CN108312203B

CN108312203B - Spiral slicing mechanism

Info

Publication number: CN108312203B
Application number: CN201810158106.2A
Authority: CN
Inventors: 陈灵枝
Original assignee: Nantong Li'anjian Intelligent Technology Co ltd
Current assignee: Nantong Li'anjian Intelligent Technology Co ltd
Priority date: 2018-02-25
Filing date: 2018-02-25
Publication date: 2021-06-08
Anticipated expiration: 2038-02-25
Also published as: CN108312203A

Abstract

The invention relates to a spiral slicing mechanism, which comprises a stick feeding mechanism and a stick driving mechanism, wherein the stick driving mechanism comprises a pipe body with a horizontal pipe core, the pipe diameter of the pipe body is matched with the diameter of a stick, a strip-shaped opening is formed in the pipe wall of the pipe body, a push plate is arranged in the pipe body and fixed on a circulating conveying chain, the push plate penetrates through the strip-shaped opening to extend into a pipe cavity of the pipe body, a material supporting mechanism for supporting potatoes is arranged at the front end of the stick driving mechanism in the moving direction, a chuck for clamping the potatoes is further arranged at the front end of the stick driving mechanism in the moving direction, the chuck rotates and drives the potatoes to rotate around the horizontal axis direction, a fixed blade is further arranged in front of the chuck, the chuck clamps the potatoes, when the potatoes are abutted against a fixed cutter, the spiral slicing of the potatoes is realized, and the automation of the penetration of the potatoes and the spiral slicing can be realized, improving the processing efficiency of the potatoes.

Description

Spiral slicing mechanism

Technical Field

The invention relates to the technical field of potato processing, in particular to a spiral slicing mechanism.

Background

The potatoes can be directly cooked and also can be sliced and fried by a plurality of eating methods, and are particularly suitable for frying or roasting and are deeply loved by eaters. General barbecue or snack shop are at the actual processing, generally wear to establish on the wood let after the potato slice, then fry or handle, and it is lower to wear the mode efficiency of rod to the potato slice through artifical implementation, need several hours preparation in advance just can prepare the quantity once, and the potato after the slice is worn to establish on the wood let back, hardly ensures the homogeneity of arranging of every wood let potato chip, and the arrangement volume of potato chip is many times few. For this reason, there is also a small-sized manual screw slicer for manually slicing potatoes, which can slice potatoes into slices and arrange the slices on sticks, but the above-mentioned screw slicer has a low practical operation efficiency, is only suitable for domestic screw slicing operation, and cannot meet the demand of large amount.

In order to solve the technical problem of low efficiency of the spiral slicing, the applicant filed a system named as a potato spiral slice processing system, which can significantly improve the efficiency of spiral slicing on potatoes, wherein a single potato spiral slicing device in the system can rapidly perform the spiral slicing operation on single potatoes, the most important point for the potatoes is automatic stick threading and the realization of the spiral slicing operation on the potatoes, the problem to be solved for realizing the automatic spiral slicing on the potatoes is also the core problem that the system can realize the spiral cutting efficiency urgently.

Disclosure of Invention

The purpose of the invention is: the utility model provides a spiral section mechanism can realize wearing to sign and spiral section's automation to the potato, improves the machining efficiency of potato.

In order to achieve the purpose, the invention adopts the technical scheme that:

the spiral slicing mechanism comprises a wood stick feeding mechanism, a wood stick driving mechanism is arranged at a discharge hole of the wood stick feeding mechanism, the wood stick driving mechanism drives the wood stick to move horizontally, the wood stick driving mechanism comprises a pipe body with a pipe core horizontal, the pipe diameter of the pipe body is matched with the diameter of the wooden stick, a strip-shaped opening is arranged on the pipe wall of the pipe body, a push plate is arranged in the pipe body and fixed on a circulating conveying chain, the length direction of the circulating conveying chain is parallel to the length direction of the pipe body, the push plate penetrates through the strip-shaped opening to extend into the tube cavity of the tube body, the front end of the wood stick driving mechanism in the moving direction is provided with a material supporting mechanism for supporting potatoes, the wood pick driving mechanism is characterized in that a chuck for clamping the potatoes is further arranged at the front end in the moving direction of the wood pick driving mechanism, the chuck rotates and drives the potatoes to rotate around the horizontal axis, and a fixed blade is further arranged in front of the chuck.

The invention also has the following features:

the quotation of chuck is vertical and is located the mouth of pipe front end setting of body, the core of chuck is provided with the perforation that supplies the stick poling, perforation and body are with the core, and the quotation of keeping away from the mouth of pipe front end of body is provided with the contact pin, the contact pin sets up a plurality ofly along the quotation circumference of chuck, the chuck rotary type sets up on the movable support, the movable support slides and sets up on the slide bar, the length direction of the pole length direction of slide bar is parallel with the length direction of body, the one end setting of slide bar is on the fixed bolster, and actuating mechanism drive movable support slides along the slide bar and the interlock chuck is close to or keeps away from with fixed blade.

The rod end of slide bar is provided with the baffle, the other end and the fixed bolster of slide bar rotate to be connected, be provided with the interlock mechanism between movable support and the slide bar, the movable support slides along the slide bar and when being close to the baffle, the interlock mechanism interlock slide bar is located the fixed bolster and rotates and make the formation that the baffle is located the chuck dodge, the movable support slides along the slide bar and when being close to the chuck, the interlock mechanism interlock slide bar is located the fixed bolster and rotates and make the baffle be located the quotation front end of chuck.

The linkage mechanism comprises a linkage plate arranged on a movable support, the linkage plate is of a semi-arc plate-shaped structure, one end of the linkage plate is fixed on the movable support, the inner wall of the linkage plate is provided with a spiral guide groove, one end of the spiral guide groove is positioned on the end face of the other end of the linkage plate, the other end of the spiral guide groove extends to a position on one side face of the linkage plate, a shift lever is vertically arranged on a lever body of the slide rod, the cross section of the shift lever is circular, when the movable support slides along the slide rod and is close to a baffle, the lever body of the shift lever and a notch at one end of the spiral guide groove are positioned on the same straight line, when the movable support slides along the slide rod and is close to a chuck, the shift lever is positioned in the notch of the spiral guide groove, a sliding strip is arranged below the notch at one side face of the linkage plate in the spiral guide groove, the shifting rod is arranged between the upper plate surface of the sliding strip and one side surface of the linkage plate in a sliding mode, the distance between the upper plate surface of the sliding strip and one side surface of the linkage plate is matched with the diameter of the shifting rod, and when the baffle is located at the front end of the disc surface of the chuck, the gravity center of the baffle is located on two sides right above the rod core of the sliding rod.

One end of the driving slide bar is fixed on the movable support and is parallel to the slide bar, the other end of the driving slide bar extends out of the fixed support, one end of the driving slide bar, which extends out of the fixed support, is provided with an electromagnetic coil, the electromagnetic coil is fixed on the fixed support, a rod body of the driving slide bar is sleeved with a return spring, and two ends of the return spring are respectively connected with the movable support and the fixed support; the one end that the chuck stretches out the movable support is provided with driven gear, driven gear side meshing has drive gear, drive gear's wheel core is connected with the pivot of second motor, the second motor is fixed on the movable support, the supporting roller is located the mouth of pipe front end top of body and arranges.

The material supporting mechanism comprises two material supporting rods which are arranged in parallel at intervals, the length directions of the two material supporting rods are parallel to the length direction of the pipe body and are arranged below the front end of the pipe orifice of the pipe body, the distance between the two material supporting rods is larger than the width size of the movable support, and the fixed blade is fixed on the material supporting rods and is arranged in front of the baffle.

The wood swab feeding mechanism comprises a box body for placing wood swabs, a frustum-shaped structure with a small upper part and a large lower part is formed between the cross sections of the box opening of the box body, a strip-shaped discharge opening is formed in the box opening of the box body, the width of the strip-shaped discharge opening is matched with the diameter of the wood swabs, the length direction of the strip-shaped discharge opening is parallel to the length direction of the pipe body, the strip-shaped discharge opening is formed in the outer wall of the pipe body and is located below the strip-shaped discharge opening, an ejector plate is arranged in the box body, the length direction of the ejector plate is parallel to the cross section of the box opening of the box body, an ejector rod is arranged on the lower plate surface of the ejector plate, a spring is sleeved on the ejector rod, the upper end and the lower end of the spring are respectively abutted against the; two closed ends of the circulating conveying chain are provided with supporting rollers, one of the supporting rollers is connected with an output shaft of the first motor, and two pushing plates are arranged on the outer side of the circulating conveying chain.

Compared with the prior art, the invention has the technical effects that: the leading-in foretell stick actuating mechanism's of wood let of foretell stick feed mechanism body in, the circulation action of circulation conveying chain, thereby make the push pedal slide along the pipe length direction of body, and then make the wood let slide along the pipe wall of body and derive by the mouth of pipe, implement the stick inserting action to the potato, this body can realize the direction to the wood let, avoid the wood let bending or rupture to appear, foretell potato is placed on holding in the palm the material mechanism, utilize foretell chuck to implement the card of potato one end, and start chuck rotation and interlock potato and rotate around horizontal axis direction, when leaning on with fixed cutter, thereby realize the spiral section to the potato, and realize the automation to inserting the stick, this mechanism can realize wearing the automation of stick and spiral section to the potato, improve the machining efficiency of potato.

Drawings

FIG. 1 is a schematic diagram of a potato spiral slice processing system;

FIG. 2 is a schematic structural view of a potato spiral slicing apparatus;

FIG. 3 is a schematic view of the potato slicing screw assembly after it has been removed from the housing;

fig. 4 is a schematic structural view of fig. 3 after the finished product receiving and transferring mechanism is removed;

FIGS. 5a to 5i are schematic views of a potato spiral slicing apparatus in 9 states for slicing a potato spiral;

fig. 6 and 7 are schematic structural diagrams of two viewing angles of the linkage plate;

fig. 8 and 9 are schematic diagrams of two states of the linkage plate, the sliding rod and the sliding strip;

fig. 10 and fig. 11 are schematic diagrams of two states of the end surfaces of the linkage plate, the sliding rod and the sliding strip;

FIG. 12 is a schematic view of the structure of the stick feeding mechanism;

FIGS. 13 and 14 are schematic views showing two states of the potato supply structure in the state of matching the discharge port with the material supporting mechanism;

FIGS. 15 and 16 are schematic side views of a potato feeding structure with a discharge opening engaged with a material supporting mechanism;

FIG. 17 is a schematic view of the end surface of the potato feeding structure with the discharge port engaged with the material supporting mechanism;

FIG. 18 is a schematic view of the end face configuration of the shaft of the kickoff roller engaging the sidewall of the discharge opening of the potato feeding structure;

FIG. 19 is a top view of a supply stand;

fig. 20 is a schematic structural view of a fixed frame;

FIG. 21 is a schematic structural view of a basket;

FIG. 22 is a schematic view of the basket secured within the fixed frame;

FIG. 23 is a schematic cross-sectional view of a basket secured within a fixed frame;

fig. 24 to 30 are schematic views showing 7 states of the finished product receiving and transferring mechanism and the finished product receiving mechanism.

Detailed Description

The invention will be further explained with reference to fig. 1 to 30:

in order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

The following describes the spiral slicing mechanism of the present invention in detail with reference to the entire potato spiral slice processing system:

before introducing this system, at first need prepare material, utilize screening installation to sieve out the potato of size even, shape standard to ensure the finished product uniformity of potato after the spiral section, the potato sanitization that will sieve out and peel, thereby ensure the surface health of potato, and shift to and process in this system of processing, this system of processing can effectively improve the efficiency of wearing the rod to potato spiral slicer, the specific characteristics of this system of processing are explained in detail below:

potato spiral slice system of processing, including potato spiral slice device, potato spiral slice device parallel interval sets up a plurality ofly, potato spiral slice device includes wood let feed mechanism 10, wood let feed mechanism 10's discharge gate is provided with wood let actuating mechanism 20, wood let actuating mechanism 20 drive wood let horizontal migration, wood let actuating mechanism 20's direction of movement front end is provided with the support material mechanism 30 that is used for bearing the potato, and power unit drive holds in the palm material mechanism 30 and reciprocates between potato feed mechanism 40's export and wood let actuating mechanism 20's front end, wood let actuating mechanism 20's direction of movement front end still is provided with the chuck 50 that is used for the card to block the potato, and chuck 50 rotates and drives the potato and rotate around horizontal axis direction, chuck 50's the place ahead still is provided with fixed blade 60, and the system still includes finished product transfer receiving mechanism and finished product receiving mechanism, the finished product receiving and transferring mechanism receives the finished product and moves back and forth between the discharging side of the fixed blade 60 and the finished product receiving mechanism;

referring to fig. 1 to 5i, the above-mentioned potato feeding is realized by an automatic potato feeding mechanism 40, a stick driving mechanism 10 is used to horizontally eject and insert the sticks onto the potatoes, a potato supporting mechanism 30 is used to support the potatoes and reset to the front end of a chuck 50, the rotating chuck 50 is used to rotate the potatoes, the rotating and horizontally moving potatoes abut against a fixed blade 60, so as to realize fast spiral slicing of the potatoes, during the movement of the stick driving mechanism 10, the spirally sliced potatoes are uniformly distributed on the sticks, after the potato slices are inserted into the sticks, the finished product receiving and transferring mechanism is used to receive the finished products, and the finished product receiving and transferring mechanism is used to transfer the finished products to the receiving mechanism for packaging, so that the processing system can significantly improve the efficiency of penetrating the potato spiral slices, improving the processing efficiency of the potatoes.

Preferably, as shown in fig. 1 and 13 to 18, an outlet of the potato feeding mechanism 40 is located above the material supporting mechanism 30, the power mechanism drives the material supporting mechanism 30 to move vertically and to be close to or far from the outlet of the potato feeding mechanism 40, a trigger unit is arranged on the material supporting mechanism 30, an outlet of the feeding mechanism 40 is provided with a discharging unit, and when the material supporting mechanism 30 is close to the outlet of the potato feeding mechanism 40, the trigger unit abuts against the discharging unit and is linked with the single discharging action of the potatoes of the potato feeding mechanism 40;

during foretell potato feed, at first make the import potato feeding mechanism 40's of potato after peeling exit, when power unit drive holds in the palm material mechanism 30 vertical movement and is close to with potato feeding mechanism 40's exit, trigger unit supports with discharge unit and leans on and the single ejection of compact of interlock potato feeding mechanism 40 potato to fall into and hold in the palm on material mechanism 30, whole spiral section mechanism implements the spiral section to single potato afterwards, consequently this potato feeding mechanism 40 and the interlock feed of holding in the palm material mechanism 30, can realize the accurate feed to the potato, improve the automatic level of feed.

Preferably, as shown in fig. 1 and fig. 24 to fig. 30, a basket 70 is disposed above the finished product receiving mechanism, the finished product receiving and transferring mechanism receives the finished product, which is located on the discharging side of the fixed blade 60 and above the opening of the basket 70, and reciprocates, a hanging mechanism is disposed above the basket 70, and the hanging mechanism drives the basket 70, which is located on the finished product receiving mechanism and inside the cavity of the water tank, to reciprocate;

in order to ensure the frying or baking quality of the spiral-sliced potatoes, the hanging basket 70 can be driven by the hanging mechanism to move back and forth in the finished product receiving mechanism and the groove cavity of the water groove, so that the surfaces of the spiral-sliced potatoes can be cleaned, the starch on the surfaces of the potatoes can be cleaned and removed, the crispness and color of the fried potatoes are improved, the surface color of the fried or baked potatoes is better, and the taste is better.

Further, as shown in fig. 2 to 4, the swab driving mechanism 20 includes a tube body 21 with a horizontal tube core, a tube diameter of the tube body 21 is matched with a diameter of the swab, a strip-shaped opening 211 is formed in a tube wall of the tube body 21, a push plate 22 is arranged in the tube body 21, the push plate 22 is fixed on a circulating conveying chain 23, a length direction of the circulating conveying chain 23 is parallel to a length direction of the tube body 21, and the push plate 22 penetrates through the strip-shaped opening 211 and extends into a tube cavity of the tube body 21; two closed ends of the circulating conveying chain 23 are provided with supporting rollers 24, one of the supporting rollers 24 is connected with an output shaft of the first motor, and two push plates 22 are arranged on the outer side of the circulating conveying chain 23;

the wood sticks are thin, so that the wood sticks are directly inserted into the peeled potatoes and are easily broken, the wood sticks are difficult to insert into the potatoes in actual operation, the wood sticks are guided into the tube cavity of the tube body 21, the first motor is started, the circulating conveying chain 23 is driven, the push plate 22 penetrates through the strip-shaped opening 211 and is located in the tube cavity of the tube body 21 to move, the wood sticks are pushed to move along the length direction of the tube cavity of the tube body 21, the wood sticks are guided, the problem that the wood sticks are bent and broken is solved, and the wood sticks can be ensured to be inserted into and penetrate through the potatoes; two push plates 22 on the circulating conveying chain 23 are arranged, so that continuous feeding of the wood sticks can be realized, and the efficiency of spiral slicing and stick inserting of the potatoes can be obviously improved;

the above-mentioned circulating conveying chain 23 can be located at the front end of the pipe orifice of the pipe body 21 and extend to a section, so as to ensure that the wooden sticks are completely pushed out of the pipe body 21, and the subsequent finished product taking operation is facilitated.

Preferably, as shown in fig. 12, the stick feeding mechanism 10 includes a box 11 for placing sticks, the box mouth of the box body 11 is in a frustum structure with a small upper part and a big lower part, the box mouth of the box body 11 is provided with a strip-shaped discharge hole 12, the width of the strip-shaped discharge port 12 is matched with the diameter of the wood stick, the length direction of the strip-shaped discharge port is parallel to the length direction of the pipe body 21, the outer wall of the pipe body 21 is provided with a strip-shaped feed inlet 212, the strip-shaped discharge outlet 12 is arranged below the strip-shaped feed inlet 212, an ejector plate 13 is arranged in the box body 11, the length direction of the ejector plate 13 is parallel, the cross section of the ejector plate is matched with the cross section of the box opening of the box body 11, the lower plate surface of the ejector plate 13 is provided with an ejector rod 14, the ejector rod 14 is sleeved with a spring 15, the upper end and the lower end of the spring 15 are respectively abutted against the lower plate surface of the ejector plate 13 and the box bottom of the box body 11, and the lower end of the ejector rod 14 extends out of the box bottom of the box body 11 and is provided with a pull rod 16;

the length dimension of the box body 11 is matched with the length of the wooden sticks, when the wooden sticks are actually placed, the pull rod 16 is pulled manually, so that the ejector plate 13 moves downwards, a plurality of wooden sticks in a bundle are placed on the upper plate surface of the ejector plate 13 in a stacking mode, the box opening of the box body 11 is arranged in a small-top-down mode, two sides of the box opening are provided with inclined surfaces, when the ejector plate 13 is under the elastic force of the spring 15, the ejector plate 13 is guided out of the strip-shaped discharge hole 12 of the box body 11 to the strip-shaped feed hole 212, feeding of the wooden sticks is achieved, the upper end of the ejector plate 13 is matched with the contour of the box opening of the box body 11, and therefore all the wooden sticks in the box body 11 can be ejected out of the strip-shaped discharge hole 12; when the above described stick feeding mechanism 10 is used to continuously feed sticks, the thickness of the pushing plate 22 can be selected to be a large value, so as to avoid the skewness of the sticks ejected from the strip-shaped discharge hole 12 entering the strip-shaped feed hole 212, thereby realizing the continuous feeding of the sticks and avoiding the jamming problem of the sticks.

Further, as shown in fig. 2 to 4, the disk surface of the chuck 50 is vertical and is located at the front end of the pipe orifice of the pipe body 21, the core of the chuck 50 is provided with a through hole 51 for allowing a wood stick to penetrate through the pipe, the through hole 51 is concentric with the pipe body 21, the disk surface of the chuck 50 far away from the front end of the pipe orifice of the pipe body 21 is provided with a plurality of pins 52, the pins 52 are circumferentially arranged along the disk surface of the chuck 50, the chuck 50 is rotatably arranged on a movable support 53, the movable support 53 is slidably arranged on a sliding rod 54, the rod length direction of the sliding rod 54 is parallel to the length direction of the pipe body 21, one end of the sliding rod 54 is arranged on a fixed support 55, and a driving mechanism drives the movable support 53 to slide along the sliding rod 54 and drives the chuck 50 and a;

referring to fig. 5a to 5i, when the material supporting mechanism 30 receives the potatoes at the outlet of the potato feeding mechanism 40 and descends, the sticks are guided out from the nozzle of the tube 21 and out from the through holes 51 of the chuck 50 until the potatoes penetrate through, the chuck 50 can also guide the sticks, when the sticks penetrate through the potatoes, the first motor is stopped, so that the circulating conveying chain 23 is stopped, the driving mechanism drives the movable bracket 53 to slide along the sliding rod 54 and the chuck 50 is linked to be close to the fixed blade 60, so that the pins 52 on the disk surface of the chuck 50 are inserted into one end of the potatoes, so as to clamp the potatoes, the chuck 50 rotates, the driving mechanism continues to drive the movable bracket 53 of the chuck 50 to slide along the sliding rod 54, when the other end of the potatoes abuts against the fixed blade 60, the first motor is started at this time, so as to realize spiral slicing of the potatoes, and uniformly distribute the sliced potatoes on the sticks, until the potato is completely spirally sliced;

the cutting edge of the fixed blade 60 is close to the through hole 51 of the chuck 50, but there is a certain distance, and the cutting edge of the fixed blade 60 is arranged at an angle with the through hole 51 of the chuck 50, so that not only the shape of the spiral slice of the potato can be ensured, but also the cutting condition of the spiral slice can be avoided.

Further, a baffle 56 is arranged at a rod end of the slide rod 54, the other end of the slide rod 54 is rotatably connected with a fixed support 55, an interlocking mechanism is arranged between the movable support 53 and the slide rod 54, when the movable support 53 slides along the slide rod 54 and approaches the baffle 56, the interlocking mechanism interlocks the slide rod 54 to rotate at the fixed support 55 and enables the baffle 56 to be positioned at the chuck 50 to form an avoidance, and when the movable support 53 slides along the slide rod 54 and approaches the chuck 50, the interlocking mechanism interlocks the slide rod 54 to rotate at the fixed support 55 and enables the baffle 56 to be positioned at the front end of the disk surface of the chuck 50;

the rod end of the slide rod 54 is provided with the baffle 56, the driving mechanism is started, when the chuck 50 is close to the fixed blade 60, the baffle 56 can clamp and limit one end of the potato, so that the stick can conveniently penetrate and penetrate through one end of the potato, the problem that the stick cannot penetrate through the potato due to the movement of the potato caused by the conveying action of the circulating conveying chain 23 is avoided, the pins 52 of the chuck 50 can be conveniently inserted into one end of the potato, the potato deviation caused by the movement of the chuck 50 is avoided, the number of the pins 52 is not too large, the length is not too long, the potato is preferably clamped and rotated, when the movable support 53 slides along the slide rod 54 and is close to the baffle 56, the linkage mechanism can link the slide rod 54 to be positioned on the fixed support 55 to rotate, so that the chuck 50 can move to avoid, so that one end of the potato abuts against the fixed blade 60 to achieve a spiral slicing and even distribution of the potato on the stick.

Preferably, as shown in fig. 6 to 11, the linkage mechanism includes a linkage plate 57 disposed on the movable support 53, the linkage plate 57 is a semi-arc plate-shaped structure, one end of the linkage plate 57 is fixed on the movable support 53, a spiral guide groove 571 is disposed on an inner wall of the linkage plate 57, one end of the spiral guide groove 571 is located on an end surface of the other end of the linkage plate 57, the other end of the spiral guide groove 571 extends to a lateral surface of the linkage plate 57, a rod body of the sliding rod 54 is vertically provided with a shift rod 541, a cross section of the shift rod 541 is circular, when the movable support 53 slides along the sliding rod 54 and is close to the baffle 56, the rod body of the shift rod 541 and a notch at one end of the spiral guide groove 571 are located on the same straight line, when the movable support 53 slides along the sliding rod 54 and is close to the chuck 50, the shift rod 541 is located in a notch of the spiral, the spiral guide groove 571 is provided with a sliding bar 58 below the notch on one side of the linkage plate 57, the length direction of the sliding bar 58 is parallel to the sliding rod 54, the shift lever 541 is slidably arranged between the upper plate surface of the sliding bar 58 and one side of the linkage plate 57, the distance between the upper plate surface of the sliding bar 58 and one side of the linkage plate 57 is matched with the diameter of the shift lever 541, and when the baffle 56 is positioned at the front end of the disk surface of the chuck 50, the gravity center of the baffle 56 is positioned at two sides right above the rod core of the sliding rod 54;

the linkage plate 57 is tile-shaped, the end face of the linkage plate 57 is fixed on the movable support 53, the movable support 53 is strip-shaped, the upper driving mechanism drives the movable support 53 to slide along the sliding rod 59, the shift lever 541 is located between the upper plate surface of the sliding strip 58 and one side surface of the linkage plate 57, when the linkage plate 57 continues to move and the shift lever 541 is separated from the other end of the linkage plate 57, the baffle 56 rotates under the action of self gravity, so that the sliding rod 59 is located on the fixed support 55 to form avoidance for movement of the potato spiral slices, and when the baffle 56 rotates to the lower side, the shift lever is located in front of one end of the spiral guide groove 571 on the end face of the other end of the linkage plate 57;

referring to fig. 10 and 11, when the chuck 50 is reset, the above-mentioned rod 541 is located at the notch position of the spiral guide groove 571, and until the rod 541 slides along the spiral guide groove 571, so that the sliding rod 59 rotates, and the gravity center of the baffle 56 is located at the side right above the rod core of the sliding rod 54, the baffle 56 falls on the upper plate surface of the sliding strip 58 under the action of its own gravity, and when the driving mechanism operates to move the interlocking chuck 50 toward the fixed cutter 60, the rod 541 slides along the upper plate surface of the sliding strip 58 until the rod 541 is separated from the other end of the interlocking plate 57, so that the interlocking mechanism can improve the convenience of positioning the potatoes and simplify the structure of the whole system when in actual use.

Specifically, the driving mechanism comprises a driving sliding rod 59, one end of the driving sliding rod 59 is fixed on the movable support 53 and is parallel to the sliding rod 54, the other end of the driving sliding rod 59 extends out of the fixed support 55, an electromagnetic coil 591 is arranged at one end of the driving sliding rod 59 extending out of the fixed support 55, the electromagnetic coil 591 is fixed on the fixed support 55, a return spring 592 is sleeved on the rod body of the driving sliding rod 59, and two ends of the return spring 592 respectively abut against the movable support 53 and the fixed support 55;

the electromagnetic coil 591 is fixed on the fixed bracket 55 and is in a fixed state, when the electromagnetic coil 591 is energized, suction force can be generated, the driving slide rod 59 is an iron rod, electromagnetic force can enable the driving slide rod 59 to overcome the return spring 592 so that the chuck 50 is in a position close to the nozzle of the tube body 21, and when the electromagnetic coil 591 is de-energized, under the action of the elastic force of the return spring 592, the chuck 50 slides along the slide rod 59, so that clamping and pin fixing of potatoes are realized.

Specifically, a driven gear 501 is arranged at one end of the chuck 50 extending out of the movable support 53, a driving gear 502 is meshed with the side of the driven gear 501, a wheel core of the driving gear 502 is connected with a rotating shaft of a second motor 503, the second motor 503 is fixed on the movable support 53, and the supporting rollers 24 are arranged above the front end of the pipe orifice of the pipe body 21; the second motor 503 is fixed on the movable bracket 53, can move along with the chuck 50, and drives the driven gear 501 to rotate by using the driving gear 502 of the second motor 503, thereby realizing the spiral pushing and slicing operation for the potatoes.

Further, as shown in fig. 2 to 4, the material supporting mechanism 30 includes two material supporting rods 31 arranged in parallel at intervals, the length direction of the two material supporting rods 31 is parallel to the length direction of the pipe body 21 and is located below the front end of the pipe orifice of the pipe body 21, the distance between the two material supporting rods 31 is greater than the width dimension of the movable bracket 53, the lower ends of the two material supporting rods 31 are connected into a whole and fixed with the piston rod of the first cylinder 32, the piston rod of the first cylinder 32 is arranged vertically upward, the first cylinder 32 acts and is close to or far away from the outlet of the potato feeding mechanism 40, and the fixed blade 60 is fixed on the material supporting rods 31 and is located in front of the baffle 56;

the width of the movable support 53 should be smaller than the distance between the two material supporting rods 31, so as to form an avoidance to the movement of the movable support 53, and the first air cylinder 32 can drive the two material supporting rods 31 to move up and down and be close to or far away from the outlet of the potato feeding mechanism 40, so as to receive the potatoes.

Further, as shown in fig. 13 and 14, in order to realize automatic discharging of potatoes, an outlet cross section of the potato feeding mechanism 40 is rectangular, an outlet length direction of the potato feeding mechanism 40 is parallel to length directions of the two material supporting rods 31, a material stirring roller 41 is arranged in an outlet of the potato feeding mechanism 40, a roller core of the material stirring roller 41 is parallel to the outlet length direction of the potato feeding mechanism 40, four material stirring plates 42 are arranged at equal intervals in the circumferential direction of the roller core of the material stirring roller 41, a clamping groove for clamping potatoes is formed between the adjacent material stirring plates 42, an outlet of the potato feeding mechanism 40 includes first and

second pipe walls

401 and 402, the pipe walls of the first and

second pipe walls

401 and 402 are arc-shaped plate structures, and the curvature of the first pipe wall 401 is greater than that of the second pipe wall 402;

foretell plectrum roller 41 is horizontal in the exit of feed mechanism 40, the potato can drop automatically to the draw-in groove between the adjacent plectrum 42 of plectrum roller 41, rotate through stirring plectrum roller 41, thereby make the potato roll along first pipe wall 401, until exporting the potato from feed mechanism 40's export, foretell first,

second pipe wall

401, 402's pipe wall is arc plate structure, can make the potato roll along first pipe wall 401, and avoid the potato to get into the clearance position department between the second pipe wall 402, thereby can ensure to realize exporting by feed mechanism 40's a list the potato, improve the automatic level of potato feed.

Further, as shown in fig. 15 to 17, one end of the material poking roller 41 extends out of the outer wall of the outlet of the potato feeding mechanism 40, one end of the material poking roller 41 is provided with a driving roller 43, a poking sheet 431 is arranged on the roller surface of the driving roller 43, one end of the material supporting rod 31 is provided with a poking rod 311 in an extending manner, the poking rod 311 is vertically extended and is provided with a poking block 312 in an extending manner, the hinge shaft of the poking block 312 is horizontal and parallel to the roller core of the driving roller 43, the end of the poking block 312 is abutted against or separated from the poking sheet 431, the extending end of the poking rod 311 is provided with a limiting plate 313 and a spring plate 314, the spring plate 314 is abutted against the upper plate surface of the poking block;

the lifting rod 311 is arranged at one end of the material supporting rod 31 in an extending mode, the lifting rod 311 extends vertically, the extending end of the lifting rod 311 is hinged to the shifting block 31, when the first air cylinder 32 drives the shifting block 31 to abut against the shifting piece 431 of the driving roller 43, the driving roller 43 can be rotated, the limiting plate 313 limits the rotation of the shifting block 312, when the lifting rod 311 rises, the shifting block 31 is in rigid contact with the shifting piece 431, the driving roller 43 can be shifted to rotate, the material shifting roller 41 rotates in a linkage mode, single potatoes are led out, and when the lifting rod 311 descends, the shifting block 312 is in contact with the shifting piece 431, so that the spring piece 314 deforms, and the driving roller 43 is avoided.

Preferably, one end of the material stirring roller 41 is rotatably arranged at the outer wall of the outlet of the potato feeding mechanism 40, a rotating shaft at one end of the material stirring roller 41 is provided with four notches 403, the notches 403 are equidistantly arranged along the circumferential direction of the material stirring roller 41, the adjacent notches 403 are in arc transition, an elastic sheet 404 is arranged beside the rotating shaft at one end of the material stirring roller 41, one end of the elastic sheet 404 is provided with a clamping head 405, and the clamping head 405 is abutted against or separated from the bottom of the notch 403;

as shown in fig. 18, when the dial piece 431 is dialed by the dial block 312 at the upper end of the dial 311, the driving roller 43 can rotate, the notch 403 of the dial roller 41 overcomes the elastic deformation of the elastic piece 404 of the clamping head 405, so that the dial clamping head 405 rotates 45 degrees, and the clamping head 405 abuts against the bottom of the notch 403, so that the rotation of the dial roller 41 is limited, the potatoes are led out singly, the elastic force of the elastic piece 404 is far greater than that of the spring piece 314, the normal falling of the dial 311 can be ensured, and the reverse rotation of the dial roller 41 can be avoided.

More preferably, and as shown in conjunction with fig. 1 and 19, the potato feed mechanism 40 includes a feed rack 42 disposed above the potato slicing screw, the cloth arranging rollers 43 are arranged in the feeding frame 42 in parallel at intervals, the feeding side of the feeding frame 42 is positioned below the discharge port of the spiral elevator 44, the feed inlet of the spiral elevator 44 is connected with the discharge outlet of the material conveyer belt 45, a material distributing plate 46 is arranged below the discharge side of the feed frame 42, the distributing plate 46 is obliquely arranged, a plurality of distributing wedges 47 are arranged on the upper plate surface of the distributing plate 46, the distance between every two adjacent distributing wedges 47 is matched with the length direction of the potatoes, the lower end of the material distributing plate 46 is provided with a material outlet pipe 48, the upper end pipe orifice of the material outlet pipe 48 is arranged below the position between the adjacent material distributing wedge blocks 47, the tube cavities of the discharge tubes 48 are spirally arranged, and the length direction of the tube cavity at the upper end is vertical to that of the tube cavity at the lower end;

the peeled potatoes are placed on a material conveying belt 45, the peeled potatoes are guided into a feed inlet of a spiral lifting machine 44 by the material conveying belt 45, the peeled potatoes are guided to a distribution roller 43 of a feed frame 42 by the spiral lifting machine 44, the potatoes are effectively guided by the rotary distribution roller 43, the length direction of the potatoes is parallel to the length direction of the distribution roller 43 and are distributed along the distribution roller 43 until the potatoes roll down to a distribution plate 46 below the discharge side of the feed frame 42, under the distributing action of a distribution wedge 47, the potatoes slide along a channel formed by the distribution wedge 47 and the distribution plate 46 under the self-gravity action of the potatoes, and the single potatoes enter an upper pipe opening of a discharge pipe 48 towards the channel, and because the pipe cavity of the discharge pipe cavity 48 is spirally distributed and the length direction of the pipe cavity at the upper end is vertical to the length direction of the pipe cavity at the lower end, the length direction of the potatoes can be adjusted, so as to ensure that the potatoes at the discharge port of the lower pipe opening of the discharge pipe 48 keep the same length as that of the material supporting rod 31, thereby facilitating the discharge of the potatoes.

More preferably, as shown in fig. 2 and 3 and fig. 24 to 30, the finished product receiving and transferring mechanism includes a receiving rod 101, the receiving rod 101 is parallel to the tube 21, a towing rod 102 is disposed at an interval between the rods of the receiving rod 101, a receiving block 103 is disposed at a rod end of the towing rod 102, an opening 1031 is disposed on the receiving block 103, the opening 1031 is inclined upward, two side walls of the opening 1031 are inclined surfaces, one end of the receiving rod 101 is connected to a rotating shaft of a third motor 104, the third motor 104 is fixed on a sliding rail 105, the third motor 104 is connected to a piston rod of a second cylinder 106, the piston rod of the second cylinder 106 is horizontal and parallel to the receiving rod 101, a sliding guide frame 110 is disposed above the basket 70, the sliding guide frame 110 includes two sliding guide rods 111 disposed above two sides of the basket 70, the sliding guide rods 111 are disposed in parallel at an interval, and have a distance matching with a diameter of a stick, a sliding guide plate 112 is arranged at the upper end of the sliding guide rod 111, the sliding guide plate 112 is obliquely arranged, and the lower end of the sliding guide plate 112 is arranged beside the upper end of the sliding guide rod 111;

after the potato is spirally sliced and evenly distributed on the wood sticks, the third motor 104 is activated to rotate the material receiving rod 101 to a position where the opening 1031 of the material holding block 103 is located at the front lower position of the chuck 50, the wood sticks are caught in the opening 1031 to perform the setback of the spirally sliced finished products, the third motor 104 is reversely rotated to vertically lower the material holding block 103, the opening of the opening 1031 is inclined upward to prevent the wood sticks from falling, the second cylinder 106 is activated to slide the third motor 104 along the slide rail 105, the third motor 104 is reversely rotated to suspend the material holding block 103 to a left position so that the opening of the opening 1031 is inclined downward, the unloaded finished products slide along the slide guide plate 112 of the slide guide frame 110 and slide to an upper end position of the slide guide rod 111 and the wood sticks slide downward along the slide guide rod 111, so as to move out of the sliding guide rod 111, and further facilitate the discharge of the finished product, and the third motor 104 is reset until the carrying of a new finished product is performed again.

Furthermore, the finished product receiving mechanism comprises a horizontal conveying belt 120, a belt surface of the horizontal conveying belt 120 is horizontal, and the length direction of the belt surface is perpendicular to the length direction of the material receiving rod 101, a fixed frame 130 is arranged on an upper belt surface of the horizontal conveying belt 120, the basket 70 is arranged in a frame opening of the fixed frame 130, and the horizontal conveying belt 120 drives the outlet of the fixed frame 130, which is positioned at the lower end of the sliding guide rod 111, to reciprocate;

the finished product receiving mechanism is arranged at the front end of each potato spiral slicing device, the fixed frame body 130 is arranged at the front end of each potato spiral slicing device, the hanging basket 70 is arranged in the frame opening of the fixed frame body 130, the fixed frame body 130 moves on the horizontal conveying belt 120 in a mode of forming a fixed frame and a movable frame until the hanging basket 70 is filled, the hanging basket 70 filled with the finished product is drawn out of the fixed frame body 130 by the hanging mechanism and is hung in the water tank, and the starch on the surface of the potatoes is washed.

Referring to fig. 20 to 23, the hanging basket 70 includes support strips 71 vertically arranged at intervals, strip-shaped bayonets 711 are provided on the support strips 71, the strip-shaped bayonets 711 are vertically arranged and have a width dimension matching with the diameter of the stick, adjacent support strips 71 are connected into a whole through connecting strips 72, the support strips 71 form two side walls of the hanging basket 70, connecting plates 73 are respectively provided on two sides of the support strips 71, the connecting plates 73 form the other two side walls of the hanging basket 70, the upper end of the connecting plates 73 is higher than the upper ends of the support strips 71, hanging rods 74 are provided on the connecting plates 73, connecting rods 741 are vertically provided at two ends of the hanging rods 74, the connecting rods 741 are rotatably connected with the connecting plates 73, the rotating shafts of the connecting rods 741 are horizontal and perpendicular to the conveying direction of the horizontal conveying belt 120, the length direction of the hanging rods 74 is horizontal and perpendicular to the conveying direction of the horizontal, a limiting plate 731 is arranged on the connecting plate 73, the connecting rod 741 is abutted to or separated from the upper plate surface of the limiting plate 731, a hook 742 is arranged at the middle section of the hanger rod 74, the hanging mechanism and the hook 742 form a hook fit, a spring sheet 131 is arranged on the inner wall of the fixed frame 130, and the spring sheet 131 is abutted to the connecting plate 73 of the basket 70;

the horizontal conveyor belt 120 drives the fixed frame body 130 to move, the moving mode of the horizontal conveyor belt 120 is a progressive state, the supporting slat 71 at the foremost end is provided with a strip-shaped bayonet 711 at a position below the lower end outlet of the sliding guide rod 111, when the finished product in the strip-shaped bayonet 711 at the position is full, the horizontal conveyor belt 120 is started, so that the fixed frame body 130 moves for a distance, the strip-shaped bayonet 711 of the adjacent supporting slat 71 is located at a position below the lower end outlet of the sliding guide rod 111, and the finished product loading of the strip-shaped bayonet 711 of the adjacent supporting slat 71 is realized until the whole hanging basket 70 is full;

the limiting plate 731 can effectively limit the connecting rod 741, so that the frame surface formed by the hanger rod 74 and the connecting rod 741 is horizontal, and the hanging mechanism and the hook 742 are conveniently hooked and matched, so that the hanging basket 70 is conveniently hooked;

when the finished product is guided and guided into the strip-shaped bayonets 711 provided on the support strips 71 by the sliding guide frame 110, the position requirement of the basket 70 is extremely high, so that the position fixing requirement between the basket 70 and the fixed frame 130 is extremely high, the position accuracy of the fixed frame 130 can be ensured first, the elastic sheet 131 abuts against the connecting plate 73 of the basket 70, when the basket 70 is re-installed into the fixed frame 130, the elastic sheet 131 can enable one side wall of the basket 70 to be tightly attached to one side wall of the fixed frame 130, so that the position of the basket 70 can be conveniently determined, the finished product of the sliding guide frame 110 can be ensured to slide correctly into the strip-shaped bayonets 711 provided on the support strips 71 of each row of the basket 70, and the loading operation of the basket 70 is conveniently realized.

With reference to fig. 5a to 5i, the following operation of the system is briefly described as follows:

putting potatoes into the potato feeding mechanism 40, starting the material supporting mechanism 30 to support the potatoes at the outlet position of the potato feeding mechanism 40, starting the wood pick driving mechanism 20 to move wood picks along the tube length direction of the tube body 20 until the wood sticks are inserted in the potato length direction, powering off the electromagnetic coil 591, resetting the chuck 50 under the elastic resetting force of the resetting spring 592, starting the second motor 503 to rotate the chuck 50 until the potatoes are abutted against the fixed blade 60, realizing the stick inserting operation of the spiral slicing machine for the potatoes, after the potatoes are cut, actuating the finished product material receiving and transferring mechanism to receive the finished product wood picks, powering on the electromagnetic coil 591 to separate the wood picks from the disk surface of the chuck 50, actuating the finished product material receiving and transferring mechanism to transfer the finished product material to the finished product supporting mechanism until the basket 70 is filled, and after the basket 70 is completely filled, starting the hanging mechanism to hang the basket 70, hanging the basket 70 into the water tank, washing the spirally sliced finished product, discharging the basket 70 and the hanging mechanism after washing, and packaging the washed finished product.

A method for helically slicing potatoes is described, comprising the steps of:

A. selecting potatoes with uniform size and no scars on the surfaces, and cleaning and peeling the potatoes;

B. putting peeled potatoes on a material conveying belt 45, and starting a spiral elevator 44 and a feeding frame 42 to guide the peeled potatoes into a discharge pipe 48;

C. starting the first air cylinder 32 of the material supporting mechanism 30 to enable the material supporting rods 31 to be close to the outlet of the discharge pipe 48 of the potato feeding mechanism 40, enabling the shifting block 312 to abut against the shifting sheet 431 of the driving roller 43 to enable the material shifting roller 41 to rotate, and enabling the single peeled potatoes to be guided into the two material supporting rods 31 from the outlet of the discharge pipe 48;

D. manually pulling the pull rod 16 downwards to place the stick in the box body 11, resetting the first air cylinder 32, starting the first motor to rotate the circulating conveying chain 23 to enable one end of the stick to be inserted into the peeled potatoes, powering off the electromagnetic coil 591 to enable the chuck 50 to be close to the baffle 56 to clamp the peeled potatoes, enabling the inserting pins 52 of the chuck 50 to be inserted into one end of the peeled potatoes, starting the second motor 503 to enable the chuck 50 to rotate, and when the movable support 53 slides along the sliding rod 54 and is close to the baffle 56, the linkage mechanism drives the sliding rod 54 to be positioned on the fixed support 55 to rotate and the baffle 56 to be positioned on the chuck 50 to form avoidance until all the spirals of the peeled potatoes are cut completely;

E. starting a third motor 104 of the finished product receiving and transferring mechanism to rotate the receiving rod 101, enabling an opening 1031 of a receiving block 103 to be located at the front end of the chuck 50, supporting the spirally sliced wooden sticks, electrifying the electromagnetic coil 591 to reset the chuck 50, starting the third motor 104 to reversely rotate the receiving rod 101, starting a second air cylinder 106 to enable the receiving rod 101 to slide along the sliding rail 105 until the receiving rod moves to the upper end side of a sliding guide rod 111 of the sliding guide frame 110, starting the third motor 104 to enable the sliding guide rod 111 to rotate, and enabling the wooden sticks in the opening 1031 of the receiving block 103 to fall onto a sliding guide plate 112 of the sliding guide frame 110 to enable the wooden sticks to slide into the hanging basket 70;

F. repeating step C, D, E until basket 70 is filled;

G. starting a hanging mechanism, drawing out the basket 70 filled with the finished product from the fixed frame body 130 until the basket is transferred to the upper part of the water tank, so that the basket 70 is immersed in the water tank, and the basket 70 moves along the length direction of the water tank until the basket 70 is lifted from the notch of the water tank;

H. and (5) draining and packing the finished product in the basket 70 immersed with water, placing the empty basket 70 in the fixed frame 130, and repeating the steps G to H.

Claims

1. Spiral slicing machine constructs, its characterized in that: including wood swab feeding mechanism (10), the discharge gate of wood swab feeding mechanism (10) is provided with wood swab actuating mechanism (20), wood swab actuating mechanism (20) drive wood swab horizontal migration, wood swab actuating mechanism (20) include tube core horizontally body (21), the pipe diameter of body (21) is anastomosed with the diameter of wood swab, bar opening (211) have been seted up on the pipe wall of body (21), be provided with push pedal (22) in body (21), push pedal (22) are fixed on endless conveyor chain (23), the length direction of endless conveyor chain (23) is parallel with the length direction of body (21), push pedal (22) pass bar opening (211) and stretch into the lumen of body (21), the direction of movement front end of wood swab actuating mechanism (20) is provided with the support material mechanism (30) that are used for bearing the potato, the direction of movement front end of wood swab actuating mechanism (20) still is provided with the chuck (the) that is used for the card fixing of potato 50) The chuck (50) rotates and drives the potatoes to rotate around the horizontal axis direction, and a fixed blade (60) is further arranged in front of the chuck (50);

the disc surface of the chuck (50) is vertical and is arranged at the front end of the pipe orifice of the pipe body (21), the core of the chuck (50) is provided with a perforation (51) for a wood stick to penetrate through the pipe, the perforation (51) is concentric with the pipe body (21), the disc surface of the chuck (50) far away from the front end of the pipe orifice of the pipe body (21) is provided with a contact pin (52), the inserting pins (52) are arranged in a plurality along the circumferential direction of the disk surface of the chuck (50), the chuck (50) is rotatably arranged on the movable bracket (53), the movable bracket (53) is arranged on the sliding rod (54) in a sliding way, the rod length direction of the sliding rod (54) is parallel to the length direction of the pipe body (21), one end of the sliding rod (54) is arranged on the fixed bracket (55), and the driving mechanism drives the movable bracket (53) to slide along the sliding rod (54) and drives the chuck (50) and the fixed blade (60) to be close to or far away from each other;

a baffle (56) is arranged at the rod end of the sliding rod (54), the other end of the sliding rod (54) is rotatably connected with the fixed support (55), a linkage mechanism is arranged between the movable support (53) and the sliding rod (54), when the movable support (53) slides along the sliding rod (54) and is close to the baffle (56), the linkage mechanism links the sliding rod (54) to be positioned on the fixed support (55) to rotate and enable the baffle (56) to be positioned on the chuck (50) to form avoidance, and when the movable support (53) slides along the sliding rod (54) and is close to the chuck (50), the linkage mechanism links the sliding rod (54) to be positioned on the fixed support (55) to rotate and enable the baffle (56) to be positioned at the front end of the disk surface of the chuck (50);

the linkage mechanism comprises a linkage plate (57) arranged on a movable support (53), the linkage plate (57) is of a semi-arc plate-shaped structure, one end of the linkage plate (57) is fixed on the movable support (53), a spiral guide groove (571) is arranged on the inner wall of the linkage plate (57), one end of the spiral guide groove (571) is positioned on the end surface of the other end of the linkage plate (57), the other end of the spiral guide groove (571) extends to one side surface of the linkage plate (57), a shifting lever (541) is vertically arranged on a lever body of the sliding rod (54), the cross section of the shifting lever (541) is circular, when the movable support (53) slides along the sliding rod (54) and is close to the baffle plate (56), the lever body of the shifting lever (541) and the notch at one end of the spiral guide groove (571) are positioned on the same straight line, and when the movable support (53) slides along the sliding rod (54) and is close to the chuck (50), the shifting rod (541) is located in a notch of the spiral guide groove (571), a sliding strip (58) is arranged below the notch of one side face of the linkage plate (57) of the spiral guide groove (571), the length direction of the sliding strip (58) is parallel to the sliding rod (54), the shifting rod (541) is arranged between an upper plate face of the sliding strip (58) and one side face of the linkage plate (57) in a sliding mode, the distance between the upper plate face of the sliding strip (58) and one side face of the linkage plate (57) is matched with the diameter of the shifting rod (541), and when the baffle plate (56) is located at the front end of the plate face of the chuck (50), the gravity center of the baffle plate (56) is located on two sides right above a rod core of the sliding rod (54).

2. The spiral slice apparatus of claim 1 wherein: the driving mechanism comprises a driving sliding rod (59), one end of the driving sliding rod (59) is fixed on the movable support (53) and is parallel to the sliding rod (54), the other end of the driving sliding rod (59) extends out of the fixed support (55), one end of the driving sliding rod (59) extending out of the fixed support (55) is provided with an electromagnetic coil (591), the electromagnetic coil (591) is fixed on the fixed support (55), a rod body of the driving sliding rod (59) is sleeved with a return spring (592), and two ends of the return spring (592) are respectively connected with the movable support (53) and the fixed support (55); chuck (50) stretch out the one end of movable support (53) and be provided with driven gear (501), driven gear (501) side meshing has drive gear (502), the wheel core of drive gear (502) is connected with the pivot of second motor (503), second motor (503) are fixed on movable support (53), the both closed ends of circulation conveying chain (23) are provided with supporting roller (24), and one of them supporting roller (24) is connected with the output shaft of first motor, the outside that push pedal (22) are located circulation conveying chain (23) is provided with two, supporting roller (24) are located the mouth of pipe front end top of body (21) and arrange.

3. The spiral slice apparatus of claim 2 wherein: the material supporting mechanism (30) comprises two material supporting rods (31) which are arranged in parallel at intervals, the length directions of the two material supporting rods (31) are parallel to the length direction of the pipe body (21) and are arranged below the front end of the pipe orifice of the pipe body (21), the distance between the two material supporting rods (31) is larger than the width size of the movable support (53), and the fixed blade (60) is fixed on the material supporting rods (31) and is arranged in front of the baffle (56).

4. The spiral slice apparatus of claim 1 wherein: the wood swab feeding mechanism (10) comprises a box body (11) used for placing wood swabs, a frustum-shaped structure with a small upper part and a large lower part is formed between the cross sections of the box opening of the box body (11), a strip-shaped discharge opening (12) is formed in the box opening of the box body (11), the width of the strip-shaped discharge opening (12) is matched with the diameter of the wood swabs, the length direction of the strip-shaped discharge opening is parallel to the length direction of the pipe body (21), a strip-shaped feed opening (212) is formed in the outer wall of the pipe body (21), the strip-shaped discharge opening (12) is arranged below the strip-shaped feed opening (212), a material ejecting plate (13) is arranged in the box body (11), the length direction of the material ejecting plate (13) is parallel to the cross section of the box opening of the box body (11), a push rod (14) is arranged on the lower plate surface of the material ejecting plate (13), a spring (15) is sleeved on the push rod (14), the upper end and, the lower end of the ejector rod (14) extends out of the box bottom of the box body (11) and is provided with a pull rod (16).

5. Potato spiral section processingequipment with spiral section mechanism, its characterized in that: the device also comprises a potato feeding mechanism (40), the power mechanism drives the material supporting mechanism (30) to reciprocate between the outlet of the potato feeding mechanism (40) and the front end of the wood stick driving mechanism (20), and the device also comprises a finished product receiving and transferring mechanism which is used for transferring finished products to reciprocate between the discharging side of the fixed blade (60) and the finished product receiving mechanism.