CN110353019B - Pig's hoof cutting machine - Google Patents

Abstract

The invention provides a pig trotter cutting machine which comprises a main frame body arranged on the ground, wherein a conveying device, a cutting device and a positioning mechanism are arranged on the main frame body, the conveying device is used for conveying a whole pig to a corresponding cutting point on the cutting device or conveying the remaining pig with the pig trotters removed and pig trotters away, the positioning mechanism is used for pre-positioning the pig in the process of conveying the whole pig by the conveying device, and the cutting device is used for cutting the pig trotters from the whole pig; through main elbow tightening mechanism and pig's hoof tightening mechanism in proper order to carry out main elbow to the pig leg and tighten, the pig's hoof tightens, and the articulated junction between the main elbow pig's hoof after tightening is located same straight line with cutting mechanism's cutting machine, make the separation between pig's hoof and the pig more accurate, whole pig accessible positioning mechanism carries out location processing in advance to it in the transportation, thereby make the angle of opening of pig leg be in suitable value within range, the subsequent pig's hoof of being convenient for tightens cutting process, whole pig's leg tightens and pig's hoof cutting process full automatization.

Description

Pig's hoof cutting machine

Technical Field

The invention relates to the field of pig processing, in particular to pig hoof cutting equipment.

Background

The pig trotters are also called as pig feet and pig hands, contain rich collagen, have lower fat content than fat meat, can prevent and treat skin from being shriveled and wrinkled, enhance the elasticity and toughness of the skin, have great significance for delaying senility and promoting the growth and development of children, so people refer to the pig trotters as beauty food and delicious delicacies similar to bear palms, the traditional Chinese medicine considers that the pig trotters have flat properties, sweet and salty taste, and have the functions of tonifying deficiency, filling kidney essence, strengthening and picking knees and the like, the modern nutriology research shows that the pig trotters contain more protein, fat and carbohydrate, and contain beneficial components such as calcium, phosphorus, magnesium, iron, vitamin A, D, E, K and the like, generally people manually chop the pig trotters from the pig body, the pig trotters cutting mode has great examination on the physical strength of workers, and the chopped pig trotters have rough cutting surfaces, therefore, the invention provides pig foot cutting equipment, which is used for firstly tightening a main elbow of a pig leg and a pig foot and then cutting the pig leg, and the whole pig leg tightening and pig foot cutting process are full-automatic, so that manual operation is not needed, and the labor intensity of workers is greatly reduced.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide the pig foot cutting equipment, the whole pig leg is tightened, the pig foot cutting process is fully automatic, manual operation is not needed, and the labor intensity of workers is greatly reduced.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

The pig's hoof cutting machine comprises a main frame body installed on the ground, wherein a conveying device, a cutting device and a positioning mechanism are installed on the main frame body, the conveying device is used for conveying the whole pig to a corresponding cutting point on the cutting device or conveying away the remaining pig with the pig's hoofs removed and the pig's hoofs, the positioning mechanism is used for pre-positioning the pig in the process of conveying the whole pig by the conveying device, and the cutting device is used for cutting the pig's hoofs from the whole pig.

As a further improvement of the present solution.

The conveying device comprises an input mechanism for conveying the whole pig to the position of the cutting device, and an output mechanism for conveying the residual pig with the pig trotters removed and the pig trotters away;

the feeding mechanism comprises a feeding motor and a feeding component, the feeding motor is horizontally fixed on the main frame body, the feeding component comprises a feeding main/driven roller and a feeding conveying belt, the axial direction of the feeding main/driven roller is parallel to the axial direction of the feeding motor, the feeding main/driven roller is movably arranged on the main frame body and can rotate around the axial direction of the feeding main/driven roller, the feeding conveying belt is arranged between the feeding main/driven roller and the feeding motor, a first power transmission element is arranged between the feeding main roller and the feeding motor, power transmission is carried out between the feeding main roller and the feeding motor through the first power transmission element, and the first power transmission element is of a belt transmission structure;

the output mechanism is positioned below the input mechanism and comprises an output motor and an output component, the axial direction of the output motor is parallel to the axial direction of the input motor and is fixed on the main frame body, the output component comprises an output main/driven roller and an output conveying belt, the output main/driven roller is axially parallel to the axial direction of the output motor and is movably arranged on the main frame body and can rotate around the axial direction of the output main/driven roller, a second power transmission piece is arranged between the output main roller and the output motor, power transmission is carried out between the output main roller and the output motor through the second power transmission piece, and the second power transmission piece is of a belt transmission structure;

the positioning mechanism is positioned above the input component and comprises positioning guide rods, positioning plates and floating springs, the positioning guide rods are vertically fixed on the main frame body, and two groups of positioning guide rods are arrayed along the conveying direction of the input component;

the positioning plate is vertically arranged, the positioning plate is provided with connecting bulges which are movably arranged outside the positioning guide rod through the connecting bulges and form sliding guide fit, the connecting bulges are correspondingly provided with two groups, the large surface of the positioning plate is parallel to the conveying direction of the input component, and can be divided into a positioning inclined surface close to the feed end of the input component and a vertical surface close to the discharge end of the input component;

the floating springs are sleeved outside the positioning guide rod and are provided with two groups of upper floating springs located above the connecting bulges and lower floating springs located below the connecting bulges.

As a further improvement of the present solution.

The cutting device is positioned on one side of the vertical surface of the positioning plate facing the positioning inclined surface, the cutting device comprises a mounting bracket and a moving mechanism, the moving mechanism is used for driving the mounting bracket to move close to or away from the pig, a power mechanism, a main elbow tightening mechanism and a pig hoof tightening mechanism are arranged on the mounting bracket, the pig trotter cutting device comprises a power switching mechanism, a guide plate and a cutting mechanism, wherein the power mechanism is used for providing power for the operation of a main elbow tightening mechanism/pig trotter tightening mechanism, the main elbow tightening mechanism is used for tightening the main elbows of pig legs, the pig trotter tightening mechanism is used for tightening the pig trotters of the pig legs, the power switching mechanism is used for controlling the power transmission/cut-off between the power mechanism and the main elbow tightening mechanism/pig trotter tightening mechanism, the guide plate is used for guiding the pig trotters to an output conveying belt, and the cutting direction of the cutting mechanism and the joint of the tightened main elbow pig trotters are positioned on the same straight line and used for cutting the pig trotters;

the moving mechanism comprises a moving motor, a moving screw rod and a moving guide rod, the axial direction of the moving motor is parallel to the axial direction of the input motor and is fixed on the main frame body, the guiding direction of the moving guide rod is parallel to the axial direction of the moving motor and is fixed on the main frame body, and the moving screw rod is coaxially fixed at the power output end of the moving motor;

the mounting bracket is movably mounted outside the movable guide rod and forms sliding guide fit, the mounting bracket is further mounted outside the movable screw rod through a nut, and the movable screw rod rotates and pulls the mounting bracket to move along the axial direction of the movable screw rod;

the power mechanism comprises a motor and a rotating shaft, the axial direction of the motor is parallel to the axial direction of the moving motor and is fixed on the mounting support, the axial direction of the rotating shaft is parallel to the conveying direction of the feeding mechanism and is movably mounted on the mounting support and can rotate around the axial direction of the motor, a power transmission part III is arranged between the power output end of the motor and the rotating shaft, power transmission is carried out between the power output end of the motor and the rotating shaft through the power transmission part III, and the power transmission part III is of a worm and gear structure.

As a further improvement of the present solution.

The main elbow tightening mechanism comprises a first power transmission component and a main elbow tightening component, the first power transmission component is used for receiving power of the power mechanism and transmitting the power to the main elbow tightening component, and the main elbow tightening component is used for tightening the main elbows of the four pig legs of the pigs;

the main elbow tightening component is positioned on one side of the rotating shaft facing the positioning mechanism, the main elbow tightening component comprises tightening guide pillars, a driving rod and a main elbow tightening rod, the guiding direction of the tightening guide pillars is parallel to the conveying direction of the conveying mechanism, the tightening guide pillars are fixed on the mounting bracket, and two groups of tightening guide pillars are arranged in the direction vertical to the ground and are respectively an upper tightening guide pillar and a lower tightening guide pillar;

the driving rods are movably arranged outside the tightening guide pillars and form sliding guide fit, two groups of driving rods are arranged and are respectively positioned at one end of the tightening guide pillars, and the two groups of driving rods are respectively a left driving rod close to the discharge end of the feeding mechanism and a right driving rod close to the feed end of the feeding mechanism;

the main elbow tightening rods are movably arranged outside the tightening guide pillars and form sliding guide fit, two groups of main elbow tightening rods are arranged and are respectively positioned between the two groups of driving rods, and the two groups of main elbow tightening rods are respectively a left main elbow tightening rod close to the left driving rod and a right main elbow tightening rod close to the right driving rod;

the part of the lower tightening guide post between the driving rod and the main elbow tightening rod is sleeved with driving springs, and the driving springs are correspondingly arranged in two groups;

tension springs are arranged between the driving rods and the mounting bracket, the driving rods are driven to move away from the main elbow tensioning rods by the elasticity of the tension springs, and the tension springs are correspondingly arranged in two groups;

the actuating lever and main elbow tighten the pole between still be provided with trigger part and correspond and set up in two sets of, trigger part is including trigger sleeve, the sliding sleeve, the slide bar, trigger spring, trigger sleeve movable sleeve locates the main elbow and tightens the pole outside and constitute the sliding guide cooperation, the sliding sleeve is in the axial that trigger sleeve connects and articulated shaft heart yearn is on a parallel with the motor with articulated mode, the one end of slide bar is located the sliding sleeve and constitutes the sliding guide cooperation, the other end is articulated and articulated shaft heart yearn is on a parallel with the axial of motor with the actuating lever, articulated department between sliding sleeve and the trigger sleeve is higher than the articulated department between slide bar and the actuating lever, trigger spring overlaps and locates.

As a further improvement of the present solution.

The first power transmission components are provided with two groups, are respectively positioned at one end of the rotating shaft and are respectively connected with the driving rod;

the first power transmission component comprises a winding rope disk, a connecting rope and a plurality of transition pulleys, the winding rope disk is movably arranged outside the rotating shaft, the winding rope disk and the rotating shaft are not interfered with each other, one end of the connecting rope is wound outside the winding rope disk, the other end of the connecting rope is wound around the plurality of transition pulleys and is fixedly connected with the driving rods, and the winding rope disk rotates to wind the rope and enables the two groups of driving rods to move close to each other;

the first power transmission member also comprises a transmission disc, a clamping plate, a clamping guide rod and a transmission spring, the transmission disc is positioned on one side of the rope winding disc facing to the other group of first power transmission members, a first connecting piece is arranged between the transmission disc and the rotating shaft, the transmission disc is arranged outside the rotating shaft through the first connecting piece, when the transmission disc is displaced along the axial direction of the rotating shaft, the rotating shaft can continuously output power to the transmission disc, the first connecting piece is a first internal spline arranged on the transmission disc and a first external spline arranged on the rotating shaft, a second connecting piece is arranged between the transmission disc and the winding rope disc and can be in power connection with the transmission disc and the winding rope disc through the second connecting piece, the second connecting piece is a flat key arranged on the side surface of the transmission disc facing the winding rope disc and a flat key groove arranged on the winding rope disc and matched with the flat key, and the flat key is provided with a plurality of groups in an array manner along the circumferential direction of the transmission disc and the flat key grooves are correspondingly provided with a plurality of groups;

the guide direction of the clamping guide rod is parallel to the axial direction of the rotating shaft, the clamping guide rod is fixed on the mounting bracket, the clamping plate is movably mounted outside the clamping guide rod and forms sliding guide fit, the clamping plate is connected with the transfer disc in a clamping mode, and the clamping plate moves and pulls the transfer disc to move synchronously;

the part of the rotating shaft, which is positioned at one side of the transmission disc, which is far away from the winding rope disc, is provided with an abutting step, and the transmission spring is sleeved outside the part of the rotating shaft, which is positioned between the abutting step and the transmission disc;

the first power transmission component also comprises a limiting disc, a limiting spring and a limiting guide rod, the guiding direction of the limiting guide rod is parallel to the axial direction of the rotating shaft, the limiting disc is coaxially and movably arranged outside the rotating shaft, the limiting disc and the rotating shaft are not interfered with each other, the limiting disc is positioned on one side of the winding rope disc, which is far away from the transmission disc, the limiting disc is also movably arranged outside the limiting guide rod and forms sliding guide fit, and the limiting spring is sleeved on the part of the rotating shaft, which is positioned on one side of the limiting disc, which is far away from the winding rope disc, and is in a compressed;

the limiting plate is provided with limiting keys matched with the flat key grooves on the side surface facing the winding rope plate, and the limiting keys are correspondingly provided with a plurality of groups;

the first power transmission component also comprises a linkage plate, a linkage spring and a linkage guide rod, wherein the guide direction of the linkage guide rod is vertical to the ground and is fixed on the mounting bracket, the linkage plate is horizontally fixed at the top end of the linkage guide rod, and the linkage spring is sleeved outside the part of the linkage guide rod below the linkage plate;

the upper end face of the linkage plate is provided with a first linkage protrusion/a second linkage protrusion, the first linkage protrusion is positioned on one side of the limiting disc facing the winding rope disc and is in contact with the limiting disc, the side of the first linkage protrusion facing the winding rope disc is a first linkage inclined plane, the second linkage protrusion is positioned on one side of the transmission disc departing from the winding rope disc and is a second linkage inclined plane, and the distance between the first linkage inclined plane and the second linkage inclined plane is gradually increased from bottom to top;

the motion state of the first power transmission member may be divided into a transmission state in which the internal power is transmittable, and a disconnection state in which the internal power is disconnected, and the initial state thereof is the transmission state.

As a further improvement of the present solution.

The pig trotter tightening mechanisms are provided with two groups and are respectively positioned at one end of the rotating shaft, each pig trotter tightening mechanism comprises a second power transmission component and a pig trotter tightening component, the second power transmission components are used for receiving power of the power mechanism and transmitting the power to the pig trotter tightening components, and the pig trotter tightening components are used for tightening four pig legs and pig trotters of the pig;

the pig hoof tightening member comprises a tightening guide rod, a sliding support and a fixing support, wherein the guide direction of the tightening guide rod is parallel to the axial direction of the rotating shaft and is fixed on the mounting support;

the sliding support is movably arranged on the tightening guide rod and forms sliding guide fit, a guide protrusion is arranged outside the trigger sleeve, a guide area with the guide direction perpendicular to the ground is arranged on the guide protrusion, the sliding support also forms sliding guide fit with the guide area, the trigger sleeve does not interfere with the sliding support in the rising process, and moves along the guide direction of the tightening guide rod and pulls the sliding support to move synchronously;

the fixed support is fixed on the sliding support, and the fixed support and the mounting support form sliding guide fit with the guide direction parallel to the guide direction of the tightening guide post;

the pig hoof tightening component further comprises a tightening shaft, the axial direction of the tightening shaft is perpendicular to the ground, the tightening shaft is installed on the fixed support through a bearing, a first pig hoof tightening rod which is vertically arranged is arranged on the upper end face of a supporting plate horizontally arranged at the top end of the tightening shaft, and a second pig hoof tightening rod which is vertically arranged is arranged on the lower end face of a horizontal plate horizontally arranged at the bottom end of the tightening shaft.

As a further improvement of the present solution.

The second power transmission component comprises a gear shaft, a driving belt wheel, a belt wheel shaft, a driven belt wheel, a conveying belt and an inserting disc, wherein the axial direction of the gear shaft is vertical to the ground;

the driving belt wheel is coaxially fixed outside the gear shaft, the axial direction of the belt wheel shaft is vertical to the ground, the belt wheel shaft is movably arranged on the mounting support and can rotate around the self axial direction, the belt wheel shaft is positioned on one side of the tightening shaft, which is far away from the gear shaft, the driven belt wheel is movably arranged outside the tightening shaft, the driven belt wheel and the tightening shaft are not interfered with each other, the driven belt wheel is limited to move along the axial direction of the tightening shaft, the head end of the conveying belt sequentially rounds the driving belt wheel, the driven belt wheel and the belt wheel shaft and then is connected with the head end of the conveying belt to form a closed annular loop, and the gear shaft rotates and pulls the;

the inserting disc is positioned below the driven belt wheel, a third connecting piece is arranged between the inserting disc and the tightening shaft, the inserting disc is coaxially arranged on the tightening shaft through the third connecting piece, when the inserting disc axially displaces along the tightening shaft, the inserting disc can continuously output power to the tightening shaft, and the third connecting piece is a second internal spline arranged on the inserting disc and a second external spline arranged on the tightening shaft;

a fourth connecting piece is arranged between the plug board and the driven belt wheel and can be in power connection with the driven belt wheel through the fourth connecting piece, the fourth connecting piece is a connecting key arranged on the upper end surface of the plug board and a connecting key groove arranged on the driven belt wheel and matched with the connecting key, a plurality of groups of connecting keys are arrayed along the circumferential direction of the plug board, and a plurality of groups of connecting key grooves are correspondingly arranged on the connecting key grooves;

the motion state of the second power transmission member may be divided into a connection state in which the internal power can be transmitted and a disconnection state in which the internal power is disconnected from being transmitted, and the initial state thereof is the disconnection state.

As a further improvement of the present solution.

The power switching mechanism is arranged between the first power transmission member and the second power transmission member, and two groups of power switching mechanisms are correspondingly arranged;

the power switching mechanism comprises a first switching piece and a second switching piece, wherein the first switching piece is used for controlling the power connection between the second power transmission member and the power mechanism, and the second switching piece is used for controlling the power connection between the first power transmission member and the power mechanism;

the first switching piece comprises a sleeve rod and a lifting rod, a sleeve joint hole is further formed in a guide protrusion arranged on the trigger sleeve, the extension direction of the sleeve rod is parallel to the guide direction of the tightening guide rod, the sleeve rod is movably sleeved in the sleeve joint hole and can rotate around the extension direction of the sleeve rod, and two ends of the sleeve rod are respectively provided with a connecting sleeve;

one end of the lifting rod is movably arranged outside the tightening guide rod and forms sliding guide fit, the lifting rod can rotate around the guiding direction of the tightening guide rod, the other end of the lifting rod is movably sleeved in the connecting sleeve and forms sliding guide fit, and the lifting rod is positioned below the inserting disc;

the two groups of lifting rods are correspondingly arranged, and the tightening shaft is positioned between the two groups of lifting rods;

the second switching piece comprises a lifting plate, a support frame, a guide rod, a guide sleeve and a return spring, the support frame is fixed on the mounting support, the guide sleeve is of a cylinder structure with an opening at one end and a closed end, the guide sleeve is vertically fixed at the bottom of the support frame, and a through hole is coaxially formed in the closed end of the guide sleeve;

the guide rod and the guide sleeve are coaxially arranged, the top end of the guide rod penetrates through the through hole and is positioned in the guide sleeve, the end of the guide rod is provided with a sliding step, and sliding guide fit is formed between the sliding step and the guide sleeve;

the lifting plate is horizontally fixed at the bottom end of the guide rod, is positioned above the inserting disc, and ascends and pulls the lifting plate to ascend synchronously;

the reset spring is movably sleeved outside the guide sleeve, one end of the reset spring is abutted against the lifting plate, and the other end of the reset spring is abutted against the support frame;

the lifting plate and the clamping plate are provided with a pull rope and a plurality of guide pulleys, one end of the pull rope is fixedly connected with the lifting plate, the other end of the pull rope is fixedly connected with the clamping plate after bypassing the guide pulleys, and the lifting plate rises and pulls the clamping plate to move away from the rope coiling through the pull rope.

As a further improvement of the present solution.

The guide plates are fixed on the mounting bracket and are positioned on one side of the support plate, which is far away from the positioning mechanism, and two groups of guide plates are correspondingly arranged;

the cutting mechanism comprises a traveling motor, a traveling screw rod, a traveling guide rod, a connecting frame and a cutting machine, wherein the axial direction of the traveling motor is parallel to the axial direction of the rotating shaft and is fixed on the mounting frame;

the advancing screw rod is coaxially fixed at the power output end of the advancing motor, and the guiding direction of the advancing guide rod is parallel to the axial direction of the advancing motor and is fixed on the mounting bracket;

the connecting frame is movably arranged outside the advancing guide rod and forms sliding guide fit, the connecting frame is also arranged outside the advancing screw rod through a nut, and the advancing screw rod rotates and pulls the connecting frame to move along the guide direction of the advancing guide rod;

the cutting machine is fixed on the connecting frame;

the cutting mechanism is provided with four groups which are respectively corresponding to the four pig legs, and the joints of the cutting machines of the cutting mechanism, the main elbows of the corresponding pig legs and the joints of the pig feet are positioned on the same straight line.

Compared with the prior art, the pig leg cutting machine has the advantages that the main elbow tightening mechanism and the pig foot tightening mechanism sequentially tighten the main elbows of the pig legs and tighten the pig feet, the joint between the tightened main elbows of the pig feet and the cutting machine of the cutting mechanism are positioned on the same straight line, so that the separation between the pig feet and the pig is more accurate, the whole pig can be positioned in advance through the positioning mechanism in the transportation process, the opening angle of the pig legs is in a proper value range, the subsequent pig foot tightening cutting treatment is facilitated, the whole pig leg tightening and pig foot cutting process is full-automatic, manual operation is not needed, and the labor intensity of workers is greatly reduced.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a combination view of the positioning mechanism and the transportation device of the present invention.

Fig. 5 is a schematic structural view of the transportation device of the present invention.

Fig. 6 is a schematic structural diagram of the positioning mechanism of the present invention.

Fig. 7 is a schematic structural diagram of the cutting device of the present invention.

Fig. 8 is a schematic structural diagram of the cutting device of the present invention.

Fig. 9 is a view showing the moving mechanism and the mounting bracket according to the present invention.

Fig. 10 is a partial schematic view of the cutting device of the present invention.

Fig. 11 is a partial schematic view of the cutting device of the present invention.

FIG. 12 is a schematic view of the main elbow tightening mechanism and power mechanism of the present invention.

Fig. 13 is a diagram showing the power mechanism and the first power transmission mechanism according to the present invention.

Fig. 14 is a view showing the first power transmission mechanism and the rotating shaft according to the present invention.

FIG. 15 is a schematic structural view of the main elbow tensioning member of the present invention.

Fig. 16 is a schematic structural diagram of the trigger frame of the present invention.

Fig. 17 is a schematic structural view of the pig's hoof tightening mechanism of the present invention.

Fig. 18 is a view showing the engagement of the rotating shaft and the second power transmission member of the present invention.

Fig. 19 is a combination view of the trigger sleeve, sliding bracket, and fixed bracket of the present invention.

Fig. 20 is a partial schematic view of a pig hoof tightening member of the present invention.

Fig. 21 is a partial schematic view of a pig hoof tightening member of the present invention.

Fig. 22 is a schematic structural view of the power switching mechanism of the present invention.

Fig. 23 is a schematic structural view of the power switching mechanism of the present invention.

Fig. 24 is a schematic structural view of the power switching mechanism of the present invention.

Fig. 25 is a schematic structural diagram of a first switching element of the present invention.

Fig. 26 is a schematic structural diagram of a second switching member of the present invention.

Fig. 27 is a schematic structural diagram of a second switching member of the present invention.

Fig. 28 is a schematic structural view of the cutting mechanism of the present invention.

Detailed Description

The invention has the advantages that the main elbow and the pig hoof of the pig legs are tightened firstly and then cut, the main elbow tightening mechanism and the pig hoof tightening mechanism sequentially tighten the main elbows and the pig hoofs of the pig legs, the joint between the tightened main elbows and the pig hoofs of the pig are positioned on the same straight line with the cutting machine of the cutting mechanism, so that the pig hoofs and the pigs are more accurately separated, the whole pig can be positioned in advance by the positioning mechanism in the transportation process, the spreading angle of the pig legs is in a proper value range, the subsequent pig hoof tightening and cutting treatment is convenient, the whole pig leg tightening and pig hoof cutting process is fully automatic, manual operation is not needed, and the labor intensity of workers is greatly reduced.

The pig trotter cutting machine comprises a main frame body 100 installed on the ground, wherein a conveying device 200, a cutting device 300 and a positioning mechanism 110 are installed on the main frame body 100, the conveying device 200 is used for conveying a whole pig to a corresponding cutting point on the cutting device 300 or conveying the remaining pig with the pig trotters removed and the pig trotters away, the positioning mechanism 110 is used for pre-positioning the pig in the process of conveying the whole pig by the conveying device 200, and the cutting device 300 is used for cutting the pig trotters from the whole pig.

The slaughtered whole pig is placed on the conveying device 200 manually or by the prior art, the conveying device 200 operates and conveys the pig to a corresponding cutting point on the cutting device 300, the pig feet are positioned at a proper position by the positioning mechanism 110 during the conveying process, then the cutting device 300 operates and sequentially performs main elbow tightening and pig foot tightening on the pig feet, the joint of the pig feet and the main elbow is right opposite to a cutting blade of the cutting device 300, the main elbow and the pig feet are subjected to cutting treatment, the cut pig feet are guided onto the conveying device 200, then the conveying device 200 operates again, the residual pig with the pig feet removed and the pig feet are conveyed away, and meanwhile, a new whole pig is conveyed to the position of the cutting device 300, and the operation is repeated.

The transport device 200 comprises an input mechanism 210 for delivering the whole pig to the position of the cutting device 300, and an output mechanism 220 for delivering the pig and the pig's feet left after removing the pig's feet.

The feeding mechanism 210 comprises a feeding motor 211 and a feeding component 212, wherein the feeding motor 211 is horizontally fixed on the main frame body 100, the feeding component 212 comprises a feeding driving/driven roller which is axially parallel to the axial direction of the feeding motor 211, is movably arranged on the main frame body 100 and can rotate around the axial direction of the feeding driving/driven roller, and a feeding conveying belt arranged between the feeding driving/driven roller, a power transmission piece I213 is arranged between the feeding driving roller and the feeding motor 211, and power transmission is carried out between the feeding driving roller and the feeding motor 211 through the power transmission piece I213, and particularly, the power transmission piece I213 is of a belt transmission structure.

The output mechanism 220 is located below the input mechanism 210, the output mechanism 220 includes an output motor 221 and an output member 222, the axial direction of the output motor 221 is parallel to the axial direction of the input motor 211 and is fixed on the main frame body 100, the output member 222 includes an output main/driven roller which is parallel to the axial direction of the output motor 221 and is movably mounted on the main frame body 100 and can rotate around the axial direction of the output main/driven roller, and an output conveying belt arranged between the output main/driven roller, a power transmission member two 223 is arranged between the output main driving roller and the output motor 221, and power transmission is performed between the output main driving roller and the output motor 221 through the power transmission member two 223, specifically, the power transmission member two 223 is a belt transmission structure.

The feed motor 211/output motor 221 operates and drives the feed member 212/output member 222 to operate through the power transmission member one/two, thereby conveying the whole pig to the position of the cutting device 300/conveying the remaining pig after removal of the pig's trotters and the pig's trotters away.

The positioning mechanism 110 is located above the feeding member 212, the positioning mechanism 110 includes two positioning guide rods 111, two positioning plates 112 and two floating springs 113, the positioning guide rods 111 are vertically fixed on the main frame 100, and the positioning guide rods 111 are arrayed along the feeding direction of the feeding member 212.

The positioning plate 112 is vertically arranged, the positioning plate 112 is provided with connecting protrusions which are movably mounted outside the positioning guide rod 111 through the connecting protrusions and form sliding guide fit, two groups of connecting protrusions are correspondingly arranged, the large surface of the positioning plate 112 is parallel to the conveying direction of the input component 212, and the large surface of the positioning plate can be divided into a positioning inclined surface close to the feeding end of the input component 212 and a vertical surface close to the discharging end of the input component 212.

The floating springs 113 are sleeved outside the positioning guide rod 111 and are provided with two sets of upper floating springs located above the connecting protrusion and lower floating springs located below the connecting protrusion.

The whole slaughtered pig is placed on a conveying belt through manpower or the prior art, the pig legs are located on one side, facing a positioning inclined plane, of a vertical surface of a positioning plate 113, in order to facilitate subsequent positioning, the pig can be enabled to deviate towards one side, facing the positioning inclined plane, of the vertical surface of the positioning plate 112 when the pig is placed, then the pig is conveyed in the conveying belt, the pig can be in contact with the positioning inclined plane of the positioning plate 112 and finally the pig belly is enabled to be in tight contact with the vertical surface of the positioning plate 112 under the guiding of the positioning inclined plane, meanwhile, the opening angle of the pig legs of the pig is enabled to be at a proper value by the positioning plate 112.

The cutting device 300 is positioned on one side of the vertical surface of the positioning plate 112 facing the positioning inclined surface, the cutting device 300 comprises a mounting bracket 310 and a moving mechanism 320, the moving mechanism 320 is used for driving the mounting bracket 310 to move close to or away from a pig, a power mechanism 330, a main elbow tightening mechanism 340, a pig hoof tightening mechanism 350, a power switching mechanism 360, a guide plate 370 and a cutting mechanism 380 are arranged on the mounting bracket 310, the power mechanism 330 is used for providing power for the operation of the main elbow tightening mechanism 340/pig hoof tightening mechanism 350, the main elbow tightening mechanism 340 is used for tightening the main elbow of a pig leg, the pig hoof tightening mechanism 350 is used for tightening the pig leg, the power switching mechanism 360 is used for controlling the power transmission/cut-off between the power mechanism 330 and the main elbow tightening mechanism 340/pig hoof tightening mechanism 350, the guide plate 370 is used for guiding the pig hoof to an output conveying belt, the cutting direction of the cutting mechanism 380 and the joint of the tightened main elbow tightening mechanism are positioned on the same straight line and it is used for cutting pig trotters.

The moving mechanism 320 comprises a moving motor 321, a moving screw rod 322 and a moving guide rod 323, the axial direction of the moving motor 321 is parallel to the axial direction of the input motor 211 and is fixed on the main frame body 100, the guiding direction of the moving guide rod 323 is parallel to the axial direction of the moving motor 321 and is fixed on the main frame body 100, and the moving screw rod 322 is coaxially fixed on the power output end of the moving motor 321.

The mounting bracket 310 is movably mounted outside the movable guide rod 323 and forms sliding guide fit, the mounting bracket 310 is further mounted outside the movable screw rod 322 through a nut, and the movable screw rod 322 rotates and pulls the mounting bracket 310 to move along the axial direction of the movable screw rod 322.

The moving motor 321 operates and pulls the mounting bracket 310 to move along the axial direction of the moving screw rod 322 through the moving screw rod 322, i.e., the mounting bracket 310 makes a movement to approach/depart from the positioning plate 112.

The power mechanism 330 includes a motor 331 and a rotating shaft 332, the axial direction of the motor 331 is parallel to the axial direction of the moving motor 321 and is fixed on the mounting bracket 310, the axial direction of the rotating shaft 332 is parallel to the conveying direction of the feeding mechanism 210 and is movably mounted on the mounting bracket 310 and can rotate around the self axial direction, a power transmission member three 333 is arranged between the power output end of the motor 331 and the rotating shaft 332, and power transmission is performed between the power output end of the motor 331 and the rotating shaft 332 through the power transmission member three 333, specifically, the power transmission member three 333 is a worm gear structure.

The motor 331 operates and pulls the rotation shaft 332 to rotate through the power transmission member three 333.

The main elbow tightening mechanism 340 comprises a first power transmission member 3410 and a main elbow tightening member 3420, wherein the first power transmission member 3410 is used for receiving the power of the power mechanism 330 and transmitting the power to the main elbow tightening member 3420, and the main elbow tightening member 3420 is used for tightening the main elbows of the four legs of the pig.

The main elbow tightening member 3420 is located on one side of the rotating shaft 332 facing the positioning mechanism 110, the main elbow tightening member 3420 includes a tightening guide post 3421, a driving rod 3422, and a main elbow tightening rod 3423, the guiding direction of the tightening guide post 3421 is parallel to the conveying direction of the feeding mechanism 210, the tightening guide post 3421 is fixed on the mounting bracket 310, and two sets of upper tightening guide posts and lower tightening guide posts are respectively arranged on the tightening guide post 3421 along the direction perpendicular to the ground.

The driving rods 3422 are movably mounted outside the tightening guide posts 3421 and form a sliding guide fit, two groups of driving rods 3422 are provided and located at one end of the tightening guide posts 3421, and the two groups of driving rods 3422 are a left driving rod near the discharging end of the feeding mechanism 210 and a right driving rod near the feeding end of the feeding mechanism 210.

The main elbow tightening rods 3423 are movably mounted outside the tightening guide posts 3421 and form a sliding guide fit, two groups of main elbow tightening rods 3423 are arranged between the two groups of driving rods 3422, and the two groups of main elbow tightening rods 3423 are respectively a left main elbow tightening rod close to the left driving rod and a right main elbow tightening rod close to the right driving rod.

The driving springs 3426 are sleeved on the lower tightening guide posts between the driving rod 3422 and the main elbow tightening rod 3423, and the driving springs 3426 are correspondingly arranged in two groups.

A tension spring 3424 is disposed between the driving rod 3422 and the mounting bracket 310, and the driving rod 3422 is driven by the elastic force of the tension spring 3424 to move away from the main elbow tightening rod 3423, and the tension springs 3424 are disposed in two groups.

The trigger device is disposed between the driving rod 3422 and the main elbow tightening rod 3423 and is disposed in two groups, the trigger device includes a trigger sleeve 3425, a sliding sleeve 3427, a sliding rod 3428, and a trigger spring 3429, the trigger sleeve 3425 is movably sleeved outside the main elbow tightening rod 3423 and forms a sliding guide fit, the sliding sleeve 3427 is connected to the trigger sleeve 3425 in a hinged manner, a hinge axis of the sliding sleeve 3427 is parallel to the axial direction of the motor 331, one end of the sliding rod 3428 is disposed in the sliding sleeve 3427 and forms a sliding guide fit, the other end of the sliding rod 3428 is hinged to the driving rod 3422, the hinge axis of the sliding sleeve 3427 is parallel to the axial direction of the motor 331, the hinge point between the sliding sleeve 3427 and the trigger sleeve 3425 is higher than the hinge point between the sliding rod 3428 and the driving rod 34.

The transportation device 200 transports the whole pig to a proper position and enables the pig legs to be opened at a proper angle, at this time, four pig legs are all positioned between the two groups of main elbow tightening rods 3423 and the two groups of tightening guide pillars 3421, then the power mechanism 330 operates, the first power transmission component 3410 receives power of the power mechanism 330 and drives the two groups of driving rods 3422 to move close to each other, the driving rods 3422 move and drive the main elbow tightening rods 3423 to move synchronously through the driving springs 3426, so that the main elbows of the four pig legs are tightened, then the driving rods 3422 continue to operate, as the main elbows of the pig legs are tightened, namely the main elbow tightening rods 3423 cannot continue to operate, at this time, the driving rods 3422 continue to move and enable the trigger sleeves 3425 of the trigger piece to do ascending motion.

The first power transmission members 3410 are provided in two sets and are respectively located at one end of the rotating shaft 332 and are respectively connected to the driving rods 3422.

The first power transmission member 3410 includes a winding reel 3411, a connecting rope, and a plurality of transition pulleys, the winding reel 3411 is movably mounted outside the rotating shaft 332, and the two are not interfered with each other, one end of the connecting rope is wound outside the winding reel 3411, and the other end of the connecting rope is wound around the plurality of transition pulleys and is fixedly connected with the driving rod 3422, and the winding reel 3411 rotates to wind the rope and make the two groups of driving rods 3422 move close to each other.

The first power transmission member 3410 further includes a transmission disc 3412, a clamping plate 3413, a clamping guide rod, and a transmission spring 3414, the transmission disc 3412 is located on a side of the winding disc 3411 facing the other set of first power transmission members 3410, a first connection member is provided between the transmission disc 3412 and the rotating shaft 332, the transmission disc 3412 is mounted outside the rotating shaft 332 through the first connection member, and when the transmission disc 3412 is axially displaced along the rotating shaft 332, the rotating shaft 332 can continuously output power to the transmission disc 3412, preferably, the first connection member is a first internal spline provided on the transmission disc 3412 and a first external spline provided on the rotating shaft 332, the second connection member is provided between the transmission disc 3412 and the winding disc 3411 and can be in power connection through a second connection member, specifically, the second connection member is a flat key provided on a side of the transmission disc 3412 facing the winding disc 3411, a flat key provided on the winding disc 3411 and matched with the flat key, the flat keys are arranged in groups in an array along the circumferential direction of the transmission disk 3412 and the flat key grooves are correspondingly arranged in groups.

The guiding direction of the clamping guide rod is parallel to the axial direction of the rotating shaft 332, the clamping guide rod is fixed on the mounting bracket 310, the clamping plate 3413 is movably mounted outside the clamping guide rod and forms sliding guide fit, the clamping plate 3413 is connected with the transmission disc 3412 in a clamping mode, and the clamping plate 3413 moves and pulls the transmission disc 3412 to move synchronously; the clamping connection between the clamping plate 3413 and the transfer disk 3412 is conventional and will not be described in detail herein.

The portion of the rotating shaft 332 on the side of the transmission disk 3412 opposite to the winding disk 3411 is provided with an interference step, and the transmission spring 3414 is sleeved outside the portion of the rotating shaft 332 between the interference step and the transmission disk 3412.

The first power transmission member 3410 further includes a limiting disc 3415, a limiting spring 3416, and a limiting guide rod, the guiding direction of the limiting guide rod is parallel to the axial direction of the rotating shaft 332, the limiting disc 3415 is coaxially and movably mounted outside the rotating shaft 332 without interference therebetween, the limiting disc 3415 is located on a side of the winding disc 3411 facing away from the transmitting disc 3412, the limiting disc 3415 is further movably mounted outside the limiting guide rod and forms a sliding guiding fit, and the limiting spring 3416 is sleeved on a portion of the rotating shaft 332 located on a side of the limiting disc 3415 facing away from the winding disc 3411 and is in a compressed state.

The limiting disk 3415 is provided with limiting keys matched with the flat key grooves on the side facing the winding disk 3411, and the limiting keys are correspondingly provided with a plurality of groups.

The first power transmission member 3410 further includes a linkage plate 3417, a linkage spring, and a linkage guide rod, wherein the guide direction of the linkage guide rod is perpendicular to the ground and is fixed on the mounting bracket 310, the linkage plate 3417 is horizontally fixed to the top end of the linkage guide rod, and the linkage spring is sleeved on the outer portion of the linkage guide rod below the linkage plate 3417.

The upper end surface of the interlocking plate 3417 is provided with a first interlocking protrusion/a second interlocking protrusion, the first interlocking protrusion is positioned on one side of the limiting disc 3415 facing the winding disc 3411 and is in contact with the limiting disc 3415, the side surface of the interlocking protrusion facing the winding disc 3411 is a first interlocking inclined surface, the second interlocking protrusion is positioned on one side of the transmission disc 3412 facing away from the winding disc 3411 and is a second interlocking inclined surface facing the transmission disc 3412, and the distance between the first interlocking inclined surfaces/the second interlocking inclined surfaces increases from bottom to top.

The motion state of the first power transmission member 3410 may be classified into a transmission state in which the internal power is transmittable, and a disconnection state in which the internal power is disconnected, and the initial state thereof is the transmission state.

The first power transmission member 3410 drives the main elbow tightening member 3420 to tighten the main elbow of the pig leg through the connection rope, so that the trigger sleeve 3425 rises, the clamping plate 3413 is pulled by the power switching mechanism 360 to move away from the winding reel 3411 in the guide direction of the clamping guide rods, the clamping plate 3413 moves and pulls the transmission disc 3412 to move synchronously, so that the flat key arranged on the transmission disc 3412 is separated from the flat key groove arranged on the winding reel 3411, meanwhile, the transmission disc 3412 is in contact with the linkage inclined surface two of the linkage plate 3417 and drives the linkage plate 3417 to fall, so that the linkage plate 3417 is separated from the contact with the limiting disc 3415, the elastic force of the limiting spring 3416 drives the limiting disc 3415 to move close to the winding reel 3411, so that the limiting key arranged on the limiting disc 3415 is inserted into the flat key groove arranged on the winding reel 3411, and accordingly, the first power transmission member 3410 is switched to the disconnected state.

The pig's hoof tightening mechanisms 350 are provided with two groups and are respectively located at one end of the rotating shaft 332, each pig's hoof tightening mechanism 350 includes a second power transmission member 3510 and a pig's hoof tightening member 3520, the second power transmission member 3510 is used for receiving power of the power mechanism 330 and transmitting the power to the pig's hoof tightening member 3520, and the pig's hoof tightening member 3520 is used for tightening four pig legs and pig's hoofs of a pig.

The pig's hoof tightening member 3520 includes a tightening guide rod 3521, a sliding bracket 3522, and a fixing bracket 3523, wherein the guide direction of the tightening guide rod 3521 is parallel to the axial direction of the rotating shaft 332 and the tightening guide rod 3521 is fixed on the mounting bracket 310.

The sliding support 3522 is movably mounted on the tightening guide rod 3521 and forms sliding guide fit, a guide protrusion is arranged outside the trigger sleeve 3425, a guide area with a guide direction perpendicular to the ground is arranged on the guide protrusion, the sliding support 3522 also forms sliding guide fit with the guide area, the trigger sleeve 3425 does not interfere with the sliding support 3522 in the rising process, and the trigger sleeve 3425 moves along the guide direction of the tightening guide rod 3421 and pulls the sliding support 3522 to move synchronously.

The fixed bracket 3523 is fixed on the sliding bracket 3522, and the fixed bracket 3523 and the mounting bracket 310 form sliding guide fit with the guiding direction parallel to the guiding direction of the tensioning guide post 3421.

The pig hoof tightening member 3520 further comprises a tightening shaft 3524, the tightening shaft 3524 is axially perpendicular to the ground, the tightening shaft 3524 is mounted on the fixed support 352 through a bearing, a support plate 3525 is horizontally arranged at the top end of the tightening shaft 3524, a first pig hoof tightening rod 3526 which is vertically arranged is arranged on the upper end face of the support plate 3525, a horizontal plate is horizontally arranged at the bottom end of the tightening shaft 3524, and a second pig hoof tightening rod 3527 which is vertically arranged is arranged on the lower end face of the horizontal plate.

The transporting device 200 transports the whole pig to a proper position and enables the pig legs to be opened at a proper angle, at the moment, the four pig legs are all positioned between the two groups of main elbow tightening rods 3423 and the two groups of tightening guide columns 3421, and then after the main elbow tightening mechanism 340 tightens the main elbows of the pig legs, the pig feet of the pig legs are close to the first/second pig foot tightening rods;

the second power transmission member 3510 receives the power of the power mechanism 330 and drives the tightening shaft 3524 to rotate, the tightening shaft 3524 rotates and pulls the pig's hoof tightening rod to rotate synchronously one/two, and the pig's hoof tightening rod rotates one/two and is contacted with the pig's legs and the pig's hoofs to be tightened.

The second power transmission member 3510 includes a gear shaft 3511, a driving pulley 3513, a pulley shaft 3514, a driven pulley 3515, a transmission belt and an insert disc 3516, wherein the axial direction of the gear shaft 3511 is perpendicular to the ground, the gear shaft 3511 is movably mounted on the mounting bracket 310 and can rotate around the axial direction of the gear shaft 3511, a power transmission member four 3512 is arranged between the gear shaft 3511 and the rotating shaft 332, power transmission is performed between the gear shaft 3511 and the rotating shaft 332 through the power transmission member four 3512, and preferably, the power transmission deceleration four 3512 is of an oblique gear structure.

The driving pulley 3513 is coaxially fixed outside the gear shaft 3511, the axial direction of the pulley shaft 3514 is perpendicular to the ground, the pulley shaft 3514 is movably mounted on the mounting bracket 310 and can rotate around the axial direction of the pulley shaft 3514, the pulley shaft 3514 is located on one side of the tightening shaft 3524, which is far away from the gear shaft 3511, the driven pulley 3515 is movably mounted outside the tightening shaft 3524, the driven pulley 3515 does not interfere with the tightening shaft 3524, the driven pulley 3515 is limited to move axially along the tightening shaft 3524, the head end of the conveyor belt sequentially bypasses the driving pulley 3513, the driven pulley 3515 and the pulley shaft 3514 and then is connected with the head end of the conveyor belt to form a closed annular loop, and the gear shaft 3511 rotates and is matched with the driving pulley 3513/pulley shaft 3514/conveyor belt.

The insert disc 3516 is located below the driven pulley 3515, a third connecting piece is arranged between the insert disc 3516 and the tightening shaft 3524, the insert disc 3516 is coaxially mounted on the tightening shaft 3524 through the third connecting piece, when the insert disc 3516 axially displaces along the tightening shaft 3524, the insert disc 3516 can continuously output power to the tightening shaft 3524, and preferably, the third connecting piece is a second inner spline arranged on the insert disc 3516 and a second outer spline arranged on the tightening shaft 3524.

Insert dish 3516 and driven pulley 3515 between be provided with the connecting piece four and between the two accessible connecting piece four carry out power connection, specifically, the connecting piece four for set up in the connection key of inserting dish 3516 up end, set up on driven pulley 3515 and with connection key assorted connection keyway, the connection key has a plurality of groups and connection keyway along the circumferencial direction array of inserting dish 3516 and corresponds and be provided with a plurality of groups.

The motion state of the second power transmission member 3510 may be classified into a connection state in which the internal power can be transmitted and a disconnection state in which the internal power is disconnected from being transmitted, and the initial state thereof is a disconnection state.

When the first power transmission member 3410 is switched to the disconnected state, the power switching mechanism 360 drives the plug 3516 to move up, so that the key disposed on the upper end surface of the plug 3516 is inserted into the key slot disposed on the driven pulley 3515, and at this time, the second power transmission member 3510 is switched to the connected state.

The power switching mechanism 360 is disposed between the first power transmission member 3410 and the second power transmission member 3510, and two sets of power switching mechanisms 360 are correspondingly disposed.

The power switching mechanism 360 includes a first switching element 3610 and a second switching element 3620, the first switching element 3610 is used for controlling the power connection between the second power transmission member 3510 and the power mechanism 330, and the second switching element 3620 is used for controlling the power connection between the first power transmission member 3410 and the power mechanism 330.

The first switching piece 3610 comprises a loop bar 3611 and a lifting bar 3612, sleeve holes are further formed in guide protrusions arranged on the trigger sleeve 3425, the extending direction of the loop bar 3611 is parallel to the guiding direction of the tightening guide rod 3521, the loop bar 3611 is movably sleeved in the sleeve holes and can rotate around the extending direction of the loop bar 3611, and connecting sleeves are arranged at two ends of the loop bar 3611.

One end of the lifting rod 3612 is movably mounted outside the tightening guide rod 3521 and forms sliding guide fit, the lifting rod 3612 can rotate around the guiding direction of the tightening guide rod 3521, the other end of the lifting rod 3612 is movably sleeved in the connecting sleeve and forms sliding guide fit, and the lifting rod 3612 is located below the inserting disc 3516.

The lifting rods 3612 are correspondingly provided with two groups, and the tightening shaft 3524 is positioned between the two groups of lifting rods 3612.

The first power transmission member 3410 drives the main elbow tightening member 3420 to tighten the main elbow of the pig leg through the connecting rope, so that the trigger sleeve 3425 rises, the lifting rod 3612 lifts and rotates around the direction guided by the tightening guide rod 3521, the lifting rod 3612 contacts with the insertion disc 3516 in the lifting and rotating process and pulls the insertion disc 3516 to rise synchronously, and the second power transmission member 3510 is switched to the connecting state.

The second switching element 3620 comprises a lifting plate 3621, a supporting frame 3622, a guiding rod 3623, a guiding sleeve 3624 and a return spring 3625, the supporting frame 3622 is fixed on the mounting bracket 310, the guiding sleeve 3624 is a cylindrical structure with an open end and a closed end, the guiding sleeve 3624 is vertically fixed at the bottom of the supporting frame 3622, and a through hole is coaxially formed in the closed end of the guiding sleeve 3624.

The guide rod 3623 and the guide sleeve 3624 are coaxially arranged, the top end of the guide rod 3623 penetrates through the through hole and is located in the guide sleeve 3624, a sliding step is arranged at the end, and sliding guide fit is formed between the sliding step and the guide sleeve 3624.

The lifting plate 3621 is horizontally fixed at the bottom end of the guide rod 3623, the lifting plate 3621 is positioned above the inserting disc 3516, and the inserting disc 3516 ascends and pulls the lifting plate 3621 to ascend synchronously.

The return spring 3625 is movably sleeved outside the guide sleeve 3624, and one end of the return spring is abutted against the lifting plate 3621 while the other end of the return spring is abutted against the supporting frame 3622.

A pull rope and a plurality of guide pulleys are arranged between the lifting plate 3621 and the clamping plate 3413, one end of the pull rope is fixedly connected with the lifting plate 3621, the other end of the pull rope is fixedly connected with the clamping plate 3413 after passing around the plurality of guide pulleys, and the lifting plate 3621 rises and pulls the clamping plate 3413 to move away from the rope coiling disk 3411 through the pull rope.

The plug 3516 is raised and pulls the lifting plate 3621 to be raised simultaneously, the lifting plate 3621 is raised and pulls the holding plate 3413 by the pulling rope to move away from the winding reel 3411, so that the first power transmission member 3410 is switched to the off state.

The guide plates 370 are fixed on the mounting bracket 310 and located on one side of the support plate 3525 away from the positioning mechanism 110, and two sets of guide plates 370 are correspondingly arranged.

The cutting mechanism 380 comprises a traveling motor 381, a traveling screw rod 382, a traveling guide rod 383, a connecting frame 384 and a cutting machine 385, wherein the axial direction of the traveling motor 381 is parallel to the axial direction of the rotating shaft 332 and is fixed on the mounting bracket 310.

The traveling screw rod 382 is coaxially fixed at the power output end of the traveling motor 381, and the guiding direction of the traveling guide rod 383 is parallel to the axial direction of the traveling motor 381 and is fixed on the mounting bracket 310.

The connecting frame 384 is movably installed outside the traveling guide rod 383 and forms sliding guide fit, the connecting frame 384 is further installed outside the traveling screw rod 382 through a nut, and the traveling screw rod 382 rotates and pulls the connecting frame 384 to move along the guiding direction of the traveling guide rod 383.

The cutting machine 385 is fixed on the connecting frame 384, and the cutting machine 385 is prior art and will not be described in detail herein.

The cutting mechanism 380 is provided with four groups and respectively corresponds to four pig legs, and the joint connection positions between the cutting machine 385 of the cutting mechanism 385 and the main elbows and the pig feet of the corresponding pig legs are positioned on the same straight line.

After the main elbow tightening mechanism 340 and the pig's hoof tightening mechanism 350 tighten the pig's legs, the travel motor 381 moves and drives the cutter 385 to move close to the pig's legs and perform pig's hoof cutting on the pig's legs.

During actual work, the whole slaughtered pig is placed on a conveying belt manually or by the prior art, and the pig legs are positioned on one side, facing a positioning inclined surface, of a vertical surface of a positioning plate 113, so that the pig can be shifted towards one side, facing the positioning inclined surface, of the vertical surface of the positioning plate 112 when the pig is placed, then the pig is conveyed into the conveying belt to be conveyed, the pig can be in contact with the positioning inclined surface of the positioning plate 112 and finally the pig belly is tightly abutted against the vertical surface of the positioning plate 112 under the guidance of the positioning inclined surface, meanwhile, the positioning plate 112 enables the spreading angle of the pig legs to be in a proper value, so that the subsequent pig feet are conveniently cut, finally the pig is conveyed to the position of a cutting device 300, and the four pig legs are positioned between two groups of main elbow tightening rods 3423 and two groups of tightening guide pillars;

the moving motor 321 operates and pulls the mounting bracket 310 to move close to the positioning plate 112 along the axial direction of the moving screw rod 322 through the moving screw rod 322, so that the cutting device 300 is close to the pig, and then the motor 331 operates and pulls the rotating shaft 332 to rotate through the third power transmission piece 333;

the rotating shaft 332 rotates and moves around the rope reel 3411 to synchronously rotate and take up the rope, so that the two groups of driving rods 3422 are driven to move close to each other, the driving rods 3422 move and drive the main elbow tightening rods 3423 to synchronously move through the driving springs 3426, so that the main elbows of four pig legs are tightened, then the driving rods 3422 continue to operate, and the main elbows of the pig legs are tightened, namely the main elbow tightening rods 3423 cannot continue to operate, and at the moment, the driving rods 3422 continue to move to enable the trigger sleeve 3425 of the trigger to do ascending motion;

the trigger sleeve 3425 is lifted and makes the lifting rod 3612 perform lifting rotation around the guiding direction of the tightening guide rod 3521, the lifting rod 3612 contacts with the plug 3516 and pulls the plug 3516 to synchronously lift, so that the connecting key arranged on the upper end face of the plug 3516 is inserted into the connecting key slot arranged on the driven pulley 3515, the second power transmission member 3510 is switched to a connecting state, besides, the plug 3516 lifts and pulls the lifting plate 3621 to synchronously lift, the lifting plate 3621 lifts and pulls the clamping plate 3413 to move away from the winding disk 3515 through the pulling rope, the clamping plate 3 moves and pulls the transmission disk 3412 to synchronously move, so that the flat key arranged on the transmission disk 3412 is separated from the flat key slot arranged on the winding disk 3411, meanwhile, the transmission disk 3412 contacts with the linkage inclined plane of the linkage plate 3417 and drives the linkage plate 3417 to move down, so that the linkage plate 3417 is separated from the contact with the limiting disk 3415, and the elastic force of the limiting spring 3416 drives the limiting disk 3415 to move close to the winding disk 3411, so that the restricting key provided on the restricting disk 3415 is inserted into the flat key groove provided on the winding disk 3411, whereupon the first power transmission member 3410 is switched to the off state;

after the main elbow tightening mechanism 340 tightens the main elbows of the pig legs, the pig feet of the pig legs are close to the first/second pig foot tightening rods, the rotating shaft 332 continues to rotate and enables the tightening shaft 3524 to rotate through the second power transmission member 3510, the tightening shaft 3524 rotates and pulls the first/second pig foot tightening rods to synchronously rotate, and the first/second pig foot tightening rods rotate and are in contact with the pig feet of the pig legs to tighten the pig feet;

the moving motor 381 moves and drives the cutting machine 385 to move close to the pig legs and cut the pig trotters, the cut pig trotters fall onto the output conveying belt and are conveyed away, meanwhile, the rest pigs without the pig trotters are conveyed into the conveying belt and are conveyed away, and then the cutting device 300 performs a resetting process of returning to the original state, specifically:

the motor 331 runs in reverse and restores the pig's hoof tightening mechanism 3520 to the original state, the traveling motor 381 runs in reverse and restores the cutting mechanism 380 to the original state, and then after the remaining pig with the pig's hoofs removed is conveyed away, the driving spring 3426 drives the main elbow tightening rod 3423 to continue to move away from the driving rod 3422, so that the trigger sleeve 3425 descends, the trigger sleeve 3425 descends to rotate the lifting rod 3612, so that under the elastic force of the return spring 3625, the inserting disc 3516/the lifting plate 3621 both descend, the inserting disc 3516 descends to switch the second power transmission member 3510 to the cut-off state, the lifting plate 3621 descends to switch the first power transmission member 3410 to the transmission state, and then the elastic force of the tension spring 3424 to restore the main elbow tightening member 3420 to the original state, and at this time, the power mechanism 330/the main elbow tightening mechanism 340/the pig's hoof tightening mechanism 350/the power switching mechanism 360/the cutting mechanism 380 both restore to the original state, then the moving motor 321 runs reversely and restores the mounting bracket 310 to the initial position, so far, the cutting device 300 is restored to the original state and moves to the initial position, the restoration is finished, the next round of pig trotter cutting can be carried out, and the process is repeated.

Claims (6)

1. The pig trotter cutting machine is characterized by comprising a main frame body arranged on the ground, wherein the main frame body is provided with a conveying device, a cutting device and a positioning mechanism, the conveying device is used for conveying the whole pig to a corresponding cutting point on the cutting device or conveying the remaining pig with the pig trotters removed and the pig trotters away, the positioning mechanism is used for pre-positioning the pig in the process of conveying the whole pig by the conveying device, and the cutting device is used for cutting the pig trotters from the whole pig;

the conveying device comprises an input mechanism for conveying the whole pig to the position of the cutting device, and an output mechanism for conveying the residual pig with the pig trotters removed and the pig trotters away;

the feeding mechanism comprises a feeding motor and a feeding component, the feeding motor is horizontally fixed on the main frame body, the feeding component comprises a feeding main/driven roller and a feeding conveying belt, the axial direction of the feeding main/driven roller is parallel to the axial direction of the feeding motor, the feeding main/driven roller is movably arranged on the main frame body and can rotate around the axial direction of the feeding main/driven roller, the feeding conveying belt is arranged between the feeding main/driven roller and the feeding motor, a first power transmission element is arranged between the feeding main roller and the feeding motor, power transmission is carried out between the feeding main roller and the feeding motor through the first power transmission element, and the first power transmission element is of a belt transmission structure;

the output mechanism is positioned below the input mechanism and comprises an output motor and an output component, the axial direction of the output motor is parallel to the axial direction of the input motor and is fixed on the main frame body, the output component comprises an output main/driven roller and an output conveying belt, the output main/driven roller is axially parallel to the axial direction of the output motor and is movably arranged on the main frame body and can rotate around the axial direction of the output main/driven roller, a second power transmission piece is arranged between the output main roller and the output motor, power transmission is carried out between the output main roller and the output motor through the second power transmission piece, and the second power transmission piece is of a belt transmission structure;

the positioning mechanism is positioned above the input component and comprises positioning guide rods, positioning plates and floating springs, the positioning guide rods are vertically fixed on the main frame body, and two groups of positioning guide rods are arrayed along the conveying direction of the input component;

the positioning plate is vertically arranged, the positioning plate is provided with connecting bulges which are movably arranged outside the positioning guide rod through the connecting bulges and form sliding guide fit, the connecting bulges are correspondingly provided with two groups, the large surface of the positioning plate is parallel to the conveying direction of the input component, and can be divided into a positioning inclined surface close to the feed end of the input component and a vertical surface close to the discharge end of the input component;

the floating springs are sleeved outside the positioning guide rod and are provided with two groups of upper floating springs positioned above the connecting bulges and lower floating springs positioned below the connecting bulges;

the cutting device is positioned on one side of the vertical surface of the positioning plate facing the positioning inclined surface, the cutting device comprises a mounting bracket and a moving mechanism, the moving mechanism is used for driving the mounting bracket to move close to or away from the pig, a power mechanism, a main elbow tightening mechanism and a pig hoof tightening mechanism are arranged on the mounting bracket, the pig trotter cutting device comprises a power switching mechanism, a guide plate and a cutting mechanism, wherein the power mechanism is used for providing power for the operation of a main elbow tightening mechanism/pig trotter tightening mechanism, the main elbow tightening mechanism is used for tightening the main elbows of pig legs, the pig trotter tightening mechanism is used for tightening the pig trotters of the pig legs, the power switching mechanism is used for controlling the power transmission/cut-off between the power mechanism and the main elbow tightening mechanism/pig trotter tightening mechanism, the guide plate is used for guiding the pig trotters to an output conveying belt, and the cutting direction of the cutting mechanism and the joint of the tightened main elbow pig trotters are positioned on the same straight line and used for cutting the pig trotters;

the moving mechanism comprises a moving motor, a moving screw rod and a moving guide rod, the axial direction of the moving motor is parallel to the axial direction of the input motor and is fixed on the main frame body, the guiding direction of the moving guide rod is parallel to the axial direction of the moving motor and is fixed on the main frame body, and the moving screw rod is coaxially fixed at the power output end of the moving motor;

the mounting bracket is movably mounted outside the movable guide rod and forms sliding guide fit, the mounting bracket is further mounted outside the movable screw rod through a nut, and the movable screw rod rotates and pulls the mounting bracket to move along the axial direction of the movable screw rod;

the power mechanism comprises a motor and a rotating shaft, the axial direction of the motor is parallel to the axial direction of the moving motor and is fixed on the mounting bracket, the axial direction of the rotating shaft is parallel to the conveying direction of the feeding mechanism and is movably mounted on the mounting bracket and can rotate around the axial direction of the rotating shaft, a power transmission piece III is arranged between the power output end of the motor and the rotating shaft, power transmission is carried out between the power output end of the motor and the rotating shaft through the power transmission piece III, and the power transmission piece III is of a worm and gear structure;

the main elbow tightening mechanism comprises a first power transmission component and a main elbow tightening component, the first power transmission component is used for receiving power of the power mechanism and transmitting the power to the main elbow tightening component, and the main elbow tightening component is used for tightening the main elbows of the four pig legs of the pigs;

the main elbow tightening component is positioned on one side of the rotating shaft facing the positioning mechanism, the main elbow tightening component comprises tightening guide pillars, a driving rod and a main elbow tightening rod, the guiding direction of the tightening guide pillars is parallel to the conveying direction of the conveying mechanism, the tightening guide pillars are fixed on the mounting bracket, and two groups of tightening guide pillars are arranged in the direction vertical to the ground and are respectively an upper tightening guide pillar and a lower tightening guide pillar;

the driving rods are movably arranged outside the tightening guide pillars and form sliding guide fit, two groups of driving rods are arranged and are respectively positioned at one end of the tightening guide pillars, and the two groups of driving rods are respectively a left driving rod close to the discharge end of the feeding mechanism and a right driving rod close to the feed end of the feeding mechanism;

the main elbow tightening rods are movably arranged outside the tightening guide pillars and form sliding guide fit, two groups of main elbow tightening rods are arranged and are respectively positioned between the two groups of driving rods, and the two groups of main elbow tightening rods are respectively a left main elbow tightening rod close to the left driving rod and a right main elbow tightening rod close to the right driving rod;

the part of the lower tightening guide post between the driving rod and the main elbow tightening rod is sleeved with driving springs, and the driving springs are correspondingly arranged in two groups;

tension springs are arranged between the driving rods and the mounting bracket, the driving rods are driven to move away from the main elbow tensioning rods by the elasticity of the tension springs, and the tension springs are correspondingly arranged in two groups;

the trigger parts are also arranged between the driving rod and the main elbow tightening rod and are correspondingly arranged in two groups, each trigger part comprises a trigger sleeve, a sliding rod and a trigger spring, the trigger sleeve is movably sleeved outside the main elbow tightening rod and forms sliding guide fit, the sliding sleeve is connected with the trigger sleeve in a hinged mode, a hinged shaft core wire is parallel to the axial direction of the motor, one end of the sliding rod is positioned in the sliding sleeve and forms sliding guide fit, the other end of the sliding rod is hinged with the driving rod, the hinged shaft core wire is parallel to the axial direction of the motor, the hinged position between the sliding sleeve and the trigger sleeve is higher than the hinged position between the sliding rod and the driving rod, and the trigger spring is;

the pig trotter tightening mechanisms are provided with two groups and are respectively positioned at one end of the rotating shaft, each pig trotter tightening mechanism comprises a second power transmission component and a pig trotter tightening component, the second power transmission components are used for receiving power of the power mechanism and transmitting the power to the pig trotter tightening components, and the pig trotter tightening components are used for tightening four pig legs and pig trotters of the pig;

the pig hoof tightening member comprises a tightening guide rod, a sliding support and a fixing support, wherein the guide direction of the tightening guide rod is parallel to the axial direction of the rotating shaft and is fixed on the mounting support;

the sliding support is movably arranged on the tightening guide rod and forms sliding guide fit, a guide protrusion is arranged outside the trigger sleeve, a guide area with the guide direction perpendicular to the ground is arranged on the guide protrusion, the sliding support also forms sliding guide fit with the guide area, the trigger sleeve does not interfere with the sliding support in the rising process, and moves along the guide direction of the tightening guide rod and pulls the sliding support to move synchronously;

the fixed support is fixed on the sliding support, and the fixed support and the mounting support form sliding guide fit with the guide direction parallel to the guide direction of the tightening guide post;

the pig hoof tightening component further comprises a tightening shaft, the axial direction of the tightening shaft is perpendicular to the ground, the tightening shaft is installed on the fixed support through a bearing, a first pig hoof tightening rod which is vertically arranged is arranged on the upper end face of a supporting plate horizontally arranged at the top end of the tightening shaft, and a second pig hoof tightening rod which is vertically arranged is arranged on the lower end face of a horizontal plate horizontally arranged at the bottom end of the tightening shaft.

2. The pig hoof cutting machine according to claim 1, wherein the first power transmission member is provided in two groups and is respectively provided at one end of the rotary shaft and is respectively connected to the driving lever;

the first power transmission component comprises a winding rope disk, a connecting rope and a plurality of transition pulleys, the winding rope disk is movably arranged outside the rotating shaft, the winding rope disk and the rotating shaft are not interfered with each other, one end of the connecting rope is wound outside the winding rope disk, the other end of the connecting rope is wound around the plurality of transition pulleys and is fixedly connected with the driving rods, and the winding rope disk rotates to wind the rope and enables the two groups of driving rods to move close to each other;

the first power transmission member also comprises a transmission disc, a clamping plate, a clamping guide rod and a transmission spring, the transmission disc is positioned on one side of the rope winding disc facing to the other group of first power transmission members, a first connecting piece is arranged between the transmission disc and the rotating shaft, the transmission disc is arranged outside the rotating shaft through the first connecting piece, when the transmission disc is displaced along the axial direction of the rotating shaft, the rotating shaft can continuously output power to the transmission disc, the first connecting piece is a first internal spline arranged on the transmission disc and a first external spline arranged on the rotating shaft, a second connecting piece is arranged between the transmission disc and the winding rope disc and can be in power connection with the transmission disc and the winding rope disc through the second connecting piece, the second connecting piece is a flat key arranged on the side surface of the transmission disc facing the winding rope disc and a flat key groove arranged on the winding rope disc and matched with the flat key, and the flat key is provided with a plurality of groups in an array manner along the circumferential direction of the transmission disc and the flat key grooves are correspondingly provided with a plurality of groups;

the guide direction of the clamping guide rod is parallel to the axial direction of the rotating shaft, the clamping guide rod is fixed on the mounting bracket, the clamping plate is movably mounted outside the clamping guide rod and forms sliding guide fit, the clamping plate is connected with the transfer disc in a clamping mode, and the clamping plate moves and pulls the transfer disc to move synchronously;

the part of the rotating shaft, which is positioned at one side of the transmission disc, which is far away from the winding rope disc, is provided with an abutting step, and the transmission spring is sleeved outside the part of the rotating shaft, which is positioned between the abutting step and the transmission disc;

the first power transmission component also comprises a limiting disc, a limiting spring and a limiting guide rod, the guiding direction of the limiting guide rod is parallel to the axial direction of the rotating shaft, the limiting disc is coaxially and movably arranged outside the rotating shaft, the limiting disc and the rotating shaft are not interfered with each other, the limiting disc is positioned on one side of the winding rope disc, which is far away from the transmission disc, the limiting disc is also movably arranged outside the limiting guide rod and forms sliding guide fit, and the limiting spring is sleeved on the part of the rotating shaft, which is positioned on one side of the limiting disc, which is far away from the winding rope disc, and is in a compressed;

the limiting plate is provided with limiting keys matched with the flat key grooves on the side surface facing the winding rope plate, and the limiting keys are correspondingly provided with a plurality of groups;

the first power transmission component also comprises a linkage plate, a linkage spring and a linkage guide rod, wherein the guide direction of the linkage guide rod is vertical to the ground and is fixed on the mounting bracket, the linkage plate is horizontally fixed at the top end of the linkage guide rod, and the linkage spring is sleeved outside the part of the linkage guide rod below the linkage plate;

the upper end face of the linkage plate is provided with a first linkage protrusion/a second linkage protrusion, the first linkage protrusion is positioned on one side of the limiting disc facing the winding rope disc and is in contact with the limiting disc, the side of the first linkage protrusion facing the winding rope disc is a first linkage inclined plane, the second linkage protrusion is positioned on one side of the transmission disc departing from the winding rope disc and is a second linkage inclined plane, and the distance between the first linkage inclined plane and the second linkage inclined plane is gradually increased from bottom to top;

the motion state of the first power transmission member may be divided into a transmission state in which the internal power is transmittable, and a disconnection state in which the internal power is disconnected, and the initial state thereof is the transmission state.

3. The pig's hoof cutting machine of claim 2, wherein the second power transmission member comprises a gear shaft, a driving pulley, a pulley shaft, a driven pulley, a conveyor belt and an inserting disc, the axial direction of the gear shaft is perpendicular to the ground, the gear shaft is movably mounted on the mounting bracket and can rotate around the axial direction of the gear shaft, a fourth power transmission member is arranged between the gear shaft and the rotating shaft, power transmission is carried out between the gear shaft and the rotating shaft through the fourth power transmission member, and the fourth power transmission member is of an oblique gear structure;

the driving belt wheel is coaxially fixed outside the gear shaft, the axial direction of the belt wheel shaft is vertical to the ground, the belt wheel shaft is movably arranged on the mounting support and can rotate around the self axial direction, the belt wheel shaft is positioned on one side of the tightening shaft, which is far away from the gear shaft, the driven belt wheel is movably arranged outside the tightening shaft, the driven belt wheel and the tightening shaft are not interfered with each other, the driven belt wheel is limited to move along the axial direction of the tightening shaft, the head end of the conveying belt sequentially rounds the driving belt wheel, the driven belt wheel and the belt wheel shaft and then is connected with the head end of the conveying belt to form a closed annular loop, and the gear shaft rotates and pulls the;

the inserting disc is positioned below the driven belt wheel, a third connecting piece is arranged between the inserting disc and the tightening shaft, the inserting disc is coaxially arranged on the tightening shaft through the third connecting piece, when the inserting disc axially displaces along the tightening shaft, the inserting disc can continuously output power to the tightening shaft, and the third connecting piece is a second internal spline arranged on the inserting disc and a second external spline arranged on the tightening shaft;

a fourth connecting piece is arranged between the plug board and the driven belt wheel and can be in power connection with the driven belt wheel through the fourth connecting piece, the fourth connecting piece is a connecting key arranged on the upper end surface of the plug board and a connecting key groove arranged on the driven belt wheel and matched with the connecting key, a plurality of groups of connecting keys are arrayed along the circumferential direction of the plug board, and a plurality of groups of connecting key grooves are correspondingly arranged on the connecting key grooves;

the motion state of the second power transmission member may be divided into a connection state in which the internal power can be transmitted and a disconnection state in which the internal power is disconnected from being transmitted, and the initial state thereof is the disconnection state.

4. The pig hoof cutting machine of claim 3, wherein the power switching mechanism is disposed between the first power transmission member and the second power transmission member, and two sets of power switching mechanisms are disposed correspondingly;

the power switching mechanism comprises a first switching piece and a second switching piece, wherein the first switching piece is used for controlling the power connection between the second power transmission member and the power mechanism, and the second switching piece is used for controlling the power connection between the first power transmission member and the power mechanism;

the first switching piece comprises a loop bar and a lifting bar, a sleeve joint hole is further formed in a guide protrusion arranged on the trigger sleeve, the extending direction of the loop bar is parallel to the guiding direction of the tightening guide rod, the loop bar is movably sleeved in the sleeve joint hole and can rotate around the extending direction of the loop bar, and connecting sleeves are arranged at two ends of the loop bar.

5. The pig's hoof cutting machine of claim 4, wherein one end of the lifting rod is movably installed outside the tightening guide rod and forms sliding guide fit, the lifting rod can rotate around the guiding direction of the tightening guide rod, the other end of the lifting rod is movably sleeved in the connecting sleeve and forms sliding guide fit, and the lifting rod is located below the inserting disc;

the two groups of lifting rods are correspondingly arranged, and the tightening shaft is positioned between the two groups of lifting rods;

the second switching piece comprises a lifting plate, a support frame, a guide rod, a guide sleeve and a return spring, the support frame is fixed on the mounting support, the guide sleeve is of a cylinder structure with an opening at one end and a closed end, the guide sleeve is vertically fixed at the bottom of the support frame, and a through hole is coaxially formed in the closed end of the guide sleeve;

the guide rod and the guide sleeve are coaxially arranged, the top end of the guide rod penetrates through the through hole and is positioned in the guide sleeve, the end of the guide rod is provided with a sliding step, and sliding guide fit is formed between the sliding step and the guide sleeve;

the lifting plate is horizontally fixed at the bottom end of the guide rod, is positioned above the inserting disc, and ascends and pulls the lifting plate to ascend synchronously;

the reset spring is movably sleeved outside the guide sleeve, one end of the reset spring is abutted against the lifting plate, and the other end of the reset spring is abutted against the support frame;

the lifting plate and the clamping plate are provided with a pull rope and a plurality of guide pulleys, one end of the pull rope is fixedly connected with the lifting plate, the other end of the pull rope is fixedly connected with the clamping plate after bypassing the guide pulleys, and the lifting plate rises and pulls the clamping plate to move away from the rope coiling through the pull rope.

6. The pig hoof cutting machine according to claim 1, wherein the guide plates are fixed on the mounting bracket and located on one side of the support plate away from the positioning mechanism, and two groups of the guide plates are correspondingly arranged;

the cutting mechanism comprises a traveling motor, a traveling screw rod, a traveling guide rod, a connecting frame and a cutting machine, wherein the axial direction of the traveling motor is parallel to the axial direction of the rotating shaft and is fixed on the mounting frame;

the advancing screw rod is coaxially fixed at the power output end of the advancing motor, and the guiding direction of the advancing guide rod is parallel to the axial direction of the advancing motor and is fixed on the mounting bracket;

the connecting frame is movably arranged outside the advancing guide rod and forms sliding guide fit, the connecting frame is also arranged outside the advancing screw rod through a nut, and the advancing screw rod rotates and pulls the connecting frame to move along the guide direction of the advancing guide rod;

the cutting machine is fixed on the connecting frame;

the cutting mechanism is provided with four groups which are respectively corresponding to the four pig legs, and the joints of the cutting machines of the cutting mechanism, the main elbows of the corresponding pig legs and the joints of the pig feet are positioned on the same straight line.

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