CN218354371U - Novel dumpling machine - Google Patents

Abstract

The utility model discloses a novel dumpling machine, which comprises a dumpling machine body, a dumpling pressing device, a dumpling shaping device, a stuffing feeding device, a forming die, an output belt and a transmission assembly, wherein the dumpling pressing device is arranged on the dumpling machine body and is rotationally connected with the dumpling machine body; the transmission assembly is connected with the first motor, and drives the transmission assembly to operate through the first motor, so as to respectively drive the dough pressing device, the forming die and the output belt to operate. The utility model discloses a dumpling machine structure is simpler, has reduced the use of part, also reduces the loss of energy, and the dough modeling ware that sets up makes more even parcel dumpling filling of face, makes the combination that face skin and filling are better, falls into forming die, and fashioned dumpling taste is better.

Description

Novel dumpling machine

Technical Field

The utility model relates to the technical field of food machinery, concretely relates to novel dumpling machine.

Background

The existing dumpling making machine widely used on the market has a complex structure, so that the transmission energy loss in the whole process is large, and the dumpling wrapper and the stuffing are not uniformly wrapped, so that the formed dumpling has poor taste.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, dumpling machine structure is complicated, and energy loss is too much in the machine operation process, and face skin and face filling parcel are inhomogeneous, and is not enough to the above-mentioned of prior art, the utility model discloses dumpling machine increases the face and moulds the type ware device, makes before the face skin falls into the mould more even with filling parcel, has adjusted the transmission system of fuselage simultaneously, has reduced the use of gear, makes transmission system's structure simpler.

In order to realize the purpose, the utility model adopts the following technical scheme: a novel dumpling machine, comprising: the dough forming machine comprises a machine body, a dough pressing device, a stuffing feeding device, a forming die, a dough shaping device, an output belt, a transmission assembly and a motor I;

the stuffing feeder is arranged on one side of the machine body and is connected with a stuffing conveying pipe;

the dough pressing device comprises an upper dough pressing roller and a lower dough pressing roller which are rotatably arranged at the upper end of the machine body;

the forming die is detachably arranged in a groove at the lower end of the machine body;

the dough modeling device comprises a first modeling wheel, a second modeling wheel, a conical piece and a disc, wherein the first modeling wheel and the second modeling wheel are rotatably arranged on a supporting plate in the machine body; the disc is fixed on the stuffing conveying pipe and is positioned above the middle part of the conical piece;

one end of the output belt is rotatably connected with the machine body and is positioned below the forming die;

the inner side of the machine body is provided with a first motor, the output end of the first motor is connected with a transmission assembly and drives the first motor to operate, and the transmission assembly respectively drives the dough pressing device, the forming die and the output belt to operate.

As a preferred scheme, the plane conveying frame is installed on the machine body, and one end of the plane conveying frame is located in the middle of the upper flour pressing roller and the lower flour pressing roller.

As a preferable scheme, the noodle pressing device further comprises a first shaft sleeve and a first jackscrew, the first shaft sleeve is arranged on a shaft of the upper noodle pressing roller, and the first jackscrew penetrates through the machine body and abuts against the first shaft sleeve.

As a preferred scheme, send filling ware to include motor two and spiral auger, the spiral auger is located and sends filling ware storehouse, motor two is located and sends filling storehouse below, motor two output shafts and spiral auger are connected.

As a preferred scheme, a surface guide belt is arranged below the lower dough pressing roller, and one end of the surface guide belt is rotatably connected with the machine body.

Preferably, a dusting brush is rotatably arranged in the machine body and is positioned above the surface guide belt.

As a preferable scheme, the transmission assembly includes a first gear, a second gear, a third gear, a fourth gear, an eighth gear, a ninth gear, a tenth gear, an eleventh gear, a twelfth gear, a thirteenth gear, a fourteenth gear and a fifteenth gear, the first gear and the second gear are connected with the output shaft of the motor and are located on the same side, the third gear is arranged on one side of the machine body, the fourth gear is arranged on one side of the output belt, the eighth gear is arranged on one side of the machine body, the ninth gear and the eleventh gear are arranged on one side of the surface guide belt and are located on the same side, the eleventh gear is arranged on one side of the lower dough roller, the twelfth gear is arranged on the other side of the lower dough roller and is coaxial with the eleventh gear, the thirteenth gear is arranged on one side of the upper dough roller, the fourteenth gear is arranged on the other side of the surface guide belt and is coaxial with the ninth gear, and the fifteenth gear is arranged on one side of the dusting brush.

As a preferable scheme, the forming die comprises a front die and a rear die, a gear five and a gear six are arranged on one side of a shaft of the rear die, the gear six is arranged on the same side of the gear five, and a gear seven is arranged on one side of the shaft of the front die.

Preferably, the first gear is meshed with a third gear, the third gear is meshed with a fourth gear, the fifth gear, the sixth gear is meshed with a seventh gear, the second gear is connected with a eighth gear through a first chain, the tenth gear is connected with an eleventh gear through a second chain, the twelfth gear is meshed with a thirteenth gear, and the fourteenth gear is meshed with a fifteenth gear.

As a preferable scheme, a first gear sixteen is arranged in the middle of the first plastic wheel, a second bevel gear is arranged at the tail of the first plastic wheel, a seventeen gear is arranged in the middle of the second plastic wheel, a first bevel gear is arranged on a shaft connected with the eighth gear, the first bevel gear is meshed with the second bevel gear, and the sixteen gear is meshed with the seventeen gear.

The utility model has the advantages that:

the utility model discloses a novel dumpling machine, it is structurally simpler, make dumpling machine energy at the working process loss still less, go up the roller of pressing the dough and press the roller down to extrude the face skin, the warp face direction area is sent into cone spare and is made the face skin more steady get into mould wheel one and mould in the middle of the wheel two, mould wheel one and mould two opposite rotation of type wheel and mould the face skin and mould a shaping tube form, make its more even wrap up the filling, the dumpling size that extrudes out through forming die is even, the taste is better, the transmission system of machine has been adjusted simultaneously, the use of gear has been reduced, make transmission system's structure simpler.

Drawings

For ease of illustration, the invention is described in detail by the following detailed description and accompanying drawings.

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic view of a transmission assembly and a stuffing feeding device according to the embodiment;

FIG. 3 is a schematic view of the rotating assembly and the forming die of the present embodiment;

fig. 4 is a schematic view of the transmission structure of the dough-plasticator of the present embodiment.

In the figure:

100-a fuselage; 110-an output tape; 120-motor one;

200-a dough pressing device;

210-upper dough roller; 220-lower dough roller; 230-a first top thread; 240-shaft sleeve I;

300-plane conveying frame;

400-face guide strip;

500-spreading and brushing;

600-dough plastomers; 610-a conical piece; 620-disc; 630-disc groove; 640-bolt one;

650-a first molding wheel; 660-a second molding wheel; 670-a support plate;

700-forming a mould; 710-front mold; 720-back mould; 730-jackscrew two; 740-shaft sleeve II; 750-bolt two; 760-a fixing sheet; 770-a mold support;

800-stuffing feeding device; 810-stuffing feeding bin; 820-a spiral auger; 830-motor two; 840-stuffing feeding tube;

900-a transmission assembly; 901-gear one; 902-gear two; 903-gear three; 904-gear four;

905-gear five; 906-gear six; 907-gear seven; 908-gear eight; 909-gear nine;

910-gear ten; 911-eleven gears; 912-gear twelve; 913-gear thirteen; 914-gear fourteen; 915-gear fifteen; 916-sixteen gears; 917-gear seventeen; 918-bevel gear one; 919-bevel gear two; 920, a first chain; 930-chain two.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments; in the following description, specific details are provided, such as specific configurations and components, merely to facilitate a thorough understanding of embodiments of the invention. Thus, it will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described herein without departing from the scope and spirit of the invention. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

As shown in fig. 1-4, the present embodiment provides a novel dumpling making machine, which includes a machine body 100, a dough pressing device 200, a stuffing feeding device 800, a forming mold 700, a dough shaping device, and an output belt 110, wherein the stuffing feeding device 800 is disposed on one side of the machine body 100, a stuffing conveying pipe is connected to one side of the stuffing feeding device 800, the dough pressing device 200 includes an upper dough pressing roller 210 and a lower dough pressing roller 220 rotatably disposed on an upper end of the machine body 100, the upper dough pressing roller 210 is provided with a downward inclined dough conveying frame 300, a lower end of the dough conveying frame 300 is disposed in a middle portion of the upper dough pressing roller 210 and the lower dough pressing roller 220, the dough conveying frame 300 is provided with rollers arranged at intervals, the dough conveying frame 300 is used for supporting a dough, the dough is conveyed to inlets of the upper dough pressing roller 210 and the lower dough pressing roller 220, the rotating upper and lower dough pressing rollers 220 press the dough into dough sheets, and drive the dough to move on the rollers of the dough conveying frame 300;

and, the dough pressing device 200 also comprises a first top thread 230 and a first shaft sleeve 240, the first shaft sleeve 240 is arranged on the shaft of the upper dough pressing roller 210, the first top thread 230 penetrates through the machine body 100 to be abutted against the first shaft sleeve 240, and the distance between the upper dough pressing roller 220 and the lower dough pressing roller 220 can be adjusted by rotating the first top thread 230, so that the thickness of the required dough sheet is adjusted, and the thickness of the dumpling wrapper is proper.

Further, a rotatable dough guide belt 400 is arranged below the lower dough pressing roller 220, a dough molding device is arranged below the dough guide belt 400, a forming mold 700 is arranged below the dough molding device, a rotatable dusting brush 500 is arranged above the rear side of the dough guide belt 400, dry flour inside the dusting brush 500 is scattered on the surface of the dough guide belt 400 through rotation, dough sheets extruded by the upper and lower dough pressing rollers 220 fall into one end of the dough guide belt 400, the formed dough sheets are sent into the dough molding device by the dough guide belt 400, and the flour on the surface of the dough guide belt 400 is attached to the dough sheets, so that the dough sheets are not bonded with the forming mold 700.

Further, the dough modeling device comprises a conical part 610, a first modeling wheel 650, a second modeling wheel 660 and a disc 620, the conical part 610 is arranged on a support plate 670 and is positioned below the dough guide belt 400, the first modeling wheel 650 and the second modeling wheel 660 are transversely arranged, the disc 620 is connected with a stuffing conveying pipe through a bolt and is positioned above the middle part of the conical part 610, a disc groove 630 is further arranged in the disc 620, the transverse distance of the disc 620 can be adjusted through loosening the bolt, the disc 620 enables the dough sheet to be placed at a proper position in an overhead mode, the disc 620 is fixed on the stuffing conveying pipe through the bolt 640, the position of the disc 620 can be adjusted through screwing the bolt, the dough sheet firstly falls into a gap between the conical part 610 and the disc 620, the dough sheet is placed at a proper position through the disc 620, the dough sheet falls into the surface of the conical part 610, the arc design of the conical part 610 enables the dough sheet to stably enter the middle part of the first modeling wheel 610 and the second modeling wheel 650, and the dough sheet is made to fall into the plastic molding cylinder 700 through rotation of the first modeling wheel 650 and the plastic cylinder.

Further, the stuffing feeder 800 comprises a second motor 830 and a spiral auger 820, the spiral auger 820 is positioned in a cabin of the stuffing feeder 800, the second motor 830 is positioned below the stuffing feeding cabin 810, an output shaft of the second motor 830 is connected with the spiral auger 820, the stuffing conveying pipe penetrates through the middle parts of the conical piece 610, the first plastic wheel and the second plastic wheel 660 and extends to the upper end of the forming die 700, and the spiral auger 820 rotates to convey the stuffing of the stuffing feeding cabin 810 to the stuffing conveying pipe and finally falls into the dough barrel.

Further, the forming die 700 comprises a front die 710, a rear die 720 and a die supporting frame 770, the front die 710 and the rear die 720 are rotatably connected with the die supporting frame 770 and are located inside the die supporting frame 770, the forming die 700 is inserted into a groove at the lower end of the machine body 100 and then fixed to the machine body 100 through a second bolt 750 and a fixing piece 760, a second shaft sleeve 740 is arranged on the shaft of the front die 710, a second top thread 730 is arranged outside the machine body 100, the second top thread 730 penetrates through the machine body 100 and abuts against the second shaft sleeve 740, the distance between the front die 710 and the rear die 720 is adjusted by rotating the second top thread 730, the dough barrel firstly falls into the middle of the front die 710 and the rear die 720, then dumpling stuffing falls into the dough barrel, the dough barrel wrapped with the dumpling stuffing is extruded through opposite rotation of the front die 710 and the rear die 720 to fall onto the output belt 110 below the forming die 700, and the output belt 110 rotates to output the dumplings.

Further, a transmission assembly 900 is arranged on one side of the machine body 100, the transmission assembly 900 comprises a first gear 901, a second gear 902, a third gear 903, a fourth gear 904, an eighth gear 908, a ninth gear 909, a tenth gear 910, an eleventh gear 911, a twelfth gear 912, a thirteenth gear 913, a fourteenth gear 914 and a fifteenth gear 915, the first gear 901 and the second gear 902 are connected with the output shaft of the motor and are coaxial and on the same side, the output shaft drives the first gear 901 and the second gear 902 to rotate anticlockwise when the motor is started, the third gear 903 is arranged on one side of the machine body 100, and the first gear 901 is meshed with the third gear 903 to drive the third gear 903 to rotate clockwise.

Gear four 904 is disposed on one side of the output belt 110, gear five 905 and gear six 906 are disposed on the rear die 720 shaft and on the same side, gear seven 907 is disposed on the front die 710 shaft, gear three 903 is meshed with gear four 904 and gear five 905 to drive gear four 904 and gear five 905 to rotate counterclockwise, gear five 905 drives gear six 906 to rotate at the same speed, gear six 906 is meshed with gear seven 907 to drive gear seven 907 to rotate clockwise, so that the molding dies 700 rotate in the opposite direction, and gear four 904 rotates counterclockwise and drives the output belt 110 to rotate.

Gear eight 908 is arranged at one side of the machine body 100, gear nine 909 is arranged at one side of the surface guide belt 400, gear two 902 is connected with gear eight 908 and gear nine 909 through chain one 920, and counterclockwise rotation of gear two 902 drives gear eight 908 to rotate counterclockwise and gear nine 909 to rotate counterclockwise and drive the surface guide belt 400 to rotate.

The gear ten 910 is arranged on one side of the surface guide belt 400 and is coaxial with the gear nine 909 on the same side, the gear eleven 911 is arranged on one side of the dough pressing roller 220, the gear ten 910 is connected with the gear eleven 911 through a chain two 930, and the gear nine 909 rotates anticlockwise to drive the gear ten 910 and the gear eleven 911 to rotate anticlockwise and drive the dough pressing roller 220 to rotate.

Gear twelve 912 is mounted on one side of lower dough roller 220 and is coaxial with gear eleven 911, gear thirteen 913 is mounted on one side of upper dough roller 210, counter-clockwise rotation of gear eleven 911 drives gear twelve 912 to rotate counter-clockwise, and gear twelve 912 is meshed with gear thirteen 913 and drives gear thirteen 913 to rotate clockwise and drive upper dough roller 210.

Fourteen gears 914 are rotatably connected with the surface guide belt 400 and are coaxial with nine gears 909, fifteen gears 915 are arranged on one side of the dusting brush 500, the fourteen gears 914 are driven by the nine gears 909 rotating anticlockwise to rotate anticlockwise, and the fourteen gears 914 are meshed with the fifteen gears 915 and drive the fifteen gears 915 to rotate clockwise to drive the dusting brush 500.

The middle part of the first plastic wheel 650 is provided with a sixteen gear 916, the tail part of the first plastic wheel 650 is provided with a two bevel gears 919, the middle part of the second plastic wheel 660 is provided with a seventeen gear 917, a shaft connected with the eight gear 908 is provided with a first bevel gear 918, the eight gear 908 rotates anticlockwise to drive the first bevel gear 918 to rotate anticlockwise, the first bevel gear 918 is meshed with the second bevel gear 919, the first bevel gear 918 drives the second bevel gear 919 to rotate and drive the first plastic wheel 650 to rotate, the first plastic wheel 650 rotates to drive the sixteen gear 916 to rotate, the sixteen gear 916 is meshed with the seventeen gear 917, and the sixteen gear 916 rotates to drive the seventeen gear 917 to rotate and drive the second plastic wheel 660 to rotate.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

In the description of the present application, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

The specific embodiments described herein are merely illustrative of the spirit of the application. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the present application as defined by the appended claims.

Claims (10)

1. A novel dumpling making machine is characterized by comprising: the dough forming machine comprises a machine body (100), a dough pressing device (200), a stuffing feeding device (800), a forming die (700), a dough shaping device, an output belt (110), a transmission assembly (900) and a motor I (120);

the stuffing feeder (800) is arranged on one side of the machine body (100), and the stuffing feeder (800) is connected with a stuffing conveying pipe;

the dough pressing device (200) comprises an upper dough pressing roller (210) and a lower dough pressing roller (220) which are rotatably arranged at the upper end of the machine body (100);

the forming die (700) is detachably arranged in a groove at the lower end of the machine body (100);

the dough modeling device comprises a first modeling wheel (650), a second modeling wheel (660), a conical piece (610) and a disc (620), wherein the first modeling wheel (650) and the second modeling wheel (660) are rotatably arranged on a support plate (670) in the machine body (100), the conical piece (610) is arranged on the support plate (670) and positioned above the first modeling wheel (650) and the second modeling wheel (660), and the stuffing tube sequentially penetrates through the conical piece (610) and between the first modeling wheel (650) and the second modeling wheel (660) and extends to the upper part of the molding mold (700); the disc (620) is fixed on the stuffing conveying pipe and is positioned above the middle part of the conical piece (610);

one end of the output belt (110) is rotatably connected with the machine body (100) and is positioned below the forming die (700);

the inner side of the machine body (100) is provided with a first motor (120), the output end of the first motor (120) is connected with a transmission assembly (900) and drives the first motor to operate, and the transmission assembly (900) respectively drives the noodle pressing device (200), the forming die (700) and the output belt (110) to operate.

2. The novel dumpling machine according to claim 1, wherein a noodle conveying frame (300) is mounted on the machine body (100), and one end of the noodle conveying frame (300) is located in the middle of the upper noodle pressing roller (210) and the lower noodle pressing roller (220).

3. The novel dumpling machine as claimed in claim 1, wherein the dough pressing device (200) further comprises a first shaft sleeve (240) and a first top thread (230), the first shaft sleeve is arranged on the shaft of the upper dough pressing roller (210), and the first top thread (230) penetrates through the machine body (100) and abuts against the first shaft sleeve (240).

4. The novel dumpling making machine according to claim 1, wherein the stuffing feeding device (800) comprises a second motor (830) and a spiral packing auger (820), the spiral packing auger (820) is positioned in a cabin of the stuffing feeding device (800), the second motor (830) is positioned below the stuffing feeding cabin (810), and an output shaft of the second motor (830) is connected with the spiral packing auger (820).

5. The novel dumpling machine according to claim 1, wherein a noodle guide belt (400) is arranged below the lower noodle pressing roller (220), and one end of the noodle guide belt (400) is rotatably connected with the machine body (100).

6. The novel dumpling machine according to claim 5, wherein a dusting brush (500) is rotatably arranged inside the machine body (100), and the dusting brush (500) is positioned above the dough guide belt (400).

7. The novel dumpling machine according to claim 6, wherein the transmission assembly (900) comprises a gear I (901), a gear II (902), a gear III (903), a gear IV (904), a gear eight (908), a gear nine (909), a gear ten (910), a gear eleven (911), a gear twelve (912), a gear thirteen (913), a gear fourteen (914), and a gear fifteen (915), the first gear (901) and the second gear (902) are connected with the output shaft of the motor and are positioned on the same side, the gear three (903) is arranged on one side of the machine body (100), the gear four (904) is arranged on one side of the output belt (110), the gear eight (908) is arranged on one side of the machine body (100), the gear nine (909) and the gear ten (910) are arranged on one side of the surface guide belt (400) and are positioned on the same side, the gear eleven (911) is arranged on one side of the dough pressing roller (220), the gear twelve (912) is arranged on the other side of the lower dough pressing roller (220) and is coaxial with the gear eleven (911), the gear thirteen (913) is arranged on one side of the upper dough pressing roller (210), the gear fourteen (914) is arranged on the other side of the surface guide belt (400) and is coaxial with the gear nine (909), the fifteen gear wheels (915) are arranged on one side of the dusting brush (500).

8. The novel dumpling machine according to claim 7, wherein the forming die (700) comprises a front die (710) and a rear die (720), a gear five (905) and a gear six (906) are arranged on one side of a shaft of the rear die (720), the gear six (906) is on the same side of the gear five (905), and a gear seven (907) is arranged on one side of the shaft of the front die (710).

9. The novel dumpling machine according to claim 8, wherein the first gear (901) is meshed with the third gear (903), the third gear (903) is meshed with the fourth gear (904) and the fifth gear (905), the sixth gear (906) is meshed with the seventh gear (907), the second gear (902) and the eighth gear (908) are connected with the ninth gear (909) through the first chain (920), the tenth gear (910) is connected with the eleventh gear (911) through the second chain (930), the twelfth gear (912) is meshed with the thirteenth gear (913), and the fourteenth gear (914) is meshed with the fifteenth gear (915).

10. The novel dumpling machine according to claim 7, wherein a first gear sixteen (916) is arranged in the middle of the first molding wheel (650), a second bevel gear (919) is arranged at the tail of the first molding wheel (650), a seventeen (917) gear is arranged in the middle of the second molding wheel (660), a first bevel gear (918) is arranged on a shaft where the eight (908) gear is located, the first bevel gear (918) is meshed with the second bevel gear (919), and the sixteen (916) gear is meshed with the seventeen (917) gear.

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