CN118489711B - Noodle machine with automatic winding function - Google Patents

Abstract

The invention relates to the technical field of noodle machines, in particular to a noodle machine with an automatic winding function, which comprises a machine body, a plurality of conveying rollers, a first extrusion roller, a rotary driver and a linkage dispersing mechanism, wherein the conveying rollers are arranged on the machine body and used for conveying and conveying fabrics, the first extrusion roller is used for extrusion molding of the fabrics, the rotary driver is used for driving the first extrusion roller to rotate, the linkage dispersing mechanism is used for uniformly dispersing powder on an extrusion panel and comprises a distributing plate and a transmission mechanism for driving the powder plate to rotate, and the machine body is also provided with a linkage recovery mechanism used for collecting excessive flour on the fabrics and an adjusting and cutting mechanism used for cutting the fabrics. According to the technical scheme, the automatic powder scattering of dough can be realized through the arrangement of the material distribution box and the blanking plate to prevent adhesion, excessive flour is convenient to scrape and collect automatically, on one hand, the problem that the flour cake is easy to adhere in the subsequent cutting process is prevented, and on the other hand, the problem that the scattered flour is difficult to collect and clean is also solved.

Description

Noodle machine with automatic winding function

Technical Field

The invention relates to the technical field of noodle machines, in particular to a noodle machine with an automatic winding function.

Background

In the food processing industry, noodles are used as a traditional staple food, and the production technology of the noodles is continuously evolving to meet the high requirements of consumers on food quality, taste and production efficiency. The traditional noodle making method is mostly operated manually or semi-mechanically, and the mode is low in efficiency and difficult to ensure the uniformity and taste of the noodles. Therefore, with the development of technology and the acceleration of the pace of life of people, the noodle machine with automation and high efficiency becomes an important direction of industry development.

Chinese patent publication No. CN220024014U discloses a noodle machine, which is also provided with a powdering part on a conveying mechanism, so that when noodles are conveyed after being segmented, the noodles can be effectively prevented from being stuck together through powdering of the powdering part, and the noodles are conveyed out for subsequent treatment without manual powdering. Further improving the efficiency of noodle making.

But above-mentioned structure is in-service use, and it is unrestrained to the conveyer belt through dusting mechanism with flour, and in long-term use, flour can pile up gradually on the conveyer belt, and comparatively takes trouble and laborious when clear up the conveyer belt, and it is inconvenient to need cut into different width with noodless to root actual production.

Disclosure of Invention

To above-mentioned problem, provide a noodle with automatic winding function, through the flitch with gather materials scrape the box and solved still need the manual work clear up the conveyer belt and be inconvenient for the problem to the different width of noodless cutting.

In order to solve the problems in the prior art, the invention provides a noodle machine with an automatic winding function, which comprises a machine body, a plurality of conveying rollers, a first extrusion roller, a rotary driver and a linkage dispersing mechanism, wherein the conveying rollers are arranged on the machine body and used for conveying and conveying fabric, the first extrusion roller is used for extrusion molding of the fabric, the rotary driver is used for driving the first extrusion roller to rotate, the linkage dispersing mechanism is used for uniformly dispersing powder on an extrusion panel and comprises a distributing plate and a transmission mechanism for driving the powder plate to rotate, and the machine body is also provided with a linkage recovery mechanism used for collecting redundant flour on the fabric and an adjusting and cutting mechanism used for cutting the fabric.

Preferably, the linkage dispersing mechanism further comprises a material distributing box and a material distributing rotating rod, wherein the material distributing box is arranged on the machine body, and the material distributing rod is rotatably arranged on the material distributing box.

Preferably, the linkage dispersion mechanism further comprises a blanking plate and a material distributing groove, wherein the blanking plate is rotatably arranged in the machine body, and the powder material groove is formed in the blanking plate.

Preferably, the transmission mechanism comprises a first transmission belt, wherein the first transmission belt is sleeved on the first extrusion roller, and the other end of the first transmission belt is sleeved on the material distributing rotating rod.

Preferably, the transmission mechanism further comprises a first transmission rod and a second transmission rod, wherein the first transmission rod is rotatably arranged on the machine body, and the second transmission rod is rotatably arranged on the machine body and is close to one side of the first transmission rod.

Preferably, the transmission mechanism further comprises a first rotary roller and a second rotary roller, wherein the first rotary roller is rotatably arranged on the machine body, and the second rotary roller is rotatably arranged on the machine body and is close to one side of the first rotary roller.

Preferably, the linkage recovery mechanism comprises a piston type dust collection cylinder and a moving plate, wherein the piston type dust collection cylinder is arranged on the machine body and is close to the separating box, and the moving plate is arranged on the piston type dust collection cylinder in a sliding manner in the vertical direction.

Preferably, the linkage recovery mechanism further comprises a collecting scraping box and a recovery pipe, wherein the collecting scraping box is arranged in the machine body and is close to one side of the blanking plate, and the recovery pipe is arranged on the collecting scraping box and is connected with the piston type dust collection cylinder.

Preferably, the adjusting and cutting mechanism comprises a first transmission shaft and a first adjusting rod, wherein the first transmission shaft is arranged on the machine body, and the first adjusting rod is rotatably arranged on the machine body and sleeved outside the first transmission shaft.

Preferably, the adjusting and cutting mechanism further comprises a cutter, and the cutter is arranged on the first transmission shaft and the first adjusting rod in a sliding manner and provided with a plurality of cutters.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the automatic flour-spreading machine disclosed by the invention, the automatic flour-spreading and adhesion prevention of dough can be realized by arranging the material-distributing box and the blanking plate, and excessive flour can be conveniently scraped and collected automatically, so that the problem that flour cakes are easy to adhere in the subsequent cutting process is solved, and the problem that the scattered flour is difficult to collect and clean is solved.

2. According to the invention, the aggregate scraping box is arranged to scrape and collect the flour adhered and piled on the first conveying belt in a fitting way, so that on one hand, the first conveying belt does not need to be cleaned manually, and on the other hand, the first conveying belt can be kept clean.

3. According to the invention, the automatic suction collection of the flour is achieved by arranging the flour collecting box and the recycling pipe, so that the waste of the flour is avoided, and the flour is convenient to use for the second time.

4. According to the invention, the equidistant adjustment of the cutters is achieved by arranging the first transmission shaft and the first adjusting rod, so that noodles with equidistant width can be conveniently cut, and the conventional cutters are not required to be frequently disassembled.

Drawings

Fig. 1 is a perspective view of a noodle machine with an automatic winding function at a first view angle.

Fig. 2 is a perspective view of a noodle machine with an automatic winding function at a second view angle.

Fig. 3 is a front view of a structure of a noodle machine with an automatic winding function.

Fig. 4 is a top view of a structure of a noodle machine with an automatic winding function.

Fig. 5 is a side sectional perspective view of the noodle machine of fig. 4 with an automatic winding function.

Fig. 6 is an enlarged view of the structure of fig. 5 at a of a noodle machine having an automatic winding function.

Fig. 7 is a perspective view of a driving mechanism of a noodle machine with an automatic winding function.

Fig. 8 is an enlarged view of the structure of fig. 7 at B of a noodle machine with an automatic winding function.

Fig. 9 is a perspective view of a blanking plate and a powder separating plate of a noodle machine with an automatic winding function.

Fig. 10 is an enlarged view of the structure of fig. 9C of a noodle machine with an automatic winding function.

Fig. 11 is a perspective view of a linked recovery mechanism of a noodle machine with an automatic winding function.

Fig. 12 is an enlarged view of the structure of fig. 11D of a noodle machine with an automatic winding function.

Fig. 13 is an enlarged view of the structure of fig. 11 at E of the noodle machine with an automatic winding function.

Fig. 14 is a side view structural diagram of a noodle machine with an automatic winding function.

Fig. 15 is an enlarged view of the structure of fig. 14 at F of a noodle machine with an automatic winding function.

Fig. 16 is a perspective view of a scraper and a first rotating shaft of a noodle maker having an automatic winding function.

Fig. 17 is an enlarged view of the structure of fig. 16 at G of the noodle machine with an automatic winding function.

Fig. 18 is a side view, three-dimensional and cut-away structure diagram of a piston type dust collection cylinder of a noodle machine with an automatic winding function.

The reference number in the figure is 1, the machine body; 2, conveying rollers; the device comprises a first extruding roller, 31, a main gear, 32, a second extruding roller, 33, a driven gear, 4, a rotary driver, 5, a linkage dispersing mechanism, 51, a distributing plate, 52, a distributing box, 521, a discharging box, 53, a distributing rotating rod, 54, a blanking plate, 541, a powder separating plate, 55, a distributing groove, 551, a limiting groove, 552, a contact rod, 6, a transmission mechanism, 61, a first transmission belt, 62, a first transmission rod, 621, a second transmission belt, 622, a third transmission belt, 63, a second transmission belt, 631, a first transmission belt, 632, a second transmission belt, 633, a contact block, 64, a first rotary roller, 641, a fourth transmission belt, 65, a second rotary roller, 651, a third transmission belt, 652, a fifth transmission belt, 7, a linkage recovery mechanism, 71, a piston dust suction cylinder, 711, a piston sheet, 712, a piston rod, 72, a moving plate, 721, a reset spring, 73, a scraping box, 732, a dust collecting box, a first transmission belt, a 733, a first transmission belt, a second transmission belt, a driving rod, a cutting guide rail, 81, a cutter, a linear adjusting mechanism, a rotary guide rail, a lifting mechanism, a cutting guide rail, a cutter, a guide rail, 81, a cutter 83.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1, 10 and 11, a noodle machine with automatic winding function comprises a machine body 1, a plurality of conveying rollers 2 arranged on the machine body 1 and used for conveying and conveying fabric, a first extrusion roller 3 used for extrusion molding of the fabric, a rotary driver 4 used for driving the first extrusion roller 3 to rotate, and a linkage dispersing mechanism 5 used for uniformly dispersing powder on an extrusion panel, wherein the linkage dispersing mechanism 5 comprises a distributing plate 51 and a transmission mechanism 6 used for driving the powder plate to rotate, a linkage recovery mechanism 7 used for collecting excessive flour on the fabric and an adjusting and cutting mechanism 8 used for cutting the fabric are further arranged on the machine body 1, a main gear 31 coaxially fixed with the first extrusion roller 3 is arranged on the first extrusion roller 3, a driven gear 33 meshed with the main gear 31 is further arranged on the second extrusion roller 32, a winding roller used for winding the cut noodle is further arranged on the machine body 1, and the winding roller is used for automatically winding the cut noodle.

When the kneaded dough needs to be extruded and formed, firstly, the dough is placed on the plurality of separating and conveying rollers 2, then the conveying rollers 2 are arranged at an inclined angle, the dough can slide freely on the conveying rollers 2 until the dough slides to the lower parts of the first extruding roller 3 and the second extruding roller 32, then the rotary driver 4 is started, the dough can be extruded and formed, the extruded dough is in a cake shape, then the first extruding roller 3 drives the first transmission rod 62 and the second transmission rod 63 to transmit rotary force through the first transmission belt 631, meanwhile, the first transmission belt 61 also drives the separating and conveying rotary rod 53 to synchronously rotate and transmit, at the moment, the staff can throw flour into the separating box 52, then the flour can uniformly stir under the rotary action of the separating and conveying rotary rod 53, the stirred flour can pass through the separating box 52 and is perforated to fall onto the blanking plate 54, the blanking plate 54 can uniformly fall under the intermittent contact between the contact block 633 and the rod 552, the phenomenon that the flour can be continuously and repeatedly and upwardly fall down, the phenomenon can be avoided from being caused by the intermittent contact with the contact patch between the contact block 633 and the rod 552, the flour can be difficult to be accumulated and the subsequent flour can be automatically adhered to the face in the automatic cleaning machine, and the problem of being difficult to be prevented from being accumulated and the subsequent flour can be prevented from being adhered to the face-cleaning equipment by the automatic cleaning machine.

Referring to fig. 1,2, 3 and 9, the linkage dispersing mechanism 5 further comprises a material distributing box 52 and a material distributing rotating rod 53, wherein the material distributing box 52 is arranged on the machine body 1, the material distributing rod is rotatably arranged on the material distributing box 52, a plurality of avoiding holes are formed in the material distributing rotating rod 53 and are used for enabling flour to uniformly pass through, a material discharging box 521 positioned below the material distributing box 52 is arranged on the machine body 1, a perforation for enabling the flour to pass through is formed in the material discharging box 521, and the material distributing plate 51 and the material distributing rotating rod 53 are coaxially fixed.

When the kneaded dough needs to be extruded and formed, the dough is firstly placed on the plurality of conveying rollers 2, the dough can slide towards the positions of the first extruding roller 3 and the second extruding roller 32 under the action of the conveying rollers 2, then the rotary driver 4 is started, the rotary driver 4 can rotate the first extruding roller 3 when started, the dough can be extruded and formed, when the extruded dough cake passes through the lower part of the material distributing box 52, the first driving belt 61 is arranged outside the first extruding roller 3, the material distributing rotating rod 53 can be driven to rotate, the material distributing plate 51 can be driven to uniformly stir the flour in the rotating process of the material distributing rotating rod 53, and the stirred flour can drop onto the material discharging plate 54 through the avoiding holes and the perforations formed in the material discharging box 521.

Referring to fig. 6, 7 and 8, the linkage dispersion mechanism 5 further includes a blanking plate 54 and a material dividing groove 55, wherein the blanking plate 54 is rotatably disposed in the machine body 1, the material dividing groove is formed on the blanking plate 54, a plurality of powder separating plates 541 are disposed on the blanking plate 54, the powder separating plates 541 can be used for intermittently stopping flour above the blanking plate 54, the material dividing groove 55 is formed on the blanking plate 54 and has a plurality of limiting grooves 551, the machine body 1 is provided with a contact rod 552 matched with the notch of the limiting groove 551, and the contact rod 552 is fixedly connected with the blanking plate 54.

When the flour falls off from the blanking plate 54, the flour can stay on the flour separating plate 541, and in the stay process, the blanking plate 54 and the subsequent contact block 633 are subjected to ascending and descending reciprocating shaking, and in the shaking process, the flour can be driven to fall down through a blanking groove formed in the blanking plate 54 and uniformly fall onto the flour cake, so that the flour cake can be automatically dusted, and the adhesion of the flour cake in the subsequent cutting process is avoided.

Referring to fig. 7, 8 and 9, the transmission mechanism 6 comprises a first transmission belt 61, wherein the first transmission belt 61 is sleeved on the first extrusion roller 3, the other end of the first transmission belt 61 is sleeved on the material separating rotating rod 53, the output end of the rotary driver 4 is connected with the first extrusion roller 3 through a coupler, the second transmission belt 621 is sleeved on the first extrusion roller 3, and the other end of the second transmission belt 621 is sleeved with the first transmission rod 62.

When the knob driver is started, the first squeeze roller 3 can be driven to rotate, when the first squeeze roller 3 rotates, the meshed driven gear 33 can be transmitted with the rotating force through the main gear 31, the driven gear 33 can rotate under the meshing action of the main gear 31 in the opposite direction to the rotating direction of the main gear 31, so that better dough extrusion forming work can be conveniently carried out, when the first squeeze roller 3 rotates, the rotating force can be transmitted to the material distributing rotating rod 53 through the first transmission belt 61, the material distributing rotating rod 53 is driven to rotate, and further, powder in the inner surface of the material distributing box 52 can be uniformly stirred, and the powder adhesion in the material distributing box 52 is prevented.

Referring to fig. 7, 8, 9, 11 and 15, the transmission mechanism 6 further includes a first transmission rod 62 and a second transmission rod 63, wherein the first transmission rod 62 is rotatably disposed on the machine body 1, the second transmission rod 63 is rotatably disposed on the machine body 1 and is close to one side of the first transmission rod 62, a first transmission belt 631 for conveying the extruded molded cake is sleeved outside the first transmission rod 62 and the second transmission rod 63, a second transmission belt 632 connected with the first extrusion roller 3 is sleeved on the first transmission rod 62, a contact block 633 is disposed on the second transmission rod 63, the contact block 633 is used for contacting with the contact rod 552, and a third transmission belt 622 is sleeved between the first transmission rod 62 and the second transmission rod 63.

The second transmission belt 621 drives the first transmission rod 62 to rotate during transmission, and when the first transmission rod 62 rotates, the third transmission belt 622 drives the second transmission rod 63 to rotate, when the extruded dough cake passes through the first transmission rod 62 and the second transmission rod 63 and is arranged on the first transmission belt 631, the contact block 633 arranged on the second transmission rod 63 can be contacted with the contact rod 552 arranged on the blanking plate 54, the contact block 633 can drive the contact rod 552 to make a stable ascending motion along the limiting groove 551 on the machine body 1 during contact, and when the contact block 633 does not contact with the contact rod 552, the blanking plate 54 can freely descend along the limiting groove 551 through the self weight, so that the intermittent contact with the contact rod 552 is achieved during rotation of the second transmission rod 63 and the first transmission rod 62, the intermittent contact process can drive the contact rod 552 and the blanking rod to make up-down reciprocating shaking, and uniform shaking of flour on the blanking plate 54 can be carried out, and the flour can be uniformly scattered on the extruded dough cake can be conveniently cut and cut.

Referring to fig. 9 and 16, the transmission mechanism 6 further includes a first rotating roller 64 and a second rotating roller 65, wherein the first rotating roller 64 is rotatably disposed on the machine body 1, the second rotating roller 65 is rotatably disposed on the machine body 1 and is close to one side of the first rotating roller 64, a fourth transmission belt 641 connected with the second transmission rod 63 is sleeved on the first rotating roller 64, a third transmission belt 651 for conveying the dough cake is sleeved on the first rotating roller 64 and the second rotating roller 65, and a fifth transmission belt 652 is sleeved between the first rotating roller 64 and the second rotating roller 65.

After flour is uniformly scattered on the flour cake, the first rotating roller 64 can be driven by the fourth transmission belt 641 to rotate the second rotating roller 65 through the fifth transmission belt 652, so that the flour cake is conveyed by arranging the third conveying belt 651 on the first rotating roller 64 and the second rotating roller 65.

Referring to fig. 14 and 18, the linkage recovery mechanism 7 includes a piston type dust collection cylinder 71 and a moving plate 72, wherein the piston type dust collection cylinder 71 is arranged on the machine body 1 and is close to the separating box 52, the moving plate 72 is arranged on the piston type dust collection cylinder 71 in a sliding manner in the vertical direction, a piston piece 711 and a piston rod 712 extending out of the piston type dust collection cylinder 71 are arranged in the piston type dust collection cylinder 71, the piston rod 712 is fixed with the end of the moving plate 72, and a return spring 721 fixed with the end of the piston piece 711 is arranged in the piston type dust collection cylinder 71.

When the contact block 633 is driven by the second transmission rod 63 to rotate, the contact block 633 and the moving plate 72 can be contacted, the piston rod 712 and the piston piece 711 can be lifted up in the piston type dust collection cylinder 71 during contact, the return spring 721 is compressed in the process, and when the contact block 633 continues to rotate until the contact block is not contacted with the moving plate 72, the return spring 721 is arranged in the piston type dust collection cylinder 71 and can reset the piston piece 711 and the piston rod 712 in a jacking manner, and the moving plate 72 is driven to return to an initial position.

Referring to fig. 18, the linkage recovery mechanism 7 further comprises a collecting scraping box 73 and a recovery pipe 74, wherein the collecting scraping box 73 is arranged in the machine body 1 and is close to one side of the blanking plate 54, the recovery pipe 74 is arranged on the collecting scraping box 73 and is connected with the piston type dust collection cylinder 71, the collecting scraping box 73 is close to one side of the first conveying belt 631, the collecting scraping box 73 is used for scraping excessive flour on the first conveying belt 631, a recovery box 731 fixed with the end part between the recovery pipes 74 is further arranged on the piston type dust collection cylinder 71, a powder collecting box 732 extending out of the recovery box 731 is arranged in the recovery box 731 in a sliding mode, a butt joint hole corresponding to the position of the recovery pipe 74 is formed in the powder collecting box 732, a one-way valve is arranged in the recovery pipe 74, a discharge pipe 733 used for discharging air in the piston type dust collection cylinder 71 is further arranged on the piston type dust collection cylinder 71, and one-way valves used for controlling air entering and discharging are respectively arranged in the recovery pipe 74 and the discharge pipe 733.

When flour uniformly spills onto the flour cake, the flour is spilled onto the first conveying belt 631, the first conveying belt 631 can always contact with the collecting scraping box 73 under the rotation action of the first conveying rod 62 and the second conveying rod 63, the flour accumulated or adhered on the first conveying belt 631 is scraped and collected into the collecting scraping box 73, the first conveying belt 631 is not required to be cleaned and flour is not required to be collected manually, the contact block 633 contacts with the moving plate 72 and causes the moving plate 72 to make vertical ascending movement, the check valve in the recovery pipe 74 fixed between the collecting boxes of the collecting scraping box 73 is enabled to be opened, the check valve in the discharge pipe 733 is closed, at the moment, the suction work is carried out in the recovery pipe 74, the collected flour can be scraped in the collecting scraping box 73 until the collected flour is sucked into the collecting box 732 arranged in a sliding mode, the collected flour can be recycled by pulling the collecting box 732, the flour is not required to be wasted, the flour is automatically collected, and the flour is prevented from falling onto the outer side of the machine body 631 when the flour is not required to be cleaned and the flour is not required to be scattered manually on the outer side of the machine body.

Referring to fig. 16 and 17, the adjusting and cutting mechanism 8 includes a first transmission shaft 81 and a first adjusting rod 82, the first transmission shaft 81 is disposed on the machine body 1, the first adjusting rod 82 is rotatably disposed on the machine body 1 and sleeved outside the first transmission shaft 81, a linear travel groove 811 in a horizontal linear direction is formed in the first transmission shaft 81, a plurality of inclined grooves 821 are formed in the first adjusting rod 82, the linear travel groove 811 and the inclined grooves 821 are mutually staggered, the first transmission shaft 81 is fixedly disposed on the machine body 1, and a rotating handle extending out of the machine body 1 is disposed on the first adjusting rod 82 and used for controlling the first adjusting rod 82 to perform rotary motion.

When the cake on the second conveying belt 632 needs to be cut, the cake can move towards the position of the first adjusting rod 82 under the action of the second conveying belt 632, and the cutter 83 is arranged on the first adjusting rod 82 in the moving process, so that the cake can be cut, and the cake can be cut into noodles.

Referring to fig. 16 and 17, the adjusting and cutting mechanism 8 further includes a cutter 83, wherein the cutter 83 is slidably disposed on the first transmission shaft 81 and the first adjusting lever 82 and has a plurality of cutters 83 slidably engaged with notches between the linear travel groove 811 and the chute 821, the linear travel groove 811 is used for limiting sliding movement of the cutter 83 in a horizontal linear direction, and the chute 821 is provided for limiting synchronous displacement sliding adjustment of the plurality of cutters 83 along the chute 821.

When the noodle cake is required to be cut into noodles with different widths, the rotating handle is arranged on the first adjusting rod 82 in a rotating manner, so that the first adjusting rod 82 can be driven to rotate, and when the first adjusting rod 82 rotates, the scraper can be caused to slide along the first adjusting rod 82 with a plurality of inclined grooves 821 and linear travel grooves 811 arranged on the first rotating shaft, and then the plurality of scrapers can be adjusted at equal intervals, the panel can be cut into noodles with different widths according to different actual production requirements, and the adjustment of the cutting width can be realized without frequently disassembling the scraper.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (1)

1. The noodle machine with the automatic winding function comprises a machine body (1), a plurality of conveying rollers (2) arranged on the machine body (1) and used for conveying and conveying fabric, a first extrusion roller (3) used for extrusion molding of the fabric, a rotary driver (4) used for driving the first extrusion roller (3) to rotate, and a linkage dispersing mechanism (5) used for uniformly dispersing powder on an extrusion panel, and is characterized in that the linkage dispersing mechanism (5) comprises a distributing plate (51) and a transmission mechanism (6) used for driving the distributing plate to rotate, and the machine body (1) is also provided with a linkage recovery mechanism (7) used for collecting redundant flour on the fabric and an adjusting and cutting mechanism (8) used for cutting the fabric;

The linkage dispersing mechanism (5) further comprises a material distribution box (52) and a material distribution rotating rod (53), the material distribution box (52) is arranged on the machine body (1), and the material distribution rotating rod (53) is rotatably arranged on the material distribution box (52);

the linkage dispersion mechanism (5) further comprises a blanking plate (54) and a material dividing groove (55), the blanking plate (54) is rotatably arranged in the machine body (1), and the material dividing groove (55) is arranged on the blanking plate (54);

the transmission mechanism (6) comprises a first transmission belt (61), the first transmission belt (61) is sleeved on the first extrusion roller (3), and the other end of the first transmission belt (61) is sleeved on the material distributing rotating rod (53);

The transmission mechanism (6) further comprises a first transmission rod (62) and a second transmission rod (63), the first transmission rod (62) is rotatably arranged on the machine body (1), and the second transmission rod (63) is rotatably arranged on the machine body (1) and is close to one side of the first transmission rod (62);

The transmission mechanism (6) further comprises a first rotary roller (64) and a second rotary roller (65), the first rotary roller (64) is rotatably arranged on the machine body (1), and the second rotary roller (65) is rotatably arranged on the machine body (1) and is close to one side of the first rotary roller (64);

the linkage recovery mechanism (7) comprises a piston type dust collection cylinder (71) and a moving plate (72), wherein the piston type dust collection cylinder (71) is arranged on the machine body (1) and is close to the material separating box (52), and the moving plate (72) is arranged on the piston type dust collection cylinder (71) in a sliding manner in the vertical direction;

The linkage recovery mechanism (7) further comprises a collecting scraping box (73) and a recovery pipe (74), the collecting scraping box (73) is arranged in the machine body (1) and is close to one side of the blanking plate (54), and the recovery pipe (74) is arranged on the collecting scraping box (73) and is connected with the piston type dust collection cylinder (71);

The adjusting and cutting mechanism (8) comprises a first transmission shaft (81) and a first adjusting rod (82), wherein the first transmission shaft (81) is arranged on the machine body (1), and the first adjusting rod (82) is rotatably arranged on the machine body (1) and sleeved outside the first transmission shaft (81);

The adjusting and cutting mechanism (8) further comprises a cutter (83), wherein the cutter (83) is arranged on the first transmission shaft (81) and the first adjusting rod (82) in a sliding manner and is provided with a plurality of cutters;

The first transmission belt (631) for conveying the extrusion molded cakes is sleeved outside the first transmission rod (62) and the second transmission rod (63), the second transmission belt (632) connected with the first extrusion roller (3) is sleeved on the first transmission rod (62), the second transmission rod (63) is provided with a contact block (633), the contact block (633) is used for contacting with the contact rod (552), and a third transmission belt (622) is sleeved between the first transmission rod (62) and the second transmission rod (63);

The second transmission belt (621) drives the first transmission rod (62) to rotate during transmission, and when the first transmission rod (62) rotates, the third transmission belt (622) can drive the second transmission rod (63) to rotate, when the dough cake after extrusion molding passes through the first transmission rod (62) and the first transmission belt (631) arranged on the second transmission rod (63), the contact block (633) arranged on the second transmission rod (63) can be contacted with the contact rod (552) arranged on the blanking plate (54), the contact block (633) can drive the contact rod (552) to do stable ascending motion along the limiting groove (551) arranged on the machine body (1) during contact, and the blanking plate (54) can do free descending motion along the limiting groove (551) through own weight, so that the flour cake can be intermittently contacted with the contact rod (552) during rotation of the second transmission rod (63) and the first transmission rod (62), the flour can be uniformly extruded and formed on the blanking plate (552) through intermittent shaking, and the flour can be uniformly extruded and formed on the blanking plate (552) during continuous shaking.