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CN-224224327-U - Acrylic plate filling system

CN224224327UCN 224224327 UCN224224327 UCN 224224327UCN-224224327-U

Abstract

The utility model relates to an acrylic plate filling system which comprises a storage bin, a material belt connected to a discharge hole of the storage bin and a guide pipe arranged outside the material belt in a surrounding mode, wherein the head of the guide pipe is provided with a guide section, both sides of the guide section are provided with pushing mechanisms, each pushing mechanism comprises two groups of conveying rollers, two groups of gears, two driving wheels, a conveying belt and an output motor, the two conveying rollers are arranged at intervals to reserve a gap for a material belt to pass through, the two gears are coaxially connected to the two conveying rollers, the two gears are meshed with each other, and the two driving wheels are connected through the conveying belt in a driving mode. According to the utility model, the discharge hole of the material belt can be aligned with the glass gap through the arrangement of the guide section, the material belt is prevented from wrinkling, and the material belt is driven to accurately enter the glass gap along the preset path by being matched with the reverse rotation of the two conveying rollers in the pushing mechanism, so that the inefficiency and instability of the traditional manual pushing material belt are eliminated, the production efficiency is greatly improved, and the labor cost is reduced.

Inventors

  • ZHOU XIAOER
  • YANG CHAO
  • ZHOU DONGTAO

Assignees

  • 安徽新涛光电科技有限公司

Dates

Publication Date
20260512
Application Date
20250515

Claims (5)

  1. 1. The acrylic plate filling system is characterized by comprising a storage bin (100), a material belt (200) connected to a discharge hole of the storage bin (100) and a guide pipe (300) arranged outside the material belt (200) in a surrounding manner; The guide pipe (300) head has guide section (330), the both sides of guide section (330) all are provided with push mechanism (400), push mechanism (400) are including two sets of conveying roller (410), two sets of gear (420), two drive wheels (430), conveyer belt (440) and output motor (450), two clearance that feed belt (200) passed is laid in order to reserve in interval of conveying roller (410), two gear (420) coaxial coupling is on two conveying roller (410), and intermesh between two gear (420), connect through conveyer belt (440) transmission between two drive wheels (430), one of them drive wheel (430) transmission is connected at output motor (450) output, another drive wheel (430) transmission is connected outside conveying roller (410), output motor (450) are installed outside guide section (330).
  2. 2. The acrylic sheet filling system according to claim 1, wherein the outside of the transfer roller (410) has anti-slip lines.
  3. 3. The acrylic sheet filling system according to claim 2, wherein the guide pipe (300) further comprises a protection section (310) and a transition section (320), and the protection section (310), the transition section (320) and the guide section (330) are sequentially connected along the extension path of the material belt (200).
  4. 4. The acrylic sheet filling system according to claim 3, wherein the guide section (330) comprises flat portions (331) on both sides and a flared portion (332) in the middle, the two pushing mechanisms (400) are correspondingly distributed at the flat portions (331) on both sides, and the flared portion (332) has a width larger than that of the flat portions (331).
  5. 5. The acrylic sheet filling system according to claim 4, wherein the flat portion (331) has an extension arm (333) facing the frit cavity.

Description

Acrylic plate filling system Technical Field The utility model belongs to the technical field of acrylic plates, and particularly relates to an acrylic plate filling system. Background In the production and manufacturing process of acrylic plates, filling is an important link. The traditional acrylic plate filling device generally adopts a mode that a material belt stretches into a glass gap to finish filling operation. However, there are a number of drawbacks to this approach. The material is usually a relatively soft material, which, although being able to adapt to the shape of the gap to some extent, also makes it extremely difficult to place it in the glass gap. In actual operation, the operator is required to spend a great deal of time and effort in positioning the strip with care. Moreover, because the material belt is soft in texture, the phenomenon of wrinkling is very easy to occur in the placing process. Once the material belt is wrinkled, the uniformity of the filling material can be affected, partial gaps can not be fully filled, and the product quality of the acrylic plate is reduced. Furthermore, in view of the complexity and fineness of the above operations, the entire filling process must rely on manual standing aside for the tape loading operation. The labor cost is greatly increased, the production efficiency is reduced, workers are in a tired working state for a long time, the consistency of each operation is difficult to ensure, and the stability of the product quality is adversely affected. Disclosure of utility model Aiming at the problems in the prior art, the utility model provides an acrylic plate filling system, which has the following specific technical scheme: The acrylic plate material filling system comprises a storage bin, a material belt connected to a discharge hole of the storage bin and a guide pipe arranged outside the material belt in a surrounding manner; The catheter head has the guide section, the both sides of guide section all are provided with pushing mechanism, pushing mechanism includes two sets of transfer rollers, two sets of gears, two drive wheels, conveyer belt and output motor, and two transfer rollers interval are laid in order to reserve the clearance that the feed belt passed, and two gears coaxial coupling is on two transfer rollers, and intermeshing between two gears, is connected through the conveyer belt transmission between two drive wheels, and one of them drive wheel transmission is connected at output motor output, and another drive wheel transmission is connected outside the transfer roller, output motor installs outside the guide section. As a further technical scheme of the utility model, the conveying roller is provided with anti-skid lines. As a further technical scheme of the utility model, the guide pipe also comprises a protection section and a transition section, and the protection section, the transition section and the guide section are sequentially connected along the extension path of the material belt. As a further technical scheme of the utility model, the guide section comprises flat parts at two sides and flaring parts in the middle, the two pushing mechanisms are correspondingly distributed at the flat parts at two sides, and the width of the flaring parts is larger than that of the flat parts. As a further aspect of the utility model, the flat portion has an extension arm facing the frit cavity. The beneficial effects of the utility model are as follows: According to the application, the discharge hole of the material belt can be aligned with the glass gap through the arrangement of the guide section, the material belt is prevented from wrinkling, and the two conveying rollers in the pushing mechanism are matched to reversely rotate to realize that the material belt is automatically driven to accurately enter the glass gap along a preset path, so that the inefficiency and instability of the traditional manual pushing material belt are eliminated, the production efficiency is greatly improved, the labor cost is reduced, the consistency of the material filling operation is ensured, and the large-scale production is facilitated. Drawings Fig. 1 shows a schematic diagram of the overall structure of an acrylic sheet filling system; FIG. 2 shows a schematic structural view of a catheter; Fig. 3 shows a schematic structural view of a guide section; fig. 4 shows a schematic structural view of the pushing mechanism. Legend description: 100. The device comprises a storage bin, 200 parts of a material belt, 300 parts of a guide pipe, 310 parts of a protection section, 320 parts of a transition section, 330 parts of a guide section, 331 parts of a flat section, 332 parts of a flaring part, 333 parts of an extension arm, 400 parts of a pushing mechanism, 410 parts of a conveying roller, 420 parts of a gear, 430 parts of a driving wheel, 440 parts of a conveying belt, 450 parts of an output motor. Detailed Description In order to make the ob