CN214339919U

CN214339919U - Taro ball forming machine

Info

Publication number: CN214339919U
Application number: CN202022940740.7U
Authority: CN
Inventors: 陈启涛
Original assignee: Zhangzhou Yingbo Machinery Manufacturing Co ltd
Current assignee: Zhangzhou Yingbo Machinery Manufacturing Co ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-10-08
Anticipated expiration: 2030-12-10

Abstract

The utility model discloses a taro ball forming machine, which comprises a frame, an extrusion device, a material guiding plate, a material cutting device and a rounding device, wherein the extrusion device, the material guiding plate, the material cutting device and the rounding device are sequentially arranged, the material guiding plate is arranged below the extrusion device, the rounding device comprises a first rounding roller and a second rounding roller, the first rounding roller and the second rounding roller are arranged in parallel, the rotating directions of the first rounding roller and the second rounding roller are the same, the distance from the axis of the first rounding roller to the axis of the second rounding roller is equal to the sum of the radius of the first rounding roller and the radius of the second rounding roller, a first circular arc groove surrounding the outer surface of the first rounding roller for a circle is formed on the first rounding roller, and a second circular arc groove surrounding the outer surface of the second rounding roller for a circle is formed on the second rounding roller, the first arc groove and the second arc groove are correspondingly arranged. Compared with the prior art, the utility model discloses improve taro ball shaping efficiency greatly.

Description

Taro ball forming machine

Technical Field

The utility model relates to the field of food machinery, concretely relates to taro ball make-up machine.

Background

The ball is an important food in food, has various different tastes due to different materials, is commonly a meatball, a vegetable ball, a taro ball and the like, and is mainly prepared from taro, white oil, sugar and cornstarch. The traditional ball making mode is die making and manual making, the efficiency is low, the made balls are different in size and shape, the taste is different, efficient making cannot be achieved, time cannot be effectively saved, and the cost is high.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a taro ball make-up machine, and it has the shaping efficient and the ball shape of preparing out even, the unanimous characteristics of size.

In order to achieve the above purpose, the solution of the present invention is:

a taro ball forming machine comprises a frame, an extrusion device, a material guiding plate, a material cutting device and a rounding device, the extrusion device, the material guiding plate, the cutting device and the rounding device are sequentially arranged, the material guiding plate is arranged below the extrusion device, the rounding device comprises a first rounding roller and a second rounding roller which are arranged in parallel, the rotating directions of the first rounding roller and the second rounding roller are the same, the distance from the axis of the first rounding roller to the axis of the second rounding roller is equal to the sum of the radius of the first rounding roller and the radius of the second rounding roller, a first circular arc groove surrounding the outer surface of the first rounding roller for a circle is formed on the first rounding roller, the second rounding roller is provided with a second arc groove surrounding the outer surface of the second rounding roller for a circle, and the first arc groove and the second arc groove are arranged correspondingly.

Further, extrusion device includes first squeeze roll, second squeeze roll, keeps off the material frame keep off the material frame cover and establish the top at first squeeze roll and second squeeze roll, first squeeze roll and second squeeze roll rotate in opposite directions and are used for carrying out the extrusion to the raw materials.

Further, keep off and be equipped with first baffle on the material frame, first baffle is established and is kept off the material frame inside and be connected with keeping off the material frame, first baffle is located first squeeze roll's top, first baffle, keep off material frame and first squeeze roll constitute first flourishing material district, first baffle, keep off material frame, first squeeze roll and second squeeze roll constitute flourishing material district.

Further, keep off still to be equipped with the second baffle on the work or material rest, the second baffle is established and is connected in flourishing material district and with keeping off the material frame, the second baffle is located second squeeze roll's top, second baffle, fender material frame, second squeeze roll constitute the flourishing material district of second, first baffle, second baffle, first squeeze roll, second squeeze roll and fender material frame constitute the extrusion district.

Further, the blank device includes swing piece, rotating disc, connecting axle, actuating lever, alignment jig and blank sword, rotating disc rotates through pivot and frame and is connected, rotating disc and swing piece lie in the same one side of frame, the connecting axle sets up perpendicularly on rotating disc, the axis of connecting axle is staggered mutually with the centre of a circle of rotating disc, the one end and the connecting axle of actuating lever rotate to be connected, the other end and the alignment jig of actuating lever are connected, the one end and the frame of swing piece rotate to be connected, the other end and the alignment jig of swing piece are connected, the blank sword is connected with the alignment jig.

Further, still be equipped with the first compression roller that pulls that carries out the roll extrusion to the face skin in the frame, first pull compression roller level and set up, first pull compression roller is located the top of material guide plate, and the face skin extrudees from between material guide plate and the first compression roller of pulling and passes.

Further, still be equipped with extrusion drive mechanism in the frame, extrusion drive mechanism includes extrusion motor, extrusion drive wheel, first middle extrusion drive wheel, second middle extrusion drive wheel, first extrusion gear and second extrusion gear, the extrusion drive wheel is connected with the extrusion motor, the extrusion drive wheel passes through the chain and is connected with first middle extrusion drive wheel transmission, the coaxial setting of first middle extrusion drive wheel and second middle extrusion drive wheel, first extrusion drive wheel and the coaxial setting of first extrusion gear, the extrusion drive wheel passes through the chain and is connected with first extrusion drive wheel in the middle of the second, first extrusion gear and second extrusion gear meshing are connected, first extrusion gear drives first extrusion cylinder and rotates, second extrusion gear drives second extrusion cylinder and rotates.

Further, extrusion drive mechanism is still including second extrusion drive wheel, pinch roller wheel, second traction compression roller, first pinch roller gear and second pinch roller gear, second extrusion drive wheel and the coaxial setting of first extrusion drive wheel, second extrusion drive wheel passes through the chain and is connected with the pinch roller wheel, pinch roller wheel and the coaxial setting of second pinch roller gear, second pinch roller gear drives the second and pulls the compression roller rotation, second pinch roller gear and first pinch roller gear mesh mutually, first pinch roller gear drives first traction compression roller rotation.

Further, a circle rubbing transmission mechanism is further arranged on the rack and comprises a circle rubbing motor, a circle rubbing transmission wheel, a first middle circle rubbing wheel, a second middle circle rubbing wheel, a first circle rubbing gear, a second circle rubbing gear and a circle rubbing driving wheel, the circle rubbing motor is arranged on the rack and is connected with the circle rubbing motor, the circle rubbing motor drives the circle rubbing transmission wheel to rotate, the circle rubbing transmission wheel is connected with the first middle circle rubbing wheel through a chain, the first middle circle rubbing wheel, the second middle circle rubbing wheel and the first circle rubbing gear are coaxially arranged, the second middle circle rubbing wheel is connected with the circle rubbing driving wheel through a chain, the first circle rubbing gear and the second circle rubbing gear are meshed and connected, the first circle rubbing wheel drives the first circle rubbing roller to rotate, and the circle rubbing driving wheel drives the second circle rubbing roller to rotate.

Furthermore, the first arc grooves and the second arc grooves are respectively provided with a plurality of first arc grooves which are arranged on the first rounding roller at equal intervals, and the second arc grooves are arranged on the second rounding roller at equal intervals.

Further, still be equipped with first sliding seat in the frame, be equipped with the extrusion base on the extrusion motor, sliding base and first sliding seat sliding connection.

Further, a second sliding seat is further arranged on the machine frame, a rounding base is arranged on the rounding motor, and the rounding base is connected with the second sliding seat in a sliding mode.

Furthermore, a discharging plate for guiding the formed balls is also arranged on the machine frame.

After the structure of the oil adding device is adopted, the utility model relates to a taro ball make-up machine, through putting into the extrusion device with the dough, extrude the dough by the extrusion device, the dough skin that extrudees the extrusion device through drawing the flitch again leads the blank device, cut off the dough skin by the blank device, the length direction of the bar dough skin that cuts off parallels with first round roller and second round roller of rubbing with the hands, the cooperation of second circular arc groove in first circular arc groove and the second round roller of rubbing with the hands in the rethread first round roller of rubbing with the hands, make the bar dough skin further cut, and the dough skin that is located first circular arc groove and second circular arc groove is under the syntropy pivoted effect of first round roller and second round roller of rubbing with the hands, make the dough skin be rubbed into the sphere, accomplish the shaping to the taro ball. Compared with the prior art, the utility model discloses improved the shaping efficiency of taro ball greatly, the taro ball size is even, and shaping quality is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is an internal schematic view of the three-dimensional structure of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the middle rounding device and the material cutting device of the present invention.

Fig. 5 is a side view of the middle rounding device and the material cutting device of the present invention.

Fig. 6 is a front view of the middle rounding device and the material cutting device of the present invention.

Fig. 7 is a schematic perspective view of the middle extruding device of the present invention.

Fig. 8 is a side view of the middle pressing device of the present invention.

Fig. 9 is another schematic perspective view of the middle extruding device, the material guiding plate and the first traction compression roller according to the present invention.

In the figure:

a frame-1; an extrusion device-2; a first pressing roller-21; a second pressing roller-22;

a material blocking frame-23; a first separator-231; a second separator-232;

a material cutting device-3; a swinging member-31; a rotating disc-32; a connecting shaft-33;

a drive rod-34; an adjusting bracket-35; cutter-36

A rounding device-4; a first rounding roller-41; a first arc groove-411;

a second rounding roller-42; a second arc groove-421; a first pulling pinch roller-43;

a second pulling pinch roll-44; a first pressure roller gear-45; a second pressure roller gear-46;

an extrusion motor-51; extruding the driving wheel-52; a first intermediate extrusion transmission wheel-53;

a second intermediate extrusion transmission wheel-54; a first pinch drive wheel-55;

a first pressing gear-56; a second pressing gear-57; a second pinch drive wheel-58;

a press roll-59; a rounding motor-61; a rounding transmission wheel-62; a first intermediate twisting wheel-63;

a second intermediate twisting wheel-64; a first rounding gear-65; a second rounding gear-66;

a rounding drive wheel-67; a first sliding seat-711; a press base-712; a rounding base-721;

a second sliding seat-722; a discharge plate-8; a fuse plate-9.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1-9, a taro ball forming machine includes a frame 1, an extruding device 2, a material guiding plate 9, a material cutting device 3, and a rounding device 4, wherein the extruding device 2, the material guiding plate 9, the material cutting device 3, and the rounding device 4 are sequentially disposed, the material guiding plate 9 is disposed below the extruding device 2, the rounding device 4 includes a first rounding roller 41 and a second rounding roller 42, the first rounding roller 41 and the second rounding roller 42 are disposed in parallel, the first rounding roller 41 and the second rounding roller 42 have the same rotation direction, the distance from the axis of the first rounding roller 41 to the axis of the second rounding roller 42 is equal to the sum of the radius of the first rounding roller 41 and the radius of the second rounding roller 42, a first circular arc slot 411 surrounding the outer surface of the first rounding roller 41 is formed on the first rounding roller 41, the second rounding roller 42 is provided with a second circular arc groove 421 surrounding the outer surface of the second rounding roller 42 for a circle, and the first circular arc groove 411 and the second circular arc groove 421 are correspondingly arranged.

After the structure is adopted, when the taro balls are required to be manufactured, the kneaded dough is put into the extrusion device 2, the dough is extruded by the extrusion device 2, the dough is changed into dough sheets after extrusion, the dough sheets extruded by the extrusion device 2 are guided to the cutting device 3 through the material guiding plate 9, the dough sheets are cut by the cutting device 3, the length direction of the cut strip-shaped dough sheets is parallel to the first rounding roller 41 and the second rounding roller 42, then the strip-shaped dough sheets are further cut through the matching of the first circular arc groove 411 in the first rounding roller 41 and the second circular arc groove 421 in the second rounding roller 42, the upper surface and the lower surface of the dough sheets are respectively subjected to forces in two different directions under the action of the equidirectional rotation of the first rounding roller 41 and the second rounding roller 42, and the first circular arc groove 411 and the second circular arc groove 421 are both arc-shaped, therefore, the wrapper is twisted into a spherical shape by the first arc groove 411 and the second arc groove 421, the taro ball is formed, and the forming efficiency is greatly improved.

Preferably, the extruding device 2 comprises a first extruding roller 21, a second extruding roller 22 and a material blocking frame 23, wherein the material blocking frame 23 covers the first extruding roller 21 and the second extruding roller 22, and the first extruding roller 21 and the second extruding roller 22 rotate oppositely to extrude and convey the raw materials. By the opposite rotation of the first and second

pressing rollers

21 and 22, the dough is pressed by the first and second

pressing rollers

21 and 22, and the dough is pressed into dough sheets to prepare for the subsequent rounding. Simultaneously, set up through keeping off material frame 23 and block the dough, avoid the dough to drop and effectively improve extrusion device 2's extrusion efficiency on the ground simultaneously.

Preferably, in order to avoid excessive viscosity of the dough, the dough is too soft, resulting in poor dough forming. Therefore, be equipped with first baffle 231 on keeping off the material frame 23, first baffle 231 is established and is kept off the material frame 23 inside and be connected with keeping off the material frame 23, first baffle 231 is located the top of first squeeze roll 21, first baffle 231, keeps off material frame 23 and first squeeze roll 21 constitute first flourishing material district, flourishing flour has been put in the first flourishing material district, first baffle 231, keeps off material frame 23, first squeeze roll 21 and second squeeze roll 22 constitute flourishing material district. When the viscosity of the dough is high, the flour is added into the first material containing area, and the flour is uniformly mixed with the dough along with the first extrusion roller 21 through the rotation of the first extrusion roller 21, so that the viscosity of the dough is reduced, and the hardness of the dough is improved. Meanwhile, the condition that flour and dough are mixed unevenly due to the fact that flour is directly scattered into the dough is avoided.

Preferably, in order to make the mixing of the flour into the dough more uniform. Therefore, still be equipped with second baffle 232 on keeping off the work or material rest, second baffle 232 establishes in containing material district and is connected with keeping off material frame 23, second baffle 232 is located the top of second squeeze roll 22, second baffle 232, keeping off material frame 23, second squeeze roll 22 constitute second containing material district, first baffle 231, second baffle 232, first squeeze roll 21, second squeeze roll 22 and keeping off material frame 23 constitute the extrusion district. Flour in the first material containing area and the second material containing area which are respectively positioned at two sides of the material blocking frame 23 is mixed with dough from two sides, so that the flour and the dough are uniformly mixed, and the flour mixing effect is improved.

Preferably, because the dough that the dough formed after the extrusion is continuous, consequently need cut the dough through blank device 3, blank device 3 includes swinging member 31, rotating disc 32, connecting axle 33, actuating lever 34, alignment jig 35 and blank sword 36, rotating disc 32 rotates through pivot and frame 1 and is connected, rotating disc 32 and swinging member 31 are located same one side of frame 1, connecting axle 33 sets up perpendicularly on rotating disc 32, the axis of connecting axle 33 staggers with rotating disc 32's centre of circle, the one end and the connecting axle 33 of actuating lever 34 rotate and are connected, the other end and the alignment jig 35 of actuating lever 34 are connected, the one end and the frame 1 of swinging member 31 rotate and are connected, the other end and the alignment jig 35 of swinging member 31 are connected, blank sword 36 is connected with alignment jig 35. After the cutting device 3 is adopted, due to the fact that the axis of the connecting shaft 33 is staggered with the center of the rotating disc 32 through the rotation of the rotating disc 32, the driving rod 34 connected with the rotating disc 32 through the connecting shaft 33 moves up and down, and the adjusting frame 35 is driven by the driving rod 34 to move up and down, so that the cutting knife 36 moves up and down, the dough sheet is cut by the cutting knife 36, and the cutting operation is completed.

Preferably, the wrapper is pulled and further flattened to achieve a suitable thickness. Therefore, the frame 1 is further provided with a first traction compression roller 43 for rolling the dough sheet, the first traction compression roller 43 is horizontally arranged, the first traction compression roller 43 is positioned above the material guiding plate 9, and the dough sheet is extruded and penetrated between the material guiding plate 9 and the first traction compression roller 43. Through the further rolling of the wrapper by the first traction compression roller 43, the excessively thick wrapper is prevented from remaining in the subsequent rounding device 4, the waste of raw materials is reduced, and the utilization rate of the raw materials is improved.

Preferably, in order to increase the efficiency of the extrusion transmission to the extrusion device 2. Therefore, the frame 1 is further provided with a squeezing transmission mechanism, the squeezing transmission mechanism comprises a squeezing motor 51, a squeezing transmission wheel 52, a first middle squeezing transmission wheel 53, a second middle squeezing transmission wheel 54, a first squeezing driving wheel 55, a first squeezing gear 56 and a second squeezing gear 57, the extrusion driving wheel 52 is connected with an extrusion motor 51, the extrusion driving wheel 52 is in transmission connection with a first middle extrusion driving wheel 53 through a chain, the first intermediate pressing transmission wheel 53 and the second intermediate pressing transmission wheel 54 are coaxially provided, the first pressing drive wheel 55 and the first pressing gear 56 are coaxially provided, the second intermediate extrusion transmission wheel 54 is connected with a first extrusion driving wheel 55 through a chain, the first extrusion gear 56 is meshed with a second extrusion gear 57, the first pressing gear 56 rotates the first pressing roller 21, and the second pressing gear 57 rotates the second pressing roller 22. Firstly, the extrusion driving wheel 52 is driven to rotate by the extrusion motor 51, and then the extrusion driving wheel 52 is connected with the first intermediate extrusion driving wheel 53 through a chain, and the extrusion driving wheel 52 drives the first intermediate extrusion driving wheel 53 to rotate. The second intermediate extrusion transmission wheel 54 coaxially arranged with the first intermediate extrusion transmission wheel 53 also rotates along with the first intermediate extrusion transmission wheel 53, the second intermediate extrusion transmission wheel 54 is connected with the first extrusion driving wheel 55 through a chain, the second intermediate extrusion transmission wheel 54 drives the first extrusion driving wheel 55 to rotate, the first extrusion driving wheel 55 drives the first extrusion gear 56 to rotate, and the first extrusion gear 56 drives the first extrusion roller 21 to rotate through a rotating shaft. And because the first extrusion gear 56 is meshed with the second extrusion gear 57, the rotation of the first extrusion gear 56 will drive the second extrusion gear 57 to rotate in the direction opposite to the direction of rotation of the first extrusion gear 56, the second extrusion gear 57 will drive the second extrusion roller 22 to rotate, and the extrusion step of the dough is realized through the cooperation of the opposite rotation of the first extrusion roller 21 and the second extrusion roller 22.

Preferably, in order to improve the efficiency of use of the pressing motor 51. Therefore, the extrusion transmission mechanism further comprises a second extrusion driving wheel 58, a pressure roller wheel 59, a second traction pressure roller 44, a first pressure roller gear 45 and a second pressure roller gear 46, the second extrusion driving wheel 58 and the first extrusion driving wheel 55 are coaxially arranged, the second extrusion driving wheel 58 is connected with the pressure roller wheel 59 through a chain, the pressure roller wheel 59 and the second pressure roller gear 46 are coaxially arranged, the second pressure roller gear 46 drives the second traction pressure roller 44 to rotate, the second pressure roller gear 46 is meshed with the first pressure roller gear 45, and the first pressure roller gear 45 drives the first traction pressure roller 43 to rotate. Drive second extrusion drive wheel 58 through first extrusion drive wheel 55 and rotate, second extrusion drive wheel 58 passes through the chain and drives the compression roller wheel 59 and rotate, compression roller wheel 59 drives second compression roller gear 46 and rotates, second compression roller gear 46 drives the second and pulls compression roller 44 and rotate, second compression roller gear 46 drives first compression roller gear 45 and rotates, first compression roller gear 45 drives first compression roller 43 of pulling and rotates, further compression roller is advanced to the face skin through first compression roller gear 45 for the face skin reaches suitable thickness, and simultaneously, extrusion motor 51's rate of utilization obtains improving.

Preferably, the machine frame 1 is further provided with a rounding transmission mechanism, the rounding transmission mechanism comprises a rounding motor 61, a rounding transmission wheel 62, a first middle rounding wheel 63, a second middle rounding wheel 64, a first rounding gear 65, a second rounding gear 66 and a rounding driving wheel 67, the rounding motor 61 is arranged on the frame 1, the rounding transmission wheel 62 is connected with the rounding motor 61, the rounding motor 61 drives the rounding transmission wheel 62 to rotate, the rounding transmission wheel 62 is connected with a first middle rounding wheel 63 through a chain, the first middle rubbing round wheel 63, the second middle rubbing round wheel 64 and the first rubbing round gear 65 are coaxially arranged, the second middle rounding wheel 64 is connected with a rounding driving wheel 67 through a chain, the first rounding gear 65 is meshed with the second rounding gear 66, the first rounding gear 65 drives the first rounding roller 41 to rotate, and the rounding driving wheel 67 drives the second rounding roller 42 to rotate. Firstly, the rounding motor 61 drives the rounding transmission wheel 62 to rotate, the rounding transmission wheel 62 drives the first intermediate rounding wheel 63 to rotate, and the first intermediate rounding transmission wheel 62 drives the second intermediate rounding wheel 64 and the first rounding gear 65 to rotate, so as to drive the first rounding roller 41 to rotate. The first rounding gear 65 drives the second rounding gear 66 to rotate through meshing connection, the second intermediate gear drives the rounding driving wheel 67 to rotate, the rounding driving wheel 67 drives the second rounding roller 42 to rotate, the dough sheets are rounded through rotation of the first rounding roller 41 and the second rounding roller 42, the dough sheets are rounded into a spherical shape, the ball forming is completed, and the taro balls are prepared.

Preferably, in order to increase the molding quantity of the disposable taro balls. Therefore, the first arc grooves 411 and the second arc grooves 421 are respectively provided with a plurality of first arc grooves 411 and a plurality of second arc grooves 421, the first arc grooves 411 are arranged on the first rounding roller 41 at equal intervals, and the second arc grooves 421 are arranged on the second rounding roller 42 at equal intervals. Therefore, a plurality of taro balls can be formed at one time through the rotation of the first rounding roller 41 and the second rounding roller 42, and the forming quantity of the taro balls is greatly improved.

Preferably, the frame 1 is further provided with a first sliding seat 711, the extrusion motor 51 is provided with an extrusion base 712, and the sliding base is slidably connected with the first sliding seat 711. The position of the extrusion motor 51 is adjusted by the cooperation of the first sliding seat 711 and the extrusion base 712, and the transmission effect is improved.

Preferably, the frame 1 is further provided with a second sliding seat 722, the rounding motor 61 is provided with a rounding base 721, and the rounding base 721 is slidably connected with the second sliding seat 722. The position of the rounding motor 61 is adjusted by the cooperation of the second sliding seat 722 and the rounding base 721.

Preferably, the frame 1 is further provided with a discharging plate 8 for guiding the formed balls. After the taro balls are formed by the rounding device 4, the taro balls are guided by the discharging plate 8, so that the taro balls are collected uniformly.

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

Claims

1. A taro ball forming machine is characterized by comprising a rack, an extrusion device, a material guiding plate, a material cutting device and a rounding device, wherein the extrusion device, the material guiding plate, the material cutting device and the rounding device are sequentially arranged, the material guiding plate is arranged below the extrusion device, the rounding device comprises a first rounding roller and a second rounding roller, the first rounding roller and the second rounding roller are arranged in parallel, the rotating directions of the first rounding roller and the second rounding roller are the same, the distance from the axis of the first rounding roller to the axis of the second rounding roller is equal to the sum of the radius of the first rounding roller and the radius of the second rounding roller, a first circular arc groove surrounding the outer surface of the first rounding roller in a circle is formed in the first rounding roller, a second circular arc groove surrounding the outer surface of the second rounding roller in a circle is formed in the second rounding roller, the first arc groove and the second arc groove are correspondingly arranged.

2. The taro ball forming machine according to claim 1, wherein the extrusion device comprises a first extrusion roller, a second extrusion roller, a material blocking frame, and the material blocking frame is covered above the first extrusion roller and the second extrusion roller, and the first extrusion roller and the second extrusion roller rotate in opposite directions to extrude and convey the raw materials.

3. A taro ball forming machine as claimed in claim 2, wherein a first partition plate is arranged on the material blocking frame, the first partition plate is arranged inside the material blocking frame and connected with the material blocking frame, the first partition plate is located above the first extrusion roller, the first partition plate, the material blocking frame and the first extrusion roller constitute a first material containing area, and the first partition plate, the material blocking frame, the first extrusion roller and the second extrusion roller constitute a material containing area.

4. A taro ball forming machine as claimed in claim 3, wherein a second partition plate is further arranged on the material blocking frame, the second partition plate is arranged in the material containing region and connected with the material blocking frame, the second partition plate is located above the second extrusion roller, the second partition plate, the material blocking frame and the second extrusion roller form the second material containing region, and the first partition plate, the second partition plate, the first extrusion roller, the second extrusion roller and the material blocking frame form the extrusion region.

5. A taro ball forming machine as claimed in claim 1, wherein the material cutting device comprises a swinging member, a rotating disc, a connecting shaft, a driving rod, an adjusting frame and a material cutting knife, the rotating disc is rotatably connected with the frame through a rotating shaft, the rotating disc and the swinging member are located on the same side of the frame, the connecting shaft is vertically arranged on the rotating disc, the axis of the connecting shaft is staggered with the center of the rotating disc, one end of the driving rod is rotatably connected with the connecting shaft, the other end of the driving rod is connected with the adjusting frame, one end of the swinging member is rotatably connected with the frame, the other end of the swinging member is connected with the adjusting frame, and the material cutting knife is connected with the adjusting frame.

6. A taro ball forming machine according to claim 1, wherein the frame is further provided with a first traction compression roller for rolling the dough sheet, the first traction compression roller is horizontally arranged, the first traction compression roller is positioned above the material guiding plate, and the dough sheet is extruded and penetrated between the material guiding plate and the first traction compression roller.

7. A taro ball forming machine as claimed in claim 1, wherein the frame is further provided with an extrusion transmission mechanism, the extrusion transmission mechanism comprises an extrusion motor, an extrusion transmission wheel, a first intermediate extrusion transmission wheel, a second intermediate extrusion transmission wheel, a first extrusion driving wheel, a first extrusion gear and a second extrusion gear, the extrusion transmission wheel is connected with the extrusion motor, the extrusion transmission wheel is in transmission connection with the first intermediate extrusion transmission wheel through a chain, the first intermediate extrusion transmission wheel and the second intermediate extrusion transmission wheel are coaxially arranged, the first extrusion driving wheel and the first extrusion gear are coaxially arranged, the second intermediate extrusion transmission wheel is connected with the first extrusion driving wheel through a chain, the first extrusion gear and the second extrusion gear are in meshing connection, the first extrusion gear drives the first extrusion roller to rotate, the second extrusion gear drives the second extrusion roller to rotate.

8. The taro ball forming machine according to claim 7, wherein the extrusion transmission mechanism further comprises a second extrusion driving wheel, a pressure roller wheel, a second traction pressure roller, a first pressure roller gear and a second pressure roller gear, the second extrusion driving wheel is coaxially arranged with the first extrusion driving wheel, the second extrusion driving wheel is connected with the pressure roller wheel through a chain, the pressure roller wheel and the second pressure roller gear are coaxially arranged, the second pressure roller gear drives the second traction pressure roller to rotate, the second pressure roller gear is meshed with the first pressure roller gear, and the first pressure roller gear drives the first traction pressure roller to rotate.

9. The taro ball forming machine of claim 1, wherein the frame is further provided with a rounding transmission mechanism, the circle rubbing transmission mechanism comprises a circle rubbing motor, a circle rubbing transmission wheel, a first middle circle rubbing wheel, a second middle circle rubbing wheel, a first circle rubbing gear, a second circle rubbing gear and a circle rubbing driving wheel, the rounding motor is arranged on the frame, the rounding transmission wheel is connected with the rounding motor, the rounding motor drives the rounding transmission wheel to rotate, the rounding transmission wheel is connected with the first middle rounding wheel through a chain, the first middle rounding wheel, the second middle rounding wheel and the first rounding gear are coaxially arranged, the second middle rounding wheel is connected with the rounding driving wheel through a chain, the first rounding gear is meshed with the second rounding gear, the first rounding gear drives the first rounding roller to rotate, and the rounding driving wheel drives the second rounding roller to rotate.

10. A taro ball forming machine as claimed in claim 1, wherein the frame is further provided with a discharge plate for guiding the formed balls.