CN113261575A

CN113261575A - Noodle accompanying double-action finishing mechanism

Info

Publication number: CN113261575A
Application number: CN202110724017.1A
Authority: CN
Inventors: 许常君
Original assignee: Qingdao Zhengya Machinery Technology Co ltd
Current assignee: Qingdao Zhengya Machinery Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-08-17

Abstract

A double-acting arrangement mechanism for noodle accompanying belongs to the technical field of noodle machines. The utility model provides a design one kind can be to the noodless in the face box draw in equipment of arrangement in, after the noodless fall into the face box, follow the conveyer belt and move along, insert noodless through the shift fork of the first cylinder control liftable that moves ahead in step at this in-process, the shift fork rotates under the drive of main motor and drives the face strip and rotate, draw in the noodless that will fall into face box border and get into the face box, at the in-process that shift fork mechanism breaks away from the face box, it follows up with the face box is synchronous all the time to dial the combination, consider that the shift fork inserts in the face silk, can take the face silk occasionally in the promotion of first cylinder, so promote earlier the shift fork in advance and press a section of thick bamboo still to keep original descending position motionless, after the shift fork promotes, press a section of thick bamboo to promote under the effect of second cylinder. And when the dialing and pressing combination is completely separated from the face box to be in place, the servo follower will rotate reversely, and the dialing and pressing combination will return to the initial position again, so that a cycle is completed.

Description

Noodle accompanying double-action finishing mechanism

Technical Field

The invention relates to the technical field of noodle machines, in particular to a noodle following double-acting finishing mechanism.

Background

The existing noodle maker generally adopts a blowing mechanism to solve the problem of noodle overflow by a blowing method, only part of the noodle threads which run out of a noodle box can enter the noodle box again by the method, and in the actual production process, part of the noodle threads are still outside the noodle box, so that the phenomenon that the noodle threads run out of the noodle box cannot be completely solved. The piece will appear lacking the not good condition of weight and face piece face type like this, and the face piece is along with face box operation drying process, and the outer face silk of face box can drop to arouse the pollution in the equipment, and then influence the quality of product. When the flour block is removed from the box at the outlet of the dryer or the fryer, the flour block is difficult to remove from the box due to the fact that the flour block is adhered outside the box, the condition of returning the flour block is generated, and the bad sanitary condition of the equipment and the damage of the equipment can be further caused. The occurrence of the situation is not willing to be seen by food manufacturers, which brings adverse effect and profit loss to the products of the food manufacturers, increases difficulty to maintain the equipment, and certainly, the food manufacturers can transfer the responsibility to the equipment manufacturers, which also causes troubles to the equipment manufacturers, and the pain of the two parties is caused. The instability of the product produced by the food manufacturer causes poor consumption experience for consumers, thereby affecting the profit of the manufacturer.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides a double-acting noodle accompanying tidying mechanism.

The core technical idea of the invention is as follows: the utility model provides a design one kind can be to the noodless in the face box draw in equipment of arrangement in, after the noodless fall into the face box, follow the conveyer belt and move along, insert noodless through the shift fork of the first cylinder control liftable that moves ahead in step at this in-process, the shift fork rotates under the drive of main motor and drives the face strip and rotate, draw in the noodless that will fall into face box border and get into the face box, at the in-process that shift fork mechanism breaks away from the face box, it follows up with the face box is synchronous all the time to dial the combination, consider that the shift fork inserts in the face silk, can take the face silk occasionally in the promotion of first cylinder, so promote earlier the shift fork in advance and press a section of thick bamboo still to keep original descending position motionless, after the shift fork promotes, press a section of thick bamboo to promote under the effect of second cylinder. And when the dialing and pressing combination is completely separated from the face box to be in place, the servo follower will rotate reversely, and the dialing and pressing combination will return to the initial position again, so that a cycle is completed.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a noodle following double-acting arrangement mechanism comprises a first table top, a second table top and a third table top, wherein sliding blocks are arranged on two sides of the second table top and fixed on a first guide rail and a second guide rail, a third guide column and a fourth guide column are arranged between the first table top and the second table top, the third guide column and the fourth guide column are locked with the second table top through bolts, ball nuts on the guide columns are locked with the first table top, a fourth guide column and a fifth guide column are arranged between the second table top and the third table top, the fourth guide column and the fifth guide column are locked with the third table top, the ball nuts on the guide columns are locked with the second table top, the first table top, the second table top and the third table top are connected through the first guide column and the second guide column, a first air cylinder is arranged on the upper surface of the second table top, an output shaft of the first air cylinder is connected with the first table top, and a second air cylinder is arranged on the lower surface of the second table top, an output shaft of the second cylinder is connected with the third table top, a motor flange is arranged on the lower surface of the second table top, a main motor is arranged on the motor flange, and a screw nut is arranged on the lower surface of the second table top; the first guide rail and the second guide rail are arranged on the frame body.

The first table top is provided with a rotating shaft bearing seat, the rotating shaft bearing seat is provided with a bearing and a rotating shaft, the rotating shaft penetrates through the second table top and the third table top and then is connected with a shifting fork, the shifting fork is a double-ended fork, two ends of the fork penetrate through a guide hole of a pressing barrel, the pressing barrel is arranged in the pressing barrel bearing seat through a shifting fork rotating arm, and the pressing barrel bearing seat is provided with the bearing.

Two rows of rotating shafts are arranged on the second table board, a first disc wheel and a second disc wheel are arranged on the rotating shafts, the first disc wheel is coaxial with the first driven wheel, the second disc wheel is coaxial with the second driven wheel, the first driven wheel and the second driven wheel are meshed with the driving gear, and the driving gear is arranged on an output shaft of the main motor.

The bottom of support body installs the gyro wheel support, installs first gyro wheel on the gyro wheel support, coaxial arrangement sprocket on the first gyro wheel, and the sprocket on the support body passes through the chain linkage, has the second gyro wheel on the first gyro wheel, and the shaft of second gyro wheel is gone up and is installed face box bracket, installs the face box in the face box bracket.

The lead screw is installed in the lead screw nut, the lead screw is installed on the frame body through a lead screw bearing seat, one end of the lead screw is connected with the speed reducer, the speed reducer is installed on the sensor support, the synchronous motor is installed on the speed reducer, and the proximity switch is installed on the sensor support.

Compared with the prior art, the noodle accompanying double-acting finishing mechanism has the beneficial effects that:

(1) under the action of the following double-acting arrangement mechanism, the flour outside the flour box is rotated and enters the flour box, and then the flour is shaped and loosened in the flour box under the action of multiple actions of the mechanism, so that the appearance of the flour box is attractive. The invention is suitable for the production of various foods such as noodle foods, vermicelli foods, rice noodles and various shreds, provides good equipment use experience for food manufacturers, ensures the stability and food safety of products, and is simple and convenient in equipment maintenance.

(2) After the poking and pressing combination rotates for a certain time, the rotation of the dough piece is stopped, and the dough piece is rotated for a certain angle, so that the dough piece is tightly close to each other and cannot be too loose due to the fact that the dough piece rotates downwards in a certain rotating direction, the drying or frying time of the subsequent dough piece is prolonged, the raw dough is clamped in the dough piece, and the original tight dough piece is loosened again to be beneficial to the subsequent procedure.

Drawings

FIG. 1 is a front sectional view of the structure of the present invention;

FIG. 2 is a left side view of the structure of the present invention;

FIG. 3 is an enlarged view of a portion of the structure of the present invention;

FIG. 4 is a top cross-sectional view of a structure A-A of the present invention;

FIG. 5 is a top cross-sectional view of a structure B-B of the present invention;

in the figure, 1, a sensor bracket, 2, a first table, 3, a second table, 4, a third table, 501, a first guide post, 502, a second guide post, 601, a third guide post, 602, a fourth guide post, 7, a pressing cylinder, 701, a shifting fork rotating arm, 8, a shifting fork, 9, a main motor, 10, a driving gear, 111, a first driven wheel, 112, a second driven wheel, 121, a first disc wheel, 122, a second disc wheel, 13, a first cylinder, 14, a second cylinder, 151, a fourth guide post, 152, a fifth guide post, 16, a rotating shaft, 17, a screw nut, 18, a screw, 19, a synchronous motor, 20, a speed reducer, 21, a screw bearing seat, 22, a face box, 23, a frame body, 24, a roller bracket, 25, a face box bracket, 261, a first roller, 262, a second roller, 27, a sprocket, 28, a slider, 291, a first guide rail, 292, a second guide rail, 30. a rotating shaft bearing seat 31, a proximity switch 32, a motor flange 33 and a pressing cylinder bearing seat.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

A noodle following double-acting arrangement mechanism comprises a first table top 2, a second table top 3 and a third table top 4, slide blocks 28 are arranged on two sides of the second table top 3, the slide blocks 28 are fixed on a first guide rail 291 and a second guide rail 292, a third guide column 601 and a fourth guide column 602 are arranged between the first table top 2 and the second table top 3, the third guide column 601 and the fourth guide column 602 are locked with the second table top 3 through bolts, ball nuts on the guide columns are locked with the first table top 2, a fourth guide column 151 and a fifth guide column 152 are arranged between the second table top 3 and the third table top 4, the fourth guide column 151 and the fifth guide column 152 are locked with the third table top 4, the ball nuts on the guide columns are locked with the second table top 3, the first table top 2, the second table top 3 and the third table top 4 are connected through the first guide column 501 and the second guide column 502, a first air cylinder 13 is arranged on the upper surface of the second table top 3, an output shaft of the first air cylinder 13 is connected with the first table board 2, a second air cylinder 14 is arranged on the lower surface of the second table board 3, an output shaft of the second air cylinder 14 is connected with the third table board 4, a motor flange 32 is arranged on the lower surface of the second table board 3, a main motor 9 is arranged on the motor flange 32, and a screw nut 17 is arranged on the lower surface of the second table board 3; the first and second guide rails 291 and 292 are mounted on the frame body 23.

As a first embodiment of the present invention, a novel following double-acting collating mechanism mainly includes the following components: the device comprises a rack combination, a servo following combination, a pressing cylinder combination, a shifting fork combination, a detection system, a manual limiting combination and the like.

Wherein the frame comprises an integral frame, a shield, and various fasteners, etc.

Further, the servo follower assembly includes a servo reducer, a drive screw, a linear guide, and the like.

Further, the pressing cylinder assembly comprises a lifting cylinder assembly (which can be a mechanism for lifting), a pressing cylinder rotating assembly, a guiding assembly, a fixing frame and the like.

Furthermore, the shifting fork combination comprises a lifting cylinder combination (which can be a mechanism for various lifting), a shifting fork rotating component, a servo speed reducer, a guide combination, a fixed frame and the like.

Furthermore, the detection system comprises a cylinder inductive switch, two-side travel switches, a photoelectric detection switch and the like.

Furthermore, the manual limiting combination comprises a pressing cylinder combination manual limiting, a shifting fork combination manual limiting and the like.

As a first embodiment of the present invention, the detection system mainly functions as follows:

the cylinder inductive switches are arranged in the first cylinder 13 and the second cylinder 14 and used for detecting whether the cylinders are lifted in place or not, and when the cylinders are not lifted in place, the dial-press combination is easy to crash the noodle box when returning to the initial position;

the proximity switch 31 is mounted on the sensor bracket 1 and used for detecting whether the dialing combination returns to an initial position or not and whether the dialing combination reaches a terminal position or not;

a rotating shaft bearing seat 30 is arranged on the first table board 2, a bearing and a rotating shaft 16 are installed on the rotating shaft bearing seat 30, the rotating shaft 16 penetrates through the second table board 3 and the third table board 4 and then is connected with a shifting fork 8, the shifting fork 8 is a double-end fork, two ends of the fork penetrate through a guide hole of a pressing cylinder 7, the pressing cylinder 7 is installed in a pressing cylinder bearing seat 33 through a shifting fork rotating arm 7, and the bearing is installed on the pressing cylinder bearing seat 33.

Two rows of rotating shafts 16 are arranged on the second table top 3, a first disc wheel 121 and a second disc wheel 122 are arranged on the rotating shafts 16, the first disc wheel 121 is coaxial with a first driven wheel 111, the second disc wheel 122 is coaxial with a second driven wheel 112, the first driven wheel 111 and the second driven wheel 112 are meshed with a driving gear 10, and the driving gear 10 is arranged on an output shaft of a main motor 9.

As a first embodiment of the invention, before the mechanism runs, the mechanism is synchronized with a dryer or a fryer, a pressing cylinder combination and a shifting fork combination are in a lifting state, the two combinations are positioned right above a noodle box, when the noodle box runs, the two combinations can also follow the noodle box, namely the linear velocity of the two combinations is consistent with that of the noodle box when the noodle box is followed, and when the noodle box returns, the two combinations can quickly return to the initial position and then return to the position right above the next noodle box again until the synchronous debugging is finished.

As a first embodiment of the invention, after the noodle wires fall into the noodle box, the noodle box moves below the following double-acting arrangement mechanism, and at the moment, the pressing cylinder combination and the shifting fork combination are in a lifting state and are positioned at the initial position of the whole mechanism and are in a non-rotating state. When the noodle box moves to the position right below the noodle box, the shifting fork combination firstly descends into the noodle box under the action of the first air cylinder, then the pressing cylinder combination also descends into the noodle box under the action of the second air cylinder to press the noodle threads (the diameter of the pressing cylinder is smaller than that of the noodle box by a certain size so as to facilitate the realization of putting the subsequent noodle threads into the box), and the shifting fork combination and the pressing cylinder combination (the two combinations are generally called as shifting and pressing combination and are arranged coaxially) must follow the noodle box synchronously in the process of descending into the noodle box.

Furthermore, when the poking and pressing combination and the noodle box follow, the servo reducer of the shifting fork combination drives the shifting fork to rotate, the purpose of rotation is to rotate noodle threads running to the outside of the noodle box to the inside of the noodle box when the noodle falls, the pressing cylinder combination has no power capable of rotating the pressing cylinder combination, but the poking nails of the shifting fork extend into the noodle box through holes in the pressing cylinder. Therefore, the shifting fork is used as power at the servo speed reducer, the gear drives the plurality of shifting forks to rotate quickly as transmission, the shifting fork drives the pressing barrel to rotate when rotating, the shifting and pressing combination is in the rotating process, the whole combination runs at the same speed with the noodle box, and therefore the noodle silk running out of the noodle box enters the noodle box again, and meanwhile, under the action of the pressing barrel, the noodle silk in the noodle box can be kept unchanged in the original state.

As a first embodiment of the invention, after the dialing and pressing combination rotates for a certain time, the rotation of the dialing and pressing combination is stopped, and the dialing and pressing combination is reversely rotated for a certain angle, so that the noodle threads are closely close to each other and are not too loose in the previous rotation direction, the drying or frying time of the subsequent noodle blocks is increased, or raw noodles are clamped in the noodle blocks, and the reverse rotation aims to ensure that the original tight noodle threads become loose again to be beneficial to the subsequent procedures.

As a first embodiment of the present invention, in the process of separating the dial-press combination from the noodle box, the dial-press combination always follows up with the noodle box synchronously, and considering that the shift fork is inserted into the noodle thread, the noodle thread can be taken up when the cylinder is lifted, so the shift fork is firstly lifted while the pressing cylinder keeps the original descending position still, and after the shift fork is lifted, the pressing cylinder is lifted under the action of the cylinder. Until the dialing combination is completely separated from the face box to be in place, the servo follower combination is reversed, and the dialing combination is returned to the initial position (namely right above the face box) again, so that a cycle is completed. The cycle is repeated until the production is finished.

The bottom of the frame body 23 is provided with a roller bracket 24, the roller bracket 24 is provided with a first roller 261, the first roller 261 is provided with a chain wheel 27 coaxially, the chain wheel on the frame body 23 is linked through a chain, the first roller 261 is provided with a second roller 262, the wheel axle of the second roller 262 is provided with a dough box bracket 25, and the dough box 22 is arranged in the dough box bracket 25.

A lead screw 18 is installed in a lead screw nut 17, the lead screw 18 is installed on a frame body 23 through a lead screw bearing seat 21, one end of the lead screw 18 is connected with a speed reducer 20, the speed reducer 20 is installed on a sensor support 1, a synchronous motor 19 is installed on the speed reducer 20, and a proximity switch 31 is installed on the sensor support 1.

In summary, the present invention is not limited to the above-mentioned embodiments, and those skilled in the art can propose other embodiments within the teaching of the present invention, but these embodiments are included in the scope of the present invention.

Claims

1. The double-acting noodle accompanying arrangement mechanism is characterized by comprising a first table board (2), a second table board (3) and a third table board (4), sliding blocks (28) are installed on two sides of the second table board (3), the sliding blocks (28) are fixed on a first guide rail (291) and a second guide rail (292), a third guide column (601) and a fourth guide column (602) are installed between the first table board (2) and the second table board (3), the third guide column (601) and the fourth guide column (602) are locked with the second table board (3) through bolts, ball nuts on the guide columns are locked with the first table board (2), a fourth guide column (151) and a fifth guide column (152) are installed between the second table board (3) and the third table board (4), and the fourth guide column (151) and the fifth guide column (152) are locked with the third table board (4), the ball nut on the guide column is locked with the second table top (3), the first table top (2), the second table top (3) and the third table top (4) are connected with each other through the first guide column (501) and the second guide column (502) in a penetrating mode, the upper surface of the second table top (3) is provided with a first air cylinder (13), the output shaft of the first air cylinder (13) is connected with the first table top (2), the lower surface of the second table top (3) is provided with a second air cylinder (14), the output shaft of the second air cylinder (14) is connected with the third table top (4), the lower surface of the second table top (3) is provided with a motor flange (32), the motor flange (32) is provided with a main motor (9), and the lower surface of the second table top (3) is provided with a lead screw nut (17); the first guide rail (291) and the second guide rail (292) are mounted on the frame body (23).

2. The double-acting noodle follow finishing mechanism according to claim 1, characterized in that a rotating shaft bearing seat (30) is arranged on the first table board (2), the rotating shaft bearing seat (30) is provided with a bearing and a rotating shaft (16), the rotating shaft (16) passes through the second table board (3) and the third table board (4) and then is connected with a shifting fork (8), the shifting fork (8) is a double-ended fork, two ends of the fork pass through a guide hole of a pressing cylinder (7), the pressing cylinder (7) is arranged in a pressing cylinder bearing seat (33) through a shifting fork rotating arm (7), and the pressing cylinder bearing seat (33) is provided with a bearing.

3. A double-acting noodle following finishing mechanism according to claim 2, characterized in that two rows of the rotating shafts (16) are mounted on the second table top (3), a first table top wheel (121) and a second table top wheel (122) are mounted on the rotating shafts (16), the first table top wheel (121) is coaxial with a first driven wheel (111), the second table top wheel (122) is coaxial with a second driven wheel (112), the first driven wheel (111) and the second driven wheel (112) are meshed with a driving gear (10), and the driving gear (10) is mounted on an output shaft of the main motor (9).

4. A double-acting noodle-following finishing mechanism according to claim 1, characterized in that a roller bracket (24) is installed at the bottom of the frame body (23), a first roller (261) is installed on the roller bracket (24), a chain wheel (27) is coaxially installed on the first roller (261), the chain wheel on the frame body (23) is linked through a chain, a second roller (262) is installed on the first roller (261), a noodle box bracket (25) is installed on the axle of the second roller (262), and a noodle box (22) is installed in the noodle box bracket (25).

5. Double-acting noodle-following finishing mechanism according to claim 1, characterized in that a lead screw (18) is mounted in the lead screw nut (17), the lead screw (18) is mounted on the frame body (23) through a lead screw bearing block (21), one end of the lead screw (18) is connected with a speed reducer (20), the speed reducer (20) is mounted on the sensor bracket (1), a synchronous motor (19) is mounted on the speed reducer (20), and a proximity switch (31) is mounted on the sensor bracket (1).