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CN-116746594-B - Flour blanking structure for noodle machine

CN116746594BCN 116746594 BCN116746594 BCN 116746594BCN-116746594-B

Abstract

The invention discloses a flour blanking structure for a noodle machine, which comprises an extrusion pipeline, a screw rod rotatably arranged in the extrusion pipeline, a rotating sleeve and a rotating sleeve, wherein the first opening is arranged on the extrusion pipeline, the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, the rotating sleeve is provided with a second opening, the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening, the rotating sleeve can rotate along with the screw rod until the first opening and the second opening are partially overlapped or completely overlapped, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating is stopped at a preset angle. According to the invention, only one driving source is needed to drive the screw to rotate, so that the cost and occupied space of the driving source of the rotating sleeve are saved, and the whole blanking structure is more compact.

Inventors

  • CHEN HONGFANG

Assignees

  • 宁波万盛实业有限公司

Dates

Publication Date
20260505
Application Date
20230705

Claims (6)

  1. 1. Flour unloading structure for noodle, including extruding the pipeline to and rotatable setting is in extrude the screw rod in the pipeline, be equipped with first opening on the pipeline of extruding, its characterized in that still includes: the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, a second opening is formed in the rotating sleeve, and the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening; the rotating sleeve can rotate along with the screw rod until the first opening is partially overlapped with or completely overlapped with the second opening, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating sleeve is stopped at a preset angle; The rotating sleeve is also provided with a limiting protrusion, the extruding pipeline is provided with a limiting strip, when the rotating sleeve rotates to the point that the limiting protrusion is abutted against the limiting strip, the rotating sleeve is locked to rotate clockwise or anticlockwise, and when the limiting protrusion is abutted against one end of the limiting strip, the first opening is overlapped with the second opening; The rotating sleeve is provided with a first permanent magnet, the screw is provided with a second permanent magnet, and the magnetic pole of the first permanent magnet facing one end of the second permanent magnet is opposite to the magnetic pole of the second permanent magnet, which is close to one end of the first permanent magnet.
  2. 2. Flour unloading structure for noodle, including extruding the pipeline to and rotatable setting is in extrude the screw rod in the pipeline, be equipped with first opening on the pipeline of extruding, its characterized in that still includes: the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, a second opening is formed in the rotating sleeve, and the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening; the rotating sleeve can rotate along with the screw rod until the first opening is partially overlapped with or completely overlapped with the second opening, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating sleeve is stopped at a preset angle; The rotating sleeve is also provided with a limiting protrusion, the extruding pipeline is provided with a limiting strip, when the rotating sleeve rotates to the point that the limiting protrusion is abutted against the limiting strip, the rotating sleeve is locked to rotate clockwise or anticlockwise, and when the limiting protrusion is abutted against one end of the limiting strip, the first opening is overlapped with the second opening; One of the rotating sleeve and the screw is provided with a permanent magnet, and the other is provided with a metal block which can be magnetically attracted.
  3. 3. Flour unloading structure for noodle, including extruding the pipeline to and rotatable setting is in extrude the screw rod in the pipeline, be equipped with first opening on the pipeline of extruding, its characterized in that still includes: the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, a second opening is formed in the rotating sleeve, and the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening; the rotating sleeve can rotate along with the screw rod until the first opening is partially overlapped with or completely overlapped with the second opening, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating sleeve is stopped at a preset angle; The rotating sleeve is also provided with a limiting protrusion, the extruding pipeline is provided with a limiting strip, when the rotating sleeve rotates to the point that the limiting protrusion is abutted against the limiting strip, the rotating sleeve is locked to rotate clockwise or anticlockwise, and when the limiting protrusion is abutted against one end of the limiting strip, the first opening is overlapped with the second opening; the rotating sleeve is provided with a first elastic piece, the screw is provided with a second elastic piece, when the limiting protrusion is not propped against the limiting strip, the second elastic piece is propped against the first elastic piece to move so that the rotating sleeve can rotate along with the screw, when the limiting protrusion is propped against the limiting strip, the first elastic piece and the second elastic piece are mutually extruded, and the second elastic piece moves relative to the first elastic piece so that the screw can continue to rotate.
  4. 4. Flour unloading structure for noodle, including extruding the pipeline to and rotatable setting is in extrude the screw rod in the pipeline, be equipped with first opening on the pipeline of extruding, its characterized in that still includes: the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, a second opening is formed in the rotating sleeve, and the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening; the rotating sleeve can rotate along with the screw rod until the first opening is partially overlapped with or completely overlapped with the second opening, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating sleeve is stopped at a preset angle; The rotating sleeve is also provided with a limiting protrusion, the extruding pipeline is provided with a limiting strip, when the rotating sleeve rotates to the point that the limiting protrusion is abutted against the limiting strip, the rotating sleeve is locked to rotate clockwise or anticlockwise, and when the limiting protrusion is abutted against one end of the limiting strip, the first opening is overlapped with the second opening; One of the rotating sleeve and the screw is provided with an elastic piece, the other is provided with a stop block, the stop block props against the elastic piece to move or the elastic piece props against the stop block to move in the process that the rotating sleeve follows the screw to rotate, and when the rotating sleeve rotates until the limit bulge props against the limit strip, the stop block extrudes the elastic piece, and the two parts move relatively to ensure that the screw can continue to rotate but the rotating sleeve stays at the position.
  5. 5. A flour discharging structure for noodle machine according to claim 1 or 2 or 3 or 4, wherein said first opening is opened on the peripheral wall of said extrusion pipe, and said first opening is directed directly below; the second opening is formed in the peripheral wall of the rotating sleeve and is overlapped or misplaced with the first opening.
  6. 6. A flour discharging structure for noodle machine according to claim 1 or 2 or 3 or 4, wherein said first opening is opened at the end of said extrusion pipe; the second opening is arranged at the end part of the rotating sleeve and is overlapped or misplaced with the first opening.

Description

Flour blanking structure for noodle machine Technical Field The invention relates to the technical field of kitchen ware, in particular to a flour blanking structure for a noodle machine. Background The noodle machine is a device capable of automatically kneading and shaping noodles. The flour is stored and stirred in a flour bin above the flour mixer, a certain amount of flour needs to be taken out before dough mixing, the flour is placed in a flour mixing bin below the flour mixer, a proper amount of water is added for stirring, and the flour is extruded and molded after dough mixing is finished. The noodle making machine comprises a shell, a noodle mixing assembly and a blanking assembly, wherein a liquid bin, a powder bin and a noodle mixing bin are arranged in the shell, the liquid bin and the powder bin are communicated with the noodle mixing bin, the noodle mixing assembly is arranged in the noodle mixing bin and can be used for carrying out noodle mixing treatment on materials in the noodle mixing bin, the blanking assembly is arranged in the shell, the liquid bin, the powder bin and the noodle mixing bin are connected with the blanking assembly, and the blanking assembly can be used for controlling quantitative entry of the materials in the liquid bin and the powder bin into the noodle mixing bin. As described in the above patent document, the quantitative flour discharging unit has a discharge port and a pushing screw, and the forward and reverse rotation of the pushing screw and the opening and closing of the discharge port are all synchronous actions, but are limited by factors of a transmission structure, and there is no direct connection between the two, so that driving forces need to be set for driving respectively. Based on the structure, the blanking structure of the noodle machine needs to be provided with two motors at least, and the two motors are respectively driven to drive the pushing screw rod and the discharging hole, so that the structure is bulky, the production cost is high, and the synchronous action of the two motors is controlled through the chip, so that the cost is further increased. Disclosure of Invention The invention aims to solve the technical problems that in the prior art, a flour blanking structure for a noodle machine is provided, and the problems that in the blanking structure of the noodle machine in the prior art, a discharging hole and a pushing screw are required to be respectively provided with motor driving, so that the structure is bulky, the cost is high and the like are solved. The technical scheme adopted by the invention for solving the technical problems is that the flour blanking structure for the noodle machine comprises an extrusion pipeline, a screw rod rotatably arranged in the extrusion pipeline, a first opening is arranged on the extrusion pipeline, and the flour blanking structure further comprises: the rotating sleeve is sleeved on the extrusion pipeline to close the first opening, a second opening is formed in the rotating sleeve, and the rotating sleeve can rotate relative to the extrusion pipeline to enable the second opening to be partially overlapped or completely overlapped with the first opening; the rotating sleeve can rotate along with the screw rod until the first opening is partially overlapped with or completely overlapped with the second opening, and when the screw rod reversely rotates, the rotating sleeve reversely rotates along with the screw rod until the rotating sleeve is stopped at a preset angle. Further, a first permanent magnet is arranged on the rotating sleeve, a second permanent magnet is arranged on the screw rod, and the magnetic pole of the first permanent magnet facing one end of the second permanent magnet is opposite to the magnetic pole of the second permanent magnet, which is close to one end of the first permanent magnet. Further, one of the rotating sleeve and the screw is provided with a permanent magnet, and the other is provided with a metal block which can be magnetically attracted. Further, a first electromagnet is arranged on the rotating sleeve, a second electromagnet is arranged on the screw, the first electromagnet and the second electromagnet are electrified to enable the rotating sleeve to rotate along with the screw, and the first electromagnet and the second electromagnet are powered off to enable the rotating sleeve to be static relative to the extrusion pipeline. Further, one of the rotating sleeve and the screw is provided with an electromagnet, and the other is provided with a metal block. Further, a first elastic piece is arranged on the rotating sleeve, a second elastic piece is arranged on the screw rod, the second elastic piece can prop against the first elastic piece and drive the rotating sleeve to rotate, and the second elastic piece and the first elastic piece can mutually extrude and move relatively. Further, one of the rotating sleeve and the screw is provided with an elastic piece,