CN204902686U - Fireworks pearl shaping automatic production line that shines - Google Patents

Abstract

This device is including the even machine of fireworks gunpowder nixing sieve, the automatic granulator of the bright pearl of fireworks and belt conveyors, the even machine of fireworks gunpowder nixing sieve, the automatic granulator of the bright pearl of fireworks and belt conveyors's drive arrangement all adopts hydraulic pressure drive arrangement or pneumatic drive arrangement. The utility model discloses really reach the mesh of man -machine separation to guaranteed operating personnel's safety, the structure of device has prevented the production of spark and static simultaneously, has guaranteed the security of production.

Description

The shaping automatic assembly line of a kind of firework bright bead

Technical field

The utility model relates to the shaping automatic assembly line of a kind of firework bright bead.

Background technology

At present, it is all that independent medicine screening apparatus sieves medicine that the firework bright bead that market uses is produced, by hand medicine is put in water chestnut comminutor through workman again and carry out granulation, also need ceaselessly to stir the material in tank in the process of granulation, also need to add quantitative alcohol and dry powder simultaneously, and then semi-finished product are carried out a series of thickness screening, just not saying temporarily by the problem of manually-operated efficiency and quality, we only consider from the angle of safety, on the one hand, as everyone knows, fireworks will prevent electrostatic and spark in producing, not so probably ignite fireworks, cause immeasurable loss, in the process of bright pearl granulation, due to spray alcohol some can evaporate in the air of operating room, in factory, As time goes on, in workplace air, alcohol concentration can improve gradually, and when carrying out refining by material screening machine, a large amount of dust can be produced again, as long as now a little Mars is easy to air to ignite, but due to the production that existing production equipment is not for fireworks automation, people is needed directly to contact production, once improper being easy to of operative produces spark, consequence is hardly imaginable, on the other hand, containing a large amount of harmful dusts in the technique making firework bright bead, treat for a long time easily to cause various breathing problem in such working environment, even pneumoconiosis, koniosis, directly have influence on the healthy of workman, and industrial alcohol is very large to eye injury, work in the environment that alcohol concentration is large for a long time, blind probability is caused greatly to increase, in sum, be badly in need of a kind of automatic equipment and solve these problems.

Utility model content

The purpose of this utility model be to overcome the deficiencies in the prior art and provide a kind of can automatically complete a complete set of explained hereafter of firework bright bead, prevent from producing in process of production spark and electrostatic, reach the object of separate men from machines, ensure that the shaping automatic assembly line of the firework bright bead of personal security in production process.

To achieve these goals, the technical scheme that the utility model adopts is:

The shaping automatic assembly line of a kind of firework bright bead; comprise the even machine of fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor, the drive unit of the even machine of described fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor all adopts fluid pressure drive device or pneumatic actuating device.

The even machine of described fireworks powder nixing sieve comprises the even machine of the first fireworks powder nixing sieve and the even machine of the second fireworks powder nixing sieve; described firework bright bead automatic granulator comprises the first firework bright bead automatic granulator and the second firework bright bead automatic granulator; described belt conveyor comprises the first sieve even outfeed belt conveying device, the first granulation feed belt conveying device, the first granulation outfeed belt conveying device, the second sieve even outfeed belt conveying device, the second granulation feed belt conveying device and the second granulation outfeed belt conveying device

The even machine of described first fireworks powder nixing sieve is connected with the first granulation feed belt conveying device by the even outfeed belt conveying device of the first sieve, described first granulation feed belt conveying device is connected with the charging aperture of the first firework bright bead automatic granulator, the discharging opening of described first firework bright bead automatic granulator is connected with the second granulation feed belt conveying device by the first granulation outfeed belt conveying device, the discharging opening of the even machine of described second fireworks powder nixing sieve is connected with the second granulation feed belt conveying device by the even outfeed belt conveying device of the second sieve, described second granulation feed belt conveying device is connected with the charging aperture of the second firework bright bead automatic granulator, the discharging opening of described second firework bright bead automatic granulator is connected with the second granulation outfeed belt conveying device.

The even machine of described first fireworks powder nixing sieve is identical with the second fireworks powder nixing sieve even machine structure includes rack-mounted agitating device and the first vibratory sieve, described agitating device comprises agitator and is arranged on the stirring vane in agitator, described agitator is arranged on the top of described first vibratory sieve, the discharging opening of described agitator is connected by the import of flexible connecting sleeve with the first vibratory sieve, described stirring vane adopts insulation board or copper coin to make, described stirring vane is by fluid pressure drive device or pneumatic actuating device driven rotary, described stirring vane comprises coaxial mounted upper stirring vane and lower stirring vane, described upper stirring vane and lower stirring vane set gradually along the charging aperture of agitator to discharging opening, the hand of spiral of described upper stirring vane and lower stirring vane is contrary, described first vibratory sieve comprises the first sieve plate and the first housing, described first sieve plate is fixed in the first housing, described first housing entirety is fixed on the first oscillating plate, described first oscillating plate is arranged on the first fixed head by the first rubber spring, described first fixed head is arranged in the first frame, first pneumatic or hydraulic oscillating motor is installed between described first fixed head and the first oscillating plate, described first pneumatic or hydraulic oscillating motor drives the first vibration plate vibrates, the soft female connector of first silica gel is installed between described first oscillating plate and the first fixed head and seals gap between the first oscillating plate and the first fixed head.

Described agitator is the back taper agitator that upside diameter is large, downside diameter is little.

Described first firework bright bead automatic granulator comprises comminutor body and the second vibratory sieve, described second firework bright bead automatic granulator comprises comminutor body, described comminutor body comprises pelletizing disks by drive unit driven rotary and material-spraying device, the nozzle of described material-spraying device is arranged in pelletizing disks, described comminutor body by support installing on the robotic arm, described mechanical arm can drive the pelletizing disks of comminutor body in feed station, change between granulation station and unloading station, the unloading station of described second firework bright bead automatic granulator is connected with the second granulation outfeed belt conveying device,

The charging aperture of described second vibratory sieve is arranged on the unloading station below pelletizing disks, the charging aperture of described pelletizing disks is connected with described granulation feed belt conveying device when feed station, described second vibratory sieve comprises the second sieve plate and the second housing, described second sieve plate is fixed in the second housing, described second housing entirety is fixed on the second oscillating plate, described second oscillating plate is arranged on the second fixed head by the second rubber spring, described second fixed head is arranged in the second frame, second pneumatic or hydraulic oscillating motor is installed between described second fixed head and the second oscillating plate, described second pneumatic or hydraulic oscillating motor drives the second vibration plate vibrates, the soft female connector of second silica gel is installed between described second oscillating plate and the second fixed head and seals gap between the second oscillating plate and the second fixed head, second sieve plate of described second vibratory sieve is provided with three layers from top to bottom successively, three layers of described second sieve plate are all horizontally fixed in the second housing and the sieve aperture of described second sieve plate reduces from top to bottom successively, sieve aperture and the standardized product size of top second sieve plate match, described second sieve plate of three floor is divided into bulky grain district from top to bottom successively by described second housing, standard particle district and granule district, described second housing is equipped with discharging opening on each area, the discharging opening in described bulky grain district is connected with granulation feed back belt conveyor by rolling device, the discharging opening in described granule district is directly connected with granulation feed back belt conveyor, the discharging opening in described standard particle district is connected with granulation outfeed belt conveying device.

Described mechanical arm comprises column; described comminutor is hinged on described column by support; the pelletizing disks of described comminutor is arranged on the side of support upper link point; described support is provided with the 4th pneumatic or hydraulic cylinder between pin joint opposite side and column, and described 4th pneumatic or hydraulic cylinder drives pelletizing disks to rotate thus in feed station, change between granulation station and unloading station around pin joint.

Described mechanical arm comprises column, described column is provided with hollow shaft by bearing, the first rotating shaft by the first hydraulic pressure or air motor driven rotary is installed in described hollow shaft, described first rotating shaft is connected with the second rotating shaft driving the pelletizing disks of described comminutor to rotate by the first conical tooth wheels, described pelletizing disks is rack-mount, described support is fixedly connected with hollow shaft, described hollow shaft is connected with the second hydraulic pressure or air motor by the second conical tooth wheels, described second hydraulic pressure or air motor drive hollow shaft, support and pelletizing disks rotate simultaneously, thus drive pelletizing disks in feed station, change between granulation station and unloading station.

The even outfeed belt conveying device of described first sieve, first granulation feed belt conveying device, first granulation outfeed belt conveying device, the even outfeed belt conveying device of second sieve, second granulation feed belt conveying device and the second granulation outfeed belt conveying device and granulation feed back belt conveyor include belt conveyor and belt/roller, the both sides of the edge of described belt conveyor are provided with a circle chimb along belt conveyor length direction, described chimb height is 60mm ~ 80mm, described belt/roller is the olive shape at the bottom of middle high both sides, described granulation feed belt conveying device is installed in orbit by road wheel, described track installation is on brace table, described brace table is also provided with the 3rd hydraulic pressure or pneumatic linear actuator, the movable end of described 3rd hydraulic pressure or pneumatic linear actuator is connected with granulation feed belt conveying device, granulation feed belt conveying device is driven to enter the charging aperture of pelletizing disks along rail moving or shift out the charging aperture of pelletizing disks.

The shaping automatic assembly line of described firework bright bead is arranged in factory, multiple video monitor is provided with in factory, humidifier, cooler, temperature and humidity monitor, described video monitor and the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor correspondence are arranged, video monitor is connected with the video monitoring door displays be arranged on outside factory, video monitoring indoor are provided with control device, described temperature and humidity monitor is connected with display by controller, described humidifier, cooler, the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, the keying of firework bright bead automatic granulator and belt conveyor is controlled by control device.

A kind of firework bright bead moulding process, comprise the steps: to arrange temperature in factory building and be no more than 32 DEG C, and humidity is more than 60%, fireworks granulating raw material is dropped into the even machine of the first fireworks powder nixing sieve, the rotating speed arranging the stirring vane of the even machine of the first fireworks powder nixing sieve is 1 ~ 20 rev/min, then be delivered to the first firework bright bead automatic granulator by the even outfeed belt conveying device of sieve and carry out granulation, shaping product carries out coarse and fine separation through the first firework bright bead automatic granulator discharging to the second vibratory sieve, diameter is greater than entering after rolling device is pulverized of standardized product and is transmitted back to the first firework bright bead automatic granulator, what diameter was less than standardized product is directly transmitted back to the first firework bright bead automatic granulator, qualified product is transported to the second firework bright bead automatic granulator, to wrap up in simultaneously medicine raw material drop into the second fireworks powder nixing sieve even machine sieve even, the rotating speed arranging the stirring vane of the even machine of the second fireworks powder nixing sieve is 1 ~ 20 rev/min, then be transported to the second firework bright bead automatic granulator to carry out wrapping up in material, wrap up in the finished product after having expected to be exported by the second granulation outfeed belt conveying device.

Owing to adopting such scheme, the drive unit of the even machine of the utility model fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor all adopts fluid pressure drive device or pneumatic actuating device, prevents motorized motions from producing the hidden danger of electric spark like this.

The utility model is cooperatively interacted by granulation feed belt conveying device and granulation outfeed belt conveying device and comminutor, drive comminutor in feed station by mechanical arm, change between granulation station and unloading station, the time interval of said structure is controlled by controller, thus automatically complete the overall process of charging, granulation, discharging, sieve material and discharging, thus operating personnel do not need to treat for a long time in factory building when producing, ensure that the safety of operating personnel, avoid the generation of various occupational disease;

The comminutor of this device drives the pelletizing disks of comminutor vertically to rotate by mechanical arm; thus in feed station, change between granulation station and unloading station; and the angle of granulation station also can be adjusted by mechanical arm; thus reach the object of adjustment granulation size; and mechanical arm can realize rotating by hydraulic cylinder or pneumatic linear actuator; also can pass through conical tooth wheels driven rotary, can also be rotated all in the protection domain of this patent by alternate manner.

The stirring vane of the utility model agitating device adopts insulation board or copper coin to make, in whipping process, prevent stirring vane from producing spark when stirring like this, the discharging opening of agitator is connected with the import of vibratory sieve by flexible connecting sleeve simultaneously, prevent vibratory sieve from when vibrating and between agitator, producing spark, the screen cloth of vibratory sieve is fixed in housing, housing entirety is fixed on oscillating plate, prevent screen cloth from producing spark or electrostatic in housing internal vibration, vibratory sieve is by the gap between the soft female connector sealing oscillating plate of silica gel and fixed head, the friction of such guarantee oscillating plate in vibration processes can not produce spark or electrostatic, simultaneously due to power set are sealed between oscillating plate and fixed head, therefore when cleaning, giant can be adopted to clean, can not impact power set, clean very convenient.

The stirring vane of this device adopts upper stirring vane and lower stirring vane that the hand of spiral is contrary, when making described upper stirring vane and lower stirring vane linkage rotation, described lower stirring vane drives material upwards stirring vane direction motion, described upper stirring vane drives material downward stirring vane direction motion, ensures the even of stirring like this.

In sum, really reached the object of separate men from machines by this device, thus ensure that the safety of operating personnel, the structure with timer prevents the generation of spark and electrostatic, ensure that the security of production.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of the even machine of the utility model fireworks powder nixing sieve.

Fig. 3 is the structural representation of the utility model firework bright bead automatic granulator.

Fig. 4 is the structural representation of the utility model firework bright bead automatic granulator second vibratory sieve.

Fig. 5 is a kind of structural representation of the utility model firework bright bead automatic granulator mechanical arm.

Fig. 6 is the structural representation of the utility model firework bright bead belt conveyor.

Detailed description of the invention

Below in conjunction with accompanying drawing, further describe the detailed description of the invention of this patent.

As shown in Figures 1 to 6; the shaping automatic assembly line of a kind of firework bright bead; comprise the even machine of fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor, the drive unit of the even machine of described fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor all adopts fluid pressure drive device or pneumatic actuating device.

The even machine of described fireworks powder nixing sieve comprises the even machine of the first fireworks powder nixing sieve 1 and the even machine 4 of the second fireworks powder nixing sieve, described firework bright bead automatic granulator comprises the first firework bright bead automatic granulator 2 and the second firework bright bead automatic granulator 3, described belt conveyor comprises the even outfeed belt conveying device 15 of the first sieve, first granulation feed belt conveying device 24, first granulation outfeed belt conveying device 26, the even outfeed belt conveying device 5 of second sieve, second granulation feed belt conveying device 7 and the second granulation outfeed belt conveying device 6, the even machine of described first fireworks powder nixing sieve 1 is connected with the first granulation feed belt conveying device 24 by the even outfeed belt conveying device 15 of the first sieve, described first granulation feed belt conveying device 24 is connected with the charging aperture of the first firework bright bead automatic granulator 2, the discharging opening of described first firework bright bead automatic granulator 2 is connected with the second granulation feed belt conveying device 7 by the first granulation outfeed belt conveying device 26, the discharging opening of the even machine of described second fireworks powder nixing sieve 4 is connected with the second granulation feed belt conveying device 7 by the even outfeed belt conveying device 5 of the second sieve, described second granulation feed belt conveying device 7 is connected with the charging aperture of the second firework bright bead automatic granulator 3, the discharging opening of described second firework bright bead automatic granulator 3 is connected with the second granulation outfeed belt conveying device 6.

The even machine of first fireworks powder nixing sieve 1 is identical with the structure of the even machine of the second petard medicine nixing sieve 4, comprise and be arranged on agitating device 11 in frame 12 and the first vibratory sieve 14, described agitating device 11 comprises agitator and is arranged on the stirring vane in agitator, and described agitator is the back taper agitator that upside diameter is large, downside diameter is little.Described stirring vane comprises coaxial mounted upper stirring vane 113 and lower stirring vane 114, described upper stirring vane 113 and lower stirring vane 114 set gradually along the charging aperture 111 of agitator to discharging opening, the hand of spiral of described upper stirring vane 113 and lower stirring vane 114 is contrary, when making described upper stirring vane 113 and lower stirring vane 114 linkage rotation, described lower stirring vane 114 drives material upwards stirring vane 113 direction motion, described upper stirring vane 113 drives material downward stirring vane 114 direction to move, described stirring vane adopts insulation board or copper coin to make, described stirring vane is by fluid pressure drive device or pneumatic actuating device 112 driven rotary.

Described first vibratory sieve 14 comprises the first sieve plate 141 and the first housing, described agitator is arranged on the top of described first vibratory sieve, the discharging opening of described agitator is connected with the import of the first vibratory sieve 14 by the first flexible connecting sleeve 13 of silica gel material, described first sieve plate 141 is fixed in the first housing, described first housing entirety is fixed on the first oscillating plate 142, described first oscillating plate is fixed in the first frame 12, described first oscillating plate 142 is arranged on the first fixed head 143 by the first rubber spring, between described first fixed head 143 and the first oscillating plate 142, first pneumatic or hydraulic oscillating motor is installed, described first pneumatic or hydraulic oscillating motor drives the first vibration plate vibrates, the soft female connector 144 of first silica gel is installed between described first oscillating plate 142 and the first fixed head 143 and seals gap between the first oscillating plate and the first fixed head.The discharging opening and first of described first vibratory sieve 14 sieves even outfeed belt conveying device 15 and is connected.

First firework bright bead automatic granulator 2 comprises comminutor body and the second vibratory sieve 22, described comminutor body comprises pelletizing disks 211 by drive unit driven rotary and material-spraying device, the nozzle 212 of described material-spraying device is arranged in pelletizing disks 211, described comminutor body by support installing on the robotic arm, described mechanical arm can drive the pelletizing disks 211 of comminutor body in feed station, change between granulation station and unloading station, the charging aperture of described second vibratory sieve 22 is arranged on the unloading station below pelletizing disks 211, the discharging opening of described second vibratory sieve 22 is connected with the first granulation outfeed belt conveying device 25, the charging aperture of described pelletizing disks 211 is connected with described first granulation feed belt conveying device 23 when feed station, described comminutor body, second vibratory sieve 22, mechanical arm, the drive unit of the first granulation feed belt conveying device 23 and the first granulation outfeed belt conveying device 25 is fluid pressure drive device or pneumatic actuating device and described fluid pressure drive device or pneumatic actuating device control to open and close by controller.

Described second vibratory sieve 22 comprises the second sieve plate 227 and the second housing 221, described second sieve plate 227 is fixed in the second housing 221, described second housing 221 entirety is fixed on the second oscillating plate 228, described second fixed head 222 is fixed in the second frame, described second oscillating plate 228 is arranged on the second fixed head 222 by the second rubber spring, second pneumatic or hydraulic oscillating motor 223 is installed between described second fixed head and the second oscillating plate, described second pneumatic or hydraulic oscillating motor 223 drives vibration plate vibrates, the soft female connector 229 of second silica gel is installed between described second oscillating plate 228 and the second fixed head 222 and seals gap between oscillating plate and fixed head.

Second sieve plate of described second vibratory sieve 22 is provided with three layers from top to bottom successively, three layers of described second sieve plate is all horizontally fixed in the second housing 221 and the sieve aperture of described second sieve plate reduces from top to bottom successively, sieve aperture and the standardized product size of the second sieve plate described in top match, described second sieve plate of three floor is divided into bulky grain district 225 from top to bottom successively by described second housing, standard particle district 224 and granule district 226, described second housing 221 is equipped with discharging opening on each area, the discharging opening in described bulky grain district 225 is connected with granulation feed back belt conveyor 24 by rolling device 23, the discharging opening in described granule district 226 is directly connected with granulation feed back belt conveyor 24, the discharging opening in described standard particle district 224 is connected with the first granulation outfeed belt conveying device 25, the drive unit of described granulation feed back belt conveyor 24 is fluid pressure drive device or pneumatic actuating device.

Described rolling device 23 comprises guide groove and is arranged on two milling rollers bottom guide groove, and described discharging opening is communicated with guide groove, is connected on the downside of described milling roller by guide plate with granulation feed back belt conveyor.

Described first granulation feed belt conveying device 23 is installed in orbit by road wheel 231, described track installation is on brace table, described brace table is also provided with the 3rd hydraulic pressure or pneumatic linear actuator 232, the movable end of described 3rd hydraulic pressure or pneumatic linear actuator 232 is connected with the first granulation feed belt conveying device 23, drives the first granulation feed belt conveying device 23 enter the charging aperture of pelletizing disks along rail moving or shift out the charging aperture of pelletizing disks.

Second firework bright bead automatic granulator 3 is compared with the first firework bright bead automatic granulator 2, and owing to wrapping up in the finished product after medicine without the need to refiltering, therefore eliminate the second vibratory sieve 22, other structure is identical.

As a kind of embodiment of this patent; described mechanical arm comprises column 214; described comminutor is hinged on described column 214 by support; the pelletizing disks 211 of described comminutor is arranged on the side of support pin joint; described support is provided with the 4th pneumatic or hydraulic cylinder 215 between pin joint opposite side and column 214, and described 4th pneumatic or hydraulic cylinder 215 drives pelletizing disks to rotate thus in feed station, change between granulation station and unloading station around pin joint.

As the another kind of embodiment of this patent, described mechanical arm comprises column 214, described column 214 is provided with hollow shaft 217 by bearing, the first rotating shaft by the first hydraulic pressure or air motor 213 driven rotary is installed in described hollow shaft 217, described first rotating shaft is connected with the second rotating shaft driving the pelletizing disks 211 of described comminutor to rotate by the first conical tooth wheels 210, described pelletizing disks 211 is rack-mount, described support is fixedly connected with hollow shaft 217, described hollow shaft 217 is connected with the second hydraulic pressure or air motor 216 by the second conical tooth wheels 219, described second hydraulic pressure or air motor 216 drive hollow shaft 217, support and pelletizing disks 211 rotate simultaneously, thus drive pelletizing disks in feed station, change between granulation station and unloading station.

The both sides of the edge that the even outfeed belt conveying device 15, second of described first sieve sieves the belt conveyor of even outfeed belt conveying device 5, first granulation feed belt conveying device 23, second granulation feed belt conveying device 7, first granulation outfeed belt conveying device 25, second granulation outfeed belt conveying device 6 and granulation feed back belt conveyor 24 are provided with a circle chimb 151 along belt conveyor length direction, and described chimb 151 is highly 60mm ~ 80mm.Described belt/roller 152 is the olive shape at the bottom of middle high both sides.

The shaping automatic assembly line of described firework bright bead is arranged in factory building, multiple video monitor is provided with in factory building, humidifier, cooler, temperature and humidity monitor, described video monitor and the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor correspondence are arranged, video monitor is connected with the video monitoring door displays be arranged on outside factory building, video monitoring indoor are provided with control device, described temperature and humidity monitor is connected with display by controller, described humidifier, cooler, the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, the keying of firework bright bead automatic granulator and belt conveyor is controlled by control device.

Claims (9)

1. the shaping automatic assembly line of firework bright bead; comprise the even machine of fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor, it is characterized in that: the drive unit of the even machine of described fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor all adopts fluid pressure drive device or pneumatic actuating device.

2. the shaping automatic assembly line of firework bright bead according to claim 1, it is characterized in that: the even machine of described fireworks powder nixing sieve comprises the even machine of the first fireworks powder nixing sieve and the even machine of the second fireworks powder nixing sieve, described firework bright bead automatic granulator comprises the first firework bright bead automatic granulator and the second firework bright bead automatic granulator, described belt conveyor comprises the even outfeed belt conveying device of the first sieve, first granulation feed belt conveying device, first granulation outfeed belt conveying device, the even outfeed belt conveying device of second sieve, second granulation feed belt conveying device and the second granulation outfeed belt conveying device,

The even machine of described first fireworks powder nixing sieve is connected with the first granulation feed belt conveying device by the even outfeed belt conveying device of the first sieve, described first granulation feed belt conveying device is connected with the charging aperture of the first firework bright bead automatic granulator, the discharging opening of described first firework bright bead automatic granulator is connected with the second granulation feed belt conveying device by the first granulation outfeed belt conveying device, the discharging opening of the even machine of described second fireworks powder nixing sieve is connected with the second granulation feed belt conveying device by the even outfeed belt conveying device of the second sieve, described second granulation feed belt conveying device is connected with the charging aperture of the second firework bright bead automatic granulator, the discharging opening of described second firework bright bead automatic granulator is connected with the second granulation outfeed belt conveying device.

3. the shaping automatic assembly line of firework bright bead according to claim 2, it is characterized in that: the even machine of described first fireworks powder nixing sieve is identical with the second fireworks powder nixing sieve even machine structure includes rack-mounted agitating device and the first vibratory sieve, described agitating device comprises agitator and is arranged on the stirring vane in agitator, described agitator is arranged on the top of described first vibratory sieve, the discharging opening of described agitator is connected by the import of flexible connecting sleeve with the first vibratory sieve, described stirring vane adopts insulation board or copper coin to make, described stirring vane is by fluid pressure drive device or pneumatic actuating device driven rotary, described stirring vane comprises coaxial mounted upper stirring vane and lower stirring vane, described upper stirring vane and lower stirring vane set gradually along the charging aperture of agitator to discharging opening, the hand of spiral of described upper stirring vane and lower stirring vane is contrary, described first vibratory sieve comprises the first sieve plate and the first housing, described first sieve plate is fixed in the first housing, described first housing entirety is fixed on the first oscillating plate, described first oscillating plate is arranged on the first fixed head by the first rubber spring, described first fixed head is arranged in the first frame, first pneumatic or hydraulic oscillating motor is installed between described first fixed head and the first oscillating plate, described first pneumatic or hydraulic oscillating motor drives the first vibration plate vibrates, the soft female connector of first silica gel is installed between described first oscillating plate and the first fixed head and seals gap between the first oscillating plate and the first fixed head.

4. the shaping automatic assembly line of firework bright bead according to claim 3, is characterized in that: described agitator is the back taper agitator that upside diameter is large, downside diameter is little.

5. the shaping automatic assembly line of firework bright bead according to claim 4, it is characterized in that: described first firework bright bead automatic granulator comprises comminutor body and the second vibratory sieve, described second firework bright bead automatic granulator comprises comminutor body, described comminutor body comprises pelletizing disks by drive unit driven rotary and material-spraying device, the nozzle of described material-spraying device is arranged in pelletizing disks, described comminutor body by support installing on the robotic arm, described mechanical arm can drive the pelletizing disks of comminutor body in feed station, change between granulation station and unloading station, the unloading station of described second firework bright bead automatic granulator is connected with the second granulation outfeed belt conveying device,

The charging aperture of described second vibratory sieve is arranged on the unloading station below pelletizing disks, the charging aperture of described pelletizing disks is connected with described granulation feed belt conveying device when feed station, described second vibratory sieve comprises the second sieve plate and the second housing, described second sieve plate is fixed in the second housing, described second housing entirety is fixed on the second oscillating plate, described second oscillating plate is arranged on the second fixed head by the second rubber spring, described second fixed head is arranged in the second frame, second pneumatic or hydraulic oscillating motor is installed between described second fixed head and the second oscillating plate, described second pneumatic or hydraulic oscillating motor drives the second vibration plate vibrates, the soft female connector of second silica gel is installed between described second oscillating plate and the second fixed head and seals gap between the second oscillating plate and the second fixed head, second sieve plate of described second vibratory sieve is provided with three layers from top to bottom successively, three layers of described second sieve plate are all horizontally fixed in the second housing and the sieve aperture of described second sieve plate reduces from top to bottom successively, sieve aperture and the standardized product size of top second sieve plate match, described second sieve plate of three floor is divided into bulky grain district from top to bottom successively by described second housing, standard particle district and granule district, described second housing is equipped with discharging opening on each area, the discharging opening in described bulky grain district is connected with granulation feed back belt conveyor by rolling device, the discharging opening in described granule district is directly connected with granulation feed back belt conveyor, the discharging opening in described standard particle district is connected with granulation outfeed belt conveying device.

6. the shaping automatic assembly line of firework bright bead according to claim 5; it is characterized in that: described mechanical arm comprises column; described comminutor is hinged on described column by support; the pelletizing disks of described comminutor is arranged on the side of support upper link point; described support is provided with the 4th pneumatic or hydraulic cylinder between pin joint opposite side and column, and described 4th pneumatic or hydraulic cylinder drives pelletizing disks to rotate thus in feed station, change between granulation station and unloading station around pin joint.

7. the shaping automatic assembly line of firework bright bead according to claim 5, it is characterized in that: described mechanical arm comprises column, described column is provided with hollow shaft by bearing, the first rotating shaft by the first hydraulic pressure or air motor driven rotary is installed in described hollow shaft, described first rotating shaft is connected with the second rotating shaft driving the pelletizing disks of described comminutor to rotate by the first conical tooth wheels, described pelletizing disks is rack-mount, described support is fixedly connected with hollow shaft, described hollow shaft is connected with the second hydraulic pressure or air motor by the second conical tooth wheels, described second hydraulic pressure or air motor drive hollow shaft, support and pelletizing disks rotate simultaneously, thus drive pelletizing disks in feed station, change between granulation station and unloading station.

8. the shaping automatic assembly line of firework bright bead according to claim 5, it is characterized in that: the even outfeed belt conveying device of described first sieve, first granulation feed belt conveying device, first granulation outfeed belt conveying device, the even outfeed belt conveying device of second sieve, second granulation feed belt conveying device and the second granulation outfeed belt conveying device and granulation feed back belt conveyor include belt conveyor and belt/roller, the both sides of the edge of described belt conveyor are provided with a circle chimb along belt conveyor length direction, described chimb height is 60mm ~ 80mm, described belt/roller is the olive shape at the bottom of middle high both sides, described granulation feed belt conveying device is installed in orbit by road wheel, described track installation is on brace table, described brace table is also provided with the 3rd hydraulic pressure or pneumatic linear actuator, the movable end of described 3rd hydraulic pressure or pneumatic linear actuator is connected with granulation feed belt conveying device, granulation feed belt conveying device is driven to enter the charging aperture of pelletizing disks along rail moving or shift out the charging aperture of pelletizing disks.

9. according to the shaping automatic assembly line of the firework bright bead one of claim 1 to 8 Suo Shu, it is characterized in that: the shaping automatic assembly line of described firework bright bead is arranged in factory, multiple video monitor is provided with in factory, humidifier, cooler, temperature and humidity monitor, described video monitor and the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, firework bright bead automatic granulator and belt conveyor correspondence are arranged, video monitor is connected with the video monitoring door displays be arranged on outside factory, video monitoring indoor are provided with control device, described temperature and humidity monitor is connected with display by controller, described humidifier, cooler, the even machine of firework bright bead shaping automatic assembly line fireworks powder nixing sieve, the keying of firework bright bead automatic granulator and belt conveyor is controlled by control device.