CN113440023A - Old bread processing is with full-automatic high intelligent bread machine - Google Patents

Abstract

The invention relates to a full-automatic high-intelligence bread machine for processing old bread, which comprises a baking main body machine; the baking main body machine is provided with a feeding part and a discharging part along the length direction, an arc-shaped groove is formed in the side wall of the baking main body machine, the feeding part and the discharging part drive a switch through electric signals, and a brush made of soft materials is arranged on the arc-shaped groove; an automatic guide mechanism; the automatic guiding and conveying mechanism comprises a truss, a reciprocating assembly, a first driving assembly and an object placing assembly; a turning mechanism; the overturning mechanism comprises a supporting shaft, a material poking assembly and a second driving assembly; the two groups of support shafts are arranged and are positioned at the head end and the tail end of the baking main body machine; a processing mechanism; the processing mechanism comprises a cutting assembly and a nut adding assembly; a packaging mechanism; the packaging mechanism comprises a conveying assembly, a plastic package assembly and a collecting box; the invention solves the technical problems that the bread can not be automatically packed after being baked, the working efficiency is low and the product output is low.

Description

Old bread processing is with full-automatic high intelligent bread machine

Technical Field

The invention relates to the technical field of old bread, in particular to a full-automatic high-intelligence bread machine for processing the old bread.

Background

Bread is a food made from wheat flour by heating, and is a baked food made from wheat flour as main raw material and yeast, egg, oil and fat, sugar and salt as auxiliary materials by cutting, shaping, fermenting, baking, cooling, etc.

Patent document No. cn201620928711.x discloses a bread oven, including having the box of placing the cavity, the box includes bottom plate and curb plate, the bottom plate is equipped with the lifter plate that is used for pushing out bread, curb plate or bottom plate are equipped with and are used for pushing out the boosting piece of lifter plate, bottom plate or curb plate are equipped with the fretwork position, the boosting piece passes through the fretwork position with the lifter plate is connected. The utility model aims at providing a bread oven, its advantage lies in that the bread toasts the convenience of taking after accomplishing.

However, in the actual use process, the inventor finds that the bread can not be automatically packed after being baked, the working efficiency is low and the product output is low.

Disclosure of Invention

Aiming at the defects of the prior art, the automatic guiding and conveying mechanism is matched with the processing mechanism to sequentially complete the incision processing work before baking the bread, the nut particle scattering processing work after baking and the packing output processing work, and the work of the whole production line is closely combined and mutually promoted, so that the technical problems that the automatic packing work cannot be realized after baking the bread, the working efficiency is low and the product output is low are solved.

Aiming at the technical problems, the technical scheme is as follows: the utility model provides a bread machine of full-automatic high intelligence is used in processing of old bread, includes:

a main baking machine;

the baking main body machine is provided with a feeding part and a discharging part along the length direction, an arc-shaped groove is formed in the side wall of the baking main body machine, the feeding part and the discharging part drive a switch through electric signals, and a brush made of soft materials is arranged on the arc-shaped groove;

an automatic guide mechanism;

the automatic guide mechanism comprises two groups of trusses which are arranged in a penetrating mode along the length direction of the baking main body machine and are installed at the upper end of the baking main body machine, a reciprocating assembly which is arranged below the trusses in a sliding mode, a first driving assembly used for driving the reciprocating assembly to move in a reciprocating mode and an object placing assembly which is installed on the reciprocating assembly and is arranged along the length direction of the baking main body machine;

a turning mechanism;

the turning mechanism comprises a support shaft, a material shifting assembly and a second driving assembly, wherein the support shaft is arranged at the upper end of the baking main body machine and is positioned between the two groups of trusses, the material shifting assembly is rotatably arranged on the support shaft and is arranged along the length direction of the baking main body machine, and the second driving assembly is arranged outside the baking main body machine and is used for driving the material shifting assembly to turn over in a reciprocating mode;

the two groups of support shafts are arranged and are positioned at the head end and the tail end of the baking main body machine;

a processing mechanism;

the processing mechanism comprises a notch assembly arranged on the supporting shaft and positioned at the input end of the baking main body machine and a nut adding assembly arranged at the output end of the baking main body machine and positioned outside the baking main body machine;

a packaging mechanism;

the baling mechanism includes follows bake main part machine length direction and set up and be located bake the conveying subassembly of main part machine output, install conveying subassembly both sides just are used for accomplishing the plastic envelope subassembly and the setting of face packet packing work are in the collecting box of conveying subassembly output.

Preferably, the reciprocating assembly comprises:

a carriage;

the two groups of sliding frames are arranged and are respectively arranged below the truss in a sliding mode, and the sliding frames are matched and slide in T-shaped grooves of the truss;

a base;

the base sets up two sets ofly and is located respectively the head both ends of carriage, the base passes through the fixed setting of flexible unit on two carriages.

Preferably, the first drive assembly comprises:

a transmission rack a;

the transmission rack a is arranged on the sliding frame, and teeth of the transmission rack a are vertically arranged downwards;

a transmission unit a;

the transmission unit a is arranged at the input end of the baking main body machine and comprises a bracket a, a rotating shaft a rotationally arranged on the bracket a and a gear a meshed with the transmission rack a and synchronously transmitted with the rotating shaft a;

a transmission unit b;

the transmission unit b is arranged at the input end of the baking main body machine and comprises a bracket b, a rotating shaft b rotationally arranged on the bracket b and a gear b meshed with the transmission rack a and synchronously transmitted with the rotating shaft b;

the transmission unit a is in transmission connection with the transmission unit b through a belt a;

a drive motor;

the driving motor drives the rotating shaft a to synchronously transmit.

Preferably, the placement assembly includes:

installing a shaft;

the two groups of mounting shafts are arranged and are respectively arranged on the two groups of bases, and the two groups of mounting shafts are arranged coaxially;

a loading unit a;

the material loading unit a comprises a servo motor a installed in the base, a driving wheel a driven by the servo motor a to rotate and located outside the base, a material receiving disc a rotatably arranged on the installation shaft close to the input end of the baking main body machine, and an incomplete driven wheel a fixedly connected with the end part of the material receiving disc a and meshed with the driving wheel a;

a receiving part b;

the material receiving part b comprises a servo motor b arranged in the base, a driving wheel b driven by the servo motor b to rotate and positioned outside the base, a material receiving disc b rotatably arranged on the mounting shaft close to the input end of the baking main body machine, and an incomplete driven wheel b fixedly connected with the end part of the material receiving disc b and meshed with the driving wheel b;

the material receiving disc a and the material receiving disc b are in matched transmission and are arranged in an arc-shaped structure, and a plurality of groups of dividing blocks a are arranged at equal intervals along the length direction of the material receiving disc a and the material receiving disc b;

the contact part of the two dividing blocks a is provided with a chamfer;

a bread placing space a is formed between every two adjacent dividing blocks a, a guide plate is arranged above the placing space, and the guide plates on the material loading units a and the material receiving pieces b are arranged in a staggered mode.

Preferably, the kick-out assembly comprises:

a support frame;

two ends of the supporting frame are rotatably arranged on the supporting shaft;

a load bearing bin;

two ends of the bearing bin are arranged on the supporting frame and are positioned below the material loading unit a and the material receiving part b, and a plurality of groups of dividing blocks b are arranged at equal intervals along the length direction of the bearing bin;

and bread placing spaces b are formed between every two adjacent dividing blocks b, the placing spaces b and the placing spaces a are arranged in a one-to-one correspondence mode, and the placing spaces a are smaller than the placing spaces b.

Preferably, the second drive assembly comprises:

a frame;

a sliding seat;

the sliding seat is arranged on the rack in a sliding manner along the vertical direction;

a telescopic cylinder;

the telescopic cylinder is rotatably arranged on the sliding seat;

a push rod;

one end of the push rod is fixedly connected with the telescopic end of the telescopic cylinder, and the other end of the push rod is rotatably connected with the outer wall of the bearing bin.

Preferably, the cutting assembly includes a support rod vertically disposed and a blade disposed below the support rod and along a length direction of the roasting body machine.

Preferably, the nut adding assembly comprises:

a material filling bin;

the filling bin is of a cylindrical structure and is internally provided with a crushing paddle, and the crushing paddle is driven by a speed changer to rotate;

a discharging bin;

the discharging bin is arranged in the tangential direction of the lower end of the packing bin, and a switch of the discharging bin is controlled by a control valve;

a drainage seat;

the drainage seat is arranged in the filler bin and above the smashing paddle and is in a right-angle triangular prism structure, and the lower end of the drainage seat and the inner wall of the filler bin form a discharge chute;

a material blocking plate;

the material blocking plate is arranged on the lower surface of the drainage seat in a sliding mode and is connected and installed on the outer wall of the filling bin through an elastic unit;

a linkage member;

the linkage piece comprises a transmission rack b fixedly connected with the elastic unit, a ratchet wheel a which is rotatably arranged outside the filling bin and meshed with the transmission rack b, and a transmission rack c which is meshed with the ratchet wheel a and fixedly connected with the reciprocating assembly.

Preferably, the transfer assembly comprises:

a strip-shaped chain moving unit;

the strip-shaped chain moving unit is arranged below the article placing component;

a setting tray;

the arrangement disc is provided with a plurality of groups at equal intervals along the transmission direction of the strip-shaped chain moving unit, a plurality of groups of dividing blocks c are arranged at equal intervals along the length direction of the arrangement disc, a storage space of a packaging bag is formed between every two adjacent dividing blocks c, and any storage space is arranged in one-to-one correspondence with the placing space a of bread above during blanking;

a trigger;

the starting piece comprises a bracket c, a rotating shaft c which is rotatably arranged on the bracket c and a ratchet wheel b which is synchronously driven by the rotating shaft c and is meshed with the driving rack a;

the rotating shaft c drives the strip-shaped chain moving unit to synchronously transmit through a belt b;

when the reciprocating assembly is driven outwards from the baking main body machine, the ratchet wheel b and the transmission rack a are in an engaged state; when the reciprocating assembly is reset from the baking main body machine to work, the ratchet wheel b and the transmission rack a are in a non-meshed state.

Preferably, the plastic package assembly includes:

a linkage member;

the linkage piece comprises an incomplete driven wheel c which is arranged at the other end of the receiving disc a and is coaxially arranged with the incomplete driven wheel a, and an incomplete driven wheel d which is arranged at the other end of the receiving disc b and is coaxially arranged with the incomplete driven wheel b;

a plastic package part a;

the plastic package piece a comprises a bottom support rod a arranged on one side of the reciprocating assembly, a gear c which is rotatably arranged on the bottom support rod a and is meshed with the incomplete driven wheel c, a sliding track a which is installed on the bottom support rod a, a driving rack a which is arranged in the sliding track a in a sliding mode and is meshed with the gear c, and an ironing plate a which is arranged at the end part of the driving rack a;

a plastic package part b;

the plastic package part b and the plastic package part a are symmetrically arranged relative to the reciprocating assembly and comprise a bottom support rod b arranged on one side of the reciprocating assembly, a gear d which is rotatably arranged on the bottom support rod b and is meshed with the incomplete driven wheel d, a sliding track b mounted on the bottom support rod b, a driving rack b which is slidably arranged in the sliding track b and is meshed with the gear d, and an ironing plate b arranged at the end part of the driving rack b;

and the sliding rails a and b are provided with limiting blocks.

The invention has the beneficial effects that:

(1) according to the invention, the automatic guide mechanism is matched with the processing mechanism, so that the notch processing work before bread baking, the nut granule scattering processing work after baking and the packaging output processing work are sequentially completed, the work of the whole production line is closely combined and mutually promoted; further improving the processing efficiency of the whole bread on the premise of improving the baking effect, greatly improving the yield and reducing the production cost;

(2) according to the invention, the automatic guide and feed mechanism is matched with the overturning mechanism, so that the bread enters the overturning mechanism to complete normal drying work after primary drying, the conventional static baking mode of the bread is changed into an overturning baking mode, and the bread is completely baked, so that the brittleness of the surface of the bread is improved, and the bread is more delicious; on the other hand, the swinging of the automatic guide mechanism is utilized to continuously circulate the heat in the baking main body machine and input the bread turned downwards, so that the drying effect is further improved;

(3) according to the bread, the nut adding component is matched with the reciprocating component, so that large-particle nuts bought in the market can be reprocessed, the palatability of the bread is improved, meanwhile, the nut particles can be quantitatively added by matching the blocking material with the linkage component, waste is avoided, and the controllability is high; on the other hand, the nut adding assembly is driven to automatically discharge by utilizing the moving power of the reciprocating assembly, so that the additional power output is saved, and the production cost is reduced;

(4) according to the bread baking machine, the object placing component is arranged to be matched with the material stirring component to finish two baking and baking operations of bread, on one hand, the opening and closing operation of the object placing component is utilized to finish the releasing of primarily baked bread to the material stirring component and the extracting operation of the baked bread from the material stirring component, on the other hand, the opening and closing operation of the object placing component is utilized to conduct the diversion operation of heat in the baking main body machine, so that the heat intensively enters the surface of the bread on the bearing bin from top to bottom along with the diversion of the material receiving disc a and the material receiving disc b, the baking effect is improved, meanwhile, the heat is fully utilized, the energy loss is avoided, and the production cost is reduced.

In conclusion, the equipment has the advantages of simple structure and high automation degree, and is particularly suitable for the technical field of bread.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a full-automatic high-intelligence bread maker for processing old bread.

Fig. 2 is a schematic structural view of the automatic guide mechanism.

Fig. 3 is a schematic structural diagram of the turning mechanism.

Fig. 4 is a front view of the turning mechanism.

Fig. 5 is a schematic structural diagram of the first driving assembly.

FIG. 6 is a schematic view of a slit assembly.

Fig. 7 is a schematic structural view of the placement assembly.

Fig. 8 is a schematic view of the transmission operation of the placement module.

Fig. 9 is a schematic structural view of the packing mechanism.

Fig. 10 is a partial structural schematic view of the packing mechanism.

Fig. 11 is a schematic structural view of a transfer assembly.

Fig. 12 is a schematic structural view of the roasting main body machine.

Fig. 13 is a schematic diagram of the transmission operation of the transmission assembly.

Fig. 14 is a schematic view of the drive operation of the nut adding assembly.

Fig. 15 is a schematic view of a partial structure of the nut adding assembly.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, a full-automatic high-intelligent bread maker for processing old bread comprises:

a main roasting body 1;

the baking main body machine 1 is provided with a feeding part 11 and a discharging part 12 along the length direction, an arc-shaped groove 13 is formed in the side wall of the baking main body machine 1, the feeding part 11 and the discharging part 12 drive a switch through electric signals, and a brush made of soft materials is arranged on the arc-shaped groove 13;

an automatic guide mechanism 2;

the automatic guiding and conveying mechanism 2 comprises two groups of trusses 21 which are arranged in a penetrating mode along the length direction of the baking main body machine 1 and are installed at the upper end of the baking main body machine 1, a reciprocating assembly 22 which is arranged below the trusses 21 in a sliding mode, a first driving assembly 23 used for driving the reciprocating assembly 22 to reciprocate and an object placing assembly 24 which is installed on the reciprocating assembly 22 and is arranged along the length direction of the baking main body machine 1;

a turning mechanism 3;

the overturning mechanism 3 comprises a supporting shaft 31 which is arranged at the upper end of the baking main body machine 1 and is positioned between the two groups of trusses 21, a material stirring assembly 32 which is rotatably arranged on the supporting shaft 31 and is arranged along the length direction of the baking main body machine 1, and a second driving assembly 33 which is arranged outside the baking main body machine 1 and is used for driving the material stirring assembly 32 to overturn in a reciprocating manner;

two groups of supporting shafts 31 are arranged and are positioned at the head end and the tail end of the baking main body machine 1;

a processing mechanism 4;

the processing mechanism 4 comprises a notch assembly 41 which is arranged on the supporting shaft 31 and is positioned at the input end of the baking main body machine 1, an oil brush assembly which is arranged on the supporting shaft 31 and is positioned at the output end of the baking main body machine 1, and a nut adding assembly 42 which is arranged at the output end of the baking main body machine 1 and is positioned outside the baking main body machine 1, wherein the notch assembly 41 and the oil brush assembly are arranged in the same line along the central line of the width of the baking main body machine 1;

a packaging mechanism 5;

the packaging mechanism 5 comprises a conveying assembly 51, plastic packaging assemblies 52 and a collecting box 53, wherein the conveying assembly 51 is arranged along the length direction of the baking main body machine 1 and is located at the output end of the baking main body machine 1, the plastic packaging assemblies 52 are arranged on two sides of the conveying assembly 51 and are used for completing the packaging work of bread, and the collecting box 53 is arranged at the output end of the conveying assembly 51.

In the embodiment, the automatic guiding and conveying mechanism 2 is matched with the processing mechanism 4, so that the notch processing work before baking the bread, the nut particle scattering processing work after baking and the packaging output processing work are sequentially completed, and the work of the whole production line is closely combined and mutually promoted; further improving the processing efficiency of the whole bread on the premise of improving the baking effect, greatly improving the yield and reducing the production cost.

Secondly, the automatic guiding and conveying mechanism 2 is arranged to be matched with the overturning mechanism 3, so that the bread enters the overturning mechanism 3 to complete normal drying work after primary drying, the conventional static baking mode of the bread is changed into an overturning baking mode, and the bread is completely baked, so that the brittleness of the surface of the bread is improved, and the bread is more delicious; on the other hand, the swinging of the automatic guiding and conveying mechanism 2 is utilized to continuously circulate the heat in the baking main body machine 1 and input the bread overturned downwards, thereby further improving the drying effect.

It should be noted that, through setting up incision mechanism 4, add 5 cooperation automatic guiding mechanisms 2 of auxiliary material mechanism, utilize transmission work to accomplish the incision mechanism 4 to accomplish the incision work to the bread of each input before automatic guiding mechanisms 2 gets into main part machine 1 of baking, recycle automatic guiding mechanisms 2 and leave main part machine 1 after utilize and add 5 of auxiliary material mechanism and squeeze cream in proper order to the incision that corresponds in, realize the automation of whole production line, improve bread processing output, greatly increased income.

Further, as shown in fig. 2, the reciprocating assembly 22 includes:

a carriage 221;

the two groups of sliding frames 221 are arranged and are respectively arranged below the truss 21 in a corresponding sliding manner, and the sliding frames 221 are matched and slide in T-shaped grooves of the truss 21;

a base 222;

the two sets of the bases 222 are respectively located at the first ends and the second ends of the sliding frames 221, and the bases 222 are fixedly arranged on the two sliding frames 221 through the telescopic units 223.

Further, as shown in fig. 3, the first driving assembly 23 includes:

a driving rack a 231;

the transmission rack a231 is mounted on the sliding frame 221, and teeth of the transmission rack a are vertically arranged downwards;

a transmission unit a 232;

the transmission unit a232 is arranged at the input end of the roasting body machine 1 and comprises a bracket a2321, a rotating shaft a2322 rotatably arranged on the bracket a2321 and a gear a2323 meshed with the transmission rack a231 and synchronously transmitted with the rotating shaft a 2322;

a transmission unit b 233;

the transmission unit b233 is arranged at the input end of the roasting body machine 1 and comprises a bracket b2331, a rotating shaft b2332 rotatably arranged on the bracket b2331 and a gear b2333 engaged with the transmission rack a231 and synchronously transmitted with the rotating shaft b 2332;

the transmission unit a232 is in transmission connection with the transmission unit b233 through a belt a 234;

a drive motor 235;

the driving motor 235 drives the rotating shaft a2322 to synchronously drive.

In detail, the transmission unit a232 is matched with the transmission unit b233, and the pushing work of the reciprocating assembly 22 is realized by two sets of transmission members, so that the transmission stability is high.

Further, as shown in fig. 7 to 8, the placement module 24 includes:

mounting a shaft 241;

the two groups of mounting shafts 241 are arranged and are respectively arranged on the two groups of bases 222, and the two groups of mounting shafts 241 are arranged coaxially;

a loading unit a 242;

the loading unit a242 comprises a servo motor a2421 arranged in the base 222, a driving wheel a2422 driven by the servo motor a2421 to rotate and positioned outside the base 222, a material receiving disc a2423 rotatably arranged on the mounting shaft 241 close to the input end of the baking main body machine 1, and an incomplete driven wheel a2424 fixedly connected with the end part of the material receiving disc a2423 and meshed with the driving wheel a 2422;

a receiving member b 243;

the receiving part b243 comprises a servo motor b2431 arranged in the base 222, a driving wheel b2432 driven by the servo motor b2431 to rotate and positioned outside the base 222, a receiving disc b2433 arranged on the mounting shaft 241 close to the input end of the baking main body machine 1 in a rotating mode, and an incomplete driven wheel b2434 fixedly connected with the end of the receiving disc b2433 and meshed with the driving wheel b 2432;

the material receiving disc a2423 and the material receiving disc b2433 are in matched transmission and are arranged in an arc-shaped structure, and a plurality of groups of dividing blocks a245 are arranged at equal intervals along the length direction of the material receiving disc a2423 and the material receiving disc b 2433;

the contact part of the two dividing blocks a245 is provided with a chamfer;

a bread placing space a246 is formed between two adjacent dividing blocks a245, a guide plate 247 is arranged above the bread placing space, and the guide plates 247 on the material loading unit a242 and the material receiving member b243 are arranged in a staggered mode.

It should be noted that the material receiving tray a2423 and the material receiving tray b2433 are made to be close to the shape of the bread, so that the bread can stably fall into the placing space a 246; the purpose that the guide plates 247 on the material loading unit a242 and the material receiving member b243 are arranged in a staggered manner is to avoid interference between the two guide plates when heat is guided to work; the contact part of the lower ends of the dividing blocks a245 is provided with a chamfer, so that the bread can be quickly scooped up like a shovel knife when being folded; the dividing block a245 is provided to prevent the bread from being bonded during the transfer and the primary drying of any bread, and to improve the molding efficiency.

Further, as shown in fig. 3 to 4, the second driving assembly 33 includes:

a frame 331;

a slide mount 332;

the sliding seat 332 is arranged on the rack 331 in a sliding manner along the vertical direction;

a telescopic cylinder 333;

the telescopic cylinder 333 is rotatably arranged on the sliding seat 332;

a push rod 334;

one end of the push rod 334 is fixedly connected with the telescopic end of the telescopic cylinder 333, and the other end of the push rod is rotatably connected with the outer wall of the bearing bin 322.

Further, as shown in fig. 6, the slit assembly 41 includes a support rod 411 vertically disposed and a blade 412 disposed below the support rod 411 and along the length direction of the roasting body 1.

In this embodiment, through setting up the cutter unit spare, the in-process bread that reciprocating assembly 22 removed passes through blade 412 in proper order, accomplishes opening work under the effect of blade 412, replaces the artifical work of carrying out the opening to the bread one by one of tradition, improves work efficiency.

Further, as shown in fig. 14 to 15, the nut adding assembly 42 includes:

a filler bin 421;

the filling bin 421 is a cylindrical structure and is internally provided with a crushing paddle 422, and the crushing paddle 422 is driven by a transmission to rotate;

a discharge bin 423;

the discharging bin 423 is arranged in the tangential direction of the lower end of the filling bin 421, and the switch of the discharging bin 423 is controlled by a control valve;

a drainage seat 424;

the drainage seat 424 is arranged in the filling bin 421 and above the crushing blade 422, and is in a right-angle triangular prism structure, and the lower end of the drainage seat 424 and the inner wall of the filling bin 421 form a discharge chute 425;

a plugging plate 426;

the blocking plate 426 is slidably arranged on the lower surface of the drainage seat 424, and the blocking plate 426 is connected and installed on the outer wall of the filling bin 421 through an elastic unit 427;

a linkage 428;

the linkage 428 includes a driving rack b4281 fixedly connected with the elastic unit 427, a ratchet wheel a4282 rotatably disposed outside the filling bin 421 and engaged with the driving rack b4281, and a driving rack c4283 engaged with the ratchet wheel a4282 and fixedly connected with the reciprocating assembly 22.

In the embodiment, by arranging the nut adding component 42 to cooperate with the reciprocating component 22, on one hand, large-particle nuts which are purchased from market can be reprocessed, the deliciousness of bread is improved, and the quantitative adding work of nut particles can be realized by utilizing the blocking plate 426 to cooperate with the linkage member 428, so that the waste is avoided, and the controllability is high; on the other hand, the nut adding assembly 42 is driven to automatically discharge materials by utilizing the moving power of the reciprocating assembly 22, so that the additional power output is saved, and the production cost is reduced.

It should be noted that 30 big nuts and 30 small nuts; through the setting of computer in advance, when telescopic cylinder 333 of second drive assembly 33 started, smash paddle 422 fast revolution, and then smash the large granule nut that the finished product was bought, make it become nut grain, when treating telescopic cylinder 333 to close, smash paddle 422 rotational speed and slow, treat out the feed bin 423 valve and open, nut grain is smashing the automatic discharging under the rotation of paddle 422, and the even bread incision that spills below.

In addition, the purpose of the oil brush assembly to apply edible oil during the output of the baked bread is to facilitate the adherence of the nut pieces to the surface of the bread.

Further, as shown in fig. 11 to 13, the transfer assembly 51 includes:

a bar-shaped linkage unit 511;

the strip-shaped chain moving unit 511 is arranged below the article placing component 24;

a setting tray 512;

the arrangement disc 512 is provided with a plurality of groups at equal intervals along the transmission direction of the strip-shaped chain moving unit 511, a plurality of groups of dividing blocks c513 are arranged at equal intervals along the length direction of the arrangement disc 512, a storage space 514 for packaging bags is formed between every two adjacent dividing blocks c513, and any storage space 514 and a placing space a246 for bread above are arranged in a one-to-one correspondence manner during blanking;

an actuator 515;

the actuating member 515 comprises a bracket c5151, a rotating shaft c5152 rotatably arranged on the bracket c5151, and a ratchet wheel b5153 synchronously driven with the rotating shaft c5152 and meshed with the driving rack a 231;

the rotating shaft c5152 drives the strip-shaped linkage unit 511 to synchronously transmit through a belt b 516;

when the reciprocating assembly 22 is driven outwards from the baking main body machine 1, the ratchet wheel b5153 is meshed with the driving rack a 231; when the reciprocating assembly 22 is reset from the roasting body machine 1, the ratchet wheel b5153 is in a non-meshed state with the transmission rack a 231.

It should be mentioned here that the reciprocating assembly 22 drives the bar-shaped chain moving unit 511 to intermittently start, so that on one hand, the packaging bags 20 to be fed on the placing tray 512 are automatically loaded below the baked bread to wait for the falling of the bread, the moving accuracy of the placing tray 512 is ensured, the transmission speed and the transmission distance of the placing tray can be stably controlled, and on the other hand, the bread packaged on the previous group of placing trays 512 is automatically output and falls into the collecting box 53 to be collected.

Further, as shown in fig. 9 to 10, the plastic package assembly 52 includes:

a link 521;

the linkage 521 comprises an incomplete driven wheel c5211 which is arranged at the other end of the material receiving disc a2423 and is coaxially arranged with the incomplete driven wheel a2424, and an incomplete driven wheel d5212 which is arranged at the other end of the material receiving disc b2433 and is coaxially arranged with the incomplete driven wheel b 2434;

a plastic package a 522;

the plastic-sealed piece a522 comprises a bottom stay a5221 arranged on one side of the reciprocating assembly 22, a gear c5222 rotatably arranged on the bottom stay a5221 and meshed with the incomplete driven wheel c5211, a sliding track a5223 installed on the bottom stay a5221, a driving rack a5224 slidably arranged in the sliding track a5223 and meshed with the gear c5222, and an ironing plate a5225 arranged at the end part of the driving rack a 5224;

a plastic seal b 523;

the plastic part b523 and the plastic part a522 are symmetrically arranged relative to the reciprocating assembly 22 and comprise a bottom stay b5231 arranged on one side of the reciprocating assembly 22, a gear d5232 which is rotatably arranged on the bottom stay b5231 and is meshed with the incomplete driven wheel d5212, a sliding track b5233 which is installed on the bottom stay b5231, a driving rack b5234 which is slidably arranged in the sliding track b5233 and is meshed with the gear d5232, and an ironing plate b5235 which is arranged at the end part of the driving rack b 5234;

the sliding rails a5223 and b5233 are provided with a limit block 524.

In the embodiment, by arranging the plastic package assembly 52 and matching the reciprocating assembly 22, on one hand, the reciprocating assembly 22 is used for unfolding to complete the release work of the baked bread, and then the unfolding work is used for driving the plastic package piece a522 and the plastic package piece b523 to complete the automatic plastic package work of the packaging bag 20, so that the front and back work are closely linked and are easy to control; on the other hand, the automatic connection of two works is completed through one driving force, so that additional power output is saved, and the production cost is reduced.

Example two

As shown in fig. 3 to 4, in which the same or corresponding components as in the first embodiment are denoted 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:

further, as shown in fig. 3 to 4, the kick-out assembly 32 includes:

the support frame 321;

the two ends of the supporting frame 321 are rotatably arranged on the supporting shaft 31;

a load-bearing bin 322;

the two ends of the bearing bin 322 are arranged on the supporting frame 321 and located below the material loading unit a242 and the material receiving piece b243, and a plurality of groups of dividing blocks b323 are arranged at equal intervals along the length direction of the bearing bin 322;

a placing space b324 of bread is formed between two adjacent dividing blocks b323, the placing space b324 is arranged in one-to-one correspondence with the placing space a246, and the placing space a246 is smaller than the placing space b 324.

In this embodiment, the object placing assembly 24 is arranged to cooperate with the material stirring assembly 32, so that two baking and baking operations of bread are completed, on one hand, the opening and closing operations of the object placing assembly 24 are utilized to complete the release of the primarily baked bread to the material stirring assembly 3 and the extraction of the baked bread from the material stirring assembly 3, on the other hand, the opening and closing operations of the object placing assembly 24 are utilized to conduct the diversion operation on the heat in the baking main body machine 1, so that the heat is concentrated to enter the surface of the bread on the bearing bin 322 along with the diversion of the material receiving disc a2423 and the material receiving disc b2433 from top to bottom, the heat is fully utilized while the baking effect is improved, the energy loss is avoided, and the production cost is reduced.

In detail, to place space a246 and place the one-to-one setting of space b324, avoid the disorderly indiscriminate run of a plurality of bread at the transmission in-process, be favorable to carrying on spacingly to each bread, and then do benefit to the work that can accurate completion get, roll and add cream to the clamp of bread in the course of working, the pertinence is high.

The working process is as follows:

firstly, a plurality of groups of bread 10 are sequentially placed into the placing space a246 of the corresponding placing component 24, then the driving motor 235 of the first driving component 23 is started, the driving motor 235 drives the transmission unit a232 to transmit, the transmission unit a232 drives the transmission rack 231 to horizontally and transversely move until the reciprocating component 22 enters the baking main body machine 1, and in the moving process, the incision mechanism 4 finishes the incision work of the bread;

then, after the reciprocating assembly 22 completely enters the baking main body machine 1, the electric signal gives an instruction, the doors of the feeding part 11 and the discharging part 12 are automatically closed, the baking main body machine 1 is opened, and the bread is primarily baked in the placing space a 246;

then, after the surface of the bread has a certain hardness, the rodless cylinder drives the two bases 222 to vertically move downwards to the upper surface of the bearing bin 322 of the material stirring assembly 32 through the telescopic unit 223, then the servo motor a2421 and the servo motor b2431 are automatically started, the material receiving tray a2423 and the material receiving tray b2433 are automatically opened, the bread falls into the bearing bin 322 below, and the rodless cylinder drives the two bases 222 to reset through the telescopic unit 223;

then, the telescopic cylinder 333 of the second driving assembly 33 is started, the telescopic cylinder 333 drives the bearing bin 322 to swing back and forth through the push rod 334, the bearing bin 322 drives the bread in the bearing bin to roll in the swinging process, namely the bread falls after reaching the highest point, and comprehensive baking is realized;

meanwhile, the servo motor a2421 and the servo motor b2431 automatically start to rotate positively and negatively, so as to drive the material receiving disc a2423 and the material receiving disc b2433 to rotate in a reciprocating manner, in the rotating process, the guide plate 247 guides heat in the baking main body machine 1 to form the work of guiding the heat, so that the heat is concentrated and downwards beaten and sent to bread, the heat is concentrated, after the baking work is finished, the rodless cylinder drives the two bases 222 to move downwards through the telescopic unit 223, the material receiving disc a2423 and the material receiving disc b2433 in an open state are folded to extract the bread on the bearing bin 322, and the bread is reset under the action of the rodless cylinder;

then, the door signal of the discharging part 12 is driven to automatically open, the driving motor 235 is started, the reciprocating assembly 22 is moved out of the baking main body machine 1, in the moving process, the upper surface of bread is coated with a layer of oil by the oil brush assembly, then the rear driving rack a231 drives the ratchet wheel b5153 to rotate, the rotating ratchet wheel b515 drives the strip-shaped linkage unit 511 to synchronously drive through the belt b516, the setting disc 512 is transmitted together with the material receiving disc a2423 and the material receiving disc b2433, at the moment, the discharging bin valve is opened, and the crushing paddle 422 pushes nut powder in the filling bin 421 out along the tangential direction and sequentially falls onto the bread cut;

after the material receiving plate a2423 and the material receiving plate b2433 completely leave the baking main body machine 1, the servo motor a2421 and the servo motor b2431 are automatically started, the material receiving plate a2423 and the material receiving plate b2433 are opened, and the bread 10 in the placing space a246 automatically falls into the storage space 514;

meanwhile, the incomplete driven wheel c5211 and the incomplete driven wheel d5212 respectively drive the gear c5222 and the gear d5232 to synchronously rotate, the gear c5222 and the gear d5232 are respectively meshed with the driving rack a5224 and the driving rack a5224, the driving rack a5224 and the driving rack a5224 further drive the ironing plate a5225 and the ironing plate b5235 to move in the same direction, the electricity is automatically supplied when the two contact, the ironing plate a5225 and the ironing plate b5235 complete the plastic encapsulation of the packaging bag 20, and when the incomplete driven wheel c5211 and the incomplete driven wheel d5212 are reset, the ironing plate a5225 and the ironing plate b5235 move reversely and reset;

finally, when the next set of the placing tray 512 moves to the discharging position, the bread after the previous set of bread has been packed is discharged backward and falls into the collecting box 53.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a high intelligent bread machine of full-automatic for old bread processing which characterized in that includes:

a baking main body machine (1) for performing a plurality of baking works on the bread group;

the automatic guiding and conveying mechanism (2) reciprocates along the length direction of the baking main body machine (1) and is used for bearing a plurality of bread groups to finish feeding work, baking work and output work in sequence from the input end to the output end of the baking main body machine (1);

the overturning mechanism (3) is arranged in the baking main body machine (1) and is used for shifting the automatic guide mechanism (2) in the baking main body machine (1) out of the bread group to be baked for the second time to stir in a reciprocating manner;

the processing mechanism (4) is arranged at the end part of the baking main body machine (1) and is used for processing the bread set outer surface molding pattern on the automatic guiding and conveying mechanism (2) in the working state before and after baking;

the bread baking machine is characterized by comprising a baking main body machine (1) and a packaging mechanism (5) which is arranged at the output end of the baking main body machine and used for packaging and collecting the processed bread on the automatic guiding and conveying mechanism (2) in batches.

2. The full-automatic high-intelligence bread maker for processing the old bread as claimed in claim 1, characterized in that the baking main body machine (1) is provided with a feeding portion (11) and a discharging portion (12) along the length direction thereof, an arc-shaped groove (13) is formed in the side wall of the baking main body machine (1), the feeding portion (11) and the discharging portion (12) are driven to be switched by an electric signal, and a brush made of soft material is arranged on the arc-shaped groove (13).

3. The full-automatic high-intelligence bread maker for processing bread dough according to claim 1, wherein the automatic guiding mechanism (2) comprises two sets of trusses (21) which are arranged in the length direction of the main baking body (1) in a penetrating manner and are arranged at the upper end of the main baking body (1), a reciprocating assembly (22) for carrying bread dough groups to pass through the main baking body (1), a first driving assembly (23) for driving the reciprocating assembly (22) to move in a reciprocating manner, and an object placing assembly (24) which is arranged on the reciprocating assembly (22) and is arranged in the length direction of the main baking body (1), wherein the trusses (21) are arranged in two sets;

the storage assembly (24) comprises:

a mounting shaft (241);

the two groups of mounting shafts (241) are arranged and are respectively arranged on the two groups of bases (222), and the two groups of mounting shafts (241) are arranged coaxially;

a loading unit a (242);

the material loading unit a (242) comprises a servo motor a (2421) arranged in the base (222), a driving wheel a (2422) driven by the servo motor a (2421) to rotate and positioned outside the base (222), a material receiving disc a (2423) rotatably arranged on the mounting shaft (241) close to the input end of the baking main body machine (1), and an incomplete driven wheel a (2424) fixedly connected with the end part of the material receiving disc a (2423) and meshed with the driving wheel a (2422);

a loading unit b (243);

the loading unit b (243) comprises a servo motor b (2431) arranged in the base (222), a driving wheel b (2432) driven by the servo motor b (2431) to rotate and located outside the base (222), a receiving tray b (2433) rotatably arranged on the mounting shaft (241) close to the input end of the baking main body machine (1), and an incomplete driven wheel b (2434) fixedly connected with the end of the receiving tray b (2433) and meshed with the driving wheel b (2432);

the material receiving disc a (2423) and the material receiving disc b (2433) are in matched transmission and are arranged in an arc-shaped structure, and a plurality of groups of dividing blocks a (245) are arranged on the material receiving disc a (2423) and the material receiving disc b (2433) at equal intervals along the length direction of the material receiving disc a (2423) and the material receiving disc b (2433).

4. The full-automatic high-intelligence bread maker for processing the old bread as claimed in claim 1, wherein the turning mechanism (3) comprises a supporting shaft (31) which is installed at the upper end of the baking main body machine (1) and is positioned between the two groups of trusses (21), a material stirring assembly (32) which is arranged along the length direction of the baking main body machine (1) and is used for repeatedly stirring the bread group, and a second driving assembly (33) which is arranged outside the baking main body machine (1) and is used for driving the material stirring assembly (32) to turn back and forth;

the baking machine is characterized in that the supporting shafts (31) are arranged in two groups, and the supporting shafts (31) are located at the head end and the tail end of the baking main body machine (1).

5. The fully automatic and highly intelligent bread maker for processing old bread as claimed in claim 4, wherein said material-poking assembly (32) comprises:

a support frame (321);

two ends of the supporting frame (321) are rotatably arranged on the supporting shaft (31);

a load-bearing bin (322);

the two ends of the bearing bin (322) are arranged on the supporting frame (321) and are located below the material loading unit a (242) and the material loading unit b (243), and a plurality of groups of dividing blocks b (323) are arranged at equal intervals along the length direction of the bearing bin (322).

6. The fully automatic and highly intelligent bread maker for processing old bread as claimed in claim 1, wherein said processing mechanism (4) comprises a notch assembly (41) installed on said supporting shaft (31) and located at the input end of said baking main body machine (1), an oil brush assembly installed on said material stirring assembly (32) and located at the output end of said baking main body machine (1), and a nut adding assembly (42) disposed at the output end of said baking main body machine (1) and located outside said baking main body machine (1), said notch assembly (41) and said oil brush assembly being disposed in the same line along the center line of the width of said baking main body machine (1).

7. The fully automatic and highly intelligent bread maker for processing old bread as claimed in claim 6, wherein said notch assembly (41) comprises a supporting rod (411) vertically disposed and a blade (412) disposed below said supporting rod (411) and along the length direction of said baking main body machine (1).

8. The fully automatic and highly intelligent bread maker for old bread processing as claimed in claim 6, wherein said nut adding component (42) comprises:

a filler bin (421);

the filling bin (421) is of a cylindrical structure, a smashing paddle (422) is arranged in the filling bin, and the smashing paddle (422) is driven to rotate by a speed changer;

a discharge bin (423);

the discharging bin (423) is arranged in the tangential direction of the lower end of the filling bin (421), and the switch of the discharging bin (423) is controlled by a control valve;

a drainage seat (424);

the drainage seat (424) is arranged in the filling bin (421) and above the smashing paddle (422), is in a right-angle triangular prism structure, and the lower end of the drainage seat (424) and the inner wall of the filling bin (421) form a discharge chute (425);

a plugging plate (426);

the material blocking plate (426) is arranged on the lower surface of the drainage seat (424) in a sliding mode, and the material blocking plate (426) is connected and installed on the outer wall of the filling bin (421) through an elastic unit (427);

a linkage (428);

the linkage (428) is synchronously driven with the reciprocating component (22).

9. The full-automatic high-intelligence bread maker for bread making according to claim 1, characterized in that the bread making mechanism (5) comprises a conveying assembly (51) arranged along the length direction of the baking main body machine (1) and located at the output end of the baking main body machine (1), and plastic packaging assemblies (52) arranged at two sides of the conveying assembly (51) and used for completing bread making.

10. The fully automatic and highly intelligent bread maker for processing old bread as claimed in claim 9, wherein said conveying assembly (51) comprises:

a bar-shaped linkage unit (511);

a setting tray (512);

the arrangement disc (512) is provided with a plurality of groups at equal intervals along the transmission direction of the strip-shaped chain moving unit (511), a plurality of groups of dividing blocks c (513) are arranged at equal intervals along the length direction of the arrangement disc (512), storage spaces (514) of packaging bags are formed between every two adjacent dividing blocks c (513), and any storage space (514) and a placing space a (246) of bread above are arranged in a one-to-one correspondence manner during blanking;

an activation member (515);

the output end of the conveying assembly (51) is provided with a collecting box (53);

the plastic package assembly (52) comprises:

a link (521);

a plastic package a (522);

the plastic package piece a (522) comprises a bottom support rod a (5221) arranged on one side of the reciprocating assembly (22), a gear c (5222) which is rotatably arranged on the bottom support rod a (5221) and is meshed with the incomplete driven wheel c (5211), a sliding track a (5223) which is installed on the bottom support rod a (5221), a driving rack a (5224) which is slidably arranged in the sliding track a (5223) and is meshed with the gear c (5222), and an ironing plate a (5225) which is arranged at the end part of the driving rack a (5224);

a plastic seal member b (523);

the plastic part b (523) and the plastic part a (522) are symmetrically arranged relative to the reciprocating assembly (22) and comprise a bottom stay b (5231) arranged on one side of the reciprocating assembly (22), a gear d (5232) which is rotatably arranged on the bottom stay b (5231) and is meshed with the incomplete driven wheel d (5212), a sliding track b (5233) arranged on the bottom stay b (5231), a driving rack b (5234) which is slidably arranged in the sliding track b (5233) and is meshed with the gear d (5232), and an ironing plate b (5235) arranged at the end part of the driving rack b (5234);

and the sliding track a (5223) and the sliding track b (5233) are provided with limit blocks (524).

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