CN209768761U

CN209768761U - Shaomai forming equipment

Info

Publication number: CN209768761U
Application number: CN201920537719.7U
Authority: CN
Inventors: 李进强; 司军伟
Original assignee: Kang He Machinery And Equipment Co Ltd Chengdu
Current assignee: Kang He Machinery And Equipment Co Ltd Chengdu
Priority date: 2018-07-13
Filing date: 2019-04-19
Publication date: 2019-12-13
Anticipated expiration: 2029-04-19
Also published as: CN109875086A; CN109907089A; CN209768951U

Abstract

The utility model relates to the technical field of food processing equipment, and provides a shao-mai molding device, which comprises a frame and a plurality of molding devices; a rotary workbench is arranged on the rack, and the forming device is arranged on the rotary workbench in a surrounding manner; the machine frame is at least provided with a skin making station, a stuffing injection station, a discharging station and a finished product taking-out station which are positioned around the rotary worktable according to the working procedures; the machine frame is characterized in that a skin making station of the machine frame is provided with a skin making device, a stuffing injecting station is provided with a stuffing injecting device, a top discharging device is arranged at a discharging station, and a finished product taking-out device is arranged at a finished product taking-out station. The utility model discloses a shao mai former improves to mechanical blowing from manual blowing, has improved the production efficiency of shao mai, has solved the sanitary problem that manual operation exists, has guaranteed the uniformity of shao mai outward appearance moreover, has improved the appearance quality of shao mai.

Description

Shaomai forming equipment

Technical Field

The utility model relates to a food processing equipment technical field, in particular to shao mai former.

Background

The steamed dumpling is a kind of snack made by wrapping flour with stuffing and steaming, and is shaped like pomegranate, white, crystal, fragrant and delicious. In order to improve the appearance aesthetic feeling and the taste of the shaomai, when some special products are manufactured, granular materials such as green beans, shrimp meat, Chinese dates and the like need to be added into the shaomai, so that the appearance aesthetic feeling of the shaomai is improved, and the taste of the shaomai is improved.

The patent with the granted publication number of CN103891808B and the name of farci food forming machine has the technical proposal that: the dough sheet feeding device, the stuffing feeding device and the taking-out device are fixedly arranged on a dough sheet receiving station, a stuffing filling station and a taking-out station of the annular rail respectively, and the annular rail is provided with the dough sheet receiving plate capable of moving on the annular rail in a surrounding manner.

The patent with the granted announcement number of CN202232844U and the name of automatic dumpling making machine has the technical proposal that: comprises a frame, a skin making mechanism, a feeding mechanism, an inclusion mechanism, a pushing mechanism, a conveying mechanism, a rotary worktable, a forming mechanism and a transmission mechanism, wherein the skin making mechanism, the feeding mechanism, the inclusion mechanism, the pushing mechanism, the conveying mechanism, the rotary worktable, the forming mechanism and the transmission mechanism are arranged on the frame; the forming mechanism is installed on the rotary worktable in a surrounding mode, the leather making mechanism, the feeding mechanism and the inclusion mechanism are sequentially fixed around the rotary worktable according to procedures, the pushing mechanism is arranged below the forming mechanism and installed on the same station of the rotary worktable with the transmission mechanism, and the pushing mechanism and the rotary worktable are connected with the transmission mechanism of the society at the bottom of the rack.

although the automatic processing of the steamed dumpling can be realized by the equipment, the feeding process of adding the granular materials such as the green beans, the shelled shrimps, the Chinese dates and the like at the top of the steamed dumpling adopts manual feeding after the steamed dumpling is molded and taken out, so that the sanitary problem is caused, and the requirements of automatic production are difficult to meet in the aspects of manufacturing cost and efficiency. And because the manual techniques and proficiency are different, the appearance of the cooked wheaten food after discharging is uneven and the quality is poorer.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a wheat-burning molding device which can improve the appearance quality of products.

The utility model provides a technical scheme that its technical problem adopted is: the shao-mai molding equipment comprises a frame and a plurality of molding devices; a rotary workbench is arranged on the rack, and the forming device is arranged on the rotary workbench in a surrounding manner; the machine frame is at least provided with a skin making station, a stuffing injection station, a discharging station and a finished product taking-out station which are positioned around the rotary worktable according to the working procedures; the machine frame is characterized in that a skin making station of the machine frame is provided with a skin making device, a stuffing injecting station is provided with a stuffing injecting device, a top discharging device is arranged at a discharging station, and a finished product taking-out device is arranged at a finished product taking-out station.

Furthermore, a shaping station positioned between the stuffing filling station and the material placing station is also arranged on the machine frame; and a shaping device is arranged at a shaping station of the rack.

Furthermore, the top discharging device comprises an installation seat arranged on the rack, a rotating disc rotatably arranged on the installation seat, and a hopper arranged above the rotating disc and connected with the installation seat; a push rod which moves up and down is arranged above the rotating disc and outside the hopper; the projection of the push rod on the horizontal plane is positioned on the projection of the motion trail of a forming cavity of a forming die in the forming device on the horizontal plane; a cloth through hole for the push rod to pass through is formed in the position, corresponding to the push rod, on the rotating disc; in the rotating process of the rotating disc, the material distribution through hole can circularly move inside and outside the hopper; the cloth opening and closing mechanism is used for closing the bottom of the cloth through hole and providing opening power through the push rod to open the bottom of the cloth through hole.

further, the opening and closing mechanism comprises a first rubber arranged on the lower surface of the rotating disc; and a first slit is arranged at the position, corresponding to the cloth through hole, of the first rubber sheet.

furthermore, the opening and closing mechanism comprises a fixed disc which is arranged below the rotating disc and connected with the mounting seat; a discharge through hole for the push rod to pass through is formed in the position, corresponding to the push rod, of the fixed disc; the lower surface of the fixed disc is provided with a second rubber sheet; and a second slot is arranged on the second rubber sheet at a position corresponding to the discharge through hole.

Further, the mounting seat comprises a mounting sleeve, and the lower end of the mounting sleeve is provided with a first flange which extends outwards in the radial direction; the first flange is detachably mounted on the frame; a first rotating shaft is rotatably mounted in the mounting sleeve, and the upper end of the first rotating shaft is connected with the rotating disc.

Furthermore, one side of the hopper is rotatably connected with the mounting seat through a second rotating shaft, and the other side of the hopper is detachably connected with the mounting seat through a locking piece.

Furthermore, the top discharging device also comprises a first driving mechanism for driving the rotating disc to rotate.

Furthermore, the top discharging device also comprises a second driving mechanism for driving the push rod to move up and down.

Furthermore, a material stirring device is arranged in the hopper.

The utility model has the advantages that: the utility model discloses a shao mai former improves to mechanical blowing from manual blowing, has improved the production efficiency of shao mai, has solved the sanitary problem that manual operation exists, has guaranteed the uniformity of shao mai outward appearance moreover, has improved the appearance quality of shao mai.

drawings

FIG. 1 is a schematic structural view of a shao-mai molding apparatus of the present invention;

FIG. 2 is a front view of a first embodiment of the top discharge apparatus of the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view B-B of FIG. 2;

FIG. 5 is a front view of a second embodiment of the top discharge apparatus of the present invention;

FIG. 6 is a cross-sectional view C-C of FIG. 5;

FIG. 7 is a cross-sectional view taken along line D-D of FIG. 5;

Fig. 8 is a top view of the installation position of the middle hopper and the rotary disk of the present invention.

the reference numbers in the figures are: 1-a rack, 2-a forming device, 3-a rotary workbench, 4-a skin making device, 5-a stuffing filling device, 6-a shaping device, 7-a finished product taking device, 10-a top discharging device, 101-a hopper, 102-a rotary disc, 103-a mounting seat, 104-a cloth through hole, 105-a push rod, 106-a first rubber, 107-a fixed disc, 108-a discharging through hole, 109-a second rubber, 110-a first driving mechanism, 111-a second driving mechanism, 112-a deflector rod, 113-a third driving mechanism, 114-a second rotating shaft, 115-a locking piece, 116-a groove, 117-a first rotating shaft, 1031-a first flange and 1032-a mounting sleeve.

Detailed Description

The invention will be further described with reference to the following figures and examples:

The utility model relates to a wheat burning molding device, which comprises a frame 1 and a plurality of molding devices 2; a rotary workbench 3 is arranged on the frame 1, and the forming device 2 is installed on the rotary workbench 3 in a surrounding manner; the machine frame 1 is at least provided with a skin making station, a stuffing injection station, a material placing station and a finished product taking-out station which are positioned around the rotary worktable 3 according to the working procedures; the machine is characterized in that a skin making device 4 is arranged at a skin making station of the machine frame 1, a stuffing injecting device 5 is arranged at a stuffing injecting station, a top discharging device 10 is arranged at a discharging station, and a finished product taking-out device 7 is arranged at a finished product taking-out station.

As shown in fig. 1, the shao-mai molding equipment comprises a frame 1 and a plurality of molding devices 2, wherein a rotary worktable 3 is arranged on the frame 1; a plurality of forming devices 2 are mounted around a rotary table 3. In order to improve the molding quality of the shaked wheat, a shaping station can be arranged on the frame 1, and a shaping device 6 is arranged at the shaping station of the frame 1. The shaping station can be arranged between the discharging station and the finished product taking-out station, the shao-mai is shaped after the discharging at the top of the shao-mai is finished, and the depth and the left and right positions of materials in the shao-mai stuffing are changed in the shaping process, so that the final appearance of the shao-mai is inconsistent. Therefore, in order to solve the problem, the utility model provides a plastic station sets up between annotating filling station and blowing station, as shown in fig. 1, is provided with the system skin station, annotate filling station, plastic station, blowing station and the finished product that is located rotary worktable 3 around according to the process and takes out the station in frame 1.

Each forming device 2 comprises a mounting plate and at least one forming die arranged on the mounting plate, and the mounting plate is fixedly connected with the rotary workbench 3; each forming die is provided with a forming cavity with an opening at the upper end, and a top core capable of moving up and down is arranged in each forming cavity and used for pushing the formed wheat shavings out of the forming cavity of the forming die; the bottom of the molding cavity is also provided with a through hole, and the lower end of the top core extends downwards to the outside of the molding die from the through hole.

The system skin station department of frame 1 is provided with system skin device 4, and system skin device 4 mainly includes presses the skin device and cuts the skin device, presses the skin device and presses into the even flour strip of thickness with good flour, cuts the skin device and cuts into single burnt wheat skin with the flour strip.

The filling injecting station of the frame 1 is provided with a filling injecting device 5, the filling injecting device 5 mainly comprises a filling injecting hopper, a filling conveying mechanism arranged at the lower end of the filling injecting hopper, and at least one filling injecting pipe communicated with the filling conveying mechanism, the filling injecting device injects filling into at least one wheat skin, and the wheat skin is poked into a forming cavity by the filling injecting pipe when filling is injected, so that cylindrical food is formed.

A shaping device 6 is arranged at a shaping station of the rack 1, the shaping device 6 can shape the burnt wheat from top to bottom, and the shaping device 6 of the shaping mode comprises a shaping frame arranged on the rack 1, an air cylinder arranged on the shaping frame and at least one shaping rod connected with a piston rod of the air cylinder. After the stuffing filling of the roasted wheat is finished and the roasted wheat is sent to the shaping station, the shaping rod is driven by the air cylinder to move downwards, and then the stuffing of the roasted wheat is compacted from top to bottom to finish the shaping of the roasted wheat.

The shaping device 6 can also shape the wheat shavings from bottom to top, and the shaping device 6 adopting the shaping mode comprises a shaping frame arranged on the machine frame 1, an air cylinder arranged on the shaping frame, at least one plugging piece connected with a piston rod of the air cylinder, and a pushing mechanism arranged at a shaping station of the machine frame 1. After the stuffing is filled in the wheat burning process and is sent to the shaping station, the cylinder drives the plugging piece to move downwards, so that the top opening of the shaping cavity is plugged, the pushing mechanism moves upwards, an upward driving force is provided for the pushing core, the stuffing of the wheat burning process is compacted from bottom to top, and the shaping of the wheat burning process is completed.

The top discharging device 10 is arranged at a discharging station of the rack 1, and the top discharging device 10 is used for placing granular materials such as green beans, shelled shrimps, Chinese dates and the like into the top of the steamed dumpling, so that the attractiveness of the steamed dumpling is improved, and the taste of the steamed dumpling is improved.

A finished product taking-out device 7 is arranged at a finished product taking-out station of the frame 1 and is used for taking out the shakeout wheat in a forming cavity of the forming die. The finished product taking-out device 7 comprises an ejection mechanism, a finished product pushing mechanism and a conveying mechanism which are arranged on the machine frame 1. After the wheat burning is finished and is sent to a finished product taking-out station, the ejection mechanism pushes the ejection core upwards, the wheat burning is ejected out of a forming cavity of a forming die through the ejection core, then the finished product pushing mechanism pushes the wheat burning into the conveying mechanism, and the wheat burning is conveyed away through the conveying mechanism.

As shown in fig. 1, 8 molding devices 2 are uniformly distributed on the rotary table 3 at the circumference, 3 molding dies are arranged on the mounting plate of each molding device 2, and 24 molding dies are arranged on the whole wheat-burning molding equipment. Taking three forming dies of one forming device 2 as an example, the working principle of the shao-mai forming equipment is as follows: the forming device 2 moves to a skin making station through a rotary workbench 3, and the made wheat bran is simultaneously placed in skin receiving cavities at the tops of three forming dies through a skin making device 4; then, rotating the rotary workbench 3, moving the forming device 2 to a stuffing injection station, poking three wheat-cooked wrappers into a forming cavity of a forming die through a stuffing injection pipe on the stuffing injection device 5, and completing stuffing injection; then, rotating the rotary workbench 3, moving the forming device 2 to a shaping station, and simultaneously shaping the three shashliks through the shaping device 6; then, rotating the rotary workbench 3, moving the forming device 2 to a discharging station, and simultaneously placing the materials on the tops of the three shavings through a top discharging device 10; and then, rotating the rotary workbench 3, moving the forming device 2 to a finished product taking-out station, simultaneously taking out the three kinds of wheat shavings from the forming cavity of the forming die through the finished product taking-out device 7, and conveying the three kinds of wheat shavings away, so that the production of the wheat shavings is completed. Through debugging, the rotation angle of the rotary worktable 3 is controlled every time, so that the continuity of the wheat burning production can be ensured, and the production efficiency is improved.

The utility model discloses a shao mai former improves to mechanical blowing from manual blowing, has improved the production efficiency of shao mai, has solved the sanitary problem that manual operation exists, has guaranteed the uniformity of shao mai outward appearance moreover, has improved the appearance quality of shao mai. The discharging procedure is arranged behind the shaping procedure, so that the consistency of the appearance of the roasted wheat is further ensured.

a top discharging device 10 is arranged at a discharging station of the rack 1, and as shown in fig. 2 to 7, the top discharging device 10 comprises an installation seat 103 arranged on the rack 1, a rotating disc 102 rotatably arranged on the installation seat 103, and a hopper 101 arranged above the rotating disc 102 and connected with the installation seat 103; a push rod 105 which moves up and down is arranged above the rotating disc 102 and outside the hopper 101; the projection of the push rod 105 on the horizontal plane is positioned on the projection of the motion trail of the forming cavity of the forming die in the forming device 2 on the horizontal plane; a cloth through hole 104 for the push rod 105 to pass through is arranged on the rotary disc 102 at a position corresponding to the push rod 105; in the rotating process of the rotating disc 102, the material distribution through hole 104 can circularly move inside and outside the hopper 101; the cloth opening and closing mechanism is used for closing the bottom of the cloth through hole 104 and providing opening power through the push rod 105 to open the bottom of the cloth through hole 104.

As shown in fig. 2 and 5, the mounting seat 103 is mounted on the top plate of the frame 1, the rotating disc 102 is rotatably mounted on the mounting seat 103, and a space for the movement of the forming device 2 is provided between the rotating disc 102 and the top plate of the frame 1. The hopper 101 is of an upper and lower opening structure surrounded by a circle of side walls; the hopper 101 is provided above the rotary disk 102 and connected to the mounting seat 103. A gap is formed between the lower end of the hopper 101 and the upper surface of the rotating disc 102, so that the hopper 101 is not in contact with the rotating disc 102, and the rotating disc 102 is prevented from rubbing against the hopper 101 in the rotating process, the gap can be set according to the size of the granular materials stored in the hopper 101, and after the granular materials are placed in the hopper 101, the materials cannot leak out of the gap.

As shown in fig. 8, the upper space of the rotating disk 102 is divided into a material distribution area a located inside the side wall and a material discharge area B located outside the side wall by a circle of side wall of the hopper 101. A push rod 105 capable of moving up and down is arranged in a discharge area B above the rotating disc 102 and outside the hopper 101, and a cloth through hole 104 for the push rod 105 to pass through is arranged on the rotating disc 102. When the rotating disc 102 rotates, the material distribution through hole 104 can move circularly between the material distribution area a and the material discharge area B. When the forming die of the forming device 2 moves to the discharging station, the forming cavity of the forming die is just positioned under the push rod 105;

The opening and closing mechanism has the following functions: firstly, sealing the bottom of the material distribution through hole 104 to prevent the material from falling from the bottom of the material distribution through hole 104; secondly, when the cloth through hole 104 rotates to a position corresponding to the push rod 105 following the rotating disc 102, the push rod 105 moves downwards and provides an opening power to open the bottom of the cloth through hole 104, and then the material is pushed into the top of the wheat shavings by the push rod 105, and the depth of the material pushed into the top of the wheat shavings can be determined by the distance of the downward movement of the push rod 105.

The number of the push rods 105 may be one, at this time, one cloth through hole 104 may be arranged on the rotating disc 102, or a plurality of cloth through holes 104 may be arranged, and the plurality of cloth through holes 104 are circumferentially arranged around the rotation center of the rotating disc 102, so as to ensure that the push rods 105 can pass through any one cloth through hole 104.

In order to improve the production efficiency, the wheat can be discharged at least at the top of two wheat burns at a time, and the number of the push rods 105 can also be at least two. As shown in fig. 3 and 6, the number of the push rods 105 is three, at this time, a cloth through hole 104 is provided at a position on the rotating disc 102 corresponding to each push rod 105, the three cloth through holes 104 form a group, one group of cloth through holes 104 or multiple groups of cloth through holes 104 may be provided on the rotating disc 102, and the multiple groups of cloth through holes 104 are circumferentially provided with the rotation center of the rotating disc 102 as the center.

In fig. 8, a set of cloth through holes 104 are shown, a1 holes, a2 holes and a3 holes respectively; in the figure, holes a1, a2 and a3 are located in the material distribution area A for material distribution, granular materials fall into the three material distribution through holes 104, then the rotating disc 102 rotates clockwise, the side wall of the hopper 101 acts as a scraper, after the holes a1, a2 and a3 rotate to the positions a1 ', a 2' and a3 'of the emptying area B in sequence, under the action of the side wall of the hopper 101, the granular materials located in the holes a1, a2 and a3 are only moved to the positions a 1', a2 'and a 3' in the figure, and then the three materials are pushed into the tops of the three roasted wheat by the three push rods 105 moving downwards.

Taking the working process of one of the distribution through holes 104 as an example, the working principle of the top discharging device 10 is as follows: firstly, materials to be placed at the top of the barley burning are placed in a hopper 101, a rotating disc 102 is driven to rotate, a material distribution through hole 104 in the rotating disc 102 moves into the hopper 101 to distribute materials, the materials enter the material distribution through hole 104, and at the moment, an opening and closing mechanism is in a normally closed state to seal the bottom of the material distribution through hole 104, so that the materials are prevented from falling from the bottom of the material distribution through hole 104; the rotating disc 102 continues to rotate, and when the material distribution through hole 104 for storing the material moves to the outside of the hopper 101 and the position corresponding to the push rod 105, the rotating disc 102 stops rotating, and the preparation work before discharging is completed. After the forming device 2 filled with the wheat is moved to the discharging station, the wheat is just positioned under the push rod 105 at the moment, then the push rod 105 is controlled to move downwards, the lower end of the push rod 105 penetrates through the material distribution through hole 104, the opening and closing mechanism is in an open state, and the materials in the material distribution through hole 104 are pushed downwards to the top of the wheat. Then, the push rod 105 moves upward, when the lower end of the push rod 105 moves to above the rotating disc 102, the opening and closing mechanism is reset and is in a closed state, and then the rotating table 3 is rotated to move the forming device 2 to a finished product taking-out station. The above actions are circularly carried out, and the continuous placement of the materials at the top of the wheat burning in the forming cavity of the next forming device 2 is realized.

Fig. 2 to 4 show a first embodiment of the opening and closing mechanism, which includes a first rubber sheet 106 provided on the lower surface of the rotary disk 102; a first slit is arranged on the first rubber sheet 106 at a position corresponding to the cloth through hole 104.

The first rubber sheet 106 can be adhered to the lower surface of the rotating disc 102 through glue or fixed to the lower surface of the rotating disc 102 through screws, and the bottom of the cloth through hole 104 is sealed by the first rubber sheet 106; a first slit is arranged on the first rubber sheet 106 corresponding to each cloth through hole 104, the first rubber sheet 106 has elasticity, and under the condition that no push rod 105 provides opening power, the first slit is in a normally closed state, so that the material stored in the cloth through holes 104 is prevented from falling; after the material distribution through hole 104 storing the material moves to a position corresponding to the push rod 105, the push rod 105 moves downwards, the lower end of the push rod passes through the material distribution through hole 104 and the first slit of the first rubber sheet 106 in sequence, and the material is pushed downwards into the top of the steamed dumpling. After the material is placed on the top of the steamed bun, the push rod 105 moves upwards, and when the lower end of the push rod 105 moves to the position above the first rubber sheet 106, the first slit of the first rubber sheet 106 automatically resets and is in a closed state. The first slit can be a straight slit, a rice-seed slit, a cross slit and the like; preferably, the first slit is a cross slit and is arranged at the center of the projection of each cloth through hole 104 on the horizontal plane, and the cross slit is not only simple to manufacture, but also large in opening area and small in resistance.

Fig. 5 to 7 show a second embodiment of the opening and closing mechanism including a fixed disk 107 provided below the rotary disk 102 and connected to the mount base 103; a discharge through hole 108 for the push rod 105 to pass through is arranged on the fixed disc 107 at a position corresponding to the push rod 105; the lower surface of the fixed disc 107 is provided with a second rubber sheet 109; and a second slot is arranged on the second rubber sheet 109 corresponding to the discharge through hole 108.

The fixed disk 107 is disposed below the rotating disk 102, and is used for sealing the bottom of the cloth through hole 104 on the rotating disk 102 to prevent the material stored in the cloth through hole 104 from falling. The fixed disk 107 is fixedly connected with the mounting seat 103, and a gap is formed between the upper surface of the fixed disk 107 and the lower surface of the rotating disk 102, so that the rotating disk 102 is prevented from rubbing against the fixed disk 107 in the rotating process, and the gap can be set according to the size of the granular materials stored in the cloth through hole 104, so that the materials cannot leak out from the gap.

A discharge through hole 108 is formed in the fixed disc 107 at a position corresponding to the push rod 105, a second rubber sheet 109 for sealing the bottom of the discharge through hole 108 is further arranged on the fixed disc 107, the second rubber sheet 109 can be adhered to the lower surface of the fixed disc 107 through glue or fixed on the lower surface of the fixed disc 107 through screws, and the bottom of the discharge through hole 108 is sealed by the second rubber sheet 109; a second slit is arranged on the second rubber sheet 109 corresponding to each discharging through hole 108, the second rubber sheet 109 has elasticity, and the second slit is in a normally closed state under the condition that the push rod 105 does not provide opening power; when the material distribution through hole 104 storing the material moves to a position corresponding to the push rod 105, the material in the material distribution through hole 104 falls into the material discharge through hole 108, and the material cannot fall off through the second rubber 109; the push rod 105 moves downwards, the lower end of the push rod penetrates through the material distribution through hole 104, the material discharge through hole 108 and the second slit of the second rubber sheet 109 in sequence, and the materials are pushed downwards to the top of the steamed dumpling. After the material is placed on the top of the steamed corn, the push rod 105 moves upwards, and when the lower end of the push rod 105 moves to the position above the second rubber sheet 109, the second slit of the second rubber sheet 109 automatically resets and is in a closed state. The second slit can be a straight slit, a rice-seed slit, a cross slit and the like; preferably, the second slit is a cross slit which is arranged at the center of the projection of each discharge through hole 108 on the horizontal plane, and the cross slit is not only simple to manufacture, but also large in opening area and small in resistance.

The mount 103 functions as a support, which may be a column structure, a frame structure, or the like. Fig. 4 and 7 show a preferred embodiment of the mount 103, said mount 103 comprising a mounting sleeve 1032, the lower end of the mounting sleeve 1032 having a first flange 1031 protruding radially outwards; the first flange 1031 is detachably mounted on the frame 1; a first rotating shaft 117 is rotatably mounted in the mounting sleeve 1032, and an upper end of the first rotating shaft 117 is connected to the rotating disk 102. The first flange 1031 may be mounted on the top plate of the rack 1 by a bolt structure, a snap structure, or the like; the first rotating shaft 117 is rotatably mounted in the mounting sleeve 1032 through two bearing structures, and an upper end of the first rotating shaft 117 extends upward to the outside of the mounting sleeve 1032 and is fixedly connected with the rotating disc 102. As shown in fig. 7, the fixed disk 107 is fixed on the top of the mounting sleeve 1032, and the fixed disk 107 has a hole for the first rotation shaft 117 to pass through.

The rotating disc 102 can be rotated by a manual driving mode, but the mode cannot meet the requirement of automatic production; preferably, the top discharge apparatus 10 further comprises a first driving mechanism 110 for driving the rotary disc 102 to rotate. The first driving mechanism 110 may include a motor, and the motor is in transmission connection with the rotating disc 102 through a transmission mechanism, and the transmission mechanism may be a belt transmission mechanism, a chain transmission mechanism, a gear transmission mechanism, or the like. Preferably, as shown in fig. 2 to 7, the first driving mechanism 110 includes a servo motor and a speed reducer in transmission connection with the servo motor, and an output shaft of the speed reducer is in transmission connection with the first rotating shaft 117. Further, the output shaft of the speed reducer is coaxially arranged with the first rotating shaft 117 and connected with the lower end of the first rotating shaft 117, and the speed reducer can be detachably mounted on the lower surface of the upper top plate of the rack 1 through a bolt structure, a buckle structure or the like. The servo motor may also be connected to a programmable controller for programming to effect automatic control of the rotation of the rotatable disk 102.

The push rod 105 can move up and down in a manual driving mode, but the mode cannot meet the requirement of automatic production; preferably, the top discharging device 10 further comprises a second driving mechanism 111 for driving the push rod 105 to move up and down. The second driving mechanism 111 comprises an air cylinder arranged on the mounting seat 103, a piston rod of the air cylinder is fixedly connected with the push rod 105, the push rod 105 is driven by the air cylinder to move up and down, and the depth of the material pushed into the top of the wheat shavings can be controlled by only controlling the stroke of the piston rod of the air cylinder. Preferably, the cylinder is arranged above the rotating disc 102, and as shown in fig. 2, the cylinder body of the cylinder can be fixedly connected with the mounting sleeve 1032 through an L-shaped bracket; as shown in fig. 5, the cylinder body of the air cylinder can also be fixedly connected with the fixed plate 107 through an L-shaped bracket. The cylinder may also be connected to a programmable controller programmed to effect automatic control of the up and down movement of the push rod 105. Further, the second driving device 111 may be a hydraulic cylinder, an electric push rod, or the like.

The size of the material distribution through holes 104 can be set according to the size of the granular materials, so that one material distribution through hole 104 can contain one material; however, when the green beans, shelled shrimps, dates and other granular materials are distributed in the distribution through holes 104 of the rotating disc 102, there is a possibility that a plurality of materials are stuck at the upper opening of the same distribution through hole 104, and there is no material in the distribution through hole 104. In order to avoid the above situation, a material poking device is further arranged in the hopper 101. The materials in the hopper 101 are stirred through the stirring device, the condition that a plurality of materials are clamped at the upper opening of the same material distribution through hole 104 is avoided, and the materials in each material distribution through hole 104 are guaranteed.

The material-ejecting device comprises an ejecting rod 112 and a third driving mechanism 113 for driving the ejecting rod 112 to horizontally move in the hopper 101. The third driving mechanism 113 may be an air cylinder, a hydraulic cylinder, or the like. As shown in fig. 4 and 7, the shift lever 112 is vertically disposed, a cylinder body of an air cylinder or a hydraulic cylinder is mounted on the hopper 101, and a piston rod of the air cylinder or the hydraulic cylinder is fixedly connected to an upper end of the shift lever 112 and drives the shift lever 112 to horizontally move in the hopper 101, so as to shift the material. The third driving mechanism 113 can also be connected with a programmable controller, and the horizontal movement of the shift lever 112 can be automatically controlled through programming. The material shifting device can also comprise a shifting rod and a plurality of bulges arranged on the outer side surface of the rotating disc 102, one end of the shifting rod is arranged in the hopper 101, and the middle of the shifting rod is hinged on the wall of the hopper; the other end of the rotating disc is matched with the protrusion, and the rotating disc 102 drives the poking rod to poke materials in the hopper 101 through the protrusion in the rotating process.

In order to facilitate cleaning of the rotating disc 102 and the cloth through hole 104, preferably, one side of the hopper 101 is rotatably connected with the mounting base 103 through a second rotating shaft 114; the other side of the hopper 101 is detachably connected with the mounting seat 103 through a locking piece 115. When the rotating disc 102 and the cloth through hole 104 need to be cleaned, the lock catch member 115 is opened, and the hopper 101 can be removed from above the rotating disc 102 with the second rotating shaft 114 as a rotating center. The second rotating shaft 114 can be a transverse rotating shaft, and the hopper 101 rotates in a vertical plane by taking the transverse rotating shaft as a center; the rotating shaft 114 can also be a vertical rotating shaft, and the hopper 101 rotates in a horizontal plane by taking the vertical rotating shaft as a center. The lock catch piece 115 is used for locking the hopper 101 above the rotating disc 102, so that the stability of the hopper 101 in the use process is ensured; the lock catch element 115 may comprise a lock tongue arranged on the mounting seat 103 and a lock catch arranged on the hopper 101, wherein the lock tongue is matched with the lock catch; the locking piece 115 can also be a connecting plate arranged on the mounting seat 103, a positioning bolt is arranged on the connecting plate, and a threaded hole matched with the positioning bolt is arranged on the hopper 101.

in the process of pushing the material downwards into the top of the wheat-burning container by the push rod 105, the push rod 105 needs to overcome the resistance of the opening and closing mechanism, and in order to avoid the change of the movement track of the material in the process, the lower end of the push rod 105 is preferably provided with a groove 116. The material is limited through the groove 116, the material is prevented from moving left and right, the material can only move downwards under the action of the push rod 105, and then the material is accurately pushed downwards to the top of the steamed corn.

Claims

1. The shao-mai molding equipment comprises a frame (1) and a plurality of molding devices (2); a rotary workbench (3) is arranged on the rack (1), and the forming device (2) is installed on the rotary workbench (3) in a surrounding manner; the machine is characterized in that the machine frame (1) is at least provided with a skin making station, a stuffing injection station, a material placing station and a finished product taking-out station which are positioned around the rotary worktable (3) according to the working procedures; the machine is characterized in that a wrapper making device (4) is arranged at a wrapper making station of the machine frame (1), a stuffing injecting device (5) is arranged at a stuffing injecting station, a top discharging device (10) is arranged at a discharging station, and a finished product taking-out device (7) is arranged at a finished product taking-out station.

2. The shao-mai forming equipment as claimed in claim 1, wherein the frame (1) is further provided with a shaping station between a filling station and a discharging station; and a shaping device (6) is arranged at a shaping station of the rack (1).

3. The shao mai shao equipment of claim 1, wherein the top discharging device (10) comprises a mounting seat (103) arranged on the frame (1), a rotating disc (102) rotatably mounted on the mounting seat (103), and a hopper (101) arranged above the rotating disc (102) and connected with the mounting seat (103); a push rod (105) moving up and down is arranged above the rotating disc (102) and outside the hopper (101); the projection of the push rod (105) on the horizontal plane is positioned on the projection of the motion trail of the forming cavity of the forming die in the forming device (2) on the horizontal plane; a cloth through hole (104) for the push rod (105) to pass through is formed in the position, corresponding to the push rod (105), of the rotating disc (102); in the rotating process of the rotating disc (102), the material distribution through hole (104) can circularly move inside and outside the hopper (101); the cloth opening and closing mechanism is used for closing the bottom of the cloth through hole (104) and providing opening power through the push rod (105) to open the bottom of the cloth through hole (104).

4. The shao mai shao equipment of claim 3, wherein the open-close mechanism includes a first rubber sheet (106) provided on a lower surface of the rotary disk (102); and a first slit is arranged on the first rubber sheet (106) at a position corresponding to the cloth through hole (104).

5. the shao mai dong equipment of claim 3, wherein the open/close mechanism includes a fixed disk (107) disposed below the rotating disk (102) and connected with the mounting seat (103); a discharge through hole (108) for the push rod (105) to pass through is formed in the position, corresponding to the push rod (105), of the fixed disc (107); the lower surface of the fixed disc (107) is provided with a second rubber sheet (109); and a second slit is arranged on the second rubber sheet (109) at a position corresponding to the discharge through hole (108).

6. The shakeout apparatus according to claim 3, wherein the mounting seat (103) comprises a mounting sleeve (1032), a lower end of the mounting sleeve (1032) having a first flange (1031) projecting radially outwards; the first flange (1031) is detachably mounted on the frame (1); the mounting sleeve (1032) is rotatably provided with a first rotating shaft (117), and the upper end of the first rotating shaft (117) is connected with the rotating disc (102).

7. The shakeout molding apparatus as claimed in claim 3, wherein one side of the hopper (101) is rotatably connected to the mounting base (103) by a second rotating shaft (114), and the other side of the hopper (101) is detachably connected to the mounting base (103) by a locking member (115).

8. The shakeout molding apparatus according to claim 3, wherein the top discharge device (10) further comprises a first driving mechanism (110) for driving the rotary disk (102) to rotate.

9. The shakeout molding apparatus according to claim 3, wherein the top discharging device (10) further comprises a second driving mechanism (111) for driving the push rod (105) to move up and down.

10. The shao-mai forming apparatus as claimed in claim 3, wherein a material stirring device is further arranged in the hopper (101).