CN113396959B - Device and method for chicken wing segmentation - Google Patents

Abstract

The disclosure relates to the field of food processing, in particular to a device and a method for chicken wing segmentation. An apparatus for chicken wing splitting, comprising: the shell is used for fixing the rotating assembly, the positioning assembly and the cutter assembly; the rotating assembly comprises a rotating body, and the rotating body is rotatably arranged on the shell through a rotating shaft arranged at the center of the rotating body; positioning grooves are uniformly formed in the circumferential direction of the rotating body; the positioning assembly is fixed at the top in the shell and positioned above the rotating assembly; the device comprises an adjusting plate, wherein the adjusting plate comprises a first adjusting plate, a second adjusting plate and a third adjusting plate; the first pressure rod is welded on the first adjusting plate and used for positioning a bending section between the middle wing and the root wing; the second adjusting plate is provided with an elastic pressure module for fixing one side of a bone joint between the middle wing and the root of the wing; and the third adjusting plate is provided with a fixed guide rod for fixing a bending section between the middle part of the wing and the root of the wing.

Description

Device and method for chicken wing segmentation

Technical Field

The disclosure relates to the field of food processing, in particular to a device and a method for chicken wing segmentation.

Background

In the chicken processing industry, the production and division of chicken wings in enterprises are mostly finished manually, the whole chicken wing is cut into three sections at two joints of the chicken wing by scissors, the working efficiency is low, the requirement of staff is large, the operation is long, the arms of the staff are sore, and the work satisfaction of the staff is low.

The existing chicken wing cutting method is a process of cutting chicken wings by a circular rotary blade cutting machine, wherein a cutter rotates at a high speed, the cutter rotates in a groove, and the chicken wings are pushed along a guide rod matched with the cutter to move and cut through the rotating cutter, so that the chicken wings are cut. But the method firstly has no protection effect on the staff, the staff is easily scratched by the blade due to the installation position of the cutter, and the operation danger is relatively high; furthermore, the chicken wings cannot be cut in a positioning way, and only one chicken wing can be cut at a time.

Some cutting machines in the existing chicken wing cutting mode can position the chicken wings, but the chicken wings are mostly positioned by being arranged in positioning grooves, the positioning mode is easy to be dislocated due to the fact that the chicken wings are subjected to rotating force or fluctuation around the chicken wings in the rotating process, accurate positioning specific to bone joints of all sections of the chicken wings is not achieved, the existing positioning mode cannot be adjusted elastically along with the sizes of the chicken wings, and therefore high qualified rate cannot be guaranteed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a device for cutting chicken wings, which ensures that each joint of the chicken wings with different sizes is accurately positioned, improves the cutting efficiency and the cutting qualification rate of the chicken wings and improves the cutting efficiency and the accuracy rate of the chicken wings.

To achieve the above-mentioned object, one or more embodiments of the present invention provide the following solutions:

in a first aspect, the present invention discloses a device for chicken wing segmentation, comprising:

the shell is used for fixing the rotating assembly, the positioning assembly and the cutter assembly;

the rotating assembly comprises a rotating body, and the rotating body is rotatably arranged on the shell through a rotating shaft arranged at the center of the rotating body; positioning grooves are uniformly formed in the circumferential direction of the rotating body;

the positioning assembly is fixed at the top in the shell and positioned above the rotating assembly; the device comprises an adjusting plate, wherein the adjusting plate comprises a first adjusting plate, a second adjusting plate and a third adjusting plate; the first pressure rod is welded on the first adjusting plate and used for positioning a bending section between the middle wing and the root wing; the second adjusting plate is provided with an elastic pressure module for fixing bone joints between the middle wing and the root of the wing; and the third adjusting plate is provided with a fixed guide rod for fixing a bending section between the middle part of the wing and the root of the wing.

As a further technical scheme, the shell comprises a base, and the shield is positioned at the top of the base and is fixedly connected with the base; the rotating assembly is rotationally fixed on the base, and the positioning assembly and the cutter assembly are fixed in the protective cover.

As a further technical scheme, the base is of an L-shaped structure, and the cutter assembly is located on the vertical end face of the base and is away from the rotating assembly by a preset distance.

As a further technical scheme, the positioning assembly also comprises a bottom plate which is fixed at the top in the shell; the two sides of the bottom plate are respectively provided with a guide plate, the two guide plates arranged on one side are respectively connected with a guide pressure plate and a cutting pressure plate, and the three guide plates arranged on the other side are respectively connected with a first fixing plate, a second fixing plate and a third fixing plate.

As a further alternative, a guiding pressure plate and a cutting pressure plate are used to fix the bent section in the wing between the wing tip and the wing middle.

As a further technical scheme, chutes are formed in the first fixing plate, the second fixing plate and the third fixing plate, bolts penetrate through the chutes to connect the first adjusting plate to the first fixing plate respectively, fix the second adjusting plate to the second fixing plate, and fix the third adjusting plate to the third fixing plate.

As a further technical scheme, the first adjusting plate comprises a first positioning plate and a second positioning plate, the first positioning plate is hinged with the second positioning plate, a first pressure rod is welded on the first positioning plate, and the second positioning plate is slidably and fixedly connected to the first fixing plate; the first positioning plate is provided with a bolt rod, and the spring is sleeved on the bolt rod.

As a further technical scheme, the second pressure bar is welded and connected to the first fixing plate, the length value of the first fixing plate is lower than that of the first adjusting plate, the second pressure bar is located above the first pressure bar along the vertical direction, and the second pressure bar is used for fixing the bending section between the fin root and the fin.

As a further technical scheme, the second adjusting plate is rotatably connected with one end of the rotating sheet, the other end of the rotating sheet is fixedly connected with the elastic pressure module, the bottom of the elastic pressure module is connected with one end of the spring, and the other end of the spring is fixed on the second adjusting plate.

As a further technical scheme, one end part of the second adjusting plate, which is close to the rotating body, is connected with a positioning guide groove, and an opening of the positioning guide groove faces the rotating body and is used for fixing a bone joint between the middle wing and the root of the wing.

As a further technical scheme, the rotating body comprises a first rotating die, a second rotating die and a third rotating die, and the first rotating die, the second rotating die and the third rotating die are coaxially arranged and fixed through bolts.

As a further technical scheme, a first positioning groove is formed in the first rotary die, a second positioning groove is formed in the second rotary die, and a third positioning groove is formed in the third rotary die.

As a further technical scheme, the cutter assembly comprises an upper cutter cutting frame and a lower cutter cutting frame; an upper cutter is fixed on the upper cutter cutting frame and is used for cutting bone joints between the middle wing and the root wing; the lower cutter cutting frame is used for fixing a lower cutter and is used for cutting bone joints between the tips of the wings and the middle parts of the wings.

In a second aspect, the present disclosure further relates to a method for chicken wing segmentation, and based on the device for chicken wing segmentation proposed in the present application, the specific steps are as follows:

s1: the chicken wings are placed on the rotating body, the middle parts of the chicken wings are placed in the second positioning grooves, the chicken wing tips are positioned in the first positioning grooves, and the chicken wing roots are positioned in the third positioning grooves;

s2: starting a motor to drive the rotating body to rotate, wherein two ends of each chicken wing rotate to the positions below the fixed guide rod and the guide pressure plate respectively; the fixed guide rod fixes the bent part between the middle wing and the root of the wing, and the guide pressure plate fixes the bent section between the middle wing and the tip of the wing; further attaching the wing middle and wing root parts of the chicken wings to the second positioning groove and the third positioning groove, and automatically guiding the bone joints between the wing middle and wing root parts to the lower part of the positioning guide groove;

s3: the rotating body continues to rotate, the chicken wings are positioned below the elastic pressure module, and the elastic pressure module elastically positions bone joints between the middle wings and the wing roots of the chicken wings; the bending section between the middle wing and the tip of the chicken wing still does not depart from the positioning range of the guide pressure plate; the guiding pressure plate continuously positions the bending section between the middle wing and the tip of the chicken wing;

s4: the rotating body continues to rotate, and the chicken wings rotate to the positions below the first pressure rod and the second pressure rod; the second pressure rod does not displace and is used for fixing the bent section between the middle wing and the root of the wing; the first pressure rod can swing relative to the rotating body, and the swing angle is automatically adjusted according to the size of the chicken wing so as to fix the bending section between the middle wing and the root of the chicken wing;

s5: the rotating body continues to rotate, the middle wing and the wing root are in an inverted V shape in the second positioning groove and the third positioning groove, the bone joint between the middle wing and the wing root is positioned at the vertex of the V shape, when the bone joint between the middle wing and the wing root reaches the edge of the upper cutter facing the cutter assembly, the upper cutter is aligned with the bone joint between the middle wing and the wing root to cut, and the wing root is cut from the chicken wing;

s6: when the bone joints in the wing and between the wing tips are cut, the wing roots are cut off, the remaining wing middle and wing tips continue to rotate in the first positioning groove and the second positioning groove of the rotating body, the bone joints between the wing middle and the wing tips of the chicken wing are positioned through the cutting positioning plate and the guide pressure plate, the wing middle and wing tips are in a vertical V-shaped shape on the rotating body, the bone joints between the wing middle and wing tips are at the lowest point of the V-shaped shape, and when the position of the bone joints between the wing middle and wing tips is opposite to the cutting edge of the lower cutting knife of the cutter assembly, the bone joints between the wing middle and wing tips of the chicken wing are cut by the lower cutting knife.

The beneficial effects of one or more technical schemes are as follows:

1. the design of the positioning component can realize the accurate positioning of the chicken wings according to the bone joints, and is convenient for the accurate cutting of the bone joint positions in the follow-up process. Wherein, first adjusting plate includes two articulated first locating plates and second locating plate, welds first pressure pole on first locating plate, and first pressure pole can swing along with the swing of first locating plate to set up the spring beam on the terminal surface of one side of first locating plate, the angle of adjusting first locating plate drives first pressure pole swing different angles in order to adapt to the needs of different chicken wings sizes, realizes elastic positioning.

2. According to the chicken wing dividing device, when the chicken wings are placed in the three positioning grooves of the rotating body, the chicken wings do not need to be adjusted by workers, the chicken wings do not need to be completely centered in the placing process, only approximate positions need to be placed, and the chicken wings are automatically corrected and accurately cut through the chicken wing dividing device.

3. The rotary body drives the chicken wings to rotate, when the chicken wings rotate to the positions of the positioning assemblies, the corresponding parts of the positioning assemblies respectively position the wing tips, the wing middle parts and the wing roots of the chicken wings, the bone joints of the wing tips and the wing middle parts and the bone joints of the wing middle parts and the wing roots, the chicken wings completely correspond to the corresponding positioning grooves, the bone joints of the wing roots and the wing middle parts of the chicken wings and the bone joints of the wing middle parts and the wing tips of the chicken wings just correspond to the upper parts of the corresponding upper cutting knives and the lower parts of the corresponding lower cutting knives, the chicken wings are respectively cut by the upper cutting knives and the lower cutting knives, and the chicken wings are accurately divided into three sections according to requirements.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of a positioning assembly;

FIG. 3 is a schematic view of another angular positioning assembly;

FIG. 4 is a schematic view of the construction of the cutter assembly;

FIG. 5 is a schematic cross-sectional view of a chicken wing placed on a rotating assembly;

FIG. 6 is a schematic cross-sectional view of another angle chicken wing placed on the rotating assembly;

in the figure, 1, a housing, 2, a positioning assembly, 3, a rotating assembly, 4, a cutter assembly, 5, a shield, 6, a base, 7, a bottom plate, 8, a guide plate, 9, a first fixing plate, 10, a second fixing plate, 11, a third fixing plate, 12, a guide pressure plate, 13, a cutting positioning plate, 14, a first adjusting plate, 15, a second adjusting plate, 16, a third adjusting plate, 17, a rotating sheet, 18, a spring pressure module, 19, a first pressure rod, 20, a second pressure rod, 21, a fixed guide rod, 22, a positioning guide groove, 23, an upper cutting knife rest, 24, a lower cutting knife rest, 25, an upper cutting knife, 26, a lower cutting knife, 27, a bone joint between the middle wing and the root of the wing, 28, a bone joint between the middle wing and the tip of the wing.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings.

Example 1

Referring to fig. 1-6, the present invention discloses a device for chicken wing division, which comprises a housing 1, a rotating assembly 3, a positioning assembly 2 and a cutter assembly 4.

It is to be understood that, for the sake of clarity, in the present embodiment, the upper side of the casing 1 in the ground direction is defined as an upper end, the lower side is defined as a lower end, a front side in the front view is defined as a front end, a side opposite to the front side in the horizontal direction is defined as a rear end, a right side in the front view on the casing 1 is defined as a right end, and a left side in the front view on the casing 1 is defined as a left end.

The device comprises a shell 1, wherein the shell 1 is used for fixing a rotating assembly 3, a positioning assembly 2 and a cutter assembly 4; wherein rotating assembly 3 is located casing 1, and rotating assembly 3 central point puts and is provided with the pivot, and the pivot both ends are fixed in the front end and the rear end of casing 1 through the bearing. Casing 1 is provided with guard shield 5 and base 6, and base 6 is located the lower extreme of whole casing 1, and base 6 is L type structure, and the one end of the vertical direction of base 6 is located casing 1's right-hand member, and guard shield 5 is located the top of base 6 and regards as the upper end of whole casing 1, and whole casing 1 connects into the structure of integration.

The rotating component 3 is positioned in the shell 1, the positioning component 2 is fixedly installed in the shield 5, the positioning component 2 is positioned above the rotating component 3 and is preset with a distance from the rotating component 3, the distance value is set according to the requirement of actual engineering, the set distance is just in the range of positioning the chicken wings, and the positioning component 2 is used for positioning the chicken wings on the rotating component 3; the cutter assembly 4 is located at the right end of the housing 1, namely, in one end of the base 6 in the vertical direction of the L-shaped structure, and is used for cutting the chicken wings on the rotating assembly 3. The rotating assembly 3, the positioning assembly 2 and the cutter assembly 4 are all located within the housing 1. The housing 1 serves to fix the rotary assembly 3, the positioning assembly 2 and the cutter assembly 4.

The rotating assembly 3 comprises a rotating body, a positioning groove is formed in the rotating body, the rotating body comprises a first rotating die, a second rotating die and a third rotating die, and the first rotating die, the second rotating die and the third rotating die are coaxially arranged and fixed through bolts. The first rotating die is provided with a first positioning groove, the second rotating die is provided with a second positioning groove, and the third rotating die is provided with a third positioning groove.

The shape and structure of the first positioning groove, the second positioning groove and the third positioning groove are different, the first positioning groove, the second positioning groove and the third positioning groove are set according to the shape of the chicken wing, the structure of the first positioning groove is as shown in figure 1, the opening on one side is larger than the opening on the other side, the improvement is made according to the shape of the wing tip of the chicken wing, the wing tip is the thinnest part in the chicken wing, and the wing tip is inclined at a certain angle relative to the wing, so that the opening on one side is larger than the opening on the other side, the part of the wing tip with the larger opening is used for placing the part of the wing tip inclined at a certain angle, and the part with the smaller opening is used for clamping the wing tip; the opening of the second positioning groove is larger than that of the first positioning groove and is used for placing the wing middle part of the chicken wing, and the wing middle part of the chicken wing is thicker in size, so that the opening is larger than that of the first positioning groove; the opening boundary of the third positioning groove extends along the opening boundary of the second positioning groove along the rotating shaft direction of the rotating body and is used for fixing the wing root part of the chicken wing.

The three rotary dies of the rotary body are specially made dies according to the shape of the chicken wings, are used for containing the chicken wings and driving the chicken wings to rotate around the rotary shaft, and when the chicken wings rotate to a specific position, the cutting assembly 4 cuts the chicken wings at the specific position corresponding to the chicken wings, so that the chicken wings are cut.

The positioning assembly 2 comprises a bottom plate 7, the bottom plate 7 is fixedly arranged in a shield 5 of the shell 1, guide plates 8 are fixedly arranged on the bottom plate 7, the guide plates 8 are respectively arranged on two sides of the bottom plate 7 along the axis direction of the rotating shaft, the guide plate 8 on one side is provided with two positions, and the guide plate 8 on the other side is provided with three positions. The guide plates 8 arranged at two positions are positioned on one side of the bottom plate 7 close to the rear end of the shell 1, and the guide plates 8 arranged at three positions are positioned on one side of the bottom plate 7 close to the front end of the shell 1.

A guide pressure plate 12 and a cutting positioning plate are respectively connected to the guide plate 8 on one side of the bottom plate 7 close to the rear end of the shell 1; the guide pressure plate 12 is close to the left end of the shell 1, and the cutting positioning plate is close to the right end of the shell 1; the guide pressure plate 12 and the cutting positioning plate 13 are used for fixing the bent section part between the middle wing and the tip of the chicken wing.

Three guide plates 8 on one side of the bottom plate 7 close to the front end of the shell 1 are respectively connected with a first fixing plate 9, a second fixing plate 10 and a third fixing plate 11. The guide plate 8, the first fixing plate 9, the second fixing plate 10 and the third fixing plate 11 are provided with sliding grooves, bolts penetrate through the sliding grooves to respectively connect the first adjusting plate 14 to the first fixing plate 9, the second adjusting plate 15 is fixed to the second fixing plate 10, and the third adjusting plate 16 is fixed to the third fixing plate 11.

The first pressure rod 19 is welded on the first adjusting plate 14 and used for positioning a bending section between the middle wing and the root wing; the second adjusting plate 15 is provided with an elastic pressure module for fixing a bone joint 27 between the middle wing and the root of the wing; the third adjusting plate 16 is provided with a fixing guide rod 21 for fixing the bending section between the middle wing and the root wing.

The first adjusting plate 14 comprises a first positioning plate and a second positioning plate, the first positioning plate is hinged to the second positioning plate, the second positioning plate is slidably and fixedly connected with the first fixing plate 9, the first positioning plate swings relative to the second positioning plate, a bolt rod is vertically connected to one side surface of the first positioning plate, which is close to the front end of the shell 1, a spring is sleeved outside the bolt rod, and the angle and the distance of the first positioning plate relative to the rotating body are adjusted through the adjusting spring; the first pressure rod 19 is welded on the first positioning plate, the first pressure rod 19 is driven to swing through the swinging of the first positioning plate so as to adapt to the sizes of different chicken wings, and the chicken wings are automatically positioned in the third positioning groove under the elastic adjustment of the first pressure rod 19.

The welding has second pressure pole 20 on the second locating plate, and first locating plate length value is less than the length value of first adjusting plate 14, and second pressure pole 20 is located the top of first pressure pole 19, and the swing of relative axis of rotation direction can not be realized to the second locating lever, and first pressure pole 19, second pressure pole 20 all are used for the fixed wing root and the bending section between the wing.

Wherein, the second adjusting plate 15 is connected with the elastic pressure module through a rotating sheet 17 and a spring; one end of the rotating sheet 17 is rotatably connected with the second adjusting plate 15, and the other end of the rotating sheet is fixedly connected with one side of the bottom of the elastic pressure module; the other side of the bottom of the elastic pressure module is fixedly connected with one end of a spring, and the other end of the spring is fixedly arranged on the second adjusting plate 15. The elastic pressure module can realize the elastic fixation of the positions close to the bone joints between the middle parts and the wing roots of the chicken wings under the driving of the spring, and the rotating piece 17 plays a supporting role in the elastic pressure module.

One end part of the second adjusting plate 15 close to the rotating body is connected with a positioning guide groove 22, and the opening of the positioning guide groove 22 faces the rotating body and is used for fixing a bone joint 27 between the middle wing and the root of the wing.

The cutter assembly 4 is positioned at the right end of the shell 1, and the cutter assembly 4 comprises an upper cutter cutting frame and a lower cutter cutting frame; an upper cutter 25 is fixed on the upper cutter cutting frame and is used for cutting a bone joint 27 between the middle wing and the root wing; the lower cutter cutting frame fixes a lower cutter 26 for cutting the bone joint between the tip and middle of the wing.

Example 2

In a second aspect, the present disclosure further relates to a method for chicken wing segmentation, and based on the device for chicken wing segmentation proposed in the present application, the specific steps are as follows:

s1: the chicken wings are placed on the rotating body, the middle parts of the chicken wings are placed in the second positioning grooves, the chicken wing tips are positioned in the first positioning grooves, and the chicken wing roots are positioned in the third positioning grooves;

s2: starting a motor to drive the rotating body to rotate, wherein two ends of the chicken wing respectively rotate to the lower parts of the fixed guide rod 21 and the guide pressure plate 12; the fixing guide rod 21 fixes the bent part between the middle wing and the root of the wing, the middle wing and the root of the wing of the chicken are further attached to the second positioning groove and the third positioning groove, the bone joint 27 between the middle wing and the root of the wing is automatically guided into the lower part of the positioning guide groove 22, and the bone joint 27 between the middle wing and the root of the wing of the chicken is positioned by the positioning guide groove 22;

in the step S2, the guiding pressure plate 12 fixes the bending section between the middle wing and the tip of the chicken wing;

s3: the rotating body continues to rotate, the chicken wings are positioned below the elastic pressure module, and the elastic pressure module elastically positions bone joints 27 between the middle wings and the wing roots of the chicken wings; at this time, the bent section between the middle wing and the tip of the chicken wing still does not depart from the positioning range of the guide pressure plate 12; the guiding pressure plate 12 continues to position the bending section between the middle wing and the tip of the chicken wing;

s4: the rotating body continues to rotate, and the chicken wings rotate to the positions below the first pressure rod 19 and the second pressure rod 20; the second pressure bar 20 does not displace and is used for fixing the bending section between the middle wing and the root of the wing; the first pressure rod 19 can swing relative to the axial direction of the rotating body, and automatically adjust the swing angle according to the size of the chicken wing so as to fix the bending section between the middle wing and the root of the chicken wing;

s4: the rotating body continues to rotate, the middle wing and the wing root are in an inverted V shape in the second positioning groove and the third positioning groove, the bone joint 27 between the middle wing and the wing root is positioned at the vertex of the V shape, when the bone seam of the bone joint between the middle wing and the wing root reaches the edge of the upper cutter 25 facing the cutter assembly 4, the upper cutter 25 is aligned with the bone joint 27 between the middle wing and the wing root to cut, and the wing root is cut from the chicken wing;

s5: after the bone joints in the wing and the wing root are cut, the wing root is cut, the remaining wing middle and the wing tip continue to rotate in the first positioning groove and the second positioning groove of the rotating body, the bone joints 28 between the wing middle and the wing tip of the chicken wing are positioned through the cutting positioning plate and the guide pressure plate 12, the wing middle and the wing tip are in a vertical V shape on the rotating body, the bone joints 28 between the wing middle and the wing tip are at the lowest points of the V shape, and when the positions of the bone joints between the wing middle and the wing tip are opposite to the cutting edges of the lower cutters 26 of the cutter assemblies 4, the bone joints in the wing middle and the wing tip of the chicken wing are cut by the lower cutters 26.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that numerous changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A method for chicken wing splitting, implemented with a chicken wing splitting device comprising:

the shell is used for fixing the rotating assembly, the positioning assembly and the cutter assembly;

the rotating assembly comprises a rotating body, and a rotating shaft arranged at the center of the rotating body is rotationally arranged on the shell; positioning grooves are uniformly formed in the circumferential direction of the rotating body;

the positioning assembly is fixed at the top in the shell and positioned above the rotating assembly; the device comprises an adjusting plate, wherein the adjusting plate comprises a first adjusting plate, a second adjusting plate and a third adjusting plate; the first adjusting plate is welded with a first pressure rod which is used for positioning a bending section between the middle wing and the root wing; the second adjusting plate is provided with an elastic pressure module for fixing one side of a bone joint between the middle wing and the root of the wing; the third adjusting plate is provided with a fixed guide rod for fixing a bending section between the middle part of the wing and the root of the wing;

the chicken wing cutting method is characterized by comprising the following specific steps:

s1: the chicken wings are placed on the rotating body, the middle parts of the chicken wings are placed in the second positioning grooves, the chicken wing tips are positioned in the first positioning grooves, and the chicken wing roots are positioned in the third positioning grooves;

s2: starting a motor to drive the rotating body to rotate, wherein two ends of each chicken wing rotate to the positions below the fixed guide rod and the guide pressure plate respectively; the fixed guide rod fixes the bent part between the middle wing and the root of the wing, and the guide pressure plate fixes the bent section between the middle wing and the tip of the wing; further attaching the wing middle and wing root parts of the chicken wings to the second positioning groove and the third positioning groove, and automatically guiding the bone joints between the wing middle and wing root parts to the lower part of the positioning guide groove;

s3: the rotating body continues to rotate, the chicken wings are positioned below the elastic pressure module, and the elastic pressure module elastically positions bone joints between the middle wings and the wing roots of the chicken wings; the bending section between the middle wing and the tip of the chicken wing still does not depart from the positioning range of the guide pressure plate; the guiding pressure plate continuously positions the bending section between the middle wing and the tip of the chicken wing;

s4: the rotating body continues to rotate, and the chicken wings rotate to the positions below the first pressure rod and the second pressure rod; the second pressure rod does not displace and is used for fixing the bent section between the middle wing and the root of the wing; the first pressure rod can swing relative to the rotating body, and the swing angle is automatically adjusted according to the size of the chicken wing so as to fix the bending section between the middle wing and the root of the chicken wing;

s5: the rotating body continues to rotate, the middle wing and the wing root are in an inverted V shape in the second positioning groove and the third positioning groove, the bone joint between the middle wing and the wing root is positioned at the vertex of the V shape, when the bone joint between the middle wing and the wing root reaches the edge of the upper cutter facing the cutter assembly, the upper cutter is aligned with the bone joint between the middle wing and the wing root to cut, and the wing root is cut from the chicken wing;

s6: when the bone joints in the wing and between the wing tips are cut, the wing roots are cut off, the remaining wing middle and wing tips continue to rotate in the first positioning groove and the second positioning groove of the rotating body, the bone joints between the wing middle and the wing tips of the chicken wing are positioned through the cutting positioning plate and the guide pressure plate, the wing middle and wing tips are in a vertical V-shaped shape on the rotating body, the bone joints between the wing middle and wing tips are at the lowest point of the V-shaped shape, and when the position of the bone joints between the wing middle and wing tips is opposite to the cutting edge of the lower cutting knife of the cutter assembly, the bone joints between the wing middle and wing tips of the chicken wing are cut by the lower cutting knife.

2. A method for chicken wing splitting as in claim 1, wherein the housing comprises a base, the hood being fixedly attached to the base at a top of the base; the rotating assembly is rotationally fixed on the base, and the positioning assembly is fixed in the protective cover; the base is L type structure, and cutter unit spare is located the vertical terminal surface of base, and apart from the swivel subassembly and predetermine the distance.

3. The method of claim 1, wherein the positioning assembly further comprises a base plate secured to the housing at a top position; the two sides of the bottom plate are respectively provided with a guide plate, the two guide plates arranged on one side are respectively connected with a guide pressure plate and a cutting positioning plate, and the three guide plates arranged on the other side are respectively connected with a first fixing plate, a second fixing plate and a third fixing plate.

4. The method as claimed in claim 3, wherein the first fixing plate, the second fixing plate and the third fixing plate are provided with sliding slots, and the bolts pass through the sliding slots to connect the first adjusting plate to the first fixing plate, fix the second adjusting plate to the second fixing plate and fix the third adjusting plate to the third fixing plate, respectively.

5. The method for chicken wing splitting as claimed in claim 4, wherein the first adjusting plate comprises a first positioning plate and a second positioning plate, the first positioning plate is hinged with the second positioning plate, the first pressure bar is welded on the first positioning plate, and the second positioning plate is slidably and fixedly connected to the first fixing plate; the first positioning plate is provided with a bolt rod, and the spring is sleeved on the bolt rod.

6. The method for chicken wing splitting as claimed in claim 3, wherein a second pressure bar is welded to the first fixing plate, the first fixing plate having a length lower than that of the first adjusting plate, the second pressure bar being vertically above the first pressure bar, the second pressure bar being used to fix the bending section between the root and the middle of the wing.

7. The method for chicken wing splitting as defined in claim 4, wherein the second adjusting plate is rotatably connected to one end of a rotating piece, the other end of the rotating piece is fixedly connected to an elastic pressure module, the bottom of the elastic pressure module is connected to one end of a spring, and the other end of the spring is fixed to the second adjusting plate.

8. The method for chicken wing division according to claim 4, wherein the end of the second adjusting plate near the rotating body is connected with a positioning guide slot, the opening of the positioning guide slot faces the rotating body, and the positioning guide slot is used for fixing the bone joint between the middle wing and the root of the wing.

9. The method for chicken wing splitting as in claim 1, wherein the knife assembly comprises an upper knife cutting carriage and a lower knife cutting carriage; an upper cutter is fixed on the upper cutter cutting frame and is used for cutting bone joints between the middle wing and the root wing; the lower cutter cutting frame is used for fixing a lower cutter and is used for cutting bone joints between the tips of the wings and the middle parts of the wings.

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