CN112265041A

CN112265041A - Operation process of vegetable and fruit strip cutting machine

Info

Publication number: CN112265041A
Application number: CN202011108736.2A
Authority: CN
Inventors: 左斯玉; 田哲文
Original assignee: Wuhan University of Technology WUT
Current assignee: Wuhan University of Technology WUT
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-01-26

Abstract

An operation process of a vegetable and fruit slitter comprises the steps of firstly throwing a to-be-processed object into a shell from a feeding port, dropping the thrown to-be-processed object into an object placing groove, then pushing a push rod to move forwards, driving a first sliding sleeve and a second sliding sleeve to move forwards through a push plate, sliding the first sliding sleeve and the second sliding sleeve respectively along a corresponding first sliding rod and a corresponding second sliding rod until an extrusion head connected to the push plate is contacted with the to-be-processed object in the object placing groove, then continuously pushing the push rod to move forwards, so that the extrusion head pushes the to-be-processed object into a discharge barrel through an object pressing port and extrudes the object through a strip outlet to obtain a strip-shaped processed object, separating the processed object from the discharge barrel, dropping the processed object into a strip containing groove, and pulling the push rod backwards to enable the extrusion head to retreat until the extrusion head retreats to the rear side of the object placing groove to be processed next time. The design has low cost and simple and convenient operation.

Description

Operation process of vegetable and fruit strip cutting machine

Technical Field

The invention relates to a mechanical processing technology, in particular to an operation process of a vegetable and fruit slitter.

Background

At present, the traditional cutter is still used for processing vegetables and fruits such as radishes in most families, but the vegetables and fruits with harder texture are cut into strips with equal sizes, the cutter and the physical strength are tested to a certain extent, the time is consumed, and the finished product does not necessarily meet the requirements of people.

Although machines for cutting vegetables and fruits into strips exist in a plurality of food processing factories, the machines are large in size, high in power and high in cost, and are difficult to popularize in ordinary families.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to overcome the defects and problems of low cost and simple and convenient operation in the prior art, and provides an operation process of a vegetable and fruit slitter, which has the advantages of low cost and simple and convenient operation.

In order to achieve the above purpose, the technical solution of the invention is as follows: an operation process of a vegetable and fruit slitter comprises the following steps:

the method comprises the steps of firstly putting an object to be treated into a shell from a feeding port, dropping the put object into an object placing groove, then pushing a push rod to move forwards, driving a first sliding sleeve and a second sliding sleeve to move forwards through a push plate by the aid of the forward push rod, respectively sliding the first sliding sleeve and the second sliding sleeve along the corresponding first sliding rod and the second sliding rod until an extrusion head connected to the push plate is in contact with the object to be treated in the object placing groove, then continuously pushing the push rod to move forwards, pushing the object to be treated into a discharge barrel through an object pressing port by the extrusion head, extruding the object through a strip outlet to obtain a strip-shaped processed object, dropping the processed object into the strip containing groove after separating from the discharge barrel, then pulling the push rod backwards to enable the extrusion head to retreat until the extrusion head retreats to the rear side of the object placing groove, then putting a new object to be treated through the feeding port, and sequentially circulating.

A feeding port is formed in the top shell of the shell, a strip outlet communicated with the feeding port is formed in the front shell of the shell, and the strip outlet is higher than the strip containing groove; the front surface of the front shell part is connected with the inner end of the hollow discharging barrel, the outer end of the discharging barrel is provided with a latticed strip outlet, the back surface of the front shell part is provided with a material pressing port opposite to the discharging barrel, a material placing groove is arranged below the material pressing port, and the right upper side of the material placing groove is communicated with the material feeding port;

the position that lies in on the back of preceding shell and presses thing mouth both sides respectively with a slide bar, the front end of No. two slide bars is connected, a slide bar, No. two slide bars are parallel to each other, a slide bar, the rear end of No. two slide bars extends towards the direction of shell on the shell, a slide bar, the cover that corresponds respectively on the side wall of No. two slide bars is equipped with a sliding sleeve, No. two sliding sleeves, the side wall of a sliding sleeve is connected through the side wall of slurcam and No. two sliding sleeves, the front of slurcam is provided with and presses the extrusion head that the thing mouth is just right to setting up, the back of slurcam is connected with the front end of slurcam, the rear end of slurcam extends towards the direction of shell.

The cross section of the object placing groove is V-shaped.

The strip containing groove comprises an inner containing inclined plate, a bottom containing flat plate and an outer containing inclined plate, the bottom end of the inner containing inclined plate is connected with the bottom end of the outer containing inclined plate through the bottom containing flat plate, the top end of the inner containing inclined plate is outwards expanded relative to the bottom end of the inner containing inclined plate, and the top end of the outer containing inclined plate is outwards expanded relative to the bottom end of the outer containing inclined plate; the part of the outer side edge of the inner holding inclined plate close to the bottom end of the inner holding inclined plate is connected with the part of the outer side edge of the outer holding inclined plate close to the bottom end of the outer holding inclined plate through a transverse baffle plate, and the height of the transverse baffle plate is lower than that of the strip holding groove.

The top of the object placing groove is connected with the inner ends of the first supporting plate and the second supporting plate respectively, the outer ends of the first supporting plate and the second supporting plate are connected with the shell side parts of the adjacent shell respectively, the first supporting plate is located below the first sliding rod, the second supporting plate is located below the second sliding rod, a first sliding gap is formed between the first supporting plate and the first sliding rod, and a second sliding gap is formed between the second supporting plate and the second sliding rod.

The extrusion head comprises a plurality of extrusion columns which are arranged along the axial direction, and the adjacent extrusion columns are parallel to each other.

The pushing plate comprises a first daughter board, a middle carrier plate and a second daughter board, wherein the high end of the first daughter board is connected with the side wall of the first sliding sleeve, the low end of the first daughter board is connected with the low end of the second daughter board through the middle carrier plate, the high end of the second daughter board is connected with the side wall of the second sliding sleeve, the front surface of the middle carrier plate is connected with the extrusion head, and the back surface of the middle carrier plate is connected with the front end of the pushing rod.

The back of the middle bearing plate is provided with a pair of pushing lugs, the pushing lugs are connected with the front end of a pushing rod through an interaural shaft, and the rear end of the pushing rod is connected with an axial force action mechanism;

the pushing of the push rod to move forward or the pulling of the push rod to move backward means that: the axial force action mechanism applies force to the push rod to push the push rod to move forwards or pull the push rod backwards.

The axial force action mechanism comprises a first disc surface and a second disc surface, the inner disc surface of the first disc surface is in opposite connection with the inner disc surface of the second disc surface through an inter-disc shaft, the middle part of the inter-disc shaft penetrates through the top end of the fixed vertical rod, the inter-disc shaft is in running fit with the top end of the fixed vertical rod, and the bottom end of the fixed vertical rod is vertically connected with the bottom plate; the outer disc surface of the first disc surface is hinged with one end of a connecting rod, the other end of the connecting rod is hinged with the rear end of a push rod, and the outer disc surface of the second disc surface is connected with the inner end of a handle;

the axial force action mechanism applies force to the push rod, namely: the second disk surface is rotated through the handle, the first disk surface is driven to rotate together by the second disk surface, the connecting rod is driven to rotate by the rotating first disk surface, and the pushing rod is driven to do reciprocating axial motion by the connecting rod, so that the pushing rod is pushed to move forwards or pulled backwards.

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

1. in the operation process of the vegetable and fruit slitter, when in specific application, an object to be processed is firstly put into a shell through a feeding port and falls into an object placing groove, then the reciprocating axial force acting on a push rod drives a sliding sleeve to reciprocate along a sliding rod through a push plate, and in the whole movement process, the push plate pushes the object to be processed in the object placing groove forwards through an extrusion head and extrudes the object outwards through a latticed strip outlet, so that the processed strip-shaped object is obtained and falls into a strip containing groove. Therefore, the invention has low cost and simple operation.

2. In the operation process of the vegetable and fruit strip cutting machine, when the objects to be processed are put in, the objects to be processed only need to be put in the shell through the feeding port without operating a cutter, and when the strips are prepared, the pushing rod only needs to be driven in a reciprocating mode without operating the cutter, so that the vegetable and fruit strip cutting machine is very safe. Therefore, the safety of the invention is high.

3. In the operation process of the vegetable and fruit slitter, the axial force action mechanism comprises the first disc surface, the second disc surface, the connecting rod and the fixed vertical rod, wherein the first disc surface and the second disc surface are arranged oppositely and are mutually connected through the inter-disc shaft, when the axial force action mechanism is applied, the handle directly drives the second disc surface to rotate, so that the first disc surface is driven to rotate, and then the rotating first disc surface drives the pushing rod to do reciprocating motion through the connecting rod, so that the operation is simple and convenient, and a cutter is not used. Therefore, the invention is not only simple and convenient to operate, but also has higher safety.

Drawings

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

Fig. 2 is a schematic view of the structure of fig. 1 after the casing is cut.

Fig. 3 is a schematic view of the connection between the push rod and the axial force application mechanism of fig. 2.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a schematic structural view of the push plate of fig. 3.

Fig. 6 is a rear view of fig. 1.

FIG. 7 is a sectional view of a bar holding groove in the present invention.

In the figure: the material feeding port 1, the outer shell 2, the top shell 21, the front shell 22, the material pressing port 221, the rear shell 23, the shell side 24, the bottom shell 25, the material placing groove 26, the first support plate 261, the second support plate 262, the material containing groove 3, the inner inclined plate 31, the bottom containing plate 32, the outer inclined plate 33, the transverse baffle 34, the material discharging barrel 4, the material discharging port 41, the first sliding rod 5, the first sliding sleeve 51, the first sliding gap 52, the second sliding rod 6, the second sliding sleeve 61, the second sliding gap 62, the pushing plate 7, the extruding head 70, the extruding column 701, the first sub-plate 71, the middle support plate 72, the pushing suspension lugs 721, the interaural shaft 722, the second sub-plate 73, the pushing rod 8, the connecting rod 81, the axial force action mechanism 9, the first disc surface 91, the second disc surface 92, the interaural shaft 93, the fixed vertical rod 94, the handle 95, the groove 951 and the bottom plate 10.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

An operation process of a vegetable and fruit slitter comprises the following steps:

firstly, the object to be processed is thrown into the shell 2 from the feeding port 1, the thrown object to be processed falls into the object placing groove 26, then the push rod 8 is pushed to move forwards, the forward push rod 8 drives the first sliding sleeve 51 and the second sliding sleeve 61 to move forwards through the push plate 7, the forward first sliding sleeve 51 and the second sliding sleeve 61 respectively slide along the corresponding first sliding rod 5 and the second sliding rod 6 until the extrusion head 70 connected with the push plate 7 is contacted with the object to be processed in the object placing groove 26, then the push rod 8 is continuously pushed to move forwards, so that the extrusion head 70 pushes the object to be processed into the discharging barrel 4 through the object pressing port 221 and extrudes the object to be processed through the strip discharging port 41 to obtain strip-shaped processed objects, the processed objects fall into the strip containing groove 3 after separating from the discharging barrel 4, then the push rod 8 is pulled backwards to enable the extrusion head 70 to retreat until the extrusion head 70 retreats to the back of the object placing groove 26, and then new object to be processed is thrown through the feeding port 1, and circulating in sequence.

A feeding port 1 is formed in the top shell part 21 of the shell 2, a strip outlet 41 communicated with the feeding port 1 is formed in the front shell part 22 of the shell 2, and the strip outlet 41 is higher than the strip containing groove 3; the front surface of the front shell part 22 is connected with the inner end of the hollow discharging barrel 4, the outer end of the discharging barrel 4 is provided with a latticed strip outlet 41, the back surface of the front shell part 22 is provided with a material pressing port 221 opposite to the discharging barrel 4, a material placing groove 26 is arranged below the material pressing port 221, and the right upper side of the material placing groove 26 is communicated with the material feeding port 1;

the positions on the two sides of the object pressing opening 221 on the back surface of the front shell 22 are respectively connected with the front ends of a first slide rod 5 and a second slide rod 6, the first slide rod 5 and the second slide rod 6 are parallel to each other, the rear ends of the first slide rod 5 and the second slide rod 6 extend towards the direction of the rear shell 23 on the shell 2, the side walls of the first slide rod 5 and the second slide rod 6 are respectively and correspondingly sleeved with a first slide sleeve 51 and a second slide sleeve 61, the side wall of the first slide sleeve 51 is connected with the side wall of the second slide sleeve 61 through a push plate 7, the front surface of the push plate 7 is provided with an extrusion head 70 which is just opposite to the object pressing opening 221, the back surface of the push plate 7 is connected with the front end of the push rod 8, and the rear end of the push rod 8 extends towards the direction of the rear shell.

The cross section of the object placing groove 26 is V-shaped.

The strip containing groove 3 comprises an inner containing inclined plate 31, a bottom containing flat plate 32 and an outer containing inclined plate 33, the bottom end of the inner containing inclined plate 31 is connected with the bottom end of the outer containing inclined plate 33 through the bottom containing flat plate 32, the top end of the inner containing inclined plate 31 is outwards expanded relative to the bottom end thereof, and the top end of the outer containing inclined plate 33 is outwards expanded relative to the bottom end thereof; the part close to the bottom end on the outer side edge of the inner inclined plate 31 is connected with the part close to the bottom end on the outer side edge of the outer inclined plate 33 through a transverse baffle 34, and the height of the transverse baffle 34 is lower than that of the strip containing groove 3.

The top of the article holding groove 26 is respectively connected with the inner ends of a first support plate 261 and a second support plate 262, the outer ends of the first support plate 261 and the second support plate 262 are respectively connected with the shell side part 24 on the adjacent shell 2, the first support plate 261 is positioned below the first slide bar 5, the second support plate 262 is positioned below the second slide bar 6, a first sliding gap 52 is clamped between the first support plate 261 and the first slide bar 5, and a second sliding gap 62 is clamped between the second support plate 262 and the second slide bar 6.

The extrusion head 70 includes a plurality of extrusion columns 701 arranged along the axial direction, and the adjacent extrusion columns 701 are parallel to each other.

The pushing plate 7 comprises a first sub-plate 71, a middle bearing plate 72 and a second sub-plate 73, wherein the high end of the first sub-plate 71 is connected with the side wall of the first sliding sleeve 51, the low end of the first sub-plate 71 is connected with the low end of the second sub-plate 73 through the middle bearing plate 72, the high end of the second sub-plate 73 is connected with the side wall of the second sliding sleeve 61, the front surface of the middle bearing plate 72 is connected with the extrusion head 70, and the back surface of the middle bearing plate 72 is connected with the front end of the pushing rod 8.

The back of the middle bearing plate 72 is provided with a pair of pushing lugs 721, the pushing lugs 721 are connected with the front end of the pushing rod 8 through an interaural shaft 722, and the rear end of the pushing rod 8 is connected with the axial force action mechanism 9;

the pushing of the pushing rod 8 to move forward or the pulling of the pushing rod 8 to move backward means that: the axial force application mechanism 9 applies force to the push rod 8 to push the push rod 8 forward or pull the push rod 8 backward.

The axial force action mechanism 9 comprises a first disc surface 91 and a second disc surface 92, the inner disc surface of the first disc surface 91 is connected with the inner disc surface of the second disc surface 92 in a facing mode through an inter-disc shaft 93, the middle of the inter-disc shaft 93 penetrates through the top end of a fixed vertical rod 94, the inter-disc shaft 93 is in running fit with the top end of the fixed vertical rod 94, and the bottom end of the fixed vertical rod 94 is vertically connected with the bottom plate 10; the outer disc surface of the first disc surface 91 is hinged with one end of a connecting rod 81, the other end of the connecting rod 81 is hinged with the rear end of a push rod 8, and the outer disc surface of the second disc surface 92 is connected with the inner end of a handle 95;

the axial force action mechanism 9 applies force to the push rod 8, namely: firstly, the second disk surface 92 is rotated by the handle 95, then the first disk surface 91 is driven by the second disk surface 92 to rotate together, then the rotating first disk surface 91 drives the connecting rod 81 to rotate, and then the connecting rod 81 drives the push rod 8 to do reciprocating axial motion, thereby pushing the push rod 8 to move forwards or pulling the push rod 8 backwards.

The bottom plate 10 is flush with the bottom shell 25 of the housing 2, and the vertical fixing rod 94 is opposite to the object pressing opening 221.

The outer end of handle 95 is provided with the radius angle, and the middle part of handle 95 is provided with recess 951.

The principle of the invention is illustrated as follows:

the bottom plate 10 and the bottom shell part 25 can be connected into an integral structure with the same plane, at the moment, the fixed vertical rod 94 is vertically connected with the top surface of the bottom shell part 25, on the basis, the first disc surface 91 and the second disc surface 92 are driven to rotate through the handle 95 (the inter-disc shaft 93 connected between the first disc surface 91 and the second disc surface 92 is inserted into the top end of the fixed vertical rod 94 and is in running fit with the top end of the fixed vertical rod 94), the operation is very simple, the operation is convenient, the labor is saved, the harm of machine working parts existing in the prior art to a human body can be avoided, and the cleanness of a working environment can be guaranteed.

Example 1:

Example 2:

the basic contents are the same as example 1, except that:

a feeding port 1 is formed in the top shell part 21 of the shell 2, a strip outlet 41 communicated with the feeding port 1 is formed in the front shell part 22 of the shell 2, and the strip outlet 41 is higher than the strip containing groove 3; the front surface of the front shell part 22 is connected with the inner end of the hollow discharging barrel 4, the outer end of the discharging barrel 4 is provided with a latticed strip outlet 41, the back surface of the front shell part 22 is provided with a material pressing port 221 opposite to the discharging barrel 4, a material placing groove 26 (preferably, the cross section of the material placing groove 26 is V-shaped) is arranged below the material pressing port 221, and the right upper side of the material placing groove 26 is communicated with the feeding port 1; the positions on the two sides of the object pressing opening 221 on the back surface of the front shell 22 are respectively connected with the front ends of a first slide rod 5 and a second slide rod 6, the first slide rod 5 and the second slide rod 6 are parallel to each other, the rear ends of the first slide rod 5 and the second slide rod 6 extend towards the direction of the rear shell 23 on the shell 2, the side walls of the first slide rod 5 and the second slide rod 6 are respectively and correspondingly sleeved with a first slide sleeve 51 and a second slide sleeve 61, the side wall of the first slide sleeve 51 is connected with the side wall of the second slide sleeve 61 through a push plate 7, the front surface of the push plate 7 is provided with an extrusion head 70 which is just opposite to the object pressing opening 221, the back surface of the push plate 7 is connected with the front end of the push rod 8, and the rear end of the push rod 8 extends towards the direction of the rear shell.

Example 3:

the basic content is the same as that of the embodiment 2, except that:

structurally: the pushing plate 7 comprises a first sub-plate 71, a middle bearing plate 72 and a second sub-plate 73, wherein the high end of the first sub-plate 71 is connected with the side wall of the first sliding sleeve 51, the low end of the first sub-plate 71 is connected with the low end of the second sub-plate 73 through the middle bearing plate 72, the high end of the second sub-plate 73 is connected with the side wall of the second sliding sleeve 61, the front surface of the middle bearing plate 72 is connected with the extrusion head 70, and the back surface of the middle bearing plate 72 is connected with the front end of the pushing rod 8. The back of the middle bearing plate 72 is provided with a pair of pushing lugs 721, the pushing lugs 721 are connected with the front end of the pushing rod 8 through an interaural shaft 722, and the rear end of the pushing rod 8 is connected with the axial force action mechanism 9. The axial force action mechanism 9 comprises a first disc surface 91 and a second disc surface 92, the inner disc surface of the first disc surface 91 is connected with the inner disc surface of the second disc surface 92 in a facing mode through an inter-disc shaft 93, the middle of the inter-disc shaft 93 penetrates through the top end of a fixed vertical rod 94, the inter-disc shaft 93 is in running fit with the top end of the fixed vertical rod 94, and the bottom end of the fixed vertical rod 94 is vertically connected with the bottom plate 10; the outer disc surface of the first disc surface 91 is hinged with one end of a connecting rod 81, the other end of the connecting rod 81 is hinged with the rear end of a push rod 8, and the outer disc surface of the second disc surface 92 is connected with the inner end of a handle 95.

The method comprises the following steps: firstly, the second disk surface 92 is rotated by the handle 95, then the first disk surface 91 is driven by the second disk surface 92 to rotate together, then the rotating first disk surface 91 drives the connecting rod 81 to rotate, and then the connecting rod 81 drives the push rod 8 to do reciprocating axial motion, thereby pushing the push rod 8 to move forwards or pulling the push rod 8 backwards.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims

1. An operation process of a vegetable and fruit slitter is characterized by comprising the following steps:

firstly, the object to be processed is put into the shell (2) from the feeding port (1), the put object to be processed can fall into the object containing groove (26), then the push rod (8) is pushed to move forwards, the forward push rod (8) drives the first sliding sleeve (51) and the second sliding sleeve (61) to move forwards through the push plate (7), the forward first sliding sleeve (51) and the forward second sliding sleeve (61) respectively slide along the corresponding first sliding rod (5) and second sliding rod (6) until the extrusion head (70) connected on the push plate (7) is contacted with the object to be processed in the object containing groove (26), then the push rod (8) is continuously pushed to move forwards, so that the object to be processed is pushed into the discharging barrel (4) by the extrusion head (70) through the object pressing port (221) and extruded through the strip discharging port (41) to obtain a strip-shaped processed object, and the processed object can fall into the strip containing groove (3) after being separated from the discharging barrel (4), and then the push rod (8) is pulled backwards to enable the extrusion head (70) to retreat until the extrusion head (70) retreats to the rear of the storage groove (26), and then new objects to be treated are put in through the feeding port (1) and are circulated in sequence.

2. The operating process of the vegetable and fruit slitter according to claim 1, wherein: a feeding port (1) is formed in the top shell part (21) of the shell (2), a strip outlet (41) communicated with the feeding port (1) is formed in the front shell part (22) of the shell (2), and the strip outlet (41) is higher than the strip containing groove (3); the front surface of the front shell part (22) is connected with the inner end of the hollow discharging barrel (4), the outer end of the discharging barrel (4) is provided with a latticed strip outlet (41), the back surface of the front shell part (22) is provided with a material pressing port (221) which is right opposite to the discharging barrel (4), a storage groove (26) is arranged below the material pressing port (221), and the right upper part of the storage groove (26) is communicated with the feeding port (1);

the parts of the back surface of the front shell part (22) positioned at the two sides of the object pressing opening (221) are respectively connected with the front ends of a first slide bar (5) and a second slide bar (6), the first slide bar (5) and the second slide bar (6) are parallel to each other, the first slide bar (5), the rear end of No. two slide bars (6) extends towards the direction of rear shell portion (23) on shell (2), the cover that corresponds respectively on the side wall of No. two slide bars (6) is equipped with sliding sleeve (51), sliding sleeve (61) No. two, the side wall of sliding sleeve (51) is connected with the side wall of sliding sleeve (61) No. two through slurcam (7), the front of slurcam (7) is provided with and presses material mouth (221) just to extrusion head (70) that sets up, the back of slurcam (7) is connected with the front end of slurcam (8), the rear end of slurcam (8) extends towards the direction of rear shell portion (23).

3. The operating process of the vegetable and fruit slitter according to claim 2, wherein: the cross section of the object placing groove (26) is V-shaped.

4. The operating process of the vegetable and fruit slitter according to claim 2, wherein: the sliver containing groove (3) comprises an inner containing inclined plate (31), a bottom containing flat plate (32) and an outer containing inclined plate (33), the bottom end of the inner containing inclined plate (31) is connected with the bottom end of the outer containing inclined plate (33) through the bottom containing flat plate (32), the top end of the inner containing inclined plate (31) is outwards expanded relative to the bottom end of the inner containing inclined plate, and the top end of the outer containing inclined plate (33) is outwards expanded relative to the bottom end of the outer containing inclined plate; the part close to the bottom end of the outer side edge of the inner holding inclined plate (31) is connected with the part close to the bottom end of the outer side edge of the outer holding inclined plate (33) through a transverse baffle (34), and the height of the transverse baffle (34) is lower than that of the strip holding groove (3).

5. The operating process of the vegetable and fruit slitter according to claim 2, wherein: the top of the storage groove (26) is connected with the inner ends of a first support plate (261) and a second support plate (262) respectively, the outer ends of the first support plate (261) and the second support plate (262) are connected with the shell side part (24) on the shell (2) which is close to the outer end of the first support plate (261) and the second support plate (262) respectively, the first support plate (261) is located below the first sliding rod (5), the second support plate (262) is located below the second sliding rod (6), a first sliding gap (52) is formed between the first support plate (261) and the first sliding rod (5), and a second sliding gap (62) is formed between the second support plate (262) and the second sliding rod (6).

6. The operating process of the vegetable and fruit slitter according to claim 2, wherein: the extrusion head (70) comprises a plurality of extrusion columns (701) which are arranged along the axial direction, and the adjacent extrusion columns (701) are parallel to each other.

7. The operating process of the vegetable and fruit slitter according to claim 2, wherein: the pushing plate (7) comprises a first sub-plate (71), a middle bearing plate (72) and a second sub-plate (73), the high end of the first sub-plate (71) is connected with the side wall of the first sliding sleeve (51), the low end of the first sub-plate (71) is connected with the low end of the second sub-plate (73) through the middle bearing plate (72), the high end of the second sub-plate (73) is connected with the side wall of the second sliding sleeve (61), the front surface of the middle bearing plate (72) is connected with the extrusion head (70), and the back surface of the middle bearing plate (72) is connected with the front end of the pushing rod (8).

8. The operating process of the vegetable and fruit slitter according to claim 7, wherein: the back of the middle bearing plate (72) is provided with a pair of pushing lugs (721), the pushing lugs (721) are connected with the front end of a pushing rod (8) through an interaural shaft (722), and the rear end of the pushing rod (8) is connected with an axial force action mechanism (9);

the pushing of the push rod (8) to move forward or the pulling of the push rod (8) to move backward means that: the axial force action mechanism (9) applies force to the push rod (8) to push the push rod (8) to move forwards or pull the push rod (8) backwards.

9. The operating process of the vegetable and fruit slitter according to claim 8, wherein: the axial force action mechanism (9) comprises a first disk surface (91) and a second disk surface (92), the inner disk surface of the first disk surface (91) is in direct connection with the inner disk surface of the second disk surface (92) through an inter-disk shaft (93), the middle of the inter-disk shaft (93) penetrates through the top end of a fixed vertical rod (94), the inter-disk shaft (93) is in running fit with the top end of the fixed vertical rod (94), and the bottom end of the fixed vertical rod (94) is vertically connected with the bottom plate (10); the outer disc surface of the first disc surface (91) is hinged with one end of a connecting rod (81), the other end of the connecting rod (81) is hinged with the rear end of a push rod (8), and the outer disc surface of the second disc surface (92) is connected with the inner end of a handle (95);

the axial force action mechanism (9) applies force to the push rod (8) and is characterized in that: firstly, the second disc surface (92) is rotated through the handle (95), then the first disc surface (91) is driven by the second disc surface (92) to rotate together, then the first disc surface (91) is driven by the rotating connecting rod (81) to rotate, and then the pushing rod (8) is driven by the connecting rod (81) to do reciprocating axial motion, so that the pushing rod (8) is pushed to move forwards or the pushing rod (8) is pulled backwards.