CN110962173A

CN110962173A - Pineapple coring and slicing integrated can making device

Info

Publication number: CN110962173A
Application number: CN201911352736.4A
Authority: CN
Inventors: 李菊英
Original assignee: Individual
Current assignee: Guangdong Nanpai Food Co ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-04-07
Anticipated expiration: 2039-12-25
Also published as: CN110962173B

Abstract

The invention provides a pineapple core-removing and slicing integrated can manufacturing device, belongs to the technical field of pineapple can manufacturing, and aims to solve the problem of low slicing efficiency; the pineapple clamping mechanism is fixedly installed on the workbench, the core outlet is further formed in the middle of the bottom side of the pineapple clamping mechanism, the pineapple block outlets are formed in the left side and the right side of the pineapple clamping mechanism, the vertical core cutting mechanism is arranged right above the pineapple clamping mechanism and connected to the telescopic portion of the electric cylinder, the rear side of the upper end of the vertical core cutting mechanism is further connected with a linkage mechanism, and the transverse cutting mechanisms are arranged on the two sides of the pineapple clamping mechanism and in transmission connection with the linkage mechanism. Through pineapple screens mechanism, be convenient for vertically put into pineapple screens mechanism with the pineapple after shelling and carry out the screens to realize cutting vertically, crosscut and the return to the pineapple through setting up vertical cut off core mechanism, link gear and crosscut mechanism.

Description

Pineapple coring and slicing integrated can making device

Technical Field

The invention belongs to the technical field of pineapple can manufacturing, and particularly relates to a pineapple core-removing and slicing integrated can manufacturing device.

Background

At present, most of pineapple cans are prepared before workers remove pineapple cores, after the pineapple cores are removed by the workers, the workers need to cut the pineapples into small pieces, not all the pineapple cores can be eaten, the core fiber particles of immature pineapples are too large, and the immature pineapple cores are not easy to digest in stomach of eaters, so the workers need to remove the pineapple cores, the pineapple is cut into the small pieces, the pineapple is convenient to be manually plugged into a glass can by the workers, the pineapple needs to be placed on a core removing position of a core removing device during preparation, when the pineapple is located on the core removing position of the core removing device, the workers can press a core removing part of the core removing device downwards to move downwards, the core removing part moves downwards to remove the pineapple cores, when the pineapple cores are removed by the core removing device, the workers can place the cored pineapples on a transverse slicing part, and when the pineapples are located on the transverse slicing part, the workman can press down the downward motion of horizontal section part, and horizontal section part can be cut into a plurality of pieces of pineapple pieces with the pineapple that has gone the core, and the workman still needs to place the pineapple piece on vertical stripping part afterwards, and the workman presses down the pineapple piece to on the stripping part again, and vertical stripping part can be cut into the pineapple piece with the pineapple piece, and the workman has just so accomplished the coring of pineapple, the stripping process.

If the application number is: CN201520576615.9 discloses a pineapple dicing combination tool, belonging to the technical field of tools. Consists of a spiral knife, a handle, a container, a cutting hub, a cutter and a pressing disc. The spiral knife is formed by welding a stainless steel pipe and a spiral circular blade, the lower end of the pipe is easy to cut in a tooth shape, two circular holes are formed in the top of the pipe and are conveniently matched with the handle, and the spiral circular blade and the cross tooth blade are welded and fixed on the pipe. The handle is provided with a spring button for facilitating the disassembly and assembly after being matched with a pipe, the container is provided with scales, the dicing cutter is in a hub-shaped two-edge double-lug support mode, the port of the container is connected with the hub cutter, a guide pillar is arranged below the pressure plate, and one end of the pressure plate is matched with the hub dicing cutter in a shape and can serve as a sealing cover of the container. The invention has the advantages of fast cutting pineapple into pieces, convenience and high efficiency, and meets the requirements of people.

Based on the aforesaid, the workman need press down many times and go the coring device just can go on coring speed slower to single pineapple, and the workman uses horizontal stripping parts and vertical stripping parts to carry out the process of stripping and slicing more numerous and diverse to the pineapple in addition, and stripping and slicing efficiency is lower.

Disclosure of Invention

In order to solve the technical problems, the invention provides a can making device integrating pineapple coring and slicing, which aims to solve the problems that a worker needs to press a coring device downwards for multiple times to perform coring on a single pineapple at a low speed, and the cutting process of the pineapple by using a transverse cutting part and a vertical cutting part is complicated and the slicing efficiency is low.

The invention relates to a device for making pineapple can with integrated functions of coring and cutting, which has the advantages that the purpose and the effect are achieved by the following specific technical means:

a can making device integrating pineapple coring and slicing comprises a workbench, a pineapple clamping mechanism, a vertical core cutting mechanism and a transverse cutting mechanism; the pineapple peeling machine is characterized in that a core outlet and a pineapple block outlet are respectively formed in the workbench, a pineapple core containing cylinder and a pineapple block containing cylinder are respectively arranged on the bottom sides of the core outlet and the pineapple block outlet, the pineapple clamping mechanism is fixedly mounted on the workbench, the core outlet is also formed in the middle of the bottom side of the pineapple clamping mechanism, the pineapple block outlet is formed in the left side and the right side of the pineapple clamping mechanism, the vertical core cutting mechanism is arranged right above the pineapple clamping mechanism and connected to the telescopic portion of the electric cylinder, the rear side of the upper end of the vertical core cutting mechanism is also connected with a linkage mechanism, and the transverse cutting mechanisms are arranged on the two sides of the pineapple clamping mechanism and are in transmission connection with the linkage mechanism.

Further, pineapple screens mechanism includes arc screens body, arc pin and erects the grooving, the arc screens body is equipped with two sets ofly and sets up around a central symmetry, and still interval connection has the arc pin between the upper end side of arc screens body, be equipped with perpendicular grooving on the intrados of arc pin.

Further, the arc screens body includes outer arc board, interior arc board, perpendicular incision and horizontal grooving, interconnect and be equipped with vertical cavity between outer arc board and the interior arc board, and be equipped with perpendicular incision and horizontal grooving on the interior arc board respectively, horizontal grooving is established between the arc pin and the lower side end.

Further, the vertical core cutting mechanism comprises a core removing cylinder, transverse plates, vertical cutters and vertical connecting rods, the transverse plates are connected to the lower end of the inner side of the core removing cylinder and connected to the telescopic portion of the electric cylinder through the vertical connecting rods, the vertical cutters are provided with two groups and connected to the outer peripheral side of the core removing cylinder in an annular structure, and when the vertical core cutting mechanism moves downwards, the outer ends of the vertical cutters can be inserted into the vertical cuts and the vertical cutting grooves.

Furthermore, the outer diameter of the coring barrel is consistent with the inner diameter of the coring hole and is in the same vertical direction with the coring hole.

Further, the link gear includes horizontal connecting rod, linear bearing, perpendicular gangbar, stabilizes pole and guide bar, the upper end side at perpendicular connecting rod is connected to the one end of horizontal connecting rod, and the other end is connected with linear bearing and slides the suit on the guide bar, the bottom side of horizontal connecting rod still is connected with perpendicular gangbar, and still is connected with the firm pole between horizontal connecting rod and the perpendicular gangbar.

Further, the transverse cutting mechanism comprises a clamping plate, transverse cutters, an L-shaped connecting rod, a threaded slider, a guide slider, threaded driving rods, a driving gear, a square guide rod, a driving shaft, an incomplete gear, a ratchet mechanism, a linkage shaft and a linkage gear, wherein the transverse cutters are respectively arranged on the left side and the right side of the pineapple clamping mechanism and clamped on the inner side of the clamping plate, the transverse cutters can be inwards inserted into the transverse cutting grooves, the outer side end of the clamping plate is also connected with the L-shaped connecting rod, the tail end of the L-shaped connecting rod is respectively connected with the threaded slider and the guide slider, the threaded slider is meshed with the threaded driving rods, the outer ends of the threaded driving rods are connected with the driving gear, the incomplete gears are provided with two groups and respectively arranged on the two sides of the driving gear, the incomplete gears are clamped on the outer end of the driving shaft, the ratchet mechanism is also clamped on the driving shaft at the outer end of, and the linkage gears are meshed with each other, the linkage shaft is connected with the driving shafts corresponding to the inclined upper sides of the linkage shaft in a transmission manner through chains, and the guide sliding blocks are sleeved on the square guide rods through square holes in the middle of the guide sliding blocks.

Furthermore, the outer periphery of the incomplete gear is only provided with clamping teeth on the circumference of 1/2 and can be meshed with the driving gear, and when one group of incomplete gears is just separated from the driving gear, the other group of incomplete gears is just meshed with the driving gear.

Furthermore, a rack structure is arranged on the lower end side of the vertical linkage rod and is meshed with the ratchet mechanism, when the vertical core cutting mechanism moves downwards to the bottom end of the inner side of the pineapple clamping mechanism, the upper end of the rack structure just moves to the position of the ratchet mechanism, and when the vertical core cutting mechanism moves upwards to the top end, the lower end of the rack structure just moves to the position of the ratchet mechanism.

The invention at least comprises the following beneficial effects:

according to the pineapple peeling device, peeled pineapples can be conveniently vertically placed into the pineapple clamping mechanism for clamping through the pineapple clamping mechanism, the electric cylinder is used for driving the vertical core cutting mechanism to move downwards to enter the pineapple clamping mechanism, the outer end of the vertical cutter is inserted into the vertical notch and the vertical cutting groove, the pineapples are vertically cut, the pineapple cores are cut through the core removing cylinder, and the pineapple cores are pushed downwards into the pineapple core containing cylinder through the core outlet hole.

The invention also sets a linkage mechanism and a transverse cutting mechanism, when the vertical core cutting mechanism finishes the upward movement after cutting, the linkage mechanism synchronously moves upward, and drives the ratchet mechanism to rotate by utilizing the rack structure on the vertical linkage rod, so that the incomplete gear rotates, and drives the linkage gear to rotate by the chain, and drives another group of incomplete gear to reversely rotate by the chain again by utilizing the meshing transmission between the linkage gears, thereby driving the thread driving rod to rotate when one group of incomplete gear is meshed with the driving gear, so that the transverse cutting knife is inserted into the transverse cutting groove to transversely cut the pineapple, after the cutting is finished, the group of incomplete gear is separated from the driving gear, the other group of incomplete gear is meshed with the driving gear, and the thread driving rod is driven to reversely rotate, so that the transverse cutting knife moves outwards and returns.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an enlarged schematic view of the structure at a of the present invention.

Fig. 3 is a schematic side view of the present invention.

Fig. 4 is an enlarged schematic view of the invention at B.

Fig. 5 is an enlarged schematic view of the structure at C of the present invention.

Fig. 6 is another side view of the present invention.

Fig. 7 is an enlarged schematic view of the present invention at D.

Fig. 8 is a schematic structural view of the pineapple clamping mechanism in the invention.

Fig. 9 is a schematic view of the vertical cut core mechanism of the present invention moving downward to the top of the arcuate retainer.

Fig. 10 is a schematic view of the vertical coring mechanism of the present invention moving downward to the bottom end of the arcuate retainer.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows: 1. a work table; 101. core hole forming; 102. outlet of the pineapple blocks; 2. a pineapple clamping mechanism; 201. an arc-shaped clamping body; 2011. an outer arc plate; 2012. an inner arc-shaped plate; 2013. a vertical cut; 2014. transversely cutting grooves; 202. an arc-shaped stop lever; 2021. vertically cutting a groove; 3. a core cutting mechanism is vertically cut; 301. removing the core cylinder; 3011. a transverse plate; 302. a vertical cutter; 303. a vertical connecting rod; 4. a linkage mechanism; 401. a transverse connecting rod; 4011. a linear bearing; 402. a vertical linkage rod; 4021. a stabilizing rod; 403. a guide bar; 5. a transverse cutting mechanism; 501. clamping a plate; 5011. a transverse cutter; 5012. an L-shaped connecting rod; 5013. a threaded slider; 5014. a guide slider; 502. a threaded drive rod; 5021. a drive gear; 503. a square guide bar; 504. a drive shaft; 5041. an incomplete gear; 5042. a ratchet mechanism; 505. a linkage shaft; 5051. a linkage gear; 6. a pineapple core containing cylinder; 7. a pineapple block containing cylinder; 8. an electric cylinder.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 10:

the invention provides a pineapple core removing and slicing integrated can manufacturing device, which comprises a workbench 1, a pineapple clamping mechanism 2, a vertical core removing mechanism 3 and a transverse cutting mechanism 5, wherein the workbench is provided with a plurality of vertical cutting mechanisms; the automatic pineapple peeling machine is characterized in that a core outlet 101 and a pineapple block outlet 102 are respectively formed in the workbench 1, a pineapple core containing cylinder 6 is arranged at the bottom of the core outlet 101, a pineapple block containing cylinder 7 is arranged at the bottom of the pineapple block outlet 102, a pineapple clamping mechanism 2 is installed on the workbench 1, the core outlet 101 is located below the pineapple clamping mechanism 2, the pineapple block outlet 102 is located on the left side and the right side of the pineapple clamping mechanism 2, a vertical core cutting mechanism 3 is installed right above the pineapple clamping mechanism 2, the vertical core cutting mechanism 3 is connected to the telescopic portion of the electric cylinder 8, a linkage mechanism 4 is installed at the top of the vertical core cutting mechanism 3, transverse cutting mechanisms 5 are installed on two sides of the pineapple clamping mechanism 2, and the transverse cutting mechanisms 5 are in transmission connection with the linkage mechanism 4.

Pineapple screens mechanism 2 includes arc fixture 201, arc pin 202 and vertical cutting groove 2021, install two sets of arc fixture 201 on the workstation 1, and set up around a central symmetry, even spaced arc pin 202 that is connected with between two sets of arc fixture 201, arc pin 202 inboard is opened has vertical cutting groove 2021, be convenient for carry out the screens to the pineapple after shelling, simultaneously in through cutting off core mechanism 3 coring and vertical cutting back vertically, still can prevent that the pineapple from empting, so that carry out the crosscut to the pineapple through crosscut mechanism 5.

The arc-shaped retainer 201 comprises an outer arc-shaped plate 2011, an inner arc-shaped plate 2012, a vertical notch 2013 and a transverse cutting groove 2014, the outer arc-shaped plate 2011 is connected with the inner arc-shaped plate 2012, a vertical cavity is arranged at the joint of the outer arc-shaped plate 2011 and the inner arc-shaped plate 2012 is provided with the vertical notch 2013 and the transverse cutting groove 2014, and the transverse cutting groove 2014 is arranged between the arc-shaped stop levers 202 and below the arc-shaped stop levers.

The vertical coring mechanism 3 comprises a coring barrel 301, a transverse plate 3011, vertical cutters 302 and vertical connecting rods 303, wherein the telescopic parts of the electric cylinder 8 are connected with the vertical connecting rods 303, the bottom end of each vertical connecting rod 303 is connected with the transverse plate 3011, the coring barrel 301 is connected with the outer side of the transverse plate 3011, the vertical cutters 302 are connected with the outer side of the coring barrel 301, the vertical cutters 302 are in two groups, the vertical cutters 302 are in an annular structure, when the vertical coring mechanism 3 moves downwards, the outer ends of the vertical cutters 302 can be inserted into the vertical notches 2013 and the vertical cutting grooves 2021, when the vertical coring mechanism 3 moves downwards, the pineapples are vertically cut through the vertical cutters 302, and the outer ends of the vertical cutters 302 are further inserted into the vertical notches 2013 and the vertical cutting grooves 2021.

The outer diameter of the coring barrel 301 is consistent with the inner diameter of the coring hole 101 and is in the same vertical direction with the coring hole 101, pineapple cores can be cut through the coring barrel 301, and the pineapple cores are pushed into the pineapple core containing barrel 6 downwards through the coring hole 101.

The linkage mechanism 4 comprises a transverse connecting rod 401, a linear bearing 4011, a vertical linkage rod 402, a stabilizing rod 4021 and a guide rod 403, the top end of the vertical connecting rod 303 is connected with the transverse connecting rod 401, the bottom end of the vertical connecting rod 303 is connected with the linear bearing 4011, the guide rod 403 is arranged in the linear bearing 4011 in a sliding mode, the bottom of the transverse connecting rod 401 is connected with the vertical linkage rod 402, the stabilizing rod 4021 is connected between the transverse connecting rod 401 and the vertical linkage rod 402, and when the vertical core cutting mechanism 3 moves downwards and upwards, the linkage mechanism 4 can be driven to synchronously move downwards or upwards.

The transverse cutting mechanism 5 comprises a clamping plate 501, a transverse cutter 5011, an L-shaped connecting rod 5012, a threaded slider 5013, a guide slider 5014, a threaded driving rod 502, a driving gear 5021, a square guide rod 503, a driving shaft 504, an incomplete gear 5041, a ratchet mechanism 5042, a linkage shaft 505 and a linkage gear 5051, the transverse cutter 5011 is arranged on the left side and the right side of the pineapple clamping mechanism 2, the transverse cutter 5011 is detachably arranged on the inner side of the clamping plate 501, the transverse cutter 5011 can be inwards inserted into a transverse cutting groove 2014, the outer end of the clamping plate 501 is connected with the L-shaped connecting rod 5012, the L-shaped connecting rod 5012 is respectively connected with the threaded slider 5013 and the guide slider 5014, the threaded driving rod 502 is connected with the threaded driving rod 502 through a thread, the driving gear 5021 is arranged on the threaded driving rod 502 through a flat key, the incomplete gear 5041 is rotatably arranged on the two sides of the outer end of the driving gear 502, two groups of linkage gears 5051 are mounted at the outer end of the linkage shaft 505, the linkage gears 5051 are located below the incomplete gears 5041, the two groups of linkage gears 5051 are meshed with each other, the linkage shaft 505 is further connected with the driving shafts 504 corresponding to the inclined upper sides of the linkage shaft 505 in a chain transmission mode respectively, the guide sliding block 5014 is internally provided with the square guide rod 503 in a sliding mode, when the linkage mechanism 4 moves downwards synchronously, a rack structure at the lower end of the vertical linkage rod 402 is meshed with the ratchet mechanism 5042 and only drives the ratchet mechanism 5042 to rotate externally, the threaded driving rod 502 does not rotate, when the linkage mechanism 4 moves upwards synchronously, the ratchet mechanism 5042 can drive the threaded driving rod 502 to rotate, the incomplete gears 5041 on the outer side rotate and drive the linkage gears 5051 to rotate through the chains, and the linkage gears 5051 are driven to rotate through meshing transmission among the linkage gears 5051, and the.

The outer periphery of the incomplete gear 5041 is only provided with latches on the circumference of 1/2 and can be meshed with the driving gear 5021, when one group of incomplete gears 5041 is just disengaged from the driving gear 5021, the other group of incomplete gears 5041 is just meshed with the driving gear 5021, when one group of incomplete gears 5041 is meshed with the driving gear 5021, the threaded driving rod 502 is driven to rotate to realize that the crosscut knife 5011 moves inwards and is inserted into the crosscut slot 5014 to transversely cut the pineapple, after the cutting is finished, the group of incomplete gears 5041 is disengaged from the driving gear 5021, the other group of incomplete gears 5041 is meshed with the driving gear 5021 to drive the threaded driving rod 502 to rotate reversely, so that the crosscut knife moves outwards and returns.

The lower end side of the vertical linkage rod 402 is provided with a rack structure and is meshed with the ratchet mechanism 5042, when the vertical core cutting mechanism 3 moves downwards to the bottom end of the inner side of the pineapple clamping mechanism 2, the upper end of the rack structure just moves to the position of the ratchet mechanism 5042, and when the vertical core cutting mechanism 3 moves upwards to the top end, the lower end of the rack structure just moves to the position of the ratchet mechanism 5042.

The specific use mode and function of the embodiment are as follows:

in the invention, peeled pineapples are placed in a pineapple clamping mechanism 2, an electric cylinder 8 is started to drive a vertical core cutting mechanism 3 to move downwards through a vertical connecting rod 303, and drive a linkage mechanism 4 to move downwards synchronously, a rack structure at the lower end of a vertical linkage rod 402 is meshed with a ratchet mechanism 5042, only the ratchet mechanism 5042 is driven to rotate externally, a thread driving rod 502 does not rotate, the pineapples are vertically cut through a vertical cutter 302, the outer end side of the vertical cutter 302 is also inserted into a vertical cut 2013 and a vertical cut groove 2021, the pineapple cores are cut through a core removing barrel 301 and are pushed into a pineapple core containing barrel 6 through a core outlet hole 101 downwards, after the vertical cutting is finished, the electric cylinder 8 drives the vertical core cutting mechanism 3 to move upwards, the linkage mechanism 4 is synchronously driven to move upwards, the rack structure at the lower end of the vertical linkage rod 402 is meshed with the ratchet mechanism 5042, the ratchet mechanism 5042 drives the thread driving rod 502 to rotate, the incomplete gear 5041 on the outer side is rotated, the linkage gear 5051 is driven to rotate through a chain, the linkage gear 5051 is used for meshing transmission, the other incomplete gear 5041 is driven to rotate reversely through the chain, when one incomplete gear 5041 is meshed with the driving gear 5021, the threaded driving rod 502 is driven to rotate, the transverse cutter 5011 moves inwards and is inserted into the transverse cutting slot 5014 to transversely cut the pineapple, after cutting is completed, the incomplete gear 5041 is separated from the driving gear 5021, the other incomplete gear 5041 is meshed with the driving gear 5021, the threaded driving rod 502 is driven to rotate reversely, the transverse cutter moves outwards to return, then the cut pineapple blocks are manually shifted to the pineapple block outlet 102 and enter the pineapple block containing barrel 7, and then the other peeled pineapple is placed.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a pineapple coring, integrative can making devices of stripping and dicing which characterized in that: comprises a workbench (1), a pineapple clamping mechanism (2), a vertical core cutting mechanism (3) and a transverse cutting mechanism (5); the pineapple core cutting machine is characterized in that a core outlet (101) and a pineapple block outlet (102) are respectively formed in the workbench (1), a pineapple core containing barrel (6) and a pineapple block containing barrel (7) are respectively arranged at the bottom sides of the core outlet (101) and the pineapple block outlet (102), the pineapple clamping mechanism (2) is fixedly installed on the workbench (1), the core outlet (101) is further formed in the middle of the bottom side of the pineapple clamping mechanism (2), the pineapple block outlet (102) is formed in the left side and the right side of the pineapple clamping mechanism (2), the vertical core cutting mechanism (3) is arranged right above the pineapple clamping mechanism (2) and connected to the telescopic portion of the electric cylinder (8), the rear side of the upper end of the vertical core cutting mechanism (3) is further connected with a linkage mechanism (4), and the transverse cutting mechanisms (5) are arranged on the two sides of the pineapple clamping mechanism (2) and are in transmission connection with the linkage mechanism (4).

2. A pineapple coring, dicing integrated can making apparatus as set forth in claim 1, wherein: pineapple screens mechanism (2) are including arc fixture body (201), arc pin (202) and vertical cutting groove (2021), arc fixture body (201) are equipped with two sets ofly and set up around a central symmetry, and still interval connection has arc pin (202) between the upper end side of arc fixture body (201), be equipped with vertical cutting groove (2021) on the intrados of arc pin (202).

3. A pineapple coring, dicing integrated can making apparatus as set forth in claim 2, wherein: arc card body (201) include outer arc board (2011), interior arc board (2012), erect incision (2013) and horizontal incision (2014), interconnect and be equipped with vertical cavity between outer arc board (2011) and interior arc board (2012), and be equipped with respectively on interior arc board (2012) and erect incision (2013) and horizontal incision (2014), horizontal incision (2014) are established between arc pin (202) and are held down the side.

4. A pineapple coring, dicing integrated can making apparatus as set forth in claim 3, wherein: the vertical core cutting mechanism (3) comprises a core removing cylinder (301), a transverse plate (3011), vertical cutters (302) and vertical connecting rods (303), the transverse plate (3011) is connected to the lower end of the inner side of the core removing cylinder (301) and connected to the telescopic portion of the electric cylinder (8) through the vertical connecting rods (303), the vertical cutters (302) are provided with two groups and connected to the outer peripheral side of the core removing cylinder (301) in an annular structure, and when the vertical core cutting mechanism (3) moves downwards, the outer ends of the vertical cutters (302) can be inserted into the vertical notches (2013) and the vertical cutting grooves (2021).

5. An apparatus for making pineapple with coring and cutting integrated as set forth in claim 4, wherein: the outer diameter of the coring barrel (301) is consistent with the inner diameter of the coring hole (101) and is in the same vertical direction with the coring hole (101).

6. An apparatus for making pineapple with coring and cutting integrated as set forth in claim 4, wherein: link gear (4) include horizontal connecting rod (401), linear bearing (4011), perpendicular gangbar (402), firm pole (4021) and guide bar (403), the upper end side at perpendicular connecting rod (303) is connected to the one end of horizontal connecting rod (401), and the other end is connected with linear bearing (4011) and slides the suit on guide bar (403), the bottom side of horizontal connecting rod (401) still is connected with perpendicular gangbar (402), and still is connected with between horizontal connecting rod (401) and perpendicular gangbar (402) and stabilizes pole (4021).

7. A pineapple coring, dicing integrated can making apparatus as set forth in claim 3, wherein: the transverse cutting mechanism (5) comprises a clamping plate (501), a transverse cutter (5011), an L-shaped connecting rod (5012), a threaded sliding block (5013), a guide sliding block (5014), a threaded driving rod (502), a driving gear (5021), a square guide rod (503), a driving shaft (504), an incomplete gear (5041), a ratchet mechanism (5042), a linkage shaft (505) and a linkage gear (5051), wherein the transverse cutter (5011) is respectively arranged on the left side and the right side of the pineapple clamping mechanism (2) and clamped on the inner side of the clamping plate (501), the transverse cutter (5011) can be inwards inserted into the transverse cutting groove (2014), the outer side end of the clamping plate (501) is further connected with the L-shaped connecting rod (5012), the tail end of the L-shaped connecting rod (5012) is respectively connected with the threaded sliding block (5013) and the guide sliding block (5014), the threaded sliding block (5013) is meshed and connected to the threaded driving gear (5021), the incomplete gears (5041) are provided with two groups and are respectively arranged on two sides of the driving gear (5021), the incomplete gears (5041) are clamped at the outer end of the driving shaft (504), the driving shaft (504) at the outer side end is also clamped with a ratchet mechanism (5042), the linkage gear (5051) is also provided with two groups which are positioned at the lower side of the incomplete gear (5041) and are clamped at the outer end of the linkage shaft (505), the linkage gears (5051) are mutually meshed, the linkage shaft (505) is also in transmission connection with the driving shaft (504) corresponding to the inclined upper side of the linkage shaft through chains, and the guide sliding block (5014) is sleeved on the square guide rod (503) through a square hole in the middle of the guide sliding block.

8. An apparatus for making pineapple with coring and cutting integrated as set forth in claim 7, wherein: the outer periphery of the incomplete gear (5041) is only provided with latches on the circumference of 1/2 and can be meshed with the driving gear (5021), and when one group of incomplete gears (5041)) is just disengaged from the driving gear (5021), the other group of incomplete gears (5041) just meshes with the driving gear (5021).

9. A pineapple coring and dicing integrated can making apparatus as claimed in claim 6 and 7, wherein: the side of the lower end of the vertical linkage rod (402) is provided with a rack structure and is meshed with a ratchet mechanism (5042), when the vertical core cutting mechanism (3) moves downwards to the bottom end of the inner side of the pineapple clamping mechanism (2), the upper end of the rack structure just moves to the position of the ratchet mechanism (5042), and when the vertical core cutting mechanism (3) moves upwards to the top end, the lower end of the rack structure just moves to the position of the ratchet mechanism (5042).