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CN-224225868-U - Feeding mechanism rotating by self weight of feed box

CN224225868UCN 224225868 UCN224225868 UCN 224225868UCN-224225868-U

Abstract

The utility model relates to the technical field of factory production line material conveying equipment, in particular to a feeding mechanism rotating by the dead weight of a material box, which comprises a feeding part material rack, a steering material rack and a discharging part material rack which are arranged from high to low, wherein the tops of the feeding part material rack, the steering material rack and the discharging part material rack are all provided with lean pipe flow benefiting strips for conveying the material box, the steering material rack is rotatably provided with a steering rack, the steering rack receives the material box conveyed by the feeding part material rack and conveys the material box to the discharging part material rack after rotating, and the steering mechanism realizes steering conveying by the dead weight of the material box, does not need manual conveying, saves the time and labor cost of material conveying, can well adapt to complex space layout of a factory site, solves the problem of material conveying that an operation position and a material conveying port are not in the same line, and improves the space utilization rate.

Inventors

  • LI YANG
  • WU GUOWEI
  • LIU XUAN
  • HE WEIFENG

Assignees

  • 吉林省鼎奇工业自动化设备有限公司

Dates

Publication Date
20260512
Application Date
20250428

Claims (5)

  1. 1. The feeding mechanism rotating by the dead weight of the feed box is characterized by comprising a feeding part material frame (1), a steering material frame (2) and a discharging part material frame (3) which are arranged from high to low; The automatic feeding device comprises a feeding part material frame (1), a steering frame (2) and a discharging part material frame (3), wherein the tops of the feeding part material frame, the steering frame (2) and the discharging part material frame (3) are respectively provided with a lean pipe flow strip (6) for conveying a material box, the steering frame (2) is rotatably provided with a steering frame (21), and the steering frame (21) receives a material box conveyed by the feeding part material frame (1) and conveys the material box to the discharging part material frame (3) after rotating; the automatic feeding device is characterized by further comprising a reset structure (4), wherein the reset structure (4) is connected with the bogie (21), and when the bogie (21) transfers the material box to the material frame (3) of the discharging part, the reset structure (4) drives the bogie (21) to reset, so that the feeding end of the bogie (21) is aligned with the material frame (1) of the feeding part again.
  2. 2. Feeding mechanism rotating by the dead weight of the feed box according to claim 1, characterized in that the bogie (2) comprises a bogie (21), a bearing (22), an inclined fixing frame (23) and a rotating shaft (24); The inclined fixing frame (23) is obliquely fixed on the upper part of the steering material frame (2) and is used as a fixing base of the bearing (22); The bearing (22) is arranged on the inclined fixing frame (23) and has the same inclination angle with the inclined fixing frame (23), the rotating shaft (24) is arranged in the bearing (22) in a penetrating mode, the upper portion of the rotating shaft (24) is fixedly connected with the bottom of the bogie (21), and the rotating shaft (24) and the bogie (21) have a certain downward inclination angle.
  3. 3. Feeding mechanism rotating by the dead weight of the feed box according to claim 1, characterized in that the return structure (4) comprises a pulley (41), a counterweight bar (42) and a stainless steel plastic rope (43); The pulley (41) is fixed on the side surface of the material frame (1) of the feeding part, one end of the stainless steel plastic-coated rope (43) is connected with the bogie (21), and the other end of the stainless steel plastic-coated rope bypasses the pulley (41) and is connected with the counterweight bar (42); The counterweight bar (42) pulls the lower end of the stainless steel plastic-coated rope (43) downwards under the action of gravity, and the stainless steel plastic-coated rope (43) is connected with the bogie (21) after the direction of the stainless steel plastic-coated rope is changed by the pulley (41) and provides the pulling force for resetting the bogie (21).
  4. 4. Feeding mechanism rotating by the dead weight of the feed box according to claim 1, characterized by further comprising a blocking structure (5); The grid blocking structure (5) comprises a limiting rod (51) and a blocking rod (52), wherein the limiting rod (51) is hinged to the tail end of the bogie (21), and the blocking rod (52) is fixed on one side, close to the bogie (21), of the material frame (3) of the discharging part; The upper part of the middle part of the limiting rod (51) is hinged with the tail part of the limiting rod (51), the weight of the lower part of the limiting rod (51) is heavier than that of the upper part, and the limiting rod (51) is in a vertical state under the action of gravity under the normal state.
  5. 5. The feeding mechanism rotating by the dead weight of the material box according to claim 1, further comprising two limiting plates fixed on the bogie (2), wherein the two limiting plates are respectively arranged at the initial position and the end position of the rotating movement of the bogie (21).

Description

Feeding mechanism rotating by self weight of feed box Technical Field The utility model relates to the technical field of material conveying equipment of factory production lines, in particular to a feeding mechanism rotating by the dead weight of a feed box. Background In the production line operation of modern factories, an efficient material conveying system is one of key links for guaranteeing smooth production flow. However, many factories are faced with the problem of complex space layout in the field, and the operation place and the logistics feeding port are often not in the same line. Under conventional material handling, manually handling bins back and forth becomes a tedious and inefficient task. The workers need to frequently go to and from the feeding port and the operation place, so that not only is a great deal of physical effort and time spent, but also the working efficiency is further reduced easily due to fatigue, and the labor cost is high. On the other hand, although the common conveyor belt has certain advantages in the aspect of linear material conveying, most of the conveyor belts are linear conveying structures, and cannot flexibly adapt to complex space layout. When the material conveying direction needs to be changed, the common conveyor belt is often difficult to meet the requirement. Therefore, the development of a device capable of realizing efficient steering and conveying of a material box in a limited space is urgent, and the device has important practical significance for improving the production efficiency of a factory, reducing the cost and optimizing the production flow. Disclosure of utility model The utility model aims to provide a feeding mechanism which rotates by the dead weight of a feed box, so as to solve the problems of difficult material transportation and low efficiency caused by space limitation in a factory production line. Through this feeding mechanism, realize that the material case relies on the dead weight to turn to the transmission to save artifical transport intensity, improve the work efficiency that the material was carried on the production line by a wide margin. Thereby solving the technical problems in the background technology. In order to achieve the purpose, the utility model provides a feeding mechanism which rotates by the dead weight of a feed box, comprising a feeding part material rack, a steering material rack and a discharging part material rack which are arranged from high to low; The automatic feeding device comprises a feeding part material rack, a steering rack and a discharging part material rack, wherein the tops of the feeding part material rack, the steering rack and the discharging part material rack are respectively provided with a lean pipe flow strip for conveying a material box; the automatic feeding device is characterized by further comprising a resetting structure, wherein the resetting structure is connected with the bogie, and when the bogie transfers the material box to the material rack of the discharging part, the resetting structure drives the bogie to reset, so that the feeding end of the bogie is realigned with the material rack of the feeding part. Further, the steering material frame comprises a steering frame, a bearing, an inclined fixing frame and a rotating shaft; The inclined fixing frame is obliquely fixed on the upper part of the steering material frame and used as a fixing base of the bearing; the bearing is arranged on the inclined fixing frame and has the same inclined angle with the inclined fixing frame, the rotating shaft is arranged in the bearing in a penetrating mode, the upper portion of the rotating shaft is fixedly connected with the bottom of the bogie, and the rotating shaft and the bogie have a certain downward inclined angle. Further, the reset structure comprises a pulley, a counterweight bar and a stainless steel plastic-coated rope; The pulley is fixed on the side surface of the material frame of the feeding part, one end of the stainless steel plastic rope is connected with the bogie, and the other end of the stainless steel plastic rope bypasses the pulley and is connected with the counterweight bar; the stainless steel plastic rope is connected with the bogie after changing the direction through the pulleys and provides the pulling force for resetting the bogie. Further, the device also comprises a grid structure; the grid blocking structure comprises a limiting rod and a blocking rod, wherein the limiting rod is hinged at the tail end of the bogie; The upper part of the middle part of the limiting rod is hinged with the tail part of the limiting rod, the weight of the lower part of the limiting rod is heavier than that of the upper part of the limiting rod, and the limiting rod is in a vertical state under the action of gravity in a normal state. Further, the steering frame further comprises two limiting plates fixed on the steering frame, and the two limiting plates are respectiv