CN111499177B - Circular glass separation discharging machine - Google Patents

Abstract

The invention relates to a discharging machine, in particular to a round glass separating and discharging machine. The technical problem of the invention is that: the circular glass separating and discharging machine is capable of automatically separating circular glass plates, manual operation is not needed, and operation efficiency and safety are improved. The technical scheme of the invention is as follows: a circular glass separation discharging machine comprises: the side part of the base is provided with a support frame, the side part of the base close to one side of the support frame is provided with a motor, and an output shaft of the motor penetrates through the lower part of the support frame; the first pivot is connected to the support frame lateral part upper portion rotary type of keeping away from motor one side, and first belt subassembly is connected between the output shaft of motor and first pivot. According to the automatic glass separating device, the automatic separation of the round glass is realized through the extruding mechanism, the round glass does not need to be broken off manually, the efficiency and the safety of the separation of the round glass are improved, and the automatic intermittent movement of the strip-shaped glass plate is realized through the transmission mechanism, the output mechanism and the input mechanism.

Description

Circular glass separation discharging machine

Technical Field

The invention relates to a discharging machine, in particular to a round glass separating and discharging machine.

Background

At present, circular glass all cuts out on rectangular shape glass board, and the workman marks the circle back of rectangular shape glass board one by one, and the workman breaks off circular glass one by one according to the mar of circle, but the manual work is separated circular glass from rectangular shape glass's inefficiency, and is consuming time power, and simultaneously, even if the workman has worn gloves by both hands, nevertheless in operation process, the glass board throws away easy fish tail hand, causes the workman to damage.

In view of the above-mentioned circular glass of manual separation exists consuming time and wasting power, inefficiency, and causes the shortcoming of personnel's damage easily, consequently need develop one kind and can improve circular glass separation discharging machine of circular glass separation discharging efficiency with circular glass separation automatically.

Disclosure of Invention

In order to overcome the defects that manual separation of glass plates is time-consuming, labor-consuming, low in efficiency and easy to cause workers, the invention has the technical problems that: the circular glass separating and discharging machine is capable of automatically separating circular glass plates, manual operation is not needed, and operation efficiency and safety are improved.

A circular glass separation discharging machine comprises:

the side part of the base is provided with a support frame, the side part of the base close to one side of the support frame is provided with a motor, and an output shaft of the motor penetrates through the lower part of the support frame;

the upper part of the support frame far away from one side of the motor is rotatably connected with the first rotating shaft, and the first belt assembly is connected between the output shaft of the motor and the first rotating shaft;

the extrusion mechanism is arranged on the side part of the base, connected with the first rotating shaft and positioned on the same side of the base as the support frame.

More preferably, the extruding mechanism includes:

the rotating rod is connected to the end part of the first rotating shaft at one side far away from the supporting frame, and the tail end of the rotating rod is rotatably provided with a connecting rod;

the mounting plate is arranged on the side part of the base close to one side of the connecting rod, and an L-shaped sliding groove is formed in the upper part of the mounting plate;

the guide plate is connected with the mounting plate in a sliding mode, and the tail end of the connecting rod is rotatably connected with the middle of the side part of the guide plate close to the connecting rod;

the slope spout, it is seted up on the baffle, and the slider is installed to the slidingtype in the slope spout, and the tip and the L type spout sliding connection of slider keep away from the slider lateral part of mounting panel one side and be connected with the briquetting.

More preferably, the device further comprises a transmission mechanism, an output mechanism and an input mechanism, wherein the transmission mechanism comprises:

the second rotating shaft is rotatably arranged on the side wall of the support frame below the first rotating shaft;

the middle part of the second rotating shaft is provided with a full-tooth pinion, the middle part of the first rotating shaft is provided with a gear-lacking gearwheel, and the gear-lacking gearwheel can be meshed with the full-tooth pinion;

the middle part of the base close to one side of the support frame is rotatably provided with a third rotating shaft, and a second belt assembly is arranged between the side part of the third rotating shaft close to one side of the first rotating shaft and the end part of the second rotating shaft close to the side part of the third rotating shaft;

the end part of the third rotating shaft, which is far away from one side of the second belt assembly, of the first conical gear is provided with the first conical gear;

wherein, output mechanism includes:

the output rotating shaft is rotatably arranged on the side part of the base close to one side of the first conical gear, a second conical gear is arranged at the end part of the output rotating shaft close to one side of the first conical gear, and the second conical gear is meshed with the first conical gear;

the two sides of the base, which are far away from one side of the first rotating shaft, are rotatably provided with output rollers, the center of one of the output rollers is connected with the end part of the output rotating shaft, which is far away from one side of the second bevel gear, and an output conveying belt is wound between the two output rollers;

wherein, input mechanism includes:

the input rotating shaft is rotatably arranged on the side part of the base close to one side of the second belt assembly, the end part of the input rotating shaft close to one side of the second belt assembly and the end part of a third rotating shaft close to the end part of the input rotating shaft are both provided with third bevel gears, and the two third bevel gears are meshed;

the input cylinder is installed to the equal rotary type in base both sides that are close to motor one side, and the central point of one of them input cylinder puts and keeps away from the end connection of the input pivot of third bevel gear one side, around having input conveyer belt between two input cylinders, and input conveyer belt and output conveyer belt are located same water flat line.

More preferably, still including receiving mechanism, receiving mechanism includes:

the first material receiving roller is rotatably arranged in the middle of the base close to one side of the third rotating shaft, and a third belt assembly is arranged between the side part of the first material receiving roller close to one side of the input rotating shaft and the end part of the second rotating shaft far away from one side of the support frame;

the second connects the material cylinder, and the base middle part rotary type that is close to mounting panel one side is equipped with the second and connects the material cylinder, and the second connects all around being equipped with on material cylinder and the first material cylinder and connects the material conveyer belt.

More preferably, the device further comprises a pressing mechanism, and the pressing mechanism comprises:

the backup pad all installs the backup pad on the base that is located input conveyer belt and output conveyer belt both sides, and the even rotary type in backup pad upper portion is equipped with the pinch roller, and the pinch roller of both sides is located directly over input conveyer belt and the output conveyer belt respectively.

The invention has the beneficial effects that: 1. through the extrusion mechanism, the automatic separation of the round glass is realized, the round glass does not need to be broken off manually, and the efficiency and the safety of the round glass separation are improved.

2. Through drive mechanism, output mechanism and input mechanism, realized that rectangular shape glass board is automatic intermittent type nature removes, reduced manual operation step.

3. Through receiving mechanism, catch the circular glass that gets off of separating, need not the manual work and catch the circular glass board that drops.

4. The support plate and the pressing roller are used for keeping the level of the strip-shaped glass plate, so that the strip-shaped glass plate is prevented from being inclined in the moving process and being broken.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the support frame, the motor, the first rotating shaft, the first belt assembly and part of the transmission mechanism of the present invention.

Fig. 3 is a schematic perspective view of the base, the supporting frame, the first rotating shaft and the extruding mechanism of the present invention.

Fig. 4 is a schematic perspective view of the support frame, the first rotating shaft, the transmission mechanism, a part of the output mechanism and a part of the input mechanism of the present invention.

Fig. 5 is a schematic perspective view of the transmission mechanism, the output mechanism, the input mechanism, the receiving mechanism and the pressing mechanism of the present invention.

In the above drawings: 1. the automatic feeding device comprises a base, a support frame, a motor, a first rotating shaft, a first belt component, a 6 extruding mechanism, a 61 rotating rod, a 62 connecting rod, a 63 mounting plate, a 64L type sliding groove, a 65 guide plate, a 66 inclined sliding groove, a 67 sliding block, a 68 pressing block, a 7 transmission mechanism, a 71 second rotating shaft, a 72 full-tooth pinion, a 73 toothless big gear, a 74 first bevel gear, a 75 third rotating shaft, a 76 second belt component, an 8 output mechanism, an 81 output rotating shaft, a 82 second bevel gear, an 83 output roller, a 84 output conveyor belt, a 9 input mechanism, a 91 input rotating shaft, a 92 third bevel gear, a 93 input roller, a 94 input conveyor belt, a 10 material receiving mechanism, a 101 first material receiving roller, a 102 third belt component, a 103 second material receiving roller, a 104 material receiving conveyor belt, a 11 pressing mechanism and a supporting plate 111 and 112 pressing rollers.

Detailed Description

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

Example 1

The utility model provides a circular glass separates ejection of compact machine, as shown in fig. 1-4, including base 1, support frame 2, motor 3, first pivot 4, first belt subassembly 5 and extrusion mechanism 6, support frame 2 is installed to base 1 left part front side, base 1 left part front side is equipped with motor 3, motor 3 is located support frame 2 left side, motor 3's output shaft passes support frame 2 lower part, 2 upper portion rotary types of support frame are equipped with first pivot 4, be connected first belt subassembly 5 between motor 3's output shaft and the first pivot 4, base 1 left part rear side is equipped with extrusion mechanism 6, extrusion mechanism 6 is connected with first pivot 4.

When round glass is cut out from a long strip-shaped glass plate and needs to be separated, the long strip-shaped glass is placed under an extruding part of an extruding mechanism 6, then a motor 3 is started, an output shaft of the motor 3 drives a first rotating shaft 4 to rotate through a first belt component 5, the first rotating shaft 4 rotates to drive the extruding mechanism 6 to operate, and the extruding part of the extruding mechanism 6 reciprocates back and forth and up and down along with the first rotating shaft 4; when the extrusion part of the extrusion mechanism 6 moves forwards to a certain distance, the extrusion part of the extrusion mechanism 6 moves downwards to contact and press the strip-shaped glass plate, the extrusion part of the extrusion mechanism 6 separates a round glass cut from the strip-shaped glass plate, the falling round glass is manually received below the extrusion part, then the extrusion part of the extrusion mechanism 6 moves upwards and then moves backwards, the strip-shaped glass plate is manually moved to enable the other round glass to be separated to be positioned under the foremost end of the extrusion part of the extrusion mechanism 6, when the extrusion part of the extrusion mechanism 6 moves forwards to the foremost side again, the extrusion part of the extrusion mechanism 6 moves downwards to contact and press the strip-shaped glass plate under the extrusion part, the other round glass is separated with the extrusion part, and the operation is repeated, so that the complete separation of the round glass can be realized.

Example 2

Based on fig. 1-5, the extruding mechanism 6 includes a rotating rod 61, a connecting rod 62, an installation plate 63, a guide plate 65, a sliding block 67 and a pressing block 68, the right end of the first rotating shaft 4 is connected with the rotating rod 61, the connecting rod 62 is rotatably arranged at the tail end of the rotating rod 61, the installation plate 63 is installed at the rear part of the left side of the base 1, an L-shaped sliding groove 64 is formed in the upper part of the installation plate 63, a guide plate 65 is slidably arranged at the right part of the installation plate 63, the middle of the front part of the guide plate 65 is rotatably connected with the tail end of the connecting rod 62, an inclined sliding groove 66 is formed in the guide plate 65, the sliding block 67 is slidably arranged in the inclined sliding groove 66, the left part of the sliding block 67 is slidably connected with the L-shaped sliding groove 64, and the pressing block 68 is installed at the right part of the sliding block 67.

After the first rotating shaft 4 rotates, the first rotating shaft 4 drives the rotating rod 61 to rotate, the rotating rod 61 drives the connecting rod 62 to reciprocate back and forth, the connecting rod 62 drives the guide plate 65 to reciprocate back and forth, when the guide plate 65 moves forward, the sliding block 67 moves forward in the L-shaped sliding chute 64, the pressing block 68 also moves forward, when the sliding block 67 slides to the foremost side of the L-shaped sliding chute 64 and the guide plate 65 continues to slide forward, the sliding block 67 starts to slide downward in the L-shaped sliding chute 64 and the inclined sliding chute 66, the sliding block 67 slides downward to drive the pressing block 68 to move downward, the pressing block 68 moves downward to contact and press down a circular glass area cut on the strip-shaped glass plate, the circular glass is separated out along with the sliding block, and the falling circular glass is manually received below the circular glass; the first rotating shaft 4 rotates continuously, the guide plate 65 moves backwards under the driving action of the rotating rod 61 and the connecting rod 62, the sliding block 67 moves upwards in the L-shaped sliding groove 64 and the inclined sliding groove 66, when the sliding block 67 slides to the uppermost part of the inclined sliding groove 66, the sliding block 67 starts to slide backwards in the L-shaped sliding groove 64, when the guide plate 65 moves forwards again, the sliding block 67 drives the pressing block 68 to move forwards and downwards, and the long strip-shaped glass plate is manually pushed to enable the pressing block 68 to move downwards to contact with another round glass to be separated on the long strip-shaped glass plate.

The automatic transmission device comprises a transmission mechanism 7, an output mechanism 8 and an input mechanism 9, wherein the transmission mechanism 7 comprises a second rotating shaft 71, a full-tooth pinion 72, an edentulous gearwheel 73, a first conical gearwheel 74, a third rotating shaft 75 and a second belt assembly 76, the second rotating shaft 71 is rotatably arranged at the upper part of the right side of a support frame 2, the second rotating shaft 71 is positioned below a first rotating shaft 4, the full-tooth pinion 72 is arranged in the middle of the second rotating shaft 71, the edentulous gearwheel 73 is arranged in the middle of the first rotating shaft 4, the first belt assembly 5 is positioned between the edentulous gearwheel 73 and the support frame 2, the edentulous gearwheel 73 can be meshed with the full-tooth pinion 72, the third rotating shaft 75 is rotatably arranged at the front side of the middle of a base 1, the second belt assembly 76 is connected between the left end of the third rotating shaft 75 and the right end of the second rotating shaft 71, and the first conical gearwheel 74 is arranged at the right end of the third rotating shaft 75; the output mechanism 8 comprises an output rotating shaft 81, a second bevel gear 82, output rollers 83 and an output conveyor belt 84, the output rotating shaft 81 is rotatably mounted on the right side of the base 1, the second bevel gear 82 is mounted at the front end of the output rotating shaft 81, the second bevel gear 82 is meshed with the first bevel gear 74, the output rollers 83 are rotatably arranged on both sides of the right part of the base 1, the central end of the left output roller 83 is connected with the rear end of the output rotating shaft 81, and the output conveyor belt 84 is wound between the two output rollers 83; the input mechanism 9 comprises an input rotating shaft 91, a third bevel gear 92, an input roller 93 and an input conveyor belt 94, the input rotating shaft 91 is rotatably installed at the left part of the base 1, the third bevel gear 92 is arranged at the front end of the input rotating shaft 91 and the left end of the third rotating shaft 75, the two third bevel gears 92 are meshed with each other, the input roller 93 is rotatably installed at the rear part of the left side of the base 1, the center end of the front wall of the input roller 93 on the right side is connected with the rear end of the input rotating shaft 91, the input conveyor belt 94 is connected between the two input rollers 93, and the input conveyor belt 94 and the output conveyor belt 84 are located on the same horizontal line.

Firstly, round glass to be separated on a strip-shaped glass plate is placed above an output and input conveyor belt 94 and an output conveyor belt 84 and is positioned at a separation position, then an output shaft of a starting motor 3 rotates anticlockwise, a first rotating shaft 4 rotates along with the first rotating shaft 4, the first rotating shaft 4 rotates to drive a tooth-missing big gear 73 to rotate, when a pressing block 68 moves downwards to separate one round glass from the strip-shaped glass plate and moves upwards to reset, at the moment, the tooth-missing big gear 73 and a full-tooth small gear 72 start to be meshed, the tooth-missing big gear 73 drives the full-tooth small gear 72 to rotate, the full-tooth small gear 72 drives a second rotating shaft 71 to rotate, the second rotating shaft 71 drives a third rotating shaft 75 to rotate through a second belt assembly 76, a third conical gear 92 on the left side of the third rotating shaft 75 is meshed with a third conical gear 92 on the front end of an input rotating shaft 91 and drives the third rotating shaft to rotate, the third bevel gear 92 at the front end of the input rotating shaft 91 rotates to drive the input rotating shaft 91 to rotate, the input rotating shaft 91 drives the input roller 93 at the rear end thereof to rotate, the input roller 93 drives the other input roller 93 to rotate through the input conveyor belt 94, the input conveyor belt 94 drives the elongated glass plate to move rightwards, the third rotating shaft 75 rotates to drive the first bevel gear 74 to rotate, the first bevel gear 74 is meshed with the second bevel gear 82 and drives the same to rotate, the second bevel gear 82 rotates to drive the output rotating shaft 81 to rotate, the output roller 83 on the output rotating shaft 81 rotates along with the rotation, the output roller 83 on the output rotating shaft 81 drives the other output roller 83 to rotate through the output conveyor belt 84, the output conveyor belt 84 rotates along with the rotation, the output conveyor belt 84 drives the elongated glass plate to move rightwards, and thus the elongated glass plate can move rightwards on the input conveyor belt 94 and the output conveyor belt 84; when the toothless big gear 73 is disengaged from the full-tooth small gear 72, the input conveyor belt 94 stops rotating with the output conveyor belt 84, the strip-shaped glass plate stops moving rightwards, at the moment, the round glass to be separated on the strip-shaped glass plate is positioned right at the lowest end of the L-shaped chute 64, the pressing block 68 moves downwards to contact and press down the round glass area cut on the strip-shaped glass plate, and the other round glass is separated out, so that the automatic intermittent conveying of the strip-shaped glass can be realized.

Example 3

Generally, as shown in fig. 4 to 5, the material receiving device 10 is further included, the material receiving device 10 includes a first material receiving roller 101, a third belt assembly 102, a second material receiving roller 103 and a material receiving conveyor belt 104, the first material receiving roller 101 is rotatably disposed on the front side of the middle portion of the base 1, the third belt assembly 102 is connected between the left side of the first material receiving roller 101 and the right portion of the second rotating shaft 71, the third belt assembly 102 is located between the second belt assembly 76 and the full-tooth pinion 72, the second material receiving roller 103 is rotatably mounted on the rear side of the middle portion of the base 1, and the material receiving conveyor belt 104 is wound on the second material receiving roller 103 and the first material receiving roller 101.

After a piece of round glass is separated by the pressing block 68, the round glass is separated and falls down onto the material receiving conveying belt 104, the gear wheel 73 with the missing tooth starts to be meshed with the pinion 72 with the full tooth, the second rotating shaft 71 rotates, the second rotating shaft 71 drives the first material receiving roller 101 to rotate through the third belt component 102, the first material receiving roller 101 drives the second material receiving roller 103 to rotate through the material receiving conveying belt 104, the material receiving conveying belt 104 rotates clockwise, the material receiving conveying belt 104 drives the round glass above the material receiving conveying belt to move backwards, when the gear wheel 73 with the missing tooth is disengaged from the pinion 72 with the full tooth, the material receiving conveying belt 104 stops rotating, the pressing block 68 moves downwards to contact with the strip-shaped glass plate and separate another piece of round glass, the round glass falls onto the material receiving conveying belt 104, the gear wheel 73 is meshed with the pinion 72 with the missing tooth again, the material receiving conveying belt 104 drives the round glass above the material receiving conveying belt 104 to move backwards again, and when the round glass is located at the last side of the material receiving conveying belt 104, the round glass can be manually taken away.

The automatic conveying device is characterized by further comprising a pressing mechanism 11, wherein the pressing mechanism 11 comprises a supporting plate 111 and pressing rollers 112, the supporting plates 111 are arranged on the left side and the right side of the base 1, the plurality of pressing rollers 112 are arranged on the upper portions of the supporting plates 111 on the two sides in a rotating mode, and the pressing rollers 112 on the two sides are located right above the input conveying belt 94 and the output conveying belt 84 respectively.

When round glass on the elongated glass plate is separated, the elongated glass plate is firstly placed on the output conveyor belt 84 and the input conveyor belt 94 below the pressing roller 112, and when the output conveyor belt 84 and the input conveyor belt 94 move leftwards, the pressing roller 112 fixes the elongated glass plate and keeps the elongated glass plate horizontal.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (1)

1. The utility model provides a circular glass separation ejection of compact machine, characterized by includes:

the side part of the base (1) is provided with a support frame (2), the side part of the base (1) close to one side of the support frame (2) is provided with a motor (3), and an output shaft of the motor (3) penetrates through the lower part of the support frame (2);

the upper part of the support frame (2) at one side far away from the motor (3) is rotatably connected with the first rotating shaft (4), and the first belt component (5) is connected between the output shaft of the motor (3) and the first rotating shaft (4);

the extruding mechanism (6) is arranged on the side part of the base (1), the extruding mechanism (6) is connected with the first rotating shaft (4), and the extruding mechanism (6) and the supporting frame (2) are positioned on the same side of the base (1);

the rotating rod (61) is connected to the end part of the first rotating shaft (4) on one side far away from the support frame (2), and the tail end of the rotating rod (61) is rotatably provided with a connecting rod (62);

the side part of the base (1) close to one side of the connecting rod (62) is provided with the mounting plate (63), and the upper part of the mounting plate (63) is provided with an L-shaped sliding chute (64);

the guide plate (65) is connected with the mounting plate (63) in a sliding mode, and the tail end of the connecting rod (62) is rotatably connected with the middle of the side part of the guide plate (65) close to the connecting rod;

the inclined sliding groove (66) is formed in the guide plate (65), a sliding block (67) is installed in the inclined sliding groove (66) in a sliding mode, the end portion of the sliding block (67) is connected with the L-shaped sliding groove (64) in a sliding mode, and a pressing block (68) is connected to the side portion, far away from the installation plate (63), of the sliding block (67);

the second rotating shaft (71) is rotatably arranged on the side wall of the support frame (2) below the first rotating shaft (4);

the middle part of the second rotating shaft (71) is provided with the full-tooth pinion (72), the middle part of the first rotating shaft (4) is provided with a gear-lacking gearwheel (73), and the gear-lacking gearwheel (73) can be meshed with the full-tooth pinion (72);

the middle part of the base (1) on one side close to the support frame (2) is rotatably provided with a third rotating shaft (75), and a second belt assembly (76) is arranged between the side part of the third rotating shaft (75) on one side close to the first rotating shaft (4) and the end part of the second rotating shaft (71) close to the third rotating shaft;

the first conical gear (74) is mounted at the end part of the third rotating shaft (75) on the side far away from the second belt assembly (76);

wherein the output mechanism (8) comprises:

the output rotating shaft (81) is rotatably arranged on the side part of the base (1) close to one side of the first conical gear (74), a second conical gear (82) is arranged at the end part of the output rotating shaft (81) close to one side of the first conical gear (74), and the second conical gear (82) is meshed with the first conical gear (74);

the two sides of the base (1) far away from one side of the first rotating shaft (4) are respectively and rotatably provided with the output rollers (83), the center of one output roller (83) is connected with the end part of the output rotating shaft (81) far away from one side of the second bevel gear (82), and an output conveyor belt (84) is wound between the two output rollers (83);

wherein the input mechanism (9) comprises:

the input rotating shaft (91) is rotatably arranged at the side part of the base (1) close to one side of the second belt assembly (76), the end part of the input rotating shaft (91) close to one side of the second belt assembly (76) and the end part of the third rotating shaft (75) close to the end part are respectively provided with a third bevel gear (92), and the two third bevel gears (92) are meshed with each other;

the input rollers (93) are rotatably mounted on two sides of the base (1) on one side close to the motor (3), the center of one input roller (93) is connected with the end of the input rotating shaft (91) on one side far away from the third bevel gear (92), an input conveyor belt (94) is wound between the two input rollers (93), and the input conveyor belt (94) and the output conveyor belt (84) are positioned on the same horizontal line;

the first material receiving roller (101) is rotatably arranged in the middle of the base (1) on one side close to the third rotating shaft (75), and a third belt assembly (102) is arranged between the side part of the first material receiving roller (101) on one side close to the input rotating shaft (91) and the end part of the second rotating shaft (71) on one side far away from the support frame (2);

a second material receiving roller (103) is rotatably arranged in the middle of the base (1) on one side close to the mounting plate (63), and material receiving conveyor belts (104) are wound on the second material receiving roller (103) and the first material receiving roller (101);

the supporting plate (111) is arranged on the base (1) on two sides of the input conveying belt (94) and the output conveying belt (84), the supporting plate (111) is arranged on the upper portion of the supporting plate (111) in an even rotating mode, and the pressing rollers (112) on two sides are respectively arranged right above the input conveying belt (94) and the output conveying belt (84).

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