CN112690421B - Sweet potato powder rotary type anti-caking processing device - Google Patents

Abstract

The invention relates to the field of food processing, in particular to a rotary anti-caking processing device for sweet potato powder. In order to solve artifical rotatory placing sweet potato strip of enclosing the pot body and hardly controlling at the uniform velocity, can lead to the part to place the sweet potato strip caking of the internal heating of pot very easily to and the dynamics of manual extrusion sweet potato dough is difficult to control, can lead to the long banding sweet potato dough thickness inequality of extrusion to influence the problem of preparation sweet potato powder. A rotary anti-caking processing device for sweet potato powder comprises a pot body, a connecting frame, a driving and rotating mechanism and the like; the upper part of the pot body is symmetrically connected with a connecting frame, and the driving and rotating mechanism is arranged on one side of the pot body. According to the invention, the fixing frames on two sides drive the blanking control mechanism to circularly rotate in the process of moving back and forth, so that sweet potato dough is conveniently placed in different places in the pot body in a rotary and movable mode for heating, and the sweet potato dough placed in the pot body can be prevented from caking.

Description

Sweet potato powder rotary type anti-caking processing device

Technical Field

The invention relates to the field of food processing, in particular to a rotary anti-caking processing device for sweet potato powder.

Background

Sweet potato powder is a family vegetable made of sweet potatoes. Sweet potato powder is a local special snack in areas such as Guangxi, shaanxi, hunan, fujian, sichuan, guizhou and the like. Gray long strips are crystal clear and similar to vermicelli.

In sweet potato powder preparation in-process, need earlier with sweet potato powder, flour and water etc. mixing, use extrusion instrument to extrude sweet potato dough into long strip, place the internal heating of pot with long strip sweet potato dough and avoid the dough caking again around the pot body is rotatory, place the sweet potato strip through artifical around the pot body is rotatory and hardly control at uniform velocity, can lead to very easily partly placing the sweet potato strip caking of the internal heating of pot to and the dynamics of manual extrusion sweet potato dough is difficult to control, can lead to the uneven preparation that influences sweet potato powder of long strip sweet potato dough thickness that extrudes.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the sweet potato powder rotary anti-caking processing device which can buffer and extrude sweet potato dough to form sweet potato strips, can rotationally and movably place the sweet potato strips into a pot body for heating and can transmit the heated sweet potato strips.

The utility model provides a sweet potato powder rotation type processing apparatus that prevents caking, includes the pot body, link, drive rotary mechanism and unloading control mechanism, symmetrical fixedly connected with link on the pot body, and drive rotary mechanism installs in one side of the pot body, and unloading control mechanism installs on drive rotary mechanism.

More preferably, the driving and rotating mechanism comprises an annular slide rail, an annular rack, a driving motor, a pinion, a fixed rack, a fixing frame, a cutting blade, a reciprocating screw, a rotating gear, a reciprocating nut, a slide bar, a connecting plate and a guide sleeve, wherein the annular slide rail is fixedly connected to the outer side of the pot body, the annular rack is connected in a sliding manner to the annular slide rail, the driving motor is fixedly connected to one side of the pot body, the pinion is fixedly connected to an output shaft of the driving motor, the pinion is meshed with the annular rack, the fixing racks are fixedly connected between the two connecting frames, the fixing frames are symmetrically and fixedly connected to the annular rack, the cutting blade is fixedly connected to one side of the two fixing frames, the reciprocating screw is connected to one end of the reciprocating screw through a bearing, the rotating gear is meshed with the fixed rack, the reciprocating nut is connected to one side of the reciprocating nut in a sliding manner, the connecting plate is fixedly connected to the fixing frame of the other side, the guide sleeve is fixedly connected to one side of the connecting plate, and the slide bar is in sliding fit with the guide sleeve.

More preferably, the unloading control mechanism is including deflector, funnel, bushing, dead lever, swing baffle, gyro wheel, torsion spring and limiting plate, sliding connection has the deflector on the connecting plate, the one end fixedly connected with funnel of deflector, fixedly connected with bushing on the funnel, bushing and reciprocal nut fixed connection, one side fixedly connected with dead lever of funnel, rotate on the dead lever and be connected with swing baffle, one side rotation of swing baffle is connected with the gyro wheel, swing baffle's opposite side fixedly connected with torsion spring, torsion spring's tip and bushing fixed connection, fixedly connected with limiting plate on the mount of one side.

More preferably, the potato chip conveying device further comprises a first rotary transmission gear, a second rotary transmission gear and a potato chip conveying mechanism, wherein the first rotary transmission gear is fixedly connected to the inner side of the fixing frame on two sides, the second rotary transmission gear is fixedly connected to the annular rack, the potato chip conveying mechanism is vertically arranged on one side of the pot body, and the potato chip conveying mechanism is obliquely arranged on the connecting frame on one side.

More preferably, the French fries conveying mechanism is including the mounting bracket, the slider, the first telescopic spring, the transfer wheel, first power wheel, coupling spring, hollow power wheel, connecting rod and telescopic spring second, one side of the pot body is connected with the mounting bracket perpendicularly, the last slope of link of one side is connected with the mounting bracket, all sliding connection has the slider in the spout of mounting bracket, one side fixedly connected with telescopic spring first of slider, telescopic spring first's tip and mounting bracket fixed connection, all rotation type is connected with the transfer wheel on the opposite side of slider and the mounting bracket, the transfer wheel of upside is connected with first power wheel, a plurality of coupling springs are arranged in the annular array in the transfer wheel outside of downside, a plurality of coupling spring's tip fixedly connected with hollow power wheel, one side sliding connection of mounting bracket has the connecting rod, one end of drive wheel passes through bearing and connecting rod fixed connection, fixedly connected with telescopic spring second on the connecting rod, telescopic spring second's tip and mounting bracket fixed connection.

More preferably, the hopper is further provided with an extrusion blanking mechanism, the extrusion blanking mechanism is arranged on one side of the hopper, the extrusion blanking mechanism comprises an arc-shaped frame, a guide groove rod, a hollow frame, a homing spring, a clamping rod, a clamping spring, a guide cylinder, an extrusion cover plate, a buffer spring, an extrusion rod I and an extrusion rod II, one side of the hopper is fixedly connected with the arc-shaped frame, the guide groove rod is slidingly connected to the arc-shaped frame, the hollow frame is fixedly connected with the homing spring between the hollow frame and the guide groove rod, one side of the hollow frame is slidingly connected with the clamping rod, the clamping rod is matched with a groove body arranged on the guide groove rod, the clamping spring is fixedly connected with the guide cylinder, one end of the guide cylinder is fixedly connected with an extrusion cover plate, the buffer spring is fixedly connected between the extrusion cover plate and the guide groove rod, the extrusion rod I is fixedly connected to a fixing rod on one side, the extrusion rod II is connected to one side of the connecting plate, and the end part of the extrusion rod II is positioned in a groove of the guide groove.

The beneficial effects are as follows: (1) The fixing frames on two sides drive the blanking control mechanism to move back and forth to rotate in a circular mode, sweet potato dough is conveniently placed in different places in the pot body in a rotary moving mode to be heated, so that the sweet potato dough placed in the pot body can be prevented from caking, and finally the blanking control mechanism can be controlled to stop moving back and forth and rotating in a circular mode by closing the driving motor.

(2) When the extruded strip-shaped sweet potato dough is wound on the inner side of the pot body in a rotary and movable mode, the tail end of the extruded strip-shaped sweet potato dough can be placed between the two conveying wheels on the upper side and the lower side, so that the formed sweet potato strips can be conveniently conveyed out of the pot body in a heating mode, meanwhile, in order to facilitate the driving wheels to push and convey the sweet potato strips with different thicknesses, the driving wheels on the lower side can move through the sliding blocks to change positions to continuously contact the sweet potato strips.

(3) In order to better extrude sweet potato dough in the funnel, through the round trip movement of funnel, the second extrusion pole of setting can promote guide way pole downstream when contacting with the guide way pole, when removing to the position of holding the guide way pole with first extrusion pole, the buffer spring of setting, the guide way pole of being convenient for drives guide cylinder and extrusion apron and extrudees sweet potato dough at the interior downstream of funnel.

Drawings

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

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

Fig. 3 is a schematic perspective view of the funnel, the funnel and the extrusion blanking mechanism of the present invention.

Fig. 4 is a schematic view of a part of a three-dimensional structure of the blanking control mechanism of the present invention.

Fig. 5 is a schematic view of a partial perspective structure of the present invention.

Fig. 6 is a schematic perspective view of the potato chip transfer mechanism of the present invention.

Fig. 7 is a schematic perspective view of the extrusion blanking mechanism of the present invention.

Fig. 8 is an enlarged perspective view of the present invention a.

Fig. 9 is a schematic perspective view of the guide cylinder, the pressing cover plate and the buffer spring according to the present invention.

The marks of the components in the drawings are as follows: 1-pot body, 2-connecting frame, 3-driving rotating mechanism, 3-1-annular slide rail, 3-2-annular rack, 3-3-driving motor, 3-4-pinion, 3-5-fixed rack, 3-6-fixed frame, 3-61-cutting blade, 3-7-reciprocating screw, 3-8-rotating gear, 3-9-reciprocating nut, 3-11-slide bar, 3-12-connecting plate, 3-13-guide sleeve, 4-blanking control mechanism, 4-1-guide plate, 4-2-funnel, 4-3-drain pipe, 4-4-fixed rod, 4-5-swinging baffle plate, 4-6-roller, 4-7-torsion springs, 4-8-limiting plates, 5-rotation transmission gears I, 6-rotation transmission gears II, 7-French fries conveying mechanisms, 7-1-mounting frames, 7-2-sliding blocks, 7-3-telescopic springs I, 7-4-conveying wheels, 7-5-power wheels I, 7-6-connecting springs, 7-7-hollow power wheels, 7-8-connecting rods, 7-9-telescopic springs II, 8-extrusion blanking mechanisms, 8-1-arc-shaped frames, 8-2-guide groove rods, 8-3-hollow frames, 8-4-homing springs and 8-5-clamping rods, 8-6-clamping springs, 8-7-guiding cylinders, 8-8-extrusion cover plates, 8-9-buffer springs, 8-11-extrusion rods I and 8-12-extrusion rods II.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Example 1

The utility model provides a sweet potato powder rotation type anti-caking processingequipment, as shown in fig. 1-4, including pot body 1, link 2, drive rotary mechanism 3 and unloading control mechanism 4, the upper portion symmetry of pot body 1 is connected with link 2, and drive rotary mechanism 3 installs in one side of pot body 1, and unloading control mechanism 4 installs on drive rotary mechanism 3.

When the automatic sweet potato dough extruding and feeding device is used, an operator firstly places kneaded sweet potato dough in the discharging control mechanism 4, then controls the driving rotation mechanism 3 to operate, the driving rotation mechanism 3 can drive the discharging control mechanism 4 to rotate and move back and forth, the back and forth movement of the discharging control mechanism 4 is convenient for placing extruded sweet potato strips at different positions in the pot body 1 to heat, the discharging control mechanism 4 rotates in the back and forth movement process, the extruded sweet potato strips can be uniformly placed in the pot body 1, and therefore, the situation that the sweet potato strips placed in the pot body 1 are agglomerated can be avoided, and after the extrusion of the placed sweet potato dough is completed, the driving rotation mechanism 3 is controlled to stop operating.

The driving and rotating mechanism 3 comprises an annular slide rail 3-1, an annular rack 3-2, a driving motor 3-3, a pinion 3-4, a fixed rack 3-5, a fixing frame 3-6, a cutting blade 3-61, a reciprocating screw rod 3-7, a rotating gear 3-8, a reciprocating nut 3-9, a slide bar 3-11, a connecting plate 3-12 and a guide sleeve 3-13, wherein the annular slide rail 3-1 is fixedly connected with the outer side of the pot body 1, the annular rack 3-2 is slidably connected with the annular slide rail 3-1, one side of the pot body 1 is fixedly connected with a driving motor 3-3, the pinion 3-4 is fixedly connected with an output shaft of the driving motor 3-3, the pinion 3-4 is meshed with the annular rack 3-2, the driving motor 3-3 drives the annular rack 3-2 to rotate through the pinion 3-4, the top of the two connecting frames 2 is fixedly connected with a fixed rack 3-5, the top of the annular rack 3-2 is symmetrically and fixedly connected with a fixed frame 3-6, one side of the two fixed frames 3-6 is fixedly connected with a cutting blade 3-61, the upper part of the fixed frame 3-6 on one side is connected with a reciprocating screw rod 3-7 through a bearing, the annular rack 3-2 drives the reciprocating screw rod 3-7 to rotate through the fixed frame 3-6 on one side, a rotary gear 3-8 is fixedly connected with one end of the reciprocating screw rod 3-7, the rotary gear 3-8 is meshed with the fixed rack 3-5, the reciprocating screw rod 3-7 is connected with a reciprocating nut 3-9 in a sliding way, one side of the reciprocating nut 3-9 is fixedly connected with a sliding rod 3-11, the reciprocating screw 3-7 rotates through the rotary gear 3-8 and the fixed rack 3-5 in the rotating process, and then the reciprocating nut 3-9 moves back and forth on the reciprocating screw 3-7, so that the sweet potato strips placed in the pot body 1 can be prevented from caking, the connecting plate 3-12 is fixedly connected to the fixing frame 3-6 on the other side, the guide sleeve 3-13 is fixedly connected to one side of the connecting plate 3-12, and the sliding rod 3-11 is in sliding fit with the guide sleeve 3-13.

The operator starts driving motor 3-3, driving motor 3-3 can drive annular rack 3-2 through pinion 3-4 and rotate, annular rack 3-2 can drive reciprocating screw 3-7 through mount 3-6 on one side and rotate, reciprocating screw 3-7 in-process can rotate through rotatory gear 3-8 and fixed rack 3-5, and then reciprocating nut 3-9 can reciprocate on reciprocating screw 3-7, thereby reciprocating nut 3-9 can drive unloading control mechanism 4 round trip movement, annular rack 3-2 can drive connecting plate 3-12 through mount 3-6 on the opposite side and rotate simultaneously, and then connecting plate 3-12 can drive unloading control mechanism 4 and rotate, through the process annular rotation that makes mount 3-6 on both sides drive unloading control mechanism 4 round trip movement, be convenient for place the sweet potato strip rotary motion of extruding in pot body 1 in and heat, so, can avoid placing the sweet potato strip caking in pot body 1, finally through closing driving motor 3-3, can control unloading control mechanism 4 stop round trip movement and annular rotation.

The blanking control mechanism 4 comprises a guide plate 4-1, a funnel 4-2, a drain pipe 4-3, a fixed rod 4-4, a swinging baffle 4-5, a roller 4-6, a torsion spring 4-7 and a limiting plate 4-8, wherein the guide plate 4-1 is connected to the connecting plate 3-12 in a sliding manner, one end of the guide plate 4-1 is fixedly connected with the funnel 4-2, the bottom of the funnel 4-2 is fixedly connected with the drain pipe 4-3, the drain pipe 4-3 is connected with a reciprocating nut 3-9, one side of the bottom of the funnel 4-2 is connected with the fixed rod 4-4, the swinging baffle 4-5 is rotatably connected to the fixed rod 4-4, one side of the swinging baffle 4-5 is rotatably connected with the roller 4-6, the other side of the swinging baffle 4-5 is fixedly connected with the torsion spring 4-7, and the end of the torsion spring 4-7 is connected with the drain pipe 4-3, and the limiting plate 4-8 which can limit the moving position of the drain pipe is fixedly connected to the fixing frame 3-6 on one side.

The operator can place sweet potato dough into funnel 4-2, sweet potato dough in the rethread extrusion funnel 4-2 enters into in the bushing 4-3, can fall in pot body 1 with the rectangular form that sweet potato dough extruded into through bushing 4-3, after the unloading is accomplished, funnel 4-2 can be through reciprocating screw rod 3-7 removal to gyro wheel 4-6 and limiting plate 4-8 contact, limiting plate 4-8 can be through gyro wheel 4-6 promotion swing baffle 4-5 down to keep off bushing 4-3 stop unloading, when removing bushing 4-3 and blanking to pot body 1 center, gyro wheel 4-6 can leave the contact with limiting plate 4-8, can rotate down swing baffle 4-5 under torsion spring 4-7 and open bushing 4-3, so, can be convenient for place the sweet potato strip that extrudeed into funnel 4-2 and heat.

Example 2

On the basis of the embodiment 1, as shown in fig. 5-9, the potato chip conveying device further comprises a first rotary transmission gear 5, a second rotary transmission gear 6 and a potato chip conveying mechanism 7, wherein the first rotary transmission gear 5 is connected to the inner sides of the fixing frames 3-6 on two sides, the second rotary transmission gear 6 is arranged on the top of the annular rack 3-2, and the potato chip conveying mechanism 7 is vertically arranged on one side of the pot body 1.

The French fries conveying mechanism 7 comprises a mounting frame 7-1, a sliding block 7-2, a telescopic spring I7-3, a conveying wheel 7-4, a power wheel I7-5, a connecting spring 7-6, a hollow power wheel 7-7, a connecting rod 7-8 and a telescopic spring II 7-9, wherein one side of the pot body 1 is vertically connected with the mounting frame 7-1, the mounting frame 7-1 is obliquely connected on the connecting frame 2 on one side, sliding blocks 7-2 are connected in sliding grooves of the mounting frame 7-1, the bottom of the sliding block 7-2 is fixedly connected with the telescopic spring I7-3, the end part of the telescopic spring I7-3 is fixedly connected with the mounting frame 7-1, one side of the sliding block 7-2 and the upper part of the mounting frame 7-1 are both rotatably connected with the conveying wheel 7-4, the conveying wheel 7-4 on the upper side is connected with the power wheel I7-5, the annular array outside the lower conveying wheel 7-4 is provided with a plurality of connecting springs 7-6, the end parts of the connecting springs 7-6 are fixedly connected with hollow power wheels 7-7, the hollow power wheels 7-7 and the power wheels 7-5 rotate to drive the conveying wheels 7-4 on the upper side and the lower side to rotate, so that the sweet potato strips which are well heated in the pot body 1 can be conveniently conveyed out, meanwhile, in order to facilitate the driving wheel to push and transport the sweet potato strips with different thicknesses, the driving wheel on the lower side can move through the sliding block 7-2 to change the position, one side of the top of the mounting frame 7-1 is slidably connected with the connecting rod 7-8, one end of the driving wheel is fixedly connected with the bottom of the connecting rod 7-8 through a bearing, the upper part of the connecting rod 7-8 is fixedly connected with a second telescopic spring 7-9, and the end part of the second telescopic spring 7-9 is fixedly connected with the mounting frame 7-1.

When the extruded sweet potato strips are rotationally and movably wound around the inner side of the pot body 1, the tail ends of the extruded sweet potato strips can be placed between the two conveying wheels 7-4 at the upper side and the lower side, the arranged cutting blades 3-61 are convenient for cutting off the tail ends of the sweet potato strips from the drain pipe 4-3, the first rotary transmission gear 5 can rotate through the fixing frames 3-6 at the two sides, the second rotary transmission gear 6 can rotate through the annular rack 3-2, the hollow power wheel 7-7 at the upper side can rotate through the first rotary transmission gear 5 along with the rotation of the hollow power wheel 7-7 at the lower side, the hollow power wheel 7-7 at the lower side can rotate through the second rotary transmission gear 6, then the hollow power wheel 7-7 can drive the first power wheel 7-5 to rotate, and the rotation of the hollow power wheel 7-7 and the first power wheel 7-5 can drive the conveying wheels 7-4 at the upper side and the lower side, so that the sweet potato strips which are well heated in the pot body 1 can be conveniently transported, meanwhile, the position of the lower transmission wheel can be moved through the sliding block 7-2, the position of the transmission wheel can be changed, and the position of the hollow power wheel 7-7 can be continuously meshed with the first rotary transmission gear 6 through the hollow power wheel 6.

The device also comprises an extrusion blanking mechanism 8, the extrusion blanking mechanism 8 is arranged at the top of the funnel 4-2, the extrusion blanking mechanism 8 comprises an arc-shaped frame 8-1, a guide groove rod 8-2, a hollow frame 8-3, a homing spring 8-4, a clamping rod 8-5, a clamping spring 8-6, a guide cylinder 8-7, an extrusion cover plate 8-8, a buffer spring 8-9, a first extrusion rod 8-11 and a second extrusion rod 8-12, the top of the funnel 4-2 is fixedly connected with the arc-shaped frame 8-1, the arc-shaped frame 8-1 is connected with the guide groove rod 8-2 in a sliding manner, the top of the arc-shaped frame 8-1 is connected with the hollow frame 8-3, a homing spring 8-4 is fixedly connected between the hollow frame 8-3 and the top of the guide groove rod 8-2, one side of the hollow frame 8-3 is slidingly connected with a clamping rod 8-5 which can fix the position of the guide groove rod 8-2, the clamping rod 8-5 is matched with a groove body which is arranged on the guide groove rod 8-2, a clamping spring 8-6 is fixedly connected between the clamping rod 8-5 and the hollow frame 8-3, the bottom of the guide groove rod 8-2 is slidingly connected with a guide cylinder 8-7, the bottom of the guide cylinder 8-7 is fixedly connected with an extrusion cover plate 8-8, a buffer spring 8-9 is fixedly connected between the extrusion cover plate 8-8 and the guide groove rod 8-2, an extrusion rod I8-11 is fixedly connected with the top of a fixed rod 4-4 on one side, an extrusion rod II 8-12 is fixedly connected with the top of a connecting plate 3-12, the end of the extrusion rod II 8-12 is positioned in the groove of the guide groove rod 8-2.

The operator needs to be through pulling guide slot pole 8-2 upward movement, guide slot pole 8-2 can drive extrusion apron 8-8 upward movement and open funnel 4-2, can place sweet potato dough in funnel 4-2 this moment, loosen guide slot pole 8-2, guide slot pole 8-2 can move down under the effect of guide slot pole 8-4 elasticity, and then can drive extrusion apron 8-8 and extrude sweet potato dough in funnel 4-2 downward movement, let sweet potato dough extrude rectangular form through the bushing 4-3 and fall in pot body 1, in order better extrusion to extrude sweet potato dough in funnel 4-2, through the round trip movement of funnel 4-2, extrusion pole two 8-12 that set up can be when contacting with guide slot pole 8-2, the buffer spring 8-9 that sets up moves down to the position that blocks guide slot pole 8-2 with extrusion pole 8-11, the sweet potato dough is driven down in guide cylinder 8-7 and extrusion apron 8-2 to the shape of being convenient for extrusion slot pole 8-2, the sweet potato dough is fallen into pot body 1 in the shape so that the extrusion is convenient for extrude in the strip dough.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (2)

1. The utility model provides a sweet potato powder rotation type anti-caking processingequipment, its characterized in that includes pot body (1), link (2), drive rotary mechanism (3) and unloading control mechanism (4), symmetrical fixedly connected with link (2) on pot body (1), drive rotary mechanism (3) are installed in one side of pot body (1), unloading control mechanism (4) are installed on drive rotary mechanism (3);

the driving rotating mechanism (3) comprises an annular sliding rail (3-1), an annular rack (3-2), a driving motor (3-3), a pinion (3-4), a fixed rack (3-5), a fixing frame (3-6), a cutting blade (3-61), a reciprocating screw (3-7), a rotating gear (3-8), a reciprocating nut (3-9), a sliding rod (3-11), a connecting plate (3-12) and a guide sleeve (3-13), the annular sliding rail (3-1) is fixedly connected to the outer side of the pot body (1), the annular sliding rail (3-1) is internally and slidably connected with the annular rack (3-2), one side of the pot body (1) is fixedly connected with the driving motor (3-3), the pinion (3-4) is fixedly connected to an output shaft of the driving motor (3-3), the pinion (3-4) is meshed with the annular rack (3-2), the fixed rack (3-5) is fixedly connected between the two connecting frames (2), the annular rack (3-2) is symmetrically and fixedly connected with the fixing frame (3-6), one side of the two fixing frames (3-6) is fixedly connected with the cutting blade (3-61), a reciprocating screw (3-7) is connected to a fixing frame (3-6) on one side through a bearing, a rotary gear (3-8) is fixedly connected to one end of the reciprocating screw (3-7), the rotary gear (3-8) is meshed with a fixed rack (3-5), a reciprocating nut (3-9) is connected to the reciprocating screw (3-7) in a sliding mode, a sliding rod (3-11) is fixedly connected to one side of the reciprocating nut (3-9), a connecting plate (3-12) is fixedly connected to the fixing frame (3-6) on the other side, a guide sleeve (3-13) is fixedly connected to one side of the connecting plate (3-12), and the sliding rod (3-11) is in sliding fit with the guide sleeve (3-13);

the blanking control mechanism (4) comprises a guide plate (4-1), a funnel (4-2), a drain pipe (4-3), a fixed rod (4-4), a swinging baffle (4-5), a roller (4-6), a torsion spring (4-7) and a limiting plate (4-8), wherein the guide plate (4-1) is connected to the connecting plate (3-12) in a sliding manner, one end of the guide plate (4-1) is fixedly connected with the funnel (4-2), the drain pipe (4-3) is fixedly connected to the funnel (4-2), the drain pipe (4-3) is fixedly connected with a reciprocating nut (3-9), one side of the funnel (4-2) is fixedly connected with the fixed rod (4-4), the swinging baffle (4-5) is rotationally connected to the fixed rod (4-4), the roller (4-6) is rotationally connected to one side of the swinging baffle (4-5), the torsion spring (4-7) is fixedly connected to the other side of the swinging baffle (4-5), the end of the torsion spring (4-7) is fixedly connected with the drain pipe (4-3), and the fixed frame (4-6) is fixedly connected to the limiting plate (4-6) on one side;

the potato chip conveying device is characterized by further comprising a first rotary transmission gear (5), a second rotary transmission gear (6) and a potato chip conveying mechanism (7), wherein the first rotary transmission gear (5) is fixedly connected to the inner sides of fixing frames (3-6) on two sides, the second rotary transmission gear (6) is fixedly connected to the annular rack (3-2), the potato chip conveying mechanism (7) is vertically arranged on one side of the pot body (1), and the potato chip conveying mechanism (7) is obliquely arranged on a connecting frame (2) on one side;

the potato chip conveying mechanism (7) comprises a mounting frame (7-1), a sliding block (7-2), a first telescopic spring (7-3), a conveying wheel (7-4), a first power wheel (7-5), a connecting spring (7-6), a hollow power wheel (7-7), a connecting rod (7-8) and a second telescopic spring (7-9), wherein the mounting frame (7-1) is vertically connected to one side of the pot body (1), the mounting frame (7-1) is obliquely connected to the connecting frame (2) on one side, the sliding blocks (7-2) are slidably connected in sliding grooves of the mounting frame (7-1), one side of the sliding block (7-2) is fixedly connected with the first telescopic spring (7-3), the end part of the first telescopic spring (7-3) is fixedly connected with the mounting frame (7-1), the other side of the sliding block (7-2) is rotatably connected with the conveying wheel (7-4) on the mounting frame (7-1), the conveying wheel (7-4) on the upper side is connected with the conveying wheel (7-5), a plurality of annular arrays (7-4) on the outer side of the conveying wheel (7-4) are connected with a plurality of the connecting springs (7-6), the hollow power wheels (7-7) are fixedly connected with the end part of the plurality of telescopic springs (7-7), one side of the mounting frame (7-1) is connected with a connecting rod (7-8) in a sliding manner, one end of the driving wheel is fixedly connected with the connecting rod (7-8) through a bearing, a second telescopic spring (7-9) is fixedly connected onto the connecting rod (7-8), and the end part of the second telescopic spring (7-9) is fixedly connected with the mounting frame (7-1).

2. The rotary sweet potato powder anti-caking processing device according to claim 1, further comprising an extrusion blanking mechanism (8), wherein the extrusion blanking mechanism (8) is arranged on one side of the funnel (4-2), the extrusion blanking mechanism (8) comprises an arc-shaped frame (8-1), a guide groove rod (8-2), a hollow frame (8-3), a homing spring (8-4), a clamping rod (8-5), a clamping spring (8-6), a guide cylinder (8-7), an extrusion cover plate (8-8), a buffer spring (8-9), an extrusion rod I (8-11) and an extrusion rod II (8-12), one side of the funnel (4-2) is fixedly connected with the arc-shaped frame (8-1), the guide groove rod (8-2) is slidingly connected with the arc-shaped frame (8-1), a hollow frame (8-3) is fixedly connected with the guide groove rod (8-2), the homing spring (8-4) is fixedly connected with the clamping rod (8-3), one side of the hollow frame (8-3) is slidingly connected with the clamping rod (8-5) and the guide groove (8-5), clamping springs (8-6) are fixedly connected between the clamping rods (8-5) and the hollow frame (8-3), guide cylinders (8-7) are slidably connected on the guide groove rods (8-2), one ends of the guide cylinders (8-7) are connected with extrusion cover plates (8-8), buffer springs (8-9) are fixedly connected between the extrusion cover plates (8-8) and the guide groove rods (8-2), the extrusion rods I (8-11) are fixedly connected to the fixing rods (4-4) on one side, the extrusion rods II (8-12) are connected to one side of the connecting plates (3-12), and the end parts of the extrusion rods II (8-12) are located in grooves of the guide groove rods (8-2).