KR101747033B1 - Apparatus for cooling material - Google Patents

Abstract

The present invention relates to a lifting guide unit provided on a conveying path of a work; A cooling header part installed in the lifting guide part for cooling the material conveyed by spraying the cooling medium; A guard driving part for integrally rotating the cooling header part and the lifting guide part on the conveying line of the workpiece; And a header elevating part for elevating and lowering the cooling header part on the lifting guide part so as to adjust a jetting position of the cooling medium, wherein the guard driving part includes a cooling header part and a lifting guide part, So as to secure a work space in which the defective material can be processed.

Description

{APPARATUS FOR COOLING MATERIAL}

The present invention relates to a material cooling apparatus capable of optimizing cooling efficiency of a material.

It should be noted that the contents described in this section merely provide background information on the present invention and do not constitute the prior art.

Generally, in the rolling process of continuous continuous equipment, the strip extracted from the heating furnace travels along the pass line and passes through a plurality of rolling mills to produce a rolled material having a desired thickness.

The quality of rolled steel during continuous rolling of continuous continuous equipment is affected by the flatness (shape) of the rolled material, which is influenced by the precision control of the rolling mill, and the effect of purging of cooling water by chiller, .

Referring to FIG. 1, a conventional stationary cooling apparatus continuously injects cooling water in a spray nozzle formed in a stationary frame provided above a conveyed material to cool the conveyed material.

However, in the case of the stationary cooling apparatus, since the position of the injection nozzle is fixed, it is not easy to control the amount of cooling water purging depending on the thickness or the width of the material to be sprayed.

In addition, when a defect occurs in the process of conveying, there is a problem that a safety accident of a worker may occur in a process of processing high-temperature materials in which a defect occurs in a narrow space where a fixed cooling device is installed.

In addition, there is a problem that productivity may be deteriorated because a long-term production may be stopped until high-temperature materials having defects are processed.

Accordingly, the present invention provides a material cooling apparatus capable of optimizing the effect of purging of cooling water by the material cooling apparatus, rapid cooling effect due to scattering input, and rapidly processing defective materials to improve productivity I want to.

As one aspect, the present invention is to provide a material cooling apparatus capable of improving the productivity of a process by quickly processing a material having a defect.

As one aspect, the present invention provides a material cooling apparatus capable of improving the quality of a material by optimizing the cooling efficiency of the material.

According to one aspect of the present invention, there is provided a lifting device comprising: a lifting guide provided on a conveying path of a work; A cooling header part installed in the lifting guide part for cooling the material conveyed by spraying the cooling medium; A guard driving part for integrally rotating the cooling header part and the lifting guide part on the conveying line of the workpiece; And a header elevating part for elevating and lowering the cooling header part on the lifting guide part so as to adjust a jetting position of the cooling medium, wherein the guard driving part includes a cooling header part and a lifting guide part, So as to secure a work space in which the defective material can be processed.

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Preferably, the header lifting unit may lift or unroll the lifting cable connected to the cooling header by a lifting motor installed on one side of the lifting guide unit.

The stopper may further include a stopper portion that fixes the cooling header portion to the lifting guide portion when the lifting guide portion rotates on a conveying line of the workpiece.

Preferably, the stopper portion includes: a stopper frame provided on the lifting guide portion; And a stopper member that is driven by a stopper cylinder installed on the stopper frame and inserted into one side of the cooling header portion to fix the cooling header portion to the lifting guide portion.

Preferably, the cooling header portion includes: a header main body in which a space for storing the cooling medium is formed;

A guide roller for guiding the header main body up and down along a guide rail provided on the lifting guide portion; And a drag chain including a supply pipe for supplying a cooling medium to the header body, and a chain member for bendingly surrounding the supply pipe.

Preferably, the header body includes: a compartment partitioned by the partitioning member in multiple stages in the conveyance direction of the workpiece and storing the cooling medium; A flow hole formed in the partition member and through which the cooling medium moves; And a spray nozzle installed in association with an outlet formed through the lower portion of the compartment and spraying the cooling medium to the material to be conveyed.

In accordance with another aspect of the present invention, there is provided a method of manufacturing an apparatus, including: a lifting guide provided on a conveying path of a work; A cooling header part installed in the lifting guide part for cooling the material conveyed by spraying the cooling medium; A guard driving part for integrally rotating the cooling header part and the lifting guide part on the conveying line of the workpiece; And a header elevating part for elevating the cooling header part on the lifting guide part to adjust a spraying position of the cooling medium, wherein the cooling header part has a space for storing a cooling medium therein; A guide roller for guiding the header main body up and down along a guide rail provided on the lifting guide portion; And a drag chain having a supply pipe for supplying a cooling medium to the header main body and a chain member for bendingly surrounding the supply pipe, wherein the header main body is divided into a plurality of A compartment in which the compartment is divided and the cooling medium is stored; A flow hole formed in the partition member and through which the cooling medium moves; And a spray nozzle installed in association with an outlet formed through the lower portion of the compartment and spraying a cooling medium to the material to be conveyed, wherein at least two of the partition members are provided in the header body, And the partition wall member is disposed such that the sum of the cross sectional areas of the flow holes is relatively small in the drawing direction.

Preferably, the header body is provided in a compartment at a rearmost end of the plurality of compartments arranged in the material conveying direction, and discharges the cooling medium stored in the header body to adjust a pressure of the cooling medium in the header body A valve may be provided.

Preferably, the cooling system further includes a cooling pipe for supplying the cooling medium to the cooling header portion, and a rotation joint for rotatably connecting the supply pipe installed in the drag chain.

Preferably, the guard drive unit includes: a pivot shaft rotatably installed on a shaft block installed in the fixed structure and integrally fixed to one side of the guard body of the lifting guide unit; A swing arm hinged to the pivot shaft; And a swing cylinder hinged to the swing arm and rotating the rotation shaft to rotate the lifting guide unit.

According to an embodiment of the present invention as described above, the cooling header portion and the lifting guide portion are integrally rotated on the conveying line of the workpiece to sufficiently secure a work space for processing the defective workpiece, So that the productivity of operation can be improved.

In one aspect of the present invention, the position of the cooling medium in the cooling header portion can be adjusted by the header lifting portion, thereby improving the cooling efficiency and the quality of the material by optimizing the effect of rapid cooling due to purging of the cooling medium, There is an effect that can be made.

1 is a view showing a conventional fixed workpiece cooling apparatus.
2 and 3 are perspective views of a material cooling apparatus according to an embodiment of the present invention.
Fig. 4 is a view showing a state in which the workpiece cooling apparatus of Fig. 2 is disposed on the upper side of the work.
5 is a view showing a state in which the cooling header section of the material cooling apparatus of FIG. 4 is lifted and lowered.
FIG. 6 is a view showing a state in which the lifting guide portion of the work cooling apparatus of FIG. 4 is integrally rotated by the guard driving portion.
7 is a view showing a state in which the cooling header portion of the work material cooling apparatus of FIG. 2 is fixed by the stopper portion.
8 is a view showing the details of the cooling header portion of the work material cooling apparatus of FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a workpiece cooling apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

2, the workpiece cooling apparatus according to an embodiment of the present invention includes a lifting guide unit 100, a cooling header unit 200, and a guard driving unit 300, and further includes a header lifting unit 400, A stopper portion 500, and a pivot joint 600.

2, the workpiece cooling apparatus includes a lifting guide unit 100 provided on a conveyance path of a work S, a workpiece conveying unit 130 installed in the lifting guide unit 100, And a guard driving unit 300 which integrally rotates the cooling header unit 200 and the lifting guide unit 100 on the conveying line of the workpiece S .

3, the lifting guide unit 100 includes a guard body 110 disposed on a conveyance path of the work S, and a cooling unit 110 extending downward from the guard body 110 to be cooled And a guide frame 130 having a guide rail 131 on which the header part 200 is moved up and down in the direction of the work S.

The guard body 110 includes a pair of longitudinal frames arranged in the conveying direction of the material S and a pair of transverse frames arranged in the width direction of the material S and connecting between the pair of longitudinal frames .

The guide frame 130 is installed in the height direction of the lifting guide part 100 and may extend downward at an intersection of the horizontal frame and the vertical frame.

The cooling header section 200 can continuously cool the workpiece S by spraying the cooling medium to the workpiece S continuously conveyed on the conveying roller R. [

Here, the material S to be cooled by the cooling header section 200 may be a rolling strip of a continuous continuous process, and the rolled strip cooled by the material cooling apparatus may be wound and coiled by a winding machine.

The guard driving unit 300 rotates the lifting guide unit 100 in the width direction of the workpiece S and moves the cooling header unit 200 and the lifting guide unit 100 integrally to the upper side of the feed line of the workpiece S So as to secure a work space in which the defective material S can be processed.

6, the guard cooling unit 300 includes a cooling header part 200 and a lifting guide part 100 integrally formed with the material S, It is possible to sufficiently secure the work space in which the defective material S can be processed by rotating the defective material S on the transfer line, thereby remarkably shortening the processing time of the defective material S and improving the productivity of the operation .

3, the workpiece cooling apparatus includes a header lifting unit 400 for lifting the cooling header unit 200 on the lifting guide unit 100 to adjust a spraying position of the cooling medium. .

As shown in FIGS. 2, 4, and 5, in the workpiece cooling apparatus of the present invention, the header lifting unit 400 lifts the cooling header unit 200 on the lifting guide unit 100, The cooling medium can be injected at an optimal position where the cooling medium is not dispersed according to the thickness and width of the material S which is introduced into the material cooling apparatus by adjusting the injection position in which the medium is injected in the height direction.

Therefore, the cooling efficiency of the material cooling apparatus can be improved by optimizing the effect of the purging of the cooling medium and the rapid cooling effect due to the scattering of the cooling medium.

5, the header lifting unit 400 includes a lifting motor 450 installed on one side of the lifting guide unit 100, and lifting and lowering The cooling header part 200 can be lifted and lowered by winding or unwinding the cable 430.

The header lifting unit 400 includes a lifting frame 410 installed at the center of the upper portion of the guard body 110 of the lifting guide unit 100 and a lifting motor 450 installed on the lifting frame 410, And a lifting cable 430 wound or unwound by the motor 450 and fixed to both ends of the cooling header part 200, respectively.

As shown in FIGS. 2 and 3, two driving pulleys may be installed on the rotary shaft of the elevating motor 410, and the elevating cable 430 is wound in a counterclockwise direction on one side of the driving pulley provided on the rotary shaft And the lifting cable 430 can be wound around the driving pulley on the other side while being rotated in the clockwise direction.

Thus, the lifting cable 430 fixed to one end of the cooling header part 200 and the lifting cable 430 fixed to the other end of the cooling header part 200 are wound at the same time so that the height of the cooling header part 200 Can be adjusted.

5, the lifting cable 430 wound in a counterclockwise direction is guided by a guide roller provided on the lifting frame 410 so as to prevent interference with the lifting frame 410, .

That is, the header lifting unit 400 may include a lifting frame 410, a lifting motor 450, and a lifting cable 430 as an example of lifting and lowering the cooling header unit 200 to the lifting guide unit 100 have.

Although not shown, the header lifting unit 400 may include a lifting motor 450 having a pinion gear engaged with a rack gear provided on the guide frame 130. The lifting motor 400 may include a lifting motor 450 may be installed above the header body 210.

However, it is needless to say that the header lifting unit 400 is not limited to the above-described configurations, and various known components capable of moving the cooling header unit 200 can be applied.

2, the workpiece cooling apparatus includes a stopper (not shown) for fixing the cooling header unit 200 to the lifting guide unit 100 when the lifting guide unit 100 rotates on a conveying line of the workpiece S, (500).

The stopper part 500 fixes the cooling header part 200 to the lifting guide part 100 when the lifting guide part 100 rotates on the conveying line of the work S so that the cooling header part 200 is lifted And is prevented from being damaged while being moved on the guide portion 100.

The stopper part 500 may be fixed to one side of the guide frame 130 of the lifting guide part 100. [

The stopper portions 500 may be configured to couple to the lifting guide portion 100 to fix both ends of the cooling header portion 200.

2 and 3, the stopper unit 500 may include a stopper frame 510 and a stopper member 550.

The stopper part 500 is driven by a stopper frame 510 provided on the lifting guide part 100 and a stopper cylinder 530 provided on the stopper frame 510, And a stopper member 550 inserted into the cooling header unit 200 to fix the cooling header unit 200 to the lifting guide unit 100.

The stopper frame 510 may be installed on one side of the guide frame 130 of the lifting guide unit 100.

At this time, a stopper cylinder 530 can be installed on the upper side of the stopper frame 510, and a stopper member 550 can be installed on the cylinder rod front end of the stopper cylinder 530.

8, when the header main body 210 of the cooling header part 200 is lifted and lowered by the header lifting part 400, the stopper cylinder 530 The stopper member 550 installed at the distal end of the cylinder rod of the stopper cylinder 530 is inserted into the fixing groove 219-1 formed in the fixing block 219 of the header main body 210, (210) can be fixed to the lifting guide part (100).

The stopper member 550 is inserted into the two fixing grooves 219-1 formed in the fixing block 219 of the header main body 210 so as to cover the header main body 210 Can be fixed to the guide frame (130) of the lifting guide part (100).

The cooling header portion 200 may include a header body 210, a guide roller 230, and a drag chain 250, as shown in FIGS. 2 and 7.

The cooling header unit 200 includes a header body 210 in which a space for storing a cooling medium is formed and a guide rail unit 210 installed on the lifting guide unit 100 so that the header body 210 is lifted and lowered along a guide rail 131 (250) having a guide roller (230) for guiding the cooling medium, a supply pipe (251) for supplying a cooling medium to the header body (210) and a chain member (253) for bendingly enclosing the supply pipe ).

The header main body 210 may have a space for storing the cooling medium, and the header main body 210 may have a supply pipe 251 for supplying the cooling medium to one side thereof.

The guide roller 230 may be installed on the header body 210 and guide the guide roller 131 up and down along the guide rail 131 provided on the guide frame 130 of the lifting guide unit 100.

The drag chain 250 may include a supply pipe 251 for supplying the cooling medium to the header body 210 and a plurality of chain members 253 connected to bendably surround the supply pipe 251.

The chain member 253 of the drag chain 250 can make the lifting guide unit 100 rotatable with the organic bending radius by the guard driving unit 300 while protecting the supply pipe 251.

The chain member 253 of the drag chain 250 protects the supply pipe 251 while the header main body 210 of the cooling header part 200 has an organic bending radius when lifted and lowered on the lifting guide part 100 Up and down.

As shown in FIGS. 7 and 8, the header body 210 may include a compartment 211, a flow hole 215, and a spray nozzle 217.

The header body 210 includes a compartment 211 partitioned by the partition member 213 into multiple stages in the conveying direction of the material S to store the cooling medium, And a spray nozzle 217 connected to the discharge hole 218 formed below the compartment 211 and spraying the cooling medium to the material S to be conveyed.

The header main body 210 may have a plurality of compartments 211 partitioned in multiple stages in the conveyance direction of the workpiece S by the partition member 213 to store the cooling medium.

A plurality of flow holes 215 may be formed in the partition member 213 at regular intervals and are connected to the discharge port 218 formed below the compartments 211 and conveyed by the material S, A plurality of injection nozzles 217 may be formed.

At least two of the partition members 213 are provided in the header main body 210 and the total sectional area of the flow holes 215 is relatively small in the drawing direction in the drawing direction of the work S, May be disposed.

8, the header main body 210 may be provided with a drag chain 250 having a supply pipe 251 for supplying the cooling medium formed in the chain member 253, , The drag chain 250 can be installed on the side of the drawing direction of the work S.

The cooling medium flowing into the header main body 210 through the supply pipe 251 of the drag chain 250 may be filled in the plurality of compartments 211.

The total cross-sectional area of the flow holes 215 formed in the partition member 213 disposed on the inlet side of the work S is smaller than the total cross sectional area of the flow holes 215 formed in the partition member 213 disposed on the draw- The total cross-sectional area of the cross-sectional area of the guide portion 215 is relatively large.

For example, three compartments 211 may be formed with two partition members 213 being spaced apart from each other in the header body 210.

At this time, a semicircular first flow hole 215 having a relatively large diameter is formed in the first partition member 213 disposed on the inlet side of the work S, The second partition wall member 213 may have a semicircular second flow hole 215 having a relatively smaller diameter than the first flow hole 215.

At this time, the sum of the total cross-sectional areas of the plurality of first flow holes 215 formed in the first partition member 213 on the inlet side of the work S is equal to the sum of the cross sectional areas of the second partition members 213 Sectional area of the plurality of second flow holes 215 formed in the second flow holes 215. [

This is achieved by adjusting the flow rate of the cooling medium between each compartment 211 by adjusting the total cross-sectional area of the flow hole 215 formed in the partition member 213, The flow rate of the cooling medium supplied to the compartments 211 is controlled so that the cooling medium can be uniformly filled in the multi-stage format.

7 and 8, the header main body 210 is installed in the compartment 211 at the rearmost end of the plurality of compartments 211 arranged in the conveying direction of the material S, And a pressure regulating valve 270 for regulating the pressure of the cooling medium in the header main body 210 by discharging the cooling medium stored in the header main body 210.

The pressure regulating valve 270 controls the supply pressure of the cooling medium in the header main body 210 by discharging the cooling medium stored in the header main body 210. The pressure regulating valve 270 purges the material S through the injection nozzle 217 And is a member for regulating the flow rate of the cooling medium.

The pressure control valve 270 header header main body 210 may be installed in the compartment 211 at the rearmost end of the plurality of compartments 211 arranged in the conveying direction of the work S. [

The material cooling apparatus further includes a cooling pipe P for supplying a cooling medium to the cooling header unit 200 and a rotation joint 600 for rotatably connecting the supply pipe 251 provided in the drag chain 250 can do.

The cooling pipe P for supplying the cooling medium to one side of the pivot joint 600 may be connected and the supply pipe 251 of the drag chain 250 of the cooling header unit 200 may be connected to the other side.

The cooling pipe P and the supply pipe 251 of the drag chain 250 may be rotatably connected via a rotary joint 600.

When the lifting guide part 100 and the cooling header part 200 are integrally rotated by the guard driving part 300, the supply pipe 251 of the drag chain 250 is rotated by the pivot joint 600 so that the cooling pipe P Lt; / RTI >

The guard drive unit 300 may include a rotation shaft 310, a swing arm 330, and a swing cylinder 350.

The guard drive unit 300 includes a pivot shaft 310 rotatably installed in a shaft block 311 provided in the fixed structure F and integrally fixed to one side of the guard main body 110 of the lifting guide unit 100, And a swing arm 330 hinged to the swing arm 330 and hinged to the swing arm 330 to rotate the swing shaft 310 to swing the swing guide unit 100. [ A cylinder 350 may be provided.

6, the pivot shaft 310 is rotatably mounted on a shaft block 311 provided in the fixed structure F and is fixed to the guard body 311 of the lifting guide portion 100 110).

One end of the swing arm 330 is hinged to the pivot shaft 310 and the other end of the swing arm 330 is hinged to the swing cylinder 350 to transmit a linear driving force transmitted from the swing cylinder 350 to the pivot shaft 310 in the rotational direction The driving force can be switched.

The swing cylinder 350 may be rotatably installed while the cylinder member of the swing cylinder 350 is hinged to the cylinder block 351 installed in the fixed structure F. [

The swing cylinder 350 rotates the pivot shaft 310 through the swing arm 330 and moves the lifting guide unit 100 integrally fixed to the pivot shaft 310 integrally on the transfer line of the work S Can be rotated.

A swing arm 330 connected to a swing cylinder 350 is installed at both ends of the pivot shaft 310 and a lifting guide unit 100 integrally installed on the pivot shaft 310 while firmly supporting the pivot shaft 310, Can be rotated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

100: lifting guide part 110: guard body
130: guide frame 131: guide rail
200: cooling header part 210: header body
211: compartment 213: partition wall member
215: flow hole 217: injection nozzle
218: Outlet 219: Fixing block
219-1: Fixing groove 230: Guide roller
250: Drag chain 251: Feed pipe
253: chain member 270: pressure regulating valve
300: guard drive unit 310: pivot shaft
311: Shaft block 330: Swing arm
350: Swing cylinder 351: Cylinder block
400: Header lifting unit 410: Lifting frame
430: lifting cable 450: lifting motor
500: stopper part 510: stopper frame
530: Stopper cylinder 550: Stopper member
600: Rotating joint C: Fixed cooling device
F: Fixed structure P: Cooling piping
R: Feed roller S: Material

Claims (11)

delete A lifting guide provided on a conveyance path of the work;
A cooling header part installed in the lifting guide part for cooling the material conveyed by spraying the cooling medium;
A guard driving part for integrally rotating the cooling header part and the lifting guide part on the conveying line of the workpiece; And
And a header elevating part for elevating and lowering the cooling header part on the lifting guide part to adjust a jetting position of the cooling medium,
The guard driver may include:
Wherein the cooling header portion and the lifting guide portion are integrally rotated to the upper side of the conveyance line of the workpiece to secure a work space capable of processing the workpiece in which the failure has occurred.
The apparatus of claim 2,
Wherein the lifting cable installed on one side of the lifting guide part winds up or unwinds the lifting cable connected to the cooling header part to lift or lower the cooling header part.
3. The method of claim 2,
And a stopper portion that fixes the cooling header portion to the lifting guide portion when the lifting guide portion rotates on the conveying line of the workpiece.
The apparatus according to claim 4,
A stopper frame installed in the lifting guide portion; And
And a stopper member driven by a stopper cylinder mounted on the stopper frame and inserted into one side of the cooling header portion to fix the cooling header portion to the lifting guide portion.
The cooling apparatus according to claim 2,
A header body in which a space for storing a cooling medium is formed;
A guide roller for guiding the header main body up and down along a guide rail provided on the lifting guide portion; And
A supply chain for supplying a cooling medium to the header body; and a chain member for bendingly surrounding the supply pipe.
[7] The apparatus of claim 6,
A compartment partitioned in multiple stages in the conveying direction of the material by the partition member and storing the cooling medium;
A flow hole formed in the partition member and through which the cooling medium moves; And
And a spray nozzle connected to an outlet formed through the lower portion of the compartment and spraying the cooling medium to the material to be conveyed.
A lifting guide provided on a conveyance path of the work;
A cooling header part installed in the lifting guide part for cooling the material conveyed by spraying the cooling medium;
A guard driving part for integrally rotating the cooling header part and the lifting guide part on the conveying line of the workpiece; And
And a header elevating part for elevating and lowering the cooling header part on the lifting guide part to adjust a jetting position of the cooling medium,
The cooling header portion
A header body in which a space for storing a cooling medium is formed;
A guide roller for guiding the header main body up and down along a guide rail provided on the lifting guide portion; And
A drag chain including a supply pipe for supplying the cooling medium to the header body and a chain member for bendingly surrounding the supply pipe,
The header body includes:
A compartment partitioned in multiple stages in the conveying direction of the material by the partition member and storing the cooling medium;
A flow hole formed in the partition member and through which the cooling medium moves; And
And a spray nozzle connected to an outlet formed through the lower portion of the compartment and spraying the cooling medium to the material to be conveyed,
Wherein the header main body is provided with at least two or more of the partition members and the partition member is disposed such that the sum of the cross sectional areas of the flow holes is relatively small in the pulling direction in the pulling direction of the work.
[10] The apparatus of claim 8,
A plurality of compartments arranged in the conveying direction of the material,
And a pressure regulating valve for discharging the cooling medium stored in the header main body to regulate the pressure of the cooling medium in the header main body.
The method according to claim 6,
A cooling pipe for supplying a cooling medium to the cooling header section; and a rotation joint rotatably connecting the supply pipe installed in the drag chain.
3. The apparatus according to claim 2,
A pivot shaft rotatably installed on a shaft block provided in the fixed structure and integrally fixed to one side of the guard main body of the lifting guide portion;
A swing arm hinged to the pivot shaft; And
And a swing cylinder hinged to the swing arm and rotating the rotation shaft to rotate the lifting guide unit.

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