CN211444181U - Sandwich fried ball blank discharging mechanism and processing equipment - Google Patents

Abstract

The utility model discloses a press from both sides core fried ball blank discharge mechanism and processing equipment, this press from both sides core fried ball blank discharge mechanism include surface fabric conveyer pipe, delivery head to and core conveyer pipe, the delivery head level sets up, is equipped with the toper cavity in the delivery head, and the front end upper portion of delivery head is equipped with by the arc export that gradually hangs down forward backward. The utility model discloses press from both sides core fried ball blank processing equipment adopts this fried ball blank discharge mechanism, because be equipped with the taper cavity in output head level setting, the output head, the surface fabric that the parcel has the core material can keep globular in extrusion process, and is equipped with the arc export in the front end upper portion of output head, and the globular surface fabric can be held in the arc export, then the cutting can surely go out approximate globular ball blank.

Description

Sandwich fried ball blank discharging mechanism and processing equipment

Technical Field

The utility model relates to a food processing equipment technical field, concretely relates to press from both sides core fried ball blank discharge mechanism and processing equipment.

Background

At present, the core-coated pill is available on the market, namely the outer layer of the pill is one foodstuff, the center of the pill is the other foodstuff, and the core-coated pill has two kinds of foodstuffs, has good flavor and novel style and is popular with consumers.

The fried meatball is a traditional food, and the making method is generally as follows: adding water into wheat flour, adding chopped vegetables, meat, seasonings and the like, kneading the wheat flour into pasty fabric, extruding the fabric into a dough by hands, transferring the dough-shaped fabric into an oil pan through a spoon, frying, taking out the fried dough, or directly frying the millet flour and the pasty fabric, wherein different fabrics can be fried into different balls. The fried ball can be directly eaten, and also can be used as food material for dishes such as stew, chafing dish, ball soup, etc.

At present, fried balls in food factories are all made by hands, and the efficiency of frying the balls by hands is low, so that the social requirements can not be met; in addition, in the process of frying the balls, the workers always work close to the high-temperature oil pan, the working environment is poor, the workers need to continuously send the dough-shaped fabric into the oil pan, and the risk of injury to the workers due to oil splashed from the oil pan is high.

The fried balls can be refrigerated and sold in large supermarkets, food stores and the like after being packaged, and can also be refrigerated and sold for sale. Because the homemade fried balls are complicated and troublesome, and the life style is changed, people usually prefer to go to a supermarket directly to buy the finished fried balls, so the fried balls in the supermarket are popular.

The current fried ball continues traditional preparation technology all the time, and the ball is solid, and whole ball all is same foodstuff from inside to outside, the utility model discloses the people discover in the research work can make into the fried ball core-spun ball, and fried core-spun ball pattern is novel, and the flavor also is different from traditional fried ball, can improve market competition with traditional fried ball difference competition on the market.

Chinese patent publication No. CN201577465 describes a core-coated meat ball machine, which is provided with a skin slurry bin, a stuffing auger, a rotary synthetic film, a shear-type hoop cutter and other components, and the core-coated meat ball machine shears meat balls by the shear-type hoop cutter, so that the prepared balls are not round in shape, the appearance of the balls is not good, and the market competitiveness is not improved favorably.

Chinese patent publication No. CN106036968A describes a control system for a core-spun pellet machine, in which the structure of each component of the control system is complicated, which is not beneficial to cleaning and maintenance of the machine, and the food machine needs to be cleaned periodically during the processing.

Therefore, it is necessary to provide a device which has a simple structure, is easy to clean, can process spherical balls and has high manufacturing efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a press from both sides core fried ball blank discharge mechanism and processing equipment solves the complicated technical problem of core-spun ball processingequipment structure among the prior art.

In order to solve the above technical problem, the first aspect of the present invention is:

designing a sandwich fried ball blank discharge mechanism, including:

the front end of the fabric conveying pipe is provided with an output head;

and the front end of the core material conveying pipe penetrates into the fabric conveying pipe or the output head, and the core material conveying pipe is used for conveying the core materials to be wrapped in the fabric conveyed by the fabric conveying pipe.

Preferably, an arc-shaped outlet which is gradually lowered from back to front is arranged at the upper part of the front end of the output head.

Preferably, a first flange is arranged at the front end of the fabric conveying pipe, a second flange is correspondingly arranged at the rear end of the output head, and the fabric conveying pipe is connected with the output head through the first flange and the second flange;

the front end of the core material conveying pipe is provided with a bent pipe section, the core material conveying pipe is clamped between the first flange and the second flange, and the bent pipe section is located in the output head and coaxial with the output head.

Preferably, the core material conveying pipe penetrates through the pipe wall of the fabric conveying pipe, a bent pipe section coaxial with the fabric conveying pipe is arranged at the front end of the core material conveying pipe, and a front port of the bent pipe section extends forwards into the output head.

The second aspect of the utility model is:

designing a core fried ball blank processing equipment that presss from both sides, including the support frame, still including setting up on the support frame:

the flour hopper is used for loading the flour;

a core material container for filling the core material;

the utility model relates to a sandwich fried ball blank discharging mechanism of the first aspect;

the fabric conveying mechanism is used for conveying the fabric in the fabric hopper into the fabric conveying pipe;

the core material conveying mechanism is used for conveying the core materials in the core material container into the core material conveying pipe;

and the cutting mechanism is arranged at the output head and used for cutting the shell fabric which is output by the output head and is wrapped with the core material into the blank of the sandwich fried ball.

Preferably, the cutting mechanism includes bearing frame, rotating turret, the center pin of rotating turret passes through the bearing and installs on the bearing frame be equipped with the cutting wire on the rotating turret, when the rotating turret rotates, the cutting wire can constantly be close to the output head.

Preferably, the front end upper portion of exporting the head is equipped with by the arc export that gradually descends forward backward, the cutting silk with export the head and be the cross overall arrangement in the space, the cutting silk is close to can laminate when exporting the head the arc export removes.

Preferably, the rear end of the fabric conveying pipe is communicated with the fabric hopper, the fabric conveying mechanism comprises a rotating shaft penetrating through the fabric hopper and the fabric conveying pipe, a helical blade is arranged on the rotating shaft, the helical blade extends from the interior of the fabric hopper to the front end of the fabric conveying pipe, and the rear end of the rotating shaft penetrates out of the fabric hopper and is connected with a driving mechanism.

Preferably, the core material conveying mechanism comprises a food pump, an input port of the food pump is communicated with the core material container, an output port of the food pump is communicated with the core material conveying pipe, and a valve is arranged on the core material conveying pipe.

The utility model has the advantages of:

1. the utility model provides a core material conveyer pipe front end that core fried ball blank discharge mechanism set up penetrates in surface fabric conveyer pipe or the delivery head to realize wrapping up the core material in the surface fabric that the surface fabric conveyer pipe was carried through mechanical mode, because the delivery head level sets up, be equipped with the taper cavity in the delivery head, the surface fabric that the parcel has the core material can keep globular in extruding the in-process, and be equipped with the arc export in the front end upper portion of delivery head, the globular surface fabric can be held in the arc export, then the cutting can surely go out approximate globular ball blank.

2. The utility model provides a each part of pressing from both sides core fried ball blank discharge mechanism conveniently unpicks and washes, is favorable to ensureing food safety and sanitation.

3. The utility model provides a press from both sides core fried ball blank processing equipment directly makes out globular ball through the mode of cutting, does not need the mould suppression, is favorable to improving work efficiency, and makes equipment structure simple.

4. The utility model provides a press from both sides core fried ball blank processing equipment passes through the surface fabric input surface fabric conveyer pipe in surface fabric conveying mechanism will the face material hopper, inputs core material conveyer pipe through the core material of core material conveying mechanism in with the core material container, and the surface fabric that the rethread cutting mechanism has the core material with the package of output head output cuts into pressing from both sides core fried ball blank, and whole process mechanized operation improves work efficiency, and reduces artifical fried ball scald risk.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of an embodiment of a blank discharging mechanism for sandwich fried balls of the present invention.

Fig. 2 is an exploded view of an embodiment of the blank discharging mechanism of the sandwich fried ball of the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Fig. 4 is a sectional view of an embodiment of the blank discharging mechanism of the sandwich fried ball of the present invention.

Fig. 5 is an exploded view of another embodiment of the blank discharging mechanism for sandwich fried balls of the present invention.

Fig. 6 is a schematic view of a three-dimensional structure of another embodiment of the blank discharging mechanism of the sandwich fried ball of the present invention.

Fig. 7 is an exploded view of another embodiment of the blank discharging mechanism for the sandwich fried balls of the present invention.

FIG. 8 is a sectional view of another embodiment of the blank discharging mechanism for sandwich fried balls of the present invention.

Fig. 9 is a schematic view of a three-dimensional structure of an embodiment of the processing equipment of the sandwich fried ball blank of the present invention.

Fig. 10 is an exploded view of an embodiment of the processing equipment for sandwich fried ball blanks of the present invention.

FIG. 11 is a left side view of the integrally formed dough conveying pipe and dough hopper in an embodiment of the apparatus for processing a blank of a sandwich fried ball of the present invention.

FIG. 12 is a sectional view of an output head, a surface material conveying pipe and a surface material hopper in an embodiment of the present invention.

Fig. 13 is a schematic view of a three-dimensional structure of a rotating frame in an embodiment of the sandwich fried ball blank processing equipment of the present invention.

FIG. 14 is a top view of an embodiment of the apparatus for processing a sandwich fried ball blank of the present invention.

FIG. 15 is a top view of another embodiment of the apparatus for processing a sandwich fried ball blank of the present invention.

In the drawings, each reference numeral means: the core material feeding device comprises a fabric feeding pipe 1, a first flange 11, a first groove 111, a sealing groove 112, a protrusion 12, a through hole 13, a semicircular cavity 14, a core material feeding pipe 2, a bent pipe section 21, a connecting point 22, a vertical section 23, a core material container 24, a food pump 25, a valve 26, an output head 3, a second flange 31, a second groove 311, an arc-shaped outlet 32, a first clamping ring 33, a second clamping ring 34, a mounting hole 35, a support frame 4, a flat plate 41, a dropping port 42, a fabric hopper 5, a rotating shaft 51, a helical blade 52, a speed reducer 53, a first motor 54, a bearing seat 61, a rotating frame 62, a central shaft 621, a disc 622, a connecting hole 6221, a cutting wire 623, a handle 624, a second motor 63 and a coupler 64.

Detailed Description

The following embodiments are only intended to illustrate the present invention in detail, and do not limit the scope of the present invention in any way.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example 1:

a core fried ball blank discharging mechanism, please refer to fig. 1 to 4.

As shown in figure 1, the sandwich fried ball blank processing equipment provided by the embodiment of the utility model comprises a fabric conveying pipe 1 and a core material conveying pipe 2, wherein the front end of the fabric conveying pipe 1 is provided with an output head 3.

The front end of the fabric conveying pipe 1 is provided with a first flange 11, the rear end of the output head 3 is correspondingly provided with a second flange 31, and the first flange 11 and the second flange 31 are connected through bolts (not shown in the figure), so that the fabric conveying pipe 1 and the output head 3 are connected.

As shown in fig. 2, a pipe bending section 21 is arranged at the front end of the core material conveying pipe 2, the core material conveying pipe 2 is clamped between the first flange 11 and the second flange 31, a second groove 311 is arranged on the rear surface of the second flange 31, as shown in fig. 3, a first groove 111 is arranged on the front surface of the first flange 11, the first groove 111 and the second groove 311 are both arc grooves, and a circular hole formed after the first groove 111 and the second groove 311 are butted is matched with the core material conveying pipe 2.

As shown in fig. 3, two semicircular sealing grooves 112 are formed in the bottom surface of the first groove 111, two sealing grooves are correspondingly formed in the bottom surface of the second groove 311, and a sealing ring is disposed in each sealing groove to prevent leakage.

The sealing ring adopts food-grade silica gel sealing ring, and the fabric conveying pipe 1, the core material conveying pipe 2 and the output head 3 all adopt food-grade 304 stainless steel.

As shown in fig. 4, when the core conveying pipe 2 is installed between the first flange 11 and the second flange 31, the front port of the elbow section 21 is located in the output head 3 and coaxial with the output head 3.

The shell fabric conveying pipe 1 is used for conveying pasty shell fabric which is used for frying balls and is formed by flour, vegetables, minced meat and other auxiliary materials, the core material conveying pipe 2 is used for conveying pasty or thick liquid core materials such as egg liquid and sesame paste, and the core material conveying pipe 2 is used for conveying the core materials to be wrapped in the shell fabric conveyed by the shell fabric conveying pipe 1.

When the fabric conveyed by the fabric conveying pipe 1 reaches the front end opening of the pipe bending section 21, the fabric conveyed by the core material conveying pipe 2 can be wrapped in the fabric, the fabric wrapped with the core material is extruded out of the front end opening of the output head 3 immediately, and the fabric wrapped with the core material is taken down from the front end opening of the output head 3 to form the fried ball blank.

The inner part of the output head 3 is a conical cavity, and the fabric can be properly extruded to form a column shape in the output process of the output head 3.

Because the front end opening of the elbow section 21 is positioned in the output head 3, the conveying distance of the fabric wrapped with the core material is short, the core material can be kept in the fabric, and the core material and the fabric are prevented from being mixed together.

Because the elbow section 21 is coaxial with the output head 3, the core material can be ensured to be positioned at the central position of the fabric.

Further, the upper part of the front end of the output head 3 is provided with an arc-shaped outlet 32 which is gradually lowered from back to front, so that when the fabric wrapped with the core material is extruded, a scraper or a steel wire is adopted to move along the arc-shaped outlet 32, and the spherical ball blank can be cut and formed.

The fabric conveying pipe 1, the core material conveying pipe 2, the output head 3 and the sealing ring in the embodiment are all convenient to disassemble and clean, and the problem that fried ball blanks are insanitary due to the fact that fabrics extruded into gaps among the fabric conveying pipe 1, the core material conveying pipe 2 and the output head 3 cannot be cleaned for a long time and deteriorate is prevented.

The fabric conveying pipe 1 in the embodiment is relatively thick, the core material conveying pipe 2 is thin, the fabric conveying pipe 1 can be arranged to be twisted to convey fabric, and the core material conveying pipe 2 can convey core materials through a food-grade vane pump.

Example 2:

a sandwich fried ball blank discharging mechanism, please refer to fig. 5.

As shown in fig. 5, the present embodiment differs from embodiment 1 in that the mechanism for discharging the sandwich fried pellet blank further comprises a first clamping ring 33 and a second clamping ring 34, and a matching groove for passing through the core material conveying pipe 2 is provided between the first clamping ring 33 and the flange of the output head 3.

By additionally arranging the first clamping ring 33, the processing of the groove is facilitated, while the second clamping ring 34 is equivalent to a clamping ring, and the output head 3 can be stably arranged on the flange of the lining conveying pipe 1.

Example 3:

a sandwich fried ball blank discharging mechanism, please refer to fig. 6 to 8.

As shown in fig. 6 to 8, the present embodiment is different from embodiment 1 in that the fabric transport pipe 1 is provided with the forward extending portion 12 located in front of the first flange 11, the rear end of the output head 3 is provided with the mounting hole 35 matched with the forward extending portion 12, and the forward extending portion 12 is inserted into the mounting hole 35, so that the fabric can be prevented from being pressed into the gap between the first flange 11 and the second flange 31, and the requirement for the sealing property between the first flange 11 and the second flange 31 is reduced.

Core material conveyer pipe 2 includes bend section 21 and vertical section 23, is tie point 22 between bend section 21 and the vertical section 23, is located first flange 11 rear side at surface fabric conveyer pipe 1 and is equipped with through-hole 13, and core material conveyer pipe 2's mounting means does: the bent pipe section 21 extends into the front end opening of the fabric conveying pipe 1, the turning part 211 at the rear end of the bent pipe section 21 extends out of the through hole 13, the bent pipe section 21 is welded at the through hole 13, then the vertical section 23 is connected to the bent pipe section 21, and the connecting point 22 is welded or in threaded connection.

As shown in fig. 8, the front end opening of the elbow section extends forwards into the output head 3, the inside of the output head 3 is a conical cavity, and the elbow section 21 is coaxial with the fabric conveying pipe 1 and the output head 3.

Core material conveyer pipe 2 accessible food level's vane pump in this embodiment carries the core material, and the relative embodiment 1 of surface fabric conveyer pipe 1 in this embodiment is thinner, and surface fabric conveyer pipe 1 also can carry the surface fabric through food level's vane pump.

Example 4:

a sandwich fried ball blank processing device, please refer to fig. 9-13.

As shown in fig. 9, the sandwich fried ball blank processing equipment comprises a support frame 4, wherein a plate 41 of the support frame 4 is provided with a sandwich fried ball blank discharging mechanism in embodiment 1, the back end of a fabric conveying pipe 1 of the sandwich fried ball blank discharging mechanism is integrally provided with a fabric hopper 5, the fabric conveying pipe 1 is communicated with the bottom of the fabric hopper 5, the fabric hopper 5 is used for loading kneaded fabric, and the plate 41 is further provided with a fabric conveying mechanism for conveying the fabric in the fabric hopper forward on the fabric conveying pipe 1.

As shown in fig. 10, the fabric conveying mechanism includes two screw rods disposed in the fabric hopper 5 and the fabric conveying pipe 1, the screw rods include a rotating shaft 51 penetrating through the fabric hopper 5 and the fabric conveying pipe 1, a helical blade 52 is disposed on the rotating shaft 51, as shown in fig. 11, two semicircular cavities 14 are disposed inside the fabric conveying pipe 1, and one screw rod is disposed in each semicircular cavity 14. As shown in fig. 12, the spiral blade 52 extends from the inside of the hopper 5 to the front end of the material conveying pipe 1, and the rear end of the rotary shaft 51 penetrates the hopper 1 to connect to the driving mechanism.

The driving mechanism connected to the rotating shaft 51 comprises a speed reducer 53 and a first motor 54, an output shaft of the first motor 54 is in driving connection with the speed reducer 53, and the speed reducer 53 has two output shafts which are respectively connected with the two rotating shafts 51. In the embodiment, the flour in the flour hopper 5 is conveyed forwards through the double-screw rod, and in other embodiments, a single-screw rod can be adopted.

As shown in fig. 14, a core material container 24 for containing a core material and a core material conveying mechanism for conveying the core material in the core material container to the core material conveying pipe 2 are further provided on the flat plate 41, the core material container 24 is used for containing a core material such as egg liquid, and the core material conveying mechanism is used for conveying the core material in the core material container to the core material conveying pipe 2. In this embodiment, the core material conveying mechanism includes a food pump 25, an input port of the food pump 25 is communicated with a core material container 24, an output port is communicated with the core material conveying pipe 2, a valve 26 is arranged on the core material conveying pipe 2, the valve 26 is an electromagnetic valve controlled by a PLC, and can be intermittently opened and closed, core materials are injected into the columnar fabric extruded from the output head 3 at intervals, and each section of the fabric injected with the core materials is separated to form a sandwich pellet blank.

Further, as shown in fig. 9 and 10, a cutting mechanism is provided at the front end of the output head 3, and the cutting mechanism is used for cutting the core material-coated fabric output by the output head 3 into sandwich fried ball blanks. Specifically, the cutting mechanism comprises a bearing seat 61 and a rotating frame 62, wherein a central shaft 621 of the rotating frame 62 is mounted on the bearing seat 61 through a bearing 611, the rotating frame 62 comprises two opposite disks 622 mounted on the central shaft 621, a cutting wire 623 is arranged between the two disks 622, and the cutting wire 623 is a 304 stainless steel wire.

As shown in FIG. 13, two adjacent attachment holes 6221 are provided in each of the disks 622, and the tips of the cutting wires 623 are threaded through the two attachment holes 6221 in sequence and then tightened to connect the disks 622.

In this embodiment, the cutting wires 623 and the output head 3 are arranged in a cross manner in space, the cutting wires 623 are parallel to the central shaft 621, and the cutting wires 623 and the central shaft 621 keep a certain distance therebetween.

When the rotating frame 62 rotates, the cutting wire 623 can be continuously close to the output head 3, and as shown in fig. 12, the cutting wire 623 can be attached to the arc-shaped outlet 32 and move when being close to the output head 3, so that the cutting wire 623 can cut out round ball blanks as much as possible.

The front side of the flat plate 41 of the support frame 4 is provided with a falling port 42, an oil pan can be arranged below the falling port 42, and the ball blanks cut by the cutting mechanism directly fall into the oil pan through the falling port 42 for frying.

Example 5:

a sandwich fried ball blank processing device, please refer to fig. 15.

As shown in fig. 14, the difference between the sandwich fried ball blank processing device in this embodiment and embodiment 4 is that a second motor 63 is disposed on one side of a bearing seat 61, and a central shaft 621 of a rotating frame 62 passes through the bearing seat 61 and then is connected to an output shaft of the second motor 63 through a coupling 64.

The rotating speed of the second motor 63 is adjusted, the rotating speed of the first motor 54, the pumping flow of the food pump 25 and the opening and closing frequency of the valve 26 are correspondingly adjusted, so that the rotating frequency of the cutting wire 623 is matched with the discharging speed of the fabric conveying pipe 1 and the core conveying speed of the core conveying pipe 2, and a sandwich ball blank can be cut out when the rotating frame 62 rotates for one circle.

The application method of the sandwich fried ball blank processing equipment comprises the following steps:

firstly, the fabric in a fabric hopper is conveyed into a fabric conveying pipe through a fabric conveying mechanism, and the front end of the fabric conveying pipe is provided with an output head; the core material in the core material container is input into the core material conveying pipe through the core material conveying mechanism, the front end of the core material conveying pipe penetrates into the output head, and the core material conveying pipe is used for conveying the core material to wrap the core material in the fabric conveyed by the fabric conveying pipe. And then cutting the fabric which is output by the output head and is wrapped with the core material into sandwich fried ball blanks through a cutting mechanism.

When the sandwich ball blank cutting machine is used, the speed of the fabric output by the fabric conveying pipe, the speed and the frequency of the core material conveying pipe and the speed of the cutting mechanism for cutting the ball blank are well adjusted, the core material conveying pipe injects core materials into the fabric conveyed by the fabric conveying pipe at intervals, the core material conveying pipe stops conveying the core materials or sucks the core materials back in the short cutting time of the cutting mechanism, so that a sandwich ball blank can be cut out every time a rotating frame of the cutting mechanism rotates for one circle, and the core materials in the prepared sandwich ball blank can be wrapped in the fabric due to the fact that the fabric is soft and has strong adhesion.

The present invention has been described in detail with reference to the accompanying drawings and embodiments, but those skilled in the art will understand that various specific parameters in the above embodiments can be changed without departing from the spirit of the present invention to form a plurality of specific embodiments, which are the common variation ranges of the present invention and will not be described in detail herein.

Claims (9)

1. A sandwich fried ball blank discharging mechanism is characterized by comprising:

the front end of the fabric conveying pipe is provided with an output head;

the front end of the core material conveying pipe penetrates into the fabric conveying pipe or the output head, and the core material conveying pipe is used for conveying core materials to be wrapped in the fabric conveyed by the fabric conveying pipe;

the output head is horizontally arranged, a conical cavity is arranged in the output head, and an arc-shaped outlet which is gradually lowered from back to front is formed in the upper portion of the front end of the output head.

2. The sandwich fried ball blank discharging mechanism according to claim 1, wherein a first flange is arranged at the front end of the fabric conveying pipe, a second flange is correspondingly arranged at the rear end of the output head, and the fabric conveying pipe is connected with the output head through the first flange and the second flange;

the front end of the core material conveying pipe is provided with a bent pipe section, and the core material conveying pipe is clamped between the first flange and the second flange.

3. The sandwich fried ball blank discharging mechanism according to claim 1, wherein the core material conveying pipe penetrates through the pipe wall of the fabric conveying pipe, a bent pipe section coaxial with the fabric conveying pipe is arranged at the front end of the core material conveying pipe, and a front port of the bent pipe section extends forwards into the output head.

4. The sandwich fried pellet blank discharge mechanism of claim 2 or 3, wherein the bend section is located in the output head and coaxial with the output head.

5. The utility model provides a core fried ball blank processing equipment, includes the support frame, its characterized in that still including setting up on the support frame:

the flour hopper is used for loading the flour;

a core material container for filling the core material;

the sandwich fried ball blank discharging mechanism of claim 1;

the fabric conveying mechanism is used for conveying the fabric in the fabric hopper into the fabric conveying pipe;

the core material conveying mechanism is used for conveying the core materials in the core material container into the core material conveying pipe;

and the cutting mechanism is arranged at the output head and used for cutting the shell fabric which is output by the output head and is wrapped with the core material into the blank of the sandwich fried ball.

6. The sandwich fried ball blank processing device according to claim 5, wherein the cutting mechanism comprises a bearing seat and a rotating frame, the central shaft of the rotating frame is mounted on the bearing seat through a bearing, a cutting wire is arranged on the rotating frame, and the cutting wire can continuously approach the output head when the rotating frame rotates.

7. The sandwich fried ball blank processing device according to claim 6, wherein the upper part of the front end of the output head is provided with an arc-shaped outlet which is gradually lowered from back to front, the cutting wires and the output head are arranged in a cross shape in space, and the cutting wires can move along the arc-shaped outlet when approaching the output head.

8. The sandwich fried ball blank processing device according to claim 5, wherein the back end of the fabric conveying pipe is communicated with the fabric hopper, the fabric conveying mechanism comprises a rotating shaft penetrating through the fabric hopper and the fabric conveying pipe, the rotating shaft is provided with a helical blade, the helical blade extends from the inside of the fabric hopper to the front end of the fabric conveying pipe, and the back end of the rotating shaft penetrates through the fabric hopper and is connected with a driving mechanism.

9. The sandwich fried ball blank processing device according to claim 5, characterized in that the core material conveying mechanism comprises a food pump, an input port of the food pump is communicated with the core material container, an output port of the food pump is communicated with the core material conveying pipe, and a valve is arranged on the core material conveying pipe.

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