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CN-224219306-U - Layered pressing device for waffles

CN224219306UCN 224219306 UCN224219306 UCN 224219306UCN-224219306-U

Abstract

The utility model discloses a layered pressing device for waffles, which comprises a transmission table, a base, a conveying mechanism, a pneumatic material fixing mechanism and a pneumatic feeding mechanism, wherein the base is uniformly arranged at the bottom of the transmission table, the conveying mechanism is arranged on the transmission table, the pneumatic material fixing mechanism is arranged in the middle of the transmission table, the pneumatic feeding mechanism is arranged at the top of the transmission table, and the conveying mechanism comprises a motor I, a driving roller I, a driven roller I, a synchronous belt I, a driven roller II, a driven roller III, a synchronous belt II, a conveying roller I, a conveying roller II, a conveying roller III, a conveying belt I, a motor II, a driving roller II, a driven roller IV and a synchronous belt III, a conveying roller IV, a conveying belt II, a PLC (programmable logic controller) and a pressing roller box. According to the scheme, the stacking efficiency of the cake blanks is greatly improved, unqualified products caused by errors are avoided, and the pressing integrity is improved.

Inventors

  • YIN LAN

Assignees

  • 上海隽聿食品机械有限公司

Dates

Publication Date
20260512
Application Date
20250603

Claims (5)

  1. 1. The waffle layering pressing device is characterized by comprising a transmission table (1), a base (2), a conveying mechanism (3), a pneumatic fixed material mechanism (4) and a pneumatic feeding mechanism (5), wherein the base (2) is uniformly arranged at the bottom of the transmission table (1), the conveying mechanism (3) is arranged on the transmission table (1), the pneumatic fixed material mechanism (4) is arranged in the middle of the transmission table (1), and the pneumatic feeding mechanism (5) is arranged at the top of the transmission table (1); The conveying mechanism (3) comprises a first motor (31), a first driving roller (32), a first driven roller (33), a synchronous belt (34), a second driven roller (35), a third driven roller (36), a second synchronous belt (37), a first conveying roller (38), a second conveying roller (39), a third conveying roller (310), a first conveying belt (311), a second motor (312), a second driving roller (313), a fourth driven roller (314), a third synchronous belt (315), a fourth conveying roller (316), a fifth conveying roller (317), a second conveying belt (318), a PLC (programmable logic controller) (319) and a pressing roller box (320), wherein the first motor (31) is arranged at the bottom of the conveying table (1), the first driving roller (32) is arranged at the front end of the first motor (31), the first driven roller (33) is arranged at the upper left of the first driving roller (32) and is positioned in front of the conveying table (1), the first synchronous belt (34) is arranged on the first driving roller (32) and the first driven roller (33), the second driven roller (35) is arranged at the rear end of the first driven roller (33) and is positioned at the front of the third driven roller (35), the synchronous belt II (37) is arranged on the driven roller II (35) and the driven roller III (36), the first transmission roller (38), the second transmission roller (39) and the third transmission roller (310) are respectively arranged in the transmission table (1) in a left-middle-right structure, the first transmission belt (311) is arranged on the first transmission roller (38), the second transmission roller (39) and the third transmission roller (310), the second motor (312) is arranged at the bottom of the transmission table (1) and is positioned at the right of the pneumatic material fixing mechanism (4), the second transmission roller (313) is arranged at the front end of the second motor (312), the fourth transmission roller (314) is arranged at the right upper part of the second transmission roller (313) and is positioned at the front end of the transmission table (1), the third transmission belt (315) is arranged on the second transmission roller (313) and the fourth transmission roller (314), the fourth transmission roller (316) and the fifth transmission roller (317) are respectively arranged in a right-left structure and are arranged in the transmission table (1) and is arranged at the top of the fourth transmission roller (316) and the fifth transmission roller (317), and the top of the second transmission roller (320) is arranged at the top of the transmission table (1.
  2. 2. The wafer layering press according to claim 1, wherein the first driven roller (33) and the second driven roller (35) are integrally formed, the second driven roller (35) is connected with the first conveying roller (38), the third driven roller (36) is connected with the second conveying roller (39), the circumferences of the first conveying roller (38) and the second conveying roller (39) are equal and are larger than the circumference of the third conveying roller (310), and the fourth driven roller (314) is connected with the fourth conveying roller (316).
  3. 3. The waffle layering press of claim 1, wherein said pneumatic sizing mechanism (4) comprises a first cylinder (41), a motor box (42), a sizing box (43), a sizing groove (44), a lifting bin (45), a buffer bar (46), a material bearing table (47), a slag storage groove (48), a drawer (49), a pull groove (410) and a plurality of rolling rollers (411), said first cylinder (41) is arranged at the bottom of said transmission table (1) and extends upwards through the bottom of said transmission table (1), said motor box (42) is fixed at the output end of said first cylinder (41), the top of said motor box (42) is provided with a telescopic rod (421), said sizing box (43) is arranged on said telescopic rod (421), said sizing groove (44) and lifting bin (45) are respectively arranged in an up-down structure inside said sizing box (43), said buffer bar (46) is arranged at the bottom of the left end of said sizing groove (44), said material bearing table (47) is arranged at the output end of said drawer (47) and in said telescopic rod (48) is arranged inside said telescopic rod (48), the pull groove (410) is arranged at the left end of the drawer (49), and the rolling rollers (411) are uniformly arranged at the top of the Chu Zhacao (48).
  4. 4. A layered press device for waffles, according to claim 3, characterized in that the openings of said fixed material groove (44) are upward and leftward, the opening of said lifting bin (45) is upward, said buffer bar (46) is arc-shaped, said material-bearing table (47) is round-angle cuboid structure, the opening of said slag storage groove (48) is upward, and said pull groove (410) is concave upward to the right.
  5. 5. The waffle layering pressing device of claim 1, wherein the pneumatic feeding mechanism (5) comprises a second cylinder (51), a limiting table (52), an extending plate (53) and a pushing plate (54), the second cylinder (51) is transversely arranged at the rear end of the top of the transmission table (1) and the output end of the second cylinder (51) faces to the right, the limiting table (52) is fixed at the output end of the second cylinder (51) and the bottom of the limiting table (52) is in contact with the top of the transmission table (1), the limiting table (52) is in a triangular structure, the extending plate (53) is arranged at the right end of the limiting table (52) in a cuboid structure, the pushing plate (54) is vertically arranged at the right end of the extending plate (53) at the front end of the cuboid structure, and the height of the pushing plate (54) is higher than that of the extending plate (53), and the limiting table (52), the extending plate (53) and the pushing plate (54) are integrally formed.

Description

Layered pressing device for waffles Technical Field The utility model relates to the technical field of biscuit production, in particular to a layered pressing device for waffles. Background The layered pressing device for waffles is an automatic food processing device and has the main functions of precisely stacking waffle blanks coated with sandwich sauce into a multi-layer structure (such as 3 layers or 5 layers), uniformly pressing the waffles through a roller to enable the waffles to be flat and unbroken, simultaneously rapidly shaping the waffles by cold air, and finally outputting the orderly multi-layer waffles. The existing waffle layering pressing device is low in speed and general in efficiency when stacking the waffles, and errors in certain precision exist when the mechanical arm is used for a long time, so that stacking is not tidy, and production efficiency is affected. For this purpose, a solution needs to be given. Disclosure of utility model (One) solving the technical problems Aiming at the defects of the prior art, the utility model provides a layered pressing device for waffles, which aims to solve the problems in the prior art. (II) technical scheme In order to achieve the above purpose, the utility model is realized by the following technical scheme: The layered pressing device for the waffles is characterized by comprising a transmission table, a base, a conveying mechanism, a pneumatic material fixing mechanism and a pneumatic feeding mechanism, wherein the base is uniformly arranged at the bottom of the transmission table; The conveying mechanism comprises a motor I, a driving roller I, a driven roller I, a synchronous belt I, a driven roller II, a driven roller III, a synchronous belt II, a conveying roller I, a conveying roller II, a conveying roller III, a conveying belt I, a motor II, a driving roller II, a driven roller IV and a synchronous belt III; the first motor is arranged at the bottom of the transmission platform, the first driving roller is arranged at the front end of the first motor, the first driven roller is arranged at the left upper part of the first driving roller and is positioned in front of the transmission platform, the first synchronous belt is arranged on the first driving roller and the first driven roller, the second driven roller is arranged at the rear end of the first driven roller and is positioned at the front end of the transmission platform, the third driven roller is arranged at the right of the second driven roller, the second synchronous belt is arranged on the second driven roller and the third driven roller, the first driving roller, the second driving roller and the third driving roller are respectively arranged in the transmission platform in a left-middle-right structure, the first driving belt is arranged at the bottom of the transmission platform and is positioned at the right of the pneumatic sizing mechanism, the second driving roller is arranged at the front end of the second motor, the fourth driven roller is arranged at the rear end of the first driving roller and is arranged at the front end of the transmission platform, the fourth driven roller is arranged at the front end of the transmission platform and the fourth driving roller is arranged at the front end of the transmission platform and the fourth driving roller is arranged at the transmission platform and the front end of the transmission platform is respectively, the pressing rod box is arranged at the right end of the top of the transmission table. Preferably, the first driven roller and the second driven roller are integrally formed, the second driven roller is connected with the first conveying roller, the third driven roller is connected with the second conveying roller, the circumferences of the first conveying roller and the second conveying roller are equal and are larger than those of the third conveying roller, and the fourth driven roller is connected with the fourth conveying roller. Preferably, the pneumatic material fixing mechanism comprises a first cylinder, a motor box, a material fixing groove, a lifting bin, a buffer bar, a material bearing table, a slag storage groove, a drawer, a pull groove and a plurality of rolling rollers, wherein the first cylinder is arranged at the bottom of the transmission table and extends upwards through the bottom of the transmission table, the motor box is fixed at the output end of the first cylinder, the telescopic rod is arranged at the top of the motor box, the material fixing box is arranged on the telescopic rod in a cuboid mechanism, the material fixing groove and the lifting bin are respectively arranged in the material fixing box in an up-down structure, the buffer bar is arranged at the bottom of the left end of the material fixing groove, the material bearing table is arranged at the output end of the telescopic rod and is positioned in the lifting bin, the slag storage groove is arranged at the inside of the mate