CN115177011A

CN115177011A - Orange sectioning blade

Info

Publication number: CN115177011A
Application number: CN202210813876.2A
Authority: CN
Inventors: 王迪; 王友贵; 张寄源; 戴学勇
Original assignee: Taizhou City Tongyi Machinery Equipment Co ltd
Current assignee: Taizhou City Tongyi Machinery Equipment Co ltd
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-10-14
Anticipated expiration: 2042-07-11
Also published as: CN115177011B

Abstract

The invention provides an orange sectioning blade, and belongs to the technical field of blades. It has solved the problem of current blade too big damage orange slice of pressure when the cutting. The blade base body of the orange sectioning blade is provided with an installation part, a cutting part, a pre-cutting part, a first sawtooth installation surface, a second sawtooth installation surface, a cutting sawtooth and a pre-cutting sawtooth, wherein the distance between the first sawtooth installation surface and the axis of the installation part from a starting end line to a terminal line is continuously increased, and the distance between the second sawtooth installation surface and the axis of the installation part from the starting end line to the terminal line is continuously increased; the distance between the terminal line of the precutting part and the axial lead is larger than the distance between the starting end line of the cutting part and the axial lead, and the distance between the terminal line of the precutting part and the axial lead is smaller than the distance between the terminal line of the cutting part and the axial lead; this orange split blade's precutting sawtooth will bond inseparable orange lamella and cut the back, and the cutting sawtooth is complete separately the orange lamella, effectively reduces cutting part and causes the damaged phenomenon of orange to orange pressure application.

Description

Orange sectioning blade

Technical Field

The invention belongs to the technical field of blades, relates to a cutting device, and particularly relates to an orange sectioning blade.

Background

The orange can is split in the processing process by a large amount of manual work, the existing automatic splitting equipment adopts machine vision to detect an orange ball splitting line, then the orange ball is driven by a motor to rotate, when the orange ball splitting line position is in a straight line with a splitting device, the rotation is stopped, one side of an arch with corrugated strings similar to that used for manual splitting is moved up and down in a reciprocating mode, and meanwhile, the arch with the corrugated strings is pushed by a telescopic device to be fed and cut to the splitting line position, but the arch with the corrugated strings is easy to break, and broken corrugated string foreign matters can enter products.

The orange segment cutting device comprises a power source, a bracket and a segment disc, wherein the segment disc only comprises a segment section and an avoidance section, the outer periphery of the segment section is a continuous line segment, a plurality of segment teeth are arranged on the outer periphery of the segment section, the segment disc also comprises a transition section between the avoidance section and the segment section, and the orange segment cutting device is simple in structure, accurate in alignment and free from breakage of suspended arch wires. An orange sectioning blade (No. CN 216533747U) comprises a cutting tooth and a platy blade base body, wherein the blade base body is provided with a central connecting area and two cutting areas positioned outside the central connecting area; the two cutting areas are symmetrically arranged relative to the central line of the central connecting area, the outer contour surface of each cutting area is an arc surface, the axial lead of each arc surface deviates from the axial lead of the central connecting area, and an avoidance area is arranged between the two circumferential end surfaces of one cutting area and the two circumferential end surfaces of the other cutting area; the outer contour surfaces of the two cutting areas are fixedly connected with a plurality of cutting teeth which are arranged along the circumferential direction of the blade base body, and the cutting efficiency of the orange sectioning blade is high; however, when the blade cuts the tangerine, the tangerine is damaged due to the overlarge pressure of the blade on the tangerine.

Disclosure of Invention

The invention provides an orange sectioning blade, and aims to solve the technical problem of how to improve the cutting integrity of an orange sectioning blade on an orange.

The technical problem to be solved by the invention can be realized by the following technical scheme: an orange sectioning blade comprises a blade base body, wherein the blade base body is provided with an annular mounting part and a fan-shaped cutting part, the cutting part is positioned on the outer side of the mounting part, a first sawtooth mounting surface is arranged on the outer side surface of the cutting part, the distance between the first sawtooth mounting surface and the axial lead Q of the mounting part is continuously increased from a starting end line A to a terminal end line Z, a plurality of cutting sawteeth are fixedly connected to the first sawtooth mounting surface, and the cutting sawteeth are arranged from the starting end line to the terminal end line;

the blade base body is also provided with a precutting part, the precutting part is positioned at the outer side of the mounting part, and the precutting part and the cutting part are arranged in a circumferential direction around the axial lead of the mounting part; when the orange sectioning blade cuts oranges, the cutting part and the pre-cutting part both circumferentially rotate along the axial lead Q of the mounting part, and the pre-cutting part is in contact cutting with the oranges;

the outer side surface of the precut part is provided with a second sawtooth installation surface, the distance between the second sawtooth installation surface and the axial lead Q of the installation part is continuously increased from an initial end line B to a terminal line Y, the second sawtooth installation surface is fixedly connected with a plurality of precut sawteeth, and the precut sawteeth are arranged from the initial end line to the terminal line;

the distance QY between the terminal line of the precut part and the axial lead of the mounting part is larger than the distance QA between the starting end line of the cutting part and the axial lead of the mounting part, and the distance QY between the terminal line of the precut part and the axial lead of the mounting part is smaller than the distance QZ between the terminal line of the cutting part and the axial lead of the mounting part; when the pre-cutting part pre-cuts the oranges to enable the oranges to generate cutting openings, the starting end line of the cutting part is just embedded in the cutting openings through rotation to completely cut the oranges, and the phenomenon that the oranges are damaged due to the fact that the cutting part applies pressure to the oranges is effectively reduced; an avoiding space is formed between the precutting part and the cutting part.

In the orange sectioning blade, the second sawtooth installation surface is a circular arc surface or a spiral surface.

In the orange sectioning blade, the first sawtooth installation surface is an arc surface or a spiral surface.

Preferably, when the cutting part and the precut part are arc surfaces, the cutting part and the precut part are respectively arranged eccentrically to the axial line of the mounting part, and the circle center of the cutting part and the precut part is the same as the eccentric distance of the axial line of the mounting part, namely QF1= QF2, so that the structural accuracy of the cutting part and the precut part in the blade base body is improved.

Preferably, the radius R1 of the cutting portion is the same as the radius R2 of the precut portion, thereby further improving the manufacturing accuracy of the blade base.

In the orange sectioning blade, an included angle beta formed between the circle centers of the cutting part and the pre-cutting part and the axial lead of the mounting part is 55-120 degrees.

In the orange sectioning blade, the angle alpha of the arc surface or the spiral surface of the precutting part is 10-90 degrees, so that the precutting part does not occupy large space and reduces the manufacturing cost while precutting oranges.

In the orange sectioning blade, the distance QZ between the terminal line of the cutting part and the axial lead of the mounting part is greater than the distance QB between the starting end line of the precutting part and the axial lead of the mounting part, and the distance difference between the QZ and the QB is 20 mm-80 mm, so that the cutting part is guaranteed to be completely cut to the central position of the orange.

In the orange sectioning blade described above, the pre-cut serrations are the same size as the cutting serrations, or the pre-cut serrations are smaller than the cutting serrations.

In the orange sectioning blade, the pre-cutting sawteeth and the cutting sawteeth are both made of steel wires, and the diameter of the steel wires of the pre-cutting sawteeth is smaller than that of the steel wires of the cutting sawteeth; or the precut sawteeth and the cutting sawteeth are made of steel wires, and the distance between every two adjacent precut sawteeth is smaller than that between every two adjacent cutting sawteeth; or the pre-cutting sawteeth and the cutting sawteeth are both made of steel wires, and the height of the sawteeth of the pre-cutting sawteeth is smaller than that of the cutting sawteeth.

Compared with the prior art, the pre-cutting part and the cutting part of the orange sectioning blade are arranged around the axial lead of the installation part in the circumferential direction, the pre-cutting part pre-cuts the orange, after the orange sections which are tightly bonded are cut, the starting end line of the cutting part is just embedded in the cutting part through rotation, the orange is completely cut, the cutting saw teeth separate the orange sections, the probability of orange section biplate or sticking pieces is reduced, and the phenomenon that the orange is damaged due to the fact that the cutting part applies pressure to the orange is effectively reduced.

Drawings

Fig. 1 is a front view structure schematic diagram of the orange sectioning blade.

Fig. 2 is a structural schematic diagram of a cutting state of the pre-cutting part when the orange sectioning blade cuts a small fruit.

Fig. 3 is a structural schematic diagram of a cutting state of the cutting part when the orange splitting blade cuts a small fruit.

Fig. 4 is a structural diagram of the cutting state of the precut part of the orange splitting blade when cutting a big fruit.

Fig. 5 is a structural diagram of a cutting state of the cutting part when the orange splitting blade cuts a big fruit.

The mark in the figure is: 1. a blade base body; 11. an installation part; 12. a cutting section; 13. a first sawtooth mounting surface; 14. cutting the saw teeth; 15. a precut section; 16. a second sawtooth mounting surface; 17. pre-cutting the saw teeth; 18. avoiding a space; 2. and (4) orange.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

The first embodiment is as follows: as shown in fig. 1 to 5, an orange sectioning blade includes a blade base body 1, and the blade base body 1 has a mounting portion 11 in a ring shape and a cutting portion 12 in a fan shape.

The cutting part 12 is positioned outside the mounting part 11, a first sawtooth mounting surface 13 is arranged on the outer side surface of the cutting part 12, the distance between the first sawtooth mounting surface 13 and the shaft axis Q of the mounting part 11 is continuously increased from the starting end line A to the terminal end line Z, namely QZ & gt QA, and then the first sawtooth mounting surface 13 is formed into an arc surface or a spiral surface.

The first saw tooth mounting surface 13 is fixedly connected with a plurality of cutting saw teeth 14, and the cutting saw teeth 14 are arranged from a starting end line A to a terminal end line Z.

Blade base member 1 still has precut part 15, precut part 15 is located the outside of installation department 11, precut part 15 and cutting part 12 set up around the axial lead Q circumference arrangement of installation department 11, and form the space of dodging between precut part 15 and the cutting part 12, when orange split blade cutting orange 2, cutting part 12 and precut part 15 are all along the axial lead Q circumference rotation of installation department 11, and precut part 15 earlier with 2 contact cutting of orange, the realization is precut 2 to orange.

The outer side surface of the precut part 15 is provided with a second sawtooth mounting surface 16, the distance between the second sawtooth mounting surface 16 and the shaft axis Q of the mounting part 11 is continuously increased from the starting end line B to the terminal end line Y, namely QY is larger than QB, and then the second sawtooth mounting surface 16 is formed into a circular arc surface or a spiral surface.

The second sawtooth installation surface 16 is fixedly connected with a plurality of pre-cutting sawteeth 17, and the plurality of pre-cutting sawteeth 17 are arranged from a starting end line B to a terminal end line Y.

The pre-cut serrations 17 are the same size as the cutting serrations 14, or the pre-cut serrations 17 are smaller than the cutting serrations 14.

The pre-cutting sawteeth 17 and the cutting sawteeth 14 are both made of steel wires, and the diameter of the steel wires of the pre-cutting sawteeth 17 is smaller than that of the steel wires of the cutting sawteeth 14; or the pre-cutting sawteeth 17 and the cutting sawteeth 14 are made of steel wires, and the distance between the adjacent pre-cutting sawteeth 17 is smaller than that between the adjacent cutting sawteeth 14; or the pre-cutting saw teeth 17 and the cutting saw teeth 14 are made of steel wires, and the height of the pre-cutting saw teeth 17 is smaller than that of the cutting saw teeth 14.

The pre-cutting part 12 is a plane QBY, the angle alpha of the cutting arc surface or the cutting spiral surface is 10-90 degrees, so that the pre-cutting part 12 does not occupy large space and reduces the manufacturing cost when pre-cutting the orange 2.

The distance QY between the terminal line of the precut part 15 and the axial lead of the mounting part 11 is larger than the distance QA between the starting end line of the cutting part 12 and the axial lead of the mounting part 11, and the distance QY between the terminal line of the precut part 15 and the axial lead of the mounting part 11 is smaller than the distance QZ between the terminal line of the cutting part 12 and the axial lead of the mounting part 11; i.e., QZ > QY > QA.

A distance QZ between a terminal end line of the cutting part 15 and an axial lead of the mounting part 11 is greater than a distance QB between a starting end line of the pre-cutting part 15 and the axial lead of the mounting part 11, namely QZ is greater than QB; and the distance difference between the QZ and the QB is 20 mm-80 mm, so that the complete cutting of the blade substrate 1 to the center position of the orange 2 can be ensured.

When the cutting part 12 and the precutting part 15 are arc surfaces, the cutting part 12 and the precutting part 15 of the orange sectioning blade have the same radius, namely R1= R2, so that the manufacturing precision of the blade substrate 1 can be improved; the cutting part 12 and the precut part 15 are respectively arranged eccentrically to the axial lead Q of the mounting part 11, and the eccentric distance QF1 between the cutting part 12 and the mounting part 11 is the same as the eccentric distance QF2 between the precut part 15 and the mounting part 11, namely QF1= QF2; the structural accuracy of the cutting part 12 and the precut part 15 in the blade base body 1 is further improved; the included angle beta formed between the circle centers of the cutting part 12 and the precutting part 15 and the axial lead of the mounting part is 55-120 degrees.

As shown in fig. 2-3, the orange 2 with a diameter of about 50 mm is a small fruit, because the orange and the orange are tightly adhered, when the pre-cutting part 15 performs pre-cutting, because the diameter, the distance and the height of the steel wires of the pre-cutting saw teeth 17 are smaller than those of the cutting saw teeth 14, the cutting saw teeth 17 can easily make the orange 2 generate a cutting cut, a cutting area S1 of the small fruit is formed, the blade base 1 rotates around the axial line Q of the mounting part 11, until the corrugated steel wire string of the cutting part 12 abuts against the small fruit, because QA is less than QY, the cutting point P1 of the cutting part 12 is in the pre-cutting area S1, the cutting part 12 is inserted in the pre-cutting area S1 formed by the pre-cutting part 15 to completely cut the orange 2, and the diameter, the distance and the height of the steel wires of the cutting saw teeth 14 are greater than those of the pre-cutting saw teeth 17, so that the orange is easier to separate, and the orange 2 is damaged due to the pressure applied to the orange 2 by the cutting part is effectively reduced.

As shown in fig. 4-5, the tangerine 2 with a diameter of about 80 mm is a big fruit, because the tangerine slices and the tangerine slices are tightly adhered, when the pre-cutting part 15 performs pre-cutting, because the diameter, the distance and the height of the steel wires of the pre-cutting saw teeth 17 are smaller than those of the cutting saw teeth 14, the pre-cutting saw teeth 17 can easily cause the tangerine 2 to generate cutting cuts to form a pre-cutting area S2 of the big fruit, the blade base 1 rotates around the axial line Q of the mounting part 11 until the corrugated steel wire string of the cutting part 12 abuts against the big fruit, because QA is less than QY, the cutting point P2 of the cutting part 12 is in the pre-cutting area S2, the cutting part 12 is inserted in the pre-cutting area S2 formed by the pre-cutting part 15 to completely cut the tangerine 2, and the diameter, the distance and the height of the steel wires of the cutting saw teeth 14 are greater than those of the pre-cutting saw teeth 17, so that the tangerine 2 can be more easily separated, and the phenomenon that the tangerine 2 is damaged due to the pressure applied to the cutting part to the tangerine 2 can be effectively reduced.

The second embodiment: the present embodiment has the same structure and principle as those of the first embodiment, and the same parts will not be described redundantly, but only different parts are described, where the pre-cutting saw teeth 17 and the cutting saw teeth 14 are made of steel wires, and the diameter of the steel wire of the pre-cutting saw teeth 17 is smaller than that of the cutting saw teeth 14.

Example three: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same portions will not be described redundantly, but only different portions will be described, where the pre-cutting teeth 17 and the cutting teeth 14 are made of steel wires, and the distance between adjacent pre-cutting teeth 17 is smaller than the distance between adjacent cutting teeth 14.

Example four: the present embodiment has the same structure and principle as those of the first embodiment, and the same parts will not be described redundantly, but only different parts are described, where the pre-cutting saw teeth 17 and the cutting saw teeth 14 are made of steel wires, and the height of the pre-cutting saw teeth 17 is smaller than that of the cutting saw teeth 14.

Claims

1. An orange sectioning blade comprises a blade base body (1), wherein the blade base body (1) is provided with an annular mounting part (11) and a fan-shaped cutting part (12), the cutting part (12) is positioned on the outer side of the mounting part (11), a first sawtooth mounting surface (13) is arranged on the outer side surface of the cutting part (12), the distance between the first sawtooth mounting surface (13) and the axial lead of the mounting part (11) from a starting end line to a terminal line is continuously increased, a plurality of cutting sawteeth (14) are fixedly connected to the first sawtooth mounting surface (13), and the plurality of cutting sawteeth (14) are arranged from the starting end line to the terminal line; a second sawtooth installation surface (16) is arranged on the outer side surface of the precutting part (15), the distance between the second sawtooth installation surface (16) and the axial lead of the installation part (11) is continuously increased from the starting end line to the terminal line, a plurality of precutting sawteeth (17) are fixedly connected to the second sawtooth installation surface (16), and the precutting sawteeth (17) are arranged from the starting end line to the terminal line; the distance QY between the terminal line of the pre-cutting part (15) and the axial lead of the mounting part (11) is larger than the distance QA between the starting end line of the cutting part (12) and the axial lead of the mounting part (11), and the distance QY between the terminal line of the pre-cutting part (15) and the axial lead of the mounting part (11) is smaller than the distance QZ between the terminal line of the cutting part (12) and the axial lead of the mounting part (11); an avoidance space (18) is formed between the precut part (15) and the cutting part (12).

2. The orange sectioning blade according to claim 1, wherein the second saw tooth mounting surface (16) is a circular arc surface or a helicoid surface.

3. The orange sectioning blade according to claim 2, wherein the first saw tooth mounting surface (13) is a circular arc surface or a helicoid surface.

4. The orange sectioning blade according to claim 3, wherein when the cutting portion (12) and the pre-cutting portion (15) are circular arc surfaces, the cutting portion (12) and the pre-cutting portion (15) are respectively arranged eccentrically to the axis of the mounting portion (11), and the center of the circle of the cutting portion (12) and the pre-cutting portion (15) is the same as the eccentricity of the axis of the mounting portion (11), i.e. QF1= QF2.

5. The orange sectioning blade according to claim 4, wherein the cutting portion (12) has a radius R1 identical to a radius R2 of the pre-cutting portion (15).

6. The orange sectioning blade according to claim 4, wherein the cutting portion (12) and the pre-cutting portion (15) form an angle β of 55 ° to 120 ° between the centre of the circle and the axis of the mounting portion (11).

7. Orange sectioning blade according to any one of claims 1 to 6, characterized in that the angle α of the circular or helical surface of the pre-cut portion (15) is comprised between 10 ° and 90 °.

8. The orange valving blade according to any one of claims 1 to 6, wherein a spacing QZ between a terminal end line of the cutting portion (15) and an axial line of the mounting portion (11) is greater than a spacing QB between a starting end line of the pre-cutting portion (15) and an axial line of the mounting portion (11), and a difference between the spacings QZ and QB is 20 mm to 80 mm.

9. Orange sectioning blade according to any one of claims 1 to 6, characterized in that the pre-cutting serrations (17) are the same size as the cutting serrations (14), or the pre-cutting serrations (17) are smaller than the cutting serrations (14).

10. The orange sectioning blade according to claim 9, wherein the pre-cut sawteeth (17) and the cutting sawteeth (14) are made of steel wires, the pre-cut sawteeth (17) having a wire diameter smaller than the wire diameter of the cutting sawteeth (14); or the pre-cutting sawteeth (17) and the cutting sawteeth (14) are made of steel wires, and the distance between every two adjacent pre-cutting sawteeth (17) is smaller than that between every two adjacent cutting sawteeth (14); or the pre-cutting sawteeth (17) and the cutting sawteeth (14) are both made of steel wires, and the height of the sawteeth of the pre-cutting sawteeth (17) is smaller than that of the cutting sawteeth (14).