CN-122004505-A - Extrusion shaping mechanism for rotary ejection type food processing

Abstract

The invention discloses an extrusion shaping mechanism for rotary ejection type food processing, which comprises a shaping plate body, a driving box body, a rotary ejection assembly and a driving frame, wherein after baking of raw materials is completed, the driving frame is pulled outwards, the driving plate drives a plurality of rotating wheels to rotate, the rotating wheels drive a rotating cylinder, a lifting guide rod and a closed rotating plate to synchronously rotate, so that the raw materials are separated from the lifting guide rod and the closed rotating plate, when the lifting guide rod rotates, the rotating column is driven to rotate, the rotating column rotates in a positioning cylinder and performs ascending motion, the lifting guide rod is synchronously driven to move upwards by the rotating column, the raw materials are separated from the peripheral inner walls of an extrusion shaping groove by the upward ejection of the lifting guide rod, the full separation of the raw materials from the peripheral inner walls of the lifting guide rod, the closed rotating plate and the extrusion shaping groove is realized, the convenience and the flexibility of the subsequent overturning and pouring of the raw materials are greatly improved.

Inventors

• CHEN JUN

Assignees

• 东台市汉源食品机械制造有限公司

Dates

Publication Date

20260512

Application Date

20260323

Claims (8)

1. 1. The extrusion shaping mechanism for the rotary ejection type food processing is characterized by comprising a shaping plate body, a driving box body, a rotary ejection assembly and a driving frame, wherein a plurality of extrusion shaping grooves are uniformly formed in the upper end of the shaping plate body, the driving box body is arranged on the lower side of the positioning plate body, the rotary ejection assembly is arranged on the shaping plate body and the driving box body, the rotary ejection assembly comprises a rotary cylinder, a lifting guide rod and a closed rotary plate, the closed rotary plate is respectively arranged below the inner part of the extrusion shaping groove, the upper side of the driving box body is rotationally connected with the plurality of rotary cylinders in a penetrating manner, the upper end of the rotary cylinder is connected with the lower side of the closed rotary plate, the lower end of the rotary cylinder extends into the driving box body, the lifting guide rod is connected in the rotary cylinder in a penetrating manner, the upper end of the lifting guide rod extends to the central upper end face of the closed rotary plate, the driving frame is arranged outside one side of the driving box body, the driving frame drives the plurality of rotary cylinders, the lifting guide rod and the closed rotary plate to synchronously rotate, and meanwhile the lifting guide rod is enabled to eject the closed rotary plate upwards to eject materials.
2. 2. The extrusion shaping mechanism for rotary ejection type food processing according to claim 1, wherein the rotary ejection assembly further comprises a rotary wheel, a driving plate, a rotary column and a positioning cylinder, the lower end of the rotary cylinder extends into the driving box body, the lower ends of the rotary cylinder are respectively provided with one rotary wheel, the rotary cylinder and the rotary wheel are provided with penetrating channels penetrating up and down, the lower ends of the lifting guide rods penetrate through the penetrating channels and extend to the lower part of the rotary wheel, a plurality of positioning cylinders are uniformly arranged below the inner part of the driving box body, the lower ends of the lifting guide rods are respectively connected with one rotary column, the rotary column is in threaded connection with the positioning cylinder, a plurality of driving plates are uniformly arranged inside the driving box body from front to back, the side parts of the driving plates are in butt joint with the driving wheels, the outer ends of the driving plates penetrate through the driving box body and are jointly connected to the inner side of the driving frame, the driving frame pulls outwards and drives the driving plates to horizontally move, the driving wheels rotate, the rotary wheels drive the rotary cylinder, the guide rods and the lifting guide rods to synchronously rotate, the lifting guide rods and the rotary rods rotate in the closed rotating direction, the lifting guide rods rotate, and drive the rotary columns to move in the lifting guide rods to move in the process of the lifting guide rods.
3. 3. The rotary ejection type food processing squeeze setting mechanism as claimed in claim 2, wherein the side portion of the driving plate is engaged with a plurality of rotary wheel gears.
4. 4. The extrusion shaping mechanism for rotary ejection type food processing according to claim 2, wherein a plurality of clamping hanging rods are respectively arranged above two sides of the driving box body from front to back, sliding grooves are respectively formed in the upper sides of two ends of the driving plate, and the driving plate is in sliding clamping connection with the clamping hanging rods through the sliding grooves.
5. 5. The extrusion shaping mechanism for rotary ejection type food processing according to claim 2, wherein a plurality of positioning brackets are uniformly arranged on one side of the interior of the driving box body from front to back, each positioning bracket is sleeved with a pressing spring, the end part of the driving plate is provided with a pressing baffle, and the outer end of each pressing spring is elastically pressed against the pressing baffle.
6. 6. The rotary ejection type food processing extrusion molding mechanism as claimed in claim 1, wherein the periphery of the rotary cylinder is rotatably clamped on the upper side of the driving box body through a rotary ring.
7. 7. The extrusion molding mechanism for rotary ejection type food processing according to claim 1, wherein the inner side of the periphery of the rotary cylinder is abutted against the outer side of the periphery of the lifting guide rod, and the cross sections of the inner cavities of the through-connection channels of the rotary cylinder and the rotary wheel and the cross sections of the lifting guide rod are rectangular.
8. 8. The rotary ejection type extrusion molding mechanism for food processing as claimed in claim 1, wherein the inner wall of the extrusion molding groove is coated with a wear-resistant coating.

Description

Extrusion shaping mechanism for rotary ejection type food processing Technical Field The invention belongs to the technical field of extrusion shaping for food processing, and particularly relates to an extrusion shaping mechanism for rotary ejection type food processing. Background Food processing refers to cereal grinding, feed processing, vegetable oil and sugar processing, slaughtering and meat processing, aquatic product processing and processing activities of foods such as vegetables, fruits and nuts which are directly processed by using agricultural, forestry, pasturing and fishery products as raw materials, wherein the foods processed by cereal grinding are often mixed and stirred through various cereal raw materials to prepare mixed slurry, then the slurry is injected into a shaping groove of an extrusion shaping mechanism, compacted and shaped and then sent into a baking machine to be baked, and after the foods are baked, the foods are taken out and discharged, but the foods are often adhered in the shaping groove after being baked, so that the foods cannot be discharged conveniently, the existing structure is required to be upgraded and reformed, and the convenience and the flexibility of separation of the foods and the shaping groove are improved. Disclosure of Invention Aiming at the defects of the prior art, the invention solves the problem of providing the extrusion shaping mechanism for processing the rotary ejection type food, which is convenient and flexible to separate the food from the shaping groove. In order to solve the problems, the invention adopts the following technical scheme: the extrusion shaping mechanism for the rotary ejection type food processing comprises a shaping plate body, a driving box body, a rotary ejection assembly and a driving frame, wherein a plurality of extrusion shaping grooves are uniformly formed in the upper end of the shaping plate body, the driving box body is arranged on the lower side of the positioning plate body, the rotary ejection assembly is arranged on the shaping plate body and the driving box body, the rotary ejection assembly comprises a rotary cylinder, a lifting guide rod and a closed rotary plate, the closed rotary plate is respectively arranged below the inner part of the extrusion shaping groove, the upper side of the driving box body is rotationally connected with the plurality of rotary cylinders in a penetrating manner, the upper end of the rotary cylinder is connected with the lower side of the closed rotary plate, the lower end of the rotary cylinder extends into the driving box body, the lifting guide rod is connected in the rotary cylinder in a penetrating manner, the upper end of the lifting guide rod extends to the central upper end face of the closed rotary plate, the driving frame is arranged outside one side of the driving box body, and the driving frame drives the rotary cylinders, the lifting guide rod and the closed rotary plate to synchronously rotate, and meanwhile the lifting guide rod is enabled to eject the closed rotary plate upwards. The rotary ejection assembly further comprises a rotary wheel, a driving plate, a rotary column and a positioning cylinder, wherein the lower end of the rotary cylinder extends into the driving box body, the lower end of the rotary cylinder is respectively provided with one rotary wheel, the rotary cylinder and the rotary wheel are provided with through passages which penetrate up and down, the lower end of the lifting guide rod penetrates through the through passages and extends to the lower side of the rotary wheel, a plurality of positioning cylinders are uniformly arranged below the inner part of the driving box body, the lower end of the lifting guide rod is respectively connected with the rotary column, the rotary column is in threaded connection with the positioning cylinder, a plurality of driving plates are uniformly arranged inside the driving box body from front to back, the side parts of the driving plates are in butt joint with and drive the plurality of rotary wheels, the outer ends of the driving plates penetrate through the driving box body and are jointly connected to the inner side of the driving frame, the driving frame pulls outwards and drives the plurality of driving plates to horizontally move, the driving plates drive the plurality of rotary wheels to rotate, the rotary cylinder, the lifting guide rod and the sealing rotary plate synchronously rotate, the lifting guide rod drives the rotary column to rotate when the lifting guide rod rotates, the lifting column to lift and move, and the lifting guide rod moves when the lifting column rotates in the positioning cylinder. Further, the side portion of the driving plate is in meshed connection with a plurality of rotating wheel gears. Furthermore, a plurality of clamping hanging rods are respectively arranged above two sides of the driving box body from front to back, sliding grooves are respectively formed in the upp