CN111217084A

CN111217084A - Support based on sweet potato vermicelli food processing is carried and is tailor integrated device

Info

Publication number: CN111217084A
Application number: CN202010078722.4A
Authority: CN
Inventors: 李政国
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-03
Filing date: 2020-02-03
Publication date: 2020-06-02

Abstract

The invention provides a supporting and cutting integrated device based on sweet potato vermicelli food processing, belongs to the technical field of vermicelli production, and aims to solve the problems that the working efficiency is low and vermicelli is easy to wind in a water tank; the conveying mechanism comprises a conveying belt, strip holes and T-shaped baffles, the T-shaped baffles are symmetrically connected to two side ends of the conveying belt, the bottom side of the vermicelli tray is of a net structure and can be clamped between the T-shaped baffles, the conveying belt is further provided with the strip holes, and the strip holes are respectively arranged between the T-shaped baffles. The conveying mechanism drives the outer transition roller to rotate, so that the vermicelli is driven by the outer transition roller to fall into the vermicelli tray downwards, the vermicelli is horizontally swung on the tray, the rubber rack and the linkage rack can be meshed in the process that the conveying mechanism drives the T-shaped baffle to move forwards, and the cutter is driven to cut off the vermicelli downwards and return under the action of the reset spring.

Description

Support based on sweet potato vermicelli food processing is carried and is tailor integrated device

Technical Field

The invention belongs to the technical field of vermicelli production, and particularly relates to a supporting and cutting integrated device based on sweet potato vermicelli food processing.

Background

As is well known, vermicelli is a dried starch product in the form of shreds or strips made from sweet potato and potato raw materials; the vermicelli is rich in carbohydrate, dietary fiber and protein, and has good taste, smooth mouthfeel and toughness; the bean vermicelli making machine can absorb the taste of various delicious soup bases, is tasty and pleasant, is popular with people, and is characterized in that when workers make vermicelli, the vermicelli is fished from cooling water and placed on a tray, the position of the tray is moved at the same time, the vermicelli is cut off by scissors after the length of the vermicelli reaches the length of the tray, then the vermicelli is cut off and processed by repeating the process again by taking another tray.

If the application number is: in the patent of cn201820986661.x, a vermicelli shearing mechanism is disclosed; comprises a shearing frame, a vermicelli cutting barrel, a vermicelli driving roller, a vermicelli shearing roller and a vermicelli shearing and conveying mechanism; the vermicelli slitting drum is arranged at the top of the shearing frame; when the machine runs, cooled strip vermicelli can bypass the vermicelli cutting cylinder, the vermicelli driving roller and the vermicelli shearing roller; the vermicelli driving roller can be connected with an external motor to drive the vermicelli driving roller to rotate so as to drive vermicelli to move; on one hand, after the strip-shaped vermicelli is conveyed in, the strip-shaped vermicelli is cut into strips by the vermicelli cutting teeth on the upper surface of the vermicelli cutting cylinder body when passing through the vermicelli cutting cylinder, and then the strip-shaped vermicelli moves downwards through the vermicelli guide inclined plane corresponding to the vermicelli guide seat under the transmission action of the vermicelli transmission roller; meanwhile, the vermicelli shearing roller slowly rotates, when the vermicelli cutting blade rotates to the cutting inclined end, the vermicelli in a strip shape is cut into sections, and the cut vermicelli sections fall to the vermicelli shearing and conveying mechanism to be conveyed out; and finishing the cutting process of the vermicelli.

Based on the above, when making vermicelli, workers need to fish out the vermicelli from the cooling water, and need to hold the vermicelli tray by hand to move forward, so that the vermicelli is horizontally placed on the tray, and then need to hold the scissors to cut off the vermicelli, so that the operation is troublesome, the time is wasted, the working efficiency is low, and the vermicelli is easy to wind in the cooling water tank.

Disclosure of Invention

In order to solve the technical problems, the invention provides a supporting and cutting integrated device based on sweet potato vermicelli food processing, which aims to solve the problems that vermicelli is fished out from cooling water, a vermicelli tray needs to be supported by hands to move forwards, the vermicelli is flatly placed on the tray, then the vermicelli needs to be cut by holding scissors with hands, the operation is troublesome, the working efficiency is low, and the vermicelli is easy to wind in a cooling water tank.

The invention relates to a supporting and cutting integrated device based on sweet potato vermicelli food processing, which aims and effects are achieved by the following specific technical means:

a supporting and cutting integrated device based on sweet potato vermicelli food processing comprises a conveying mechanism, a cooling mechanism and a cutting mechanism; conveying mechanism includes conveyer belt, a hole and T type baffle, T type baffle is symmetrical column structure and connects the both sides end at the conveyer belt, and the bottom side of vermicelli tray is network structure and can clamp between T type baffle, still be equipped with a hole on the conveyer belt, and a hole establishes respectively between T type baffle, cooling body connects the rear end upside of conveying mechanism and is connected with the transmission between the conveying mechanism, and conveying mechanism's middle bottom side is equipped with the waste water tank, cutting mechanism installs on conveying mechanism's front side end, and conveying mechanism's discharge gate end is equipped with and connects the work or material rest.

Furthermore, the longitudinal rear side end of the T-shaped baffle is provided with a mounting groove, and the rubber rack is clamped into the mounting groove and fixed through a bolt.

Further, cooling body includes water tank, support frame, goes out the book pipe, interior transition roller, outer transition roller, recess and guide cylinder, the water tank is installed on the top of support frame, and the lower extreme of support frame is connected in transport mechanism's the outside, interior transition roller rotates and inlays in the middle of the inboard of water tank, and outer transition roller rotates and installs the outside upper end at the water tank, the intermediate position of outer transition roller still is equipped with the recess, and is connected through chain drive between outer transition roller and transport mechanism's the pivot, the bottom of water tank still is connected with the outlet pipe, and the guide cylinder is connected at the outer distolateral of water tank and is established the downside at the recess.

Furthermore, openings are formed in the middle of the front side and the rear side of the vermicelli tray, and the length of the vermicelli tray is equal to the distance between the two groups of T-shaped baffles on the transmission mechanism.

Further, cutting mechanism includes fore-stock, after-poppet, cutting crossbeam, T type guide bar, reset spring, cutter and card post, the cutting crossbeam is established between fore-stock and after-poppet, and the both ends of cutting crossbeam still slidable mounting on T type guide bar, the lower extreme of T type guide bar still overlaps and is equipped with reset spring, the cutter passes through the bolt fastening at the intermediate position of cutting crossbeam, and the upside both ends of cutting crossbeam still are connected with the card post respectively.

Further, the cutting mechanism also comprises a cross shaft, a linkage gear, a transverse bevel gear, a vertical shaft, a lower vertical bevel gear, an upper vertical bevel gear, a longitudinal shaft, a longitudinal bevel gear and a cam, wherein the cross shaft is rotatably embedded at the lower end of the inner side of the front bracket, two groups of linkage gears and two groups of transverse bevel gears are respectively and symmetrically clamped on the transverse shaft, two groups of vertical shafts are respectively and rotationally clamped on the front bracket, two ends of the vertical shaft are respectively connected with a lower vertical bevel gear and an upper vertical bevel gear, the lower vertical bevel gears are respectively meshed with the transverse bevel gears, two groups of longitudinal shafts are also arranged and are respectively rotatably connected at the upper end sides of the front bracket and the rear bracket, and the longitudinal bevel gear is clamped on the longitudinal shaft and is in meshed connection with the upper vertical bevel gear, the middle of the longitudinal shaft is fixedly connected with a cam through a flange plate, and the peripheral end of the cam is clamped into the upper end groove of the clamping column.

Furthermore, the number of the clamping teeth of the rubber rack on the T-shaped baffle is the same as that of the clamping teeth on the periphery of the linkage gear, the rubber rack can be meshed with the linkage gear in motion, and when the middle of the rear end of the T-shaped baffle moves to the position of the cutter, the rubber rack drives the linkage gear to rotate for a half circle.

Furthermore, a material receiving plate is further arranged in the middle of the material receiving frame, and the height of the material receiving plate is lower than that of the upper end face of the conveying belt.

The invention at least comprises the following beneficial effects:

the device connects the outer transition roller with the driving shaft of the conveying mechanism through a chain, so that vermicelli bypasses the bottom side of the inner transition roller in the water tank, bypasses the groove on the outer transition roller and penetrates into the guide cylinder, when the conveying mechanism operates, the outer transition roller can be driven to rotate, the vermicelli can be driven by the outer transition roller to move downwards, then T-shaped baffles are respectively connected with two sides of the conveying belt, a vermicelli tray can be placed and clamped between the T-shaped baffles, the vermicelli can fall onto the vermicelli tray, and when the conveying mechanism drives the vermicelli tray to move forwards, the vermicelli can be horizontally arranged on the vermicelli tray in sequence, and through arranging the vermicelli holes on the conveying belt and setting the bottom side of the vermicelli tray into a net structure, the water brought out of the water tank can conveniently flow into the waste water tank along the net structure at the bottom side of the vermicelli tray and the vermicelli holes on the conveying belt.

Secondly, a rubber rack is clamped in an installation groove on the upper side of the rear end of the T-shaped baffle through a bolt, the rubber rack and the linkage rack can be meshed in the process that the conveying mechanism drives the T-shaped baffle to move forwards, the linkage gear is driven to rotate for a half circle when the middle of the rear end of the group of T-shaped baffles moves to the position of the cutter, the lower vertical bevel gear is driven to rotate for a half circle, the vertical shaft and the upper vertical bevel gear are driven to rotate for a half circle, the longitudinal shaft is driven to rotate for a half circle through the longitudinal bevel gear, the cam is driven to rotate for a half circle, the cutting beam can be pressed to move downwards, the cutter moves downwards to reach the position surface between the two groups of vermicelli trays, vermicelli is cut off, and when the conveying mechanism drives the T-shaped baffle to move forwards continuously, the linkage gear can be driven to rotate for a half circle continuously, and the cutting beam returns under the action of the reset.

Drawings

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

Fig. 2 is an enlarged schematic view of the structure at a of the present invention.

Fig. 3 is another schematic axial view of fig. 1 according to the present invention.

Fig. 4 is an enlarged schematic view of the invention at B.

Fig. 5 is a schematic structural view of the rubber rack in fig. 1 of the present invention when moving forward to the middle to mesh with the linkage gear.

Fig. 6 is an enlarged schematic view of the structure at C of the present invention.

Fig. 7 is a schematic view of the vermicelli tray of fig. 1 of the present invention after removal.

Fig. 8 is an enlarged schematic view of the present invention at D.

FIG. 9 is a schematic view of the vermicelli tray according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a transport mechanism; 101. a conveyor belt; 1011. a bar hole; 102. a T-shaped baffle plate; 1021. mounting grooves; 1022. a rubber rack; 2. a cooling mechanism; 201. a water tank; 2011. a support frame; 2012. a book outlet pipe; 202. an inner transition roll; 203. an outer transition roll; 2031. a groove; 204. a guide cylinder; 3. vermicelli tray; 4. a wastewater tank; 5. a cutting mechanism; 501. a front bracket; 502. a rear bracket; 503. cutting the beam; 5031. a T-shaped guide rod; 5032. a return spring; 5033. a cutter; 5034. clamping the column; 504. a horizontal axis; 5041. a linkage gear; 5042. a transverse bevel gear; 505. a vertical axis; 5051. a lower vertical bevel gear; 5052. an upper vertical bevel gear; 506. a longitudinal axis; 5061. a longitudinal bevel gear; 5062. a cam; 6. and a material receiving frame.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", 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 and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides a supporting and cutting integrated device based on sweet potato vermicelli food processing, which comprises a conveying mechanism 1, a cooling mechanism 2 and a cutting mechanism 5; conveying mechanism 1 includes conveyer belt 101, strip hole 1011 and T type baffle 102, T type baffle 102 is the both sides end of symmetry column structure connection at conveyer belt 101, and the bottom side of vermicelli tray 3 is network structure and can clamp between T type baffle 102, still be equipped with strip hole 1011 on the conveyer belt 101, and strip hole 1011 establishes respectively between T type baffle 102, cooling body 2 connects the rear end upside of conveying mechanism 1 and is connected with the transmission between the conveying mechanism 1, and the middle bottom side of conveying mechanism 1 is equipped with waste water tank 4, cutting mechanism 5 installs on the front side end of conveying mechanism 1, and the discharge gate end of conveying mechanism 1 is equipped with connects work or material rest 6.

Wherein, the longitudinal rear side end of the T-shaped baffle 102 is provided with a mounting groove 1021, and the rubber rack 1022 is clamped into the mounting groove 1021 and fixed by a bolt, so that the rubber rack 1022 can be clamped into the mounting groove 1021 by the bolt, and the rubber rack 1022 can be detached and replaced.

Wherein, the cooling mechanism 2 comprises a water tank 201, a support 2011, a book outlet pipe 2012, an inner transition roller 202, an outer transition roller 203, a groove 2031 and a guide cylinder 204, the water tank 201 is installed at the top end of the support 2011, the lower end of the support 2011 is connected with the outer side of the transmission mechanism 1, the inner transition roller 202 is rotatably embedded in the middle of the inner side of the water tank 201, the outer transition roller 203 is rotatably installed at the upper end of the outer side of the water tank 201, the groove 2031 is further arranged at the middle position of the outer transition roller 203, the outer transition roller 203 is connected with the rotating shaft of the transmission mechanism 1 through chain transmission, the bottom of the water tank 201 is further connected with a water outlet pipe 2012, the guide cylinder 204 is connected with the outer end side of the water tank 201 and arranged at the lower side of the groove 2031, the vermicelli can be bypassed around the bottom side of the inner transition roller 202 in the water tank 201 and the groove 2031 on the outer transition roller 203 and penetrate into the, the vermicelli can be smoothly moved downwards under the drive of the outer transition roller 203.

The opening is formed in the middle of the front side and the rear side of the vermicelli tray 3, the length of the vermicelli tray 3 is equal to the distance between the two groups of T-shaped baffles 102 on the transmission mechanism 1, the vermicelli tray 3 can be smoothly clamped between the two groups of T-shaped baffles 102, and vermicelli can smoothly swing horizontally through the openings in the two sides of the vermicelli tray 3, so that the cutting of the cutter 5033 is facilitated.

Wherein, the cutting mechanism 5 comprises a front bracket 501, a rear bracket 502, a cutting beam 503, a T-shaped guide rod 5031, a return spring 5032, a cutter 5033 and a clamping column 5034, the cutting beam 503 is arranged between the front bracket 501 and the rear bracket 502, two ends of the cutting beam 503 are also slidably mounted on the T-shaped guide rod 5031, the lower end of the T-shaped guide rod 5031 is further sleeved with the return spring 5032, the cutter 5033 is fixed at the middle position of the cutting beam 503 through a bolt, and two ends of the upper side of the cutting beam 503 are further respectively connected with the clamping column 5034, wherein the cutting mechanism 5 further comprises a transverse shaft 504, a linkage gear 5041, a transverse bevel gear 5042, a vertical shaft 505, a lower vertical bevel gear 5051, an upper vertical bevel gear 5052, a longitudinal shaft 506, a longitudinal bevel gear 5061 and a cam 5062, the transverse shaft 504 is rotatably embedded at the lower end of the inner side of the front bracket 501, and two groups of linkage gears 5041 and, the vertical shaft 505 is provided with two groups which are respectively and rotatably clamped on the front bracket 501, the two ends of the vertical shaft 505 are respectively connected with a lower vertical bevel gear 5051 and an upper vertical bevel gear 5052, the lower vertical bevel gear 5051 is respectively and rotatably connected with a transverse bevel gear 5042, the longitudinal shaft 506 is also provided with two groups which are respectively and rotatably connected with the upper end sides of the front bracket 501 and the rear bracket 502, a longitudinal bevel gear 5061 is clamped on the longitudinal shaft 506 and is in engagement with the upper vertical bevel gear 5052, the middle of the longitudinal shaft 506 is also fixedly connected with a cam 5062 through a flange, the outer peripheral end of the cam 5062 is clamped into an upper end groove of a clamping column 5034, a rubber rack 1022 in an upper side mounting groove 1021 at the rear end of the T-shaped baffle 102 is engaged with a linkage rack 5041 and drives the linkage gear 5041 to rotate in a way that the transverse shaft 504 and the transverse bevel gear 5041 synchronously follow the linkage gear 5041 in a forward movement process when the conveying mechanism 1, and drives the lower vertical bevel gear 5051 to rotate, so that the vertical shaft 505 and the upper vertical bevel gear 5052 synchronously follow the rotation, and drives the longitudinal bevel gear 5061 to rotate, so that the longitudinal shaft 506 and the cam 5062 synchronously follow the rotation, and the cam 5062 presses the cutting beam 503 to move downwards.

The number of teeth of the rubber rack 1022 on the T-shaped baffle 102 is the same as the number of teeth on the periphery of the linkage gear 5041, the rubber rack 1022 can be engaged with the linkage gear 5041 in motion, when the middle of the rear end of the T-shaped baffle 102 moves to the position of the cutter 5033, the rubber rack 1022 drives the linkage gear 5041 to rotate for half a turn and drives the lower vertical bevel gear 5051 to rotate for half a turn, so that the vertical shaft 505 and the upper vertical bevel gear 5052 rotate for half a turn, and drives the longitudinal shaft 506 to rotate for half a turn through the longitudinal bevel gear 5061, so that the cam 5062 rotates for half a turn, and the cutter 5033 moves downwards and reaches the position surface between the two vermicelli trays 3 by the downward driving of the cutting beam 503 to cut off the vermicelli.

Wherein, connect the centre of material frame 6 still to be equipped with and connect the flitch, and connect the height of flitch to be less than the up end height of conveyer belt 101, be convenient for make transport mechanism 1 drive the in-process of vermicelli tray 3 forward motion, can send into vermicelli tray 3 and connect material frame 6 on.

The specific use mode and function of the embodiment are as follows:

in the invention, the vermicelli tray 3 is sequentially clamped between the T-shaped baffles 102, vermicelli bypasses the bottom side of the inner transition roller 202 in the water tank 201, bypasses the groove 2031 on the outer transition roller 203 and penetrates into the guide cylinder 204, when the conveying mechanism 1 operates, the outer transition roller 203 can be driven by a chain to rotate, the vermicelli can be driven by the outer transition roller 203 to move downwards and sequentially fall onto the vermicelli tray 3 through the guide cylinder 204, the vermicelli tray 3 can move forwards along with the conveying mechanism 1 under the transmission of the conveying mechanism 1 so that the vermicelli can horizontally swing on the vermicelli tray 3, the bottom side of the vermicelli tray 3 is set to be a net-shaped structure by arranging the bar holes 1011 on the conveying belt 101, so that water taken out from the water tank 201 can smoothly flow into the waste water tank 4 along the net-shaped structure at the bottom side of the vermicelli tray 3 and the bar holes 1011 on the conveying belt 101, and the conveying mechanism 1 drives the T-shaped baffles 102 and the vermicelli tray 3 to move forwards, the rubber rack 1022 in the upper side mounting groove 1021 at the rear end of the T-shaped baffle plate 102 is engaged with the linkage rack 5041 and drives the linkage gear 5041 to rotate, so that the transverse shaft 504 and the transverse bevel gear 5041 synchronously follow the linkage gear 5041 to rotate, and drives the lower vertical bevel gear 5051 to rotate, so that the vertical shaft 505 and the upper vertical bevel gear 5052 synchronously follow the rotation, and drives the longitudinal bevel gear 5061 to rotate, so that the longitudinal shaft 506 and the cam 5062 synchronously follow the rotation, so that the cam 5062 presses the cutting beam 503 to move downwards, when the middle of the rear end of the set of T-shaped baffle plates 102 moves to the position of the cutter 5033, the linkage gear 5041 is driven to rotate for half a circle, and the lower vertical bevel gear 5051 is driven to rotate for half a circle, so that the vertical shaft 505 and the upper vertical bevel gear 5052 rotate for half a circle, and the longitudinal shaft 506 is driven by the longitudinal bevel gear 5061 to rotate for half a circle, so that the cam 5062 rotates for half a circle, and the cutter 503, the vermicelli is cut off, when the conveying mechanism 1 drives the T-shaped baffle 102 to move forward continuously, the linkage gear 5041 can be driven to rotate for half a turn continuously, so that the cutting beam 503 and the cutter 5033 return under the action of the return spring 5032, and the conveying mechanism 1 drives the vermicelli tray 3 to move forward continuously to feed the vermicelli tray 3 to the material receiving frame 6.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an integrated device is tailor to support carrier based on sweet potato noodles food processing which characterized in that: comprises a conveying mechanism (1), a cooling mechanism (2) and a cutting mechanism (5); conveying mechanism (1) includes conveyer belt (101), strip hole (1011) and T type baffle (102), T type baffle (102) are symmetrical column structure and connect the both sides end at conveyer belt (101), and the bottom side of vermicelli tray (3) is network structure and can clamp between T type baffle (102), still be equipped with strip hole (1011) on conveyer belt (101), and strip hole (1011) establish respectively between T type baffle (102), cooling body (2) are connected the rear end upside of conveying mechanism (1) and are connected with the transmission between conveying mechanism (1), and the centre bottom side of conveying mechanism (1) is equipped with waste water tank (4), cutting mechanism (5) are installed on the front side end of conveying mechanism (1), and the discharge gate end of conveying mechanism (1) is equipped with and connects work or material rest (6).

2. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 1, wherein: the longitudinal rear side end of the T-shaped baffle (102) is provided with a mounting groove (1021), and the rubber rack (1022) is clamped into the mounting groove (1021) and fixed through a bolt.

3. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 1, wherein: the cooling mechanism (2) comprises a water tank (201), a support frame (2011), a book outlet pipe (2012), an inner transition roller (202), an outer transition roller (203), a groove (2031) and a guide cylinder (204), the water tank (201) is arranged at the top end of the support frame (2011), the lower end of the support frame (2011) is connected with the outer side of the conveying mechanism (1), the inner transition roller (202) is rotatably embedded in the middle of the inner side of the water tank (201), the outer transition roller (203) is rotatably arranged at the upper end of the outer side of the water tank (201), a groove (2031) is also arranged in the middle of the outer transition roller (203), the outer transition roller (203) is in transmission connection with a rotating shaft of the conveying mechanism (1) through a chain, the bottom of the water tank (201) is also connected with a water outlet pipe (2012), and the guide cylinder (204) is connected to the outer end side of the water tank (201) and is arranged below the groove (2031).

4. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 1, wherein: an opening is arranged in the middle of the front side and the rear side of the vermicelli tray (3), and the length of the vermicelli tray (3) is the same as the distance between the two groups of T-shaped baffles (102) on the transmission mechanism (1).

5. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 1, wherein: the cutting mechanism (5) comprises a front support (501), a rear support (502), a cutting beam (503), a T-shaped guide rod (5031), a return spring (5032), a cutter (5033) and clamping columns (5034), the cutting beam (503) is arranged between the front support (501) and the rear support (502), two ends of the cutting beam (503) are further slidably mounted on the T-shaped guide rod (5031), the return spring (5032) is further sleeved at the lower end of the T-shaped guide rod (5031), the cutter (5033) is fixed in the middle of the cutting beam (503) through bolts, and two ends of the upper side of the cutting beam (503) are further respectively connected with the clamping columns (5034).

6. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 5, wherein: the cutting mechanism (5) further comprises a transverse shaft (504), linkage gears (5041), transverse bevel gears (5042), a vertical shaft (505), a lower vertical bevel gear (5051), an upper vertical bevel gear (5052), a longitudinal shaft (506), longitudinal bevel gears (5061) and a cam (5062), wherein the transverse shaft (504) is rotatably embedded at the lower end of the inner side of the front bracket (501), two groups of linkage gears (5041) and two groups of transverse bevel gears (5042) are symmetrically clamped on the transverse shaft (504) respectively, the vertical shaft (505) is provided with two groups and is rotatably clamped on the front bracket (501) respectively, two ends of the vertical shaft (505) are connected with a lower vertical bevel gear (5051) and an upper vertical bevel gear (5052) respectively, the lower vertical bevel gears (5051) are meshed with the transverse bevel gears (5042) respectively, the longitudinal shaft (506) is also provided with two groups and is rotatably connected to the upper end sides of the front bracket (501) and the rear bracket (502) respectively, and the longitudinal bevel gear (5061) is clamped on the longitudinal shaft (506) and is in meshed connection with the upper vertical bevel gear (5052), the middle of the longitudinal shaft (506) is fixedly connected with a cam (5062) through a flange plate, and the outer peripheral end of the cam (5062) is clamped into the upper end groove of the clamp column (5034).

7. The supporting and cutting integrated device for processing of sweet potato vermicelli food as claimed in claim 2 or 6, wherein: the number of clamping teeth of a rubber rack (1022) on the T-shaped baffle (102) is the same as that of the clamping teeth on the periphery of the linkage gear (5041), the rubber rack (1022) can be meshed with the linkage gear (5041) in motion, and when the middle of the rear end of the T-shaped baffle (102) moves to the position of the cutter (5033), the rubber rack (1022) drives the linkage gear (5041) to rotate for a half circle.

8. The supporting, loading and cutting integrated device for food processing based on sweet potato and potato vermicelli as claimed in claim 1, wherein: the middle of the material receiving frame (6) is also provided with a material receiving plate, and the height of the material receiving plate is lower than that of the upper end face of the conveying belt (101).