CN113693095A

CN113693095A - Equipment for processing bread

Info

Publication number: CN113693095A
Application number: CN202111027539.2A
Authority: CN
Inventors: 陈随奈; 周保燕
Original assignee: Fuyang Jiajule Food Co ltd
Current assignee: Hebei Daoxiangcun Health Technology Co.,Ltd.
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2021-11-26
Anticipated expiration: 2041-09-02
Also published as: CN113693095B

Abstract

The present invention provides an apparatus for processing bread, comprising: a support mechanism comprising a support frame; the power mechanism is connected to one side of the supporting mechanism; the top of the trigger mechanism is provided with a power mechanism; the inner side of the reciprocating mechanism is provided with a trigger mechanism; through the surface of fixing the free pole of activity with the cover frame piece, when the free pole downstream of activity, make the wane swing, and then make the wane suppress the air supply unit, make the air supply unit warp and inflate to the storehouse inside of blowing, extruded gas is transmitted inside reciprocating mechanism by the trachea, and during the free pole upward movement of activity, the swing direction that the soft strip drove the wane is opposite when the free pole downstream of activity swings, make the storehouse of blowing bleed to reciprocating mechanism's inside through the trachea, and then the reciprocating mechanism of being convenient for can make the inside air of processing mechanism by the extraction, thereby reduce the dough when mediating, make the air wrapped up in the inside phenomenon of dough.

Description

Equipment for processing bread

Technical Field

The invention relates to the technical field of bread processing, in particular to equipment for processing bread.

Background

Bread is a food made by milling and heating five cereals, wherein wheat flour is used as a raw material, eggs, grease and nuts are used as auxiliary materials to prepare dough, and the steps of fermentation, forming, baking, cooling and the like are usually required in the bread making process, so that the requirement of people on diet is higher and higher, and the existing bread forming equipment is required to be improved to achieve better taste of the formed bread.

Chinese patent CN 109258728B discloses a forming die for bread processing, including mould main part, shaping chamber, division board, circular connecting piece and anticreep piece, the inside central point of mould main part puts the department and is fixed with the division board, all is equipped with equidistant fastener standing groove on the both sides wall of division board and mould main part, the inside of fastener standing groove all articulates there is the degree of depth fastener, the mould main part inside of division board both sides all is equipped with the shaping chamber, and the turning position department of shaping chamber bottom all is equipped with circular spread groove, the top of circular spread groove all is equipped with circular connecting piece, and the border position department of circular connecting piece bottom is equipped with arc card frame, and arc card frame and arc fastener mutually support, arc card frame is kept away from and is equipped with the anticreep groove on the outer wall of circular connecting piece one side. The invention not only improves the application range of the die, improves the stability of the die when in use, but also improves the convenience degree of the die when in cleaning.

However, in the process of pressing the dough into the mold, the dough cannot be uniformly distributed in the mold, so that the stuffing and the facing of the finished bread are not uniformly distributed, and the mouthfeel of the bread is affected.

Chinese patent CN 102177928B discloses a food stuffing wrapping device, including food stuffing wrapping device frame and food stuffing wrapping device notes filling subassembly, food stuffing pushes away filling and cuts skin device, send skin subassembly, food stuffing device outer skin forming device, food stuffing device conveying mechanism and food stuffing device actuating mechanism, food stuffing device notes filling subassembly is provided with a plurality of independent discharging channels, is provided with a plurality of food stuffing that accomplish at same station and push away filling and cut skin and push away filling with each discharging channel correspondence and cut skin device. The filling and skin-cutting device has the advantages that the filling and skin-cutting devices are arranged in a straight line, the filling and skin-cutting devices are not interfered with each other when working, even if one of the filling and skin-cutting devices breaks down, the normal operation of other filling and skin-cutting devices is not influenced, and due to the straight line structure, the number of the filling and skin-cutting devices can be increased and improved arbitrarily within the range which is met by the driving mechanism, the large-scale production is realized, and the working efficiency is improved;

however, in the invention, air is wrapped in the shell fabric pushing process, so that the air in the dough containing material is heated and expanded in the subsequent baking process, so that the expanded air is extruded to break the surface skin of the bread, and meanwhile, in the closing and folding process of the bread dough, a closed fold phenomenon exists, and if the closed fold is not smooth, the dough is also expanded and cracked in the baking process.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides equipment for processing bread, wherein a sleeve frame block is fixed on the surface of a movable hollow rod, when the movable hollow rod moves downwards, a soft strip is driven to move downwards, so that a wane swings, the wane presses an air source unit, the air source unit deforms and inflates the interior of a blowing bin, extruded air is transmitted into a reciprocating mechanism through an air pipe, when the movable hollow rod moves upwards, the swinging direction of the wane driven by the soft strip is opposite to that when the movable hollow rod moves downwards, so that the air source unit is lifted and pumped, the blowing bin pumps air into the reciprocating mechanism through the air pipe, the reciprocating mechanism can pump air in the processing mechanism conveniently, and the phenomenon that the air is wrapped in dough when the dough is kneaded is reduced.

In order to achieve the purpose, the invention provides the following technical scheme:

an apparatus for processing bread, comprising:

a support mechanism comprising a support frame;

the power mechanism is connected to one side of the supporting mechanism; and

the top of the trigger mechanism is provided with a power mechanism;

the inner side of the reciprocating mechanism is provided with a trigger mechanism;

the gas transmission mechanism is connected to the top of the trigger mechanism; and

the processing mechanism is connected to the bottom of the trigger mechanism;

the transmission mechanisms are distributed at the bottom end of the processing mechanism;

when the power mechanism moves downwards, the air transmission mechanism can move, so that the air transmission mechanism can exhaust air from the interior of the processing mechanism.

Preferably, the inner side of the supporting frame is uniformly distributed with mounting plates, and the bottom ends of the mounting plates are provided with supporting legs.

Preferably, the power mechanism includes: the power source is connected to the top surface of the mounting plate and is connected with the storage bin through the mounting plate; a push rod is arranged inside the storage bin, and a threaded sheet is arranged on the surface of the push rod;

the movable hollow rod is connected to the bottom end of the storage bin.

Preferably, the bottom of the movable hollow rod is connected with a digging head, the outer diameter of the digging head is the same as that of the movable hollow rod, the bottom of the digging head is movably connected with a semicircular head, and the semicircular head is movably connected with the storage bin through the digging head;

the pit digging head and the mounting plate are provided with limiting plates, elastic columns are uniformly distributed at the tops of the limiting plates, and the limiting plates are connected with the triggering mechanism through connecting thin columns.

Preferably, the trigger mechanism includes: the sleeve is arranged at the bottom end of the limiting plate and comprises an upper part and a lower part, and a hollow groove is formed in the middle of the sleeve; a feed inlet is formed in one side of the sleeve at the bottom, the inner diameter of the sleeve is matched with the outer diameter of the movable hollow rod, and a plurality of trigger bent rods are arranged at the upper part and the lower part of the outer side of the sleeve;

the transmission unit, transmission unit connect in the sheathed tube outside, from top to bottom the sleeve pipe is connected by transmission unit, transmission unit's bottom is connected with rotatory sleeve, one side of rotatory sleeve is connected with closed plectane, closed plectane is by inside and outside two parts joint.

Preferably, the bottom surface of the rotating sleeve is distributed with rotating rods along the height direction of the sleeve;

the outer side of the rotating rod is connected with a driven column through a linkage unit, the surface of the driven column is connected with a swing unit, one side of the driven column is provided with a displacement column, and the bottom of the displacement column is provided with a displacement groove.

Preferably, the reciprocating mechanism comprises an outer sleeve frame, one side of the outer sleeve frame is provided with a pneumatic frame, and the pneumatic frame is connected with the sleeve through a one-way pipe;

the pneumatic frame is characterized in that a pneumatic bin is arranged inside the pneumatic frame, a plurality of sealing plates are arranged on one side of the pneumatic bin, an elastic column is arranged between the sealing plates on the left side and the right side, the sealing plates on one side of the sleeve are different in length, and the sealing plates on one side of the sleeve are connected with a one-way pipe through a one-way controller.

Preferably, the gas transmission mechanism comprises a sleeve frame block, the sleeve frame block is connected with the movable hollow rod through a through hole formed in the middle of the sleeve frame block, a soft strip is arranged on the outer side of the sleeve frame block and connected with a gas source unit through a warping plate, and the gas source unit is connected with a gas pipe through a blowing bin.

Preferably, the processing agency includes a plurality of half mould, a plurality of half mould sets up in sheathed tube bottom, the outside of half mould is connected with the installation outrigger, the outside of installation outrigger is equipped with the dysmorphism pole, the shape of dysmorphism pole is "Z" shape, the outside of dysmorphism pole is equipped with restores the unit, inside the recess of overcoat frame is connected to one side of dysmorphism pole, the top of half mould is equipped with the kneading board, and the shape of half mould is identical with the shape of digging head.

Preferably, transmission device includes well pipe that falls, the inside of well pipe that falls is equipped with the cavity buckle, the bottom of cavity buckle one side is equipped with a plurality of rolling roller, the outside of cavity buckle is connected with the steady rest, the bottom of cavity buckle is equipped with the transmission unit.

The invention has the beneficial effects that:

(1) according to the invention, the sleeve frame block is fixed on the surface of the movable hollow rod, when the movable hollow rod moves downwards, the flexible strip is driven to move downwards, so that the wane swings, the wane is further enabled to press the air source unit, the air source unit is enabled to deform and pump air into the interior of the blowing bin, the extruded air is transmitted into the reciprocating mechanism through the air pipe, when the movable hollow rod moves upwards, the swinging direction of the wane driven by the flexible strip is opposite to that when the movable hollow rod moves downwards and swings, so that the air source unit is lifted and pumped, the blowing bin pumps air into the interior of the reciprocating mechanism through the air pipe, and the reciprocating mechanism can pump air in the processing mechanism conveniently, so that the interference of air is reduced when dough is kneaded.

(2) The invention pushes the sealing plate and the elastic column in the pneumatic bin to move towards the inner side by extruding air, and enables the elastic column to store energy, so that the one-way controller on the inner side limits the air to flow into the sleeve, and when the air pipe pumps air to the reciprocating mechanism, the elastic column can be restored, and further, the pneumatic bin can rapidly pump the air in the closed half mould through the one-way controller and the one-way pipe under the action of air pipe pumping and elastic column restoring deformation.

(3) According to the invention, the power source drives the push rod to rotate, so that fruit materials in the storage bin are pushed into the inner part of the digging head, and when the digging head moves downwards in the movable hollow rod to press dough in the closed half mould, the external program can control the semicircular head to extend out of the inner part of the storage bin, so that the digging head can press and dig the dough conveniently, and when the digging is finished, the semicircular head at the bottom of the movable hollow rod can be contracted into the storage bin, so that the digging head can be filled in time after the digging is finished.

(4) According to the invention, when the movable hollow rod moves downwards, the digging head can extrude the trigger curved rod in the sleeve, so that the upper trigger curved rod and the lower trigger curved rod drive the rotating sleeve to rotate, the rotating directions of the upper trigger curved rod and the lower trigger curved rod drive the rotating sleeve are opposite, the rotating sleeve can drive the closed circular plate to move outwards, and the digging head can penetrate through the sleeve, so that the sealing ring on the outer side of the movable hollow rod can seal the sleeve, and the entering of external air during air suction can be reduced conveniently.

(5) When the rotary sleeve drives the closing circular plate to move outwards, the linkage unit drives the driven column to do synchronous rotary motion, so that the driven column drives the swing unit to impact and push the displacement column to move in the displacement groove, and the displacement column drives the half mold at the bottom of the displacement column to close, so that the feed port can conveniently transmit dough to the closed mold.

(6) According to the invention, under the design that the distances between every place on the top surface of the half mould and every place on the bottom surface of the digging head are the same in the compaction process, the dough is more uniformly distributed in the closed half mould under the compaction of the digging head, and after the digging head is dug and filled with materials, the dough passes through the triggering mechanism to restore the triggering crank, so that the rotating sleeve and the rotating rod at the bottom of the triggering crank are driven to restore and rotate, the rotating rod drives the kneading plate to close inwards, and the kneading plate is driven to close the dough, so that the stuffing in the dough is wrapped in the dough under the air suction effect of the air transmission mechanism, and the air interference is reduced.

(7) The driven column drives the swing unit to recover, and the recovery deformation action of the recovery unit on the outer surface of the special-shaped rod is matched, so that the displacement column recovers from the inside of the displacement groove, the displacement column drives the half mould to recover and move outwards, the kneaded dough inside the closed half mould is relieved from limitation, and falls onto the surface of the conveying unit through the middle falling pipe, and the dough rolling roller on the top of the conveying unit rolls the kneaded dough when the conveying unit is transported, so that the kneading wrinkle phenomenon is reduced, and the baking quality of bread is improved.

In conclusion, the invention has the advantages of less gas in the dough, uniform wrapping of the dough stuffing and the like.

Drawings

FIG. 1 is a schematic axial view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention from a front perspective;

FIG. 3 is a schematic structural diagram of a gas transfer mechanism according to the present invention;

FIG. 4 is an enlarged schematic view of a portion C of FIG. 3;

FIG. 5 is a schematic view of the reciprocating structure of the present invention;

FIG. 6 is an enlarged view of the portion D in FIG. 5;

FIG. 7 is a schematic front view of the pneumatic frame of the present invention;

FIG. 8 is a sectional view taken along line E-E of FIG. 7;

FIG. 9 is a schematic side view of the pneumatic frame of the present invention;

FIG. 10 is a schematic view of the structure of the injecting mechanism of the present invention;

FIG. 11 is a schematic structural view of a trigger mechanism according to the present invention;

FIG. 12 is a schematic view of the feed inlet of the trigger mechanism of the present invention;

FIG. 13 is an enlarged view of portion B of FIG. 2;

FIG. 14 is an enlarged view of portion A of FIG. 1;

FIG. 15 is a schematic view of a pit digging structure according to the present invention;

FIG. 16 is a schematic view of a semi-circular head storage structure according to the present invention;

FIG. 17 is a schematic view of a kneading structure of the dough of the present invention;

figure 18 is a schematic view of the structure of a kneaded rolling surface of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example one

As shown in fig. 1 to 9, an apparatus for processing bread, comprising:

the supporting mechanism 1, the supporting mechanism 1 includes the supporting arm 101;

the power mechanism 2 is connected to one side of the support mechanism 1; and

the top of the trigger mechanism 3 is provided with a power mechanism 2;

the reciprocating mechanism 4, the inside of the reciprocating mechanism 4 is provided with a trigger mechanism 3;

the air transmission mechanism 5 is connected to the top of the trigger mechanism 3; and

the processing mechanism 6 is connected to the bottom of the trigger mechanism 3;

the conveying mechanisms 7 are distributed at the bottom end of the processing mechanism 6;

when the power mechanism 2 moves downwards, the air transmission mechanism 5 moves, so that the air transmission mechanism 5 performs air extraction on the interior of the processing mechanism 6.

Preferably, as shown in fig. 1-2, mounting plates 102 are uniformly distributed on the inner side of the support frame 101, and support legs 103 are arranged at the bottom ends of the mounting plates 102.

Preferably, as shown in fig. 3 to 6, the air transfer mechanism 5 includes a frame block 501, the frame block 501 is connected to the movable idle rod 203 through a through hole formed in the middle, a soft strip 502 is disposed on the outer side of the frame block 501, the soft strip 502 is connected to an air source unit 504 through a rocker 503, the air source unit 504 is connected to an air pipe 506 through a blowing bin 505, and the air source unit 504 is preferably made of rubber material.

Wherein, through the surface of fixing the free pole 203 of activity with set frame piece 501, when the free pole 203 of activity downstream, can drive soft strip 502 downstream, thereby make the wane 503 swing, and then make the wane 503 suppress air supply unit 504, make air supply unit 504 warp and inflate to the inside of drumming storehouse 505, extruded gas is transmitted inside reciprocating mechanism 4 by trachea 506, and when the free pole 203 of activity upstream, soft strip 502 drives the swing direction of wane 503 and the swing of the free pole 203 downstream is opposite, and then make air supply unit 504 promote to bleed, make drumming storehouse 505 bleed to the inside of reciprocating mechanism 4 through trachea 506, and then reciprocating mechanism 4 of being convenient for can make the inside air of processing agency 6 extracted, thereby make the dough when kneading, reduce the interference of air.

Preferably, as shown in fig. 7-9, the reciprocating mechanism 4 comprises an outer sleeve frame 401, a pneumatic frame 402 is arranged on one side of the outer sleeve frame 401, and the pneumatic frame 402 is connected with the sleeve 301 through a one-way pipe 403;

the pneumatic frame 402 is internally provided with a pneumatic bin 4021, one side of the pneumatic bin 4021 is provided with a plurality of sealing plates 4022, an elastic column 4023 is arranged between the left sealing plate 4022 and the right sealing plate 4022, the left sealing plate 4022 and the right sealing plate 4022 are different in length, and the sealing plates 4022 on one side of the sleeve 301 are connected with the one-way pipe 403 through a one-way controller 4024.

When the air pipe 506 inflates air to the reciprocating mechanism 4, the compressed air pushes the sealing plate 4022 and the elastic column 4023 in the pneumatic bin 4021 to move inwards, the elastic column 4023 is charged with energy, the inner one-way controller 4024 limits the air from flowing into the sleeve 301, when the air pipe 506 evacuates air to the reciprocating mechanism 4, the elastic column 4023 is restored, and the air in the closed half mold 601 is rapidly extracted from the pneumatic bin 4021 through the one-way controller 4024 and the one-way pipe 403 under the action of the extraction of the air pipe 506 and the recovery deformation of the elastic column 4023.

Example two

As shown in fig. 1-2 and fig. 10-14, where the same or corresponding components as in the first embodiment are designated by the same reference numerals as in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

preferably, as shown in fig. 1-2 and 10, the power mechanism 2 includes: the power source 201, the said power source 201 is connected to the top surface of the mounting plate 102, the said power source 201 is connected with storing the storehouse 202 through the mounting plate 102; a pushing rod 2021 is arranged inside the storage bin 202, a thread sheet is arranged on the surface of the pushing rod 2021, and the power source 201 is preferably driven by a motor;

a movable hollow rod 203, wherein the movable hollow rod 203 is connected to the bottom end of the storage bin 202.

Preferably, as shown in fig. 1-2 and 10, a bottom of the movable hollow rod 203 is connected with a digging head 2031, an outer diameter of the digging head 2031 is the same as an outer diameter of the movable hollow rod 203, a bottom of the digging head 2031 is movably connected with a semi-circular head 2032, and the semi-circular head 2032 is movably connected with the storage bin 2033 through the digging head 2031;

a limiting plate 204 is arranged between the digging head 2031 and the mounting plate 102, elastic columns 205 are uniformly distributed at the top of the limiting plate 204, and the limiting plate 204 is connected with the triggering mechanism 3 through a connecting thin column 206.

Wherein, it is rotatory through power supply 201 drive propelling movement pole 2021, and then make the inside fruit material of storage storehouse 202 pushed the inside of digging head 2031, and then when digging head 2031 and moving about empty pole 203 downstream in the activity to the inside dough of closed half mould 601 press real-timely, outside procedure can control the inside of semicircle head 2032 from collecting storage 2033 and stretch out, thereby be convenient for dig head 2031 and carry out the compaction to the dough and dig the hole, when digging the hole after, the semicircle head 2032 of activity empty pole 203 bottom can contract into collecting storage 2033's inside, thereby be convenient for dig head 2031 and can in time pack after digging the hole.

Preferably, as shown in fig. 11 to 14, the trigger mechanism 3 includes: the sleeve 301 is arranged at the bottom end of the limiting plate 204, the sleeve 301 comprises an upper part and a lower part, and a hollow groove 3011 is formed in the middle of the sleeve 301; a feed port 3012 is arranged at one side of the sleeve 301 at the bottom, the inner diameter of the sleeve 301 is matched with the outer diameter of the movable hollow rod 203, and a plurality of trigger curved rods 302 are arranged at the upper part and the lower part of the outer side of the sleeve 301;

the transmission unit 303 is connected to the outer side of the sleeve 301, the upper sleeve 301 and the lower sleeve 301 are connected by the transmission unit 303, the bottom of the transmission unit 303 is connected with a rotating sleeve 3031, one side of the rotating sleeve 3031 is connected with a closed circular plate 30311, and the closed circular plate 30311 is clamped by an inner part and an outer part.

Preferably, as shown in fig. 11 to 14, the rotating rods 3032 are distributed on the bottom surface of the rotating sleeve 3031 along the height direction of the sleeve 301;

the outer side of the rotating rod 3032 is connected with a driven column 3034 through a linkage unit 3033, a swinging unit 3035 is connected to the surface of the driven column 3034, a displacement column 3036 is arranged on one side of the driven column 3034, a displacement groove 3037 is arranged at the bottom of the displacement column 3036, the linkage unit 3033 is preferably belt transmission, and the swinging unit 3035 is preferably cam swinging.

When the movable hollow rod 203 moves downwards, the pitting head 2031 extrudes the trigger crank 302 in the casing 301, so that the upper and lower trigger crank 302 drives the rotating sleeve 3031 to rotate, and the rotation direction of the upper and lower trigger crank 302 driving the rotating sleeve 3031 is opposite, so that the rotating sleeve 3031 drives the closed circular plate 30311 to move outwards, and the pitting head 2031 can penetrate through the casing 301, so that the sealing ring outside the movable hollow rod 203 seals the casing 301, thereby reducing the entry of outside air during air suction; when the rotating sleeve 3031 drives the closing circular plate 30311 to move outwards, the linkage unit 3033 drives the driven column 3034 to perform synchronous rotating motion, so that the driven column 3034 drives the swinging unit 3035 to impact and push the displacement column 3036 to move inside the displacement groove 3037, and the displacement column 3036 drives the half mold 601 at the bottom of the displacement column 3036 to close, thereby facilitating the feed port 3012 to transmit dough to the closed mold.

EXAMPLE III

As shown in fig. 1-2 and fig. 15-18, wherein the same or corresponding components as in the first and second embodiments are designated by the same reference numerals as in the first and second embodiments, only the differences from the first and second embodiments will be described below for the sake of convenience. The third embodiment is different from the first and second embodiments in that:

preferably, as shown in fig. 15 to 16, the processing mechanism 6 includes a plurality of half molds 601, the plurality of half molds 601 are disposed at the bottom end of the casing 301, an outer mounting frame 602 is connected to the outer side of the half molds 601, a profile rod 603 is disposed on the outer side of the outer mounting frame 602, the profile rod 603 is in a "Z" shape, a restoring unit 6031 is disposed on the outer side of the profile rod 603, one side of the profile rod 603 is connected to the inside of the groove of the outer casing frame 401, a kneading plate 604 is disposed on the top of the half mold 601, the shape of the half mold 601 is matched with the shape of the digging head 2031, distances between the top surface of the half mold 601 and the bottom surface of the digging head 2031 during the compacting process are the same, the kneading plates 604 are distributed in an up-down staggered manner, and the restoring unit 6031 is preferably a spring.

When the digging head 2031 moves into the closed half mold 601, the distances between the top of the half mold 601 and the bottom of the digging head 2031 are designed to be the same during the compaction process, so that the dough is compacted by the digging head 2031 and distributed more uniformly in the closed half mold 601, and after the digging head 2031 is used for digging and filling, the dough passes through the trigger mechanism 3 to recover the trigger crank 302, so that when the trigger crank 302 recovers, the rotary sleeve 3031 and the rotary rod 3032 at the bottom of the trigger crank 302 are driven to recover and rotate, the rotary rod 3032 drives the kneading plate 604 to close towards the inner side, so that the kneading plate 604 drives the dough to close, and the filling inside the dough is packaged into the dough under the air suction action of the air transmission mechanism 5, thereby reducing the air interference.

Preferably, as shown in fig. 1-2 and fig. 17-18, the conveying mechanism 7 includes a middle drop tube 701, a hollow buckle plate 702 is disposed inside the middle drop tube 701, a plurality of rolling rolls 703 are disposed at the bottom of one side of the hollow buckle plate 702, a stabilizing frame 704 is connected to the outside of the hollow buckle plate 702, a conveying unit 705 is disposed at the bottom of the hollow buckle plate 702, and the conveying unit 705 is preferably a conveyor belt for conveying.

When the trigger curved bar 302 is restored, the driven column 3034 can drive the swing unit 3035 to restore, and the restoring deformation action of the restoring unit 6031 on the outer surface of the special-shaped bar 603 is matched, so that the displacement column 3036 is restored from the inside of the displacement groove 3037, the displacement column 3036 drives the half mould 601 to restore and move outwards, the kneaded dough in the closed half mould 601 is released from limitation, and falls onto the surface of the conveying unit 705 through the middle falling pipe 701, and the dough roller 703 on the top of the conveying unit 705 is used for rolling and flattening the kneaded dough during the transportation of the conveying unit 705, so that the kneading wrinkle phenomenon is reduced, and the baking quality of the bread is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An apparatus for processing bread, comprising:

a support mechanism (1), the support mechanism (1) comprising a support frame (101);

the power mechanism (2), the power mechanism (2) is connected to one side of the supporting mechanism (1); and

the top of the trigger mechanism (3) is provided with a power mechanism (2);

the inner side of the reciprocating mechanism (4) is provided with a trigger mechanism (3);

the air transmission mechanism (5), the air transmission mechanism (5) is connected to the top of the trigger mechanism (3); and

the machining mechanism (6), the machining mechanism (6) is connected to the bottom of the trigger mechanism (3);

the conveying mechanisms (7), the conveying mechanisms (7) are distributed at the bottom end of the processing mechanism (6);

when the power mechanism (2) moves downwards, the air transmission mechanism (5) can move, so that the air transmission mechanism (5) can exhaust air in the processing mechanism (6).

2. An apparatus for processing bread as claimed in claim 1, characterized in that the mounting plate (102) is uniformly distributed on the inner side of the supporting frame (101), and the bottom end of the mounting plate (102) is provided with a supporting leg (103).

3. An apparatus for processing bread as claimed in claim 1, characterized in that said power mechanism (2) comprises:

the power source (201), the power source (201) is connected to the top surface of the mounting plate (102), and the power source (201) is connected with the storage bin (202) through the mounting plate (102); a pushing rod (2021) is arranged inside the storage bin (202), and a thread piece is arranged on the surface of the pushing rod (2021);

the movable hollow rod (203), the movable hollow rod (203) is connected to the bottom end of the storage bin (202).

4. The apparatus for processing bread as claimed in claim 3, wherein the bottom of said movable hollow rod (203) is connected with a digging head (2031), the outer diameter of said digging head (2031) is the same as the outer diameter of said movable hollow rod (203), the bottom of said digging head (2031) is movably connected with a semi-circular head (2032), said semi-circular head (2032) is movably connected with a receiving bin (2033) through said digging head (2031);

limiting plates (204) are arranged between the digging head (2031) and the mounting plate (102), elastic columns (205) are uniformly distributed at the tops of the limiting plates (204), and the limiting plates (204) are connected with the triggering mechanism (3) through connecting thin columns (206).

5. An apparatus for processing bread as claimed in claim 1, characterized in that said triggering mechanism (3) comprises: the sleeve (301) is arranged at the bottom end of the limiting plate (204), the sleeve (301) comprises an upper part and a lower part, and a hollow groove (3011) is formed in the middle of the sleeve (301); a feed inlet (3012) is arranged at one side of the sleeve (301) at the bottom, the inner diameter of the sleeve (301) is matched with the outer diameter of the movable hollow rod (203), and a plurality of trigger curved rods (302) are arranged at the upper part and the lower part of the outer side of the sleeve (301);

the transmission unit (303), the transmission unit (303) is connected in the outside of sleeve pipe (301), the upper and lower sleeve pipe (301) is connected by transmission unit (303), the bottom of transmission unit (303) is connected with rotatory sleeve (3031), one side of rotatory sleeve (3031) is connected with closed circular plate (30311), closed circular plate (30311) is by inside and outside two parts joint.

6. An apparatus for processing bread as claimed in claim 5, characterized in that the bottom surface of said rotary sleeve (3031) is distributed with rotary rods (3032) along the height direction of the sleeve (301);

the outer side of the rotating rod (3032) is connected with a driven column (3034) through a linkage unit (3033), the surface of the driven column (3034) is connected with a swinging unit (3035), one side of the driven column (3034) is provided with a displacement column (3036), and the bottom of the displacement column (3036) is provided with a displacement groove (3037).

7. An apparatus for processing bread as claimed in claim 1, characterized in that said reciprocating means (4) comprises an outer casing frame (401), a pneumatic frame (402) is provided on one side of said outer casing frame (401), said pneumatic frame (402) is connected to said casing (301) by a one-way pipe (403);

the pneumatic frame (402) is internally provided with a pneumatic bin (4021), one side of the pneumatic bin (4021) is provided with a plurality of sealing plates (4022), an elastic column (4023) is arranged between the left sealing plate and the right sealing plate (4022), the left sealing plate and the right sealing plate (4022) are different in length, and the sealing plates (4022) on one side of the sleeve (301) are connected with the one-way pipe (403) through a one-way controller (4024).

8. The equipment for processing the bread as claimed in claim 1, wherein said air transfer mechanism (5) comprises a frame block (501), said frame block (501) is connected with a movable hollow rod (203) through a through hole opened in the middle, a soft strip (502) is arranged on the outer side of said frame block (501), said soft strip (502) is connected with an air source unit (504) through a warping plate (503), and said air source unit (504) is connected with an air pipe (506) through a blast bin (505).

9. An apparatus for processing bread as claimed in claim 1, characterized in that said processing mechanism (6) comprises several half molds (601), several of said half molds (601) are disposed at the bottom end of said casing (301), said half molds (601) are connected with an outer mounting frame (602) at the outer side, said outer mounting frame (602) is provided with a shaped bar (603) at the outer side, said shaped bar (603) is "Z" -shaped, said shaped bar (603) is provided with a restoring unit (6031) at the outer side, said shaped bar (603) is connected with one side inside the groove of said outer casing frame (401), said half molds (601) are provided with a kneading plate (604) at the top.

10. The equipment for processing the bread as claimed in claim 1, wherein said conveying mechanism (7) comprises a middle drop tube (701), a hollow buckle plate (702) is arranged inside said middle drop tube (701), a plurality of rolling rollers (703) are arranged at the bottom of one side of said hollow buckle plate (702), a stabilizing frame (704) is connected to the outer side of said hollow buckle plate (702), and a conveying unit (705) is arranged at the bottom of said hollow buckle plate (702).