Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a safety performance detection device for an electric flexible insulation appliance, and solves the problems in the background art.
In order to achieve the above purpose, the invention is realized by the following technical scheme:
the automatic charging and baking production line for flaky pastry processing comprises a conveying belt, wherein an egg liquid discharging assembly is arranged at the top of the conveying belt, a transfer receiving assembly is arranged at the output end of the conveying belt, oil discharging assemblies are symmetrically arranged at the top of the transfer receiving assembly, and sesame discharging assemblies are arranged between the two groups of oil discharging assemblies; the output end of the transfer receiving component is provided with an oven;
the transfer bearing assembly comprises a main supporting plate, a plurality of groups of conveying side wheels are arranged on two sides of the main supporting plate, a center block is arranged at the center line of the bottom surface of the main supporting plate, the side sections of the center block are isosceles trapezoids with wide upper parts and narrow lower parts, two ends of the center block are rotatably arranged on the inner walls of the top ends of fourth supporting side plates, a third supporting side plate is arranged on the outer side of each fourth supporting side plate, a second motor is arranged on the outer wall of each third supporting side plate, an output shaft of the second motor rotatably penetrates through the third supporting side plate and the fourth supporting side plate, and the output end of the second motor is fixedly connected with the center block;
the automatic sowing device comprises the following states:
in the first state, the conveyor belt conveys the tray to the lower part of the egg liquid discharge assembly section by section, and the tray is internally provided with round flaky pastry dough distributed in a rectangular array; the egg liquid discharging assembly sequentially carries out egg liquid uniform smearing treatment on each row of flaky pastry dough;
in the second state, the tray is transferred onto the main supporting plate from the conveying belt, and the conveying side wheels convey the tray section by section to the position below the sesame blanking assembly;
the second motor drives the main supporting plate to incline to one side, the sesame blanking component automatically spills sesame to the center of the flaky pastry dough and the cambered surface on one side, and meanwhile, the two groups of oil discharging components discharge edible oil to two sides of the flaky pastry dough;
the second motor drives the main supporting plate to incline to the other side, and the sesame blanking component automatically spills sesame to the center of the flaky pastry dough and the cambered surface on the other side; at the same time, the oil is uniformly dispersed in the tray.
Further, the sesame blanking assembly comprises a sesame storage tank, a guide cylinder, a guide square pipe and a rotary column; the bottom end of the sesame storage tank is vertically communicated with a plurality of guide barrels, a group of guide square pipes are correspondingly communicated below each guide barrel, the inside of each guide square pipe is provided with a flat blanking channel, the lower part of each guide square pipe corresponds to one flaky pastry dough, and the length of each guide square pipe is larger than the outer diameter of the flaky pastry dough; the inside level of guide side pipe installs the steering column, and the third motor is connected to the outer end of steering column, and the holding tank has been seted up to outer wall one side of steering column, and two holding tanks are parallel to each other and the opening is all different.
Further, a middle rotating wheel is arranged on the outer wall of an output shaft of the second motor, the middle rotating wheel is connected with a driven wheel through a transmission belt, the driven wheel is arranged at the top end of the back of the third supporting side plate, an abutting block is arranged on the outer wall of the driven wheel, and a stirring assembly which is horizontally distributed is arranged in the guide cylinder;
the stirring assembly comprises a movable column, the movable column penetrates through the guide cylinder in a sliding manner, a second stirring rod is arranged on the outer wall of the inner end of the movable column, the movable column penetrates through the fixed sleeve in a sliding manner, the fixed sleeve is horizontally and fixedly arranged on the outer wall of the guide cylinder, a matching block is arranged at the outer extending end part of the movable column, a spring is arranged between the matching block and the fixed sleeve, and the spring is sleeved outside the movable column; when the second motor drives the main supporting plate to rotate, the driven wheel is synchronously driven to rotate, and the abutting block abuts against the matching block so as to drive the second stirring rod to stir the sesame in the material guiding barrel horizontally.
Furthermore, the two sides of the center block are symmetrically provided with stop frames, and the top end of each stop frame is provided with a baffle plate which is obliquely arranged; the baffle is used for being attached to the inclined plane of the stop center block.
Further, the oil extraction subassembly includes the bottom plate, and the bottom plate sets firmly in the top of two third support curb plates, and the inside symmetry of bottom plate runs through there is the oil scattering board, and oil collecting pipe is seted up to the top of oil scattering board, the inside of oil scattering board, oil collecting pipe and edible oil holding vessel intercommunication.
Further, the egg liquid discharging assembly comprises an egg liquid storage tank, two ends of the egg liquid storage tank are fixedly arranged at the top end of the first supporting side plate through side rod bodies, driving rods are fixedly arranged at two ends of the egg liquid storage tank, the bottom ends of the driving rods are connected with lower constraint plates which are horizontally arranged, and egg liquid guiding assemblies which are distributed in a linear array are vertically arranged in the lower constraint plates; the egg liquid guiding-out assembly comprises a liquid guide pipe, the liquid guide pipe vertically rotates to penetrate through the lower constraint plate, a plurality of liquid inlet holes are formed in the top end of the outer wall of the liquid guide pipe, a plurality of inner pipes are arranged in the egg liquid storage tank, the liquid guide pipe vertically clings to and slides to penetrate through the inner pipes, and liquid discharge holes are formed in the bottom end of the outer wall of the inner pipes;
when the flaky pastry dough does not move to the lower part of the liquid guide pipe, the liquid guide pipe is lifted up, the liquid inlet hole is positioned above the liquid discharge hole, and the liquid guide pipe is attached to and seals the liquid discharge hole;
when the flaky pastry dough moves to the lower part of the liquid guide pipe, the driving rod drives the lower constraint plate to move downwards so as to synchronously drive each liquid guide pipe to move downwards, and when the liquid guide pipe is close to the flaky pastry dough, the liquid inlet hole is correspondingly communicated with the liquid outlet hole, so that egg liquid in the egg liquid storage tank is output to the center of the surface of the flaky pastry dough through the liquid outlet hole, the liquid inlet hole and the liquid guide pipe.
Further, the bottom surface both ends of restraint board down all are equipped with the second perpendicularly and support the curb plate, install between two second support curb plates and rotate drive assembly, and the outer wall bottom of catheter is equipped with shakeout the subassembly, and the top of catheter is equipped with first puddler, and the catheter is when flowing back, rotates drive assembly drive catheter rotation to drive shakeout subassembly and first puddler synchronous rotation, shakeout the subassembly and evenly smear the egg liquid on the surface of flaky pastry dough, the egg liquid in the egg liquid storage tank is stirred to first puddler.
Further, the rotation driving assembly comprises a rack and a first motor, the rack horizontally slides to penetrate through the second support side plate, the output end of the first motor is connected with the rack in a meshed mode, the outer wall of the bottom end of each liquid guide tube is provided with a driven toothed ring, and the rack is connected with the driven toothed rings in a meshed mode.
Further, the flattening component comprises a mounting sleeve and a flattening cover, wherein the mounting sleeve is mounted on the outer wall of the bottom end of the liquid guide pipe through screws, the mounting sleeve is located below the driven toothed ring, the flattening cover is symmetrically arranged on two sides of the liquid guide pipe, the bottom surface of the flattening cover is arc-shaped, bristles are embedded into the bottom surface of the flattening cover, the top surface of the flattening cover is fixedly connected with the mounting sleeve through a connecting frame, and when the flattening cover rotates, the bristles smear dropped egg liquid on the center and the arc-shaped side surface of the flaky dough.
Further, the feed door is installed to one side of oven, the discharge door is installed to the opposite side, and business turn over conveying assembly is installed at the inside top of oven, installs the lifting assembly between oven and the main layer board, and the lifting assembly is used for lifting the baking frame section by section to accept the tray of main layer board output, business turn over conveying assembly is used for carrying the baking frame to the oven in.
The invention provides an automatic feeding and baking production line for flaky pastry processing. Compared with the prior art, the device comprises the following components
The beneficial effects are that:
1. the egg liquid discharge assembly can have the following effects: 1.1, the egg liquid can be automatically smeared on the flaky pastry dough without manual smearing, so that the automatic processing of food is realized, and the processing efficiency is higher; 1.2, the egg liquid is smeared before the sesame is scattered, so that the following effects can be achieved: the egg liquid becomes golden yellow after baking, so that the flaky pastry is more attractive; the egg liquid can increase the taste of the flaky pastry; sesame can be adhered to egg liquid when falling down, so that the sesame can be stably adhered to flaky pastry;
2. the oil discharging assembly can automatically throw edible oil into the tray without manual addition, so that the baking speed of the edible oil can be improved, and the sticking of the cooking pot is avoided; the oil discharging component can discharge edible oil to two sides of the flaky pastry dough, and the edible oil cannot be directly dropped on the flaky pastry dough;
3. the sesame dropping component can automatically lead out sesame to the flaky pastry dough without manually scattering the sesame;
4. the transfer receiving component adopts a design capable of being turned back and forth, and the design can achieve the following effects at the same time:
4.1, when the transfer receiving component turns to one side, one side cambered surface of the flaky pastry dough can gradually rotate upwards to be right below the sesame blanking component, so that when sesame falls, the sesame can uniformly fall on the cambered surface of the flaky pastry dough in the movement process, the sesame can uniformly cover the side cambered surface of the flaky pastry dough, and meanwhile, the covered sesame cannot fall off due to the fact that the sesame is matched with egg liquid smeared in advance; so as to ensure that sesame can be fully discharged to ensure the taste, and can be uniformly covered on the flaky pastry dough without being scattered; after one side is covered, the transfer receiving assembly turns over to the other side, so that the sesame with the cambered surface on the other side is uniformly covered; and 4.2, when the tray shakes left and right, the edible oil can be driven to be evenly spread in the tray, so that spreading work of the edible oil can be synchronously completed in the process of automatically covering sesame, and workers are not required to shake the tray again to spread the edible oil.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
In order to solve the technical problem in the background art, the following safety performance detection device for the electric flexible insulating appliance is provided:
referring to fig. 1-13, the automatic charging and baking production line for flaky pastry processing provided by the invention comprises a conveying belt 1, wherein an egg liquid discharging assembly 2 is arranged at the top of the conveying belt 1, a transfer receiving assembly 3 is arranged at the output end of the conveying belt 1, oil discharging assemblies 5 are symmetrically arranged at the top of the transfer receiving assembly 3, and a sesame discharging assembly 6 is arranged between the two groups of oil discharging assemblies 5; the output end of the transfer receiving component 3 is provided with an oven 9b;
the transfer bearing assembly 3 comprises a main supporting plate 31, a plurality of groups of conveying side wheels 32 are arranged on two sides of the main supporting plate 31, a center block 311 is arranged at the center line of the bottom surface of the main supporting plate 31, the side section of the center block 311 is in an isosceles trapezoid shape with wide upper part and narrow lower part, two ends of the center block 311 are rotatably arranged on the top inner wall of a fourth supporting side plate 36, a third supporting side plate 34 is arranged on the outer side of each fourth supporting side plate 36, a second motor 33 is arranged on the outer wall of the third supporting side plate 34, an output shaft of the second motor 33 rotatably penetrates through the third supporting side plate 34 and the fourth supporting side plate 36, and the output end of the second motor 33 is fixedly connected with the center block 311;
the automatic sowing device comprises the following states:
in the first state, the conveyor belt 1 conveys the tray 9a to the lower part of the egg liquid discharge assembly 2 section by section, and the tray 9a is internally provided with round flaky pastry dough distributed in a rectangular array; the egg liquid discharging assembly 2 sequentially carries out egg liquid uniform smearing treatment on each row of flaky pastry dough;
in the second state, the tray 9a is transferred onto the main supporting plate 31 from the conveyor belt 1, and the conveying side wheels 32 convey the tray 9a to the position below the sesame blanking assembly 6 section by section;
the second motor 33 drives the main supporting plate 31 to incline to one side, the sesame blanking component 6 automatically throws sesame on the center and one side cambered surface of the flaky pastry dough, and meanwhile, the two groups of oil discharging components 5 discharge edible oil to two sides of the flaky pastry dough;
the second motor 33 drives the main supporting plate 31 to incline to the other side, and the sesame blanking component 6 automatically throws sesame on the center of the flaky pastry dough and the cambered surface of the other side; at the same time, the oil spreads evenly in the tray 9 a.
The technical scheme is as follows:
1. the arrangement of the egg liquid discharge assembly 2 can have the following effects: 1.1. the egg liquid can be automatically smeared on the flaky pastry dough without manual smearing, so that automatic food processing is realized, and the processing efficiency is higher; 1.2, the egg liquid is smeared before the sesame is scattered, so that the following effects can be achieved: the egg liquid becomes golden yellow after baking, so that the flaky pastry is more attractive; the egg liquid can increase the taste of the flaky pastry; sesame can be adhered to egg liquid when falling down, so that the sesame can be stably adhered to flaky pastry;
2. the oil discharging assembly 5 can automatically throw edible oil into the tray 9a, manual addition is not needed, the baking speed of the edible oil can be improved, and the sticking of a pan is avoided; the oil discharging component 5 can discharge edible oil to two sides of the flaky pastry dough, and the edible oil cannot be directly dropped on the flaky pastry dough;
3. the sesame dropping component can automatically lead out sesame to the flaky pastry dough without manually scattering the sesame;
4. the transfer receiving component 3 adopts a design capable of being turned back and forth, and the design can achieve the following effects at the same time:
4.1, when the transfer receiving component 3 turns to one side, one side cambered surface of the flaky pastry dough can gradually rotate upwards to be right below the sesame blanking component 6, so that when sesame falls, the sesame can uniformly fall on the cambered surface of the flaky pastry dough in the movement process, the sesame can uniformly cover the side cambered surface of the flaky pastry dough, and meanwhile, the covered sesame cannot fall due to the fact that the sesame is matched with egg liquid which is smeared in advance; thereby ensuring that sesame can be fully discharged to ensure the taste, and can be uniformly covered on the flaky pastry dough without being scattered.
After one side is covered, the transfer receiving component 3 turns over to the other side, so that the sesame with the cambered surface on the other side is uniformly covered;
4.2, when rocking about, can drive edible oil and evenly spread out in tray 9a, like this at the automatic in-process that covers of sesame, can accomplish the spreading out work of edible oil in step, need not the workman and shake tray 9a again and spread out edible oil.
Example two
On the basis of the above embodiment, the present embodiment further provides the following:
in order to enable the sesame blanking assembly 6 to achieve the automatic blanking effect, the following scheme is given:
in this embodiment, the sesame blanking assembly 6 includes a sesame storage tank 61, a guide cylinder 62, a guide square tube 63, and a rotary column 64; the bottom end of the sesame storage tank 61 is vertically communicated with a plurality of guide barrels 62, a group of guide square pipes 63 are correspondingly communicated below each guide barrel 62, the interiors of the guide square pipes 63 are flat blanking channels, a flaky pastry dough is correspondingly arranged below each guide square pipe 63, and the length of each guide square pipe 63 is larger than the outer diameter of the flaky pastry dough; the rotary column 64 is horizontally installed in the guide square tube 63, the outer end of the rotary column 64 is connected with the third motor 642, the accommodating groove 641 is formed in one side of the outer wall of the rotary column 64, and the two accommodating grooves 641 are arranged in parallel and are different in opening.
In the above-mentioned scheme, sesame in the sesame storage tank 61 is dispersed into each guide cylinder 62, sesame in each guide cylinder 62 is conveyed into the corresponding guide square tube 63, when two accommodation grooves 641 of the rotary column 64 are located above, the rotary column 64 seals the guide square tube 63 to avoid sesame falling, when the flaky pastry dough moves to the lower part of the guide square tube 63, the third motor 642 drives the rotary column 64 to rotate, and when the two accommodation grooves 641 rotate to the lower part, the sesame in the accommodation grooves 641 falls onto the flaky pastry dough to complete automatic falling control of the sesame.
In this embodiment, a middle rotating wheel 331 is disposed on the outer wall of the output shaft of the second motor 33, the middle rotating wheel 331 is connected with a driven wheel 38 through a transmission belt 37, the driven wheel 38 is mounted on the top end of the back of the third supporting side plate 34, an abutting block 381 is disposed on the outer wall of the driven wheel 38, and a stirring assembly 4 distributed horizontally is mounted in the guide cylinder 62;
the stirring assembly 4 comprises a movable column 41, the movable column 41 penetrates through a guide cylinder 62 in a sliding manner, a second stirring rod 42 is arranged on the outer wall of the inner end of the movable column 41, the movable column 41 penetrates through a fixed sleeve 43 in a sliding manner, the fixed sleeve 43 is horizontally fixed on the outer wall of the guide cylinder 62, a matching block 45 is arranged at the extending end part of the movable column 41, a spring 44 is arranged between the matching block 45 and the fixed sleeve 43, and the spring 44 is sleeved outside the movable column 41; when the second motor 33 drives the main supporting plate 31 to rotate, the driven wheel 38 is synchronously driven to rotate, and the abutting block 381 abuts against the matching block 45 to drive the second stirring rod 42 to stir the sesame in the material guiding barrel 62 horizontally.
In the above technical solution, the second motor 33 synchronously drives the driven wheel 38 to rotate during the process of driving the main supporting plate 31 to turn over, so as to drive the second stirring rod 42 to stir the sesame horizontally, thereby avoiding the sesame stacking and blocking in the guiding cylinder 62 and ensuring the blanking speed.
In this embodiment, the two sides of the center block 311 are symmetrically provided with stop frames 35, and the top end of each stop frame 35 is provided with a baffle 351 which is obliquely arranged; the baffle 351 is used for fitting the inclined surface of the stop center block 311.
In the above technical solution, the baffle 351 is designed to stop the center block 311 in an inclined state when the second motor 33 drives the center block 311 to rotate, so as to ensure the stability of the main pallet 31 in an inclined state and ensure the rotation precision of the main pallet 31.
In this embodiment, the oil drain assembly 5 includes a bottom plate 51, the bottom plate 51 is fixedly disposed at the top ends of the two third supporting side plates 34, the oil drain plate 53 symmetrically penetrates through the bottom plate 51, the top end of the oil drain plate 53 is communicated with the oil collecting pipe 531, a plurality of vertical through holes are formed in the oil drain plate 53, and the oil collecting pipe 531 is communicated with the edible oil storage tank 52.
In the above-mentioned scheme, the edible oil in the edible oil storage tank 52 is pumped to the oil collecting pipe 531 by the oil pump, and then is dispersed and output by the oil dispersing plate 53, so that the edible oil is rapidly discharged into the tray 9 a.
Example III
On the basis of the above embodiment, the present embodiment further provides the following:
in order to enable the egg liquid discharging assembly 2 to achieve the above effect, the egg liquid discharging assembly 2 needs to solve two problems of automatic discharging, no outflow of egg liquid into the tray 9a, and the following scheme is provided in this embodiment:
in this embodiment, the egg liquid discharging assembly 2 includes an egg liquid storage tank 21, two ends of the egg liquid storage tank 21 are fixedly disposed at the top end of the first supporting side plate 22 through side rod bodies 211, two ends of the egg liquid storage tank 21 are fixedly provided with driving rods 23, the bottom ends of the driving rods 23 are connected with a lower constraint plate 24 which is horizontally arranged, and an egg liquid guiding assembly 25 which is linearly distributed in array is vertically installed inside the lower constraint plate 24; the egg liquid guiding-out assembly 25 comprises a liquid guiding tube 251, the liquid guiding tube 251 vertically rotates to penetrate through the lower constraint plate 24, a plurality of liquid inlet holes 2511 are formed in the top end of the outer wall of the liquid guiding tube 251, a plurality of inner tubes 212 are mounted in the egg liquid storage tank 21, the liquid guiding tube 251 vertically slides in a fitting mode to penetrate through the inner tubes 212, and liquid draining holes 2121 are formed in the bottom end of the outer wall of the inner tubes 212;
when the flaky pastry dough does not move below the liquid guide pipe 251, the liquid guide pipe 251 is lifted, the liquid inlet 2511 is positioned above the liquid outlet 2121, and the liquid guide pipe 251 is attached to and seals the liquid outlet 2121;
when the flaky pastry dough moves to the lower part of the liquid guide pipes 251, the driving rod 23 drives the lower constraint plate 24 to move downwards so as to synchronously drive each liquid guide pipe 251 to move downwards, and when the liquid guide pipes 251 are close to the flaky pastry dough, the liquid inlet 2511 and the liquid outlet 2121 are correspondingly communicated, so that egg liquid in the egg liquid storage tank 21 is output to the center of the surface of the flaky pastry dough through the liquid outlet 2121, the liquid inlet 2511 and the liquid guide pipes 251.
In the technical proposal, the utility model has the advantages that,
the automatic egg liquid discharging process is controlled by the lifting of the driving rod 23, in the closed state, the liquid inlet 2511 is positioned above the liquid outlet 2121, and when the flaky pastry dough moves to the lower part of the liquid guide tube 251, the driving rod 23 drives the lower constraint plate 24 to move downwards, and the following effects can be achieved simultaneously:
1. the lower constraint plate 24 drives each liquid guide tube 251 to move downwards, so that the bottom end of each liquid guide tube 251 is close to the flaky pastry dough, accurate alignment is realized, and egg liquid can be accurately dispersed from the center of the flaky pastry dough to the periphery;
2. when the liquid guide tube 251 descends to the bottom end, the liquid inlet 2511 is aligned with the liquid discharge hole 2121, so that automatic alignment liquid discharge is realized.
The above technical solution can realize automatic output of egg liquid, but the egg liquid gathers in the center department, fails to evenly cover flaky pastry dough, and the egg liquid flows out easily to tray 9a on, in order to solve this problem, provides following scheme:
in this embodiment, the two ends of the bottom surface of the lower constraining plate 24 are vertically provided with second supporting side plates 241, a rotation driving assembly 26 is installed between the two second supporting side plates 241, a leveling assembly 27 is disposed at the bottom end of the outer wall of the liquid guiding tube 251, a first stirring rod 252 is disposed at the top end of the liquid guiding tube 251, the liquid guiding tube 251 is driven by the rotation driving assembly 26 to rotate when the liquid guiding tube 251 discharges liquid, so as to drive the leveling assembly 27 and the first stirring rod 252 to rotate synchronously, the leveling assembly 27 uniformly smears egg liquid on the surface of the flaky pastry dough, and the first stirring rod 252 stirs the egg liquid in the egg liquid storage tank 21.
In the above solution, the rotation driving assembly 26 is disposed at the side of the catheter 251, and can drive the catheter 251 to rotate, and this rotation action can achieve the following effects at the same time:
1. the liquid guiding tube 251 can drive the first stirring rod 252 to synchronously rotate so as to accelerate the egg liquid flowing-down speed; solves the problem of low feeding speed of the viscous egg liquid;
2. the liquid guide tube 251 can drive the flattening component 27 at the bottom to rotate, and the flattening component 27 can immediately perform smearing action when the liquid guide tube 251 discharges egg liquid onto the flaky pastry dough, so that the egg liquid can be automatically smeared on the surface of the whole flaky pastry dough, the smearing uniformity can be ensured, the egg liquid can be prevented from flowing out, and meanwhile, the uniform smearing in the step can also ensure that the egg liquid can be adhered to sesame on the cambered surface of the flaky pastry dough when sesame is scattered later.
In this embodiment, the rotation driving assembly 26 includes a rack 261 and a first motor 262, the rack 261 horizontally slides through the second supporting side plate 241, the output end of the first motor 262 is engaged with the rack 261, the outer wall of the bottom end of each catheter 251 is provided with a driven toothed ring 273, and the rack 261 is engaged with a plurality of driven toothed rings 273.
In the above-mentioned scheme, the first motor 262 drives the rack 261 to translate, and can drive each driven toothed ring 273 to rotate, so as to drive each catheter 251 to rotate.
In this embodiment, the leveling component 27 includes a mounting sleeve 271 and a leveling cover 272, the mounting sleeve 271 is mounted on the bottom outer wall of the liquid guide tube 251 by screws, the mounting sleeve 271 is located below the driven toothed ring 273, the leveling cover 272 is symmetrically disposed on two sides of the liquid guide tube 251, the bottom surface of the leveling cover 272 is arc-shaped, the bottom surface of the leveling cover 272 is embedded with bristles, the top surface of the leveling cover 272 is fixedly connected with the mounting sleeve 271 by a connecting frame 2721, and when the leveling cover 272 rotates, the bristles smear the dropped egg liquid on the center and the arc-shaped side surface of the flaky dough.
In the scheme, the flattening cover 272 is designed into an arc shape, so that the shape of the flaky pastry dough can be better adapted, and the bristles can uniformly coat egg liquid on the surface of the flaky pastry dough; the flattening cover 272 is detachably mounted on the material guiding pipe through the mounting sleeve 271, so that the flattening component 27 is convenient to detach to clean the bristles.
Example IV
On the basis of the above embodiment, the present embodiment further provides the following:
in the traditional tray 9a loading process, the workers pay attention to the placement one by one, the workers are required to load and unload materials, the whole baking and loading operation is troublesome and time-consuming, and in order to solve the problem, the following scheme is provided:
in this embodiment, a feeding door 91b is installed on one side of the oven 9b, a discharging door 92b is installed on the other side, an in-out conveying assembly 8 is installed on the top of the oven 9b, a lifting assembly 7 is installed between the oven 9b and the main pallet 31, the lifting assembly 7 is used for lifting the baking rack 9 section by section to receive a tray 9a output by the main pallet 31, and the in-out conveying assembly 8 is used for conveying the baking rack 9 into the oven 9 b.
In the above scheme, the lifting assembly 7 can drive the baking rack 9 to move up section by section, so that the object placing table of the baking rack can be aligned with the outlet end of the main supporting plate 31, when the conveying side wheel 32 drives the tray 9a to output, the tray 9a can be automatically transferred to the object placing table, and then the lifting assembly 7 automatically sends the baking rack 9 into the oven 9b, so that automatic feeding is realized;
the lifting assembly 7 comprises a fifth supporting side plate 71, a first toothed plate 72, a fourth motor 73 and a lifting plate 74, wherein the fifth supporting side plate 71 is symmetrically arranged on the side part of the baking rack 9, the first toothed plate 72 is slidably arranged on the outer wall of the fifth supporting side plate 71, the fourth motor 73 is arranged on the side wall of the fifth supporting side plate 71, the output end of the fourth motor 73 is in meshed connection with the first toothed plate 72, the lifting plate 74 is arranged at the bottom end of the first toothed plate 72, and the lifting plate 74 extends to the inner side of the fifth supporting side plate 71.
The in-out conveying assembly 8 comprises a fifth motor 81, a second toothed plate 82 and a pushing plate 83, the fifth motor 81 is mounted on the top surface of the oven 9b, the output end of the fifth motor 81 is connected with the second toothed plate 82 in a meshed mode, the second toothed plate 82 is slidably mounted on the inner top surface of the oven 9b, the bottom surface of the outer end of the second toothed plate 82 is vertically provided with the L-shaped pushing plate 83, the top surface of the baking frame 9 is provided with a hanging frame 91, and the pushing plate 83 can be inserted into the hanging frame 91 in a matched mode.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.