CN-121974133-A - Automatic feeder of tough biscuit system

CN121974133ACN 121974133 ACN121974133 ACN 121974133ACN-121974133-A

Abstract

The invention relates to the technical field of tough biscuits and discloses an automatic feeder of a tough biscuit system, which comprises a workbench, a workbench and a transmission system arranged on the upper surface of the workbench, wherein two supporting legs are arranged on one side of the workbench and are symmetrical to each other, a rotating rod is arranged on one side wall opposite to the two supporting legs, and a plurality of turntables which are distributed at equal intervals are arranged on the rotating rod. The horizontal reset spring assists the blocking plate to automatically reset, and is matched with a rotating rod and a rotating disc driven by a servo motor, continuous circulation operation is realized, feeding efficiency is greatly improved, no manual contact is made in the whole process, and the horizontal reset spring meets the food sanitation requirements.

Inventors

Li Zhaolou
YE SHIZHONG
WEI XIAOYONG
YANG YIRUI

Assignees

内蒙古好德亨食品有限公司

Dates

Publication Date: 20260505
Application Date: 20260320

Claims (10)

1. The automatic feeding machine for the tough biscuit system comprises a workbench (1) and is characterized in that the workbench (1) and a transmission system (11) arranged on the upper surface of the workbench (1), two supporting legs (2) are arranged on one side of the workbench (1), the two supporting legs (2) are mutually symmetrical, a rotating rod (231) is arranged on one opposite side wall of the two supporting legs (2), a plurality of turntables (232) which are distributed and arranged at equal intervals are arranged on the rotating rod (231), a mounting rack (21) is further arranged on one opposite side wall of the two supporting legs (2), a special-shaped mounting plate (22) is further arranged on one opposite side wall of the mounting rack (21), the two special-shaped mounting plates (22) are mutually symmetrical, four bearing tables (24) are further arranged on the rotating rod (231), and cover plates (26) are arranged on the upper surface of the four bearing tables (24), and stacked biscuits (12) are placed on the transmission system (11).
2. The automatic feeder of the tough biscuit system according to claim 1, wherein a plurality of rectangular notches (111) are formed in the workbench (1) and the transmission system (11) in a linear distribution mode, and each rectangular notch (111) is respectively matched with the bearing table (24).
3. The automatic feeder of a tough biscuit system according to claim 1, characterized in that a servo motor (23) is arranged on the mounting frame (21), a rotating rod (231) is arranged at the output end of the servo motor (23), the rotating rod (231) movably penetrates through the mounting frame (21), a mounting bearing is arranged at one end, far away from the servo motor (23), of the rotating rod (231), and the mounting bearing is arranged on the mounting frame (21).
4. The automatic feeder of a tough biscuit system according to claim 1, wherein two sliding rails (241) are arranged above each carrying table (24), each sliding rail (241) is symmetrical to each other, sliding blocks (242) are arranged on each sliding rail (241) in a sliding manner, each sliding block (242) is symmetrical to each other, and a cover plate (26) is arranged above each sliding block (242).
5. The automatic feeder of a tough biscuit system according to claim 1, characterized in that the outer rings of the two special-shaped mounting plates (22) are composed of a semicircular arc surface (221) and a convex surface (222), special-shaped sliding rails (223) are arranged on the semicircular arc surface (221) and the convex surface (222), the two special-shaped sliding rails (223) are symmetrical to each other, sliding balls (224) are arranged on the two special-shaped sliding rails (223), connecting plates (25) are arranged on the two sliding balls (224), the two connecting plates (25) are symmetrical to each other, and a connecting rod (251) is arranged at one end of each connecting plate (25).
6. An automated tough biscuit system feeder according to claim 1, characterized in that each of the carriages (24) is provided with a connecting rod (252) between each two, and the opposite ends of the two distal carriages (24) are provided with connecting rods (251).
7. The automatic feeder of a tough biscuit system according to claim 1, wherein a plurality of fixed rods (51) are arranged on one side wall of the workbench (1) in an equidistant distribution manner, each fixed rod (51) is linearly distributed, a storage barrel (5) is arranged on one side wall, away from the workbench (1), of each fixed rod (51), each storage barrel (5) is linearly distributed, and a positioning rod (43) is arranged on one side wall, away from the workbench (1), of each storage barrel (5).
8. The automatic feeder of a tough biscuit system according to claim 1, wherein each positioning rod (43) is respectively far away from a side wall of the storage barrel (5) and is provided with a rectangular installation barrel (4), each rectangular installation barrel (4) is linearly distributed, each inner cavity of the rectangular installation barrel (4) is provided with a moving plate (411), each bottom of the moving plate (411) is provided with a vertical return spring (41), each vertical return spring (41) is arranged at the bottom of the inner cavity of the rectangular installation barrel (4), each upper end of each moving plate (411) is respectively provided with a moving rod (412), each moving rod (412) is respectively movably penetrated above the rectangular installation barrel (4), each moving rod (412) is provided with an L-shaped positioning plate (42), and the other end of each L-shaped positioning plate (42) is adaptive to the inclined surface (34).
9. An automatic feeder for a tough biscuit system according to claim 1, characterized in that, each loading table (24) is provided with a blocking plate (3) at one end far away from the rotating rod (231), each blocking plate (3) is linearly distributed, each blocking plate (3) is provided with a moving chute (31), each moving chute (31) inner cavity is slidably provided with a moving slide block (311), and each moving slide block (311) is respectively arranged on the loading table (24).
10. The automatic feeder of a tough biscuit system according to claim 1, characterized in that each bearing table (24) is provided with an L-shaped mounting plate (32), each L-shaped mounting plate (32) is linearly distributed, each L-shaped mounting plate (32) is provided with a horizontal return spring (321), the other end of each horizontal return spring (321) is provided with a fixing plate (312), each fixing plate (312) is arranged on a blocking plate (3), each blocking plate (3) is provided with an inclined surface (34) at the bottom, and each blocking plate (3) is provided with fixing blocks (33) at two ends, and the fixing blocks (33) are respectively matched with a moving rod (412).

Description

Automatic feeder of tough biscuit system Technical Field The invention belongs to the technical field of tough biscuits, and particularly relates to an automatic feeder of a tough biscuit system. Background With the improvement of the automation level of the food industry, the tough biscuits are used as special products with low oil content and sufficient gluten structure, and the production process of the tough biscuits has strict requirements on the integrity protection, steering precision and sanitary safety of conveying equipment. Although the tough biscuits have certain structural toughness, the finished products have lighter volume weight and large expansion rate, and the problems of breakage, falling and the like easily caused by equipment design defects in an automatic conveying link can be directly influenced, so that the qualification rate and the production efficiency of the products are directly influenced. The toughness biscuit needs to be changed into vertical distribution from horizontal conveying so as to meet storage requirements, but the existing steering mechanism is mainly in rigid transmission, and lacks accurate linkage design, so that the biscuit is easy to deviate and collide when in posture conversion, the breakage rate is higher, and the biscuit is difficult to accurately fall into specified storage parts, and the continuity of the subsequent packaging flow is affected. The present invention has been made in view of this. Disclosure of Invention In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: The utility model provides an automatic feeder of toughness biscuit system, includes the workstation, workstation and the transmission system of setting up its upper surface, workstation one side is provided with two supporting legs, two the supporting leg is symmetrical each other, two the relative lateral wall of supporting leg is provided with the dwang, be provided with the carousel that a plurality of equidistance distribute set up on the dwang, two the relative lateral wall of supporting leg still is provided with the mounting bracket, two the relative lateral wall of mounting bracket still is provided with the dysmorphism mounting panel, two the dysmorphism mounting panel is symmetrical each other, still be provided with four plummer on the dwang, four plummer upper surface all is provided with the apron, the toughness biscuit of stacking together has been placed on the transmission system. As a preferred embodiment of the invention, the workbench and the transmission system are provided with a plurality of rectangular notches which are arranged in a linear distribution manner, and each rectangular notch is respectively matched with the bearing platform. As a preferred implementation mode of the invention, the servo motor is arranged on the mounting frame, the output end of the servo motor is provided with the rotating rod, the rotating rod movably penetrates through the mounting frame, one end of the rotating rod, which is far away from the servo motor, is provided with the mounting bearing, and the mounting bearing is arranged on the mounting frame. As a preferred implementation mode of the invention, two sliding rails are arranged above each bearing table, every two sliding rails are symmetrical to each other, sliding blocks are arranged on each sliding rail in a sliding manner, every two sliding blocks are symmetrical to each other, and a cover plate is arranged above every two sliding blocks. As a preferred implementation mode of the invention, the outer rings of the two special-shaped mounting plates are composed of a semicircular cambered surface and a raised surface, special-shaped sliding rails are arranged on the semicircular cambered surface and the raised surface, the two special-shaped sliding rails are symmetrical with each other, sliding balls are arranged on the two special-shaped sliding rails, the two sliding balls are symmetrical with each other, connecting plates are arranged on the two sliding balls, the two connecting plates are symmetrical with each other, and connecting rods are arranged at opposite ends of the two connecting plates. As a preferred embodiment of the invention, connecting rods are arranged between every two bearing tables, and connecting rods are arranged at the opposite ends of the two distal bearing tables. As a preferred embodiment of the invention, a plurality of fixed rods which are distributed at equal intervals are arranged on one side wall of the workbench, each fixed rod is linearly distributed, a storage barrel is arranged on one side wall of each fixed rod, which is far away from the workbench, each storage barrel is linearly distributed, and a positioning rod is arranged on one side wall of each storage barrel, which is far away from the workbench. As a preferred implementation mode of the invention, a rectangular installation cylinder is arranged on one side wall of eac