CN211241718U - Food processing equipment - Google Patents

Abstract

The application relates to the technical field of food processing, in particular to food processing equipment which comprises two feeding devices, three turntables and two material pushing mechanisms; the first turntable and the third turntable which are arranged above the second turntable are both provided with feeding holes; the second turntable is provided with a forming hole; the three turntables rotate discontinuously, when the three turntables rotate once, the second turntable is provided with one forming hole which is opposite to the first feeding hole, and the second turntable is provided with another forming hole which is opposite to the second feeding hole; the two pushing mechanisms are respectively used for pushing the first filling on the first rotary disc to the second rotary disc, pressing the first filling into the forming holes, pressing the second filling on the third rotary disc and the first filling in the forming holes into a mold and pushing the formed food in the forming holes away from the forming holes. This application is through automatic machine production's mode, can process into food fast, has machining efficiency height, productivity height and advantage that the cost of labor is low, solves the technical problem that prior art has machining efficiency low effectively.

Description

Food processing equipment

Technical Field

The application relates to the technical field of food processing, in particular to food processing equipment.

Background

The food containing two or more than two fillings has low efficiency only depending on manual production due to complex production process, and can not meet the market demand. The yolk cup is a common food containing two stuffing materials, is made on the basis of a cantonese sausage, the bottom layer is sausage material, and the upper layer is added with a salted yolk, so that the yolk cup is richer and more delicious than the sausage. However, most of yolk marigold is still manufactured by manual processing, a sausage material is pressed into a specific shape by a mould, and salted yolk is placed upwards, so that the processing is low in efficiency, low in yield and high in labor cost.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application aims to provide a food processing apparatus, which effectively solves the technical problem of low processing efficiency in the prior art, can rapidly process various fillings into food in an automated mechanical production manner, and has the advantages of high processing efficiency, high productivity and low labor cost.

In order to achieve the purpose, the application provides the following technical scheme:

a food processing device comprises a first feeding device, a second feeding device, a first rotary disc, a second rotary disc, a third rotary disc, a first material pushing mechanism and a second material pushing mechanism;

a first feeding hole is formed in the first rotating disc, and a discharge hole of the first feeding device is arranged corresponding to the first feeding hole, so that the first feeding device can supply first stuffing to the first feeding hole;

the second rotary table is provided with a forming hole and is positioned below the first rotary table;

the third rotating disc is positioned above the second rotating disc, a second feeding hole is formed in the third rotating disc, and a discharge hole of the second feeding device corresponds to the second feeding hole, so that the second feeding device can supply second filling materials to the second feeding hole;

the first rotary table, the second rotary table and the third rotary table all rotate discontinuously, and when the first rotary table, the second rotary table and the third rotary table rotate once, one forming hole of the second rotary table is opposite to the first feeding hole, and the other forming hole of the second rotary table is opposite to the second feeding hole;

the first material pushing mechanism comprises at least one pushing block and is used for pushing the first filling on the first rotating disc to the second rotating disc and pressing the first filling into the forming hole;

the second material pushing mechanism comprises at least one pushing block and is used for pressing and molding the second filling on the third rotating disc and the first filling in the molding hole and pushing the molded food in the molding hole away from the molding hole.

Preferably, in the processing apparatus, the first pushing mechanism includes a first pushing block and a second pushing block, the second pushing mechanism includes a third pushing block and a fourth pushing block, and the first pushing block, the second pushing block, the third pushing block and the fourth pushing block are sequentially arranged along the rotation direction of the second turntable;

the first pushing block is arranged above the first feeding hole, so that the first pushing block can push first filling to the first rotating disc;

the second pushing block is arranged above the forming hole, so that the second pushing block can press the first filling on the second rotating disc into the forming hole;

the third pushing block is arranged above the second feeding hole, so that the third pushing block can press and mold the second filling on the third rotating disc and the first filling in the molding hole;

the fourth push block is arranged above the forming hole, so that the fourth push block can push the formed food in the forming hole away from the forming hole.

Preferably, in the above processing apparatus, the first rotating disk, the second rotating disk and the third rotating disk rotate simultaneously, the first pushing block, the second pushing block, the third pushing block and the fourth pushing block start simultaneously, and the start of the first pushing block and the rotation of the first rotating disk are performed alternately.

Preferably, in the processing equipment, the processing equipment further comprises a conveyor belt, and the conveyor belt is located right below the fourth pushing block, so that the formed food disengaged from the forming holes falls onto the conveyor belt.

Preferably, in the processing apparatus, a bottom of the second pushing block is provided with a semicircular protrusion.

Preferably, in the processing apparatus, a bottom of the third pushing block is provided with a semicircular groove.

Preferably, in the processing apparatus, a baffle is disposed at the bottom of the second turntable, and vertical projections of the first push block, the second push block, and the third push block are located on the baffle, so that the first push block, the second push block, and the third push block do not push the filling away from the forming hole.

Preferably, in the processing apparatus, the processing apparatus further includes a wetting device, and the wetting device wets the first feeding hole, the second feeding hole or the forming hole, so that the first filling, the second filling and the formed food fall off from the first feeding hole, the second feeding hole and the forming hole respectively.

Preferably, in the processing apparatus, the processing apparatus further includes a heating device, and the heating device is configured to preheat the push block of the first pushing mechanism, the push block of the second pushing mechanism, or the forming hole, so that the first filling, the second filling, and the formed food fall off from the first feeding hole, the second feeding hole, and the forming hole, respectively.

Preferably, in the processing equipment, the forming hole is provided with a forming die, and the forming die is provided with a die hole.

The beneficial effect of this application is:

when the feeding device is used, the first feeding device is started to convey first filling materials into the first feeding holes in the first rotating disc, the position of the first filling materials can be continuously moved along with the rotation of the first rotating disc, and when the first feeding holes containing the first filling materials move to the position below the push block of the first material pushing mechanism, the push block of the first material pushing mechanism is started, so that the first filling materials in the first feeding holes can be pushed onto the second rotating disc, and the first filling materials are pressed into the forming holes; meanwhile, a second feeding device is started to convey second filling materials into a second feeding hole in a third rotary disc, the position of the second filling materials can be continuously moved along with the rotation of the third rotary disc, the position of first filling materials in a forming hole can also be moved along with the rotation of the second rotary disc, when a second feeding hole containing the second filling materials and the forming hole containing the first filling materials simultaneously move to the position below a push block of a second material pushing mechanism, a push block of the second material pushing mechanism is started, the second filling materials on the third rotary disc and the first filling materials in the forming hole can be pressed into a mold, the formed food in the forming hole is pushed away from the forming hole, and therefore the food processing is completed. Compare through artifical mode processing many fillings food with the tradition, this application can be processed into food with multiple filling fast through automated machine production's mode, has machining efficiency height, productivity height and the low advantage of cost of labor, solves the technical problem that prior art has machining efficiency to hang down effectively.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a food processing apparatus according to an embodiment of the present disclosure;

fig. 2 is a top view of a first turntable, a second turntable, and a third turntable provided in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a second push block provided in the embodiment of the present application;

fig. 4 is a perspective view of a first turntable according to an embodiment of the present application.

In the figure:

the device comprises a first rotating disc 1, a first feeding hole 11, a second rotating disc 2, a forming hole 21, a first station 21a, a second station 21b, a third station 21c, a fourth station 21d, a third rotating disc 3, a second feeding hole 31, a first push block 41, a second push block 42, a protrusion 421, a third push block 43, a fourth push block 44, a conveyor belt 5, a forming die 6, a die hole 61, a first feeding device 7 and a heating device 8.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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 in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should be noted that the terms "mounted," "connected," and "connected" are used broadly and are defined as, for example, a fixed connection, an exchangeable connection, an integrated connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements, unless otherwise explicitly stated or limited. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

The food containing two or more than two fillings has low efficiency only depending on manual production due to complex production process, and can not meet the market demand. The yolk cup is a common food containing two stuffing materials, is made on the basis of a cantonese sausage, the bottom layer is sausage material, and the upper layer is added with a salted yolk, so that the yolk cup is richer and more delicious than the sausage. However, most of yolk marigold is still manufactured by manual processing, a sausage material is pressed into a specific shape by a mould, and salted yolk is placed upwards, so that the processing is low in efficiency, low in yield and high in labor cost. The application provides a food processing equipment passes through automatic machine's mode, can process into food fast, has machining efficiency height, productivity height and advantage that the cost of labor is low, solves the technical problem that prior art has machining efficiency low effectively.

Referring to fig. 1 to 4, an embodiment of the present application provides a food processing apparatus, including a first feeding device 7, a second feeding device, a first rotating disc 1, a second rotating disc 2, a third rotating disc 3, a first material pushing mechanism, and a second material pushing mechanism; a first feeding hole 11 is formed in the first rotary table 1, and a discharge hole of the first feeding device 7 is arranged corresponding to the first feeding hole 11, so that the first feeding device 7 can supply first stuffing to the first feeding hole 11; the second rotary table 2 is provided with a forming hole 21, and the second rotary table 2 is positioned below the first rotary table 1; the third rotating disc 3 is positioned above the second rotating disc 2, a second feeding hole 31 is formed in the third rotating disc 3, and a discharge hole of the second feeding device corresponds to the second feeding hole 31, so that the second feeding device can supply second stuffing to the second feeding hole 31; the first rotary table 1, the second rotary table 2 and the third rotary table 3 all rotate discontinuously, and when the first rotary table 1, the second rotary table 2 and the third rotary table 3 rotate once, the second rotary table 2 always has one forming hole 21 opposite to the first feeding hole 11, and the second rotary table 2 always has another forming hole 21 opposite to the second feeding hole 31; the first material pushing mechanism comprises at least one pushing block and is used for pushing the first filling on the first rotary disc 1 to the second rotary disc 2 and pressing the first filling into the forming holes 21; the second material pushing mechanism comprises at least one pushing block, and is used for pressing and molding the second filling on the third rotating disc 3 and the first filling in the molding holes 21 and pushing the molded food in the molding holes 21 away from the molding holes 21.

More specifically, referring to fig. 1 and 2, a plurality of first feeding holes 11 are provided, and the plurality of first feeding holes 11 are uniformly arranged on the first turntable 1 in a surrounding manner; a plurality of forming holes 21 are uniformly arranged on the second turntable 2 in a surrounding manner; a plurality of second feeding holes 31 are arranged on the third rotary table 3 in a uniformly surrounding manner; when the second turntable 2 rotates, the forming holes 21 firstly receive the first filling from the first feeding hole 11 through the lower part of the first turntable 1, and then receive the second filling from the second feeding hole 31 through the lower part of the second turntable 2; the first pushing mechanism and the second pushing mechanism comprise a pushing block used for directly participating in operation and a driving device used for controlling the pushing block to move, and the driving device can be an air cylinder or other devices capable of controlling the pushing block to move; this application can set up 3 carousels and 2 feedway and process the food that contains 2 kinds of filling materials, and 2 kinds of filling materials are supplied by first feedway 7 and second feedway respectively, and this application can also set up carousel more than 4 and feedway more than 3 and process the food that contains more than 3 kinds of filling materials, and this application mainly describes the food processing shaping condition of 2 kinds of filling materials, and the food of more than 3 kinds of filling materials this application is no longer repeated.

When the filling material pressing device is used, the first feeding device 7 is started to convey first filling materials into the first feeding holes 11 on the first rotary disc 1, the positions of the first filling materials can be continuously moved along with the rotation of the first rotary disc 1, and when the first feeding holes 11 containing the first filling materials move to the lower side of the push block of the first material pushing mechanism, the push block of the first material pushing mechanism is started, so that the first filling materials in the first feeding holes 11 can be pushed onto the second rotary disc 2, and the first filling materials are pressed into the forming holes 21; meanwhile, the second feeding device is started to convey the second stuffing into the second feeding holes 31 on the third rotary disc 3, the position of the second stuffing can be continuously moved along with the rotation of the third rotary disc 3, the position of the first stuffing in the forming holes 21 can also be moved along with the rotation of the second rotary disc 2, when the second feeding holes 31 containing the second stuffing and the forming holes 21 containing the first stuffing simultaneously move to the lower part of the push block of the second pushing mechanism, the push block of the second pushing mechanism is started, the second stuffing on the third rotary disc 3 and the first stuffing in the forming holes 21 can be pressed into a mold, and the molded food in the forming holes 21 is pushed away from the forming holes 21, so that the food processing is completed. Compare through artifical mode processing many fillings food with the tradition, this application can be processed into food with multiple filling fast through automated machine production's mode, has machining efficiency height, productivity height and the low advantage of cost of labor, solves the technical problem that prior art has machining efficiency to hang down effectively.

Further, in the present embodiment, referring to fig. 1, the forming mold 6 is installed in the forming hole 21, and the forming mold 6 is provided with a mold hole 61. The shape of the die hole 61 is polygonal, circular, oval or quincunx, and the molding die 6 can be detachably mounted on the molding hole 21, so that a user can conveniently replace the molding die 6 of different shapes. The pushing block of the first pushing mechanism pushes the first filling in the first feeding hole 11 to the die hole 61 of the forming die 6, so that the food can be preliminarily formed.

Further, in this embodiment, the food packaging device further includes a wetting device, and the wetting device wets the first feeding hole 11, the second feeding hole 31 or the forming hole 21, so as to facilitate the first filling, the second filling and the formed food to fall off from the first feeding hole 11, the second feeding hole 31 and the forming hole 21 respectively. The first feeding hole 11, the second feeding hole 31 or the forming hole 21 are wetted and then fed. Because part of the stuffing (such as minced meat) has higher viscosity and is easy to stick to the inner walls of the first feeding hole 11, the second feeding hole 31 and the forming hole 21, the push blocks of the first pushing mechanism and the second pushing mechanism are difficult to push out the stuffing of the first feeding hole 11, the second feeding hole 31 or the forming hole 21, and the operation efficiency is directly influenced. Before feeding, the inner wall of the first feeding hole 11, the inner wall of the second feeding hole 31 or the inner wall of the forming hole 21 are wetted by spraying liquid, so that the pushing blocks of the first pushing mechanism and the second pushing mechanism can be effectively helped to push out stuffing, the efficiency of operation is improved, and meanwhile, part of stuffing can be prevented from being stuck on the inner wall of the first feeding hole 11, the inner wall of the second feeding hole 31 and the inner wall of the forming hole 21, so that the integrity of formed food is ensured, the surface of the lubricated food can be smoother, and the food is more attractive. Particularly, in the production of the yolk cup, since the yolk is not easily stuck on the inner wall of the second feeding hole 31, the yolk cup can be conveniently separated from the shaping hole 21 only by spraying the liquid into the shaping hole 21 into which the meat paste is added.

Further, in this embodiment, please refer to fig. 4, the food filling device further includes a heating device 8, and the heating device 8 is configured to preheat the push block of the first pushing mechanism and the push block or the forming hole 21 of the second pushing mechanism, so as to facilitate the first filling, the second filling, and the formed food to fall off from the first feeding hole 11, the second feeding hole 31, and the forming hole 21, respectively. When the stuffing has high viscosity and is not easy to demould, the pushing block of the first pushing mechanism, the pushing block of the second pushing mechanism or the forming hole 12 can be preheated through the heating device 8, the pushing blocks of the first pushing mechanism and the second pushing mechanism can conveniently push the stuffing out of the first feeding hole 11, the second feeding hole 31 or the forming hole 21, the operation efficiency is improved, meanwhile, part of the stuffing can be prevented from being stuck on the inner wall of the first feeding hole 11, the inner wall of the second feeding hole 31 and the inner wall of the forming hole 21, and therefore the completeness of the formed food is guaranteed.

It should be noted that, the first pushing mechanism may include 1 pushing block, and the 1 pushing block not only needs to push the first filling on the first rotating disk 1 to the surface of the forming hole 21 of the second rotating disk 2, but also needs to press the first filling on the surface of the forming hole 21 into the forming hole 21, that is, when the pushing block is started, the pushing block needs to pass through the first feeding hole 11 and then abut against the surface of the forming hole 21, and the first pushing mechanism may further include more than 1 pushing block, and the multiple pushing blocks may jointly realize, step by step, that the first filling on the first rotating disk 1 is pushed onto the second rotating disk 2 and the first filling is pressed into the forming hole 21; similarly, the second pushing mechanism can include 1 pushing block, 1 pushing block not only needs to push the second stuffing on the third rotary disc 3 into the forming hole 21 containing the first stuffing to press the first stuffing and the second stuffing into a shape, but also needs the formed food in the forming hole 21 to push away from the forming hole 21, that is, when starting the pushing block, the pushing block needs to pass through the second feeding hole 31 and the forming hole 21, the second pushing mechanism can further include more than 1 pushing block, and the multiple pushing blocks can jointly realize pressing the second stuffing on the third rotary disc 3 into a shape with the first stuffing in the forming hole 21 and push away the formed food in the forming hole 21 from the forming hole 21 step by step.

Except being applied to the processing process of the egg yolk cup, the processing method can also be applied to the processing process of other foods, and the processing method is not repeated one by one. When the processing method is applied to processing of the yolk cup, the yolk cup is made on the basis of the Cantonese sausage, the bottom layer is the sausage material, the upper layer is added with the salted yolk, namely the yolk cup is composed of the sausage material at the bottom layer and the salted yolk at the upper layer, and the yolk cup can be divided into 2 stuffing materials of the sausage material and the salted yolk for processing and forming.

Further, in this embodiment, referring to fig. 1 and fig. 2, the first pushing mechanism may include a first pushing block 41 and a second pushing block 42, the second pushing mechanism may include a third pushing block 43 and a fourth pushing block 44, and the first pushing block 41, the second pushing block 42, the third pushing block 43 and the fourth pushing block 44 are sequentially arranged along the rotation direction of the second turntable 2; the first pushing block 41 is arranged above the first feeding hole 11, so that the first pushing block 41 can push the first filling to the first rotating disc 1; the second pushing block 42 is arranged above the forming hole 21, so that the second pushing block 42 can press the first filling on the second rotating disc 2 into the forming hole 21; the third pushing block 43 is arranged above the second feeding hole 31, so that the third pushing block 43 can press and mold the second stuffing on the third rotating disc 3 and the first stuffing in the molding hole 21; the fourth pushing block 44 is disposed above the forming hole 21, so that the fourth pushing block 44 can push the formed food in the forming hole 21 away from the forming hole 21.

Referring to fig. 1 and 2, no matter how the three rotating discs rotate, the forming hole 21 of the first pushing block 41 is the first station 21a, the forming hole 21 of the second pushing block 42 is the second station 21b, the forming hole 21 of the third pushing block 43 is the third station 21c, the forming hole 21 of the fourth pushing block 44 is the fourth station 21d, and the four stations are four sequentially connected forming holes 21; when making the yolk cup, the first feeding device 7 supplies the first feeding hole 11 with sausage meat stuffing at the bottom layer, the first rotary table 1 rotates to change the position of the first feeding hole 11, when the first feeding hole 11 containing sausage meat stuffing moves to the lower part of the first push block 41 (namely, the first station 21a in fig. 2), the first push block 41 is started to push the sausage meat stuffing in the first feeding hole 11 to the upper surface of the forming mold 6 of the second rotary table 2, then the second rotary table 2 rotates to change the position of the forming mold 6, and when the sausage meat stuffing on the second rotary table 2 moves to the lower part of the second push block 42 (namely, the second station 21b in fig. 2), the second push block 42 is started to press the sausage meat stuffing to the mold hole 61 of the forming mold 6; meanwhile, the second feeding device sequentially places the salted egg yolks one by one on each second feeding hole 31, the position of the salted egg yolk can be continuously changed along with the rotation of the third rotating disc 3, the second feeding hole 31 with the salted egg yolk and the die hole 61 containing the sausage meat stuffing move to the lower part of the third pushing block 43 (namely, the third station 21c in fig. 2) at the same time, the third pushing block 43 is started to press the salted egg yolk onto the sausage meat stuffing to finish the shaping of the egg yolk cup, finally, the egg yolk cup to be shaped moves to the lower part of the fourth pushing block 44 (namely, the fourth station 21d in fig. 2), and the fourth pushing block 44 is started to push the shaped egg yolk cup away from the die hole 61 to finish the processing of the whole egg yolk cup.

Because a certain distance exists between the second rotary disc 2 and the first rotary disc 1 (or the third rotary disc 3) in the horizontal direction, the meat stuffing (or the salted egg yolk) is directly pushed onto the second rotary disc 2 from the first rotary disc 1 (or the third rotary disc 3) at a time, the shape of the meat stuffing (or the salted egg yolk) is inevitably damaged due to excessive pressure, the attractiveness of the egg yolk cup is influenced, the egg yolk cup is processed by dividing the shaping of the egg yolk cup into four push blocks, namely four steps, the pressure of each push block on the filling can be effectively weakened, the damage of the push blocks on the shape of the egg yolk cup is effectively avoided, the attractiveness of the egg yolk cup is ensured, and the vertical moving distance of each push block is relatively reduced compared with two push blocks due to the division of the four push blocks, so that the processing efficiency of the egg yolk cup is favorably accelerated.

More specifically, the first feeding device 7 controls the meat quantity by adjusting the speed of stirring the meat and the speed of the first rotating disc 1, and the bottom of the first rotating disc 1 is provided with a support plate for blocking the first feeding hole 11 opposite to the discharge hole of the first feeding device 7, so that the meat stuffing supplied by the discharge hole of the first feeding device 7 every time is the size of the first feeding hole 11, and the quantitative supply to the first feeding hole 11 is realized; the yolk can be automatically placed on the second turntable 2 by the second feeding device in a mechanical device mode, and the yolk can be supplied by the second feeding device in a manual mode, so that the smooth surface of the yolk can be ensured to be upwards presented for better selling phases of customers.

Further, in this embodiment, referring to fig. 1 and fig. 2, the first turntable 1, the second turntable 2, and the third turntable 3 rotate simultaneously, the first pushing block 41, the second pushing block 42, the third pushing block 43, and the fourth pushing block 44 start simultaneously, and the start of the first pushing block 41 and the rotation of the first turntable 1 are performed alternately. For the maximum processing efficiency of the yolk cup, the three turntables change the position of stuffing at the same time, each turntable rotates discontinuously at a certain angle, when the three turntables stop rotating, the four push blocks are started at the same time to complete respective pushing operation and then return to the original positions, the three turntables rotate again to change the position of the stuffing, and the turntables and the push blocks operate alternately, so that the maximum processing efficiency of processing equipment can be ensured, the processing time cost is shortened, and the market demand is met.

Further, in this embodiment, please refer to fig. 1, further comprising a conveyor belt 5, wherein the conveyor belt 5 is located right below the fourth pushing block 44, so that the formed food released from the forming hole 21 falls onto the conveyor belt 5. The formed food can be rapidly conveyed to the next processing procedure or packaging procedure through the arrangement of the conveying belt 5, so that the food processing efficiency in the catering industry is effectively accelerated.

Further, in the present embodiment, referring to fig. 3, a semicircular protrusion 421 is disposed at the bottom of the second pushing block 42. When the second pushing block 42 pushes and presses the meat paste on the forming mold 6, a groove for placing the yolk can be formed on the surface of the meat paste in the mold hole 61 through the arrangement of the semicircular protrusion 421, so that the subsequent yolk can be combined into the meat paste, and the yolk cup can be more beautiful.

Further, in the present embodiment, the bottom of the third pushing block 43 is provided with a semicircular groove. When the third pushing block 43 pushes and presses the salted egg yolk on the third rotating disc 3, if the bottom of the third pushing block 43 is a plane, the egg yolk can be easily flattened or even broken, the egg yolk can be effectively prevented from being damaged by the arrangement of the groove of the third pushing block 43, the appearance of the egg yolk is kept, and the produced egg yolk can be sold well.

Further, in this embodiment, the bottom of the second rotating disc 2 is provided with a baffle, and the vertical projection of the first pushing block 41, the second pushing block 42 and the third pushing block 43 is located on the baffle, so that the first pushing block 41, the second pushing block 42 and the third pushing block 43 do not push the filling out of the forming hole 21. Referring to fig. 2, the bottom of the first station 21a, the bottom of the second station 21b, and the bottom of the third station 21c are shielded by the shielding plate, so that the lubricated or heated stuffing is not easily pushed out of the forming hole 21 by the first pushing block 41, the second pushing block 42, and the third pushing block 43, thereby ensuring that the processing operation of the cup is continuously performed. Of course, the baffle plate cannot block the bottom of the fourth station 21d in order to ensure that the molded yolk cup can be normally separated from the fourth station 21 d. In addition, in order to facilitate that the salted egg yolk does not fall off when the third rotating disc 3 rotates, the bottom of the third rotating disc 3 is provided with an elastic baffle, the middle of the elastic baffle at the bottom of each second feeding hole 31 is provided with a splitting line opening, the salted egg yolk can be effectively blocked by utilizing the elasticity of the elastic baffle, and the third pushing block 43 can drive the salted egg yolk in the second feeding hole 31 to push the salted egg yolk out of the second feeding hole 31 from the splitting line opening.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A food processing device is characterized by comprising a first feeding device, a second feeding device, a first rotary disc, a second rotary disc, a third rotary disc, a first material pushing mechanism and a second material pushing mechanism;

a first feeding hole is formed in the first rotating disc, and a discharge hole of the first feeding device is arranged corresponding to the first feeding hole, so that the first feeding device can supply first stuffing to the first feeding hole;

the second rotary table is provided with a forming hole and is positioned below the first rotary table;

the third rotating disc is positioned above the second rotating disc, a second feeding hole is formed in the third rotating disc, and a discharge hole of the second feeding device corresponds to the second feeding hole, so that the second feeding device can supply second filling materials to the second feeding hole;

the first rotary table, the second rotary table and the third rotary table all rotate discontinuously, and when the first rotary table, the second rotary table and the third rotary table rotate once, one forming hole of the second rotary table is opposite to the first feeding hole, and the other forming hole of the second rotary table is opposite to the second feeding hole;

the first material pushing mechanism comprises at least one pushing block and is used for pushing the first filling on the first rotating disc to the second rotating disc and pressing the first filling into the forming hole;

the second material pushing mechanism comprises at least one pushing block and is used for pressing and molding the second filling on the third rotating disc and the first filling in the molding hole and pushing the molded food in the molding hole away from the molding hole.

2. The food processing device according to claim 1, wherein the first pushing mechanism comprises a first pushing block and a second pushing block, the second pushing mechanism comprises a third pushing block and a fourth pushing block, and the first pushing block, the second pushing block, the third pushing block and the fourth pushing block are sequentially arranged along the rotation direction of the second turntable;

the first pushing block is arranged above the first feeding hole, so that the first pushing block can push first filling to the first rotating disc;

the second pushing block is arranged above the forming hole, so that the second pushing block can press the first filling on the second rotating disc into the forming hole;

the third pushing block is arranged above the second feeding hole, so that the third pushing block can press and mold the second filling on the third rotating disc and the first filling in the molding hole;

the fourth push block is arranged above the forming hole, so that the fourth push block can push the formed food in the forming hole away from the forming hole.

3. The food processing apparatus of claim 2, wherein the first turntable, the second turntable, and the third turntable rotate simultaneously, the first pusher, the second pusher, the third pusher, and the fourth pusher are actuated simultaneously, and actuation of the first pusher and rotation of the first turntable are staggered.

4. The food processing apparatus of claim 2, further comprising a conveyor belt directly beneath the fourth pusher such that the shaped food products disengaged from the shaped apertures fall onto the conveyor belt.

5. The food processing device of claim 2, wherein the bottom of the second push block is provided with a semicircular protrusion.

6. The food processing device according to claim 2, wherein the bottom of the third pushing block is provided with a semicircular groove.

7. The food processing device according to claim 2, wherein a baffle is provided at the bottom of the second rotating disc, and vertical projections of the first push block, the second push block and the third push block are located on the baffle, so that the first push block, the second push block and the third push block do not push the filling out of the forming hole.

8. The food processing apparatus of claim 1, further comprising a wetting device for wetting the first feed aperture, the second feed aperture, or the shaping aperture.

9. The food processing apparatus of claim 1, further comprising a heating device for preheating the push block of the first material pushing mechanism, the push block of the second material pushing mechanism, or the forming hole.

10. The food processing device according to any of claims 1 to 9, wherein the forming hole is fitted with a forming die, the forming die being provided with a die hole.

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