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CN-121990340-A - Flour bag stacking device for flour production

CN121990340ACN 121990340 ACN121990340 ACN 121990340ACN-121990340-A

Abstract

The invention relates to the technical field of agricultural product stacking, in particular to a flour bag stacking device for flour production, which comprises two symmetrically placed conveying modules, wherein each conveying module comprises a main frame, a plurality of rotating plates are arranged on the upper surface of the main frame at equal intervals, a plurality of upper guide wheel sets are also arranged on the upper surface of the main frame at equal intervals, each upper guide wheel set is adjacent to one rotating plate, a plurality of lower guide wheel sets corresponding to the positions of the upper guide wheel sets are arranged on the lower side of the main frame.

Inventors

  • YU QIANG
  • Jiang Qingke
  • SONG FURONG
  • JIANG HUI
  • YU JUNQIANG
  • FENG KEXIAN
  • LIU MENGKAI
  • LIU RUYI
  • SHENG ZHONGHUA
  • YANG ZENGSHOU

Assignees

  • 青岛天祥食品集团金喜燕制粉有限公司
  • 青岛天祥食品集团有限公司

Dates

Publication Date
20260508
Application Date
20260324

Claims (8)

  1. 1. The flour bag stacking device for flour production comprises two symmetrically placed conveying modules (1), and is characterized in that each conveying module (1) comprises a main frame (4), a plurality of rotating plates (5) are arranged on the upper surface of each main frame (4) at equal intervals, a plurality of upper guide wheel sets (2) are also arranged on the upper surface of each main frame (4) at equal intervals, each upper guide wheel set (2) is adjacent to one rotating plate (5), a plurality of lower guide wheel sets (3) corresponding to the positions of the corresponding upper guide wheel sets (2) are arranged on the lower side of each main frame (4), a conveyor belt (8) is sleeved between each upper guide wheel set (2) and each lower guide wheel set (3), and the conveyor belt (8) is attached to the upper surface of each rotating plate (5); One end of each rotating plate (5) far away from the corresponding upper guide wheel group (2) is rotatably connected with a shaft plate (6), the lower end of each shaft plate (6) is fixedly connected with a cooperating frame (7), and the cooperating frames (7) can move up and down; One side of the upper surface of main frame (4) near every revolving plate (5) all sliding connection has a slip longeron (9), every be provided with between slip longeron (9) and the revolving plate (5) that corresponds and push away the structure to one side, can promote revolving plate (5) to be vertical state with main frame (4), every the both ends of slip longeron (9) all have a initiative pole (15) together rigid coupling, rigid coupling has a plurality of connecting seat (16) on the lateral wall of initiative pole (15), every jointly rotate between the lower extreme of connecting seat (16) and the lower guide pulley group (3) of corresponding position and be connected with elastic telescopic link (17) of slope.
  2. 2. The device of claim 1, wherein the upper guide wheel set (2) comprises two guide wheel two (20), a guide wheel three (21) is further arranged between the two guide wheel two (20), and two dislocation structures are arranged at two ends of the guide wheel two (20) and can drive the two guide wheel two (20) to move vertically in dislocation; The lower end of each conveying module (1) is provided with a lifting structure, and the conveying modules (1) can be horizontally placed into vertically placed.
  3. 3. The device of claim 1, wherein the lower guide wheel set (3) comprises two guide wheels I (19), the outer side walls of the two guide wheels I (19) are respectively abutted against the conveyor belt (8), two guide wheel positioning seats (18) are respectively and jointly connected with two ends of the two guide wheels I (19) in a rotating mode, the upper surfaces of the guide wheel positioning seats (18) are rotatably connected with the lower ends of the elastic telescopic rods (17), two symmetrical positioning columns (26) are fixedly connected to the upper surfaces of the guide wheel positioning seats (18), and the outer side walls of the positioning columns (26) are connected with the main frame (4) in an up-down sliding mode.
  4. 4. The inclined pushing structure is characterized by comprising two liquid rods (10), wherein the two liquid rods (10) are symmetrically and rotatably connected to the upper surface of the sliding long plate (9), one end, far away from the sliding long plate (9), of each liquid rod (10) is slidably connected with a sliding rod (11), two sliding grooves (14) opposite to the sliding rods (11) in position are formed in the lower surface of each rotating plate (5), one end, far away from the liquid rods (10), of each sliding rod (11) is fixedly connected with a transverse sliding cylinder (12), two limiting rods (13) are slidably connected to two sides of each transverse sliding cylinder (12), and the limiting rods (13) are slidably inserted into cavities on two sides of the sliding grooves (14).
  5. 5. The dislocation structure according to claim 2, wherein the dislocation structure comprises a longitudinal sliding block (22), the longitudinal sliding block (22) is rotatably connected to two ends of each guide wheel two (20), a longitudinal sliding frame (27) is arranged on one side, close to the longitudinal sliding block (22), of the outer side wall of the main frame (4), the cavity of the longitudinal sliding frame (27) is connected with the longitudinal sliding block (22) in an up-down sliding mode, one toothed bar (23) is fixedly connected to one side, close to each other, of the two longitudinal sliding blocks (22), a main gear (24) is meshed between the two toothed bars (23), a torsion spring shaft (39) is fixedly connected between the main gear (24) and the main frame (4), a subsidiary gear (25) is fixedly connected to one side, far away from the main frame (4), of each subsidiary gear (24) is provided with a driving toothed plate (40) fixedly connected with the driving rod (15), and the driving toothed plate (40) can be meshed with the subsidiary gear (25) when moving to a position far away from the shaft plate (6).
  6. 6. The device is characterized in that the outer side wall of the main frame (4) is in threaded connection with two symmetrical device shells (28), the lower ends of the two device shells (28) are fixedly connected with a bottom plate (34) together, two outer guide wheels (191) are rotatably connected between the two device shells (28), the outer side walls of the two outer guide wheels (191) are in interference with the conveyor belt (8), a driving motor (29) is fixedly connected to the outer side walls of the device shells (28), the output end of the driving motor (29) is fixedly connected with the outer guide wheels (191), two symmetrical side guide wheels (38) are rotatably connected to the two ends of the main frame (4), and the side guide wheels (38) are in interference with the outer side walls of the conveyor belt (8).
  7. 7. The apparatus of claim 6, wherein an electric push rod I (30) is fixedly connected to the outer side wall of the apparatus housing (28), a connector I (31) is fixedly connected between the output end of the electric push rod I (30) and the corresponding position of the cooperating frame (7), an electric push rod II (32) is fixedly connected to the outer side wall of the apparatus housing (28), and a connector II (33) is fixedly connected between the output end of the electric push rod II (32) and the driving rod (15).
  8. 8. The lifting structure according to claim 2, wherein the lifting structure comprises an equipment support frame (35), the equipment support frame (35) is arranged on the lower side of the conveying module (1), the cavity of the equipment support frame (35) is not contacted with the bottom plate (34), a hydraulic cylinder (36) is rotationally connected between the equipment support frame (35) and the bottom plate (34), two rotating shafts (37) with symmetrical positions are fixedly connected to the inner wall of the upper end of the equipment support frame (35), and one end of each rotating shaft (37) far away from the inner wall of the equipment support frame (35) is fixedly connected with the equipment shell (28).

Description

Flour bag stacking device for flour production Technical Field The invention relates to the technical field of agricultural product stacking, in particular to a flour bag stacking device for flour production. Background In the flour production and processing field, the stacking operation of finished flour bags is finished by adopting manual stacking or traditional mechanical stacking equipment, wherein the manual stacking relies on operators to carry flour bags at the tail end of a conveying line to a tray one by one, stacking is finished layer by layer according to preset arrangement, the traditional mechanical stacking equipment is matched with a lifting tray through a grabbing manipulator, a transferring conveying belt, and flour bags are stacked layer by layer on the tray through positioning, grabbing, transferring and stacking procedures, so that batch stacking operation of the flour bags is finished. However, the manual stacking in the prior art has the defects of high labor intensity, low operation efficiency and poor stacking consistency, the traditional mechanical stacking equipment has the problems of complex structure, large occupied area and high purchase and maintenance cost, meanwhile, the attitude correction and accurate positioning of flour bags cannot be completed in the conveying process, the flour bags are easy to slip and deviate during stacking, the synchronous stacking of multiple bags is difficult to realize, the stacking structure after stacking is poor in stability and easy to collapse, the integrated operation of conveying, correcting and stacking cannot be realized, and the continuous and efficient operation requirements of flour production are difficult to adapt. Disclosure of Invention The invention aims to provide a flour bag stacking device for flour production, which aims to solve the problems in the background technology. The flour bag stacking device for flour production comprises two symmetrically placed conveying modules, wherein the conveying modules comprise a main frame, a plurality of rotating plates are arranged on the upper surface of the main frame at equal intervals, a plurality of upper guide wheel sets are also arranged on the upper surface of the main frame at equal intervals, each upper guide wheel set is adjacent to one rotating plate, a plurality of lower guide wheel sets corresponding to the upper guide wheel sets in position are arranged on the lower side of the main frame, a conveyor belt is sleeved between the upper guide wheel sets and the lower guide wheel sets, and the conveyor belt is attached to the upper surface of the rotating plates; One end of each rotating plate, which is far away from the corresponding upper guide wheel group, is rotationally connected with a shaft plate, the lower end of the shaft plate is fixedly connected with a cooperating frame, and the cooperating frame can move up and down; The upper surface of main frame is close to the equal sliding connection of one side of every revolving plate has a slip longeron, every be provided with the inclined pushing structure between slip longeron and the corresponding revolving plate, can promote the revolving plate to be the vertical state with the main frame, every the both ends of slip longeron all have a initiative pole fixedly connected jointly, the rigid coupling has a plurality of connecting seat on the lateral wall of initiative pole, every rotate jointly between the lower extreme of connecting seat and the lower guide pulley group of corresponding position and be connected with the elastic expansion link of slope. Preferably, the upper guide wheel group comprises two guide wheels II, a guide wheel III is further arranged between the two guide wheels II, and two ends of the guide wheels II are respectively provided with a dislocation structure, so that the two guide wheels II can be driven to move in an up-and-down dislocation manner; The lower extreme of every transport module all is provided with a lifting structure, can change transport module from horizontal to vertical. Preferably, the lower guide wheel group comprises two guide wheels I, the outer side walls of the guide wheels I are in contact with the conveyor belt, two guide wheel positioning seats are connected at the two ends of the guide wheels I in a rotating mode, the upper surfaces of the guide wheel positioning seats are connected with the lower ends of the elastic telescopic rods in a rotating mode, the upper surfaces of the guide wheel positioning seats are fixedly connected with positioning columns with two symmetrical positions, and the outer side walls of the positioning columns are connected with the main frame in a sliding mode up and down. Preferably, the oblique pushing structure comprises two liquid rods, the two liquid rods are symmetrically and rotatably connected to the upper surface of the sliding long plate, one end of each liquid rod, which is far away from the sliding long plate, is slidably connect