Search

CN-117146656-B - Combined firework production device

CN117146656BCN 117146656 BCN117146656 BCN 117146656BCN-117146656-B

Abstract

The invention discloses a combined firework production device, which relates to the technical field of firework production and processing, and comprises an arrangement assembly, a blanking assembly and a vibration conveying assembly, wherein the arrangement assembly comprises a conveying belt structure, a limiting structure and a deviation rectifying structure, the limiting structure and the deviation rectifying structure are arranged above the conveying belt structure, the vibration conveying assembly comprises a vibration structure and a plurality of first outlets positioned on the left side of the vibration structure, a plurality of inner cylinders are arranged on the vibration structure, the blanking assembly comprises a clamping feeding structure, a transferring structure and a blanking structure, the blanking structure is positioned right above a combined cylinder, and the clamping feeding structure is communicated with the plurality of first outlets. The invention has the advantages of stability, reliability and good production effect.

Inventors

  • LIN YUEDING
  • HONG YA
  • Lin Kenpan
  • Teng Xinyang

Assignees

  • 浙江星耀花炮有限公司
  • 浏阳市沛霖机械制造有限公司

Dates

Publication Date
20260508
Application Date
20230921

Claims (6)

  1. 1. A combined firework production device is characterized by comprising an arrangement component, a blanking component and a vibration conveying component, wherein, The arrangement assembly comprises a conveying belt structure, a limiting structure and a deviation rectifying structure, wherein the conveying belt structure is used for conveying a plurality of outer cylinders, the limiting structure and the deviation rectifying structure are arranged above the conveying belt structure, the limiting structure is used for limiting the plurality of outer cylinders to preset positions on the conveying belt structure, and the deviation rectifying structure is used for orderly arranging the plurality of outer cylinders and forming a combined cylinder; The vibration conveying assembly comprises a vibration structure and a plurality of first outlets positioned on the left side of the vibration structure, a plurality of inner cylinders are placed on the vibration structure, the blanking assembly comprises a clamping feeding structure, a transferring structure and a blanking structure, the blanking structure is positioned right above the combined cylinder, the clamping feeding structure is communicated with the plurality of first outlets, and the vibration structure is used for sequentially conveying the plurality of inner cylinders into the blanking structure from the first outlets; The clamping feeding structure is used for feeding a plurality of inner cylinders into the transferring structure and limiting the inner cylinders on the vibration structure in the feeding process, so that the inner cylinders on the vibration structure cannot enter the clamping feeding structure; The conveying structure is also used for conveying the plurality of inner cylinders to the position right above the combined cylinder, the conveying structure is also used for conveying the plurality of inner cylinders carried by the conveying structure into the blanking structure and the combined cylinder, and the blanking structure is used for emptying the plurality of inner cylinders carried by the conveying structure and enabling the plurality of inner cylinders to enter the combined cylinder; the limiting structure comprises a limiting rod body which is blocked above the conveying belt structure; the deviation rectifying structure comprises a first deviation rectifying part and a second deviation rectifying part which are arranged on the left side and the right side above the conveying belt structure, wherein the first deviation rectifying part comprises a deviation rectifying claw capable of horizontally moving, The front side, the left side and the right side of the combined cylinder body respectively prop against the limiting rod body, the first deviation correcting part and the second deviation correcting part; The conveying belt structure comprises a conveying belt plane, a lifting plate capable of lifting is arranged below the conveying belt plane, the deviation correcting structure also comprises a plurality of deviation correcting vertebrae arranged right above the combined cylinder body, wherein, The lifting plate is used for driving the plane of the conveying belt to rise after rising so that a plurality of correction vertebrae are respectively clamped into a plurality of gaps at the top of the combined cylinder; The clamping feeding structure comprises an arrangement cavity communicated with a plurality of first outlets, a pushing limiting part is arranged at the top of the arrangement cavity, a plurality of second outlets are arranged at the bottom of the arrangement cavity, a first gear part capable of horizontally moving is arranged at the bottom of the arrangement cavity, The vibration structure is used for sequentially feeding the plurality of inner cylinders into the arrangement cavity from the first outlet; the pushing limiting part comprises a plurality of limiting hoppers capable of moving up and down, and the limiting hoppers can penetrate through the arrangement cavity after moving downwards and extend into the second outlet; The first gear part is positioned below the second outlet and used for shielding or moving out of the position right below the second outlet.
  2. 2. The combined firework production device according to claim 1, wherein a plurality of partition plates are arranged in the arrangement cavity in a spaced mode, an arrangement space is formed between every two adjacent partition plates, the second outlet is formed in the bottom of the arrangement space, and the limiting hoppers are respectively located above the arrangement spaces.
  3. 3. The combined firework production device according to claim 2, wherein the transfer structure comprises a horizontal moving part, the horizontal moving part comprises two sliding bases capable of horizontally moving, a storage part is erected between the two sliding bases, a plurality of storage channels are arranged on the storage part, the top ends of the storage channels penetrate through the top surface of the storage part and form a first opening, the bottom ends of the storage channels penetrate through the bottom surface of the storage part and form a second opening, a second gear part is arranged at the bottom of the second opening, The sliding base is used for driving the storage part to move to the position right below the clamping feeding structure after moving, so that a plurality of inner cylinders can enter the storage channel; the sliding base is used for driving the storage part to move to the position right above the combined cylinder after moving; The second gear part is used for shielding or moving out of the position right below the second opening.
  4. 4. A combined firework production device according to claim 3, wherein the first gear portion comprises a first telescopic rod, a first baffle is fixed to the end of the first telescopic rod, and the first baffle is located below the second outlet; The second gear part comprises a second telescopic rod, a second baffle is fixed at the end part of the second telescopic rod, and the second baffle is positioned below the second opening.
  5. 5. A combined firework production apparatus as claimed in claim 3, wherein at least two storage portions are provided between two sliding seats.
  6. 6. The combined firework production device according to claim 1, wherein the blanking structure comprises a guide plate fixed right above the combined cylinder and a material cleaning push rod group located right above the guide plate, the material cleaning push rod group comprises a plurality of lifting rods capable of moving up and down, the guide plate is provided with a plurality of bucket-shaped guide channels, the bottoms of the guide channels are right opposite to the outer cylinder, The lifting rod is used for penetrating the guide channel and entering the outer cylinder after moving up and down; When the transfer structure moves to the position right above the combined cylinder body, the lifting rod is further used for emptying a plurality of inner cylinders carried in the transfer structure after moving up and down.

Description

Combined firework production device Technical Field The invention relates to the technical field of firework production and processing, in particular to a combined firework production device. Background In the production process of fireworks, the processes of propellant dispensing, feeding and charging, punching and filling of bottom paper sheets, assembly of effect pieces (inner firework cylinders), punching and filling and packaging of face paper sheets and the like are involved, wherein the assembly between an outer cylinder and the inner cylinder filled with the gunpowder is a key ring of the production technology, the traditional manufacturing process is completed manually, the production efficiency is low, the labor intensity is high, the quality requirement cannot be guaranteed, along with the development of manufacturing industry, the full-automatic fireworks production device appears, but the inner cylinder moving and the distribution process are easy to be jammed in the automatic production process of the current commercial fireworks production device, the automatic transfer process is unstable, the subsequent assembly process is influenced, meanwhile, the phenomena of irregular arrangement, misalignment between the outer cylinder and the inner cylinder and the like are easy to appear, the inner cylinder cannot accurately fall into the outer cylinder, and the neglected loading phenomenon appears. Disclosure of Invention Aiming at the defects in the prior art, the invention provides a combined firework production device to solve the technical problems. The invention provides a combined firework production device which comprises an arrangement component, a blanking component and a vibration conveying component, wherein the arrangement component comprises a conveying belt structure, a limiting structure and a deviation rectifying structure, the conveying belt structure is used for conveying a plurality of outer cylinders, the limiting structure and the deviation rectifying structure are arranged above the conveying belt structure, the limiting structure is used for limiting the plurality of outer cylinders to a preset position on the conveying belt structure, the deviation rectifying structure is used for orderly arranging the plurality of outer cylinders and forming a combined cylinder, the vibration conveying component comprises a vibration structure and a plurality of first outlets arranged on the left side of the vibration structure, a plurality of inner cylinders are placed on the vibration structure, the blanking component comprises a clamping feeding structure, a conveying structure and a blanking structure, the blanking structure is arranged right above the combined cylinder, the clamping feeding structure is used for sequentially conveying the plurality of inner cylinders into the blanking structure from the first outlets, the clamping feeding structure is used for moving the plurality of inner cylinders to the position right below the inner cylinders of the conveying structure, the clamping feeding structure is used for conveying the plurality of inner cylinders into the combined cylinder and conveying the combined cylinder to the upper side of the combined cylinder, and the combined cylinder is conveyed into the combined cylinder and cannot be conveyed into the combined cylinder through the clamping structure. In the whole combined firework production device, the vibration structure of the vibration conveying assembly continuously vibrates to enable the plurality of inner cylinders to move towards the left side, the arrangement channels for arranging the plurality of inner cylinders are distributed on the vibration structure, each arrangement channel corresponds to one first outlet, the plurality of inner cylinders can be automatically arranged in the moving process and can sequentially move out of the vibration structure from the first outlets, further, the first outlets are communicated through the clamping feeding structure, the plurality of inner cylinders can directly enter the clamping feeding structure from the first outlets, when the transfer structure moves to the position right below the clamping feeding structure, the clamping feeding structure can start feeding operation, the clamping feeding structure can limit the inner cylinders on the vibration structure when the plurality of arranged inner cylinders are fed into the transfer structure, so that multi-point regular feeding can be realized, feeding efficiency is improved, more importantly, the next inner cylinders can continuously enter the clamping feeding structure from the first outlets, the inner cylinders can stably enter the combined feeding structure in the assembling process, the whole combined feeding structure can be prevented from being formed, and the whole combined feeding structure can be stably arranged in the assembling process, and the whole combined feeding structure can be prevented from being guaranteed. T