CN218389591U - Flour fish machine - Google Patents

Abstract

The utility model relates to the technical field of food processing, in particular to a flour fish machine, which comprises a frame, an extrusion mechanism, a cutting mechanism and a forming mechanism, wherein the extrusion mechanism is arranged on the frame and comprises a hopper and an extrusion piece, the hopper comprises an inlet and a discharge hole, and the extrusion piece can extrude dough from the discharge hole to form a strip-shaped flour blank; the cutting mechanism is arranged on the rack and comprises a cutter, and the cutter can cut strip-shaped dough into dough sections; the forming mechanism is arranged below the cutting mechanism and comprises a conveyor belt and a forming die, an opening die cavity which penetrates through the forming die along the conveying direction of the conveyor belt is formed in one side, facing the conveyor belt, of the forming die, and the die cavity is matched with the conveyor belt to rub and form the strip-shaped dough. The flour fish machine realizes the automation of flour fish processing, and the flour fish has smooth surface and good taste.

Description

Flour fish machine

Technical Field

The utility model relates to a food processing technology field especially relates to a flour fish machine.

Background

The flour fish is common flour food in northern China. In northwest areas, especially in Shanxi, gansu, etc., the flour fish is a common traditional special flour food in summer, and is named because it is similar to a small fish or a tadpole.

The fish in the front is mainly kneaded out by a manual plate, the traditional manufacturing process is to roll the living noodles into thick cakes, cut the cakes into chopstick strips and then knead the chopstick strips one by one on a chopping board, so that the efficiency is low for a wheaten food store, the supply requirement is difficult to meet, and the surface of the kneaded noodles fish cut by hand is not smooth and has inconsistent size, edges and corners are easy to generate, and the taste and the appearance are influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flour fish machine can realize the automation of flour fish processing, can guarantee simultaneously that the flour fish surface of processing out is smooth, and the shape is unanimous.

To achieve the purpose, the utility model adopts the following technical proposal:

the flour fish machine comprises a rack, an extrusion mechanism, a cutting mechanism and a forming mechanism, wherein the extrusion mechanism is arranged on the rack and comprises a hopper and an extrusion piece, the hopper comprises an inlet and a discharge hole, and the extrusion piece can extrude dough out of the hopper from the discharge hole to form strip-shaped flour blanks; the cutting mechanism is arranged on the rack, comprises a cutter and can cut the strip-shaped dough into dough sections; the forming mechanism is arranged below the cutting mechanism and comprises a conveyor belt and a forming die, an opening die cavity which runs through the forming die in the conveying direction of the conveyor belt is formed in one side of the forming die facing the conveyor belt, and the die cavity is matched with the conveyor belt to rub and form the strip-shaped dough.

Optionally, the extrusion piece is the auger, the auger rotate set up in inside the hopper, the auger is connected with the transmission of first power spare, the discharge opening set up in the hopper is followed auger direction of propulsion one end.

Optionally, the extruding mechanism further comprises a pressing component, the pressing component is arranged at the inlet, the inlet is arranged at the upper end of the hopper, the pressing component comprises a pressing support, a pressing roller, a pressing plate and a third power part, the pressing support is fixedly connected to the inner wall, close to one end of the discharge hole, of the hopper, the pressing roller is in transmission connection with the third power part and is rotatably arranged above the pressing support, the pressing roller faces one side of the pressing support and forms a pressing channel between the pressing support, and the pressing plate is telescopically arranged on the pressing roller.

Optionally, the number of the discharge holes is multiple.

Optionally, the device further comprises a first guiding mechanism, the first guiding mechanism is arranged between the extruding mechanism and the cutting mechanism, the first guiding mechanism comprises a splitter plate and a material guide plate, the splitter plate is arranged at the discharge hole, and splitter channels corresponding to the discharge hole one by one are arranged on the splitter plate; the guide plate is arranged above the cutting mechanism, and one end of the guide plate close to the flow distribution plate is provided with guide grooves corresponding to the tail ends of the flow distribution channels one to one.

Optionally, the material distribution device further comprises a second guide mechanism, the second guide mechanism is arranged between the cutting mechanism and the forming mechanism and comprises a material distribution cavity and a collection port, the material distribution cavity is vertically opened and is arranged below the cutting mechanism and is formed by a plurality of separated single material cavities, the single material cavities are in one-to-one correspondence with the material guide grooves, the collection port is arranged above the conveyor belt and is connected with the material distribution cavity and the forming mold, and the collection port is in one-to-one correspondence with the single material cavities.

Optionally, cutting mechanism is including cutting the cylinder and the refluence cylinder, cut the cylinder with the refluence cylinder is rotatory in opposite directions, the refluence cylinder is the column cylinder, cut the cylinder include the cutter mount with the cutter, the cutter is along with the cutter mount can with when rotatory the cylinder butt of refluence.

Optionally, the forming die is height-adjustably disposed above the conveyor belt.

Optionally, the die cavity includes inlet section, shaping section and the export section that connects gradually, the inlet section with the degree of depth of export section is darker than the degree of depth of shaping section, the width of inlet section certainly die cavity import one end is to connecting the one end of shaping section widens gradually, the width of export section is from connecting shaping section one end to die cavity export one end widens gradually, the shaping section is from connecting inlet section one end is to connecting export section one end degree of depth shallows gradually, the width of shaping section reduces gradually to both ends from the centre.

Optionally, the conveying belt further comprises a baffle, the baffle is arranged at the tail of the conveying belt, and a gap is reserved between the baffle and the conveying belt to form a blanking port.

The beneficial effects of the utility model are that: the utility model provides a flour fish machine, including extrusion mechanism, cutting mechanism and the forming mechanism that sets gradually, extrusion mechanism can extrude the dough into strip face embryo, and cutting mechanism can cut strip face embryo into the face embryo section, and forming mechanism can rub face embryo section into flour fish, has realized the automation of flour fish processing; and the forming mechanism can improve the toughness of dough blanks in the kneading process, so that the taste of the finally formed flour fish is improved.

Drawings

Fig. 1 is a schematic perspective view of a fish noodle machine according to an embodiment of the present invention;

fig. 2 is a front view of the fish noodle maker according to the embodiment of the present invention;

fig. 3 is a side view of the fish noodle machine according to the embodiment of the present invention;

fig. 4 is a top view of the fish noodle maker according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of a swaging assembly provided in the embodiment of the present invention;

fig. 6 is a cross-sectional view of a swaging assembly provided in an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a cutting mechanism according to an embodiment of the present invention (with a portion of the tool holder hidden);

fig. 8 is a schematic structural view of a material distributing cavity provided in the embodiment of the present invention;

fig. 9 is a schematic structural view of a molding assembly according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a forming die proposed in an embodiment of the present invention;

fig. 11 is a sectional view of a molding die set forth in an embodiment of the present invention.

In the figure: 1. a frame; 2. an extrusion mechanism; 21. a hopper; 211. a hopper body; 212. a discharge port; 213. discharging the material from the mold; 22. an extrusion; 23. a material pressing component; 231. pressing a material bracket; 232. a nip roll; 233. a material pressing plate; 233a, a stop collar; 233b, a plate body; 3. a first guide mechanism; 31. a flow distribution plate; 311. a flow dividing channel; 32. a stock guide; 321. a material guide chute; 4. a cutting mechanism; 41. slitting the roller; 411. a cutter; 412. a cutter fixing frame; 42. a reverse flow roller; 43. a tool holder; 5. a second guide mechanism; 51. a material distributing cavity; 52. a collection port; 6. a molding mechanism; 61. a conveyor belt; 62. forming a mold; 621. a mold cavity; 621a, an inducer; 621b, a forming section; 621c, an outlet section; 63. a mold fixing frame; 7. a baffle plate; 8. and (7) a supporting plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

This example proposes a flour fish machine, which can be used to process flour fish, such as oat flour fish, which is highly appreciated by consumers. The whole processing process comprises a plurality of processes such as extrusion, cutting and forming, and specifically comprises an extrusion mechanism, a cutting mechanism and a forming mechanism, wherein the extrusion mechanism can extrude dough in the extrusion mechanism into strip-shaped dough blanks with uniform thickness, the cutting mechanism can cut the strip-shaped dough blanks into dough blank sections with consistent length, the forming mechanism can knead the dough blank sections into flour fish, the whole process replaces manual kneading of the flour fish, and the processing efficiency is high.

Referring to fig. 1 to 11, the flour fish machine provided by the embodiment includes a frame 1, an extruding mechanism 2, a cutting mechanism 4 and a forming mechanism 6, wherein the extruding mechanism 2, the cutting mechanism 4 and the forming mechanism 6 are sequentially disposed on the frame 1 in a zigzag manner, the extruding mechanism 2 includes a hopper 21 and an extruding member 22, the hopper 21 is provided with an inlet and a discharge hole, and the extruding member 22 is located in the hopper 21 and can extrude dough from the discharge hole and form a strip-shaped dough blank; the cutting mechanism 4 is positioned at one end of the hopper 21 provided with the discharge hole, comprises a cutter 411 and can cut strip-shaped dough into dough sections; the forming mechanism is arranged below the cutting mechanism 4 and comprises a conveyor belt and a forming die, an opening die cavity is formed in one side, facing the conveyor belt, of the forming die, the conveyor belt can drive the dough segment to enter the die cavity in the process of conveying the dough segment, the dough segment is matched with the forming die to rub the dough segment, and finally dough fish is formed.

The flour fish machine provided by the embodiment realizes the automation of extruding, cutting and kneading processing of flour fish, and improves the production efficiency; and through the setting of conveyer belt and the forming die who sets up the die cavity, can rub the dough, the smooth toughness in flour fish surface that processes out, the taste is better.

Referring to fig. 3 and 4, the auger can be used as the extrusion part 22, the auger is rotatably arranged in the hopper 21, the first power part is in transmission connection with the auger to realize rotation of the auger, the discharge hole is formed in the terminal of the hopper 21 in the axial propulsion direction of the auger, the pressure and the shearing force generated by rotation of the auger can fully extrude dough and extrude the dough to the direction of the discharge hole, and the spiral extrusion can knead the flour fish in the extrusion process relative to piston-type linear extrusion, so that the mouth feel of the finally-formed flour fish is better.

Specifically, the number of augers sets up to two, and two auger's direction of rotation are opposite, and ejection of compact is fast, rubs the effect better. For the energy saving, reduce cost, the one end that discharge opening was kept away from to two augers is equipped with intermeshing's gear respectively to the cover, and one of them auger is connected with first power spare, and first power spare can drive two synchronous counter-rotations of auger. The gear is also sleeved with a gear box for protecting the gear from being interfered by the outside and prolonging the service life of the gear. The first power part can be a variable frequency motor, and the speed adjustment of the dough extruding hopper 21 can be realized by adjusting the frequency of the variable frequency motor.

Hopper 21 includes hopper body 211 and discharge gate 212, and the relative both ends opening of discharge gate 212, import one end are connected in hopper body 211 along auger axial advancing direction's starting point end, and discharge gate 212 export one end can be dismantled to connect specifically can the spiro union have ejection of compact mould 213, and the discharge opening sets up on ejection of compact mould 213. In the actual processing process, hopper 21 often is equipped with a plurality of ejection of compact moulds 213, and the aperture of the discharge opening that sets up on the different ejection of compact moulds 213 is inconsistent, through changing ejection of compact mould 213, can produce the flour fish of different specifications. Specifically, the opening at the inlet end of the discharge port 212 is larger than the opening at the outlet end of the discharge port 212, so that the dough can enter the discharge hopper 21 conveniently. One end of the packing auger penetrates through the hopper body 211 to be connected with the first power part, the other end of the packing auger is fixedly connected with one end of the discharge port 212 connected with the hopper body 211 through a packing auger positioning disc, the packing auger positioning disc is of a hollow structure, and the packing auger is fixed without interfering dough extrusion into the discharge port 212. Furthermore, a plurality of discharging holes 213 are arranged on the discharging die horizontally to improve the efficiency of extruding the strip dough. In some embodiments, the discharge holes may also be arranged in multiple rows to further provide extrusion efficiency.

Alternatively, the hopper 21 is integrally an open slot with an upper opening for the dough to be introduced. A pressing component 23 is arranged above the packing auger, the pressing component 23 comprises a pressing support 231, a pressing roller 232, a pressing plate 233 and a third power part, wherein the pressing support 231 is fixedly connected to the inner wall of the hopper 21 near one end of the discharge port 212, specifically, a screw connection can be adopted, the cylindrical pressing roller 232 in transmission connection with the third power part is rotatably arranged above the pressing support 231 and is approximately attached to the pressing support 231, namely, a pressing channel is formed between one side of the pressing roller 232 facing the pressing support 231 and the pressing support, and dough can enter the pressing channel to be extruded. Specifically, the nip holder 231 is L-shaped, and one side of the nip holder 231 facing the nip roll 232 is provided with an arc-shaped surface consistent with the arc shape of the nip roll 232. The nip plate 233 is arranged on the nip roll 232 in a manner of being retractable along the radial direction of the nip roll 232, an accommodating groove for accommodating the nip plate 233 is arranged on the outer periphery of the nip roll 232 along the length direction of the nip plate 233, and the nip plate 233 has a first state of extending out of the nip roll 232 and a second state of retracting into the nip roll 232. When the end of the pressure plate 233 far from the pressure roller 232 abuts against the pressure support 231, the pressure plate 233 can retract into the pressure roller 232 and is converted into a second state from the first state, the pressure roller 232 and the pressure support 231 can be matched to extrude dough, the toughness of the dough is improved, the taste of the finally formed flour fish is increased, and meanwhile, the dough which does not smoothly enter the discharge port 212 is taken back to the auger and is sent to the discharge port 212 again.

The third power member can also be a variable frequency motor.

Specifically, the material pressing plate 233 comprises a plate body 233b and a limiting ring 233a, wherein the limiting ring 233a is in the shape of an elongated circular ring, two plate bodies 233b are provided, and are respectively disposed on two sides of the length of the limiting ring 233a, correspondingly, two accommodating grooves are also provided and are communicated with each other, one of the two plate bodies 233b can be gradually retracted into the material pressing roller 232 after being abutted against the material pressing support 231, and the other one of the two plate bodies 233b extends out of the material pressing roller 232.

Specifically, the nip roll 232 may be formed by combining separate structures, so that the limiting ring 233a is conveniently placed in the nip roll 232.

It is understood that the retractable arrangement of the nip plate 233 on the nip roll 232 is not limited to the above-mentioned manner, and may be implemented in other manners, for example, a spring may be arranged at the nip plate 233 and the accommodating groove for accommodating the nip plate 233, and the spring provides power for ejecting the nip plate 233 out of the accommodating groove.

In order to reduce friction between the nip plate 233 and the nip, the end of the nip plate 233 extending beyond the nip roll 232 is rounded.

Referring to fig. 7, the cutting mechanism 4 includes a knife rest 43, a slitting roller 41 and a backflow roller 42, the knife rest 43 is fixedly disposed on the frame 1 and has a rectangular structure with an opening at the upper end and the lower end, the slitting roller 41 and the backflow roller 42 are rotatably disposed on the knife rest 43 in parallel, the slitting roller 41 and the backflow roller 42 rotate in opposite directions, the backflow roller 42 is a cylindrical cylinder, the slitting roller 41 includes a cutter fixing frame 412 and a cutter 411, the cutter fixing frame 412 is rotatably connected to the knife rest 43, the cutter 411 is fixedly connected to the cutter fixing frame 412 along the length direction of the cutter fixing frame 412, and the cutter 411 can abut against the backflow roller 42 in the rotating process to cut the strip-shaped dough into dough pieces. Specifically, the quantity of cutter 411 can set up a plurality ofly, sets up along the radial interval of the pivot of cutter mount 412, and in this embodiment, the quantity of cutter 411 sets up to two, and two cutters 411 set up on same horizontal plane, cut cylinder 41 and rotate once, can with the cylinder 42 butt of refluence twice, also carry out twice cutting to strip dough.

The rotation of the slitting roller 41 and of the counter-flow roller 42, respectively, can be effected by power means. In this embodiment, in order to achieve synchronization, the rotation of the slitting roller 41 and the reverse flow roller 42 is achieved by using the same power device, that is, the slitting roller 41 and the reverse flow roller 42 are both rotated by the second power device. Specifically, the same end of the slitting roller 41 and the same end of the backflow roller 42 are respectively provided with a gear which is meshed with each other in a sleeved mode, the second power part is connected with one end portion of the slitting roller 41 and the other end portion of the backflow roller 42, the second power part can also be a variable frequency motor, and the adjustment of the length of the opposite blank segment can be achieved by adjusting the frequency of the first power part and the frequency of the second power part.

Of course, the cutting mechanism 4 may also use the cutting knife 411 capable of reciprocating linearly to cut, and the cutting function is not affected.

Referring to fig. 9, the conveyor 61 of the forming mechanism 6 is disposed below the cutting mechanism 4, the forming die 62 is disposed on the conveyor 61 in a height-adjustable manner, and the thickness of the finally formed noodle fish can be adjusted by adjusting the distance between the forming die 62 and the conveyor 61. Specifically, the forming mold 62 is screwed to a conveyor belt fixing plate for mounting the conveyor belt 61, a mold fixing frame 63 and a nut for fixing the forming mold are sleeved on a screw used for screwing from top to bottom, and the height of the forming mold fixed on the mold fixing frame 63 can be adjusted by adjusting the height of the nut on the screw.

The number of the molding dies 62 is the same as the number of the discharge holes, and the molding dies are arranged at intervals along the length direction of the die holder 63.

Referring to fig. 10-11, the mold cavity 621 is disposed at the bottom of the forming mold 62 in the conveying direction of the conveyor belt, the mold cavity 621 includes an inlet section 621a, a forming section 621b and an outlet section 621c connected in sequence, wherein the inlet section 621a and the outlet section 621c are deeper than the forming section 621b, the width of the inlet section 621a gradually widens from the inlet end of the mold cavity 621 to the end connected to the forming section 621b, the instant noodle segment enters the mold cavity 621, the width of the outlet section 621c gradually widens from the end connected to the forming section 621b to the outlet end of the mold cavity 621, the instant noodle is separated from the mold cavity 621, the depth of the forming section 621b gradually decreases from the end connected to the inlet section 621a to the end connected to the outlet section 621c, the kneading force of the noodle segment is gradually increased by simulating the palm of a human hand, and the width of the forming section 621b gradually decreases from the middle to the two ends in order to reduce the edge angle.

In order to realize effective connection among the mechanisms and enable the dough to smoothly flow among the processes of extrusion, cutting and forming, the flour fish machine provided by the embodiment further comprises a first guide mechanism 3 and a second guide mechanism 5, wherein the first guide mechanism 3 is arranged between the extrusion mechanism 2 and the cutting mechanism 4, and the second guide mechanism 5 is arranged between the cutting mechanism 4 and the forming mechanism 6.

As shown in fig. 4, the first guiding mechanism 3 includes a flow dividing plate 31 and a material guiding plate 32, wherein the flow dividing plate 31 is disposed at the material outlet 212, and the flow dividing plate 31 is provided with flow dividing channels 311 corresponding to the material outlet one-to-one; the guide plate 32 is arranged above the cutting mechanism 4 through a guide plate 32 fixing frame, one end of the guide plate 32 close to the splitter plate 31 is provided with a guide chute 321 corresponding to the tail end of the splitter channel 311 in a one-to-one manner, the size of the guide chute 321 is larger than that of the discharge hole, the strip-shaped dough blanks extruded from the discharge hole can penetrate into the guide chute 321 along the splitter channel 311 and then move into the cutting mechanism 4 to be cut, the strip-shaped dough blanks extruded from the extruding mechanism 2 can be ensured to smoothly drop into the cutting mechanism 4, and mutual interference between the strip-shaped dough blanks is avoided.

As shown in fig. 8-9, the second guiding mechanism 5 includes a material distributing cavity 51 and a collecting port 52, the material distributing cavity 51 is vertically disposed below the cutting mechanism 4 and is formed by a plurality of separated single material cavities, the single material cavities correspond to the material guiding grooves one by one, the collecting port 52 is disposed above the conveyor belt 61 and connects the material distributing cavity 51 and the forming mold 62, one end of the collecting port is disposed below the material distributing cavity 51, the other end of the collecting port is fixedly connected to the forming mold 62, and the collecting port 52 gradually converges from one end of the material distributing cavity 51 to one end of the forming mold 62 and finally converges to be consistent with the inlet width of the forming mold 62, so as to ensure that the dough piece smoothly enters the forming mold 62. Likewise, the collection ports 52 correspond one-to-one to the singulation chambers.

The conveyor belt 61 transmits power from a fourth power element, which may be a servo motor, by which the conveyor belt's speed of transmission is adjusted to match the fall of the fish.

The flour fish machine in this embodiment still includes the tray, and the tray sets up in conveyer belt 61 afterbody below, specifically sets up on the layer board 8 that frame 1 set up, and fashioned flour fish can be followed conveyer belt 61 and dropped to the tray on, convenient transportation.

The tail of conveyer belt 61 still is connected with baffle 7, leaves certain clearance between baffle 7 and the conveyer belt 61 and forms the blanking mouth, and baffle 7 sets up to the arcwall face, can block that the face fish throws away conveyer belt 61 because of inertia, guarantees that the face fish accurately falls into in the tray of conveyer belt 61 below from the blanking mouth.

Optionally, the bottom of the frame 1 is further provided with a ground caster, so that the whole surface fish machine can be conveniently moved.

After the flour fish machine is started, the dough is put into the hopper 21 and is pushed forward by the auger, under the assistance of the material pressing component 23, the dough smoothly enters the discharge port 212 and is extruded into strip-shaped flour blanks through the discharge hole, the dough enters the cutting mechanism 4 through the flow distribution plate 31 and the material guide plate 32 to be cut into flour blank sections, the flour blank sections enter the forming die through the material distribution cavity and the collection port, flour fish is formed through kneading between the forming die and the conveyor belt, the shape of the flour fish can be adjusted through the distance between the forming die and the conveyor belt, and the rearmost flour fish drops into the tray from the conveyor belt, so that the processing of the flour fish is completed.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. Flour fish machine, its characterized in that includes:

a frame (1);

the extruding mechanism (2) is arranged on the rack (1) and comprises a hopper (21) and an extruding piece (22), the hopper (21) comprises an inlet and a discharge hole, and the extruding piece (22) can extrude dough from the discharge hole out of the hopper (21) to form strip-shaped dough blanks;

the cutting mechanism (4) is arranged on the rack (1) and comprises a cutter (411) which can cut the strip-shaped dough into dough sections;

forming mechanism (6), set up in the below of cutting mechanism (4), including conveyer belt (61) and forming die (62), forming die (62) face one side of conveyer belt (61) has the edge conveyer belt (61) direction of transfer link up forming die's (62) die cavity (621), die cavity (621) with conveyer belt (61) cooperation is right the shaping is kneaded to strip face embryo.

2. The noodle fish machine according to claim 1, wherein the extrusion member (22) is an auger, the auger is rotatably arranged inside the hopper (21), the auger is in transmission connection with the first power member, and the discharge hole is formed in the terminal of the hopper (21) along the propelling direction of the auger.

3. The noodle fish machine according to claim 2, wherein the extruding mechanism (2) further comprises a pressing assembly (23), the pressing assembly (23) is disposed at the inlet, the pressing assembly (23) comprises a pressing bracket (231), a pressing roller (232), a pressing plate (233) and a third power member, the pressing bracket (231) is fixedly connected to an inner wall of the hopper (21) near one end of the discharge hole, the pressing roller (232) in transmission connection with the third power member is rotatably disposed above the pressing bracket (231), a pressing channel is formed between one side of the pressing roller (232) facing the pressing bracket (231) and the pressing bracket (231), and the pressing plate (233) is disposed on the pressing roller (232) in a telescopic manner.

4. The machine of claim 1, wherein the number of the discharge holes is plural.

5. The quick-witted for making dough fish according to claim 4, characterized by further comprising a first guiding mechanism (3), wherein the first guiding mechanism (3) is arranged between the extruding mechanism (2) and the cutting mechanism (4), the first guiding mechanism (3) comprises a splitter plate (31) and a material guiding plate (32), the splitter plate (31) is arranged at the discharge hole, and the splitter plate (31) is provided with splitter channels (311) corresponding to the discharge holes one by one; the material guide plate (32) is arranged above the cutting mechanism (4), and one end, close to the flow distribution plate (31), of the material guide plate (32) is provided with material guide grooves (321) which correspond to the tail ends of the flow distribution channels (311) one by one.

6. The fish noodle machine according to claim 5, further comprising a second guiding mechanism (5), wherein the second guiding mechanism (5) is arranged between the cutting mechanism (4) and the forming mechanism (6) and comprises a material distribution cavity (51) and a collection port (52), the material distribution cavity (51) is opened up and down and arranged below the cutting mechanism (4) and is composed of a plurality of separated single material cavities, the single material cavities are in one-to-one correspondence with the material guide grooves (321), the collection port (52) is arranged above the conveyor belt (61) and connects the material distribution cavity (51) and the forming mold (62), and the collection port (52) is in one-to-one correspondence with the single material cavities.

7. The quick-witted as claimed in claim 1, characterized in that, cutting mechanism (4) includes cutting cylinder (41) and refluence cylinder (42), cutting cylinder (41) and refluence cylinder (42) are rotatory in opposite directions, refluence cylinder (42) are the cylinder, cutting cylinder (41) include cutter mount (412) with cutter (411), cutter (411) can with the refluence cylinder (42) butt when following cutter mount (412) is rotatory.

8. Machine according to claim 1, characterized in that said forming molds (62) are arranged height-adjustably above said conveyor belt (61).

9. The machine of claim 1, wherein the mold cavity (621) comprises an inlet section (621 a), a forming section (621 b) and an outlet section (621 c) connected in sequence, the inlet section (621 a) and the outlet section (621 c) have a depth deeper than the forming section (621 b), the inlet section (621 a) has a width gradually widening from one end of the mold cavity (621) at the inlet to one end connected to the forming section (621 b), the outlet section (621 c) has a width gradually widening from one end connected to the forming section (621 b) to one end of the mold cavity (621) at the outlet, the forming section (621 b) has a depth gradually narrowing from one end connected to the inlet section (621 a) to one end connected to the outlet section (621 c), and the forming section (621 b) has a width gradually narrowing from the middle to the two ends.

10. The quick-witted as claimed in claim 1, characterized by further comprising a baffle (7), the baffle (7) is arranged at the tail of the conveyor belt (61), and a gap is left between the baffle (7) and the conveyor belt (61) to form a blanking port.

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