CN116636549A - Cake forming and processing integrated machine and production process thereof - Google Patents

Abstract

The invention discloses a cake forming and processing integrated machine which comprises a frame, a feeding device, a receiving device, a pressing device, a wrapping device, a lifting device and a frying device, wherein the feeding device is connected with the frame; the feeding device comprises a feeding cylinder and a discharging pipe, the feeding cylinder is arranged on the frame, a first feeding cavity and a second feeding cavity are formed in the feeding cylinder, the discharging pipe comprises a first discharging pipe and a second discharging pipe, the first discharging pipe is communicated with the first feeding cavity, and the second discharging pipe is communicated with the second feeding cavity; the pressing device comprises a pressing head capable of lifting; the receiving device comprises a receiving tray which can move to the lower part of the first blanking pipe, the lower part of the second blanking pipe and the lower part of the lower pressing head; the material wrapping device is arranged on the frame to receive cakes pressed by the pressing device, the lifting device is arranged on the frame, and the lifting device receives the cakes of the material wrapping device and lifts the cakes to the frying device for frying. The invention also discloses a production process of the cake. The invention can automatically and quickly make cakes and has high making efficiency.

Description

Cake forming and processing integrated machine and production process thereof

Technical Field

The invention relates to the technical field of cake making, in particular to a cake forming and processing integrated machine and a production process thereof.

Background

The cake is a snack which is frequently eaten by people in daily life, the variety of the cake is more and more, and the making process of different kinds of cakes is different, for example, some cakes need to be fried in oil in the production and processing processes of the cake.

Traditional cake is usually by artifical shaping, is putting the cake of shaping into the fryer and frying, and efficiency is lower. In view of the above, the present inventors have made intensive studies to solve the above-mentioned drawbacks of the prior art.

Disclosure of Invention

The present invention aims to solve at least to some extent one of the technical problems in the above-described technology. Therefore, an object of the present invention is to provide a cake forming and processing integrated machine, which can automatically and rapidly make cakes with high making efficiency.

A second object of the present invention is to propose a process for the production of pastries.

In order to achieve the above purpose, the invention provides a cake forming and processing integrated machine, which comprises a frame, a feeding device, a receiving device, a pressing device, a wrapping device, a lifting device and a frying device;

the feeding device comprises a feeding cylinder and a discharging pipe, the feeding cylinder is arranged on the frame, a first feeding cavity for placing a first material and a second feeding cavity for placing a second material are formed in the feeding cylinder, the discharging pipe comprises a first discharging pipe and a second discharging pipe, the first discharging pipe is communicated with the first feeding cavity and used for outputting the first material, and the second discharging pipe is communicated with the second feeding cavity and used for outputting the second material; the pressing device comprises a pressing head capable of lifting; the material receiving device is arranged on the frame and comprises a material receiving disc which can move to the lower part of the first blanking pipe, the lower part of the second blanking pipe and the lower part of the lower pressure head; the material wrapping device is arranged on the frame to receive cakes pressed by the pressing device, the lifting device is arranged on the frame, and the lifting device receives the cakes of the material wrapping device and lifts the cakes to the frying device for frying.

Further, the receiving device further comprises a mounting seat, a first transverse driving mechanism, a second transverse driving mechanism and a receiving mechanism, wherein the mounting seat is arranged on the side part of the frame, the first transverse driving mechanism is arranged on the mounting seat, the second transverse driving mechanism is slidably arranged on the mounting seat, the second transverse driving mechanism is connected with the first transverse driving mechanism and is driven to slide along the mounting seat by the first transverse driving mechanism, the receiving mechanism is connected with the second transverse driving mechanism and is driven to move to the lower part of the first blanking pipe or the lower part of the second blanking pipe by the second transverse driving mechanism, and a receiving disc is arranged on the receiving mechanism.

Further, the first transverse driving mechanism and the second transverse driving mechanism are both transverse driving cylinders; the mounting seat is provided with a sliding rail, and the bottom of the second transverse driving mechanism is provided with a sliding block sliding along the sliding rail.

Further, the material receiving mechanism comprises a first material receiving block, a first elastic component, a material receiving connecting rod, a second material receiving block and a second elastic component, wherein the first material receiving block is connected with the second transverse driving mechanism, the first elastic component is arranged on the first material receiving block, one end of the material receiving connecting rod is fixedly connected with the first material receiving block, the second material receiving block is fixedly connected with the other end of the material receiving connecting rod, and the second elastic component is arranged on the second material receiving block and corresponds to the first elastic component; the receiving tray comprises a first receiving half tray and a second receiving half tray, the first receiving half tray is connected with the first elastic component, the second receiving half tray is connected with the second elastic component, and the second receiving half tray and the first receiving half tray are mutually close together under the action of the first elastic component and the second elastic component.

Further, first elastic component includes connecting seat, spliced pole, compression spring and connecting pin, and connecting seat fixed connection is on first receiving block, forms the installation cavity in the spliced pole, and the spliced pole includes first stopper, forms the spacing passageway with the installation cavity intercommunication in the first stopper, and compression spring is located the installation cavity, and connecting pin one end sets up the second stopper, and the second stopper is connected with compression spring and is driven it by compression spring to lean on first stopper, and the connecting pin other end passes and connects the material half-disc to be connected with first after spacing passageway.

Further, the first receiving half tray comprises an upper receiving part and a lower guiding part, a first cambered surface is formed in the upper receiving part, and a second cambered surface is formed in the lower guiding part.

Further, the pressing device further comprises a pressing driving cylinder and a pressing plate, the pressing driving cylinder is fixed at the bottom of the feeding cylinder and located between the first blanking pipe and the second blanking pipe, the pressing plate is connected with the pressing driving cylinder and driven to lift by the pressing driving cylinder, and a pressing head is arranged on the pressing plate.

Further, an arc-shaped groove is formed in the lower pressure head, and an arc-shaped guide surface is arranged on the outer surface of the lower pressure head.

Further, wrap up in the material device and include the conveying pipe, wrap up in the charging post, universal head, wrap up in the charging tray, play the spring and stir the subassembly, the conveying pipe sets up in the frame, the tip of conveying pipe is located and wraps up in the charging tray top, wrap up in the charging post and fix in the frame, universal head sets up on wrapping up in the charging post, wrap up in the charging tray bottom and universal head and be connected, play spring one end and be connected with the frame, play the spring other end and wrap up in the charging tray bottom and be connected, stir the subassembly including stirring the post, stir the horizontal pole and stir the montant, stir the rotatable setting of post in the frame, stir horizontal pole one end and stir post fixed connection, stir montant and stir horizontal pole other end fixed connection, stir the montant can support and lean on wrapping up in the charging tray bottom in order to drive and wrap up in the charging tray rotation.

Further, the outer wall of the wrapping tray forms a curved surface which is convenient for poking the vertical rod to slide into the bottom of the wrapping tray.

Further, the side part of the wrapping tray is provided with an opening, and a valve for opening or closing the opening is arranged at the opening.

Further, the lifting device comprises a lifting cylinder and a driving motor, an inlet which is in butt joint with the opening of the wrapping disc is formed in the lower portion of the lifting cylinder, a rotating shaft and lifting rotating blades are arranged in the lifting cylinder, the lifting rotating blades are connected with the rotating shaft, and an outlet which is used for being conveyed into the frying device is formed in the upper portion of the lifting cylinder; the driving motor is arranged on the frame, is connected with the rotating shaft and drives the rotating shaft to rotate.

Further, a driving wheel is arranged on an output shaft of the driving motor, a driven wheel is arranged on the poking column, and the driven wheel is connected with the rotating wheel through a connecting belt.

Further, the lifting cylinder bottom is connected with the frame bottom through the bottom mounting frame, and the lifting cylinder top is connected with the frame top through the top mounting frame.

Further, the frying device comprises a frying box, a heating mechanism and an output mechanism, wherein the frying box is arranged on the frame, the heating mechanism is arranged at the bottom of the frying box to heat oil in the frying box, and the output mechanism is arranged at the side part of the frying box to output cakes which are fried.

Further, the frying device further comprises a stirring mechanism, the stirring mechanism comprises a stirring motor, a stirring shaft and stirring plates, the stirring motor is arranged on the outer side of the frying box, the stirring shaft is positioned in the frying box, the stirring shaft is connected with the stirring motor and driven to rotate by the stirring motor, the stirring plates are arranged in a plurality, and the stirring plates are fixed on the stirring shaft.

Further, the frying device further comprises a water flow mechanism, wherein the water flow mechanism comprises water flow blades capable of rotating, and the water flow blades are arranged on the inner wall of the frying box.

Further, set up the device that induced drafts in the frame, the device that induced drafts includes induced draft cover, aspiration channel and negative pressure machine, and the cover that induced drafts is located the frying tank top, and aspiration channel one end is connected with the cover that induced drafts, and the aspiration channel other end is connected with negative pressure machine in order to produce the suction.

In order to achieve the above object, a second aspect of the present invention provides a process for producing a pastry, comprising the steps of:

s1, placing a first material in a first feeding cavity, and placing a second material in a second feeding cavity;

s2, moving the receiving tray to the lower part of the first blanking pipe, and extruding a first material in the first feeding cavity to the receiving tray; the receiving tray is then moved below the second discharging pipe, and the second material in the second feeding cavity is extruded onto the receiving tray; the receiving tray is then moved below the first blanking pipe, and the first material in the first feeding cavity is extruded onto the receiving tray; the receiving disc finally moves to the lower part of the lower pressing head;

s3, the lower pressing head moves downwards to the material receiving tray and extrudes materials in the material receiving tray to form cakes, and the lower pressing head continues to move downwards to extrude the cakes onto the material wrapping device;

s4, wrapping the cake by a wrapping device; the lifting device lifts the cake to the frying device for frying.

After the structure is adopted, the cake forming and processing integrated machine has the following beneficial effects:

when the cake feeding device is used, a first material is placed in a first feeding cavity, a second material is placed in a second feeding cavity, then a receiving tray is moved to the bottom of a first discharging pipe, the first material in the first feeding cavity is extruded onto the receiving tray, then the receiving tray is moved to the bottom of a second discharging pipe, the second material in the second feeding cavity is extruded onto the first material, then the receiving tray is moved to the bottom of the first discharging pipe, the first material in the first feeding cavity is extruded onto the second material, finally the receiving tray is moved to the bottom of a pressing head, the pressing head extrudes the materials to form cakes and presses the cakes onto a wrapping device for wrapping, and a lifting device lifts the cakes to a frying device for frying, so that cake manufacturing is completed. Realize automatic quick preparation cake, preparation efficiency is high.

Drawings

Fig. 1 is a schematic structural view of a cake forming and processing integrated machine according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a feeding device and a receiving device according to an embodiment of the present invention;

FIG. 3 is a schematic view of a receiving mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a receiving device according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is an exploded view of a first resilient assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a pressing device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a dressing apparatus according to an embodiment of the invention;

fig. 9 is a schematic view of a wrapping device according to an embodiment of the invention, at another angle;

FIG. 10 is a schematic view of a lift cylinder according to an embodiment of the present invention;

FIG. 11 is a schematic view of a frying apparatus according to an embodiment of the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11;

fig. 13 is a cross-sectional view of a frying device according to an embodiment of the present invention.

Description of the reference numerals

Frame 1, feeding device 2, feeding cylinder 21, first feeding chamber 211, second feeding chamber 212, discharging tube 22, first discharging tube 221, second discharging tube 222, receiving device 3, receiving tray 31, first receiving half tray 311, upper receiving portion 3111, first arc surface 31111, lower guide portion 3112, second arc surface 31121, second receiving half tray 312, mounting base 32, first lateral driving mechanism 33, second lateral driving mechanism 34, receiving mechanism 35, first receiving block 351, first elastic assembly 352, connecting base 3521, connecting post 3522, mounting chamber 35221, first stopper 35222, limiting channel 35223, compression spring 3523, connecting pin 3524, second stopper 3562, receiving connecting rod 353, second receiving block 354, second elastic assembly 355 the device comprises a pressing device 4, a pressing head 41, an arc-shaped groove 411, an arc-shaped guide surface 412, a pressing driving cylinder 42, a pressing plate 43, a material wrapping device 5, a material feeding pipe 51, a material wrapping column 52, a universal head 53, a material wrapping disc 54, a curved surface 541, an opening 542, a vibration starting spring 55, a stirring assembly 56, a stirring column 561, a stirring cross rod 562, a stirring vertical rod 563, a lifting device 6, a lifting cylinder 61, an inlet 611, a rotating shaft 612, a lifting rotating blade 613, an outlet 614, a driving motor 62, a driving wheel 621, a driven wheel 622, a frying device 7, a frying box 71, a heating mechanism 72, an output mechanism 73, a material turning mechanism 74, a material turning motor 741, a material turning shaft 742, a material turning plate 743, a water flow mechanism 75, an air suction device 8, an air suction cover 81, an air suction pipe 82 and a negative pressure machine 83.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

As shown in fig. 1 to 13, the cake forming and processing integrated machine of the invention comprises a frame 1, a feeding device 2, a receiving device 3, a pressing device 4, a wrapping device 5, a lifting device 6 and a frying device 7; the feeding device 2 comprises a feeding cylinder 21 and a discharging pipe 22, the feeding cylinder 21 is arranged on the frame 1, a first feeding cavity 211 for placing a first material and a second feeding cavity 212 for placing a second material are formed in the feeding cylinder 21, the discharging pipe 22 comprises a first discharging pipe 221 and a second discharging pipe 222, the first discharging pipe 221 is communicated with the first feeding cavity 211 and is used for outputting the first material, and the second discharging pipe 222 is communicated with the second feeding cavity 212 and is used for outputting the second material; the pressing device 4 comprises a pressing head 41 capable of lifting; the material receiving device 3 is arranged on the frame 1, and the material receiving device 3 comprises a material receiving disc 31 which can move to the lower part of the first blanking pipe 221, the lower part of the second blanking pipe 222 and the lower part of the lower pressure head 41; the material wrapping device 5 is arranged on the frame 1 to receive cakes pressed by the pressing device 4, the lifting device 6 is arranged on the frame 1, and the lifting device 6 receives cakes wrapped by the material wrapping device 5 and lifts the cakes to the frying device 7 for frying.

Thus, in the cake forming and processing integrated machine according to the present invention, when in use, a first material is placed in the first feeding cavity 211, a second material is placed in the second feeding cavity 212, then the receiving tray 31 is moved to the bottom of the first blanking pipe 221, the first material in the first feeding cavity 211 is extruded onto the receiving tray 31, then the receiving tray 31 is moved to the bottom of the second blanking pipe 222, the second material in the second feeding cavity 212 is extruded onto the first material, then the receiving tray 31 is moved to the bottom of the first blanking pipe 221, the first material in the first feeding cavity 211 is extruded onto the second material, finally the receiving tray 31 is moved to the bottom of the lower pressing head 41, the lower pressing head 41 extrudes the material to form cakes and presses the cakes onto the wrapping device 5 for wrapping, and the lifting device 6 lifts the cakes to the frying device 7 for frying, thereby completing the cake making. Realize automatic quick preparation cake, preparation efficiency is high.

The first material in this example may be a paste-like mass, as opposed to the second material, which may be a meat or vegetable filling.

Optionally, as shown in fig. 3 to 5, the receiving device 3 further includes a mounting seat 32, a first transverse driving mechanism 33, a second transverse driving mechanism 34, and a receiving mechanism 35, where the mounting seat 32 is disposed on a side portion of the frame 1, the first transverse driving mechanism 33 is disposed on the mounting seat 32, the second transverse driving mechanism 34 is slidably disposed on the mounting seat 32, the second transverse driving mechanism 34 is connected with the first transverse driving mechanism 33 and is driven by the first transverse driving mechanism 33 to slide along the mounting seat 32, the receiving mechanism 35 is connected with the second transverse driving mechanism 34 and is driven by the second transverse driving mechanism 34 to move below the first blanking pipe 221 or below the second blanking pipe 222, and the receiving mechanism 35 is provided with the receiving tray 31.

Wherein, the first transverse driving mechanism 33 and the second transverse driving mechanism 34 are both transverse driving cylinders; the driving rod of the transverse driving cylinder is connected with the receiving tray 31, a sliding rail is arranged on the mounting seat 32, and a sliding block sliding along the sliding rail is arranged at the bottom of the second transverse driving mechanism 34.

When the receiving tray 31 needs to be moved, the second transverse driving mechanism 34 drives the driving rod to shorten, so that the receiving tray 31 is just below the first blanking tube 221, and the second transverse driving mechanism 34 drives the driving rod to extend, so that the receiving tray 31 is just below the second blanking tube 222, and thus, the first blanking tube 221 and the second blanking tube 222 are convenient for placing materials on the receiving tray 31. Finally, the first transverse driving mechanism 33 drives the second transverse driving mechanism 34 to move together with the material receiving tray 31, so that the material receiving tray 31 is just located in the direction of the lower pressing head 41, and the lower pressing head 41 is convenient for forming materials into cakes and pressing the cakes onto the material wrapping device 5 for wrapping.

In some examples, the receiving mechanism 35 includes a first receiving block 351, a first elastic component 352, a receiving connecting rod 353, a second receiving block 354, and a second elastic component 355, where the first receiving block 351 is connected to the driving rod of the second transverse driving mechanism 34, the first elastic component 352 is disposed on the first receiving block 351, one end of the receiving connecting rod 353 is fixedly connected to the first receiving block 351, the second receiving block 354 is fixedly connected to the other end of the receiving connecting rod 353, and the second elastic component 355 is disposed on the second receiving block 354 and corresponds to the first elastic component 352; the receiving tray 31 includes a first receiving tray 311 and a second receiving tray 312, the first receiving tray 311 is connected to a first elastic component 352, the second receiving tray 312 is connected to a second elastic component 355, and the second receiving tray 312 and the first receiving tray 311 are close to each other under the action of the first elastic component 352 and the second elastic component 355.

After the material receiving tray 31 receives the material, the lower pressing head 41 is pressed down to extrude the material into cakes, the lower pressing head 41 is continuously pressed down, and at this time, the second material receiving half tray 312 and the first material receiving half tray 311 are away from each other when the lower pressing head 41 is pressed down, so that the cakes are separated from the material receiving tray 31, and the cakes are separated from the lower pressing head 41 under the action of gravity and fall onto the wrapping tray 54.

In this example, as shown in fig. 6, the first elastic component 352 includes a connection seat 3521, a connection post 3522, a compression spring 3523 and a connection pin 3524, the connection seat 3521 is fixedly connected to the first connection block 351, a mounting cavity 35221 is formed in the connection post 3522, the connection post 3522 includes a first limiting block 35222, a limiting channel 35223 communicating with the mounting cavity 35221 is formed in the first limiting block 35222, the compression spring 3523 is located in the mounting cavity 35221, a second limiting block 35241 is disposed at one end of the connection pin 3524, the second limiting block 35241 is connected to the compression spring 3523 and is driven by the compression spring 3523 to abut against the first limiting block 35222, and the other end of the connection pin 3524 passes through the limiting channel 35223 and is connected to the first receiving half disc 311. Wherein the second elastic member 355 is structurally identical to the first elastic member 352.

Because the compression spring 3523 is located in the mounting cavity 35221, the compression spring 3523 is in a compressed state, and the compression spring 3523 drives the second limiting block 35241 to tightly abut against the first limiting block 35222, so that the second receiving half disc 312 and the first receiving half disc 311 lean against each other to facilitate receiving. After the lower pressing head 41 presses down, the lower pressing head 41 presses the second receiving half disc 312 and the first receiving half disc 311, so that the compression spring 3523 is continuously compressed, and the second receiving half disc 312 and the first receiving half disc 311 are driven to be separated from each other, so that cake is pressed down.

As shown in fig. 5, the first receiving half tray 311 in this example includes an upper receiving portion 3111 and a lower guiding portion 3112, a first arc surface 31111 is formed in the upper receiving portion 3111, a second arc surface 31121 is formed in the lower guiding portion 3112, and a structure of the second receiving half tray 312 is identical to that of the first receiving half tray 311. When the lower pressing head 41 moves downwards, the edge of the lower pressing head 41 leans against the first arc surface 31111, and when the lower pressing head 41 continues to press downwards, the edge of the lower pressing head 41 slides along the first arc surface 31111, so that the materials in the receiving tray 31 can be effectively scraped.

Further, as shown in fig. 7, the pressing device 4 further includes a pressing driving cylinder 42 and a pressing plate 43, the pressing driving cylinder 42 is fixed at the bottom of the feeding cylinder 21 and located between the first blanking pipe 221 and the second blanking pipe 222, the pressing plate 43 is connected with the pressing driving cylinder 42 and is driven to lift by the pressing driving cylinder 42, and the pressing plate 43 is provided with a pressing head 41. When the cake is required to be pressed down, the pressing driving cylinder 42 drives the pressing plate 43 to lift, so that the pressing head 41 is lifted synchronously, and cake is pressed down. Because the driving cylinder 42 is pressed down and is positioned between the first blanking pipe 221 and the second blanking pipe 222, the whole layout is reasonable, the structure is compact, and the space is saved.

Specifically, an arc-shaped groove 411 is formed in the lower ram 41, and an arc-shaped guide surface 412 is provided on the outer surface of the lower ram 41. Through setting up arc recess 411, when lower pressure head 41 pushes down, the shaping of cake of being convenient for, through setting up arc guide surface 412, at pressure head 41 drive second connect half dish 312 and first connect half dish 311 keep away from each other and the back down, second connect half dish 312 and first connect half dish 311 lean on each other under the effect of elastic component, pressure head 41 rise and the in-process of returning to the original state down, arc guide surface 412 supports and leans on second cambered surface 31121, pressure head 41 continues to rise and drive second and connects half dish 312 and first and connect half dish 311 to keep away from each other down, pressure head 41 rises and the back of returning to the original state down, second connects half dish 312 and first and connects half dish 311 to lean on each other and the original state down, thereby the next material of being convenient for.

In some examples, as shown in fig. 8 and 9, the material wrapping device 5 includes a feeding tube 51, a wrapping column 52, a universal head 53, a wrapping tray 54, a vibration starting spring 55 and a stirring assembly 56, the feeding tube 51 is disposed on the frame 1, an end portion of the feeding tube 51 is located above the wrapping tray 54, the wrapping column 52 is fixed on the frame 1, the universal head 53 is disposed on the wrapping column 52, a bottom of the wrapping tray 54 is connected with the universal head 53, one end of the vibration starting spring 55 is connected with the frame 1, the other end of the vibration starting spring 55 is connected with a bottom of the wrapping tray 54, the stirring assembly 56 includes a stirring column 561, a stirring cross rod 562 and a stirring vertical rod 563, the stirring column 561 is rotatably disposed on the frame 1, one end of the stirring cross rod 562 is fixedly connected with the stirring column 561, the stirring vertical rod 563 is fixedly connected with the other end of the stirring cross rod 562, and the stirring vertical rod 563 can abut against the bottom of the wrapping tray 54 to drive the wrapping tray 54 to rotate. One end of the vibration starting spring 55 is arranged on the frame 1 through a first rotating seat, and the other end of the vibration starting spring 55 is arranged at the bottom of the wrapping disc 54 through a second rotating seat.

After the cake falls into the wrapping tray 54, the feeding pipe 51 sprays the material into the wrapping tray 54, for example, starch can be sprayed into the wrapping tray 54, so that the cake is wrapped with a layer of starch, the cake is convenient to fry, and the delicacy is improved. The stirring column 561 of the stirring assembly 56 can rotate, so that the stirring vertical rod 563 and the stirring horizontal rod 562 are driven to synchronously rotate, the stirring vertical rod 563 rotates under the action of the vibration starting spring 55 to drive the wrapping disc 54 to rotate along the universal head 53, and cakes in the wrapping disc 54 are driven to roll back and forth, so that the cakes are uniformly wrapped with starch.

In order to facilitate the sliding of the vertical rod 563 into the bottom of the tray 54, the outer wall of the tray 54 is formed with a curved surface 541 that facilitates the sliding of the vertical rod 563 into the bottom of the tray 54, so that the vertical rod 563 can slide into the bottom of the tray 54 along the curved surface 541.

Further, the side portion of the wrapping tray 54 is provided with an opening 542, a valve for opening or closing the opening 542 is arranged at the opening 542, cake output is facilitated by arranging the opening 542, and opening or closing of the opening 542 is facilitated by arranging the valve.

In some examples, the lifting device 6 comprises a lifting drum 61 and a driving motor 62, an inlet 611 which is in butt joint with an opening 542 of the wrapping tray 54 is arranged at the lower part of the lifting drum 61, a rotating shaft 612 and a lifting rotating blade 613 are arranged in the lifting drum 61, the lifting rotating blade 613 is connected with the rotating shaft 612, and an outlet 614 for conveying into the frying device 7 is arranged at the upper part of the lifting drum 61; the driving motor 62 is disposed on the frame 1, and the driving motor 62 is connected to the rotating shaft 612 and drives the rotating shaft 612 to rotate. After the pastry enters the lifting cylinder 61 from the inlet 611 through the opening 542, the rotating shaft 612 rotates to drive the lifting rotating blades 613 to synchronously rotate, the lifting rotating blades 613 rotate to drive the pastry to rise, and finally the pastry is output into the frying device 7 through the outlet 614 for frying.

In this example, a driving wheel 621 is disposed on an output shaft of the driving motor 62, a driven wheel 622 is disposed on the stirring column 561, and the driven wheel 622 is connected with the rotating wheel through a connecting belt. When the driving motor 62 drives the output shaft to rotate, the driving wheel 621 synchronously rotates, the driving wheel 621 rotates to drive the driven wheel 622 to rotate through the connecting belt, and the driven wheel 622 rotates to drive the toggle post 561 to synchronously rotate, so that the toggle vertical rod 563 is driven to rotate.

Further, the bottom of the lifting cylinder 61 is connected with the bottom of the frame 1 through a bottom mounting frame, and the top of the lifting cylinder 61 is connected with the top of the frame 1 through a top mounting frame, so that the lifting cylinder 61 is firmly fixed on the frame 1.

As shown in fig. 11 to 13, in some examples, the frying apparatus 7 includes a frying tank 71, a heating mechanism 72, and an output mechanism 73, the frying tank 71 being provided on the frame 1, the heating mechanism 72 being provided at the bottom of the frying tank 71 to heat the oil in the frying tank 71, the output mechanism 73 being provided at the side of the frying tank 71 to output the pastry that has been fried. After the pastry is placed in the frying box 71, the heating mechanism 72 drives the oil to heat, the pastry is fried by the oil heating, and finally, the output mechanism 73 drives the fried pastry to be output, wherein the output mechanism 73 is a conveying belt, and the heating mechanism 72 comprises an electric heating tube.

In this example, the frying device 7 further includes a stirring mechanism 74, the stirring mechanism 74 includes a stirring motor 741, a stirring shaft 742 and a stirring plate 743, the stirring motor 741 is disposed outside the frying box 71, the stirring shaft 742 is located in the frying box 71, the stirring shaft 742 is connected to the stirring motor 741 and is driven to rotate by the stirring motor 741, the stirring plate 743 is set to be plural, and the stirring plate 743 is fixed on the stirring shaft 742. By providing the flipping mechanism 74, the pastry is conveniently flipped so that both sides of the pastry are fully fried. When the cake is turned, the turning motor 741 drives the turning shaft 742 to rotate, the turning shaft 742 rotates to drive the turning plate 743 to rotate, and the turning plate 743 rotates to turn over the cake, wherein the turning shaft 742 can be arranged into a plurality of groups, such as three groups, four groups or five groups, so as to turn over the cake for multiple times, realize full frying of the cake, and the turning shafts 742 are connected through the chain wheels and the chains, so that the plurality of turning shafts 742 synchronously rotate.

As an example, the fryer 7 further comprises a water flow mechanism 75, the water flow mechanism 75 comprising rotatable water flow blades arranged on the inner wall of the fryer tank 71. By providing the water flow mechanism 75, the water flow blades are rotated to drive the water flow of the surface, thereby buffering the pastry from moving forward.

Further, an air suction device 8 is arranged on the frame 1, the air suction device 8 comprises an air suction cover 81, an air suction pipe 82 and a negative pressure machine 83, the air suction cover 81 is positioned above the frying box 71, one end of the air suction pipe 82 is connected with the air suction cover 81, and the other end of the air suction pipe 82 is connected with the negative pressure machine 83 to generate suction. By arranging the air suction device 8, the smoke generated by frying can be effectively sucked away.

The invention also provides a production process of the cake, which comprises the following steps:

s1, placing a first material into a first feeding cavity 211 and placing a second material into a second feeding cavity 212; s2, the material receiving disc 31 moves to the lower part of the first blanking pipe 221, and the first material in the first feeding cavity 211 is extruded to the material receiving disc 31; the receiving tray 31 is then moved below the second discharging pipe 222, and the second material in the second feeding cavity 212 is extruded onto the receiving tray 31; the receiving tray 31 is then moved below the first blanking pipe 221, and the first material in the first feeding cavity 211 is extruded onto the receiving tray 31; the receiving tray 31 finally moves to the lower part of the lower pressing head 41; s3, the lower pressing head 41 moves downwards to the material receiving disc 31 and extrudes materials in the material receiving disc 31 to form cakes, and the lower pressing head 41 continues to move downwards to extrude the cakes onto the material wrapping device 5; s4, wrapping the cake by a wrapping device 5; the lifting device 6 lifts the pastry to the frying device 7 for frying.

The above examples and drawings are not intended to limit the form or form of the present invention, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present invention.

Claims (10)

1. The utility model provides a cake shaping processing all-in-one which characterized in that: comprises a frame, a feeding device, a receiving device, a pressing device, a wrapping device, a lifting device and a frying device;

the feeding device comprises a feeding cylinder and a discharging pipe, the feeding cylinder is arranged on the frame, a first feeding cavity for placing a first material and a second feeding cavity for placing a second material are formed in the feeding cylinder, the discharging pipe comprises a first discharging pipe and a second discharging pipe, the first discharging pipe is communicated with the first feeding cavity and used for outputting the first material, and the second discharging pipe is communicated with the second feeding cavity and used for outputting the second material; the pressing device comprises a pressing head capable of lifting; the material receiving device is arranged on the frame and comprises a material receiving disc which can move to the lower part of the first blanking pipe, the lower part of the second blanking pipe and the lower part of the lower pressure head; the material wrapping device is arranged on the frame to receive cakes pressed by the pressing device, the lifting device is arranged on the frame, and the lifting device receives the cakes of the material wrapping device and lifts the cakes to the frying device for frying.

2. The pastry forming and processing integrated machine as claimed in claim 1, characterized in that: the receiving device further comprises a mounting seat, a first transverse driving mechanism, a second transverse driving mechanism and a receiving mechanism, wherein the mounting seat is arranged on the side part of the frame, the first transverse driving mechanism is arranged on the mounting seat, the second transverse driving mechanism is slidably arranged on the mounting seat, the second transverse driving mechanism is connected with the first transverse driving mechanism and is driven to slide along the mounting seat by the first transverse driving mechanism, the receiving mechanism is connected with the second transverse driving mechanism and is driven to move to the lower part of the first blanking pipe or the lower part of the second blanking pipe by the second transverse driving mechanism, and a receiving disc is arranged on the receiving mechanism.

3. The pastry forming and processing integrated machine as claimed in claim 2, characterized in that: the first transverse driving mechanism and the second transverse driving mechanism are both transverse driving cylinders; the mounting seat is provided with a sliding rail, and the bottom of the second transverse driving mechanism is provided with a sliding block sliding along the sliding rail.

4. The pastry forming and processing integrated machine as claimed in claim 1, characterized in that: the material receiving mechanism comprises a first material receiving block, a first elastic component, a material receiving connecting rod, a second material receiving block and a second elastic component, wherein the first material receiving block is connected with the second transverse driving mechanism, the first elastic component is arranged on the first material receiving block, one end of the material receiving connecting rod is fixedly connected with the first material receiving block, the second material receiving block is fixedly connected with the other end of the material receiving connecting rod, and the second elastic component is arranged on the second material receiving block and corresponds to the first elastic component; the receiving tray comprises a first receiving half tray and a second receiving half tray, the first receiving half tray is connected with the first elastic component, the second receiving half tray is connected with the second elastic component, and the second receiving half tray and the first receiving half tray are mutually close together under the action of the first elastic component and the second elastic component.

5. The pastry forming and processing integrated machine as set forth in claim 4, wherein: the first elastic component comprises a connecting seat, a connecting column, a compression spring and a connecting pin, wherein the connecting seat is fixedly connected to the first material receiving block, an installation cavity is formed in the connecting column, the connecting column comprises a first limiting block, a limiting channel communicated with the installation cavity is formed in the first limiting block, the compression spring is located in the installation cavity, one end of the connecting pin is provided with a second limiting block, the second limiting block is connected with the compression spring and is driven by the compression spring to lean against the first limiting block, and the other end of the connecting pin penetrates through the limiting channel and is connected with the first material receiving half tray.

6. The pastry forming and processing integrated machine as claimed in claim 1, characterized in that: the material wrapping device comprises a feeding pipe, a material wrapping column, a universal head, a material wrapping disc, a vibration starting spring and a stirring component, wherein the feeding pipe is arranged on the frame, the end part of the feeding pipe is positioned above the material wrapping disc, the material wrapping column is fixed on the frame, the universal head is arranged on the material wrapping column, the bottom of the material wrapping disc is connected with the universal head, one end of the vibration starting spring is connected with the frame, the other end of the vibration starting spring is connected with the bottom of the material wrapping disc, the stirring component comprises a stirring column, a stirring cross rod and a stirring vertical rod, the stirring column is rotatably arranged on the frame, one end of the stirring cross rod is fixedly connected with the stirring column, the stirring vertical rod is fixedly connected with the other end of the stirring cross rod, and the stirring vertical rod can abut against the bottom of the material wrapping disc to drive the material wrapping disc to rotate.

7. The pastry forming and processing integrated machine as set forth in claim 6, wherein: the lifting device comprises a lifting cylinder and a driving motor, an inlet which is in butt joint with the opening of the wrapping tray is arranged at the lower part of the lifting cylinder, a rotating shaft and lifting rotating blades are arranged in the lifting cylinder, the lifting rotating blades are connected with the rotating shaft, and an outlet which is used for conveying into the frying device is arranged at the upper part of the lifting cylinder; the driving motor is arranged on the frame, is connected with the rotating shaft and drives the rotating shaft to rotate.

8. The pastry forming and processing integrated machine as claimed in claim 1, characterized in that: the frying device comprises a frying box, a heating mechanism and an output mechanism, wherein the frying box is arranged on the frame, the heating mechanism is arranged at the bottom of the frying box to heat oil in the frying box, and the output mechanism is arranged at the side part of the frying box to output cakes which are fried.

9. The pastry forming and processing integrated machine as set forth in claim 8, wherein: the frying device further comprises a stirring mechanism, the stirring mechanism comprises a stirring motor, a stirring shaft and stirring plates, the stirring motor is arranged on the outer side of the frying box, the stirring shaft is positioned in the frying box, the stirring shaft is connected with the stirring motor and driven to rotate by the stirring motor, the stirring plates are arranged in a plurality, and the stirring plates are fixed on the stirring shaft.

10. A production process of cake is characterized in that: the method comprises the following steps:

s1, placing a first material in a first feeding cavity, and placing a second material in a second feeding cavity;

s2, moving the receiving tray to the lower part of the first blanking pipe, and extruding a first material in the first feeding cavity to the receiving tray; the receiving tray is then moved below the second discharging pipe, and the second material in the second feeding cavity is extruded onto the receiving tray; the receiving tray is then moved below the first blanking pipe, and the first material in the first feeding cavity is extruded onto the receiving tray; the receiving disc finally moves to the lower part of the lower pressing head;

s3, the lower pressing head moves downwards to the material receiving tray and extrudes materials in the material receiving tray to form cakes, and the lower pressing head continues to move downwards to extrude the cakes onto the material wrapping device;

s4, wrapping the cake by a wrapping device; the lifting device lifts the cake to the frying device for frying.