces in other equipment are started, and the nickel alloy anchor wire coil is uncoiled and transported to complete the processing of the nickel alloy anchor wire.

Because the plurality of guide discs are arranged, the movement path of the nickel alloy anchor line on the guide-in frame is enlarged, so that the nickel alloy anchor line on the nickel alloy anchor line roll does not move to excessively influence the operation of the nickel alloy anchor line on the wire guide disc, the stability of the nickel alloy anchor line in the straightening equipment is improved, and the transportation quality of the nickel alloy anchor line is improved.

Meanwhile, the device is used for guiding the nickel alloy anchor line and limiting the position of the nickel alloy anchor line on the godet, so that the nickel alloy anchor line on the godet cannot reciprocate along with the nickel alloy anchor line on the nickel alloy anchor line roll, and the transportation quality of the nickel alloy anchor line is improved.

The utility model discloses further set up to: and a blocking strip is arranged on the nickel alloy anchor wire groove, and a hole for the nickel alloy anchor wire to pass through is formed between the blocking strip and the nickel alloy anchor wire groove.

By adopting the technical scheme, the device is used for limiting the position of the nickel alloy anchor line, and preventing the nickel alloy anchor line from being separated from the godet and the guide disc due to the overhigh moving speed in the transportation process, so that the transportation effect of the nickel alloy anchor line is improved.

The utility model discloses further set up to: the barrier strip is rotatably connected to one side wall of the nickel alloy anchor wire groove, and a fixing assembly for fixing the barrier strip is arranged on the other side wall of the nickel alloy anchor wire groove.

By adopting the technical scheme, when the nickel alloy anchor line is to be placed, the nickel alloy anchor line is directly placed in the nickel alloy anchor line grooves on the godet and the guide disc, the barrier strip is rotated, and the other end of the barrier strip is fixed by the fixing component so as to limit the position of the nickel alloy anchor line. Need not the workman and pass the hole that is formed by blend stop and nickel alloy anchor line groove with nickel alloy anchor line, make things convenient for the workman to place nickel alloy anchor line, improve workman's work efficiency.

The utility model discloses further set up to: the fixing component comprises a clamping groove which is formed in the side wall of the other side, opposite to the nickel alloy anchor wire groove, of the fixing component, and the clamping groove is connected with the barrier strip in a clamped mode.

Through adopting above-mentioned technical scheme, when the other end of the blend stop will be fixed, with blend stop other end joint in the draw-in groove for the fixed blend stop other end realizes the fixed of blend stop.

The utility model discloses further set up to: the two opposite side walls of the opening of the clamping groove are provided with elastic rubber blocks, the two opposite side walls of the elastic rubber blocks are in contact, and the two elastic rubber blocks are in butt joint with the blocking strips.

Through adopting above-mentioned technical scheme, further improve the fixed firmness of draw-in groove to the blend stop, prevent that the blend stop breaks away from the draw-in groove for the opening part of sealed draw-in groove.

The utility model discloses further set up to: nickel alloy anchor wire casing is provided with polylith baffle, polylith along its circumference the baffle all parallel arrangement, and be formed with the chamber of placing nickel alloy anchor line between the two adjacent baffles and between baffle and the nickel alloy anchor wire casing lateral wall that is close to its one side, blend stop lower surface with baffle upper end looks butt.

By adopting the technical scheme, the nickel alloy anchor line can be wound on the godet and the guide disc for a plurality of circles, the length of the nickel alloy anchor line on the godet and the guide disc is increased, the movement path of the nickel alloy anchor line on the guide-in frame is increased, the transmission path of force is increased, the nickel alloy anchor line on the nickel alloy anchor line roll moves without greatly influencing the operation of the nickel alloy anchor line on the godet, the stability of the nickel alloy anchor line in the straightening equipment is improved, and the transportation quality of the nickel alloy anchor line is increased.

Meanwhile, the nickel alloy anchor lines can be transported simultaneously, and the operation efficiency of the equipment is improved.

The utility model discloses further set up to: the distance between two adjacent baffles is different, and the width of the formed placing cavity is different.

By adopting the technical scheme, the device is suitable for nickel alloy anchor lines with different diameters, so that the nickel alloy anchor lines cannot be separated from the nickel alloy anchor line grooves due to overlarge nickel alloy anchor line grooves during transportation, or the nickel alloy anchor lines with larger diameters cannot be transported due to undersize nickel alloy anchor line grooves, and the application range of the device is widened.

The utility model discloses further set up to: any one of them branch with the mounting bracket rotates to be connected, just it has the connecting rod still to articulate on the branch, the other end of connecting rod with the mounting bracket rotates to slide and is connected, be provided with the adjusting part who adjusts the angle between branch and the mounting bracket on the mounting bracket.

Through adopting above-mentioned technical scheme, when the nickel alloy anchor line becomes loose, branch can be under adjusting part's effect, and the rotary motion of keeping away from the godet reduces the contained angle between branch and the mounting bracket to the realization is with the taut purpose of nickel alloy anchor line, prevents that nickel alloy anchor line from influencing the transportation of nickel alloy anchor line because too loose.

When the nickel alloy anchor line becomes tight, the branch can be under adjusting part's effect, and the rotation that is close to the godet moves, increases the contained angle between branch and the mounting bracket, prevents that the nickel alloy anchor line from leading to the nickel alloy anchor line to break off from the middleware department because both ends atress is too big, influences the transportation of nickel alloy anchor line.

Through being provided with adjusting part and the branch of being connected with the mounting bracket rotation for contained angle between branch and the mounting bracket can be according to the elasticity intensity automatically regulated of nickel alloy anchor line, stability when improving the nickel alloy anchor line transportation, and improve nickel alloy anchor line transportation quality and conveying efficiency. Meanwhile, workers do not need to pay attention to the tightness state of the nickel alloy anchor line all the time, the tightness of the nickel alloy anchor line is manually adjusted, the operation of the workers is facilitated, and the working efficiency of the workers is improved.

The utility model discloses further set up to: the adjusting part comprises an adjusting groove, an adjusting block and an adjusting spring, wherein the adjusting groove is formed in the mounting frame and is arranged along the length direction of the mounting frame, the adjusting block is connected in the adjusting groove in a sliding mode, the adjusting spring is arranged in the sliding groove, two ends of the adjusting spring are connected to the adjusting block and the adjusting groove respectively, and the connecting rod is hinged to the adjusting block.

Through adopting above-mentioned technical scheme, when the nickel alloy anchor line becomes loose, the nickel alloy anchor line makes it to be close to the effort that the godet moved to the positioning disk and reduces, and regulating spring makes its effort of doing away from the godet motion unchangeable to the regulating block, and the balance of branch is broken for the regulating block is under regulating spring's effect, is along adjusting the motion that the groove length direction was kept away from the godet, thereby makes the connecting rod of articulating on the regulating block do the motion of keeping away from the godet. Because the length of connecting rod is unchangeable, the connecting rod can produce a rotation motion that makes it do and keep away from the godet to branch, reduces the contained angle between branch and the mounting bracket for the motion of keeping away from the godet is done to the positioning disk on this branch, is used for taut nickel alloy anchor line, prevents that nickel alloy anchor line from breaking away from the positioning disk because too loose and can godet, improves the transportation quality of nickel alloy anchor line.

Compared with the prior art, the utility model has the advantages that:

1. the plurality of guide discs are arranged to enlarge the movement path of the nickel alloy anchor line on the guide frame, so that the movement of the nickel alloy anchor line on the nickel alloy anchor line coil does not greatly influence the operation of the nickel alloy anchor line on the wire guide disc, the stability of the nickel alloy anchor line in the straightening equipment is improved, and the transportation quality of the nickel alloy anchor line is improved;

2. through being provided with adjusting part and the branch of being connected with the mounting bracket rotation for contained angle between branch and the mounting bracket can be according to the elasticity intensity automatically regulated of nickel alloy anchor line, stability when improving the nickel alloy anchor line transportation, and improve nickel alloy anchor line transportation quality and conveying efficiency.

Drawings

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

FIG. 2 is a schematic structural view of the mounting bracket;

FIG. 3 is a schematic view of the configuration of the godet;

fig. 4 is a front view of the mounting bracket.

Reference numerals: 100. a frame; 110. placing a rack; 111. an uncoiling motor; 200. a mounting frame; 210. a strut; 211. a guide plate; 300. a godet; 310. blocking strips; 320. a fixing assembly; 321. a card slot; 322. an elastic rubber block; 323. a hole; 330. a baffle plate; 331. a placement chamber; 340. a nickel alloy anchor wire slot; 400. an adjustment assembly; 410. an adjustment groove; 420. an adjusting block; 430. adjusting the spring; 440. a connecting rod.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1 and 2, the anti-skid guide-in frame for processing the nickel alloy anchor line comprises a frame 100, a placing frame 110 arranged on the frame 100 and used for placing a nickel alloy anchor line coil, and a mounting frame 200 vertically arranged on the frame 100, wherein a wire guide disc 300 parallel to a feeding port of a straightening device is rotatably connected to the mounting frame 200. And still be provided with many spinal branchs pole 210 on the mounting bracket 200, pole 210 one end is connected on mounting bracket 200, and the other end rotates and is connected with positioning disk 211.

Referring to fig. 1 and 2, an uncoiling motor 111 for driving the nickel alloy anchor wire coil to rotate is fixedly arranged on the placing frame 110 through screws, and the godet 300 and the guide disc 211 are positioned on the same plane, so that the nickel alloy anchor wire is convenient to transport.

Referring to fig. 1 and 2, in the present embodiment, 3 of the struts 210 are provided, two of which are located above the godet 300, are located at both sides of the length direction of the mounting frame 200, and are arranged perpendicular to the mounting frame 200. The last strut 210 is left below the godet 300 and is rotatably connected to the mounting frame 200. And a connecting rod 440 is hinged on the supporting rod 210, and the other end of the connecting rod 440 is connected with the mounting rack 200 in a rotating and sliding manner.

Referring to fig. 1 and 2, this strut 210, which is rotatably connected to the mounting frame 200, is arranged close to the straightening arrangement and there are a total of two struts 210 arranged close to this side.

Referring to fig. 1 and 2, the mounting bracket 200 is further provided with an adjusting assembly 400 for adjusting an angle between the supporting rod 210 and the mounting bracket 200, the adjusting assembly 400 includes an adjusting groove 410 formed in the mounting bracket 200 and arranged along a length direction thereof, an adjusting block 420 connected in the adjusting groove 410 in a sliding manner, and an adjusting spring 430 arranged in the sliding groove, two ends of the adjusting spring 430 are respectively clamped on the adjusting block 420 and the adjusting groove 410, and the connecting rod 440 is hinged on the adjusting block 420.

Referring to fig. 1 and 2, in the present embodiment, the adjusting spring 430 is disposed above the adjusting block 420, and after the installation is completed, the adjusting spring 430 is in a compressed state.

Referring to fig. 2 and 3, a barrier strip 310 is disposed on the nickel alloy anchor line groove 340 along the width direction thereof, one end of the barrier strip 310 is rotatably connected to one side wall of the nickel alloy anchor line groove 340, and a fixing assembly 320 for fixing the barrier strip 310 is disposed on the other side wall of the nickel alloy anchor line groove 340.

Referring to fig. 2 and 3, the fixing member 320 includes a locking groove 321 formed on the opposite side wall of the nickel alloy anchor line groove 340, and the locking groove 321 is locked to the barrier 310. And two opposite side walls of the opening of the clamping groove 321 are respectively adhered with an elastic rubber block 322, and the opposite side walls of the two elastic rubber blocks 322 are contacted with each other. Meanwhile, the two elastic rubber blocks 322 are both abutted against the barrier strip 310 to tightly abut the barrier strip 310 in the slot 321, so as to prevent the barrier strip 310 from shaking.

Referring to fig. 2 and 4, in the present embodiment, a hole 323 through which the nickel alloy anchor line passes is formed between the barrier strip 310 and the nickel alloy anchor line groove 340.

Referring to fig. 2 and 4, a plurality of baffles 330 are integrally arranged in the nickel alloy anchor line groove 340 along the circumferential direction, the baffles 330 are all arranged in parallel, and a placing cavity 331 for placing a nickel alloy anchor line is formed between two adjacent baffles 330 and between the baffle 330 and the side wall of the nickel alloy anchor line groove 340 close to one side of the baffle 330. Meanwhile, the lower surface of the barrier rib 310 abuts against the upper end of the baffle 330.

Referring to fig. 2 and 4, in the present embodiment, 3 baffle plates 330 are provided, and the distance between two adjacent baffle plates 330 is different, that is, the width of the placing cavity 331 is different, so as to adapt to nickel alloy anchor lines with different diameters, and improve the application range of the device.

The working process is as follows:

when the nickel alloy anchor wire winding machine works, a nickel alloy anchor wire winding is placed on the placing frame 110, the head of the nickel alloy anchor wire winding is taken out, the nickel alloy anchor wire sequentially penetrates through the guide disc 211 which is positioned above the wire guide disc 300 and is far away from the straightening device and the guide disc 211 which is close to the straightening device, then penetrates through the guide disc 211 which is positioned below the wire guide disc 300 and is rotatably connected with the mounting frame 200, then the nickel alloy anchor wire is introduced into the other placing cavity 331 which is positioned above the wire guide disc 300 and is close to the guide disc 211 of the straightening device, then the nickel alloy anchor wire is introduced into the placing cavity 331 on the wire guide disc 300, and finally the nickel alloy anchor wire is introduced into other nickel alloy anchor wire processing devices such as the straightening device.

When the nickel alloy anchor line is placed in the placing cavity 331, the position of the nickel alloy anchor line needs to be adjusted to a certain degree, so that the placing cavity 331 is matched with the size of the nickel alloy anchor line, the nickel alloy anchor line in the placing cavity 331 is placed more smoothly, and the nickel alloy anchor line is prevented from being twisted to a certain degree to influence the transportation quality of the nickel alloy anchor line.

After the placement, the blocking strip 310 is rotated, so that the other end of the blocking strip 310 is clamped in the clamping groove 321 for fixing the blocking strip 310. When the other end of the barrier strip 310 contacts the elastic rubber block 322 at the opening of the slot 321, the elastic rubber block 322 is pressed downwards by the barrier strip 310, so that the elastic rubber block 322 moves close to the bottom of the slot 321 or is compressed, and the barrier strip 310 can enter the slot 321 conveniently and is clamped with the slot 321. When the blocking strip 310 enters the clamping groove 321, the elastic potential energy of the elastic rubber block 322 is recovered, the opening of the clamping groove 321 is sealed, and the blocking strip 310 is prevented from being separated from the clamping groove 321, so that the limiting effect of the blocking strip 310 on the nickel alloy anchor line is influenced.

And starting the uncoiling motor 111 and driving pieces in other equipment to uncoil and transport the nickel alloy anchor wire coil, thereby finishing the processing of the nickel alloy anchor wire.

When the nickel alloy anchor wire is loosened, the acting force of the nickel alloy anchor wire for enabling the guide disc 211 to move close to the godet 300 is reduced, the acting force of the adjusting spring 430 for enabling the adjusting block 420 to move away from the godet 300 is unchanged, the balance of the supporting rod 210 is broken, the adjusting block 420 is enabled to move away from the godet 300 along the length direction of the adjusting groove 410 under the action of the adjusting spring 430, and therefore the connecting rod 440 hinged to the adjusting block 420 moves away from the godet 300.

Because the length of the connecting rod 440 is unchanged, the connecting rod 440 can make a rotating motion to the strut 210 to make the strut far away from the godet 300, so that the included angle between the strut 210 and the mounting rack 200 is reduced, the guide disc 211 on the strut 210 makes a motion far away from the godet 300 to strain the nickel alloy anchor line, the nickel alloy anchor line is prevented from being separated from the guide disc 211 due to too loose and leading to the godet 300, and the transportation quality of the nickel alloy anchor line is improved.

Similarly, when the nickel alloy anchor line becomes tight, the supporting rod 210 can be rotated near the godet 300 under the action of the adjusting component 400, so that the included angle between the supporting rod 210 and the mounting rack 200 is increased, and the nickel alloy anchor line is prevented from being disconnected from the middle part due to overlarge stress at two ends, and the transportation of the nickel alloy anchor line is influenced.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides an antiskid leading-in frame for processing of nickel alloy anchor line, includes frame (100) and sets up rack (110) that are used for placing nickel alloy anchor line book on frame (100), its characterized in that, still be provided with mounting bracket (200) of vertical setting on frame (100), be provided with godet (300) on mounting bracket (200), godet (300) parallels with the feed port of straightening equipment, still be provided with many spinal branchs pole (210) on mounting bracket (200), be provided with deflector (211) on branch (210), and all be provided with nickel alloy anchor line groove (340) that are used for placing the nickel alloy anchor line around its circumference on godet (300) and deflector (211).

2. The anti-skid lead-in frame for the nickel alloy anchor line processing according to claim 1, wherein a barrier strip (310) is arranged on the nickel alloy anchor line groove (340), and a hole (323) for the nickel alloy anchor line to pass through is formed between the barrier strip (310) and the nickel alloy anchor line groove (340).

3. The anti-skid lead-in frame for the nickel alloy anchor line processing as claimed in claim 2, wherein the barrier strip (310) is rotatably connected to one side wall of the nickel alloy anchor line groove (340), and a fixing component (320) for fixing the barrier strip (310) is arranged on the other side wall of the nickel alloy anchor line groove (340).

4. The anti-skid lead-in frame for the nickel alloy anchor line processing as claimed in claim 3, wherein the fixing component (320) comprises a clamping groove (321) formed on the other side wall opposite to the nickel alloy anchor line groove (340), and the clamping groove (321) is clamped with the barrier strip (310).

5. The anti-skid guide-in frame for processing the nickel alloy anchor line as claimed in claim 4, wherein two opposite side walls of the opening of the clamping groove (321) are provided with elastic rubber blocks (322), the opposite side walls of the two elastic rubber blocks (322) are in contact, and the two elastic rubber blocks (322) are in contact with the barrier strip (310).

6. The anti-skid lead-in frame for the nickel alloy anchor line processing according to claim 2, wherein a plurality of baffles (330) are arranged in the nickel alloy anchor line groove (340) along the circumferential direction, the baffles (330) are all arranged in parallel, a placing cavity (331) for placing the nickel alloy anchor line is formed between two adjacent baffles (330) and between the baffle (330) and the side wall of the nickel alloy anchor line groove (340) close to one side of the baffle (330), and the lower surface of the barrier strip (310) is abutted against the upper end of the baffle (330).

7. The anti-skid lead-in frame for nickel alloy anchor line processing according to claim 6, characterized in that the spacing between two adjacent baffles (330) is different, and the width of the formed placing cavity (331) is different.

8. The anti-skid guide-in frame for processing the nickel alloy anchor line is characterized in that any one of the supporting rods (210) is rotatably connected with the mounting frame (200), a connecting rod (440) is further hinged to the supporting rod (210), the other end of the connecting rod (440) is rotatably and slidably connected with the mounting frame (200), and an adjusting assembly (400) for adjusting the angle between the supporting rod (210) and the mounting frame (200) is arranged on the mounting frame (200).

9. The anti-skid guide-in frame for machining the nickel alloy anchor line is characterized in that the adjusting assembly (400) comprises an adjusting groove (410) formed in the mounting frame (200) and arranged along the length direction of the mounting frame, an adjusting block (420) connected in the adjusting groove (410) in a sliding mode, and an adjusting spring (430) arranged in the sliding groove, the two ends of the adjusting spring (430) are connected to the adjusting block (420) and the adjusting groove (410) respectively, and the connecting rod (440) is hinged to the adjusting block (420).

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