CN212530273U - Spheroidized glass barreling device - Google Patents

Abstract

The utility model discloses a balling glass barrelling device, include: the conveying unit comprises a bottom plate in an equal-interval array, supporting plates are mounted at two ends of the bottom plate, a key plate is arranged at the upper end of the supporting plate positioned on the same side, conveying motors are mounted at two ends of the key plate, output shafts of the conveying motors are connected with driving rollers, conveying belts are arranged on the driving rollers, placing holes are formed in the conveying belts in an equal-interval array, upward extending barrels extend upwards from the placing holes, and barrels are arranged at the placing holes; the upper barrel unit comprises an upper barrel assembly arranged on one side of the conveying unit, a transfer assembly is arranged at the upper end of the upper barrel assembly, and the upper barrel assembly and the transfer assembly are matched with each other for transferring barrels; the cover barrel unit comprises an upper cover assembly, wherein a moving assembly is arranged at the upper end of the upper cover assembly, and a rotating assembly is arranged on the moving assembly. The utility model discloses conveniently carry out balling glass's barrelling operation, reduced operating personnel's working strength, improved balling glass barrelling's efficiency, have stronger practicality.

Description

Spheroidized glass barreling device

Technical Field

The utility model relates to a related technical field of balling glass equipment for packing especially relates to a balling glass barrelling device.

Background

Spheroidized glass need load it to the pail pack before the preparation is accomplished to dispatch from the factory, and current loading operation is realized through manual operation, and this kind of mode has increased the cost input of enterprise, and tiny spheroidized glass often floats in the air at the loading in-process simultaneously, has consequently influenced operating personnel's healthy, and simultaneously, spheroidized glass density is great, and consequently the general weight of barreled spheroidized glass is great, also corresponding operating personnel's working strength that has increased.

Disclosure of Invention

The utility model provides a balling glass barrelling device to solve the not enough of above-mentioned prior art, conveniently carry out balling glass's barrelling operation, reduced operating personnel's working strength, improved the efficiency of balling glass barrelling, had stronger practicality.

In order to realize the purpose of the utility model, the following technologies are adopted:

a spheroidized glass barreling apparatus, comprising:

the conveying unit comprises a bottom plate in an equal-interval array, supporting plates are mounted at two ends of the bottom plate, a key plate is arranged at the upper end of the supporting plate positioned on the same side, conveying motors are mounted at two ends of the key plate, output shafts of the conveying motors are connected with driving rollers, conveying belts are arranged on the driving rollers, placing holes are formed in the conveying belts in an equal-interval array, upward extending barrels extend upwards from the placing holes, and barrels are arranged at the placing holes;

the upper barrel unit comprises an upper barrel assembly arranged on one side of the conveying unit, a transfer assembly is arranged at the upper end of the upper barrel assembly, and the upper barrel assembly and the transfer assembly are matched with each other for transferring barrels;

the feeding unit comprises a pair of installation concave parts for installing the outer walls of the key plates, the installation concave parts are all provided with upper extension plates, the upper ends of the upper extension plates are provided with installation rings, the installation rings are provided with storage pieces, the storage pieces comprise storage barrels arranged on the installation rings, the lower ends of the storage barrels are communicated with a communicating pipe, and the lower ends of the communicating pipe are communicated with a conical cover;

the cover barrel unit comprises an upper cover assembly, wherein a moving assembly is arranged at the upper end of the upper cover assembly, and a rotating assembly is arranged on the moving assembly.

Further, go up the bucket subassembly including installing in the installation foot of key-shaped board a pair of, the installation foot other end is equipped with the upper ring, upper ring one side is equipped with the protecting crust, what the protecting crust ran through is equipped with the key-shaped hole, the shifting plate has been worn in the key-shaped hole, shifting plate one end is equipped with the upper barrel board, the lower extreme of protecting crust establishes the lower wall, it is concentric with the lower wall to go up the barrel board, the shifting plate has the lead screw soon, the lead screw is connected with the bucket motor, both ends all are equipped with the assembly seat about the lead screw, the assembly seat that is located the lower extreme is located the lower wall, the assembly seat that is located.

Further, shift the subassembly including installing in the extension board that prolongs the backplate, the seat is rotated in being equipped with that the extension board other end upwards extends, it is a plurality of to rotate the seat and install the guide bar, it installs the screw rod to rotate the seat, the screw rod other end is equipped with and prolongs the mount pad, the guide bar other end is installed in and is prolonged the mount pad, the screw rod has the transfer piece soon, the transfer piece is worn in the guide bar, it is equipped with the flange to shift a both sides, the upward installation that extends of piece pushes up the cylinder, the expansion end that pushes up the cylinder is equipped with the push pedal, it all is equipped with the trachea to go up the push pedal both ends, the trachea all wears in the flange, the trachea lower.

Further, the upper cover subassembly includes the chassis, the chassis one side upwards extends be equipped with the curb plate, chassis one side is equipped with epitaxial flange, the installation that epitaxial flange upwards extends is a pair of telescopic link, the roof spring has all been worn to the telescopic link lower extreme, the expansion plate has been worn to the telescopic link, the expansion plate is located the roof spring upper end, expansion plate one side is equipped with dress arc board, the curb plate outside is located to dress arc board, dress arc board installs the top dish, the top dish is located to the bung, the curb plate upper end is equipped with the outer protective shroud, outer protective shroud upper end one side is equipped with the inner guide, the inner guide other end is formed has the lower cover hole, the inner guide outside is equipped with the guard plate, the lower cover hole is located directly.

Further, the movable assembly comprises a pair of upward extending supporting plates arranged at the upper end of the upper cover assembly, a guiding plate is arranged between the upper ends of the upward extending supporting plates, assembling seats are arranged at two ends of the guiding plate, a rotating rod is arranged between the assembling seats, one end of the rotating rod is connected with a movable motor, a key-shaped limiting hole is formed in the guiding plate, a movable block is screwed on the rotating rod, a limiting rod is arranged on the movable block in a downward extending mode, the limiting rod penetrates through the key-shaped limiting hole, a lower moving plate is arranged at the lower end of the limiting rod, and a pressing cylinder is arranged at two ends.

Further, the runner assembly is including installing in the connection flange of push down the cylinder expansion end, be equipped with the rotation motor mounting panel between the connection flange, rotate the motor mounting panel and install the rotation motor, the rolling disc is installed to the output shaft of rotation motor, the rolling disc is the extension plate that is equipped with of circumference array, the extension plate has all taken shape the motion groove, all be equipped with the regulation swinging arms in the motion groove, the regulation swinging arms all is connected with the accommodate motor, the regulation swinging arms all has revolved the grip block, the motion inslot is all located to grip block one end, grip block lower extreme inner wall all is the arc structure.

The technical scheme has the advantages that:

1. the conveying unit, it drives the pail pack motion to be the conveyer belt under the drive of conveying motor, thereby make things convenient for the motion of pail pack, and conveniently carry out the barrelling operation of balling glass, make things convenient for lid bucket unit to establish the bung lid above that simultaneously, thereby the transfer efficiency of pail pack has been improved, and the speed of balling glass barrelling, wherein set up place the hole on the conveyer belt and set up and prolong a section of thick bamboo on placing the hole department, can carry on spacingly to the pail pack in carrying, thereby conveniently carry out the pail pack and carry and the barrelling operation of balling glass.

2. The upper barrel unit can transfer the empty barrel to the conveying unit to improve the conveying efficiency of the empty barrel, in the specific implementation process, the empty barrel is arranged on an upper barrel plate, then an upper barrel motor is started, a screw rod rotates under the driving of the upper barrel motor, the screw rod rotates to drive the upper barrel plate to move upwards, the upward movement of the upper barrel plate drives the empty barrel arranged on the upper barrel plate to move upwards, when the empty barrel moves to the upper end of an upper ring, the transfer motor is started, a screw rod rotates under the driving of the transfer motor, the rotation of the screw rod drives a transfer block to move, the movement of the transfer block drives an upward pushing cylinder on the transfer block to move, the movement of the upward pushing cylinder drives an air pipe and an air nozzle to move, when the air nozzle moves to the position right above the empty barrel, the upward pushing cylinder is started to enable the air nozzle to move downwards, and a vacuum device enables the air nozzle to generate negative pressure to absorb the empty barrel to the air nozzle through the negative pressure of the air nozzle, then start the transfer motor and shift the empty bucket to the department that places that corresponds in the drive that shifts the piece, and empty bucket will drive empty bucket along with the conveyer belt and move forward until empty bucket moves under the conical cover, then will set up the control valve on communicating pipe and open, load in the balling glass in the storage silo gets into empty bucket, until adorning enough a quantitative back, wherein in the barrelling operation, the conveying motor stall, start until filling and finishing.

3. A cover barrel unit, after a certain amount of spheroidized glass is filled in an empty barrel, the barrel filled with the spheroidized glass is conveyed to the lower part of the cover barrel unit by a conveying belt, a barrel cover is covered on the barrel through the cover barrel unit, wherein, the barrel cover is filled on an upper cover component, a moving component can transfer the barrel cover from the upper cover component to the position right above the barrel, and then, the barrel cover is covered on the barrel through a rotating component, in the specific implementation process, the barrel cover is placed on an upper top disk, the barrel cover placed on the upper top disk is continuously upwards acted by an upper top spring, so that the barrel cover positioned at the upper end is limited by an outer guard ring, when the barrel cover is needed, a moving motor is started, a lower rotating rod is driven by the moving motor to rotate, a moving block is driven to move towards the side of the barrel cover by the rotation of the lower rotating rod, when the moving block moves to the position right above the barrel cover, after the barrel cover is positioned between the clamping plates, the adjusting motor is started, the adjusting rotary rod is driven by the adjusting motor to rotate, the adjusting rotary rod rotates to drive the clamping plates to move towards the outer wall of the barrel cover, the barrel cover is finally clamped until the barrel cover is clamped, the barrel cover is transferred to a lower cover hole under the drive of the moving motor after clamping, the barrel cover positioned at the top layer is transferred, the barrel cover positioned at the lower layer moves upwards under the action of an upper top spring until being limited by an outer protecting ring, then the transferred barrel cover starts to rotate when the rotating motor rotates, the air cylinder is pressed downwards in the rotating process to enable the barrel cover to move downwards until the barrel cover is arranged on the barrel, and then the conveying belt is started to transfer the packaging barrel to the next process section.

4. The utility model discloses conveniently carry out balling glass's barrelling operation, reduced operating personnel's working strength, improved balling glass barrelling's efficiency, have stronger practicality.

Drawings

Fig. 1 shows a perspective view of a first embodiment.

Fig. 2 shows a perspective view of the second embodiment.

Fig. 3 shows a three-dimensional structure of one embodiment.

Fig. 4 shows a perspective structural view of one embodiment.

Fig. 5 shows a partial enlarged view at a.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

Furthermore, the terms "substantially", and the like are intended to indicate that the relative terms are not necessarily strictly required, but may have some deviation. For example: "substantially equal" does not mean absolute equality, but because absolute equality is difficult to achieve in actual production and operation, certain deviations generally exist. Thus, in addition to absolute equality, "substantially equal" also includes the above-described case where there is some deviation. In this case, unless otherwise specified, terms such as "substantially", and the like are used in a similar manner to those described above.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-5, a spheroidized glass barreling apparatus includes:

conveying unit 1, including the bottom plate 100 that is the equidistant array, backup pad 101 is all installed at bottom plate 100 both ends, and the backup pad 101 upper end that is located the homonymy is equipped with key plate 11, and conveying motor 13 is installed at key plate 11 both ends, and conveying motor 13's output shaft all is connected with drive roller 14, and drive roller 14 is equipped with conveyer belt 12, and conveyer belt 12 is equidistant array's taking shape has place hole 120, places hole 120 department and all upwards extends a section of thick bamboo 121 on being equipped with, and the section of thick bamboo is located and places hole 120 department to the bucket.

Conveying unit 1, it is that conveyer belt 12 drives the pail pack motion to be under the drive of conveying motor 13, thereby make things convenient for the motion of pail pack, and conveniently carry out the barreling operation of balling glass, make things convenient for lid bucket unit 4 to establish the bung lid on it simultaneously, thereby the transfer efficiency of pail pack has been improved, and the speed of balling glass barreling, wherein set up place hole 120 and set up on conveyer belt 13 and prolong a section of thick bamboo 121 on placing hole 120 department, can carry on spacingly to the pail pack in the transport, thereby conveniently carry out the barreling operation that the pail pack carried and balling glass.

Go up bucket unit 3, including last bucket subassembly 30 of locating conveying unit 1 one side, go up bucket subassembly 30 upper end and be equipped with transfer assembly 31, go up bucket subassembly 30 and transfer assembly 31 and mutually support and be used for the transfer of bucket. Go up bucket subassembly 30 including installing in key plate 11 installation foot 300 a pair of, the installation foot 300 other end is equipped with circle 301, circle 301 one side is equipped with protective housing 302 on going up, protective housing 302 runs through be equipped with key hole 308, shift up plate 305 has been worn in key hole 308, shift up plate 305 one end is equipped with bucket plate 304, lower wall 303 is established to protective housing 302 lower extreme, it is concentric with lower wall 303 to go up bucket plate 304, shift up plate 305 has screwed lead screw 306, lead screw 306 is connected with the bucket motor, both ends all are equipped with assembly seat 307 about lead screw 306, assembly seat 307 that is located the lower extreme is located lower wall 303, assembly seat 307 that is located the upper end is located circle 301 on, it prolongs backplate 309 on 301 opposite side to be equipped with. The transfer component 31 comprises an extension support plate 310 installed on an extension protection plate 309, the other end of the extension support plate 310 extends upwards to be provided with a rotation seat 311, the rotation seat 311 is provided with a plurality of guide rods 313, the rotation seat 311 is provided with a screw 314, the other end of the screw 314 is provided with an extension installation seat 312, the other end of the guide rod 313 is installed on the extension installation seat 312, the screw 314 is screwed with a transfer block 315, the transfer block 315 is penetrated on the guide rods 313, the two sides of the transfer block 315 are provided with convex plates 316, the transfer block 315 extends upwards to be provided with an upward pushing cylinder 317, the movable end of the upward pushing cylinder 317 is provided with an upper push plate 318, the two ends of the upper push plate 318 are provided with air pipes 319, the air pipes 319 are penetrated on the convex plates 316, the lower.

The feeding unit 2 comprises a pair of installation concave parts 202 for installing the outer wall of the key plate 11, the installation concave parts 202 are all provided with an upper extension plate 201, an installation ring 200 is installed at the upper end of the upper extension plate 201, a storage part 21 is installed on the installation ring 200, the storage part 21 comprises a storage barrel 210 installed on the installation ring 200, the lower end of the storage barrel 210 is communicated with a communication pipe 211, and the lower end of the communication pipe 211 is communicated with a conical cover 212.

The upper barrel unit 3 can transfer the empty barrel to the conveying unit 1 to improve the conveying efficiency of the empty barrel, in the specific implementation process, the empty barrel is placed on the upper barrel plate 304, then the upper barrel motor is started, the screw rod 306 rotates under the driving of the upper barrel motor, the screw rod 306 rotates to drive the upper barrel plate 304 to move upwards, the upward movement of the upper barrel plate 304 drives the empty barrel placed on the upper barrel plate to move upwards, when the empty barrel moves to the upper end of the upper ring 301, the transfer motor is started, the screw rod 314 rotates under the driving of the transfer motor, the rotation of the screw rod 314 drives the movement of the transfer block 315, the movement of the transfer block 315 drives the movement of the push-up cylinder 317 on the transfer block, the movement of the push-up cylinder drives the air pipe 319 and the air nozzle to move, when the air nozzle moves to the position right above the empty barrel, the push-up cylinder 317 is started to enable the air nozzle to move downwards, and the air nozzle generates negative pressure to absorb the empty barrel to the air nozzle through the negative pressure at the air nozzle through, then start the transfer motor and shift to corresponding hole 120 department of placing with empty bucket in the drive of transferring the piece 315, and empty bucket will drive empty bucket along with conveyer belt 12 and move forward, until empty bucket moves under conical cover 212, then open the control valve that sets up on communicating pipe 211, load in the balling glass in storage section of thick bamboo 210 gets into empty bucket, until after enough adorning a quantitative, wherein in the barrelling operation, conveying motor 13 stall, start until filling is accomplished.

The cover barrel unit 4 comprises an upper cover assembly 40, a moving assembly 41 is arranged at the upper end of the upper cover assembly 40, and a rotating assembly 42 is arranged on the moving assembly 41. The upper cover assembly 40 includes chassis 400, chassis 400 one side upwards extends be equipped with curb plate 401, chassis 400 one side is equipped with epitaxial flange 402, the installation that epitaxial flange 402 upwards extends is telescopic link 403 a pair ofly, top spring 404 has all been worn to telescopic link 403 lower extreme, telescopic link 403 has worn expansion plate 405, expansion plate 405 is located top spring 404 upper end, expansion plate 405 one side is equipped with dress calorie arc board 406, dress calorie arc board 406 is located the curb plate 401 outside, dress calorie arc board 406 is installed and is gone up top dish 407, the top dish 407 is located to the bung, curb plate 401 upper end is equipped with outer protective shroud 408, outer protective shroud 408 upper end one side is equipped with inner guide 409, the inner guide 409 other end is formed with lower cover hole 4090, the inner guide 409 outside is equipped with 4091, lower cover hole 4090 is located directly over conveyer belt 12. The moving assembly 41 includes a pair of upward extending support plates 410 arranged on the upper end of the upper cover assembly 40, a guiding plate 411 is arranged between the upper ends of the upward extending support plates 410, assembling seats 412 are arranged at the two ends of the guiding plate 411, a rotating rod 413 is arranged between the assembling seats 412, one end of the rotating rod 413 is connected with a moving motor 418, a key-shaped limiting hole 4110 is formed on the guiding plate 411, a moving block 414 is screwed on the rotating rod 413, a limiting rod 415 is arranged on the moving block 414 in a downward extending mode, the limiting rod 415 penetrates through the key-shaped limiting hole 4110, a lower moving plate 416 is arranged at the lower end of the limiting rod 415, and a pressing cylinder 417 is arranged at. The rotating assembly 42 comprises a connecting convex plate 421 installed at the movable end of a pressing cylinder 417, a rotating motor mounting plate 420 is arranged between the connecting convex plates 421, a rotating motor 422 is installed on the rotating motor mounting plate 420, a rotating disc 423 is installed on an output shaft of the rotating motor 422, the rotating disc 423 is provided with an extension plate 424 in a circumferential array, the extension plate 424 is provided with a moving groove 4240, an adjusting rotary rod 426 is arranged in the moving groove 4240, the adjusting rotary rod 426 is connected with an adjusting motor 425, the adjusting rotary rod 426 is provided with a clamping plate 428, one end of the clamping plate 428 is arranged in the moving groove 4240, and the inner wall of the lower end of the clamping plate 428 is of an arc-shaped structure.

The cover and barrel unit 4 is used for conveying the barrel filled with the spheroidized glass to the lower part of the cover and barrel unit 4 by a conveying belt after a certain amount of spheroidized glass is filled in the empty barrel, the barrel cover is covered on the barrel through the cover and barrel unit 4, wherein the barrel cover is filled on the upper cover component 40, the barrel cover can be transferred to the position right above the barrel from the upper cover component 40 by the moving component 41, then the barrel cover is covered on the barrel through the rotating component 42, in the specific implementation process, the barrel cover is placed on the upper top disc 407, the barrel cover placed on the upper top disc 407 continuously acts upwards through the upper top spring 404, so that the barrel cover positioned at the upper end is limited by the outer guard ring 408, when the barrel cover is needed, the moving motor 418 is started, the lower rotating rod 413 is driven by the moving motor 418 to rotate, the rotating of the lower rotating rod 423 drives the moving block 414 to move towards the barrel cover side, and when the moving block 414 moves to the position right, the clamping plate 428 is enabled to move downwards, after the barrel cover is located between the clamping plates 418, the adjusting motor 425 is started, the adjusting rotary rod 426 is driven to rotate by the adjusting motor 425, the adjusting rotary rod 426 rotates to drive the clamping plate 428 to move towards the outer wall of the barrel cover, the barrel cover is finally clamped until the barrel cover is clamped, after clamping, the barrel cover is transferred to the position of a lower cover hole 4090 under the driving of the moving motor 418, as the barrel cover located at the top layer is transferred, the barrel cover located at the lower layer moves upwards under the action of the upper top spring 404 until the barrel cover is limited by the outer protecting ring 408, then the transferred barrel cover starts to rotate at the rotating motor 422, the cylinder 417 is pressed downwards in the rotating process to enable the barrel cover to move downwards until the barrel cover is arranged on the barrel, and then the conveying belt 12 is started to transfer the packaging barrel to the next process segment.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is obvious that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. A spheroidized glass barreling device is characterized by comprising:

the conveying unit (1) comprises a bottom plate (100) in an equidistant array, supporting plates (101) are mounted at two ends of the bottom plate (100), a key plate (11) is arranged at the upper end of each supporting plate (101) positioned on the same side, conveying motors (13) are mounted at two ends of each key plate (11), output shafts of the conveying motors (13) are connected with driving rollers (14), conveying belts (12) are arranged on the driving rollers (14), placing holes (120) are formed in the conveying belts (12) in the equidistant array, upward extending barrels (121) are arranged at the positions of the placing holes (120) and extend upwards, and the barrels are arranged at the positions of the placing holes (120);

the upper barrel unit (3) comprises an upper barrel component (30) arranged on one side of the conveying unit (1), a transfer component (31) is arranged at the upper end of the upper barrel component (30), and the upper barrel component (30) and the transfer component (31) are matched with each other for barrel transfer;

the feeding unit (2) comprises a pair of installation concave parts (202) for installing the outer wall of the key plate (11), the installation concave parts (202) are respectively provided with an upper extension plate (201), the upper end of the upper extension plate (201) is provided with an installation ring (200), the installation ring (200) is provided with a storage part (21), the storage part (21) comprises a storage barrel (210) arranged on the installation ring (200), the lower end of the storage barrel (210) is communicated with a communicating pipe (211), and the lower end of the communicating pipe (211) is communicated with a conical cover (212);

the cover barrel unit (4) comprises an upper cover assembly (40), wherein a moving assembly (41) is arranged at the upper end of the upper cover assembly (40), and a rotating assembly (42) is arranged on the moving assembly (41).

2. The spheroidized glass barreling device according to claim 1, wherein the upper barrel assembly (30) comprises a pair of mounting feet (300) mounted on a key plate (11), the other end of the mounting feet (300) is provided with an upper ring (301), one side of the upper ring (301) is provided with a protective shell (302), the protective shell (302) penetrates through the protective shell and is provided with a key hole (308), the key hole (308) is penetrated with an upper moving plate (305), one end of the upper moving plate (305) is provided with an upper barrel plate (304), the lower end of the protective shell (302) is provided with a lower disk (303), the upper barrel plate (304) is concentric with the lower disk (303), the upper moving plate (305) is screwed with a screw rod (306), the screw rod (306) is connected with an upper barrel motor, the upper and lower ends of the screw rod (306) are provided with assembling seats (307), the assembling seat (307) positioned at the lower end is arranged on the lower disk (303), the assembling seat (307) positioned at the upper end is.

3. The spheroidized glass barreling device according to claim 2, wherein the transfer component (31) comprises an extension support plate (310) installed on the upper extension protection plate (309), the other end of the extension support plate (310) is provided with a rotating seat (311) extending upwards, the rotating seat (311) is provided with a plurality of guide rods (313), the rotating seat (311) is provided with a screw (314), the other end of the screw (314) is provided with an upper extension installation seat (312), the other end of the guide rod (313) is installed on the upper extension installation seat (312), the screw (314) is screwed with a transfer block (315), the transfer block (315) penetrates through the guide rod (313), the two sides of the transfer block (315) are provided with convex plates (316), the transfer block (315) is provided with an upper push cylinder (317) extending upwards, the movable end of the upper push cylinder (317) is provided with an upper push plate (318), the two ends of the upper push plate (318) are provided with air pipes (319), and the air pipes (, the lower ends of the air pipes (319) are provided with air nozzles, and one end of the screw rod (314) is connected with a transfer motor.

4. The spheroidized glass barreling device according to claim 1, wherein the upper cover assembly (40) comprises a chassis (400), a side plate (401) is arranged on one side of the chassis (400) in an upward extending manner, an extending convex plate (402) is arranged on one side of the chassis (400), a pair of extending rods (403) are arranged on the extending convex plate (402) in an upward extending manner, an upper top spring (404) is arranged at the lower end of each extending rod (403), an extending plate (405) is arranged on each extending rod (403), the extending plates (405) are arranged at the upper end of the upper top spring (404), an arc installing plate (406) is arranged on one side of each extending plate (405), the arc installing plate (406) is arranged on the outer side of the side plate (401), an upper top plate (407) is arranged on the arc installing plate (406), a barrel cover is arranged on the upper top plate (407), an outer retainer (408) is arranged at the upper end of the side plate (401), an inner guide plate (409) is arranged on one side, the outer side of the inner guide plate (409) is provided with a protective plate (4091), and the lower cover hole (4090) is positioned right above the conveyer belt (12).

5. The spheroidized glass barreling device according to claim 4, wherein the moving assembly (41) comprises a pair of upward extending support plates (410) arranged at the upper end of the upper cover assembly (40), a guide plate (411) is arranged between the upper ends of the upward extending support plates (410), assembling seats (412) are arranged at the two ends of the guide plate (411), a rotating rod (413) is arranged between the assembling seats (412), one end of the rotating rod (413) is connected with a moving motor (418), a key-shaped limiting hole (4110) is formed in the guide plate (411), a moving block (414) is screwed in the rotating rod (413), a limiting rod (415) is arranged in the downward extending direction of the moving block (414), the limiting rod (415) penetrates through the key-shaped limiting hole (4110), a lower moving plate (416) is arranged at the lower end of the limiting rod (415), and a pressing cylinder (417) is arranged at the two ends of the.

6. The spheroidized glass barreling device according to claim 5, wherein the rotating assembly (42) comprises connecting convex plates (421) installed at the movable end of a pressing cylinder (417), rotating motor mounting plates (420) are arranged between the connecting convex plates (421), rotating motors (422) are installed on the rotating motor mounting plates (420), rotating discs (423) are installed on output shafts of the rotating motors (422), the rotating discs (423) are provided with extension plates (424) in a circumferential array, the extension plates (424) are all formed with moving grooves (4240), adjusting rotary rods (426) are arranged in the moving grooves (4240), the adjusting rotary rods (426) are all connected with adjusting motors (425), the adjusting rotary rods (426) are all screwed with clamping plates (428), one ends of the clamping plates (428) are all arranged in the moving grooves (4240), and the inner walls of the lower ends of the clamping plates (428) are all in an arc-shaped structure.

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