CN112024403A

CN112024403A - Processing treatment device for fruits

Info

Publication number: CN112024403A
Application number: CN202010919703.XA
Authority: CN
Inventors: 刘云博
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2020-12-04

Abstract

The invention relates to the field of processing, in particular to a fruit processing device. The technical problem of the invention is that: provided is a fruit processing device. A fruit processing device comprises a bottom frame; the device comprises a separating mechanism, a cleaning mechanism, a screening mechanism and a controller; the bottom frame is connected with the separating mechanism; welding the bottom frame with the cleaning mechanism; the bottom frame is connected with the screening mechanism; a controller is arranged above the bottom frame. The invention jumps from the traditional thinking that the utilization of mango is only limited to mango pulp, and fully grasps the medical and nutritional values of mango kernel epidermis and mango kernel; the current situations that in the existing equipment, the value of mango is difficult to be played to the maximum, mango kernels cannot be processed, and the separation of the mango kernel peel and the kernel is difficult to realize and the uniform collection is performed are changed.

Description

Processing treatment device for fruits

Technical Field

The invention relates to the field of processing, in particular to a fruit processing device.

Background

Mango is one of the famous tropical fruits, contains sugar, protein and crude fiber, contains a particularly high content of carotene, a precursor of vitamin A, and is rare in all fruits.

The mango stone is one of the traditional Mongolian medicines, has the functions of tonifying the kidney and dispelling the kidney cold, is used for kidney deficiency, kidney cold, lumbocrural pain and the like, and has extremely high nutritional value and medicinal value.

In modern life, people have little knowledge about the value of mango kernels, so that the utilization of mangoes is only limited to mango pulp, and the medical and nutritional values of mango kernel skins and mango kernel kernels are ignored; in the existing equipment, the value of mango is difficult to be played to the maximum, the mango stone cannot be processed, and the separation of the mango stone peel and the stone is difficult to realize and the uniform collection is performed.

Disclosure of Invention

In order to overcome the defects that in modern life, people have little knowledge on the value of mango kernels, so that the utilization of mangoes is only limited to mango pulp, and the medical and nutritional values of mango kernel skins and mango kernel kernels are neglected; in the existing equipment, the defects that the value of mango is difficult to be exerted to the maximum, the mango stone cannot be processed, the separation of the mango stone peel and the stone kernel is difficult to realize, and the uniform collection is performed are as follows: provided is a fruit processing device.

A fruit processing device comprises an underframe, a separating mechanism, a cleaning mechanism, a screening mechanism and a controller; the bottom frame is connected with the separating mechanism; welding the bottom frame with the cleaning mechanism; the bottom frame is connected with the screening mechanism; a controller is arranged above the underframe; the separating mechanism is connected with the cleaning mechanism; the cleaning mechanism is connected with the screening mechanism.

Further, the separating mechanism further comprises a first support frame, a first servo motor, a first driving wheel, a first transmission shaft, a second transmission wheel, a first rotating shaft, a third transmission wheel, a fourth transmission wheel, a second rotating shaft, a first transmission belt, a fifth transmission wheel, a sixth transmission wheel, a first gear, a second gear, a first connecting rod, a first sliding block, a first sliding chute, a first sieve plate, a second sliding chute, a second sliding block, a second connecting rod, a first fixing rod, a third gear, a fourth gear, a seventh transmission wheel, an eighth transmission wheel, a ninth transmission wheel, a tenth transmission wheel, a third rotating shaft, an eleventh transmission wheel, a twelfth transmission wheel, a gear transmission mechanism, a second fixing plate, a first cutter mechanism, a second cutter mechanism, a first partition plate, a third sliding chute, a first extrusion rod, a third connecting rod, a third sliding block, a fourth connecting rod, an eleventh gear, a twelfth gear, a third extrusion rod, a fourth extrusion rod, a third extrusion rod, the device comprises a first support rod, a first support plate, a fourth rotating shaft, a second support frame, a second servo motor, a third support frame, a fifth rotating shaft, a second support plate, a thirteenth gear, a fourteenth gear, a first steering shaft, a sixth rotating shaft, a fourth support frame, a third support plate, a first bevel gear, a second bevel gear, a fifth connecting rod, a fourth sliding block, a sixth connecting rod, a fourth sliding groove, a third fixing plate and a first collecting box; the first support frame is welded with the first support rod; the upper part of the first support frame is sequentially connected with a first support plate, a second support frame, a third support frame, a second support plate, a fourth support frame and a third support plate; the first servo motor is in rotating connection with the first transmission shaft; the first driving wheel is rotationally connected with the first driving shaft; the first driving wheel is in transmission connection with the second driving wheel through a belt; the second transmission wheel is rotationally connected with the first rotating shaft; the first rotating shaft is rotationally connected with the third driving wheel; the first rotating shaft is connected with the first conveyor belt; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth transmission wheel is rotationally connected with the second rotating shaft; the second rotating shaft is connected with the first conveyor belt; the second rotating shaft is rotationally connected with a fifth driving wheel; the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth transmission wheel is rotationally connected with the first gear through a rotating shaft; the first gear is meshed with the second gear; the first gear is connected with the second gear; the first connecting rod is connected with the first sliding block; the first sliding block is in sliding connection with the first sliding chute; one side of the first sieve plate is sequentially connected with a first gear and a second gear; the other side of the first sieve plate is sequentially connected with a third gear and a fourth gear; two ends of the first sieve plate are respectively welded with the first chute and the second chute; the second sliding chute is in sliding connection with the second sliding block; the second sliding block is connected with the second connecting rod; two ends of the first fixed rod are respectively connected with the first sliding block and the second sliding block; the first fixed rod is connected with the third gear; the third gear is meshed with the fourth gear; the fourth gear is in rotary connection with a seventh transmission wheel through a rotating shaft; the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth transmission wheel is rotationally connected with the first rotating shaft; the ninth driving wheel is rotationally connected with the first rotating shaft; the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the tenth driving wheel is rotationally connected with the fourth driving wheel; the third rotating shaft is connected with the first support frame; the third rotating shaft is rotatably connected with the eleventh driving wheel; the eleventh transmission wheel is in transmission connection with the twelfth transmission wheel through a belt; the twelfth driving wheel is connected with the gear transmission mechanism through a rotating shaft; the gear transmission mechanism is rotationally connected with the first cutter mechanism; the second fixing plate is welded with the first support frame; the second fixing plate is connected with the first cutter mechanism; the second cutter mechanism is connected with the third fixing plate; a second cutter mechanism is arranged at the upper end of the first partition plate; the third sliding chute is welded with the third fixing plate; two ends of the first extrusion rod are respectively connected with the third sliding chute and the fourth sliding chute in a sliding manner; two ends of the first extrusion rod are respectively connected with the third connecting rod and the sixth connecting rod; the third chute is connected with a third connecting rod; the third sliding chute is connected with the first supporting rod; the third connecting rod is connected with the third sliding block; the third sliding block is in sliding connection with the third sliding chute; the third sliding block is rotatably connected with the fourth connecting rod; the fourth connecting rod is connected with the eleventh gear; the eleventh gear is meshed with the twelfth gear; the eleventh gear is connected with the first supporting plate; the twelfth gear is rotationally connected with the fourth rotating shaft; two ends of the fourth rotating shaft are respectively connected with the first supporting plate and the second supporting frame; two ends of the second servo motor are respectively in rotating connection with the fourth rotating shaft and the fifth rotating shaft; two ends of the fifth rotating shaft are respectively connected with the third supporting frame and the second supporting plate; the fifth rotating shaft is in rotating connection with the thirteenth gear; the fifth rotating shaft is in rotating connection with the first steering shaft; the first steering shaft is rotationally connected with the sixth rotating shaft; the sixth rotating shaft is sequentially connected with the fourth supporting frame and the third supporting plate; the sixth rotating shaft is in rotating connection with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is rotationally connected with the third rotating shaft; the thirteenth gear is meshed with the fourteenth gear; the fourteenth gear is connected with the second supporting plate; the fourteenth gear is connected with the fifth connecting rod; the fifth connecting rod is connected with the fourth sliding block through a connecting rod; the fourth sliding block is in sliding connection with the fourth sliding chute; the fourth sliding block is connected with the sixth connecting rod; the first collecting box is connected with the second fixing plate; the first collecting box is contacted with the first cutter mechanism; the first support frame is welded with the underframe; the first servo motor is connected with the bottom frame; the first transmission shaft is connected with the underframe; the first transmission shaft is connected with the screening mechanism; the first conveyor belt is welded with the underframe; the first screen deck is connected with the chassis.

Furthermore, the gear transmission mechanism also comprises a fifth gear, a sixth gear, a seventh gear, an eighth gear, a ninth gear and a tenth gear; the fifth gear is meshed with the sixth gear; the sixth gear is meshed with the seventh gear; the seventh gear is meshed with the eighth gear; the eighth gear is meshed with the ninth gear; the ninth gear is meshed with the tenth gear.

Furthermore, the cleaning mechanism also comprises a fourth supporting plate, a second conveying belt, a thirteenth driving wheel, a seventh rotating shaft, a fourteenth driving wheel, a fifteenth driving wheel, a sixteenth driving wheel, an eighth rotating shaft, a cleaning box, a ninth rotating shaft, a fifteenth gear, a tenth rotating shaft, a sixteenth gear, an eleventh rotating shaft, a seventeenth gear, a twelfth rotating shaft, an eighteenth gear, a second sieve plate, a first washing and brushing roller, a second washing and brushing roller, a third washing and brushing roller, a fourth washing and brushing roller, a fifth supporting frame, a first electric push rod, a fifth chute and a second separating plate; the fourth supporting plate is connected with the second conveying belt; the second conveyor belt is connected with the outer surface of the seventh rotating shaft; the second conveyor belt is connected with the outer surface of the eighth rotating shaft; the thirteenth driving wheel is rotationally connected with the seventh rotating shaft; the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the fourteenth driving wheel is rotationally connected with the eighth rotating shaft; the fifteenth transmission wheel is rotationally connected with the eighth rotating shaft; the fifteenth driving wheel is in transmission connection with the sixteenth driving wheel through a belt; a second sieve plate and a second partition plate are arranged in the cleaning box; the ninth rotating shaft is in rotating connection with the fifteenth gear; the ninth rotating shaft is rotationally connected with the fourth washing roller; the fifteenth gear is meshed with the sixteenth gear; the tenth rotating shaft is in rotating connection with the sixteenth gear; the tenth rotating shaft is rotationally connected with the third washing roller; the sixteenth gear is meshed with the seventeenth gear; the eleventh rotating shaft is in rotating connection with the seventeenth gear; the eleventh rotating shaft is rotatably connected with the second washing roller; the seventeenth gear is meshed with the eighteenth gear; the twelfth rotating shaft is rotationally connected with the eighteenth gear; the twelfth rotating shaft is rotatably connected with the first washing roller; the second partition plate is sequentially connected with the ninth rotating shaft, the tenth rotating shaft, the eleventh rotating shaft and the twelfth rotating shaft; the second sieve plate is connected with the first electric push rod; the fifth supporting frame is connected with the first electric push rod; the fifth chute is in sliding connection with the second sieve plate; the fourth supporting plate is connected with the bottom frame; the sixteenth driving wheel is connected with the screening mechanism; the cleaning box is connected with the underframe; the tenth rotating shaft is connected with the screening mechanism.

Further, the screening mechanism further comprises a fifth support plate, a third conveyor belt, a seventeenth transmission wheel, a thirteenth rotating shaft, an eighteenth transmission wheel, a fourteenth rotating shaft, a nineteenth transmission wheel, a twentieth transmission wheel, a nineteenth gear, a first spiral hob, a second spiral hob, a twenty-first transmission wheel, a twentieth gear, a twenty-second transmission wheel, a twenty-third transmission wheel, a twenty-fourth transmission wheel, a twenty-first gear, a twenty-twelfth gear, a twenty-third gear, a twenty-fourth gear, a twenty-fifth gear, a twenty-sixth gear, a twenty-fifth transmission wheel, a twenty-sixth transmission wheel, a fifteenth rotating shaft, a third bevel gear, a fourth bevel gear, a sixteenth rotating shaft, a linear push-pull mechanism, a fifth bevel gear, a sixth bevel gear, a seventeenth rotating shaft, a seventh bevel gear, an eighth bevel gear, a ninth bevel gear, a tenth bevel gear, an eighteenth rotating shaft, An eleventh bevel gear, a twelfth bevel gear, a nineteenth rotating shaft, a thirteenth bevel gear, a fourteenth bevel gear, a twentieth rotating shaft, a third sieve plate, a second collecting box, a splitter plate, a fifteenth bevel gear, a sixteenth bevel gear, a second transmission shaft, a seventeenth bevel gear, an eighteenth bevel gear, a twenty-seventh transmission wheel, a twenty-eighth transmission wheel, a first extrusion roller, a second extrusion roller, a fourth fixing plate, a fifth fixing plate and a third transmission shaft; the fifth supporting plate is connected with the third conveying belt; the fifth supporting plate is connected with the fourth fixing plate; the seventeenth driving wheel is rotationally connected with the thirteenth rotating shaft; the seventeenth driving wheel is in transmission connection with the eighteenth driving wheel through a belt; the thirteenth rotating shaft is connected with the third conveying belt; the eighteenth transmission wheel is rotatably connected with the fourteenth rotating shaft; the fourteenth rotating shaft is connected with the third conveying belt; the fourteenth rotating shaft is rotationally connected with the nineteenth driving wheel; the nineteenth driving wheel is in transmission connection with the twentieth driving wheel through a belt; the twentieth transmission wheel is rotationally connected with the first spiral hob; the nineteenth gear is rotationally connected with the first spiral hob; the nineteenth gear is meshed with the twentieth gear; the second spiral hob is in rotary connection with the twenty-first transmission wheel; the second spiral hob is in rotary connection with the twentieth gear; the second spiral hob is in rotary connection with a twenty-third transmission wheel; the twenty-first driving wheel is in transmission connection with the twenty-second driving wheel through a belt; the twenty-second driving wheel is rotationally connected with the first driving shaft; the twenty-third driving wheel is in transmission connection with the twenty-fourth driving wheel through a belt; the twenty-fourth driving wheel is rotationally connected with the first extrusion roller; the twenty-first gear is in rotary connection with the first extrusion roller; the twenty-first gear is meshed with the twenty-second gear; the second twelve gears are rotatably connected with the second extrusion roller; the twenty-third gear is rotationally connected with the second spiral hob; the twenty-third gear is meshed with the twenty-fourth gear; the twenty-fourth gear is rotationally connected with the first spiral hob; the twenty-fifth gear is meshed with the twenty-sixth gear; the twenty-fifth gear is rotationally connected with the first extrusion roller; the twenty-sixth gear is rotationally connected with the second extrusion roller; the twenty-fifth driving wheel is rotationally connected with the second extrusion roller; the twenty-fifth driving wheel is in transmission connection with the twenty-sixth driving wheel through a belt; the twenty-sixth transmission wheel is rotationally connected with the fifteenth rotating shaft; the fifteenth rotating shaft is sequentially connected with the third bevel gear, the fifth bevel gear and the seventh bevel gear; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is in rotary connection with the sixteenth rotating shaft; the sixteenth rotating shaft is connected with the linear push-pull mechanism; the linear push-pull mechanism is connected with the third sieve plate; the fifth bevel gear is meshed with the sixth bevel gear; the sixth bevel gear is rotationally connected with the seventeenth rotating shaft; the seventeenth rotating shaft is connected with the linear push-pull mechanism; the seventh bevel gear is meshed with the eighth bevel gear; the eighth bevel gear is in rotary connection with the third transmission shaft; the ninth bevel gear is in rotary connection with the third transmission shaft; the ninth bevel gear is meshed with the tenth bevel gear; the eighteenth rotating shaft is sequentially in rotating connection with a tenth bevel gear, an eleventh bevel gear and a thirteenth bevel gear; the eleventh bevel gear is meshed with the twelfth bevel gear; the twelfth bevel gear is rotationally connected with the nineteenth rotating shaft; the nineteenth rotating shaft is connected with the linear push-pull mechanism; the thirteenth bevel gear is meshed with the fourteenth bevel gear; the fourteenth bevel gear is in rotary connection with the twentieth rotating shaft; the twentieth rotating shaft is connected with the linear push-pull mechanism; the left end and the right end in the second collection box are respectively provided with a third sieve plate; two sides of the third sieve plate are respectively connected with the linear push-pull mechanism; the sixteenth bevel gear is in rotating connection with the second extrusion roller; the fifteenth bevel gear is meshed with the sixteenth bevel gear; the sixteenth bevel gear is in rotary connection with the second transmission shaft; the second transmission shaft is in rotary connection with the seventeenth bevel gear; the second transmission shaft is rotationally connected with the sixteenth transmission wheel; the seventeenth bevel gear is meshed with the eighteenth bevel gear; the eighteenth bevel gear is in rotary connection with the twenty-seventh driving wheel through a rotating shaft; the twenty-seventh driving wheel is in transmission connection with the twenty-eighth driving wheel through a belt; the fifth fixing plate is sequentially connected with the first spiral hob, the second spiral hob, the first extrusion roll and the second extrusion roll; the fifth supporting plate is connected with the bottom frame; the fifteenth rotating shaft is connected with the bottom frame; the eighteenth rotating shaft is connected with the bottom frame; the second collecting box is connected with the bottom frame; the twenty-eighth transmission wheel is rotationally connected with the tenth rotating shaft; the third transmission shaft is connected with the underframe; the splitter plate is connected with the underframe; the fifth fixing plate is connected with the underframe; the third transmission shaft is connected with the underframe.

Furthermore, the linear push-pull mechanism also comprises a twenty-seventh gear, a twenty-eighteenth gear, a twenty-ninth gear, a seventh connecting rod, an eighth connecting rod, a ninth connecting rod, a tenth connecting rod, an eleventh connecting rod and a twelfth connecting rod; the twenty-seventh gear is meshed with the twenty-eighteen gear; the twenty-eighth gear is meshed with the twenty-ninth gear; the twenty-eighth gear is connected with the seventh connecting rod; the seventh connecting rod is connected with the eighth connecting rod; the eighth connecting rod is connected with the ninth connecting rod; the ninth connecting rod is connected with the tenth connecting rod; the ninth connecting rod is connected with the third sieve plate; the tenth connecting rod is connected with the eleventh connecting rod; the eleventh connecting rod is connected with the twelfth connecting rod; the twelfth connecting rod is connected with the twenty-ninth gear.

Further, the cutter body of the first cutter mechanism is a through-hole circular tube.

Further, when the first pressing rod is reciprocated to press the mango, the pressing rod can push the mango to be cut at the first cutter mechanism, and one pressing end part of the first pressing rod is a sponge.

Furthermore, the positioning position of the splitter plate refers to the mounting position of a third sieve plate, so that the nuclear skin and the nuclear kernel can fall on the third sieve plate; the second collecting box is provided with a partition plate, and the installation position of the partition plate is positioned by referring to the installation position of the third sieve plate; the second collecting box is provided with an opening at the position where the third sieve plate is connected, so that the screening and separating movement track of the third sieve plate is met.

Furthermore, the second sieve plate is provided with a blocking plate at a position close to the second conveyor belt, so that the kernels can fall on the second conveyor belt through an outlet.

The beneficial effects are that: (1) the separation mechanism is designed, so that the separation of mango pulp and the mango stone and the collection of the mango pulp are realized;

(2) the cleaning mechanism is designed, so that the mango kernel skin pulp is cleaned;

(3) the invention designs a screening mechanism, realizes the cutting of mango kernels, the crushing of kernels, the screening separation of the kernels and the peels, and the uniform collection;

(4) the invention jumps from the traditional thinking that the utilization of mango is only limited to mango pulp, and fully controls the medical and nutritional values of mango kernel epidermis and mango kernel; the current situations that in the existing equipment, the value of mango is difficult to be played to the maximum, mango kernels cannot be processed, and the separation of the mango kernel peel and the kernel is difficult to realize and the uniform collection is performed are changed.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic view of a first three-dimensional structure of the separating mechanism of the present invention;

FIG. 4 is a schematic view of a second perspective structure of the separating mechanism of the present invention;

FIG. 5 is a schematic view of a third embodiment of the separating mechanism of the present invention;

FIG. 6 is a schematic perspective view of a first gear assembly of the present invention;

FIG. 7 is a schematic view of a first perspective view of the cleaning mechanism of the present invention;

FIG. 8 is a schematic view of a second alternate construction of the cleaning mechanism of the present invention;

FIG. 9 is a schematic view of a third alternate construction of the cleaning mechanism of the present invention;

FIG. 10 is a schematic perspective view of a first embodiment of the screening mechanism of the present invention;

FIG. 11 is a schematic perspective view of a second embodiment of the screening mechanism of the present invention;

FIG. 12 is a schematic view of a third embodiment of the screening mechanism of the present invention;

FIG. 13 is a schematic view of a fourth embodiment of the screening mechanism of the present invention;

fig. 14 is a first perspective view of the linear push-pull mechanism of the present invention.

Part names and serial numbers in the figure: 1_ chassis, 2_ separating mechanism, 3_ cleaning mechanism, 4_ screening mechanism, 5_ controller, 201_ first support frame, 202_ first servomotor, 203_ first drive wheel, 204_ first drive shaft, 205_ second drive wheel, 206_ first shaft, 207_ third drive wheel, 208_ fourth drive wheel, 209_ second shaft, 2010_ first conveyor belt, 2011_ fifth drive wheel, 2012_ sixth drive wheel, 2013_ first gear, 2014_ second gear, 2015_ first connecting rod, 2016_ first slider, 2017_ first chute, 2018_ first sieve plate, 2019_ second chute, 2020_ second slider, 2021_ second connecting rod, 2022_ first fixed rod, 2023_ third gear, 2024_ fourth gear, 2025_ seventh drive wheel, 2026_ eighth gear, 2027_ ninth gear, 2028_ tenth drive wheel, 2029_ third shaft, and eleventh drive wheel 2030_ second drive wheel, 2031_ twelfth drive wheel, 2032_ gear drive mechanism, 203201_ fifth gear, 203202_ sixth gear, 203203_ seventh gear, 203204_ eighth gear, 203205_ ninth gear, 203206_ tenth gear, 2033_ second fixed plate, 2034_ first cutter mechanism, 2035_ second cutter mechanism, 2036_ first partition, 2037_ third chute, 2038_ first pressing bar, 2039_ third connecting bar, 2040_ third slider, 2041_ fourth connecting bar, 2042_ eleventh gear, 2043_ twelfth gear, 2044_ first supporting bar, 2045_ first supporting plate, 2046_ fourth rotating shaft, 2047_ second supporting plate, 2048_ second servomotor, 2049_ third supporting plate, 2050_ fifth rotating shaft, 2041_ second supporting plate, 2052_ thirteenth gear, 2053_ fourteenth gear, 2054_ first rotating shaft, 2055_ sixth rotating shaft, 2056_ fourth supporting plate, 2057_ third rotating shaft, 2057_ third supporting plate, 2058_ first bevel gear, 2059_ second bevel gear, 2060_ fifth connecting rod, 2061_ fourth slider, 2062_ sixth connecting rod, 2063_ fourth chute, 2064_ third fixed plate, 2065_ first collecting box, 301_ fourth supporting plate, 302_ second conveyor belt, 303_ thirteenth transmission wheel, 304_ seventh rotating shaft, 305_ fourteenth transmission wheel, 306_ fifteenth transmission wheel, 307_ sixteenth transmission wheel, 308_ eighth rotating shaft, 309_ cleaning box, 3010_ ninth rotating shaft, 3011_ fifteenth gear, 3012_ tenth rotating shaft, 3013_ sixteenth gear, 3014_ eleventh rotating shaft, 3015_ seventeenth gear, 3016_ twelfth rotating shaft, 3017_ eighteenth gear, 3018_ second sieve plate, 3019_ first washing roller, 3020_ second washing roller, 3021_ third washing roller, 3022_ fourth washing roller, 3023_ fifth supporting frame, push rod 3024_ first electric sliding chute 3025_ fifth electric sliding chute 3025, 3026_ second baffle, 401_ fifth support plate, 402_ third conveyor belt, 403_ seventeenth drive wheel, 404_ thirteenth shaft, 405_ eighteenth drive wheel, 406_ fourteenth shaft, 407_ nineteenth drive wheel, 408_ twentieth drive wheel, 409_ nineteenth gear, 4010_ first screw hob, 4011_ second screw hob, 4012_ twenty-first drive wheel, 4013_ twentieth gear, 4014_ twenty-second drive wheel, 4015_ twenty-third drive wheel, 4016_ twenty-fourth drive wheel, 4017_ twenty-first gear, 4018_ second twelfth gear, 4019_ twenty-third gear, 4020_ twenty-fourth gear, 4021_ twenty-fifth gear, 4022_ twenty-sixth gear, 4023_ twenty-fifth gear, 4024_ twenty-sixth drive wheel, 4025_ fifteenth drive wheel, 4026_ third bevel gear, 4027_ fourth bevel gear, 8_ sixteenth 402shaft, 4029_ sixteenth push-pull mechanism, 402901_ twenty-seventh gear, 402902_ twenty-eighth gear, 402903_ twenty-ninth gear, 402904_ seventh connecting rod, 402905_ eighth connecting rod, 402906_ ninth connecting rod, 402907_ tenth connecting rod, 402908_ eleventh connecting rod, 402909_ twelfth connecting rod, 4030_ fifth bevel gear, 4031_ sixth bevel gear, 4032_ seventeenth rotating shaft, 4033_ seventh bevel gear, 4034_ eighth bevel gear, 4035_ ninth bevel gear, 4036_ tenth bevel gear, 4037_ eighteenth rotating shaft, 4038_ eleventh bevel gear, 4039_ twelfth bevel gear, 4040_ nineteenth rotating shaft, 4041_ thirteenth bevel gear, 4042_ fourteenth bevel gear, 4043_ twenty-seventh rotating shaft, 4044_ third sieve plate, 4045_ second collecting box, 4046_ diversion plate, 4047_ fifteenth bevel gear, 4048_ sixteenth gear, 4049_ seventeenth driving shaft, 4050_ seventeenth gear, 40351 _ eighteenth bevel gear, 4052_ twenty-seventh transmission wheel, 4053_ twenty-eighth transmission wheel, 4054_ first pressing roller, 4055_ second pressing roller, 4056_ fourth fixing plate, 4057_ fifth fixing plate, 4058_ third transmission shaft.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A fruit processing device is shown in figures 1-14 and comprises a base frame 1, a separating mechanism 2, a cleaning mechanism 3, a screening mechanism 4 and a controller 5; the underframe 1 is connected with the separating mechanism 2; the underframe 1 is welded with the cleaning mechanism 3; the underframe 1 is connected with the screening mechanism 4; a controller 5 is arranged above the underframe 1; the separating mechanism 2 is connected with the cleaning mechanism 3; the cleaning mechanism 3 is connected with the screening mechanism 4.

During working, the underframe 1 is arranged on a stable workbench, the separating mechanism 2 is connected with a conveying device externally provided with mango, the controller 5 is controlled, and the separating mechanism 2 realizes primary separation of mango pulp from a core and primary collection of the mango pulp; the separating mechanism 2 drives the screening mechanism 4, and the screening mechanism 4 drives the cleaning mechanism 3; the cleaning of the residual flesh of the mango peel is realized, and the cleaned fruit core is conveyed; the screening mechanism 4 realizes the separation of the mango kernel epidermis and the nucleolus, screens the nucleolus and the epidermis and respectively collects the nucleolus and the epidermis; the invention realizes the separation of mango pulp and mango stone, the collection of mango pulp, the cleaning of the residual mango stone pulp, the separation of mango stone kernel and mango stone peel, and the collection of mango stone peel and stone, and breaks away from the traditional thinking that the utilization of mango is only limited to mango pulp, and fully controls the medical and nutritional values of mango stone peel and mango stone kernel; the current situations that in the existing equipment, the value of mango is difficult to be played to the maximum, mango kernels cannot be processed, and the separation of the mango kernel peel and the kernel is difficult to realize and the uniform collection is performed are changed.

The separating mechanism 2 further includes a first supporting frame 201, a first servo motor 202, a first driving wheel 203, a first transmission shaft 204, a second transmission wheel 205, a first rotating shaft 206, a third transmission wheel 207, a fourth transmission wheel 208, a second rotating shaft 209, a first belt 2010, a fifth transmission wheel 2011, a sixth transmission wheel 2012, a first gear 2013, a second gear 2014, a first connecting rod 2015, a first slider 2016, a first chute 2017, a first sieve plate 2018, a second chute 2019, a second slider 2020, a second connecting rod 2021, a first fixing rod 2022, a third gear 2023, a fourth gear 2024, a seventh transmission wheel 2025, an eighth transmission wheel 2026, a ninth transmission wheel 2027, a tenth transmission wheel 2028, a third rotating shaft 2029, an eleventh transmission wheel 2030, a twelfth transmission wheel 1, a gear 2032, a second fixing plate 2033, a first cutter mechanism 2034, a second cutter mechanism 2025, a first clapboard 6, a third chute 2027, a twelfth transmission wheel 2034, a second cutter mechanism 2032, a second fixing plate 2033, a second cutter mechanism 2034, a second cutter mechanism, A first extrusion rod 2038, a third connecting rod 2039, a third slider 2040, a fourth connecting rod 2041, an eleventh gear 2042, a twelfth gear 2043, a first support rod 2044, a first support plate 2045, a fourth rotating shaft 2046, a second support frame 2047, a second servo motor 2048, a third support frame 2049, a fifth rotating shaft 2050, a second support plate 2051, a thirteenth gear 2052, a fourteenth gear 2053, a first rotating shaft 2054, a sixth rotating shaft 2055, a fourth support frame 2056, a third support plate 2057, a first bevel gear 2058, a second bevel gear 2059, a fifth connecting rod 2060, a fourth slider 2061, a sixth connecting rod 2062, a fourth chute 2063, a third fixing plate 2064 and a first collecting box 2065; the first support frame 201 is welded to the first support rod 2044; the upper part of the first support frame 201 is sequentially connected with a first support plate 2045, a second support plate 2047, a third support plate 2049, a second support plate 2051, a fourth support plate 2056 and a third support plate 2057; the first servo motor 202 is rotatably connected with the first transmission shaft 204; the first transmission wheel 203 is in rotary connection with a first transmission shaft 204; the first transmission wheel 203 is in transmission connection with a second transmission wheel 205 through a belt; the second transmission wheel 205 is in rotational connection with the first rotation shaft 206; the first rotating shaft 206 is in rotating connection with a third transmission wheel 207; first shaft 206 is connected to first conveyor 2010; the third driving wheel 207 is in driving connection with the fourth driving wheel 208 through a belt; the fourth driving wheel 208 is rotationally connected with a second rotating shaft 209; the second rotating shaft 209 is connected with the first conveyor belt 2010; the second rotating shaft 209 is rotationally connected with a fifth driving wheel 2011; the fifth transmission wheel 2011 is in transmission connection with the sixth transmission wheel 2012 through a belt; the sixth transmission wheel 2012 is rotatably connected with the first gear 2013 through a rotating shaft; the first gear 2013 is meshed with the second gear 2014; the first gear 2013 is connected with the second gear 2014; the first connecting rod 2015 is connected with the first slider 2016; the first slider 2016 is slidably connected with the first chute 2017; one side of the first sieve plate 2018 is connected with a first gear 2013 and a second gear 2014 in sequence; the other side of the first screen plate 2018 is connected with a third gear 2023 and a fourth gear 2024 in sequence; two ends of the first sieve plate 2018 are respectively welded with the first chute 2017 and the second chute 2019; the second chute 2019 is in sliding connection with the second slider 2020; the second slider 2020 is connected with a second connecting rod 2021; two ends of the first fixing rod 2022 are respectively connected with the first slider 2016 and the second slider 2020; the first fixing rod 2022 is connected with the third gear 2023; the third gear 2023 meshes with the fourth gear 2024; the fourth gear 2024 is rotationally connected with a seventh transmission wheel 2025 through a rotating shaft; the seventh driving wheel 2025 is in driving connection with the eighth driving wheel 2026 through a belt; the eighth transmission wheel 2026 is rotatably connected to the first rotation shaft 206; the ninth transmission wheel 2027 is rotatably connected to the first rotation shaft 206; the ninth driving wheel 2027 is in driving connection with the tenth driving wheel 2028 through a belt; the tenth transmission wheel 2028 is rotatably connected to the fourth transmission wheel 208; the third rotating shaft 2029 is connected to the first supporting frame 201; the third rotating shaft 2029 is rotatably connected with an eleventh transmission wheel 2030; the eleventh driving wheel 2030 is in driving connection with the twelfth driving wheel 2031 through a belt; the twelfth transmission wheel 2031 is connected with the gear transmission mechanism 2032 through a rotating shaft; the gear transmission mechanism 2032 is rotationally connected with the first cutter mechanism 2034; the second fixing plate 2033 is welded to the first support frame 201; the second fixing plate 2033 is connected to the first cutter mechanism 2034; the second cutter mechanism 2035 is connected to the third fixing plate 2064; the upper end of the first clapboard 2036 is provided with a second cutter mechanism 2035; the third sliding groove 2037 is welded to the third fixing plate 2064; two ends of the first extrusion rod 2038 are slidably connected with the third chute 2037 and the fourth chute 2063 respectively; the two ends of the first extrusion rod 2038 are respectively connected with the third connecting rod 2039 and the sixth connecting rod 2062; the third chute 2037 is connected to the third connecting rod 2039; the third chute 2037 is connected to the first support rod 2044; the third connecting rod 2039 is connected to the third slider 2040; the third slider 2040 is slidably connected to the third chute 2037; the third slider 2040 is rotatably connected to the fourth connecting rod 2041; the fourth connecting rod 2041 is connected to an eleventh gear 2042; the eleventh gear 2042 meshes with the twelfth gear 2043; the eleventh gear 2042 is connected to the first support plate 2045; the twelfth gear 2043 is rotatably connected to the fourth rotating shaft 2046; two ends of the fourth rotating shaft 2046 are connected to the first supporting plate 2045 and the second supporting frame 2047 respectively; two ends of the second servo motor 2048 are rotatably connected to the fourth rotating shaft 2046 and the fifth rotating shaft 2050, respectively; two ends of the fifth rotating shaft 2050 are connected with the third support frame 2049 and the second support plate 2051 respectively; the fifth rotating shaft 2050 is rotatably connected to a thirteenth gear 2052; the fifth rotating shaft 2050 is rotatably connected to the first steering shaft 2054; the first steering shaft 2054 is rotatably connected to the sixth rotating shaft 2055; the sixth rotating shaft 2055 is connected to a fourth support frame 2056 and a third support plate 2057 in sequence; the sixth rotating shaft 2055 is rotatably connected to the first bevel gear 2058; first bevel gear 2058 meshes with second bevel gear 2059; the second bevel gear 2059 is rotatably connected with the third rotating shaft 2029; thirteenth gear 2052 meshes with fourteenth gear 2053; the fourteenth gear 2053 is connected to the second support plate 2051; the fourteenth gear 2053 is connected to the fifth connecting rod 2060; the fifth connecting rod 2060 is connected to the fourth slider 2061 via a connecting rod; the fourth slide block 2061 is slidably connected to the fourth chute 2063; the fourth slider 2061 is connected to the sixth link 2062; the first collection box 2065 is connected to the second fixing plate 2033; the first collection box 2065 is in contact with the first cutter mechanism 2034; the first support frame 201 is welded with the underframe 1; the first servo motor 202 is connected with the chassis 1; the first transmission shaft 204 is connected with the underframe 1; the first transmission shaft 204 is connected with the screening mechanism 4; the first conveyor belt 2010 is welded to the chassis 1; the first screen panel 2018 is connected to the base frame 1.

The second servo motor 2048 drives the fourth rotating shaft 2046 connected with the second support plate 2047 and the fifth rotating shaft 2050 connected with the third support plate 2049 to rotate, the fourth rotating shaft 2046 drives the twelfth gear 2043 connected with the first support plate 2045 to engage with the eleventh gear 2042, the eleventh gear 2042 drives the fourth connecting rod 2041 to rotate, then the fourth connecting rod 2041 drives the third slider 2040 to do reciprocating linear motion, the third slider 2040 drives the third connecting rod 2039 to further drive the first extrusion rod 2038 to do reciprocating linear motion on the third chute 2037 supported by the first support rod 2044, the fifth rotating shaft 2050 drives the thirteenth gear 2052 connected with the second support plate 2051 to engage with the fourteenth gear 2053, and the fourteenth gear 2053 drives the fifth connecting rod 2060 to rotate, the fifth connecting rod 2060 drives the fourth sliding block 2061 to perform reciprocating linear motion, and the fourth sliding block 2061 drives the sixth connecting rod 2062 to further drive the first extrusion rod 2038 to perform reciprocating linear motion on the fourth chute 2063; the thrust action of the first pressing rod 2038 on mango realizes the primary separation of mango pulp and stone by the second cutter mechanism 2035 fixed on the third fixing plate 2064, and the primarily separated mango pulp is collected in the first collection box 2065; the fifth rotating shaft 2050 drives the first steering shaft 2054 to drive a sixth rotating shaft 2055 supported by a fourth supporting frame 2056 and a third supporting plate 2057 to rotate, the sixth rotating shaft 2055 drives a first bevel gear 2058 to be meshed with a second bevel gear 2059, the second bevel gear 2059 drives a third rotating shaft 2029 connected with the first supporting frame 201 to rotate, the third rotating shaft 2029 drives an eleventh driving wheel 2030 to rotate, the eleventh driving wheel 2030 drives a twelfth driving wheel 2031 and a transmission gear transmission mechanism 2032, the transmission gear 2032 drives a first cutter mechanism 2034 to rotate, and under the thrust action of the first extrusion rod 2038 and the rotation of the first cutter mechanism 2034, the separation of mango pulp 2034 from fruit pits is realized; the separated kernels drop on the first sieve plate 2018 along the through hole in the cutter of the first cutter mechanism 2034; the first servo motor 202 drives the first driving wheel 203 and the first driving shaft 204 to rotate, the first driving wheel 203 drives the second driving wheel 205 to drive the first rotating shaft 206, the first rotating shaft 206 drives the third driving wheel 207 and the fifth driving wheel 2011 to rotate, the fifth driving wheel 2011 drives the sixth driving wheel 2012 to drive the first gear 2013, the first gear 2013 drives the second gear 2014 to drive the first connecting rod 2015, the first connecting rod 2015 drives the first slider 2016 to make a reciprocating linear motion in the first chute 2017, the first rotating shaft 206 drives the ninth driving wheel 2027 and the eighth driving wheel 2026 to rotate, the eighth driving wheel 2026 drives the seventh driving wheel 2025 to drive the fourth gear 2024, the fourth gear 2024 drives the third gear 2023 to drive the second connecting rod 2021, the second connecting rod 2021 drives the second slider 2020 to make a reciprocating linear motion in the second chute 2019, the first slider 2016 and the second slider 2020 are connected by the first fixing rod 2022, the conveying of the stones falling on the first screen panel 2018 to the first conveyor 2010 is effected; the third driving wheel 207 drives the fourth driving wheel 208 to drive the second rotating shaft 209, and the first conveyor belt 2010 is driven by the first rotating shaft 206 and the second rotating shaft 209 to move, so that the kernels are conveyed to the cleaning mechanism 3.

The gear transmission 2032 further comprises a fifth gear 203201, a sixth gear 203202, a seventh gear 203203, an eighth gear 203204, a ninth gear 203205 and a tenth gear 203206; the fifth gear 203201 meshes with the sixth gear 203202; the sixth gear 203202 meshes with the seventh gear 203203; the seventh gear 203203 is meshed with the eighth gear 203204; the eighth gear 203204 meshes with the ninth gear 203205; the ninth gear 203205 meshes with the tenth gear 203206.

The twelfth driving wheel 2031 drives the fifth gear 203201 to rotate, the fifth gear 203201 drives the sixth gear 203202 to rotate, the sixth gear 203202 drives the seventh gear 203203 to rotate, the seventh gear 203203 drives the eighth gear 203204 to rotate, the eighth gear 203204 drives the ninth gear 203205 to rotate, the ninth gear 203205 drives the tenth gear 203206 to rotate, and the gear transmission mechanism 2032 is realized to drive the first cutter mechanism 2034 to rotate to separate the mango pulp from the fruit stones.

The cleaning mechanism 3 further includes a fourth support plate 301, a second conveyor belt 302, a thirteenth drive wheel 303, a seventh rotating shaft 304, a fourteenth drive wheel 305, a fifteenth drive wheel 306, a sixteenth drive wheel 307, an eighth rotating shaft 308, a cleaning box 309, a ninth rotating shaft 3010, a fifteenth gear 3011, a tenth rotating shaft 3012, a sixteenth gear 3013, an eleventh rotating shaft 3014, a seventeenth gear 3015, a twelfth rotating shaft 3016, an eighteenth gear 3017, a second sieve 3018, a first scrub roller 3019, a second scrub roller 3020, a third scrub roller 3021, a fourth scrub roller 3022, a fifth support frame 3023, a first electric push rod 3024, a fifth chute 3025, and a second partition 3026; the fourth support plate 301 is connected to the second conveyor belt 302; the second conveyor belt 302 is connected with the outer surface of the seventh rotating shaft 304; the second conveyor belt 302 is connected with the outer surface of the eighth rotating shaft 308; the thirteenth driving wheel 303 is rotatably connected with the seventh rotating shaft 304; the thirteenth driving wheel 303 is in driving connection with the fourteenth driving wheel 305 through a belt; the fourteenth driving wheel 305 is rotatably connected with the eighth rotating shaft 308; the fifteenth transmission wheel 306 is rotatably connected with the eighth rotating shaft 308; the fifteenth driving wheel 306 is in driving connection with a sixteenth driving wheel 307 through a belt; a second sieve plate 3018 and a second clapboard 3026 are arranged in the cleaning box 309; the ninth rotating shaft 3010 is rotatably connected to the fifteenth gear 3011; the ninth rotating shaft 3010 is rotatably connected to the fourth scrub roller 3022; the fifteenth gear 3011 meshes with the sixteenth gear 3013; the tenth rotating shaft 3012 is rotatably connected to the sixteenth gear 3013; the tenth rotating shaft 3012 is rotatably connected to the third scrub roller 3021; the sixteenth gear 3013 is engaged with the seventeenth gear 3015; the eleventh rotating shaft 3014 is rotatably connected to the seventeenth gear 3015; the eleventh rotating shaft 3014 is rotatably connected to the second scrub roller 3020; the seventeenth gear 3015 is engaged with the eighteenth gear 3017; the twelfth rotating shaft 3016 is rotatably connected to the eighteenth gear 3017; the twelfth rotating shaft 3016 is rotatably connected to the first scrub roller 3019; the second partition 3026 is sequentially connected to the ninth rotation shaft 3010, the tenth rotation shaft 3012, the eleventh rotation shaft 3014, and the twelfth rotation shaft 3016; the second sieve plate 3018 is connected to the first electric push rod 3024; the fifth support 3023 is connected to the first electric push rod 3024; the fifth chute 3025 is slidably connected to the second screen deck 3018; the fourth supporting plate 301 is connected with the chassis 1; the sixteenth driving wheel 307 is connected with the screening mechanism 4; the cleaning tank 309 is connected with the underframe 1; the tenth rotation shaft 3012 is connected to the screening mechanism 4.

The screening mechanism 4 drives a tenth rotating shaft 3012 to rotate, the tenth rotating shaft 3012 drives a sixteenth gear 3013 and a third scrub roller 3021 to rotate, the sixteenth gear 3013 is engaged with a fifteenth gear 3011 and a seventeenth gear 3015, the seventeenth gear 3015 drives an eighteenth gear 3017 to rotate, the seventeenth gear 3015 drives an eleventh rotating shaft 3014 to drive a second scrub roller 3020, the eighteenth gear 3017 drives a twelfth rotating shaft 3016 to drive a first scrub roller 3019, the fifteenth gear 3011 drives a ninth rotating shaft 3010 to drive a fourth scrub roller 3022, and the four scrub rollers jointly act inside the cleaning box 309 to clean the residual pulp on the surface of the fruit core; the first electric push rod 3024 works to drive the second sieve plate 3018 to reciprocate linearly, and when the second sieve plate 3018 is separated from the cleaning box 309, the cleaned kernels are poured on the surface of the second conveyor belt 302, so that the cleaned kernels are conveyed; the screening mechanism 4 drives the sixteenth driving wheel 307, the sixteenth driving wheel 307 drives the fifteenth driving wheel 306 to drive the eighth rotating shaft 308, the eighth rotating shaft 308 drives the fourteenth driving wheel 305 to drive the thirteenth driving wheel 303 to rotate so as to drive the seventh rotating shaft 304, and the second conveying belt 302 conveys the washed mango kernels to the screening mechanism 4.

The screening mechanism 4 further includes a fifth support plate 401, a third conveyor belt 402, a seventeenth transmission wheel 403, a thirteenth rotation shaft 404, an eighteenth transmission wheel 405, a fourteenth rotation shaft 406, a nineteenth transmission wheel 407, a twentieth transmission wheel 408, a nineteenth gear 409, a first spiral hob 4010, a second spiral hob 4011, a twenty-first transmission wheel 4012, a twentieth gear 4013, a twenty-second transmission wheel 4014, a twenty-third transmission wheel 4015, a twenty-fourth transmission wheel 4016, a twenty-first gear 4017, a twenty-second gear 4018, a twenty-third gear 4019, a twenty-fourth gear 4020, a twenty-fifth gear 4021, a twenty-sixth gear 4022, a twenty-fifth transmission wheel 4023, a twenty-sixth transmission wheel 4024, a fifteenth rotation shaft 4025, a third bevel gear 4026, a fourth bevel gear 4027, a sixteenth rotation shaft 4028, a linear push-pull mechanism 4029, a fifth bevel gear 4030, a sixth bevel gear 4031, a seventeenth rotation shaft 4032, A seventh bevel gear 4033, an eighth bevel gear 4034, a ninth bevel gear 4035, a tenth bevel gear 4036, an eighteenth rotating shaft 4037, an eleventh bevel gear 4038, a twelfth bevel gear 4039, a nineteenth rotating shaft 4040, a thirteenth bevel gear 4041, a fourteenth bevel gear 4042, a twentieth rotating shaft 4043, a third sieve plate 4044, a second collection box 4045, a splitter plate 4046, a fifteenth bevel gear 4047, a sixteenth bevel gear 4048, a second transmission shaft 4049, a seventeenth bevel gear 4050, an eighteenth bevel gear 4051, a twenty-seventh transmission gear 4052, a twenty-eighth transmission gear 4053, a first extrusion roller 4054, a second extrusion roller 4055, a fourth fixing plate 4056, a fifth fixing plate 4057 and a third transmission shaft 4058; the fifth support plate 401 is connected to the third conveyor belt 402; the fifth supporting plate 401 is connected to the fourth fixing plate 4056; the seventeenth driving wheel 403 is rotatably connected with the thirteenth rotating shaft 404; the seventeenth driving wheel 403 is in driving connection with the eighteenth driving wheel 405 through a belt; the thirteenth rotating shaft 404 is connected to the third belt 402; the eighteenth driving wheel 405 is rotatably connected with the fourteenth rotating shaft 406; the fourteenth rotating shaft 406 is connected to the third belt 402; the fourteenth rotating shaft 406 is rotatably connected with a nineteenth driving wheel 407; the nineteenth driving wheel 407 is in driving connection with the twentieth driving wheel 408 through a belt; the twentieth driving wheel 408 is rotationally connected with the first spiral hob 4010; the nineteenth gear 409 is in rotational connection with the first spiral hob 4010; the nineteenth gear 409 is meshed with the twentieth gear 4013; the second spiral hob 4011 is in rotary connection with a twenty-first driving wheel 4012; the second spiral hob 4011 is in rotational connection with a twentieth gear 4013; the second spiral hob 4011 is rotationally connected with a twenty-third driving wheel 4015; the twenty-first driving wheel 4012 is in transmission connection with the twenty-second driving wheel 4014 through a belt; the twenty-second driving wheel 4014 is in rotational connection with the first transmission shaft 204; the twenty-third driving wheel 4015 is in transmission connection with the twenty-fourth driving wheel 4016 through a belt; a twenty-fourth drive wheel 4016 is in rotational connection with the first pressure roller 4054; the twenty-first gear 4017 is rotationally connected with the first pressing roller 4054; the twenty-first gear 4017 is meshed with the twenty-second gear 4018; the twenty-second gear 4018 is rotationally connected to the second pressing roller 4055; the twenty-third gear 4019 is rotatably connected with the second spiral hob 4011; the twenty-third gear 4019 meshes with a twenty-fourth gear 4020; the twenty-fourth gear 4020 is rotationally connected with the first spiral hob 4010; the twenty-fifth gear 4021 is meshed with the twenty-sixth gear 4022; the twenty-fifth gear 4021 is rotationally connected with the first extrusion roller 4054; the twenty-sixth gear 4022 is rotationally connected with the second extrusion roller 4055; the twenty-fifth transmission wheel 4023 is rotationally connected with the second extrusion roller 4055; the twenty-fifth driving wheel 4023 is in transmission connection with the twenty-sixth driving wheel 4024 through a belt; the twenty-sixth transmission wheel 4024 is rotationally connected with the fifteenth rotating shaft 4025; the fifteenth rotating shaft 4025 is connected with a third bevel gear 4026, a fifth bevel gear 4030 and a seventh bevel gear 4033 in sequence; the third bevel gear 4026 is meshed with the fourth bevel gear 4027; the fourth bevel gear 4027 is rotationally connected with a sixteenth rotating shaft 4028; the sixteenth rotating shaft 4028 is connected with the linear push-pull mechanism 4029; the linear push-pull mechanism 4029 is connected with the third sieve plate 4044; the fifth bevel gear 4030 meshes with the sixth bevel gear 4031; the sixth bevel gear 4031 is rotatably connected with the seventeenth rotating shaft 4032; the seventeenth rotating shaft 4032 is connected with the linear push-pull mechanism 4029; the seventh bevel gear 4033 meshes with the eighth bevel gear 4034; the eighth bevel gear 4034 is rotatably connected to the third transmission shaft 4058; the ninth bevel gear 4035 is rotatably connected to a third drive shaft 4058; the ninth bevel gear 4035 meshes with the tenth bevel gear 4036; the eighteenth rotating shaft 4037 is in rotary connection with a tenth bevel gear 4036, an eleventh bevel gear 4038 and a thirteenth bevel gear 4041 in sequence; an eleventh bevel gear 4038 meshes with a twelfth bevel gear 4039; the twelfth bevel gear 4039 is rotatably connected to the nineteenth rotating shaft 4040; the nineteenth rotating shaft 4040 is connected with the linear push-pull mechanism 4029; thirteenth bevel gear 4041 meshes with fourteenth bevel gear 4042; the fourteenth bevel gear 4042 is rotatably connected to the twentieth rotating shaft 4043; the twentieth rotating shaft 4043 is connected with the linear push-pull mechanism 4029; the left end and the right end inside the second collection box 4045 are respectively provided with a third sieve plate 4044; two sides of the third sieve plate 4044 are respectively connected with the linear push-pull mechanism 4029; a sixteenth bevel gear 4048 is rotatably connected to the second pressing roller 4055; fifteenth bevel gear 4047 is in meshing engagement with sixteenth bevel gear 4048; a sixteenth bevel gear 4048 is rotatably connected to a second drive shaft 4049; the second transmission shaft 4049 is rotatably connected with a seventeenth bevel gear 4050; the second transmission shaft 4049 is rotatably connected with the sixteenth transmission wheel 307; the seventeenth bevel gear 4050 is meshed with the eighteenth bevel gear 4051; the eighteenth bevel gear 4051 is rotatably connected with a twenty-seventh transmission wheel 4052 through a rotating shaft; the twenty-seventh transmission wheel 4052 is in transmission connection with the twenty-eighth transmission wheel 4053 through a belt; the fifth fixing plate 4057 is sequentially connected with the first spiral hob 4010, the second spiral hob 4011, the first extrusion roller 4054 and the second extrusion roller 4055; the fifth supporting plate 401 is connected with the bottom chassis 1; the fifteenth rotating shaft 4025 is connected with the bottom frame 1; the eighteenth rotating shaft 4037 is connected with the chassis 1; the second collecting box 4045 is connected with the underframe 1; the twenty-eighth transmission wheel 4053 is rotatably connected with the tenth rotation shaft 3012; the third transmission shaft 4058 is connected with the underframe 1; the flow distribution plate 4046 is connected with the underframe 1; the fifth fixing plate 4057 is connected to the base frame 1; a third drive shaft 4058 is connected to the undercarriage 1.

The first transmission shaft 204 drives a twenty-second transmission wheel 4014, the twenty-second transmission wheel 4014 drives a twenty-first transmission wheel 4012 to transmit a second spiral hob 4011, the second spiral hob 4011 drives a twentieth gear 4013 and a nineteenth gear 409 to rotate in a meshed mode, the two hobs connected with a fifth fixing plate 4057 are opposite in movement direction, and the cutting of the fruit cores is completed; a nineteenth gear 409 drives a twenty-third gear 4019 to be meshed with a twenty-fourth gear 4020, the nineteenth gear 409 drives a first spiral hob 4010 to transmit a twentieth transmission wheel 408, the twentieth transmission wheel 408 drives a nineteenth transmission wheel 407 to transmit a fourteenth rotating shaft 406, the fourteenth rotating shaft 406 drives an eighteenth transmission wheel 405 to transmit a seventeenth transmission wheel 403, the seventeenth transmission wheel 403 drives a thirteenth rotating shaft 404 to rotate, so that a third conveyor belt 402 fixed with a fifth support plate 401 can move, mango kernels are driven to be conveyed into a space of a fourth fixing plate 4056, and cutting between the first spiral hob 4010 and the second spiral hob 4011 is completed; the second spiral hob 4011 drives a twenty-third transmission wheel 4015 to transmit a twenty-fourth transmission wheel 4016, the twenty-fourth transmission wheel 4016 drives a first extrusion roller 4054 and a twenty-first gear 4017, the twenty-first gear 4017 is meshed with a twenty-second gear 4018 to drive a second extrusion roller 4055 to rotate, the two extrusion rollers have opposite movement directions, and mango kernels are crushed; the second extrusion roller 4055 drives a twenty-fifth transmission wheel 4023 to transmit a twenty-sixth transmission wheel 4024, the fifteenth rotating shaft 4025 drives a third bevel gear 4026 and a fifth bevel gear 4030 under the drive of the twenty-sixth transmission wheel 4024, the fifteenth rotating shaft 4025 drives a seventh bevel gear 4033 to be meshed with an eighth bevel gear 4034 to transmit a third transmission shaft 4058, the third transmission shaft 4058 drives a ninth bevel gear 4035 to be meshed with a tenth bevel gear 4036 to transmit an eighteenth rotating shaft 4037, the eighteenth rotating shaft 4037 drives an eleventh bevel gear 4038 and a thirteenth bevel gear 4041 to rotate, the third bevel gear 4026 is meshed with a fourth bevel gear 4027 to drive a sixteenth rotating shaft 4028 to rotate, and the sixteenth rotating shaft 4028 drives a linear push-pull mechanism 4029; the thirteenth bevel gear 4041 is meshed with the fourteenth bevel gear 4042 to drive the twentieth rotating shaft 4043 to rotate, the twentieth rotating shaft 4043 drives the linear push-pull mechanism 4029, and the two linear push-pull mechanisms 4029 connected with the third sieve plate 4044 on one side realize the screening and separation of the mango kernel skin and the mango kernel; the fifth bevel gear 4030 is meshed with the sixth bevel gear 4031 to drive the seventeenth rotating shaft 4032 to rotate, the seventeenth rotating shaft 4032 drives the linear push-pull mechanism 4029, the eleventh bevel gear 4038 is meshed with the twelfth bevel gear 4039 to drive the nineteenth rotating shaft 4040 to rotate, the nineteenth rotating shaft 4040 rotates to drive the linear push-pull mechanism 4029, the two linear push-pull mechanisms 4029 connected with the third sieve plate 4044 on the other side realize the screening and separation of the mango kernel skin and the kernel, the second extrusion roller 4055 drives the sixteenth bevel gear 4048 to be meshed with the fifteenth bevel gear 4047, and the fifteenth bevel gear 4047 drives the second transmission shaft 4049 to transmit the seventeenth bevel gear 4050. The seventeenth bevel gear 4050 is meshed with the eighteenth bevel gear 4051 to drive the twenty-seventh transmission wheel 4052 to transmit the twenty-eighth transmission wheel 4053; the power supply of the cleaning mechanism 3 is realized.

The linear push-pull mechanism 4029 further comprises a twenty-seventh gear 402901, a twenty-eighth gear 402902, a twenty-ninth gear 402903, a seventh connecting rod 402904, an eighth connecting rod 402905, a ninth connecting rod 402906, a tenth connecting rod 402907, an eleventh connecting rod 402908 and a twelfth connecting rod 402909; the twenty-seventh gear 402901 meshes with the twenty-eighth gear 402902; the twenty-eighth gear 402902 meshes with the twenty-ninth gear 402903; the twenty-eighth gear 402902 is connected with a seventh connecting rod 402904; the seventh connecting bar 402904 is connected with the eighth connecting bar 402905; the eighth connecting bar 402905 is connected with the ninth connecting bar 402906; the ninth connecting bar 402906 is connected with the tenth connecting bar 402907; the ninth connecting rod 402906 is connected to the third screen deck 4044; the tenth connecting bar 402907 is connected with the eleventh connecting bar 402908; the eleventh connecting bar 402908 is connected to the twelfth connecting bar 402909; the twelfth connecting link 402909 is connected to the twenty-ninth gear 402903.

The linear push-pull mechanism 4029 obtains power through the rotating shaft, the twenty-seventh gear 402901 is meshed with the twenty-eighth gear 402902 to drive the seventh connecting rod 402904 to rotate, the twenty-eighth gear 402902 is meshed with the twenty-ninth gear 402903 to drive the twelfth connecting rod 402909 to rotate, and the seventh connecting rod 402904 and the twelfth connecting rod 402909 jointly drive the tenth connecting rod 402907 connected with the eighth connecting rod 402905 and the eleventh connecting rod 402908 to do reciprocating linear motion, so that the screening and separation of the third screen plate 4044 on the kernels are realized.

The cutter body of the first cutter mechanism 2034 is a through-hole circular tube.

The cutter body of the first cutter mechanism 2034 is a through hole round tube, and the fruit stones can fall to the first sieve plate 2018 through the through holes.

When the first pressing rod 2038 is reciprocated to press mango, the pressing rod may push the mango to be cut by the first cutter mechanism 2034, and a pressing end portion of the first pressing rod 2038 is sponge.

The mango cannot be damaged when the first pressing rod 2038 presses and pushes the mango; and the pressing rod may reciprocate linearly in a space between the cutters of the first cutter mechanism 2034.

The positioning position of the flow distribution plate 4046 refers to the mounting position of the third sieve plate 4044, so that the core skin and the core can fall on the third sieve plate 4044; the second collection box 4045 is provided with a partition plate, and the installation position of the partition plate is positioned by referring to the installation position of the third sieve plate 4044; the second collection box 4045 has an opening at the position where the third screen plate 4044 is connected, which satisfies the screening and separating movement track of the third screen plate 4044.

The cut peel and kernel of the core can fall on the third sieve plate 4044 through the diversion plate 4046; the third sieve plate 4044 moves to drop the kernels from the sieve holes, and the kernels and the skins drop on two sides of the sieve plate; the third screen 4044 is moved in a linear reciprocating motion on one side.

The second screen 3018 is provided with a baffle in the vicinity of the second conveyor 302 to ensure that the kernels can fall from an outlet onto the second conveyor 302.

The cleaned stones do not slide out of the screen panels along the edges of the screen panels when the second screen panel 3018 is tipped, but rather out through the openings between the interception panels.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims

1. A processing treatment device of fruit, including chassis and controller, characterized by: the device also comprises a separating mechanism, a cleaning mechanism and a screening mechanism; the bottom frame is connected with the separating mechanism; welding the bottom frame with the cleaning mechanism; the bottom frame is connected with the screening mechanism; a controller is arranged above the underframe; the separating mechanism is connected with the cleaning mechanism; the cleaning mechanism is connected with the screening mechanism.

2. The fruit processing device according to claim 1, wherein: the separating mechanism further comprises a first support frame, a first servo motor, a first driving wheel, a first transmission shaft, a second driving wheel, a first rotating shaft, a third driving wheel, a fourth driving wheel, a second rotating shaft, a first conveying belt, a fifth driving wheel, a sixth driving wheel, a first gear, a second gear, a first connecting rod, a first sliding block, a first sliding chute, a first sieve plate, a second sliding chute, a second sliding block, a second connecting rod, a first fixing rod, a third gear, a fourth gear, a seventh driving wheel, an eighth driving wheel, a ninth driving wheel, a tenth driving wheel, a third rotating shaft, an eleventh driving wheel, a twelfth driving wheel, a gear transmission mechanism, a second fixing plate, a first cutter mechanism, a second cutter mechanism, a first partition plate, a third sliding chute, a first extrusion rod, a third connecting rod, a third sliding block, a fourth connecting rod, an eleventh gear, a twelfth gear, a first cutter mechanism, a second extrusion rod, a third extrusion rod, a fourth connecting, The device comprises a first support rod, a first support plate, a fourth rotating shaft, a second support frame, a second servo motor, a third support frame, a fifth rotating shaft, a second support plate, a thirteenth gear, a fourteenth gear, a first steering shaft, a sixth rotating shaft, a fourth support frame, a third support plate, a first bevel gear, a second bevel gear, a fifth connecting rod, a fourth sliding block, a sixth connecting rod, a fourth sliding groove, a third fixing plate and a first collecting box; the first support frame is welded with the first support rod; the upper part of the first support frame is sequentially connected with a first support plate, a second support frame, a third support frame, a second support plate, a fourth support frame and a third support plate; the first servo motor is in rotating connection with the first transmission shaft; the first driving wheel is rotationally connected with the first driving shaft; the first driving wheel is in transmission connection with the second driving wheel through a belt; the second transmission wheel is rotationally connected with the first rotating shaft; the first rotating shaft is rotationally connected with the third driving wheel; the first rotating shaft is connected with the first conveyor belt; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth transmission wheel is rotationally connected with the second rotating shaft; the second rotating shaft is connected with the first conveyor belt; the second rotating shaft is rotationally connected with a fifth driving wheel; the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth transmission wheel is rotationally connected with the first gear through a rotating shaft; the first gear is meshed with the second gear; the first gear is connected with the second gear; the first connecting rod is connected with the first sliding block; the first sliding block is in sliding connection with the first sliding chute; one side of the first sieve plate is sequentially connected with a first gear and a second gear; the other side of the first sieve plate is sequentially connected with a third gear and a fourth gear; two ends of the first sieve plate are respectively welded with the first chute and the second chute; the second sliding chute is in sliding connection with the second sliding block; the second sliding block is connected with the second connecting rod; two ends of the first fixed rod are respectively connected with the first sliding block and the second sliding block; the first fixed rod is connected with the third gear; the third gear is meshed with the fourth gear; the fourth gear is in rotary connection with a seventh transmission wheel through a rotating shaft; the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth transmission wheel is rotationally connected with the first rotating shaft; the ninth driving wheel is rotationally connected with the first rotating shaft; the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the tenth driving wheel is rotationally connected with the fourth driving wheel; the third rotating shaft is connected with the first support frame; the third rotating shaft is rotatably connected with the eleventh driving wheel; the eleventh transmission wheel is in transmission connection with the twelfth transmission wheel through a belt; the twelfth driving wheel is connected with the gear transmission mechanism through a rotating shaft; the gear transmission mechanism is rotationally connected with the first cutter mechanism; the second fixing plate is welded with the first support frame; the second fixing plate is connected with the first cutter mechanism; the second cutter mechanism is connected with the third fixing plate; a second cutter mechanism is arranged at the upper end of the first partition plate; the third sliding chute is welded with the third fixing plate; two ends of the first extrusion rod are respectively connected with the third sliding chute and the fourth sliding chute in a sliding manner; two ends of the first extrusion rod are respectively connected with the third connecting rod and the sixth connecting rod; the third chute is connected with a third connecting rod; the third sliding chute is connected with the first supporting rod; the third connecting rod is connected with the third sliding block; the third sliding block is in sliding connection with the third sliding chute; the third sliding block is rotatably connected with the fourth connecting rod; the fourth connecting rod is connected with the eleventh gear; the eleventh gear is meshed with the twelfth gear; the eleventh gear is connected with the first supporting plate; the twelfth gear is rotationally connected with the fourth rotating shaft; two ends of the fourth rotating shaft are respectively connected with the first supporting plate and the second supporting frame; two ends of the second servo motor are respectively in rotating connection with the fourth rotating shaft and the fifth rotating shaft; two ends of the fifth rotating shaft are respectively connected with the third supporting frame and the second supporting plate; the fifth rotating shaft is in rotating connection with the thirteenth gear; the fifth rotating shaft is in rotating connection with the first steering shaft; the first steering shaft is rotationally connected with the sixth rotating shaft; the sixth rotating shaft is sequentially connected with the fourth supporting frame and the third supporting plate; the sixth rotating shaft is in rotating connection with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is rotationally connected with the third rotating shaft; the thirteenth gear is meshed with the fourteenth gear; the fourteenth gear is connected with the second supporting plate; the fourteenth gear is connected with the fifth connecting rod; the fifth connecting rod is connected with the fourth sliding block through a connecting rod; the fourth sliding block is in sliding connection with the fourth sliding chute; the fourth sliding block is connected with the sixth connecting rod; the first collecting box is connected with the second fixing plate; the first collecting box is contacted with the first cutter mechanism; the first support frame is welded with the underframe; the first servo motor is connected with the bottom frame; the first transmission shaft is connected with the underframe; the first transmission shaft is connected with the screening mechanism; the first conveyor belt is welded with the underframe; the first screen deck is connected with the chassis.

3. The fruit processing device according to claim 2, wherein: the gear transmission mechanism also comprises a fifth gear, a sixth gear, a seventh gear, an eighth gear, a ninth gear and a tenth gear; the fifth gear is meshed with the sixth gear; the sixth gear is meshed with the seventh gear; the seventh gear is meshed with the eighth gear; the eighth gear is meshed with the ninth gear; the ninth gear is meshed with the tenth gear.

4. A fruit processing device according to claim 3, wherein: the cleaning mechanism also comprises a fourth supporting plate, a second conveying belt, a thirteenth driving wheel, a seventh rotating shaft, a fourteenth driving wheel, a fifteenth driving wheel, a sixteenth driving wheel, an eighth rotating shaft, a cleaning box, a ninth rotating shaft, a fifteenth gear, a tenth rotating shaft, a sixteenth gear, an eleventh rotating shaft, a seventeenth gear, a twelfth rotating shaft, an eighteenth gear, a second sieve plate, a first cleaning brush roll, a second cleaning brush roll, a third cleaning brush roll, a fourth cleaning brush roll, a fifth supporting frame, a first electric push rod, a fifth chute and a second separating plate; the fourth supporting plate is connected with the second conveying belt; the second conveyor belt is connected with the outer surface of the seventh rotating shaft; the second conveyor belt is connected with the outer surface of the eighth rotating shaft; the thirteenth driving wheel is rotationally connected with the seventh rotating shaft; the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the fourteenth driving wheel is rotationally connected with the eighth rotating shaft; the fifteenth transmission wheel is rotationally connected with the eighth rotating shaft; the fifteenth driving wheel is in transmission connection with the sixteenth driving wheel through a belt; a second sieve plate and a second partition plate are arranged in the cleaning box; the ninth rotating shaft is in rotating connection with the fifteenth gear; the ninth rotating shaft is rotationally connected with the fourth washing roller; the fifteenth gear is meshed with the sixteenth gear; the tenth rotating shaft is in rotating connection with the sixteenth gear; the tenth rotating shaft is rotationally connected with the third washing roller; the sixteenth gear is meshed with the seventeenth gear; the eleventh rotating shaft is in rotating connection with the seventeenth gear; the eleventh rotating shaft is rotatably connected with the second washing roller; the seventeenth gear is meshed with the eighteenth gear; the twelfth rotating shaft is rotationally connected with the eighteenth gear; the twelfth rotating shaft is rotatably connected with the first washing roller; the second partition plate is sequentially connected with the ninth rotating shaft, the tenth rotating shaft, the eleventh rotating shaft and the twelfth rotating shaft; the second sieve plate is connected with the first electric push rod; the fifth supporting frame is connected with the first electric push rod; the fifth chute is in sliding connection with the second sieve plate; the fourth supporting plate is connected with the bottom frame; the sixteenth driving wheel is connected with the screening mechanism; the cleaning box is connected with the underframe; the tenth rotating shaft is connected with the screening mechanism.

5. The fruit processing device according to claim 4, wherein: the screening mechanism also comprises a fifth supporting plate, a third conveying belt, a seventeenth driving wheel, a thirteenth rotating shaft, an eighteenth driving wheel, a fourteenth rotating shaft, a nineteenth driving wheel, a twentieth driving wheel, a nineteenth gear, a first spiral hob, a second spiral hob, a twenty-first driving wheel, a twentieth gear, a twenty-second driving wheel, a twenty-third driving wheel, a twenty-fourth driving wheel, a twenty-first gear, a twenty-twelfth gear, a twenty-third gear, a twenty-fourth gear, a twenty-fifth gear, a twenty-sixth gear, a twenty-fifth driving wheel, a twenty-sixth driving wheel, a fifteenth rotating shaft, a third bevel gear, a fourth bevel gear, a sixteenth rotating shaft, a linear push-pull mechanism, a fifth bevel gear, a sixth bevel gear, a seventeenth rotating shaft, a seventh bevel gear, an eighth bevel gear, a ninth bevel gear, a tenth bevel gear, an eighteenth rotating shaft, an eleventh bevel, A twelfth bevel gear, a nineteenth rotating shaft, a thirteenth bevel gear, a fourteenth bevel gear, a twentieth rotating shaft, a third sieve plate, a second collecting box, a splitter plate, a fifteenth bevel gear, a sixteenth bevel gear, a second transmission shaft, a seventeenth bevel gear, an eighteenth bevel gear, a twenty-seventh transmission wheel, a twenty-eighth transmission wheel, a first extrusion roller, a second extrusion roller, a fourth fixing plate, a fifth fixing plate and a third transmission shaft; the fifth supporting plate is connected with the third conveying belt; the fifth supporting plate is connected with the fourth fixing plate; the seventeenth driving wheel is rotationally connected with the thirteenth rotating shaft; the seventeenth driving wheel is in transmission connection with the eighteenth driving wheel through a belt; the thirteenth rotating shaft is connected with the third conveying belt; the eighteenth transmission wheel is rotatably connected with the fourteenth rotating shaft; the fourteenth rotating shaft is connected with the third conveying belt; the fourteenth rotating shaft is rotationally connected with the nineteenth driving wheel; the nineteenth driving wheel is in transmission connection with the twentieth driving wheel through a belt; the twentieth transmission wheel is rotationally connected with the first spiral hob; the nineteenth gear is rotationally connected with the first spiral hob; the nineteenth gear is meshed with the twentieth gear; the second spiral hob is in rotary connection with the twenty-first transmission wheel; the second spiral hob is in rotary connection with the twentieth gear; the second spiral hob is in rotary connection with a twenty-third transmission wheel; the twenty-first driving wheel is in transmission connection with the twenty-second driving wheel through a belt; the twenty-second driving wheel is rotationally connected with the first driving shaft; the twenty-third driving wheel is in transmission connection with the twenty-fourth driving wheel through a belt; the twenty-fourth driving wheel is rotationally connected with the first extrusion roller; the twenty-first gear is in rotary connection with the first extrusion roller; the twenty-first gear is meshed with the twenty-second gear; the second twelve gears are rotatably connected with the second extrusion roller; the twenty-third gear is rotationally connected with the second spiral hob; the twenty-third gear is meshed with the twenty-fourth gear; the twenty-fourth gear is rotationally connected with the first spiral hob; the twenty-fifth gear is meshed with the twenty-sixth gear; the twenty-fifth gear is rotationally connected with the first extrusion roller; the twenty-sixth gear is rotationally connected with the second extrusion roller; the twenty-fifth driving wheel is rotationally connected with the second extrusion roller; the twenty-fifth driving wheel is in transmission connection with the twenty-sixth driving wheel through a belt; the twenty-sixth transmission wheel is rotationally connected with the fifteenth rotating shaft; the fifteenth rotating shaft is sequentially connected with the third bevel gear, the fifth bevel gear and the seventh bevel gear; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is in rotary connection with the sixteenth rotating shaft; the sixteenth rotating shaft is connected with the linear push-pull mechanism; the linear push-pull mechanism is connected with the third sieve plate; the fifth bevel gear is meshed with the sixth bevel gear; the sixth bevel gear is rotationally connected with the seventeenth rotating shaft; the seventeenth rotating shaft is connected with the linear push-pull mechanism; the seventh bevel gear is meshed with the eighth bevel gear; the eighth bevel gear is in rotary connection with the third transmission shaft; the ninth bevel gear is in rotary connection with the third transmission shaft; the ninth bevel gear is meshed with the tenth bevel gear; the eighteenth rotating shaft is sequentially in rotating connection with a tenth bevel gear, an eleventh bevel gear and a thirteenth bevel gear; the eleventh bevel gear is meshed with the twelfth bevel gear; the twelfth bevel gear is rotationally connected with the nineteenth rotating shaft; the nineteenth rotating shaft is connected with the linear push-pull mechanism; the thirteenth bevel gear is meshed with the fourteenth bevel gear; the fourteenth bevel gear is in rotary connection with the twentieth rotating shaft; the twentieth rotating shaft is connected with the linear push-pull mechanism; the left end and the right end in the second collection box are respectively provided with a third sieve plate; two sides of the third sieve plate are respectively connected with the linear push-pull mechanism; the sixteenth bevel gear is in rotating connection with the second extrusion roller; the fifteenth bevel gear is meshed with the sixteenth bevel gear; the sixteenth bevel gear is in rotary connection with the second transmission shaft; the second transmission shaft is in rotary connection with the seventeenth bevel gear; the second transmission shaft is rotationally connected with the sixteenth transmission wheel; the seventeenth bevel gear is meshed with the eighteenth bevel gear; the eighteenth bevel gear is in rotary connection with the twenty-seventh driving wheel through a rotating shaft; the twenty-seventh driving wheel is in transmission connection with the twenty-eighth driving wheel through a belt; the fifth fixing plate is sequentially connected with the first spiral hob, the second spiral hob, the first extrusion roll and the second extrusion roll; the fifth supporting plate is connected with the bottom frame; the fifteenth rotating shaft is connected with the bottom frame; the eighteenth rotating shaft is connected with the bottom frame; the second collecting box is connected with the bottom frame; the twenty-eighth transmission wheel is rotationally connected with the tenth rotating shaft; the third transmission shaft is connected with the underframe; the splitter plate is connected with the underframe; the fifth fixing plate is connected with the underframe; the third transmission shaft is connected with the underframe.

6. The fruit processing device according to claim 5, wherein: the linear push-pull mechanism also comprises a twenty-seventh gear, a twenty-eighteenth gear, a twenty-ninth gear, a seventh connecting rod, an eighth connecting rod, a ninth connecting rod, a tenth connecting rod, an eleventh connecting rod and a twelfth connecting rod; the twenty-seventh gear is meshed with the twenty-eighteen gear; the twenty-eighth gear is meshed with the twenty-ninth gear; the twenty-eighth gear is connected with the seventh connecting rod; the seventh connecting rod is connected with the eighth connecting rod; the eighth connecting rod is connected with the ninth connecting rod; the ninth connecting rod is connected with the tenth connecting rod; the ninth connecting rod is connected with the third sieve plate; the tenth connecting rod is connected with the eleventh connecting rod; the eleventh connecting rod is connected with the twelfth connecting rod; the twelfth connecting rod is connected with the twenty-ninth gear.

7. The fruit processing device according to claim 6, wherein: the cutter body of the first cutter mechanism is a through-hole circular tube.

8. The fruit processing device of claim 7, wherein: when the first extrusion rod extrudes mango in a reciprocating motion, the extrusion rod can push the mango to finish cutting at the first cutter mechanism, and one extrusion end part of the first extrusion rod is a sponge.

9. The fruit processing device of claim 8, wherein: the positioning position of the splitter plate refers to the mounting position of the third sieve plate, so that the nuclear skin and the nuclear kernel can fall on the third sieve plate; the second collecting box is provided with a partition plate, and the installation position of the partition plate is positioned by referring to the installation position of the third sieve plate; the second collecting box is provided with an opening at the position where the third sieve plate is connected, so that the screening and separating movement track of the third sieve plate is met.

10. The fruit processing device of claim 9, wherein: the second sieve plate is provided with a interception plate at a position close to the second conveyor belt, so that the kernels can fall on the second conveyor belt from an outlet.