CN112042986B

CN112042986B - Vermicelli making devices

Info

Publication number: CN112042986B
Application number: CN202010899426.0A
Authority: CN
Inventors: 代安君
Original assignee: Anqiu Huatao Food Co ltd
Current assignee: Shandong Huatao Food Co ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2021-10-19
Anticipated expiration: 2040-08-31
Also published as: CN112042986A

Abstract

The invention discloses a vermicelli manufacturing device, which comprises a supporting bottom plate, wherein a first inverted L-shaped supporting rod is arranged at the right end of the upper surface of the supporting bottom plate, a raw material extrusion box body and a bearing box body are sequentially arranged on the outer wall of the first inverted L-shaped supporting rod, a feeding hopper is arranged at the upper end of the raw material extrusion box body, the bottom of the inner wall of the raw material extrusion box body is an equilateral cone, a plurality of output meshes for discharging vermicelli are arranged at the center of the inner wall of the raw material extrusion box body, a slide through which the vermicelli penetrates out is communicated with the lower end of the bearing box body, an extrusion mechanism capable of extruding the raw material extrusion box body is arranged at the upper end of the first inverted L-shaped supporting rod, a concentrated rotating mechanism capable of intensively delivering the falling vermicelli from the slide is arranged on the bearing box body, a rotating and pressing mechanism capable of cutting the vermicelli extruded by the extrusion mechanism during the rotating and driving the concentrated rotating mechanism during the pressing is arranged between the bearing box body and the supporting bottom plate, and a power mechanism capable of simultaneously driving the extrusion mechanism and the rotary pressing mechanism is arranged on the outer wall of the first inverted L-shaped support rod.

Description

Vermicelli making devices

Technical Field

The invention relates to the field of food processing, in particular to a vermicelli making device.

Background

The existing vermicelli manufacturing device is large in power, large in occupied area and not suitable for small-scale production, meanwhile, the manufacturing efficiency of manufactured vermicelli is not high, and the vermicelli manufacturing device is newly arranged aiming at the problem.

Thus, the prior art is yet to be further improved.

Disclosure of Invention

In order to overcome the defects of the background art, the high-efficiency vermicelli making device is suitable for small-scale production.

The technical scheme solves the defects of the background technology from the following steps: a vermicelli manufacturing device comprises a supporting base plate, a first inverted L-shaped supporting rod is arranged at the right end of the upper surface of the supporting base plate, a first fixed side plate and a second fixed side plate are sequentially arranged on the outer wall of the first inverted L-shaped supporting rod from bottom to top, a raw material extrusion box body is inserted into the second fixed side plate, a receiving box body used for receiving vermicelli falling from the concentrated raw material extrusion box body is inserted into the first fixed side plate, a circular groove surrounding the upper end surface of the raw material extrusion box body is movably arranged on the circular groove, a feeding hopper with one end extending into the raw material extrusion box body is movably arranged on the circular groove, the bottom of the inner wall of the raw material extrusion box body is an isocon cone, a plurality of output meshes used for outputting vermicelli are arranged at the center of the inner wall of the raw material extrusion box body, a slide through which the vermicelli penetrates out is communicated with the lower end of the receiving box body, and an extrusion mechanism capable of extruding the raw material extrusion box body is arranged at the upper end of the first inverted L-shaped supporting rod, the collecting and rotating mechanism is arranged on the receiving box body and can concentrate the dropped vermicelli and send the vermicelli out from the slide, the rotating and pressing mechanism which can cut the vermicelli extruded by the extruding mechanism when rotating and can drive the collecting and rotating mechanism when pressing the vermicelli is arranged between the receiving box body and the supporting bottom plate, and the power mechanism which can drive the extruding mechanism and the rotating and pressing mechanism simultaneously is arranged on the outer wall of the first inverted L-shaped supporting rod.

The vermicelli making device comprises an extrusion mechanism and a raw material extrusion box body, wherein the extrusion mechanism comprises a first belt pulley arranged on the front end face of the outer wall of a first inverted L-shaped supporting rod, a first belt pulley rotating shaft penetrating through the first inverted L-shaped supporting rod is arranged at the rear end of the first belt pulley rotating shaft, a rotating disc is connected and arranged at the rear end of the first belt pulley rotating shaft, a pressing base plate is arranged on the raw material extrusion box body below the rotating disc, an extrusion head used for extruding raw materials is connected and arranged on the lower surface of the pressing base plate, a fixed base is arranged on the upper surface of the pressing base plate, a hinged base is arranged on the fixed base, an eccentric shaft is arranged on the rear end face of the rotating disc close to the edge of the circumference, and a connecting rod is inserted between the hinged base and the eccentric shaft.

The vermicelli making device comprises a second inverted L-shaped supporting plate arranged on the upper surface of a supporting base plate, the second inverted L-shaped supporting plate is positioned under a bearing box body, a rotating cylinder is arranged on the second inverted L-shaped supporting plate, rotating circular plates are connected and arranged at the upper end and the lower end of the rotating cylinder, staggered spiral sliding grooves are arranged on the outer walls of the front end and the rear end of the rotating cylinder, abdicating grooves communicated with the spiral sliding grooves are formed in the rotating circular plates, an axial through groove is formed in the center of the rotating circular plates, a through bearing box body through groove is formed in the center of the bearing box body above the rotating circular plates, a pressing rotating shaft is movably arranged in the axial through groove, the lower end of the pressing rotating shaft penetrates through the second inverted L-shaped supporting plate and the upper end of the bearing box body through groove, and cutting knife strips capable of rotatably cutting vermicelli flowing out from meshes are connected and arranged on the left side and the right side of the upper end of the pressing rotating shaft, one end of the cutting knife strip, which is far away from the center of the circle, is provided with a lower pressing plate, the left side and the right side of a pressing rotating shaft, which is positioned at the upper end of an axial through groove, are provided with limiting grooves corresponding to the limiting plates, the limiting plates are inserted into the limiting grooves when the pressing rotating shaft moves downwards, the lower end of the pressing rotating shaft penetrates through a second inverted L-shaped supporting plate part to be connected with a clamping plate which is larger than the outer diameter of the pressing rotating shaft, a third inverted L-shaped supporting rod is arranged on a supporting bottom plate on the right side of the pressing rotating shaft, the front end surface of the third inverted L-shaped supporting rod is provided with a second belt wheel, the rear end of the second belt wheel is provided with a second belt wheel rotating shaft which penetrates through the third inverted L-shaped supporting rod, the end surface of the second belt wheel rotating shaft penetrates through the third inverted L-shaped supporting rod to be connected with a square rotating disc, and the front end surface of the square rotating disc is provided with a guide chute formed by splicing an upper double circle and a lower circle, all be equipped with gliding square rotary table guide post on the spiral chute when rotatory on the outer wall of the square rotary table left and right sides, thereby be equipped with the arc pole of making a round trip to rotate around the cylinder through the groove of stepping down during rotatory on the outer wall about the square rotary table, be equipped with vertical support plate on the left supporting baseplate of square rotary table, wear to be equipped with the connection pivot in the activity in vertical support plate, connect the pivot rear end and connect and be equipped with first diaphragm, connect the pivot front end and connect and be equipped with the second diaphragm, first diaphragm is close to joint board one end and is equipped with the joint axle sleeve, the joint axle sleeve cup joint on the joint board outer wall the second diaphragm is close to the connection of direction spout end and is equipped with the guide post, the guide post plug-in on the direction spout.

The vermicelli making device comprises a concentrated rotating mechanism, wherein the concentrated rotating mechanism comprises a rotating shaft sleeve sleeved on the outer wall of a lower pressing rotating shaft, the rotating shaft sleeve is positioned in a bearing box, one end of the rotating shaft sleeve penetrates through a through groove of the bearing box, a third belt pulley is connected and arranged at the lower end of the rotating shaft sleeve, the part of the rotating shaft sleeve, which penetrates through the through groove of the bearing box, is connected with a rotating rod, a fourth belt pulley is inserted at the bottom of the bearing box in front of the third belt pulley, a first belt is sleeved on the fourth belt pulley and connected with the third belt pulley, a first bevel gear is connected and arranged at the lower end of the fourth belt pulley, a lower side plate is arranged on the bearing box on the left side of the first bevel gear, a one-way spring gear which is stressed and rotated downwards is inserted and arranged on the right side surface of the lower side plate, a second bevel gear is connected and arranged on the right end surface of the one-way spring gear, and is meshed with the first bevel gear, the outer wall of the bearing box body above the lower side plate is provided with a transverse side plate, a movable shaft is movably inserted into the transverse side plate, the upper end of the movable shaft is provided with a top plate, the movable shaft is connected with a baffle plate, the lower end of the baffle plate is connected with a fixed rack, the fixed rack is meshed with a one-way spring gear, and the lower end of the transverse side plate is connected with a telescopic spring with the lower end jacking against the baffle plate.

The vermicelli making device comprises a power mechanism, wherein the power mechanism comprises a fifth belt pulley arranged on the outer wall of a first inverted L-shaped support rod, a sixth belt pulley and a rocker are sequentially arranged at the front end of the fifth belt pulley, a second belt is sleeved on the sixth belt pulley and the second belt pulley and connected with each other, a seventh belt pulley is arranged on the first inverted L-shaped support rod above the fifth belt pulley, an eighth belt pulley is connected with the front end of the seventh belt pulley, a third belt is sleeved on the seventh belt pulley and the first belt pulley and connected with each other, and a fourth belt is sleeved on the eighth belt pulley and the fifth belt pulley and connected with each other.

Compared with the prior art, the invention has the advantages that: the invention has simple structure and convenient use, and meets the use requirements of people. The invention adopts a linkage design, can extrude vermicelli from a raw material extrusion box body through a simple swinging rocker, cuts the vermicelli while extruding, presses down the cut cutting knife, can extrude a certain length of the vermicelli while pressing down, and simultaneously can sweep the vermicelli falling on a bearing box body out from a slide in a centralized manner by pressing down the cutting knife, thereby effectively solving the problems in the background technology. The invention has strong practicability, meets the use requirements of people in different environments, and is suitable for small-scale production. The invention adopts hand-operated driving, is very environment-friendly, saves the step of concentrating vermicelli, is very efficient and effectively improves the working efficiency of people.

Drawings

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

Fig. 2 is a second perspective view of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is an exploded view of the present invention.

Fig. 5 is a front view of the present invention.

Fig. 6 is one of the exploded views of the present invention.

Fig. 7 is a second exploded view of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1-7, a vermicelli making device comprises a supporting base plate 1, a first inverted L-shaped supporting rod 11 is arranged at the right end of the upper surface of the supporting base plate 1, a first fixed side plate 12 and a second fixed side plate 13 are sequentially arranged on the outer wall of the first inverted L-shaped supporting rod 11 from bottom to top, a raw material extrusion box body 2 is inserted on the second fixed side plate 13, a receiving box body 3 for receiving vermicelli dropped from the concentrated raw material extrusion box body 2 is inserted on the first fixed side plate 12, an annular groove 20 surrounding the upper end surface of the raw material extrusion box body 2, a feeding funnel 4 with one end extending into the raw material extrusion box body 2 is movably arranged on the annular groove 20, the bottom of the inner wall of the raw material extrusion box body 2 is an equal cone, a plurality of output meshes 21 for discharging vermicelli are arranged at the center, accept 3 lower extreme intercommunication of box 3 and be equipped with slide 31 that the bean noodles were worn out, its characterized in that: the upper end of the first inverted L-shaped support rod 11 is provided with an extrusion mechanism 5 capable of extruding the raw material extrusion box body 2, the bearing box body 3 is provided with a concentrated rotating mechanism 6 capable of concentrating dropped vermicelli and sending out the dropped vermicelli from the slide 31, a rotating pressing mechanism 7 capable of driving the concentrated rotating mechanism 6 when the bearing box body 3 and the support bottom plate 1 rotate and cutting the vermicelli extruded by the extrusion mechanism 5 and pressing down is arranged between the bearing box body 3 and the support bottom plate 1, and the outer wall of the first inverted L-shaped support rod 11 is provided with a power mechanism 8 capable of driving the extrusion mechanism 5 and the rotating pressing mechanism 7 simultaneously.

The extrusion mechanism 5 comprises a first belt pulley 51 arranged on the front end face of the outer wall of a first inverted L-shaped support rod 11, a first belt pulley rotating shaft 511 penetrating through the first inverted L-shaped support rod 11 is arranged at the rear end of the first belt pulley 51, a rotating disc 512 is connected to the rear end of the first belt pulley rotating shaft 511, a pressing base plate 52 is arranged on a raw material extrusion box body 2 below the rotating disc 512, an extrusion head 521 used for extruding raw materials is connected to the lower surface of the pressing base plate 52, a fixed base 522 is arranged on the upper surface of the pressing base plate 52, a hinged base 523 is arranged on the fixed base 522, an eccentric shaft 513 is arranged on the rear end face of the rotating disc 512 close to the circumferential edge, and a connecting rod 53 is inserted between the hinged base 523 and the eccentric shaft 513. The invention adopts a linkage design, can extrude vermicelli from a raw material extrusion box body through a simple swinging rocker, cuts the vermicelli while extruding, presses down the cut cutting knife strip, can extrude a certain length of the vermicelli while pressing down, and simultaneously can sweep the vermicelli falling on the bearing box body out from the slide in a centralized way by pressing down the cutter, thereby effectively solving the problems in the background technology. The structure and the working principle of the extrusion mechanism are shown here, and the operation that the extrusion head realizes the up-and-down circular extrusion through the rotation of the rotating disc can extrude the vermicelli raw material downwards.

The rotary pressing mechanism 7 of the invention comprises a second inverted L-shaped supporting plate 71 arranged on the upper surface of a supporting base plate 1, the second inverted L-shaped supporting plate 71 is positioned under a receiving box body 3, a rotary cylinder 72 is arranged on the second inverted L-shaped supporting plate 71, rotary round plates 721 are connected with the upper and lower ends of the rotary cylinder 72, staggered spiral chutes 722 are arranged on the outer walls of the front and rear ends of the rotary cylinder 72, a relief groove 723 communicated with the spiral chutes 722 is arranged on the rotary round plate 721, an axial through groove 724 is arranged at the center of the rotary round plate 721, a through receiving box body through groove 32 is arranged at the center of the receiving box body 3 above the rotary round plate 721, a pressing rotating shaft 73 with the lower end penetrating through the second inverted L-shaped supporting plate 71 and the upper end penetrating through the receiving box body through groove 32 is movably arranged in the axial through groove 724, cutting blades 731 capable of rotatably cutting vermicelli flowing out from meshes are connected with the left and right sides of the upper end of the pressing rotating shaft 73, a lower pressing plate 732 is arranged at one end of the cutting blade 731 far away from the center of the circle, a limiting plate 733 is arranged at each of the left and right sides of the lower pressing rotary shaft 73 at the upper end of the axial through groove 724, a limiting groove 725 corresponding to the limiting plate 733 is arranged at each of the left and right sides of the axial through groove 724, the limiting plate 733 is inserted into the limiting groove 725 when the lower pressing rotary shaft 73 moves downwards, a clamping plate 734 which is larger than the outer diameter of the lower pressing rotary shaft 73 is connected to the lower end of the lower pressing rotary shaft 73 through the second inverted-L-shaped supporting plate 71, a third inverted-L-shaped supporting rod 74 is arranged on the supporting base plate 1 at the right side of the lower pressing rotary shaft 73, a second belt pulley 75 is arranged on the front end face of the third inverted-L-shaped supporting rod 74, a second belt pulley rotary shaft 751 which passes through the third inverted-L-shaped supporting rod 74 is arranged at the rear end of the second belt pulley 75, a square rotary disc 752 is connected to the second belt pulley 751 which passes through the third inverted-L-shaped supporting rod 74, a guide chute 753 formed by splicing an upper circle and a lower circle in a staggered way is arranged on the front end surface of the square turntable 752, the outer walls of the left side and the right side of the square turntable 752 are respectively provided with a square turntable guide post 754 which slides on the spiral chute 722 when rotating, an arc rod 755 which passes through the abdicating groove 723 during rotation so as to enable the rotating cylinder 72 to rotate back and forth is arranged on the upper and lower outer walls of the square turntable 752, a vertical supporting plate 76 is arranged on the supporting bottom plate 1 at the left side of the square turntable 752, a connecting rotating shaft 77 is movably arranged on the vertical supporting plate 76 in a penetrating way, a first transverse plate 78 is connected to the rear end of the connecting rotating shaft 77, a second transverse plate 79 is connected to the front end of the connecting rotating shaft 77, one end of the first transverse plate 78, which is close to the latch plate 734, is provided with a latch shaft sleeve 781, the latch shaft sleeve 781 is sleeved on the outer wall of the latch plate 734, a guide column 791 is connected to the end, close to the guide chute 753, of the second transverse plate 79, and the guide column 791 is inserted into the guide chute 753. The structure and the work of the rotary pressing mechanism are that the rotary pressing mechanism can cut vermicelli, and the vermicelli is rotated by a certain angle to be pressed down after being cut, wherein the rotating angle is determined by the staggered angle of the spiral chutes, namely, if the rotating angle from the spiral chute at the uppermost end to the lower end is about, the rotating angle of the cutting knife strip is larger, the pressing of the cutting knife strip reaches the highest position of the staggered position of the guide chutes from the guide column, at the moment, the clamping shaft sleeve is pressed and reduced on the lever, the descending of the cutting knife strip is realized along with the synchronous descending of the pressing rotating shaft, and the descending pressing plate can press the centralized rotating mechanism downwards.

The centralized rotating mechanism 6 of the invention comprises a rotating shaft sleeve 61 sleeved on the outer wall of a downward pressing rotating shaft 73, wherein the rotating shaft sleeve 61 is positioned in a receiving box body 3, one end of the rotating shaft sleeve 61 penetrates through a receiving box body through groove 32, the lower end of the rotating shaft sleeve 61 penetrates through the receiving box body through groove 32 and is connected with a third belt pulley 62, the upper end of the rotating shaft sleeve 61 is connected with a rotating rod 63, the bottom of the receiving box body 3 in front of the third belt pulley 62 is inserted with a fourth belt pulley 64, the fourth belt pulley 64 and the third belt pulley 62 are sleeved with a first belt 65 and are connected, the lower end of the fourth belt pulley 64 is connected with a first bevel gear 641, the receiving box body 3 at the left side of the first bevel gear 641 is provided with a lower side plate 66, the right side surface of the lower side plate 66 is inserted with a one-way spring gear 67 which is forced to rotate downwards, and the right end surface of the one-way spring gear 67 is connected with a second bevel gear 671, the second bevel gear 671 is engaged with the first bevel gear 641, a transverse side plate 68 is arranged on the outer wall of the receiving box body 3 above the lower side plate 66, a movable shaft 69 is movably inserted on the transverse side plate 68, a top plate 691 is arranged at the upper end of the movable shaft 69, a baffle 692 is connected to the movable shaft 69, a fixed rack 693 is connected to the lower end of the baffle 692, the fixed rack 693 is engaged with the one-way spring gear 67, and a telescopic spring 694 is connected to the lower end of the transverse side plate 68 and presses the baffle 692. The structure and the working principle of the centralized rotating mechanism are used for explaining that the top plate can be jacked when the lower pressing plate can move downwards, so that the movable shaft descends, the fixed rack drives the one-way spring gear to rotate, the one-way spring gear can only rotate under the action of downward force, the rotating rod also rotates towards one direction, the vermicelli can be conveniently centralized to flow out from the slide, and when the lower pressing plate ascends, the movable shaft can be upwards reset under the pulling of the telescopic spring.

The power mechanism 8 comprises a fifth belt pulley 81 arranged on the outer wall of the first inverted-L-shaped support rod 11, a sixth belt pulley 82 and a rocker 83 are sequentially arranged at the front end of the fifth belt pulley 81, a second belt 84 is sleeved on the sixth belt pulley 82 and the second belt pulley 75 to be connected, a seventh belt pulley 85 is arranged on the first inverted-L-shaped support rod 11 above the fifth belt pulley 81, an eighth belt pulley 86 is connected at the front end of the seventh belt pulley 85, a third belt 87 is sleeved on the seventh belt pulley 85 and the first belt pulley 51 to be connected, and a fourth belt 88 is sleeved on the eighth belt pulley 86 and the fifth belt pulley 81 to be connected.

In the invention, mounting holes are respectively arranged on the periphery of the supporting base plate 1.

In the invention, a sucker is arranged on the bottom surface of the supporting bottom plate 1.

In the invention, an electromagnet is arranged on the bottom surface of the supporting bottom plate 1.

While there have been shown and described the fundamental principles and principal features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the foregoing embodiments, which are provided as illustrations of the principles of the invention, but is capable of numerous variations and modifications without departing from the spirit and scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A vermicelli manufacturing device comprises a supporting base plate (1), wherein a first inverted L-shaped supporting rod (11) is arranged at the right end of the upper surface of the supporting base plate (1), a first fixed side plate (12) and a second fixed side plate (13) are sequentially arranged on the outer wall of the first inverted L-shaped supporting rod (11) from bottom to top, a raw material extrusion box body (2) is inserted on the second fixed side plate (13), a receiving box body (3) used for receiving vermicelli dropping from the concentrated raw material extrusion box body (2) is inserted on the first fixed side plate (12), an annular groove (20) surrounded by the upper end face of the raw material extrusion box body (2) is movably arranged on the annular groove (20), a feeding funnel (4) with one end extending into the raw material extrusion box body (2) is movably arranged at the bottom of the inner wall of the raw material extrusion box body (2), a plurality of output meshes (21) used for outputting vermicelli are arranged at the center, accept box (3) lower extreme intercommunication and be equipped with slide (31) that the bean noodles were worn out, its characterized in that: the upper end of the first inverted L-shaped support rod (11) is provided with an extrusion mechanism (5) capable of extruding the raw material extrusion box body (2), the bearing box body (3) is provided with a concentrated rotating mechanism (6) capable of concentrating the dropped vermicelli and sending the dropped vermicelli out from the slide (31), a rotating pressing mechanism (7) capable of cutting the vermicelli extruded by the extrusion mechanism (5) during rotation and driving the concentrated rotating mechanism (6) during pressing is arranged between the bearing box body (3) and the support base plate (1), the outer wall of the first inverted L-shaped support rod (11) is provided with a power mechanism (8) capable of simultaneously driving the extrusion mechanism (5) and the rotating pressing mechanism (7), the extrusion mechanism (5) comprises a first belt pulley (51) arranged on the front end surface of the outer wall of the first inverted L-shaped support rod (11), the rear end of the first belt pulley (51) is provided with a first belt pulley rotating shaft (511) penetrating through the first inverted L-shaped support rod (11), the rear end of a first belt pulley rotating shaft (511) is connected with a rotating disc (512), a raw material extrusion box body (2) below the rotating disc (512) is provided with a pressing base plate (52), the lower surface of the pressing base plate (52) is connected with an extrusion head (521) used for extruding raw materials, the upper surface of the pressing base plate (52) is provided with a fixed base (522), a hinged base (523) is arranged on the fixed base (522), an eccentric shaft (513) is arranged at the position, close to the circumferential edge, of the rear end surface of the rotating disc (512), a connecting rod (53) is inserted between the hinged base (523) and the eccentric shaft (513), a rotary pressing mechanism (7) comprises a second inverted L-shaped supporting plate (71) arranged on the upper surface of a supporting base plate (1), the second inverted L-shaped supporting plate (71) is positioned under the bearing box body (3), and a rotary cylinder (72) is arranged on the second inverted L-shaped supporting plate (71), the upper end and the lower end of a rotating cylinder (72) are both connected with rotating round plates (721), the outer walls of the front end and the rear end of the rotating cylinder (72) are provided with staggered spiral chutes (722), the rotating round plates (721) are communicated with a yielding groove (723) of the spiral chutes (722), the center of each rotating round plate (721) is provided with an axial through groove (724), the center of a bearing box body (3) above the rotating round plates (721) is provided with a through bearing box body through groove (32), the axial through groove (724) is internally and movably provided with a downward pressing rotating shaft (73) of which the lower end penetrates through a second inverted L-shaped supporting plate (71) and the upper end penetrates through the bearing box body through groove (32), the left side and the right side of the upper end of the downward pressing rotating shaft (73) are both connected with cutting knife strips (731) capable of rotatably cutting the vermicelli flowing out from meshes, the left end and the right side of the center of the cutting knife strips (731) are both provided with a downward pressing plate (732), the left side and the right side of the downward pressing rotating shaft (73) positioned at the upper end of the axial through groove (724) are both provided with limiting plates (733), limiting grooves (725) corresponding to the limiting plates (733) are arranged on the left side and the right side of the axial through groove (724), the limiting plates (733) are inserted into the limiting grooves (725) when the downward pressing rotating shaft (73) moves downwards, a clamping plate (734) larger than the outer diameter of the downward pressing rotating shaft (73) is connected to the part, penetrating through a second inverted-L-shaped supporting plate (71), of the lower end of the downward pressing rotating shaft (73), a third inverted-L-shaped supporting rod (74) is arranged on a supporting base plate (1) on the right side of the downward pressing rotating shaft (73), a second belt pulley (75) is arranged on the front end face of the third inverted-L-shaped supporting rod (74), a second belt pulley rotating shaft (751) penetrating through the third inverted-L-shaped supporting rod (74) is arranged on the rear end of the second belt pulley (75), a square rotating disc (752) is connected to the end face of the second belt pulley rotating shaft (751) penetrating through the third inverted-L-shaped supporting rod (74), a guide sliding groove (753) formed by splicing an upper double-circle and a lower circle in a staggered manner is arranged on the front end face of the square rotating disc (752), the outer walls of the left side and the right side of the square turntable (752) are respectively provided with a square turntable guide post (754) which slides on the spiral chute (722) during rotation, the upper outer wall and the lower outer wall of the square turntable (752) are respectively provided with an arc-shaped rod (755) which enables the rotary cylinder (72) to rotate back and forth through a abdicating groove (723) during rotation, the supporting bottom plate (1) at the left side of the square turntable (752) is provided with a vertical supporting plate (76), the vertical supporting plate (76) is movably penetrated with a connecting rotating shaft (77), the rear end of the connecting rotating shaft (77) is connected with a first transverse plate (78), the front end of the connecting rotating shaft (77) is connected with a second transverse plate (79), one end of the first transverse plate (78), which is close to the clamping plate (734), is provided with a clamping shaft sleeve (781), the clamping shaft sleeve (781) is sleeved on the outer wall of the clamping plate (734), the end of the second transverse plate (79), which is close to the guide chute (753), is connected with a guide post (791), the guide column (791) is inserted into the guide chute (753).

2. The vermicelli making device according to claim 1, wherein the centralized rotating mechanism (6) comprises a rotating shaft sleeve (61) sleeved on the outer wall of the lower pressing rotating shaft (73), the rotating shaft sleeve (61) is positioned in the receiving box body (3) and one end of the rotating shaft sleeve passes through the through groove (32) of the receiving box body, a third belt pulley (62) is connected to the lower end of the rotating shaft sleeve (61) passing through the through groove (32) of the receiving box body, a rotating rod (63) is connected to the upper end of the rotating shaft sleeve (61), a fourth belt pulley (64) is inserted into the bottom of the receiving box body (3) in front of the third belt pulley (62), a first belt (65) is sleeved on the fourth belt pulley (64) and the third belt pulley (62) to be connected, a first bevel gear (641) is connected to the lower end of the fourth belt pulley (64), and a lower side plate (66) is arranged on the receiving box body (3) at the left side of the first bevel gear (641), the right side surface of the lower side plate (66) is inserted with a one-way spring gear (67) which rotates downwards under force, the right end surface of the one-way spring gear (67) is connected with a second bevel gear (671), the second bevel gear (671) is meshed with the first bevel gear (641), the outer wall of the bearing box body (3) above the lower side plate (66) is provided with a transverse side plate (68), a movable shaft (69) is movably inserted on the transverse side plate (68), the upper end of the movable shaft (69) is provided with a top plate (691), the movable shaft (69) is connected with a baffle (692), the lower end of the baffle (692) is connected with a fixed rack (693), the fixed rack (693) is meshed with the one-way spring gear (67), and the lower end of the transverse side plate (68) is connected with an expansion spring (694) of which the lower end is pressed against the baffle (692).

3. The vermicelli making device according to claim 2, wherein said power mechanism (8) comprises a fifth pulley (81) disposed on the outer wall of the first inverted L-shaped support bar (11), a sixth belt pulley (82) and a rocker (83) are sequentially arranged at the front end of the fifth belt pulley (81), a second belt (84) is sleeved on the sixth belt pulley (82) and the second belt pulley (75) to be connected, a seventh belt pulley (85) is arranged on the first inverted L-shaped supporting rod (11) above the fifth belt pulley (81), an eighth belt pulley (86) is connected with the front end of the seventh belt pulley (85), a third belt (87) is sleeved on the seventh belt pulley (85) and the first belt pulley (51) to be connected, and a fourth belt (88) is sleeved on the eight belt pulley (86) and the fifth belt pulley (81) to be connected.

4. The vermicelli making device according to claim 1, wherein the support base plate (1) is provided with mounting holes at the periphery thereof.

5. The vermicelli making device according to claim 1, wherein a suction cup is provided on the bottom surface of said supporting base plate (1).

6. A vermicelli making device according to claim 1, characterized in that an electromagnet is arranged on the bottom surface of said supporting base plate (1).