CN213915988U - Nodular cast iron well lid pouring device - Google Patents

Abstract

The utility model discloses a nodular cast iron well lid pouring device, which comprises a pouring table, wherein a pouring conveyor belt is transversely movably arranged at the center of the upper end surface of the pouring table, two groups of rollers are respectively arranged at the two sides of the inner side surface of the pouring conveyor belt, two groups of rollers are respectively coaxially arranged at the outer side surfaces of the rollers, a rotating shaft at the center of the front side surface of the two groups of motors respectively runs through the centers of the two groups of rollers, a plurality of groups of pouring molds are equidistantly and movably arranged at the upper end surface of the pouring conveyor belt, two groups of pouring supports are respectively arranged in the middle of the front side surface and the rear side surface of the pouring conveyor belt, two groups of pouring supports are fixedly arranged at the inner side surface of each pouring support, a pouring opening is movably arranged at the lower end surface of each pouring hopper, the utility model discloses a pouring hopper and a pouring conveyor belt are arranged, the problem that when the traditional pouring device is used for pouring, people can pour eyes, the manual work efficiency is low, the flow of the poured molten iron is uncontrollable, and the problem that bubbles are easily generated when the pouring is too fast is solved.

Description

Nodular cast iron well lid pouring device

Technical Field

The utility model relates to a nodular cast iron well lid makes technical field, specifically is a nodular cast iron well lid pouring device.

Background

The main pouring material of the iron well lid is QT500-7 nodular cast iron, which is widely applied to various parks such as municipal roads, expressways, communication, electric power, tap water, communities, schools and the like.

Current nodular cast iron well lid pouring device is when the pouring, often use the manual work to carry out the pouring of making perfect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a nodular cast iron well lid pouring device, with current nodular cast iron well lid pouring device who proposes in solving above-mentioned background art when the pouring, the people of common use carries out the pouring to the eye, artificial work efficiency is low, personnel make the molten iron pour into the device shell when carrying out the pouring to the eye on, and artificial pouring molten iron flow is uncontrollable, the pouring is easy gassing too fast, current nodular cast iron well lid cooling method is after the pouring is accomplished, take out the well lid, then cool off, be unfavorable for continuous pouring, and can not carry out refrigerated problem to the well lid in the pouring.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a nodular cast iron well lid pouring device, includes the pouring table, the horizontal movable mounting in pouring table up end center has the pouring conveyer belt, two sets of cylinders are installed respectively to pouring conveyer belt medial surface both sides, and are two sets of cylinder lateral surface coaxial arrangement has two sets of motors No. one respectively, and just pivot No. one in two sets of motor leading flank centers runs through respectively inside two sets of cylinder centers, equidistant movable mounting of pouring conveyer belt up end has a plurality of groups of pouring mould, install two sets of pouring supports, two sets of in the middle of the face of both sides around the pouring conveyer belt respectively pouring support medial surface fixed mounting has the pouring to fight, terminal surface movable mounting has the watering mouth under the pouring is fought.

Preferably, terminal surface left side movable mounting has the cooling bench under the pouring bed, the cooling tank is transversely installed to the cooling bench up end, and the inside cooling water that is provided with of cooling tank, the inside transverse mounting of cooling tank has the cooling conveyer belt, and the cooling conveyer belt left end is placed in pouring conveyer belt right-hand member below, two sets of No. two motors are installed respectively to terminal surface both sides before the cooling tank, and is two sets of No. two pivots in No. two motor trailing flank centers run through in pouring conveyer belt both ends center, and run through the department and all install the rubber circle, two sets of movable support frames are installed respectively to cooling tank lateral surface both sides front end, and are two sets of movable support frame medial surface support transverse fixed mounting has the removal frame, the inside moving mechanism that is provided with of removal frame.

Preferably, a pouring gate is movably arranged in the center of the upper end face of the plurality of groups of pouring molds, and the diameter of the upper end face of the pouring gate is consistent with that of the lower end face of the pouring gate.

Preferably, the bearing groove has transversely been seted up at terminal surface center under the removal frame, there is the interval bearing groove up end and removal frame up end, and the bearing groove both ends all do not run through and remove frame both ends face, two sets of traveller grooves have been seted up respectively to removal frame down terminal surface both sides, and are two sets of the traveller groove is the L type, and two sets of traveller groove medial surface lower extreme opening, and is two sets of traveller groove both ends all do not run through and remove frame both ends face.

Preferably, the moving mechanism comprises a clamping block, the lower end of the clamping block is L-shaped, a round opening is formed in the center of the upper end face of the clamping block, two groups of first telescopic rods are respectively arranged on two sides of the upper end of the round opening, sliding plates are fixedly arranged on the upper end surfaces of the two groups of first telescopic rods, two groups of first telescopic rods penetrate through the upper end surface of the sliding plate, two groups of first air cylinders are respectively and fixedly arranged on two sides of the upper end surface of the sliding plate, the lower end surfaces of the two groups of first cylinders are connected with the upper end surfaces of the two groups of first telescopic rods, the outer side surfaces of the two groups of first cylinders are respectively provided with two groups of semicircular groove racks at equal intervals, the outer side surfaces of the two groups of semicircular groove frames are flush with the two end surfaces of the sliding plate, a connecting rod is transversely arranged between the inner sides of the two groups of semicircular groove frames, two groups of sliding columns are respectively and fixedly installed on two end faces of the connecting rod, and the two groups of sliding columns are respectively arranged in two groups of sliding column grooves on two sides of the lower end of the moving frame.

Preferably, movable mounting has fixing bearing in the middle of the connecting rod lateral surface, No. two telescopic links of fixing bearing lateral surface right side fixedly connected with, fixing bearing arranges the terminal surface center bearing inslot under the removal frame in with No. two telescopic links, and No. two telescopic link right-hand members face runs through to removing the frame right-hand member face, No. two cylinders of No. two telescopic link right-hand member face fixedly connected with, and No. two cylinder left end faces and remove the frame right-hand member face and contact.

Compared with the prior art, the beneficial effects of the utility model are that: the nodular cast iron well lid pouring device is provided with a pouring hopper and a pouring conveyor belt, when a user changes a proper pouring opening and installs the pouring hopper at the lower end of the pouring hopper, the user places an empty pouring mold at the upper end of the pouring conveyor belt, the user pours molten iron into the pouring hopper after melting, a first motor at the two ends of the pouring conveyor belt is started, the pouring conveyor belt conveys the pouring mold to the lower end of the pouring hopper, the molten iron is poured into the pouring mold through the pouring hopper, the user can control the flow of the poured molten iron by changing the pouring opening and the pouring opening with different apertures, the nodular cast iron well lid pouring device solves the problem that when the traditional nodular cast iron well lid pouring device is poured, the manual hole-aligning pouring is often carried out by a user, the manual work efficiency is low, when the hole-aligning pouring is carried out, the molten iron is poured onto the device shell by the user, and the flow of the manual pouring molten iron is uncontrollable, and bubbles are easily generated when the pouring is too fast.

The nodular cast iron well lid pouring device is provided with a moving mechanism and a cooling box, when a pouring mold which is poured is conveyed to the tail end through a pouring conveyor belt, at the moment, a second cylinder pressurized gas in the moving mechanism pushes a second telescopic rod to extend, the second telescopic rod pushes a fixed bearing to move to the left side, a connecting rod rolls in a bearing hole, sliding columns at two ends of the connecting rod slide in a sliding column groove, a clamping block of a sliding plate and the lower end of the sliding plate is driven to move to the upper part of the pouring mold, at the moment, two groups of first cylinder pressurized gases on the upper end surface of the sliding plate enable the first telescopic rod to extend, the lower end of the clamping block clamps the outer side surface of the pouring mold, then the pressure is reduced through the two groups of first cylinders, the first telescopic rod is shortened, the clamping block and the pouring mold are lifted upwards, the second cylinder is simultaneously reduced in pressure while the first cylinder is reduced, the second telescopic rod drives the fixed bearing, The device comprises a sliding plate, a clamping block and a casting mold move to the right side, when the casting mold is moved to the upper end of a cooling box by a moving mechanism, a first air cylinder pressurizes the upper end of a cooling conveyor belt which puts the clamping block and the casting mold into the cooling box, cooling water is arranged in the cooling box and cools the casting mold, a user turns on a second motor at the moment, the second motor drives the cooling conveyor belt in the cooling box to convey the casting mold to the tail end of the cooling box, the worker takes out the casting mold at the moment, and the nodular cast iron well lid pouring device solves the problems that the well lid is taken out and then cooled after the pouring is finished in the existing nodular cast iron well lid cooling mode, the continuous pouring is not facilitated, and the well lid in the pouring cannot be cooled.

Drawings

Fig. 1 is a schematic view of the overall structure of a nodular cast iron well lid casting device of the utility model;

fig. 2 is a side view of the nodular cast iron well lid casting device of the present invention;

fig. 3 is a side view of a moving frame in the nodular cast iron well lid pouring device of the present invention;

fig. 4 is the utility model relates to a moving mechanism's overall structure schematic diagram in nodular cast iron well lid pouring device.

In the figure: 1. a pouring table; 2. pouring a conveyor belt; 3. a drum; 4. a pouring opening; 5. casting the bracket; 6. pouring a hopper; 7. pouring a mold; 8. a pouring gate; 9. a moving mechanism; 901. a clamping block; 902. a round mouth; 903. a first telescopic rod; 904. a sliding plate; 905. a traveler; 906. a connecting rod; 907. a first cylinder; 908. fixing the bearing; 909. a second telescopic rod; 910. a second cylinder; 911. a semicircular groove frame; 10. a first motor; 11. a cooling table; 12. cooling the conveyor belt; 13. moving the support frame; 14. a cooling tank; 15. a second motor; 16. a movable frame; 17. a strut groove; 18. and (4) bearing grooves.

Detailed Description

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

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a nodular cast iron well lid pouring device, including pouring table 1, the horizontal movable mounting in 1 up end center of pouring table has pouring conveyer belt 2, two sets of cylinders 3 are installed respectively to pouring conveyer belt 2 medial surface both sides, 3 lateral surfaces of two sets of cylinders have two sets of motors 10 of coaxial arrangement respectively, and a pivot of 10 leading flank centers of two sets of motors runs through inside 3 centers of two sets of cylinders respectively, equidistant movable mounting of 2 up end of pouring conveyer belt has a plurality of groups of pouring mould 7, install two sets of pouring supports 5 respectively in the middle of 2 front and back both sides faces of pouring conveyer belt, 5 medial surfaces fixed mounting of two sets of pouring supports have the pouring to fight 6, terminal surface movable mounting has watering mouth 4 under the pouring is fought 6.

Terminal surface left side movable mounting has cooling platform 11 under pouring bed 1, cooling box 14 is transversely installed to 11 up ends of cooling platform, and the inside cooling water that is provided with of cooling box 14, cooling conveyer belt 12 is transversely installed to 14 inside of cooling box, and cooling conveyer belt 12 left end is placed in 2 right-hand members below of pouring conveyer belt, two sets of No. two motors 15 are installed respectively to terminal surface both sides before the cooling box 14, two sets of No. two pivots No. two in 15 trailing flank centers of motor run through in 2 both ends centers of pouring conveyer belt, and run through the department and all install the rubber circle, two sets of movable support frame 13 are installed respectively to 14 lateral surface both sides front end of cooling box, 13 medial surface supports of two sets of movable support frames transversely fixed mounting have removal frame 16, the inside moving mechanism 9.

The center of the upper end face of the plurality of groups of pouring molds 7 is movably provided with a pouring gate 8, and the diameter of the upper end face of the pouring gate 8 is consistent with that of the lower end face of the pouring gate 4.

Through the technical scheme: the nodular cast iron well lid pouring device is provided with a pouring hopper 6 and a pouring conveyor belt 2, when a user changes a proper pouring port 4 and installs the pouring port at the lower end of the pouring hopper 6, the user places an empty pouring mold 7 at the upper end of the pouring conveyor belt 2, the user pours molten iron into the pouring hopper 6, a first motor 10 at two ends of the pouring conveyor belt 2 is started, the pouring conveyor belt 2 conveys the pouring mold 7 to the lower end of the pouring hopper 6, the molten iron is poured into the pouring mold 7 through the pouring hopper 6, the user can control the flow of the poured molten iron by changing the pouring port 4 and the pouring port 8 with different apertures, the nodular cast iron well lid pouring device solves the problem that when the traditional nodular cast iron well lid pouring device is poured, the manual hole pouring is carried out by the user, the manual work efficiency is low, when the hole pouring is carried out, the personnel pours the molten iron onto the device shell, and the flow of the manual pouring molten iron is uncontrollable, and bubbles are easily generated when the pouring is too fast.

Bearing groove 18 has transversely been seted up at the terminal surface center under the removal frame 16, and there is the interval in bearing groove 18 up end and the removal frame 16 up end, and bearing groove 18 both ends all do not run through the removal frame 16 both ends face, and two sets of traveller grooves 17 have been seted up respectively to removal frame 16 end surface both sides, and two sets of traveller grooves 17 are the L type, and two sets of traveller groove 17 medial surface lower extreme openings, and two sets of traveller grooves 17 both ends all do not run through the removal frame 16 both ends face.

The moving mechanism 9 comprises a clamping block 901, the lower end of the clamping block 901 is L-shaped, a round opening 902 is arranged at the center of the upper end face of the clamping block 901, two groups of first telescopic rods 903 are respectively arranged at two sides of the upper end of the round opening 902, a sliding plate 904 is fixedly arranged on the upper end faces of the two groups of first telescopic rods 903, two sets of first telescopic rods 903 penetrate through the upper end surface of the sliding plate 904, two sets of first air cylinders 907 are respectively and fixedly arranged on two sides of the upper end surface of the sliding plate 904, the lower end surfaces of the two first cylinders 907 are connected with the upper end surfaces of the two first telescopic rods 903, the outer side surfaces of the two first cylinders 907 are respectively provided with two groups of semicircular groove frames 911 at equal intervals, the outer side surfaces of the two groups of semicircular groove frames 911 are flush with the two end surfaces of the sliding plate 904, a connecting rod 906 is transversely arranged between the inner sides of the two groups of semicircular groove frames 911, two end surfaces of the connecting rod 906 are respectively and fixedly provided with two groups of sliding columns 905, and two sets of sliding columns 905 are respectively arranged in the two sets of sliding column grooves 17 at the two sides of the lower end of the moving frame 16.

A fixed bearing 908 is movably mounted in the middle of the outer side surface of the connecting rod 906, a second expansion link 909 is fixedly connected to the right side of the outer side surface of the fixed bearing 908, the fixed bearing 908 and the second expansion link 909 are arranged in the central bearing groove 18 of the lower end surface of the moving frame 16, the right end surface of the second expansion link 909 penetrates through the right end surface of the moving frame 16, a second air cylinder 910 is fixedly connected to the right end surface of the second expansion link 909, and the left end surface of the second air cylinder 910 is in contact with the right end surface of the.

Through the technical scheme: the nodular cast iron well lid pouring device is provided with a moving mechanism 9 and a cooling box 14, when a pouring mold 7 after pouring is conveyed to the tail end through a pouring conveyor belt 2, at the moment, a second cylinder 910 in the moving mechanism 9 pressurizes gas to push a second expansion link 909 to extend, the second expansion link 909 pushes a fixed bearing 908 to move towards the left side, a connecting rod 906 rolls in a bearing hole, sliding columns 905 at two ends of the connecting rod 906 slide in sliding column grooves 17 to drive a sliding plate 904 and a clamping block 901 at the lower end of the sliding plate 904 to move to the upper side of the pouring mold 7, at the moment, two groups of first cylinders 907 on the upper end surface of the sliding plate 904 pressurize gas to enable a first expansion link 903 to extend, the lower end of the clamping block 901 clamps the outer side surface of the pouring mold 7, then the pressure is reduced through the two groups of first cylinders 907, the first expansion link 903 is shortened, the clamping block 901 and the pouring mold 7 are lifted upwards, and the pressure of the first cylinders 907 is reduced, the second cylinder 910 reduces the pressure at the same time, the second expansion link 909 drives the fixed bearing 908, the sliding plate 904, the clamping block 901 and the casting mold 7 to move to the right side, when the moving mechanism 9 moves the casting mold 7 to the upper end of the cooling box 14, the first cylinder 907 pressurizes to place the clamping block 901 and the casting mold 7 into the upper end of the cooling conveyor belt 12 in the cooling box 14, cooling water is arranged in the cooling box 14 to cool the casting mold 7, at this time, a user turns on the second motor 15, the second motor 15 drives the cooling conveyor belt 12 in the cooling box 14 to convey the casting mold 7 to the tail end of the cooling box 14, at this time, the operator takes out the casting mold 7, and the nodular cast iron well lid casting device solves the problem that the well lid is taken out and then cooled after the casting is finished in the existing nodular cast iron well lid cooling mode and is not beneficial to continuous casting by arranging the moving mechanism 9 and the cooling box 14, and the well lid in the pouring can not be cooled.

The working principle is as follows: for the nodular cast iron well lid pouring device, firstly, a user replaces a proper pouring opening 4 and installs the pouring opening at the lower end of a pouring hopper 6, the user places an empty pouring mold 7 at the upper end of a pouring conveyor belt 2, the user pours melted molten iron into the pouring hopper 6, a first motor 10 at two ends of the pouring conveyor belt 2 is started, the pouring conveyor belt 2 conveys the pouring mold 7 to the lower end of the pouring hopper 6, the molten iron is poured into the pouring mold 7 through the pouring hopper 6, the user can control the flow of the poured molten iron by replacing the pouring opening 4 and the pouring opening 8 with different apertures, the nodular cast iron well lid pouring device solves the problems that when the traditional nodular cast iron well lid pouring device is poured, the molten iron is poured into the holes by hands, the manual work efficiency is low, when the holes are poured, the user can pour the molten iron on the device shell, when the poured casting mold 7 is conveyed to the tail end through the pouring conveyor belt 2, the second cylinder 910 in the moving mechanism 9 pressurizes gas to push the second expansion link 909 to extend, the second expansion link 909 pushes the fixed bearing 908 to move towards the left side, the connecting rod 906 rolls in the bearing hole, the sliding columns 905 at the two ends of the connecting rod 906 slide in the sliding column groove 17 to drive the sliding plate 904 and the clamping block 901 at the lower end of the sliding plate 904 to move to the upper side of the casting mold 7, the two groups of first cylinders 907 on the upper end surface of the sliding plate 904 pressurize gas to extend the first expansion link 903, the sliding rod 903 moves to the lower end of the clamping block 901 to clamp the outer side surface of the casting mold 7, the pressure of the first expansion link 907 is reduced, the first expansion link is shortened, the clamping block 903 and the casting mold 7 are lifted upwards, and the pressure of the first cylinders 907 is reduced, the second cylinder 910 reduces the pressure at the same time, the second expansion link 909 drives the fixed bearing 908, the sliding plate 904, the clamping block 901 and the casting mold 7 to move to the right side, when the moving mechanism 9 moves the casting mold 7 to the upper end of the cooling box 14, the first cylinder 907 pressurizes to place the clamping block 901 and the casting mold 7 into the upper end of the cooling conveyor belt 12 in the cooling box 14, cooling water is arranged in the cooling box 14 to cool the casting mold 7, at this time, a user turns on the second motor 15, the second motor 15 drives the cooling conveyor belt 12 in the cooling box 14 to convey the casting mold 7 to the tail end of the cooling box 14, at this time, the operator takes out the casting mold 7, and the nodular cast iron well lid casting device solves the problem that the well lid is taken out and then cooled after the casting is finished in the existing nodular cast iron well lid cooling mode and is not beneficial to continuous casting by arranging the moving mechanism 9 and the cooling box 14, and the well lid in the pouring can not be cooled.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a nodular cast iron well lid pouring device, includes pouring table (1), its characterized in that: pouring platform (1) up end center horizontal movable mounting has pouring conveyer belt (2), two sets of cylinder (3) are installed respectively to pouring conveyer belt (2) medial surface both sides, and are two sets of cylinder (3) lateral surface coaxial arrangement has two sets of motors (10) respectively, and just pivot No. one in two sets of motor (10) leading flank center runs through respectively inside two sets of cylinder (3) centers, equidistant movable mounting has a plurality of groups of pouring mould (7) on pouring conveyer belt (2), install two sets of pouring support (5) respectively in the middle of pouring conveyer belt (2) front and back both sides face, and is two sets of pouring support (5) medial surface fixed mounting has the pouring to fight (6), terminal surface movable mounting has watering mouth (4) under pouring is fought (6).

2. The nodular cast iron well lid pouring device of claim 1, wherein: a cooling table (11) is movably arranged on the left side of the lower end surface of the pouring table (1), a cooling box (14) is transversely arranged on the upper end surface of the cooling table (11), and cooling water is arranged in the cooling box (14), a cooling conveyor belt (12) is transversely arranged in the cooling box (14), the left end of the cooling conveyor belt (12) is arranged below the right end of the pouring conveyor belt (2), two groups of second motors (15) are respectively arranged on two sides of the front end surface of the cooling box (14), a second rotating shaft at the center of the rear side surface of each second motor (15) penetrates through the centers of two ends of the pouring conveyor belt (2), and the penetrating part is provided with a rubber ring, the front ends of the two sides of the outer side surface of the cooling box (14) are respectively provided with two sets of movable support frames (13), the inner side surface support of each movable support frame (13) is transversely and fixedly provided with a movable frame (16), and a movable mechanism (9) is arranged inside each movable frame (16).

3. The nodular cast iron well lid pouring device of claim 1, wherein: the center of the upper end face of each pouring mold (7) is movably provided with a pouring port (8), and the diameter of the upper end face of each pouring port (8) is consistent with that of the lower end face of each pouring port (4).

4. The nodular cast iron well lid casting device of claim 2, wherein: remove terminal surface center under frame (16) and transversely seted up bearing groove (18), there is the interval bearing groove (18) up end and removal frame (16) up end, and bearing groove (18) both ends all do not run through and remove frame (16) both ends face, two sets of traveller groove (17) are the L type, and two sets of traveller groove (17) medial surface lower extreme openings, and are two sets of traveller groove (17) both ends all do not run through and remove frame (16) both ends face.

5. The nodular cast iron well lid casting device of claim 2, wherein: the moving mechanism (9) comprises a clamping block (901), the lower end of the clamping block (901) is L-shaped, a round opening (902) is formed in the center of the upper end face of the clamping block (901), two groups of first telescopic rods (903) are respectively installed on two sides of the upper end of the round opening (902), a sliding plate (904) is fixedly installed on the upper end faces of the two groups of first telescopic rods (903), the two groups of first telescopic rods (903) penetrate through the upper end face of the sliding plate (904), two groups of first cylinders (907) are respectively and fixedly installed on two sides of the upper end face of the sliding plate (904), the lower end faces of the two groups of first cylinders (907) are connected with the upper end faces of the two groups of first telescopic rods (903), two groups of semicircular groove frames (911) are respectively arranged on the outer side faces of the two groups of first cylinders (907) at equal intervals, the outer side faces of the two groups of semicircular groove frames (911) are flush with the two end faces of the sliding plate (904), and a connecting rod (906) is transversely installed between the inner sides of the two groups of the semicircular groove frames (911), two end faces of the connecting rod (906) are respectively and fixedly provided with two groups of sliding columns (905), and the two groups of sliding columns (905) are respectively arranged in two groups of sliding column grooves (17) on two sides of the lower end of the moving frame (16).

6. The nodular cast iron well lid pouring device of claim 5, wherein: the utility model discloses a movable mounting has fixed bearing (908) in the middle of connecting rod (906) lateral surface, fixed bearing (908) lateral surface right side fixedly connected with telescopic link (909), fixed bearing (908) and telescopic link (909) are arranged in and are removed terminal surface center bearing groove (18) under frame (16), and No. two telescopic link (909) right-hand member face run through to removing frame (16) right-hand member face, No. two telescopic link (909) right-hand member face fixedly connected with No. two cylinder (910), and No. two cylinder (910) left end face and remove frame (16) right-hand member face and contact.

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