CN112602740B - Automatic production device for old bread - Google Patents

Abstract

The invention relates to an automatic production device of an old bread, which comprises a transmission mechanism, wherein the transmission mechanism comprises a first transmission assembly and a bearing assembly; the drying mechanism comprises a drying box, a positioning component arranged at the input end of the drying box, a first directional component arranged in the drying box and performing transverse directional work, two groups of clamping components symmetrically arranged at two sides of the directional component, and a second directional component arranged outside the drying box and matched with the clamping components to perform longitudinal directional work; the core injection mechanism comprises a spraying assembly and a rotating assembly, wherein the spraying assembly is intermittently communicated with the clamping assembly, and the rotating assembly is used for driving the spraying assembly to perform centrifugal spraying; the output mechanism comprises an output belt arranged below the transmission mechanism and a control assembly for driving bread to discharge; the invention solves the technical problems that the bread is not good in drying effect and the bottom of the bread is not easy to be fully baked when the bread is dried.

Description

Automatic production device for old bread

Technical Field

The invention relates to the technical field of old bread, in particular to an automatic production device for old bread.

Background

The traditional bread baking is to place the fermented bread dough into an oven for baking and forming, wherein the oven comprises a bottom plate and a side plate, the bread dough can expand in the baking process until the whole oven is filled, and the bread dough is abutted against the side plate and the bottom plate for fixing and forming; after the toasting is accomplished, operating personnel need take the blowing nozzle to blow towards the gap between oven and bread to detect whether bread separates with the oven inner wall or help bread and oven inner wall separation, then take out the bread clamp, above operation is wasted time and energy, and work efficiency is low.

Patent document CN2016209287139 discloses an oven for bread, including having the box of placing the cavity, the box includes bottom plate and curb plate, and the bottom plate is equipped with the lifter plate that is used for releasing bread, and curb plate or bottom plate are equipped with and are used for releasing the boosting piece of lifter plate, bottom plate or curb plate are equipped with the fretwork position, the boosting piece pass through the fretwork position with the lifter plate is connected, and the edge of lifter plate is equipped with the scraper, and the scraper dorsad the bottom plate is crooked, and the blade edge face and curb plate butt.

However, in the actual use process, the inventor finds that the bread is often subjected to the problems of poor drying effect and difficulty in fully baking the bottom of the bread during the drying work.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, the drying mechanism is matched with the core injection mechanism, the drying mechanism is used for clamping bread, the bread is uniformly baked in a suspended mode in the clamping and inserting process, and then the clamping work is used for automatically injecting the side edges into the bread during transmission.

Aiming at the technical problems, the technical scheme is as follows: an automatic old bread production device comprises:

the transmission mechanism comprises a first transmission assembly and a plurality of groups of bearing assemblies which are arranged on the first transmission assembly at equal intervals;

the drying mechanism comprises a drying box sleeved outside the transmission mechanism, a positioning assembly arranged at the input end of the drying box, a first directional assembly arranged in the drying box and performing transverse directional work, two groups of clamping assemblies symmetrically arranged at two sides of the directional assembly, and a second directional assembly arranged outside the drying box and matched with the clamping assemblies to perform longitudinal directional work;

the core injection mechanism comprises a spraying assembly and a rotating assembly, wherein the spraying assembly is in intermittent communication with the clamping assembly, and the rotating assembly is used for driving the spraying assembly to perform centrifugal spraying; and

the output mechanism comprises an output belt arranged below the transmission mechanism and a control assembly for driving bread to discharge.

Preferably, the first transmission assembly comprises a driving motor, a chain wheel and chain unit a driven by the driving motor to perform transmission, and a chain wheel and chain unit b synchronously driven with the chain wheel and chain unit a.

Preferably, the bearing assembly comprises:

the two ends of the base a are fixedly arranged on the first transmission assembly; and

support piece, support piece including set up tray, one end and the tray fixed connection and the other end of base a fixed connection's spliced pole, slip setting are in the push pedal, one end of a plurality of groups sliding holes of seting up on the tray with base a fixed connection and the other end with push pedal fixed connection's flexible unit an and one end and push pedal fixed connection just be the control post an that the sliding end set up for spherical structure.

Preferably, the positioning assembly comprises:

the synchronous parts are arranged in two groups and are symmetrically arranged on two sides of the first transmission assembly along the tray, and each synchronous part comprises a transmission part, a first transmission gear for driving the transmission part to transmit, a first transmission rack arranged on the transmission part and used for driving the first transmission gear to transmit, a telescopic unit b, a pull rod a and a pull rod b, wherein one end of the telescopic unit b is connected with the first transmission rack, the other end of the telescopic unit b is connected with the transmission part, the pull rod a is arranged on the first transmission rack and is in a semicircular structure, and the pull rod b is arranged in a structure matched with the pull rod a and is arranged on the bearing assembly through a telescopic unit c; and

the concentrated piece, concentrated piece sets up on the synchronizing part, and it includes support an, slides and sets up on the support a and for the control post b that the slip end set up for spherical structure, set up control post b is served towards one interior right angle board and with the guide track b that control post b matches the setting, guide track b includes first guide part, horizontal part and second guide part, first guide part along first transmission assembly transmission direction is close to gradually first transmission assembly sets up, the second guide part along first transmission assembly transmission direction leans on gradually to keep away from first transmission assembly sets up.

Preferably, the first direction-dividing component comprises a direction-dividing rail, the direction-dividing rail is provided with a plurality of groups along the vertical direction of the transmission direction of the first transmission component, the direction-dividing rail comprises a direction-dividing part and a parallel part, and the parallel part is provided with a guide groove along the length direction of the parallel part.

Preferably, the clamping assembly comprises:

the second transmission assembly is synchronously transmitted with the first transmission assembly;

the inserting piece comprises a support b arranged on the second transmission assembly, a sliding shaft, a support plate and inserting shafts, wherein one end of the sliding shaft is horizontally arranged on the support b in a sliding mode through a spring, the support plate is arranged at one end of the sliding shaft, the inserting shafts are arranged in a plurality of groups at equal intervals along the length direction of the support plate and are rotatably arranged on the support plate, a plurality of groups of grout outlet holes are formed in the inserting shafts, the support plate is arranged in a hollow mode, and the inserting shafts are matched with the guide grooves in a sliding mode; and

the top support piece, the top support piece includes that a plurality of groups correspond the setting and is in the control post d of sliding shaft other end and be used for the drive control post d is along horizontal direction reciprocating motion's guide track d, guide track d includes advancing portion, supporting part and the portion that resets, the portion that advances is the wave structure setting from top to bottom along vertical direction.

Preferably, the second diversion subassembly is including setting up being located the intermediate position the epaxial bolster of interlude and setting are in first transmission component top and with the buffer block a that the bolster discontinuous contact set up, the bolster includes flexible unit i and sets up buffer block b on the flexible unit i, punch block a and buffer block b are half circular structure setting and match discontinuous contact setting.

Preferably, the injection assembly comprises a communicating pipe arranged on the supporting plate and with a magnetic connection end, a jam box arranged on one side of the second transmission assembly, a hose communicated with the jam box, and an electrified magnetic ring sleeved at the end of the hose, wherein the electrified magnetic ring is arranged in the movable track in a sliding mode through a telescopic unit j, and distance sensors are arranged at two ends of the movable track.

Preferably, the rotating assembly includes a second transmission gear coaxial with the penetrating shaft and synchronously transmitting, and a second transmission rack arranged on the first transmission assembly and engaged with the second transmission rack.

As still further preferred, the control assembly comprises:

the material receiving frame is arranged on the tray through a telescopic unit k, a plurality of groups of placing cavities are uniformly formed in the material receiving frame, a control column c is arranged on the telescopic unit k and is arranged in a guide track c in a sliding mode in a matching mode, the guide track c gradually faces upwards along the transmission direction of the first transmission assembly, the material receiving frame is arranged in an elastic material structure, and the guide track c and the reset part are arranged in the same direction; and

the guide rail a is arranged above the first transmission assembly and gradually descends along the transmission direction of the first transmission assembly.

The invention has the beneficial effects that:

(1) according to the bread baking machine, the drying mechanism is matched with the core injection mechanism, bread is clamped by the drying mechanism, the bread is uniformly baked in a suspended mode in the clamping and inserting process, the clamping work is utilized to automatically perform side edge filling work in the bread during conveying, and the clamping process is used for clamping the bread before the bread is not baked, so that an outer surface belt cannot be peeled when the bread is released and drawn out, and the product is formed and has good attractiveness;

(2) the traditional jam injection method adopts jam injection work of one bread and one bread, but the jam injection work is adopted by matching a transmission mechanism with a drying mechanism and a core injection mechanism, so that the bread is output in batches, and the processing work efficiency and the output quantity are high; in addition, the whole work is continuous, the jam injection is not needed, the work efficiency is further improved, the yield is improved, and the cost output is reduced;

(3) according to the bread baking machine, the positioning assembly is matched with the first diverting assembly, so that bread before being dried is automatically concentrated, the positioned bread is transversely and automatically separated by the first diverting assembly, the bread is prevented from being adhered together and not easily separated during drying, the bread adhered integrally during baking is longitudinally and automatically separated by the second diverting assembly matched with the clamping assembly, and the bread is completely separated during baking, and the automation degree is high;

(4) according to the bread baking device, the clamping assembly is arranged, the clamping assembly is matched with the drying box, so that bread is clamped in a hanging mode by the clamping assembly in a hanging mode and is driven to move in the drying box in a wave shape in the drying process, the baking effect is improved, the clamping assembly is matched with the spraying assembly, jam injected into the bread is injected into the bread through the clamping assembly, the injector is prevented from being inserted into the surface of the baked bread again, the surface of the bread cannot be tilted when the jam is pulled out after the jam is injected, the attractiveness and the quality of the bread are improved, and the defective rate is reduced.

In conclusion, the equipment has the advantages of simple structure and good drying effect, and is particularly suitable for the technical field of old 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 an automatic old bread producing apparatus.

Fig. 2 is a schematic structural diagram of the transport mechanism.

Fig. 3 is a schematic structural diagram of the bearing assembly.

Fig. 4 is a first schematic view of the transmission state of the positioning assembly.

Fig. 5 is a schematic diagram of a transmission state of the positioning assembly.

Fig. 6 is a third schematic diagram of the transmission operation of the positioning assembly.

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

Fig. 8 is a schematic view of the transmission state of the rotating assembly.

Fig. 9 is a schematic structural diagram of a second direction-diversion assembly.

Fig. 10 is a first schematic view of the transmission state of the second direction-dividing assembly.

Fig. 11 is a schematic view of a transmission state of the second direction-dividing assembly.

Fig. 12 is a first schematic view of the transmission state of the first direction-dividing assembly.

Fig. 13 is a schematic view of the transmission state of the first direction-dividing assembly.

Fig. 14 is a schematic structural view of the clamping assembly.

FIG. 15 is a side view of the clamping assembly.

Fig. 16 is a front view schematically showing the support part.

Fig. 17 is a structural diagram of the second direction-changing component.

Fig. 18 is a first schematic diagram of the transmission state of the output mechanism.

Fig. 19 is a schematic diagram of a transmission state of the output mechanism.

Fig. 20 is a third schematic view of the transmission state of the output mechanism.

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, an automatic old bread producing apparatus includes:

the conveying mechanism 1 comprises a first transmission assembly 11 and a plurality of groups of bearing assemblies 12 which are arranged on the first transmission assembly 11 at equal intervals;

the drying mechanism 2 comprises a drying box 21 sleeved outside the transmission mechanism 1, a positioning component 22 arranged at the input end of the drying box 21, a first directional component 23 arranged in the drying box 21 and performing transverse directional work, two groups of clamping components 24 symmetrically arranged at two sides of the directional component, and a second directional component 25 arranged outside the drying box 21 and matched with the clamping components 24 to perform longitudinal directional work;

the core injection mechanism 3 comprises a spraying assembly 31 and a rotating assembly 32, wherein the spraying assembly 31 is in intermittent communication with the clamping assembly 24, and the rotating assembly 32 is used for driving the spraying assembly 31 to perform centrifugal spraying; and

the output mechanism 4 comprises an output belt 41 arranged below the conveying mechanism 1 and a control component 42 for driving the bread 10 to carry out discharging work.

In this embodiment, through setting up 2 cooperation core mechanisms 3 of annotating of drying mechanism, utilize drying mechanism 2 to carry out the centre gripping with the bread to insert and establish the in-process in the centre gripping and accomplish the bread suspended from top to bottom evenly and bake the work, recycle this centre gripping work and carry out the filling work of side in the bread automatically when accomplishing the transmission, because this centre gripping process has already been centre gripping before the bread is unfinished to bake, and then can not peel the outward appearance belt when the release is taken out, the shaping of improvement product is simultaneously aesthetic property good.

It should be noted that the jam injection of one bread and one bread is adopted in the traditional jam injection, and the jam injection is adopted by the technical scheme through the cooperation of the transmission mechanism 1, the drying mechanism 2 and the core injection mechanism 3, the jam injection is adopted in batch, the bread is output in batch, and the processing working efficiency and the output quantity are high; in addition, the whole work is continuous, the jam injection is not needed, the work efficiency is further improved, the yield is improved, and the cost output is reduced.

Further, as shown in fig. 2, the first transmission assembly 11 includes a driving motor 111, a sprocket chain unit a112 driven by the driving motor 111, and a sprocket chain unit b113 driven synchronously with the sprocket chain unit a 112.

In the present embodiment, the sprocket chain unit a112 and the sprocket chain unit b113 are provided to support the carrier assembly 12.

Further, as shown in fig. 3, the bearing assembly 12 includes:

the base a121, two ends of the base a121 are fixedly arranged on the first transmission assembly 11; and

the supporting member 122 includes a tray 123 disposed above the base a121, a connecting column 124 having one end fixedly connected to the tray 123 and the other end fixedly connected to the base a121, a push plate 125 slidably disposed in a plurality of sets of sliding holes 120 formed in the tray 123, a telescopic unit a126 having one end fixedly connected to the base a121 and the other end fixedly connected to the push plate 125, and a control column a127 having one end fixedly connected to the push plate 125 and a sliding end disposed in a spherical structure.

Further, as shown in fig. 4 to 6, the positioning assembly 22 includes:

the two groups of synchronizing members 221 are symmetrically arranged on two sides of the first transmission assembly 11 along the bearing assembly 12, and each synchronizing member 221 includes a transmission member 2211, a first transmission gear 2212 for driving the transmission member 2211, a first transmission rack 2213 arranged on the transmission member 2211 and used for driving the first transmission gear 2212 to transmit, a telescopic unit b2214 with one end connected with the first transmission rack 2213 and the other end connected with the transmission member 2211, a draw bar a2215 arranged on the first transmission rack 2213 and having a semicircular structure, and a draw bar b2217 arranged on the draw bar a2215 in a structure matching with the draw bar a2215 and mounted on the bearing assembly 12 through a telescopic unit c 2216; and

the centering member 222 is disposed on the synchronizing member 221, and includes a support a2221, a control post b2222 slidably disposed on the support a2221 and having a spherical sliding end, a right-angle plate 2223 disposed on an inward end of the control post b2222, and a guide rail b2224 disposed to match with the control post b2222, where the guide rail b2224 includes a first guide portion 223, a horizontal portion 224, and a second guide portion 225, the first guide portion 223 is disposed gradually closer to the first transmission assembly 11 along the transmission direction of the first transmission assembly 11, and the second guide portion 225 is disposed gradually farther from the first transmission assembly 11 along the transmission direction of the first transmission assembly 11.

It should be noted that the amount of compression of telescopic unit c2216 is different from that of telescopic unit b2214, i.e. telescopic unit b2214 is elongated first, telescopic unit c2216 is compressed after the telescopic unit c 2214 is elongated to the limit state, and pull rod b2217 goes over pull rod a 2215.

In this embodiment, through setting up positioning assembly 22 cooperation first component 23 that divides, make the bread before treating the stoving work carry out automatic concentration, bread after the location is recycled first component 23 and is carried out horizontal autosegregation with the bread, avoid the difficult separation of stoving during operation bread adhesion together, recycle second component 25 cooperation centre gripping subassembly 24, the realization carries out fore-and-aft autosegregation to the bread, the integrative bread of bonding distinguishes when will baking, thereby accomplish the comprehensive separation work of bread group, the degree of automation is high.

In detail, the bread after the drying operation is conveyed backwards, in the conveying process, the pull rod b2217 acts on the pull rod a2215, the pull rod a2215 is pulled to move synchronously with the first transmission rack 2213, in the moving process, the first transmission rack 2213 drives the first transmission gear 2212 to rotate, in the rotating process, the transmission piece 2211 automatically transmits, in the conveying process, the control column b2222 is limited by the guide track b2224, the right-angle plate 2223 relatively moves to complete the centralized operation of the bread, and is automatically opened after being gathered, after the right-angle plate 2223 is fully opened, at the moment, the telescopic unit b2214 reaches the stretching limit, the pull rod b2217 passes over the pull rod a2215, and the pull rod a2215 automatically resets under the action of the telescopic unit b 2214.

Further, as shown in fig. 12 to 13, the first direction dividing component 23 includes a direction dividing rail 231, the direction dividing rail 231 is provided with a plurality of groups along the vertical direction of the transmission direction of the first transmission component 11, the direction dividing rail includes a direction dividing portion 201 and a parallel portion 202, and the parallel portion 202 is provided with a guide groove 203 along the length direction thereof.

In this embodiment, the bread is transferred to the branch rails 231 by arranging the branch rails 231, and the bread is guided by the branch rails 231 to enter different rails and is output in parallel and backwards because the input ends of the branch rails 231 are in a tip structure.

It should be noted that, by using the branch rail 231, after the inserting piece 242 is inserted into the bread, the bread is limited by the branch rail 231 and will not be deviated, and the inserting piece 242 is facilitated to be directly inserted into the bread.

Further, as shown in fig. 7 to 8 and 12 to 16, the clamping assembly 24 includes:

a second transmission assembly 241, wherein the second transmission assembly 241 is synchronously transmitted with the first transmission assembly 11;

the penetrating and inserting piece 242 is provided with a plurality of groups and is arranged corresponding to the bearing component 12 one by one, the penetrating and inserting piece 242 comprises a bracket b2421 arranged on the second transmission component 241, a sliding shaft 2423 with one end horizontally arranged on the bracket b2421 in a sliding manner through a spring 2422, a support plate 2424 arranged at one end of the sliding shaft 2423, a plurality of groups of penetrating and inserting shafts 2425 which are arranged at equal intervals along the length direction of the support plate 2424 and are rotatably arranged on the support plate 2424, the penetrating and inserting shafts 2425 are provided with a plurality of groups of pulp outlets, the support plate 2424 is arranged in a hollow manner, and the penetrating and inserting shafts 2425 are matched with the guide grooves in a sliding manner; and

the top support member 243, the top support member 243 includes a plurality of sets of control columns d2431 correspondingly disposed at the other end of the sliding shaft 2423 and a guide track d2432 for driving the control columns d2431 to reciprocate along the horizontal direction, the guide track d2432 includes a forward portion 2433, a support portion 2434 and a reset portion 2435, and a portion of the support portion 2434 located in the drying box is disposed in a wave structure up and down along the vertical direction.

In this embodiment, through setting up centre gripping subassembly 24, utilize centre gripping subassembly 24 cooperation stoving case 21 on the one hand, make the stoving in-process, centre gripping subassembly 24 is the unsettled centre gripping of bread and drives the bread and be the wave and wander away in the stoving incasement, improve and cure the effect, on the other hand utilizes centre gripping subassembly 24 cooperation injection subassembly 31, make the jam of pouring into bread pass through centre gripping subassembly 24 and pour into, avoid the syringe to insert from the bread surface that cures again, and then can not stick up the bread epidermis when extracting after accomplishing jam pouring into, improve the aesthetic property and the quality of bread, reduce the defective percentage.

In detail, the second transmission assembly 241 and the first transmission assembly 11 are synchronously transmitted, the control column d2431 on the sliding shaft 2423 slides in the guide track d2432, the guide track d2432 drives the support plate 2424 in front of the sliding shaft 2423 to move, the insertion shaft 2425 of the control column d2431 is inserted into the bread under the action of the advancing part 2433, after the control column d2431 is completely inserted into the bread, the control column d2431 moves up and down along the wave-shaped state under the action of the support part 2434 to complete the baking work, after the control column d2431 is moved out of the drying box, the control column d2431 moves horizontally under the action of the support part 2434 to perform the grouting work, and finally, the control column 2431 is reset under the action of the reset part 2435 to pull out the bread.

Further, as shown in fig. 9 to 11, the second directional component 25 includes a buffer 251 disposed on the penetrating shaft 2425 located at the middle position, and a buffer block a250 disposed above the first transmission component 11 and disposed in intermittent contact with the buffer 251, the buffer 251 includes a telescopic unit i252 and a buffer block b253 disposed on the telescopic unit i252, and the buffer block a250 and the buffer block b253 are disposed in a semicircular structure and matched in intermittent contact with each other.

It should be noted that the buffer member 251 is not required to be disposed on the insertion shaft 2425 located at the foremost end, and the rest of the buffer member need to be disposed.

Specifically, the buffer block b253 moves to the buffer block a250 and is limited, the telescopic unit i252 is compressed, the previous inserting shaft 2425 normally moves at the moment, bread on the front inserting shaft 2425 and the bread on the rear inserting shaft 2425 are automatically separated, when the telescopic unit i252 is compressed to a limit state, the buffer member 251 continues to move, the buffer block a250 moves upwards, the buffer block b253 crosses the buffer block a250, and the rear inserting shafts 2425 sequentially and mutually circulate to complete automatic tearing.

Further, as shown in fig. 17, the spraying assembly 31 includes a communicating pipe 311 disposed on the supporting plate 2424 and having a magnetic connection end, a jam box 312 disposed on one side of the second transmission assembly 241, a hose 313 communicated with the jam box 312, and an energized magnetic ring 314 sleeved on an end of the hose 313, wherein the energized magnetic ring 314 is slidably disposed in a moving track 316 through a telescopic unit j315, and two ends of the moving track 316 are both provided with a distance sensor.

In the embodiment, the spraying assembly 31 is arranged to complete the intermittent communication work of the clamping assembly 24, so as to realize the automatic feeding work of the jam.

In detail, when the communicating pipe 311 moves to the input end of the moving track 316, the distance sensor energizes the energized magnetic ring 314, the energized magnetic ring 314 generates magnetism to attract the communicating pipe 311 mutually, meanwhile, the distance sensor drives the hose 313 to open, jam in the jam box 312 sequentially enters the hose 313 from the jam box 312, then enters the communicating pipe 311 from the energized magnetic ring 314 through the hose 313, and then enters the supporting plate 2424 from the communicating pipe 311, when the energized magnetic ring 314 moves to the output end of the moving track 316 from the moving track 316, the distance sensor on the output end of the moving track 316 sends a signal to the energized magnetic ring 314 to lose power, the energized magnetic ring 314 loses magnetism, the energized magnetic ring 314 is separated from the communicating pipe 311, and meanwhile, the energized magnetic ring 314 closes the pump body for discharging the jam box 312 to work.

Further, as shown in fig. 18 to 20, the control assembly 42 includes:

the receiving frame 421 is arranged on the tray 123 through a telescopic unit k422, a plurality of groups of placing chambers 423 are uniformly formed in the receiving frame 421, a control column c424 is arranged on the telescopic unit k422, the control column c424 is arranged in a guide track c425 in a matching and sliding manner, the guide track c425 is gradually upward along the transmission direction of the first transmission assembly 11, the receiving frame 421 is arranged in an elastic material structure, and the guide track c425 and the reset part 2435 are arranged in the same direction; and

a guide rail a426, wherein the guide rail a426 is disposed above the first transmission assembly 11 and the guide rail a426 is gradually downward along the transmission direction of the first transmission assembly 11.

In this embodiment, the control component 42 is arranged to cooperate with the carrying component 12, the carrying component 12 is used to lift the material receiving frame 421 during the transmission process to complete the supporting work of the pulled-out bread, and the guide rail a426 is used to complete the downward pushing work of the bread, so that the bread is pushed out from the material receiving frame 421 to the output belt 41 for output.

In detail, after the processing is completed, the control column c424 moves into the guide track c425, the control column c424 drives the telescopic unit k422 to stretch upward to the lower side of the bread, the placing chamber 423 catches the corresponding bread, then, in the transmission process of the first transmission assembly 11, the control column a automatically moves downward under the driving of the guide track a426, the control column a127 drives the push plate 125 to press downward to extrude the bread to the transmission belt 41 for outputting, and the push plate 125 automatically resets under the action of the telescopic unit a 126.

Example two

As shown in fig. 7 to 8, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those 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. 7 to 8, the rotating assembly 32 includes a second transmission gear 321 coaxial and synchronously transmitting with the inserting shaft 2425, and a second transmission rack 322 disposed on the first transmission assembly 11 and engaged with the second transmission gear 321.

In this embodiment, through setting up rotating assembly 32, adopt the injection during operation to adopt automatic centrifugation to get rid of the mode of material output and replace traditional direct injection work for jam is abundant integrative with bread bonding, and then avoids jam from the inside and outside phenomenon of leaking of bread gap.

In detail, the second transmission gear 321 is meshed with the second transmission rack 322, the inserting shaft 2425 centrifugally throws jam into bread through the pulp outlet hole and is firmly bonded with the bread into a whole, and the bread fully absorbs the jam to avoid outflow.

The working process is as follows:

firstly, manually putting the bread group 10 on the tray 123 of the bearing component 12, and automatically conveying the bearing component 12 backwards under the action of the first transmission component 11;

then, the bread after the drying operation is conveyed backwards, in the conveying process, the pull rod b2217 acts on the pull rod a2215, the pull rod a2215 is pulled to move synchronously with the first transmission rack 2213, in the moving process, the first transmission rack 2213 drives the first transmission gear 2212 to rotate, in the rotating process, the transmission piece 2211 automatically transmits, in the conveying process, the control column b2222 is limited by the guide track b2224, the right-angle plate 2223 relatively moves to finish the bread concentration operation, and is automatically opened after being gathered, after the right-angle plate 2223 is fully opened, at this moment, the telescopic unit b2214 reaches the stretching limit, the pull rod b2217 crosses the pull rod a2215, and the pull rod a2215 automatically resets under the action of the telescopic unit b 2214;

then, the bread is transmitted to the branch rails, enters different rails in a branch direction under the guiding action of the branch rails 231, and is output in parallel and backwards;

then, the second transmission assembly 241 and the first transmission assembly 11 are synchronously transmitted, the control column d2431 on the sliding shaft 2423 slides in the guide track d2432, the guide track d2432 drives the supporting plate 2424 in front of the sliding shaft 2423 to move, the control column d2431 is inserted into the bread through the penetrating shaft 2425 under the action of the advancing part 2433, and after the control column d2431 is completely inserted into the bread, the control column d2431 moves up and down under the action of the supporting part 2434 along the wave-shaped state to complete the baking work;

then, the buffer block b253 moves to the buffer block a250 and is limited, the telescopic unit i252 is compressed, the previous inserting shaft 2425 normally moves at the moment, bread on the front inserting shaft 2425 and the bread on the rear inserting shaft 2425 are automatically separated, when the telescopic unit i252 is compressed to a limit state, the buffer member 251 continues to move, the buffer block a250 moves upwards, the buffer block b253 crosses the buffer block a250, the rear inserting shafts 2425 sequentially and circularly work with each other, and automatic tearing is completed;

then, when the communicating pipe 311 moves to the input end of the moving track 316, the distance sensor energizes the energized magnetic ring 314, the energized magnetic ring 314 generates magnetism to attract the communicating pipe 311 mutually, meanwhile, the distance sensor drives the hose 313 to open, the jam in the jam box 312 sequentially enters the hose 313 from the jam box 312, then enters the communicating pipe 311 from the energized magnetic ring 314 through the hose 313, and then enters the supporting plate 2424 from the communicating pipe 311, when the energized magnetic ring 314 moves to the output end of the moving track 316 from the moving track 316, the distance sensor on the output end of the moving track 316 sends a signal to the energized magnetic ring 314 to lose power, the energized magnetic ring 314 loses magnetism, the energized magnetic ring 314 is separated from the communicating pipe 311, and meanwhile, the energized magnetic ring 314 closes the pump body for discharging the jam box 312 to work;

finally, the control column c424 moves into the guide track c425, the control column c424 drives the telescopic unit k422 to stretch upwards to the lower side of the bread, the placing chamber 423 receives the corresponding bread, then, in the transmission process of the first transmission assembly 11, the control column a automatically moves downwards under the driving of the guide track a426, the control column a127 drives the push plate 125 to press downwards to extrude the bread to the transmission belt 41 to be output backwards, and the push plate 125 automatically resets under the action of the telescopic unit a 126.

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 (9)

1. The utility model provides an old bread automatic production device which characterized in that includes:

the conveying mechanism (1) comprises a first transmission assembly (11) and a plurality of groups of bearing assemblies (12) which are arranged on the first transmission assembly (11) at equal intervals;

the drying mechanism (2) comprises a drying box (21) sleeved outside the transmission mechanism (1), a positioning component (22) arranged at the input end of the drying box (21), a first directional component (23) arranged in the drying box (21) and performing transverse directional work, two groups of clamping components (24) symmetrically arranged at two sides of the directional component, and a second directional component (25) arranged outside the drying box (21) and matched with the clamping components (24) to perform longitudinal directional work;

the core injection mechanism (3) comprises a spraying assembly (31) and a rotating assembly (32), wherein the spraying assembly (31) is intermittently communicated with the clamping assembly (24), and the rotating assembly (32) is used for driving the spraying assembly (31) to perform centrifugal spraying; and

the output mechanism (4) comprises an output belt (41) arranged below the conveying mechanism (1) and a control assembly (42) for driving the bread (10) to perform discharging work;

the positioning assembly (22) comprises:

the synchronous pieces (221) are arranged in two groups and symmetrically arranged on two sides of the first transmission assembly (11) along the bearing assembly (12), and each synchronous piece (221) comprises a transmission piece (2211), a first transmission gear (2212) for driving the transmission piece (2211) to transmit, a first transmission rack (2213) arranged on the transmission piece (2211) and used for driving the first transmission gear (2212) to transmit, a telescopic unit b (2214) with one end connected with the first transmission rack (2213) and the other end connected with the transmission piece (2211), a pull rod a (2215) which is arranged on the first transmission rack (2213) and has a semicircular structure, and a pull rod b (2217) which is arranged on the pull rod a (2215) in a structure matching mode and is installed on the bearing assembly (12) through a telescopic unit c (2216); and

the centering piece (222) is arranged on the synchronizing piece (221), and comprises a support a (2221), a control column b (2222) which is arranged on the support a (2221) in a sliding mode and is of a spherical structure at the sliding end, a right-angle plate (2223) arranged at the inward end of the control column b (2222), and a guide track b (2224) which is matched with the control column b (2222), wherein the guide track b (2224) comprises a first guide part (223), a horizontal part (224) and a second guide part (225), the first guide part (223) is gradually close to the first transmission assembly (11) along the transmission direction of the first transmission assembly (11), and the second guide part (225) is gradually far away from the first transmission assembly (11) along the transmission direction of the first transmission assembly (11).

2. The automatic production device of the old bread as claimed in claim 1, wherein said first transmission assembly (11) comprises a driving motor (111), a sprocket chain unit a (112) driven by said driving motor (111) and a sprocket chain unit b (113) synchronously driven with said sprocket chain unit a (112).

3. An automatic production device of bread dough bags according to claim 1, characterized in that said carrying assembly (12) comprises:

the two ends of the base a (121) are fixedly arranged on the first transmission assembly (11); and

the support piece (122) comprises a tray (123) arranged above the base a (121), a connecting column (124) with one end fixedly connected with the tray (123) and the other end fixedly connected with the base a (121), a push plate (125) slidably arranged in a plurality of groups of sliding holes (120) formed in the tray (123), a telescopic unit a (126) with one end fixedly connected with the base a (121) and the other end fixedly connected with the push plate (125), and a control column a (127) with one end fixedly connected with the push plate (125) and the sliding end arranged in a spherical structure.

4. The automatic old bread production device as claimed in claim 3, wherein said first direction-dividing component (23) comprises a direction-dividing rail (231), said direction-dividing rail (231) is provided with a plurality of groups along the vertical direction of the transmission direction of said first transmission component (11), and said groups comprise a direction-dividing part (201) and a parallel part (202), said parallel part (202) is provided with a guide groove (203) along the length direction thereof.

5. Automatic production device of bread dough according to claim 4, characterized in that said gripping assembly (24) comprises:

a second transmission assembly (241), the second transmission assembly (241) is synchronously transmitted with the first transmission assembly (11);

the penetrating and inserting piece (242) is provided with a plurality of groups and is arranged in one-to-one correspondence with the bearing component (12), the penetrating and inserting piece (242) comprises a support b (2421) arranged on the second transmission component (241), a sliding shaft (2423) with one end horizontally arranged on the support b (2421) in a sliding mode through a spring (2422), a support plate (2424) arranged at one end of the sliding shaft (2423), and penetrating and inserting shafts (2425) which are arranged at equal intervals along the length direction of the support plate (2424) and are rotatably arranged on the support plate (2424), a plurality of groups of pulp outlets are arranged on the penetrating and inserting shafts (2425), the support plate (2424) is arranged in a hollow mode, and the penetrating and inserting shafts (2425) are arranged in a sliding mode in matching with the guide grooves; and

the top support piece (243), the top support piece (243) comprises a plurality of groups of control columns d (2431) correspondingly arranged at the other end of the sliding shaft (2423) and a guide track d (2432) used for driving the control columns d (2431) to reciprocate along the horizontal direction, the guide track d (2432) comprises a forward portion (2433), a supporting portion (2434) and a reset portion (2435), and the supporting portion (2434) is arranged in a wave structure up and down along the vertical direction.

6. The automatic old bread producing device according to claim 5, characterized in that the second diverting component (25) includes a buffer component (251) disposed on the inserting shaft (2425) at the middle position and a buffer block a (250) disposed above the first transmission component (11) and disposed in intermittent contact with the buffer component (251), the buffer component (251) includes a telescopic unit i (252) and a buffer block b (253) disposed on the telescopic unit i (252), and the buffer block a (250) and the buffer block b (253) are disposed in a semicircular structure and matched with the intermittent contact.

7. The automatic production device of the old bread as claimed in claim 5, characterized in that the injection assembly (31) includes a communicating pipe (311) which is arranged on the support plate (2424) and the connection end of which is a magnetic structure, a jam box body (312) which is arranged on one side of the second transmission assembly (241), a hose (313) which is communicated with the jam box body (312), and an energizing magnetic ring (314) which is sleeved on the end of the hose (313), the energizing magnetic ring (314) is slidably arranged in a moving track (316) through a telescopic unit j (315), and distance sensors are arranged at two ends of the moving track (316).

8. An automatic production device of bread dough according to claim 5, characterized in that said rotating assembly (32) comprises a second transmission gear (321) coaxial and synchronous with said inserting shaft (2425) and a second transmission rack (322) arranged on said first transmission assembly (11) and meshed with said second transmission gear (321).

9. An automatic production device of bread dough pieces according to claim 5, characterized in that said control assembly (42) comprises:

the material receiving frame (421), the material receiving frame (421) is arranged on the tray (123) through a telescopic unit k (422), a plurality of groups of placing chambers (423) are uniformly formed in the material receiving frame, a control column c (424) is arranged on the telescopic unit k (422), the control column c (424) is arranged in a guide track c (425) in a matching sliding mode, the guide track c (425) gradually faces upwards along the transmission direction of the first transmission assembly (11), the material receiving frame (421) is arranged in an elastic material structure, and the guide track c (425) and the reset part (2435) are arranged in the same direction; and

the guide rail a (426), the guide rail a (426) is arranged above the first transmission assembly (11) and the guide rail a (426) is gradually downward along the transmission direction of the first transmission assembly (11), and the control column a (127) is matched and slidingly arranged in the guide rail a (426).

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