CN113016995A

CN113016995A - Fruit and vegetable noodle processing technology and automatic processing equipment thereof

Info

Publication number: CN113016995A
Application number: CN202110046704.2A
Authority: CN
Inventors: 高峰; 高健
Original assignee: Songyang Lvfeng Agricultural Development Co ltd
Current assignee: Songyang Lvfeng Agricultural Development Co ltd
Priority date: 2021-01-14
Filing date: 2021-01-14
Publication date: 2021-06-25

Abstract

The invention discloses a processing technology of fruit and vegetable noodles, which comprises the following steps: a. selecting materials: selecting refined flour and fruits and vegetables; b. processing: squeezing the fruit and vegetable juice by a juicer, and collecting fruit and vegetable residues; c. blending: mixing flour, water and fruit and vegetable juice according to the proportion of 10:5:2 to form dough; d. and (3) cooking: crushing fruit and vegetable residues and steaming; e. mixing: mixing the steamed fruit and vegetable residues with the dough; f. pressing: the mixed dough is placed into a noodle press for forming, the fruit and vegetable juice and the flour are mixed into the dough, and then the fruit and vegetable residues are steamed and mixed with the dough, so that the taste and the fineness of the formed noodles are improved. The invention also discloses automatic processing equipment for the fruit and vegetable noodle processing technology, which is characterized in that the fruit and vegetable are crushed by the cross cutting of the cutters of the chopping device, and then the fruit and vegetable are squeezed and juiced by the auger, so that the juicing efficiency is improved, and the fruit and vegetable residues can be scattered by the scattering device, thereby facilitating the subsequent processing and collection.

Description

Fruit and vegetable noodle processing technology and automatic processing equipment thereof

Technical Field

The invention relates to the technical field of fruit and vegetable noodle processing, in particular to a fruit and vegetable noodle processing technology and automatic processing equipment thereof.

Background

The noodles are a health food which is simple to prepare, convenient to eat, rich in nutrition, and can be taken as staple food and fast food. The noodles are originated from China, have a history of making and eating for more than four thousand years and are already accepted and loved by people in the world, the noodles are mainly made of wheat flour, before the noodles appear, rice and porridge are staple foods of common Chinese people, but after the noodles appear, the noodle status is leveled up with rice food;

with the improvement of the life quality of people, common noodles cannot meet the taste of people, so that fruit and vegetable noodles are derived, namely the noodles formed by mixing fruits and vegetables with flour form the noodles with the taste of specific fruits and vegetables, but most of the existing fruit and vegetable noodles are formed by crushing the fruits and vegetables and then directly mixing the crushed fruits and vegetables with the noodles, and have poor taste;

in addition, in the existing fruit and vegetable noodle processing, only fruits and vegetables are crushed, the fruit juice cannot be separated from residues, and the fruit and vegetable juicing efficiency is low, so that a fruit and vegetable noodle processing technology and automatic processing equipment thereof are provided.

Disclosure of Invention

The invention aims to provide a fruit and vegetable noodle processing technology and automatic processing equipment thereof, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a processing technology of fruit and vegetable noodles comprises the following steps:

a. selecting materials: selecting refined flour and fruits and vegetables;

b. processing: squeezing the fruit and vegetable juice by a juicer, and collecting fruit and vegetable residues;

c. blending: mixing flour, water and fruit and vegetable juice according to the proportion of 10:5:2 to form dough;

d. and (3) cooking: crushing fruit and vegetable residues and steaming;

e. mixing: mixing the steamed fruit and vegetable residues with the dough;

f. pressing: and (4) placing the mixed dough into a dough pressing machine for molding.

The invention also provides automatic processing equipment for the fruit and vegetable noodle processing technology, which comprises a support, a dewatering cylinder, an auger and a first servo motor, wherein the dewatering cylinder is fixed at the top of the support, a chopping device is fixed at the top of the dewatering cylinder, the auger is rotatably connected in the middle of the inner wall of the dewatering cylinder through a bearing, the first servo motor is fixed at one end of the dewatering cylinder, the output end of the first servo motor is fixedly connected with the auger, a filter screen is embedded and fixed at one end of the bottom of the dewatering cylinder, a juice collecting box is fixed at the bottom of the dewatering cylinder, the juice collecting box is positioned at the lower end of the filter screen, a holding device is fixed at one end of the dewatering cylinder, which is far away from the first servo motor, and a scattering device is fixed at the bottom.

Preferably, the chopping device comprises a chopping box, a rotary drum, a rotary shaft, a cutter, a bevel gear ring, a first bevel gear, a driving shell, a second servo motor, a second bevel gear and a feeding hopper, wherein one end of the top of the dewatering drum is fixed with the chopping box, the bottom of the chopping box is communicated with the dewatering drum, the top of the chopping box is rotatably connected with the rotary drum through a bearing, the inner wall of the rotary drum is rotatably connected with the rotary shaft through a bearing, the bottom of the rotary shaft is rotatably connected with the dewatering drum through a bearing, the outer side of the bottom of the rotary drum and the lower end of the rotary shaft are symmetrically fixed with the cutter, the top of the rotary drum is fixed with the bevel gear ring, the top of the rotary shaft is fixed with the first bevel gear, the top of the chopping box is fixed with the driving shell, the outer side of the driving shell is fixed with the second servo motor, the output end of the second servo motor penetrates through the, a feed hopper is fixed on one side of the chopping box.

Preferably, the force holding device comprises a fixing ring, a fixing cylinder, an adjusting plate, a guide rod, an extrusion block, a spring, a bolt and a slag discharge port, wherein the fixing ring is fixed at one end of the dewatering cylinder far away from the first servo motor, the fixing cylinder is fixed at one side of the fixing ring, one end of the dewatering cylinder near the extrusion block is communicated with the inner wall of the fixing cylinder, the adjusting plate is connected with the inner wall of the fixing cylinder in a sliding manner, four corners of the adjusting plate are symmetrically and slidably connected with the guide rod through a through hole, the extrusion block is fixed at one end of the guide rod near the dewatering cylinder, one end of the guide rod far away from the extrusion block is slidably connected with the fixing cylinder through a through hole, the spring is sleeved at the outer side of the guide rod, one end of the spring is fixedly connected with the extrusion block, the other end of the spring is fixedly connected, and one end of the bottom of the fixed cylinder is provided with a slag discharge port.

Preferably, break up the device and include break up shell, bull stick, break up pole, spur gear and third servo motor, the one end that the solid fixed cylinder bottom is close to the slag discharge mouth is fixed with the shell of breaing up, it is connected with the bull stick to break up the shell inner wall through the bearing symmetry rotation, bull stick outside equidistance is fixed with the pole of breaing up, and breaks up the pole on two bull sticks and is the setting of staggering, bull stick one end is passed and is broken up the shell and be fixed with spur gear, two spur gear intermeshing connects, break up shell one side and be fixed with third servo motor, and third servo motor's output and a bull stick fixed connection.

Preferably, a drain valve is fixed at one end of the juice collecting box.

Preferably, the first servo motor, the second servo motor and the third servo motor are all speed reducing motors.

Preferably, a collecting box is fixed at one end of the bracket close to the scattering device.

Compared with the prior art, the invention has the beneficial effects that:

1. the fruit and vegetable juice and the flour are mixed into dough, and then the fruit and vegetable residues are steamed and then mixed with the dough, so that the taste and the fineness of the noodles after being formed are improved;

2. the fruit and vegetable are crushed by the cross cutting of the cutters of the chopping device, and then the fruit and vegetable are squeezed and juiced by the auger, so that the juicing efficiency is improved;

3. through setting up the device of breaing up, can break up fruit vegetables sediment, convenient subsequent processing and collection.

Drawings

FIG. 1 is a schematic sectional view of the present invention;

FIG. 2 is a schematic cross-sectional view of the shredder of the present invention;

FIG. 3 is a schematic cross-sectional view of the force-holding device of the present invention;

FIG. 4 is a schematic cross-sectional view of the scattering device of the present invention.

In the figure: 1. a support; 2. a dewatering drum; 3. a shredding device; 31. a shredding box; 32. a rotating drum; 33. a rotating shaft; 34. a cutter; 35. a bevel gear ring; 36. a first bevel gear; 37. a drive case; 38. a second servo motor; 39. a second bevel gear; 310. a feed hopper; 4. a packing auger; 5. a first servo motor; 6. a filter screen; 7. a juice collection box; 8. a holding device; 81. a fixing ring; 82. a fixed cylinder; 83. an adjusting plate; 84. a guide bar; 85. extruding the block; 86. a spring; 87. a bolt; 88. a slag discharge port; 9. a breaking device; 91. breaking the shells; 92. a rotating rod; 93. breaking up the rods; 94. a flat gear; 95. a third servo motor; 10. a drain valve; 11. and (4) collecting the box.

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.

A processing technology of fruit and vegetable noodles comprises the following steps:

a. selecting materials: selecting refined flour and fruits and vegetables;

d. and (3) cooking: crushing fruit and vegetable residues and steaming;

e. mixing: mixing the steamed fruit and vegetable residues with the dough;

f. pressing: putting the mixed dough into a noodle press for molding;

after the fruits and vegetables are squeezed, the fruit and vegetable juice and the flour are mixed into dough, and then the fruit and vegetable residues are steamed and mixed with the dough, so that the taste and the fineness of the noodles are improved.

Referring to fig. 1, the invention also provides an automatic processing device for fruit and vegetable noodle processing technology, comprising a bracket 1, a dewatering cylinder 2, an auger 4 and a first servo motor 5, wherein the top of the bracket 1 is fixed with the dewatering cylinder 2, the top of the dewatering cylinder 2 is fixed with a chopping device 3, the middle part of the inner wall of the dewatering cylinder 2 is rotatably connected with the auger 4 through a bearing, one end of the dewatering cylinder 2 is fixed with the first servo motor 5, the output end of the first servo motor 5 is fixedly connected with the auger 4, one end of the bottom of the dewatering cylinder 2 is embedded and fixed with a filter screen 6, the principle of squeezing and dewatering fruits and vegetables through the auger 4 is similar to the existing dewatering principle, the bottom of the dewatering cylinder 2 is fixed with a juice collecting box 7, the juice collecting box 7 is positioned at the lower end of the filter screen 6, one end of the juice collecting box 7 is fixed with a liquid discharge valve 10, a holding device 8 is fixed at one end of the dewatering cylinder 2 far away from the first servo motor 5, and a scattering device 9 is fixed at the bottom of the holding device 8;

referring to fig. 3, the holding device 8 includes a fixing ring 81, a fixing cylinder 82, an adjusting plate 83, a guide rod 84, an extrusion block 85, a spring 86, a bolt 87 and a slag discharge port 88, the fixing ring 81 is fixed at one end of the dewatering cylinder 2 far from the first servo motor 5, the fixing cylinder 82 is fixed at one side of the fixing ring 81, one end of the dewatering cylinder 2 near the extrusion block 85 is communicated with the inner wall of the fixing cylinder 82, the adjusting plate 83 is connected with the inner wall of the fixing cylinder 82 in a sliding manner, four corners of the adjusting plate 83 are symmetrically connected with the guide rods 84 in a sliding manner through holes, the extrusion block 85 is fixed at one end of each of the four guide rods 84 near the dewatering cylinder 2, one end of each of the guide rods 84 far from the extrusion block 85 is connected with the fixing cylinder 82 in a sliding manner through a through hole, the spring 86 is sleeved outside the guide rod 84, the inner wall of the threaded hole is in threaded connection with a bolt 87, the bolt 87 is in rotary connection with an adjusting plate 83 through a bearing, the bolt 87 is rotated to push the adjusting plate 83 to slide in the fixed cylinder 82, the distance between the adjusting plate 83 and an extrusion block 85 is adjusted, the initial compression value of a spring 86 can be adjusted, fruit and vegetable residues with different water contents can be compressed, a residue discharge port 88 is formed in one end of the bottom of the fixed cylinder 82, and the residue discharge port 88 is blocked when the extrusion block 85 is not extruded;

rotate through first servo motor 5 and drive auger 4 and rotate, make auger 4 will be carried by kibbling fruit vegetables to the one end of holding power device 8, when the fruit vegetables are carried to the one end of extrusion piece 85, because extrusion piece 85 is extruded by spring 86, make the unable top of fruit vegetables move extrusion piece 85, and then make the fruit vegetables of carrying to the rear end extruded, make the juice extruded, and then make the juice fall into in juice collecting box 7 through filter screen 6, and because auger 4 continuously rotates, make the fruit vegetables continue to the one end application of force of extrusion piece 85, make extrusion piece 85 can push up spring 86 compression, make extrusion piece 85 open dehydrating cylinder 2 one end, make the fruit vegetables sediment after the extrusion then discharge into in the fixed cylinder 82, and discharge through row cinder notch 88, the fruit vegetables residue falls into through row cinder notch 88 and breaks up in the shell 91.

Referring to fig. 2, the chopping device 3 includes a chopping box 31, a rotating drum 32, a rotating shaft 33, a cutter 34, a bevel gear ring 35, a first bevel gear 36, a driving shell 37, a second servo motor 38, a second bevel gear 39 and a feed hopper 310, the chopping box 31 is fixed at one end of the top of the dewatering drum 2, the bottom of the chopping box 31 is communicated with the dewatering drum 2, the rotating drum 32 is rotatably connected to the top of the chopping box 31 through a bearing, the rotating shaft 33 is rotatably connected to the inner wall of the rotating drum 32 through a bearing, the bottom of the rotating shaft 33 is rotatably connected with the dewatering drum 2 through a bearing, the cutters 34 are symmetrically fixed on the outer side of the bottom of the rotating drum 32 and the lower end of the rotating shaft 33, the bevel gear ring 35 is fixed to the top of the rotating drum 32, the first bevel gear 36 is fixed to the top of the rotating shaft 33, the driving shell 37 is fixed to the top of the chopping box 31, the output end of the second servo motor 38 penetrates through the driving shell 37 and is fixed with a second bevel gear 39, the second bevel gear 39 is respectively meshed and connected with the first bevel gear 36 and the bevel gear ring 35, a feed hopper 310 is fixed on one side of the chopping box 31, and a feed hopper 311 is arranged to facilitate feeding of fruits and vegetables;

through pouring the fruit vegetables into shredding box 31 through feeder hopper 310 in, rotate through second servo motor 38 and drive second bevel gear 39 and rotate, and then can drive first bevel gear 36 and bevel gear ring 35 and rotate, and first bevel gear 36 and bevel gear ring 35 direction of rotation are opposite, and then drive rotary drum 32 and pivot 33 and carry out the antiport, drive two cutters 34 and carry out the antiport, make the fruit vegetables of pouring into in shredding box 31 sheared and smashed, make the fruit vegetables fall into in dewatering cylinder 2.

Referring to fig. 3 and 4, the scattering device 9 includes a scattering shell 91, rotating rods 92, scattering rods 93, flat gears 94 and a third servo motor 95, the scattering shell 91 is fixed at one end of the bottom of the fixed cylinder 82 close to the slag discharge port 88, the rotating rods 92 are symmetrically and rotatably connected to the inner wall of the scattering shell 91 through bearings, the scattering rods 93 are fixed at the outer sides of the rotating rods 92 at equal intervals, the scattering rods 93 on the two rotating rods 92 are arranged in a staggered manner to improve scattering density, the flat gears 94 are fixed at one ends of the rotating rods 92 penetrating through the scattering shell 91, the two flat gears 94 are mutually meshed and connected, the third servo motor 95 is fixed at one side of the scattering shell 91, the output end of the third servo motor 95 is fixedly connected with one rotating rod 92, and the collecting box 11 is fixed at one end of the support 1 close to the scattering device 9;

fruit vegetables residue falls into through row cinder notch 88 and breaks up in the shell 91, because fruit vegetables residue is extruded from row cinder notch 88, make fruit vegetables residue be cubic, the collection and the steaming of the fruit vegetables residue of being not convenient for, rotate through third servo motor 95 this moment and drive bull stick 92 and rotate, through the connection of flat gear 94, make two bull sticks 92 reverse rotation simultaneously, and then it is rotatory to drive the pole 93 that breaks up, make the fruit vegetables residue that falls into in breaking up the shell 91 fall and is broken up by the pole 93 that breaks up, and fall into collecting box 11, so that collect and subsequent processing.

Referring to fig. 1, the first servo motor 5 is a speed reduction motor for increasing the torque of the first servo motor 5.

The working principle is as follows:

when the fruit and vegetable cutter is used, fruits and vegetables are poured into the chopping box 31 through the feeding hopper 310, the second bevel gear 39 is driven to rotate through the rotation of the second servo motor 38, the first bevel gear 36 and the bevel gear ring 35 can be driven to rotate, the first bevel gear 36 and the bevel gear ring 35 are driven to rotate in opposite directions, the rotary drum 32 and the rotary shaft 33 are driven to rotate in opposite directions, the two cutters 34 are driven to rotate in opposite directions, the fruits and vegetables poured into the chopping box 31 are cut and crushed, the fruits and vegetables fall into the dewatering cylinder 2, the auger 4 is driven to rotate through the rotation of the first servo motor 5, the auger 4 conveys the crushed fruits and vegetables to one end of the holding force device 8, when the fruits and vegetables are conveyed to one end of the extrusion block 85, the extrusion block 85 cannot push the extrusion block 85 due to the extrusion block 85 being extruded by the spring 86, the fruits and vegetables conveyed to the rear end are extruded, and juice is extruded, and then the juice falls into the juice collecting box 7 through the filter screen 6, and the packing auger 4 continuously rotates, so that the fruit and vegetable continuously applies force to one end of the extrusion block 85, the extrusion block 85 can push against the spring 86 to compress, the extrusion block 85 opens one end of the dewatering cylinder 2, the squeezed fruit and vegetable residues are discharged into the fixed cylinder 82 and are discharged through the residue discharge port 88, the principle of squeezing and dewatering the fruit and vegetable through the packing auger 4 is similar to the existing principle of a dewatering machine, the fruit and vegetable residues fall into the scattering shell 91 through the residue discharge port 88, the fruit and vegetable residues are in a block shape due to being squeezed out from the residue discharge port 88, the fruit and vegetable residues are inconvenient to collect and steam, at the moment, the rotating rod 92 is driven to rotate by rotating the third servo motor 95, the two rotating rods 92 are simultaneously and reversely rotated through the connection of the flat gear 94, and then the scattering rod 93 is driven to rotate, so that the fruit and vegetable residues falling into the scattering shell 91 are scattered by the scattering rod 93, and fall into the collection box 11 for collection and subsequent processing, the bolt 87 is rotated to push the adjusting plate 83 to slide in the fixed cylinder 82, the distance between the adjusting plate 83 and the extrusion block 85 is adjusted, and then the initial compression value of the spring 86 is adjusted, so that fruit and vegetable residues with different water contents can be compressed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A processing technology of fruit and vegetable noodles is characterized in that: the processing technology comprises the following steps:

a. selecting materials: selecting refined flour and fruits and vegetables;

d. and (3) cooking: crushing fruit and vegetable residues and steaming;

e. mixing: mixing the steamed fruit and vegetable residues with the dough;

2. The utility model provides an automatic processing equipment for fruit vegetables noodless processing technology, includes support (1), dehydration section of thick bamboo (2), auger (4) and first servo motor (5), its characterized in that: support (1) top is fixed with dewatering cylinder (2), dewatering cylinder (2) top is fixed with comminution device (3), dewatering cylinder (2) inner wall middle part is rotated through the bearing and is connected with auger (4), dewatering cylinder (2) one end is fixed with first servo motor (5), and the output and auger (4) fixed connection of first servo motor (5), dewatering cylinder (2) bottom one end is inlayed and is fixed with filter screen (6), dewatering cylinder (2) bottom is fixed with juice collecting box (7), and juice collecting box (7) are located filter screen (6) lower extreme, the one end that first servo motor (5) were kept away from in dewatering cylinder (2) is fixed with and holds power device (8), hold power device (8) bottom and be fixed with and break up device (9).

3. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 2, characterized in that: the chopping device (3) comprises a chopping box (31), a rotary drum (32), a rotary shaft (33), cutters (34), bevel gear rings (35), a first bevel gear (36), a driving shell (37), a second servo motor (38), a second bevel gear (39) and a feed hopper (310), one end of the top of the dewatering drum (2) is fixed with the chopping box (31), the bottom of the chopping box (31) is communicated with the dewatering drum (2), the top of the chopping box (31) is rotatably connected with the rotary drum (32) through a bearing, the inner wall of the rotary drum (32) is rotatably connected with the rotary shaft (33) through a bearing, the bottom of the rotary shaft (33) is rotatably connected with the dewatering drum (2) through a bearing, the cutters (34) are symmetrically fixed on the outer side of the bottom of the rotary drum (32) and the lower end of the rotary shaft (33), the top of the rotary drum (32) is fixed with the bevel gear rings (35), the top of the rotary, a driving shell (37) is fixed to the top of the chopping box (31), a second servo motor (38) is fixed to the outer side of the driving shell (37), the output end of the second servo motor (38) penetrates through the driving shell (37) to be fixed with a second bevel gear (39), the second bevel gear (39) is respectively in meshed connection with the first bevel gear (36) and the bevel gear ring (35), and a feeding hopper (310) is fixed to one side of the chopping box (31).

4. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 3, characterized in that: the force holding device (8) comprises a fixing ring (81), a fixing cylinder (82), an adjusting plate (83), a guide rod (84), an extrusion block (85), a spring (86), a bolt (87) and a slag discharge port (88), wherein the fixing ring (81) is fixed at one end, away from a first servo motor (5), of the dewatering cylinder (2), the fixing ring (81) is fixed at one side of the fixing ring (81), the end, close to the extrusion block (85), of the dewatering cylinder (2) is communicated with the inner wall of the fixing cylinder (82), the adjusting plate (83) is connected to the inner wall of the fixing cylinder (82) in a sliding mode, the guide rod (84) is symmetrically connected with the guide rod (84) in a sliding mode through a through hole, the extrusion block (85) is fixed at one end, close to the dewatering cylinder (2), of the guide rod (84), away from the extrusion block (85), and is connected with the fixing cylinder (82, guide arm (84) outside cover is equipped with spring (86), spring (86) one end and extrusion piece (85) fixed connection, and spring (86) other end and regulating plate (83) fixed connection, threaded hole is seted up at solid fixed cylinder (82) middle part, threaded hole inner wall threaded connection has bolt (87), and bolt (87) rotate with regulating plate (83) through the bearing and be connected, slag discharging port (88) have been seted up to solid fixed cylinder (82) bottom one end.

5. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 4, characterized in that: break up device (9) including break up shell (91), bull stick (92), break up pole (93), spur gear (94) and third servo motor (95), the one end that gu fixed cylinder (82) bottom is close to row cinder notch (88) is fixed with breaks up shell (91), break up shell (91) inner wall rotates through the bearing symmetry and is connected with bull stick (92), bull stick (92) outside equidistance is fixed with breaks up pole (93), and breaks up pole (93) on two bull sticks (92) and be the wrong setting, bull stick (92) one end is passed and is broken up shell (91) and be fixed with spur gear (94), two spur gear (94) intermeshing connects, break up shell (91) one side and be fixed with third servo motor (95), and the output and a bull stick (92) fixed connection of third servo motor (95).

6. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 1, which is characterized in that: a liquid discharge valve (10) is fixed at one end of the juice collecting box (7).

7. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 5, characterized in that: the first servo motor (5), the second servo motor (38) and the third servo motor (95) are all speed reducing motors.

8. The automatic processing equipment for the fruit and vegetable noodle processing technology according to claim 1, which is characterized in that: and a collecting box (11) is fixed at one end of the bracket (1) close to the scattering device (9).