阅读说明：本技术 一种芒果去核装置 (Mango stone removing device ) 是由 李丽 易萍 唐杰 孙健 盛金凤 刘国明 叶冬青 李昌宝 何雪梅 郑凤锦 辛明 于 2021-08-09 设计创作，主要内容包括：本发明属于水果加工技术领域,具体涉及一种芒果去核装置,该装置包括去核机和多个传送机构,去核机包括机体、去皮机构、多个去核机构和收料机构,机体的上端开设有第一进料口,在第一进料口底部设有多个进料通道,多个进料通道下方设有去皮机构,且去皮机构的上表面开设有多个与进料通道一一对应的第二进料口,两个相邻的第二进料口之间在去皮机构的下表面均设有一个出料口,多个去核机构竖向设在去皮机构的下方,收料机构通过导管与多个去核机构相连接,多个传送机构设在去核机构的下方,且多个传送机构与去核机构一一对应。本发明具有去皮和去核效率高,降低果皮在果肉中的混合率且去核的过程中能够高效剔除果肉等技术特点。(The invention belongs to the technical field of fruit processing, and particularly relates to a mango stone removing device which comprises a stone removing machine and a plurality of conveying mechanisms, wherein the stone removing machine comprises a machine body, a peeling mechanism, a plurality of stone removing mechanisms and a material receiving mechanism, a first feeding hole is formed in the upper end of the machine body, a plurality of feeding channels are formed in the bottom of the first feeding hole, the peeling mechanism is arranged below the plurality of feeding channels, a plurality of second feeding holes which correspond to the feeding channels in a one-to-one mode are formed in the upper surface of the peeling mechanism, a discharging hole is formed in the lower surface of the peeling mechanism between every two adjacent second feeding holes, the plurality of stone removing mechanisms are vertically arranged below the peeling mechanism, the material receiving mechanism is connected with the plurality of stone removing mechanisms through guide pipes, the plurality of conveying mechanisms are arranged below the stone removing mechanisms, and the plurality of conveying mechanisms correspond to the stone removing mechanisms in a one-to-one mode. The invention has the technical characteristics of high peeling and denucleation efficiency, reduction of the mixing rate of the peel in the pulp, high-efficiency removal of the pulp in the denucleation process and the like.)

1. A mango stone removing device is characterized by comprising a stone removing machine (1) and a plurality of conveying mechanisms (8), wherein the stone removing machine (1) comprises a machine body (2), a peeling mechanism (3), a plurality of stone removing machines (1) and a material receiving mechanism (5),

the peeling machine is characterized in that a first feeding hole (21) is formed in the upper end of the machine body (2), a plurality of feeding channels (22) are arranged at the bottom of the first feeding hole (21), telescopic assemblies (23) are arranged on the machine body (2) on two sides of each feeding channel (22), a driving assembly (24) is arranged on each of the front side surface and the rear side surface of the machine body (2), the driving assemblies (24) are abutted against the telescopic assemblies (23) to drive the telescopic assemblies (23) to move up and down, the peeling mechanisms (3) are arranged below the plurality of feeding channels (22), a plurality of second feeding holes (31) corresponding to the feeding channels (22) one by one are formed in the upper surface of each peeling mechanism (3), a discharging hole (32) is formed in the lower surface of each peeling mechanism (3) between every two adjacent second feeding holes (31),

a plurality of stoner (1) constructs vertical the establishing the below of peeling mechanism (3), and a plurality of stoner (1) construct with discharge gate (32) one-to-one, receiving agencies (5) are through pipe (6) and a plurality of stoner (1) constructs and is connected, a plurality of transport mechanism (8) are established the below that stoner (1) constructed, and a plurality of transport mechanism (8) with stoner (1) constructs the one-to-one.

2. The mango stone removal device as claimed in claim 1, wherein the retractable assembly (23) comprises a retractable plate (231), a plurality of springs (232) and two connecting rods (233), a slot is formed in the machine body (2), the retractable plate (231) is inserted into the slot, the springs (232) are uniformly installed between the retractable plate (231) and the bottom of the slot, one connecting rod (233) is respectively arranged on the front and rear sides of the retractable plate (231), and the connecting rod (233) penetrates out of the machine body (2) and is connected with the machine body (2) in a vertically sliding manner.

3. A mango stone removing device as claimed in claim 2, wherein the driving assembly (24) comprises a gear motor (241), a rotating shaft (242) and a plurality of cams (243), the output shaft of the gear motor (241) is fixedly connected with the rotating shaft (242), the rotating shaft (242) is provided with a plurality of cams (243) at intervals, each cam (243) is in one-to-one correspondence with the connecting rod (233) and abuts against the bottom of the connecting rod (233), and when the rotating shaft (242) rotates, the cams (243) drive the connecting rod (233) to slide up and down.

4. A mango stone removal device as claimed in claim 1, wherein the peeling mechanism (3) comprises a barrel (33), a base plate (34), a peeling assembly (35) and a push-pull assembly (36), the cylinder (33) is fixedly arranged on the base plate (34) and transversely and fixedly arranged in the machine body (2) through the base plate (34), the upper surface of the cylinder (33) is provided with a plurality of second feed inlets (31) which are in one-to-one correspondence with the feed channels (22), a discharge hole (32) is arranged on the lower surface of the cylinder (33) between two adjacent second feed inlets (31), the peeling component (35) is sleeved on the cylinder body (33) and is connected with the cylinder body (33) in a sliding way, the push-pull assembly (36) is arranged at one end of the interior of the cylinder (33) close to the base plate (34).

5. The mango stone removal device according to claim 4, wherein the peeling assembly (35) comprises two first telescopic rods (351) and a plurality of sleeves (352), the inner ring of the sleeve (352) is uniformly provided with a plurality of blades (353), the barrel (33) is provided with a sliding groove (354) matched with the blades (353), the sleeve (352) is sleeved on the barrel (33) and is in sliding connection with the barrel (33) through the matching of the blades (353) and the sliding groove (354), a peeling knife (355) is arranged between two adjacent blades (353) and is arranged on the inner ring of the barrel (33), the peeling knife (355) points to the direction of the base plate (34) and is curved, the two first telescopic rods (351) are arranged on the base plate (34) and are respectively positioned at two sides of the barrel (33), the sleeves (352) are fixedly connected with the first telescopic rod (351).

6. The mango stone removing device according to claim 4, wherein the push-pull assembly (36) comprises a second telescopic rod (361), a plurality of push blocks (362) and a plurality of connecting rods (363), the second telescopic rod (361) is installed at one end of the barrel (33) close to the base plate (34), each push block (362) is arranged at the front end of each second feeding hole (31), one push block (362) close to the second telescopic rod (361) is fixedly connected with the second telescopic rod (361), and two sides between two adjacent push blocks (362) are fixedly connected through one connecting rod (363).

7. The mango stone removal device as claimed in claim 1, wherein the stone removal machine (1) comprises a hollow cylindrical cavity (41), a plurality of stone removal assemblies (42) and a driving motor (43), the stone removal assemblies (42) are rotatably connected to the upper end and the lower end of the cavity (41), the stone removal assemblies (42) are distributed in a circular array to form a stone removal channel, a suction groove (411) is formed in the inner ring side wall of the cavity (41) between every two adjacent stone removal assemblies (42), and the stone removal assemblies (42) are fixedly connected with the output shaft of the driving motor (43).

8. The mango stone removal device as claimed in claim 7, wherein the stone removal assembly (42) comprises a rotating shaft (421) and a stone removal knife (422) spirally arranged on the rotating shaft (421), the diameter of the stone removal knife (422) is wavy along the axial direction of the rotating shaft (421), and the lower end of the rotating shaft (421) is fixedly connected with the output shaft of the driving motor (43).

9. A mango stone removal device as claimed in claim 7, characterized in that the collecting device (5) comprises a collecting box (51) and a suction pump (52), the suction pump (52) being mounted on the collecting box (51) and connected to the cavities (41) of the plurality of stone removal devices (1) via a duct (6).

10. A mango stone removal device as claimed in claim 1, wherein a buffer (7) with a diameter gradually decreasing from top to bottom is installed between the feed channel (22) and the second feed opening (31).

Technical Field

The invention belongs to the technical field of fruit processing, and particularly relates to a mango stone removing device.

Background

Mango is a famous tropical fruit, rich in nutrition, sweet in taste and popular with consumers, so that mango is widely used for making mango products such as pulp salad, mango juice and the like.

In the process of making various mango products, a procedure of peeling and stoning and then taking the flesh is indispensable. At present, two methods are adopted for removing the mango kernels, one method is manual removal of the kernels, which is mostly seen in workshops, and the method wastes time and labor, has extremely low production efficiency and is not beneficial to industrial development; and the other type adopts a simple mechanical device, so that the production efficiency is higher and the requirement of industrial development is met. However, the existing mechanical device for removing the mango core has an unsatisfactory peeling effect before removing the core, and the pulp is separated along with the peel, so that the quality of the product is influenced in the subsequent preparation of the mango product; on the other hand, in the operation of removing the cores, the bones and the meat are not completely removed, so that a large amount of waste is caused, the industrial production efficiency is low, and the sustainable development of enterprises is not facilitated. Therefore, in view of the above drawbacks, it is necessary to provide a better technical solution.

Disclosure of Invention

The invention aims to solve the technical problems and provides a mango stone removing device which mainly solves the technical problems that mango peeling and stone removing efficiency is low, bone and meat are not completely removed in stone removing operation, a large amount of waste is caused, and industrial production efficiency is low.

In order to achieve the purpose, the technical scheme of the invention is as follows: the utility model provides a mango device that denucleates, includes stoner and a plurality of transport mechanism, the stoner includes organism, peeling mechanism, a plurality of mechanism and the receiving agencies of denucleating.

The peeling machine is characterized in that a first feeding hole is formed in the upper end of the machine body, a plurality of feeding channels are arranged at the bottom of the first feeding hole, telescopic assemblies are arranged on the machine body on two sides of each feeding channel, driving assemblies are arranged on the front side and the rear side of the machine body respectively, the driving assemblies are abutted to the telescopic assemblies to drive the telescopic assemblies to move up and down, the peeling mechanisms are arranged below the plurality of feeding channels, a plurality of second feeding holes in one-to-one correspondence with the feeding channels are formed in the upper surface of each peeling mechanism, and a discharging hole is formed in the lower surface of each peeling mechanism between every two adjacent second feeding holes.

It is a plurality of mechanism vertical establishes denucleate peeling mechanism's below, and a plurality of denucleate the mechanism with the discharge gate one-to-one, receiving agencies passes through the pipe and is a plurality of mechanism links, a plurality of denucleate the transport mechanism establishes the below of mechanism, and a plurality of denucleate the transport mechanism with mechanism one-to-one denucleates.

Preferably, the telescopic assembly comprises a telescopic plate, a plurality of springs and two connecting rods, a slot is formed in the machine body, the telescopic plate is inserted into the slot, the plurality of springs are uniformly arranged between the telescopic plate and the slot bottom of the slot, one connecting rod is arranged on each of the front side and the rear side of the telescopic plate, and the connecting rods penetrate through the machine body and are connected with the machine body in a vertical sliding mode.

Preferably, the driving assembly comprises a speed reduction motor, a rotating shaft and a plurality of cams, an output shaft of the speed reduction motor is fixedly connected with the rotating shaft, a plurality of cams are installed on the rotating shaft at intervals, each cam corresponds to the connecting rod one by one and abuts against the bottom of the connecting rod, and when the rotating shaft rotates, the cams drive the connecting rod to slide up and down.

Preferably, the peeling mechanism comprises a cylinder, a substrate, a peeling assembly and a push-pull assembly, the cylinder is fixedly arranged on the substrate and transversely and fixedly mounted in the machine body through the substrate, the upper surface of the cylinder is provided with a plurality of second feed inlets in one-to-one correspondence with the feed channels, a discharge outlet is formed in the lower surface of the cylinder between every two adjacent second feed inlets, the peeling assembly is sleeved on the cylinder and is in sliding connection with the cylinder, and the push-pull assembly is mounted at one end, close to the substrate, in the cylinder.

Preferably, the peeling assembly comprises two first telescopic rods and a plurality of sleeves, a plurality of blades are uniformly arranged on the inner ring of each sleeve, a sliding groove matched with the blades is formed in each barrel, each sleeve is sleeved on each barrel and is in sliding connection with the corresponding barrel through the matching of the blades and the corresponding sliding groove, a peeling knife is arranged between each two adjacent blades and is arranged on the inner ring of each barrel, the direction of the peeling knife pointing to the corresponding substrate is curved, the two first telescopic rods are arranged on the corresponding substrate and are respectively located on two sides of each barrel, and the plurality of sleeves are fixedly connected with the corresponding first telescopic rods.

Preferably, the push-pull assembly comprises a second telescopic rod, a plurality of push blocks and a plurality of connecting rods, the second telescopic rod is installed at one end, close to the base plate, in the barrel, each push block is arranged at the front end of each second feed port, one push block close to the second telescopic rod is fixedly connected with the second telescopic rod, and two sides between every two adjacent push blocks are fixedly connected through one connecting rod.

Preferably, the mechanism of denucleating includes hollow cylindric cavity, a plurality of subassembly and the driving motor that denucleates, and is a plurality of the subassembly that denucleates rotates to be connected the upper and lower both ends of cavity, and a plurality of the subassembly that denucleates is a passageway that denucleates that circular array distributes and forms, adjacent two between the subassembly that denucleates all seted up the suction groove on the inner circle lateral wall of cavity, it is a plurality of the subassembly that denucleates all with one driving motor's output shaft fixed connection.

Preferably, the subassembly of denucleating includes that pivot and spiral setting are in epaxial sword of denucleating, just the diameter size of the sword of denucleating is followed the axial direction of pivot is wavy setting, the lower extreme of pivot with driving motor's output shaft fixed connection.

Preferably, the receiving mechanism comprises a receiving box and a suction pump, and the suction pump is installed on the receiving box and is connected with the cavities of the coring mechanisms through pipes.

Preferably, a buffer sleeve with a diameter gradually reduced from top to bottom is arranged between the feeding channel and the second feeding hole.

Due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. the mango stone removing device is simple in structure and convenient to use, and due to the fact that the plurality of feeding channels are arranged, large-batch mango stone removing processing is facilitated, and production efficiency is improved; the telescopic groups on the machine body on the two sides of the feeding channel can move up and down under the driving of the driving assembly, so that the situation that mangoes are stacked on the first feeding hole and cannot be subjected to subsequent processes is prevented; the peeling mechanism and the denucleation mechanism respectively correspond to the plurality of feeding channels to peel and denucleate the mangoes, the removed pulp is recovered through the material receiving mechanism, and the mango kernels are conveyed to the processing workshop through the conveying mechanism to be classified and recovered.

2. According to the mango feeding device, the cam on the driving assembly rotates to drive the connecting rod which is in butt fit with the cam to move up and down uniformly, so that the expansion plate is driven to push the mangoes stacked on the first feeding hole up and down, the mangoes sequentially enter each feeding channel, the first feeding hole is prevented from being blocked, and the working efficiency is improved; the blade in the inner ring of the sleeve in the peeling component can cut mango peels apart to form a layer of peel layer to be peeled, and meanwhile, the peeling operation of the mangoes can be finished by tearing off each layer of peel layer with the help of the peeling knife in the inner ring of the sleeve, so that the phenomenon that the subsequent denucleation operation is influenced by the mutual mixing of the pulp and the residual peel is avoided; the direction of the peeling knife pointing to the substrate is curved, so that the peel layer is better peeled, and the practicability of the device is improved.

3. The push-pull assembly is convenient for pushing the mangoes led into the peeling mechanism through the feeding channel, and the mangoes are pushed to the discharge hole from the second feeding hole in the peeling process of the mangoes, so that the operation is convenient and fast, the working procedure is simplified, and the production efficiency is improved; the diameter of the denucleation knife of the denucleation component is arranged in a wavy manner along the axial direction of the rotating shaft, so that the diameters of sections formed by the denucleation channel from top to bottom are different, pulp can be effectively removed according to different sizes of mango individuals, the adhering amount of residual pulp on the surface of mango kernels is reduced, and waste is avoided; the buffer sleeve between the feeding channel and the second feeding hole prevents the mangos from directly falling into the second feeding hole of the barrel body to cause damage, and ensures that the fullness of the mangos does not influence the quality of the pulp.

Drawings

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

FIG. 2 is a right side view of the present invention;

FIG. 3 is a schematic view of the debarking assembly of the present invention;

FIG. 4 is a schematic structural view of a cartridge and a sleeve according to the present invention;

FIG. 5 is a sectional view taken along line A-A of FIG. 4;

FIG. 6 is a schematic structural view of a push-pull assembly of the present invention;

FIG. 7 is a top view of the coring assembly of the present invention;

FIG. 8 is an expanded schematic view of the coring assembly of the present invention;

the main reference symbols in the drawings are as follows:

1. a stoner; 2. a body; 21. a first feed port; 22. a feed channel; 23. a telescoping assembly; 231. a retractable plate; 232. a spring; 233. a connecting rod; 24. a drive assembly; 241. a reduction motor; 242. a rotating shaft; 243. a cam; 3. a peeling mechanism; 31. a second feed port; 32. a discharge port; 33. a barrel; 34. a substrate; 35. a peeling assembly; 351. a first telescopic rod; 352. a sleeve; 353. a blade; 354. a chute; 355. a peeling knife; 36. a push-pull assembly; 361. a second telescopic rod; 362. a push block; 363. a connecting rod; 4. a coring mechanism; 41. a cavity; 411. a suction groove; 42. a coring assembly; 421. a rotating shaft; 422. a coring knife; 43. a drive motor; 5. a material receiving mechanism; 51. a material receiving box; 52. a suction pump; 6. a conduit; 7. a buffer sleeve; 8. a transport mechanism; 8. an electrical control box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 8, a mango stone removing device comprises a stone removing machine 1 and a plurality of conveying mechanisms 8, wherein the stone removing machine 1 comprises a machine body 2, a peeling mechanism 3, a plurality of stone removing mechanisms 4 and a receiving mechanism 5. The upper end of the machine body 2 is provided with a first feed inlet 21, the bottom of the first feed inlet 21 is provided with a plurality of feed channels 22, two sides of each feed channel 22 are provided with telescopic components 23 on the machine body 2, the front side and the rear side of the machine body 2 are provided with a driving component 24, the driving components 24 are abutted against the telescopic components 23, so as to drive the telescopic component 23 to move up and down, a peeling mechanism 3 is arranged below the plurality of feeding channels 22, and the upper surface of peeling mechanism 3 has seted up a plurality of second feed inlets 31 with feedstock channel 22 one-to-one, and the lower surface at peeling mechanism 3 between two adjacent second feed inlets 31 all is equipped with a discharge gate 32, and is concrete, installs the cushion collar 7 that the diameter gradually reduces gradually from top to bottom between feedstock channel 22 and the second feed inlet 31, avoids the mango directly to fall into second feed inlet 31 and causes the damage, guarantees that the fullness of mango does not influence the quality of pulp. A plurality of mechanisms 4 that denucleate vertically establish in the below of peeling mechanism 3, and a plurality of mechanisms 4 and the discharge gate 32 one-to-one that denucleates, receiving agencies 5 are connected with a plurality of mechanisms 4 that denucleate through pipe 6, and a plurality of transport mechanism 8 are established in the below of mechanism 4 that denucleates, and a plurality of transport mechanism 8 and mechanism 4 one-to-one that denucleates.

As shown in fig. 2, in this embodiment, the retractable assembly 23 includes a retractable plate 231, a plurality of springs 232 and two connecting rods 233, a slot is opened on the machine body 2, the retractable plate 231 is inserted into the slot, the plurality of springs 232 are uniformly installed between the retractable plate 231 and the slot bottom of the slot, the front and rear sides of the retractable plate 231 are respectively provided with one connecting rod 233, and the connecting rod 233 penetrates through the machine body 2 and is connected with the machine body 2 in a sliding manner. The driving assembly 24 includes a speed reducing motor 241, a rotating shaft 242 and a plurality of cams 243, an output shaft of the speed reducing motor 241 is fixedly connected with the rotating shaft 242, the rotating shaft 242 is provided with a plurality of cams 243 at intervals, each cam 243 is in one-to-one correspondence with the connecting rod 233 and abuts against the bottom of the connecting rod 233, and when the rotating shaft 242 rotates, the cams 243 drive the connecting rod 233 to slide up and down. According to the mango feeding device, the cam 243 on the driving assembly 24 rotates to drive the connecting rod 233 which is in butt fit with the cam 243 to move up and down uniformly, so that the expansion plate 231 is driven to push the mangoes stacked on the first feeding hole 21 up and down, the mangoes sequentially enter each feeding channel 22, the first feeding hole 21 is prevented from being blocked, and the working efficiency is improved.

In this embodiment, as shown in fig. 3, the peeling mechanism 3 includes a cylinder 33, a base plate 34, a peeling assembly 35, and a push-pull assembly 36, the cylinder 33 is fixedly disposed on the base plate 34 and transversely and fixedly mounted in the machine body 2 through the base plate 34, the upper surface of the cylinder 33 is provided with a plurality of second feed inlets 31 corresponding to the feed channels 22 one by one, a discharge port 32 is disposed on the lower surface of the cylinder 33 between two adjacent second feed inlets 31, the peeling assembly 35 is sleeved on the cylinder 33 and slidably connected to the cylinder 33, and the push-pull assembly 36 is mounted at one end of the inside of the cylinder 33 close to the base plate 34.

In this embodiment, as shown in fig. 3, 4, and 5, the peeling assembly 35 includes two first telescopic rods 351 and a plurality of sleeves 352, the inner ring of the sleeve 352 is uniformly provided with a plurality of blades 353, the barrel 33 is provided with a sliding groove 354 matched with the blades 353, the sleeve 352 is sleeved on the barrel 33 and is in sliding connection with the barrel 33 through the matching of the blades 353 and the sliding groove 354, a peeling knife 355 is respectively disposed between two adjacent blades 353 at the inner ring of the barrel 33, the direction of the peeling knife 355 pointing to the substrate 34 is curved, the two first telescopic rods 351 are mounted on the substrate 34 and are respectively located at two sides of the barrel 33, and the plurality of sleeves 352 are fixedly connected with the first telescopic rods 351. The blade 353 in the inner ring of the sleeve 352 in the peeling assembly 35 can cut mango peels and form a layer of peel layers to be peeled, and meanwhile, the peeling knife 355 in the inner ring of the cylinder 33 is used for tearing off each layer of peel layers to complete the peeling operation of the mango, so that the phenomenon that the subsequent denucleation operation is influenced by the mutual mixing of the pulp and the residual peel is avoided; the direction that peeling knife 355 points to base plate 34 is the bending form for the peel layer is peeled off better, improves the practicality of this device.

In this embodiment, as shown in fig. 3 and fig. 6, the push-pull assembly 36 includes a second telescopic rod 361, a plurality of push blocks 362 and a plurality of connecting rods 363, the second telescopic rod 361 is installed at one end of the inside of the barrel 33 close to the base plate 34, each push block 362 is installed at the front end of each second feeding hole 31, one push block 362 close to the second telescopic rod 361 is fixedly connected with the second telescopic rod 361, and two sides between two adjacent push blocks 362 are fixedly connected through one connecting rod 363.

In this embodiment, as shown in fig. 7 and 8, the coring mechanism 4 includes a hollow cylindrical cavity 41, a plurality of coring assemblies 42 and a driving motor 43, the plurality of coring assemblies 42 are rotatably connected at the upper and lower ends of the cavity 41, and the plurality of coring assemblies 42 are distributed in a circular array to form a coring channel, a suction groove 411 has been all opened on the inner ring side wall of the cavity 41 between two adjacent coring assemblies 42, and the plurality of coring assemblies 42 are all fixedly connected with an output shaft of the driving motor 43. Specifically, subassembly 42 that denucleates includes pivot 421 and the spiral setting sword 422 that denucleates in pivot 421, and the diameter size of the sword 422 that denucleates is wavy setting along the axial direction of pivot 421 for the passageway that denucleates from top to bottom forms each section diameter inequality, is convenient for can effectively reject pulp to mango individual difference in size, reduces the volume of depending on of the remaining pulp in mango core surface, avoids extravagant. The lower end of the rotating shaft 421 is fixedly connected with the output shaft 43 of the driving motor. The collecting mechanism 5 comprises a collecting box 51 and a suction pump 52, the suction pump 52 being mounted on the collecting box 51 and being connected to the cavities 41 of the plurality of coring mechanisms 4 via the conduits 6.

In this embodiment, the present invention further includes a control system, the control system includes an electrical control box 9 and a control button disposed on the electrical control box 9, the speed reduction motor 241, the first telescopic rod 351, the second telescopic rod 362, the driving motor 43, the suction pump 52 and the transmission mechanism are all electrically connected to the electrical control box, and the control button is used for controlling the electrical control box to operate.

The working principle of the invention is as follows: the invention provides a mango denucleation device, wherein during use, mangoes are guided into a first feeding hole 21 of a machine body 2, the mangoes sequentially enter a plurality of feeding channels 22 under the action of up-and-down movement of a telescopic component 23 and enter a barrel 33 of a peeling mechanism 3 through a buffer sleeve 7 and a second feeding hole 31, a first telescopic rod 351 pulls a sleeve 352 back, a second telescopic rod 361 extends forwards to push the mangoes through a push block 362, a blade 353 in the inner ring of the sleeve 352 can cut the mango peel and form a layer of peel layer to be peeled, a peeling knife 355 in the inner ring of the barrel 33 is used for tearing off each layer of peel layer, the mangoes are guided into a denucleation mechanism 4 through a discharge hole 32 under the pushing action of the second telescopic rod 361, and then the first telescopic rod 351 and the second telescopic rod are used for peeling 361, and the steps are repeated to sequentially complete the operation of a large number of mangoes; peeled mangoes fall into a denucleation channel formed by a plurality of denucleation components 42 and a cavity 41 for denucleation treatment, then the mango cores with pulp removed are taken away by a conveying mechanism 8, the pulp enters a material collecting box 51 through a suction groove 411 on the side wall of the inner ring of the cavity 41 through a conduit 6, and classified recovery of the pulp and the mango cores is realized. The invention has the technical characteristics of high peeling and denucleation efficiency, reduction of the mixing rate of the peel in the pulp, high-efficiency removal of the pulp in the denucleation process and the like.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.