Disclosure of Invention
The invention aims to provide an automatic production and forming device for crisp foods, which aims to solve the problems in the prior art.
The purpose of the invention can be realized by the following technical scheme:
the utility model provides a crisp class food automatic production forming device, forming device is including carrying the platform, forming device still includes:
the mould frame is rotationally arranged on the conveying table;
the material guide piece is fixedly arranged on the conveying platform;
and the feeding frame is arranged on the conveying table and is connected with the material guide piece.
The feeding frame is provided with a feeding conveying belt and a tensioning structure, the tensioning structure comprises an ejector rod, a steering rod, a tensioning rod and a driving rod, and the tensioning rod and the ejector rod move synchronously.
Furthermore, carry the bench to be equipped with the pillar that is used for installing the mould frame, carry the bench to be equipped with ejection of compact conveyer belt, carry the bench and be located ejection of compact conveyer belt's both sides and be equipped with the recess of symmetric distribution, the recess internal fixation is equipped with the backup pad.
Further, the mould frame is connected with the conveying table through a rotating part, the rotating part comprises a connecting plate, one side of the connecting plate is provided with a cross groove, the other side of the connecting plate is fixedly provided with a supporting rod, the supporting rod is matched with the connecting hole, and the connecting plate is matched with the circular groove.
Furthermore, a plurality of mutually perpendicular die plates are arranged on the die frame, die grooves are formed in the die plates, pressing plates capable of moving up and down are arranged on the die plates, cross blocks are arranged at two ends of the die frame and matched with the cross grooves, and limiting grooves are formed in the die frame.
Furthermore, the material guide piece comprises a base arranged on the supporting plate, symmetrically distributed positioning rods are fixedly arranged on the base, a through hole is formed in the base, a material guide plate is connected to the base, and the material guide plate is arranged on the discharging conveyor belt.
The feeding conveyer belt is installed on the tensioning structure, is equipped with the fixed plate on the feeding frame, is equipped with the through-hole on the fixed plate, is equipped with the locating hole on the fixed plate, is equipped with the switch plate on the feeding frame, rotates the installation pole that is equipped with symmetric distribution on the feeding frame, and it is equipped with the carriage release lever to slide on the installation pole, fixedly is equipped with the U-shaped frame between the installation pole.
Furthermore, the positioning hole is matched with the positioning rod, and the positioning hole penetrates through the through hole and the through hole through bolts to be matched with the threaded hole.
Further, the ejector pin sets up the one end at the carriage release lever, and the tensioning rod slides and sets up on the U-shaped frame, and the tensioning rod is through removing frame and sliding tray sliding connection, and one side of removing the frame is fixed and is equipped with the rack, rotates on the U-shaped frame and is equipped with the gear.
The connecting rod is obliquely arranged between the moving rod and the moving frame, the driving rod is rotatably arranged between the mounting rods and located on the tensioning rod, the steering rod is fixedly arranged between the mounting rods, and limiting rods are arranged at two ends of the steering rod.
Furthermore, the gear is matched with the rack, and the limiting rod is matched with the limiting groove.
The invention has the beneficial effects that:
1. according to the forming device, the feeding is carried out through the feeding frame, the dough of the crisp food is accurately placed into the forming die groove, and is quickly shaped through pressing, so that the crisp food is formed into the required crisp shape, the production efficiency is high, the automatic blanking is carried out, and the material conveying is carried out;
2. according to the forming device, any one die groove is damaged, production is continued, defective products are picked out, the production process is not influenced, the tensioning structure is convenient to adjust, and the feeding accuracy is improved.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The utility model provides a crisp class food automatic production forming device, as shown in figure 1, forming device is including carrying platform 1, carries and is equipped with mould frame 3 on the platform 1, and mould frame 3 rotates with carrying platform 1 through rotating piece 2 to be connected, carries and fixedly on the platform 1 to be equipped with guide 4, is equipped with feeding frame 5 on the guide 4, and feeding frame 5 will be used for making crisp class food the dough carry mould frame 3 on.
As shown in fig. 2, the transportation table 1 is fixedly provided with symmetrically distributed pillars 11, the pillars 11 are provided with circular grooves 15, the pillars 11 are provided with connecting holes 14, the connecting holes 14 penetrate through the pillars 11 and are communicated with the circular grooves 15, one side of one pillar 11 is fixedly provided with a first motor 10, an output end of the first motor 10 is provided with a first bevel gear 13, the transportation table 1 is fixedly provided with a discharge conveyor belt 12, the transportation table 1 is provided with symmetrically distributed grooves 16, the grooves 16 are located on two sides of the discharge conveyor belt 12, the grooves 16 are internally fixedly provided with supporting plates 161, the supporting plates 161 are provided with horizontal grooves 18, and the supporting plates 161 are provided with threaded holes 17.
As shown in fig. 3, the rotating member 2 is mounted on the supporting column 11 and located at two ends of the mold frame 3, and is used for supporting the mold frame 3 and controlling the mold frame 3 to rotate, the rotating member 2 includes a connecting plate 21, one side of the connecting plate 21 is provided with a cross slot 22, the other side of the connecting plate 21 is fixedly provided with a supporting rod 23, the supporting rod 23 is connected with a threaded rod 24, a second bevel gear 25 is mounted on the threaded rod 24, and the supporting rod 23 passes through the connecting hole 14 to be matched with the threaded rod 24 and a nut 26, so as to rotatably mount the connecting plate 21 in the circular slot 15.
As shown in fig. 4, fixed mould board 31 that is equipped with the array distribution on the mould frame 3, adjacent mould board 31 mutually perpendicular, set up a plurality of mould grooves that are used for preparing crisp class food on the mould board 31, the fixed mounting bracket 32 that is equipped with on the mould frame 3, fixed cylinder 33 that is equipped with on the mounting bracket 32, the output fixed mounting of cylinder 33 has clamp plate 34, clamp plate 34 is located one side of mould board 31, install the template that corresponds with the mould groove on the clamp plate 34, clamp plate 34 removes to mould board 31, carry out extrusion through the dough of template to the mould inslot, make the automatic quick shape that forms crisp class food.
The two ends of the die frame 3 are provided with cross blocks 35, the cross blocks 35 are matched with the cross grooves 22 on the rotating part 2, and the die frame 3 is provided with a limiting groove 30.
As shown in fig. 5, the material guiding member 4 includes a base 41, the base 41 is installed on a supporting plate 161, positioning rods 44 symmetrically distributed are fixed on the base 41, a sliding block 42 is arranged on one side of the base 41, the sliding block 42 is installed in sliding fit with the horizontal groove 18, a through hole 43 is arranged on the base 41, a connecting plate 46 is fixed on the base 41, a material guiding plate 45 is fixed on the connecting plate 46, and the material guiding plate 45 is located on the discharging conveyor belt 12 to guide the formed crisp food.
As shown in fig. 6, 7 and 8, the feeding frame 5 is provided with a feeding conveyor belt 51, the feeding frame 5 is fixedly provided with a fixing plate 52, the fixing plate 52 is inserted into the groove 16 and mounted on the base 41, the fixing plate 52 is provided with a through hole 521, the fixing plate 52 is provided with a positioning hole 522, the positioning hole 522 is matched with the positioning rod 44, and the base 41 and the fixing plate 52 are fixedly mounted in the groove 16 by passing a bolt through the through hole 521 and the through hole 43 to be matched with the threaded hole 17.
The feeding frame 5 is provided with a cross rod 53, the cross rod 53 is provided with a material shifting plate 531, the material shifting plate 531 is positioned between the material guide plates 45, the crisp foods are shifted, the stacked crisp foods are prevented, and the crisp foods are controlled to be horizontally placed on the discharging conveyer belt 12.
The feeding frame 5 is provided with symmetrically distributed mounting rods 54, one side of each mounting rod 54 is fixedly provided with a shaft rod 541, each shaft rod 541 is rotatably connected with the feeding frame 5, the feeding frame 5 is fixedly provided with a second motor 540, the output end of each second motor 540 is fixedly connected with the shaft rod 541, the shaft rods 541 are controlled to rotate, the other side of each mounting rod 54 is fixedly provided with a moving groove 542, and a U-shaped frame 55 is fixedly arranged between the mounting rods 54.
A moving rod 56 is provided between the mounting rods 54, the moving rod 56 is slidably connected to the moving groove 542 through a connecting block provided at one side, so that the moving rod 56 is slidably connected to the mounting rods 54, a top rod 561 is provided at one end of the moving rod 56, and a first opening groove 562 and a connecting block 563 are provided at the other end.
The U-shaped frame 55 is provided with a sliding groove 551, the U-shaped frame 55 is provided with a tensioning rod 58 in a sliding manner, the tensioning rod 58 is connected with the sliding groove 551 in a sliding manner through moving frames 581 arranged at two ends, one side of one moving frame 581 is fixedly provided with a rack 582, the U-shaped frame 55 is provided with a gear 59 in a rotating manner, the gear 59 is matched with the rack 582, the U-shaped frame 55 is fixedly provided with a third motor 590, and the output end of the third motor 590 is fixedly connected with the gear 59.
A connecting rod 57 is arranged between the connecting block 563 and the moving frame 581, when the moving frame 581 moves upwards, the connecting rod 57 pushes the moving rod 56 to extend out of the mounting rod 54, the moving rod moves towards the mold plate 31, the driving rod 50 is fixedly arranged between the mounting rods 54, a fourth motor 501 is fixedly arranged on one mounting rod 54, the output end of the fourth motor 501 is fixedly connected with the driving rod 50, a steering rod 543 is fixedly arranged between the mounting rods 54, and the feeding conveyer belt 51 bypasses the ejector rod 561, bypasses the steering rod 543, and bypasses the tensioning rod 58 and the driving rod 50.
A limit rod 544 is fixedly arranged on one side of the mounting rod 54, the limit rod 544 is positioned at two ends of the steering rod 543, the limit rod 544 is matched with the limit groove 30, the shaft rod 541 is rotated to enable the mounting rod 54 to move towards the die frame 3, and after the limit rod 544 is connected with the limit groove 30 in a positioning mode, the moving frame 581 is controlled to move up and down, the connecting rod 57 is used for pushing the moving rod 56 to move horizontally, and the dough is guided into the die groove on the die plate 31 by the feeding conveying belt 51.
During the use, through rotating first bevel gear 13, rotate mould frame 3 to the mould board 31 that is located the top and keep the level after, the axostylus axostyle 541 rotates, make installation pole 54 move on to mould frame 3, after gag lever post 544 and spacing groove 30 positioning connection, carry out spacing fixed to mould frame 3, then shift the dough that the cutting is good to feeding conveyer belt 51 on, then through carriage release 56 horizontal migration, make feeding conveyer belt 51's discharge end be located empty mould groove, with the mould inslot on the leading-in mould board 31 of dough, after a mould board 31 is full of the dough.
Remove to mould board 31 through cylinder 33 control pressing board 34, carry out extrusion through the dough of template to the mould inslot, make the automatic quick shape of forming crisp class food, then rotate mould frame 3, can connect heating power supply in one side of mould board 31, fill the dough at mould board 31, heat, make the panel rapid prototyping, continue to carry out the material loading operation, rotate 180 in-processes at the mould board 31 of filling with the dough, control cylinder 33 withdraws mould class 31, fashioned crisp class food falls into on ejection of compact conveyer belt 12, carry out the ejection of compact.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.