CN113017122A - Sweet potato digging surface root hair processing device and implementation method thereof - Google Patents

Abstract

The invention discloses a sweet potato digging surface root hair processing device and an implementation method thereof, comprising a driving component, a root hair processing component and a root hair processing base, wherein sweet potatoes are placed in a placing sleeve in the root hair processing base and are nested by a cutting shell in the upper root hair processing component, the root hairs on the outer surface of the sweet potatoes can freely pass through root hair through holes on the surface of the cutting shell, the cutting shell is driven to rotate by a driving motor through a driving shaft and an inner telescopic rod, so that the sweet potatoes passing through the root hair through holes are cut off by a cutting blade, meanwhile, other root hairs repeatedly enter each root hair through hole and are cut off by the cutting blade in the rotating process of the cutting shell due to the stretching property of the root hairs, thereby processing most root hairs on the outer surface of the sweet potatoes, realizing the rapid cutting processing of the root hairs on the outer surface of the sweet potatoes, effectively improving the working efficiency of the root hair processing, is suitable for large-scale processing.

Description

Sweet potato digging surface root hair processing device and implementation method thereof

Technical Field

The invention relates to the technical field of sweet potato processing equipment, in particular to a sweet potato digging surface root hair processing device and an implementation method thereof.

Background

The sweet potato is named as sweet potato, is an annual herbaceous plant, the underground part of the sweet potato has round, elliptical or spindle-shaped tuberous root, the stem is horizontal or ascended, occasionally wound, and has multiple branches, the shape and the color of the leaf are different according to different varieties, the sweet potato is usually wide oval, the length of the leaf stalk is different, the polypodium axillary, the egg shape or flat round of the capsule fruit, one to four seeds, usually two seeds and no hair, the sweet potato is a grain crop with high yield and strong adaptability, the sweet potato has close relation with industrial and agricultural production and people life, the tuberous root is also an important raw material in food processing and starch and alcohol manufacturing industries besides being used as a staple grain, the root, the stem and the leaf are excellent feed, a large amount of root hair is usually generated on the surface of the sweet potato due to uneven water distribution in the growth process, most of the root hair on the surface of the sweet potato is usually required to be cut after digging and recycling, but the sweet potato is usually processed by adopting a manual cutting mode at present, although the cleaning is clean, the processing method consumes a large amount of manpower and material resources, and has low processing efficiency.

Disclosure of Invention

The invention aims to provide a device for processing root hairs on the digging surface of sweet potatoes and an implementation method thereof, wherein the sweet potatoes are placed in a placing sleeve in a root hair processing base and are nested by a cutting shell in a root hair processing assembly at the upper side, the root hairs on the outer surface of the sweet potatoes can freely pass through a root hair perforation on the surface of the cutting shell, the cutting shell is driven to rotate by a driving motor through a driving shaft and an inner telescopic rod, so that the sweet potato root hairs passing through the root hair perforation are cut off by a cutting blade, and other root hairs repeatedly enter the root hair perforation and are cut off by the cutting blade due to the extensibility of the root hairs in the rotating process of the cutting shell, so that most of the root hairs on the outer surface of the sweet potatoes are processed, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a sweet potato excavation surface root hair processing apparatus, includes drive assembly, root hair processing assembly and root hair processing base, drive assembly's inside bottom installation root hair processing assembly, drive assembly's outside bottom installation root hair processing base.

The driving assembly comprises a driving shell, a motor sleeve, a driving motor, a clamping base, a driving shaft, a supporting spring, an inner telescopic rod, a locking hole, a bolt bayonet, a locking bolt, a connecting plate, a connecting bolt, an outer embedded ring, a heat dissipation hole and a fixing bolt, wherein the motor sleeve is arranged at the center of the top of the driving shell, the driving motor is arranged in the motor sleeve, the clamping base is arranged at the lower side of the motor sleeve, the driving shaft is arranged at the lower side of the clamping base, the supporting spring is arranged at the inner bottom end of the driving shaft, the tail end of the supporting spring is connected with the inner telescopic rod, the locking hole is arranged on the side surface of the inner telescopic rod, the bolt bayonet is arranged on the outer side surface of the driving shaft, the locking bolt is arranged in the bolt bayonet, the connecting plate is arranged at the bottom of the inner telescopic rod, the connecting bolt is arranged on the outer side of the, the external embedded ring is provided with heat dissipation holes, and the outer side of the lower end of the driving shell is provided with a fixing bolt.

Preferably, the root hair processing assembly includes base fishplate bar, central baffle, outer limiting plate, horizontal slideway, horizontal slider, cutting shell, hoop bayonet socket, positioning screw, location hoop, set nut, the perforation of root hair and cutting edge, the lower extreme center department of base fishplate bar is equipped with central baffle, the both sides of central baffle are equipped with horizontal slideway respectively, horizontal slideway's end is equipped with horizontal slider, horizontal slider's downside is equipped with the cutting shell, the upper end lateral surface of cutting shell is equipped with the hoop bayonet socket, be equipped with positioning screw in the hoop bayonet socket, last positioning screw passes through positioning nut installation location hoop, the side of cutting shell is equipped with the root hair perforation, be equipped with the cutting edge in the root hair perforation.

Preferably, the root hair processing base includes base shell, installation screw, supports sill bar, buffer spring, movable support rod, places the base, places sleeve pipe, cutting board, interior snap ring, collection frame and root hair and collects the net, the upper end side of base shell is equipped with the installation screw, the inside bottom center department of base shell is equipped with the support sill bar, the internally mounted buffer spring who supports the sill bar, buffer spring's top installation movable support rod, the top of movable support rod is equipped with places the base, the upside of placing the base is equipped with places the sleeve pipe, place sheathed tube internally mounted cutting board, be equipped with interior snap ring on the inner wall of base shell, the frame is collected in the installation on the interior snap ring, the bottom of collecting the frame is equipped with the root hair and collects the net.

Preferably, the cutting plate comprises a main plate body, a protective frame and a cutting blade for cutting a hole, the protective frame is mounted at the outer edge of the main plate body, the main plate body is provided with the cutting hole, and the cutting blade is arranged in the cutting hole.

Preferably, the cutting shell is formed by combining two half sleeves, and is clamped and fixed by a positioning hoop ring.

Preferably, the base connecting plate is fixed at the bottom of the connecting plate through a connecting bolt.

The invention provides another technical scheme: an implementation method of a sweet potato digging surface root hair processing device comprises the following steps:

the method comprises the following steps: placing the sweet potato with root hair in a placing sleeve in a root hair processing base and above a cutting plate;

step two: adjusting the actual extension length of an inner telescopic rod in the driving assembly according to the actual size of the sweet potatoes, and installing a root hair processing assembly;

step three: installing the driving assembly and the root hair processing assembly above the root hair processing base, so that the cutting shell is nested outside the sweet potato, and the root hair outside the sweet potato can freely pass through the root hair through hole on the surface of the cutting shell;

step four: starting a driving motor, driving the root hair processing assembly on the lower side to rotate by the driving motor through a driving shaft and an inner telescopic rod, so that the root hair on the outer side of the sweet potato repeatedly passes through the root hair perforation on the surface of the cutting shell and is cut off by a cutting blade in the root hair perforation;

step five: the cut sweet potato root hairs freely fall into the root hair processing base and are recovered by the internal root hair collecting net.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a device for processing root hairs on the digging surface of sweet potatoes and an implementation method thereof.A cutting shell is driven to rotate by a driving shaft and an inner telescopic rod through a driving motor, so that the sweet potato root hairs passing through the root hair through holes are cut off by cutting edges, and other root hairs repeatedly enter each root hair through hole and are cut off by the cutting edges in the rotating process of the cutting shell due to the extensibility of the root hairs, so that most of the root hairs on the outer surface of the sweet potatoes are processed, the rapid cutting-off processing of the root hairs on the outer surface of the sweet potatoes is realized, the working efficiency of the root hair processing is effectively improved, and the device is suitable for processing in large batch.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the drive assembly of the present invention;

FIG. 4 is a schematic external view of a root hair processing assembly according to the present invention;

FIG. 5 is a schematic cross-sectional view of a root hair processing assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of a root hair treatment base according to the present invention;

fig. 7 is a schematic structural view of the cutting plate of the present invention.

In the figure: 1. a drive assembly; 101. a drive housing; 102. a motor casing; 103. a drive motor; 104. the base is embedded in a clamping manner; 105. a drive shaft; 106. a support spring; 107. an inner telescoping rod; 108. a locking hole; 109. a bolt bayonet; 1010. a locking bolt; 1011. a connecting plate; 1012. a connecting bolt; 1013. an outer embedded ring; 1014. heat dissipation holes; 1015. fixing the bolt; 2. a root hair processing assembly; 21. a base plate receiving; 22. a central partition; 23. an outer limit plate; 24. a horizontal slideway; 25. a horizontal slider; 26. cutting the shell; 27. a hoop bayonet; 28. positioning a screw rod; 29. positioning a hoop; 210. positioning a nut; 211. perforating the root hair; 212. a cutting edge; 3. a root hair treatment base; 31. a base housing; 32. mounting a screw hole; 33. a support bottom bar; 34. a buffer spring; 35. a movable support rod; 36. placing a base; 37. placing a sleeve; 38. cutting a plate; 381. a main board body; 382. protecting the frame; 383. cutting a hole; 384. a cutting insert; 39. an inner snap ring; 310. a collection frame; 311. and collecting the net at the root.

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.

Referring to fig. 1-2, a device for processing root hairs on the digging surface of sweet potatoes comprises a driving assembly 1, a root hair processing assembly 2 and a root hair processing base 3, wherein the root hair processing assembly 2 is installed at the bottom end inside the driving assembly 1, and the root hair processing base 3 is installed at the bottom end outside the driving assembly 1.

Referring to fig. 3, the driving assembly 1 includes a driving housing 101, a motor sleeve 102, a driving motor 103, a fastening base 104, a driving shaft 105, a supporting spring 106, an inner telescopic rod 107, a locking hole 108, a bolt bayonet 109, a locking bolt 1010, a connecting plate 1011, a connecting bolt 1012, an outer embedding ring 1013, a heat dissipation hole 1014, and a fixing bolt 1015, wherein the motor sleeve 102 is disposed at the center of the top of the driving housing 101, the driving motor 103 is mounted inside the motor sleeve 102, the fastening base 104 is disposed at the lower side of the motor sleeve 102, the driving shaft 105 is mounted at the lower side of the fastening base 104, the supporting spring 106 is disposed at the bottom end of the driving shaft 105, the inner telescopic rod 107 is connected to the end of the supporting spring 106, the locking hole 108 is disposed at the side of the inner telescopic rod 107, the bolt bayonet 109 is disposed at the outer side of the driving shaft 105, the locking bolt 1010 is mounted in the bolt bayonet 109, a connecting bolt 1012 is mounted on the outer side of the connecting plate 1011, an outer fitting ring 1013 is provided on the outer side of the upper end of the drive housing 101, a heat radiation hole 1014 is provided on the outer fitting ring 1013, and a fixing bolt 1015 is mounted on the outer side of the lower end of the drive housing 101.

Referring to fig. 4-5, the root hair processing assembly 2 includes a base plate 21, a central partition 22, an outer limiting plate 23, a horizontal slideway 24, a horizontal slider 25, a cutting housing 26, a hoop clamping opening 27, a positioning screw 28, a positioning hoop 29, a positioning nut 210, a root hair perforation 211 and a cutting blade 212, the base plate 21 is fixed at the bottom of the connecting plate 1011 by a connecting bolt 1012, the central partition 22 is disposed at the center of the lower end of the base plate 21, the horizontal slideway 24 is disposed on each of two sides of the central partition 22, the horizontal slider 25 is disposed at the end of the horizontal slideway 24, the cutting housing 26 is disposed on the lower side of the horizontal slider 25, the hoop clamping opening 27 is disposed on the outer side surface of the upper end of the cutting housing 26, the positioning screw 28 is disposed in the hoop clamping opening 27, the positioning hoop 29 is mounted on the positioning screw 28 by the positioning nut 210, the cutting housing 26 is formed by combining two, the cutting case 26 has a root hair penetration hole 211 formed in a side surface thereof, and a cutting blade 212 is provided in the root hair penetration hole 211.

Referring to fig. 6, the base 3 includes a base housing 31, an installation screw hole 32, a bottom supporting rod 33, a buffer spring 34, a movable supporting rod 35, a placing base 36, a placing sleeve 37, a cutting plate 38, an inner clamp ring 39, a collecting frame 310 and a root hair collecting net 311, the upper end side of the base housing 31 is provided with the installation screw hole 32, the bottom supporting rod 33 is arranged at the center of the inner bottom end of the base housing 31, the buffer spring 34 is arranged inside the bottom supporting rod 33, the movable supporting rod 35 is arranged at the top of the buffer spring 34, the placing base 36 is arranged at the top of the movable supporting rod 35, the placing sleeve 37 is arranged at the upper side of the placing base 36, the cutting plate 38 is arranged inside the placing sleeve 37, the inner clamp ring 39 is arranged on the inner wall of the base housing 31, the collecting frame 310 is arranged on the inner clamp ring 39, and the root hair.

Referring to fig. 7, the cutting plate 38 includes a main plate body 381, a protection frame 382, and a cutting blade 384 of a cutting hole 383, wherein the protection frame 382 is installed at an outer edge of the main plate body 381, the main plate body 381 is provided with the cutting hole 383, and the cutting blade 384 is disposed in the cutting hole 383.

In order to better show the implementation process of the device for processing the root hairs on the digging surface of the sweet potato, the embodiment provides an implementation method of the device for processing the root hairs on the digging surface of the sweet potato, which comprises the following steps:

the method comprises the following steps: the sweet potato with the root hair is placed in a placing sleeve 37 in the root hair processing base 3 and is placed above a cutting plate 38;

step two: according to the actual size of the sweet potatoes, the actual extension length of an inner telescopic rod 107 in the driving component 1 is adjusted, and a root hair processing component 2 is installed;

step three: the driving component 1 and the root hair processing component 2 are arranged above the root hair processing base 3, so that the cutting shell 26 is nested outside the sweet potato, and the root hair outside the sweet potato can freely pass through the root hair through hole 211 on the surface of the cutting shell 26;

step four: starting the driving motor 103, driving the lower-side root hair processing assembly 2 to rotate by the driving motor 103 through the driving shaft 105 and the inner telescopic rod 107, so that the root hair on the outer side of the sweet potato repeatedly passes through the root hair through hole 211 on the surface of the cutting shell 26 and is cut off by the cutting blade 212 in the root hair through hole 211;

step five: the cut sweet potato root hairs freely fall into the root hair processing base 3 and are recovered by the inner root hair collecting net 311.

The working principle of the invention is as follows: the invention relates to a device for processing root hairs on the digging surface of sweet potatoes and an implementation method thereof, wherein the sweet potatoes are placed in a placing sleeve 37 in a root hair processing base 3 and are nested by a cutting shell 26 in a root hair processing assembly 2 at the upper side, wherein root hairs on the outer surface of the sweet potatoes can freely pass through a root hair through hole 211 on the surface of the cutting shell 26, the cutting shell 26 is driven to rotate by a driving motor 103 through a driving shaft 105 and an inner telescopic rod 107, so that the sweet potatoes passing through the root hair through hole 211 are cut off by a cutting blade 212, and other root hairs repeatedly enter each root hair through hole 211 and are cut off by the cutting blade 212 due to the extensibility of the root hairs in the rotating process of the cutting shell 26, thereby processing most root hairs on the outer surface of the sweet potatoes.

In summary, the following steps: the invention relates to a device for processing root hairs on the digging surface of sweet potatoes and an implementation method thereof, wherein the sweet potatoes are placed in a placing sleeve 37 in a root hair processing base 3 and are nested by a cutting shell 26 in a root hair processing assembly 2 at the upper side, wherein the root hairs on the outer surface of the sweet potatoes can freely pass through a root hair through hole 211 on the surface of the cutting shell 26, the cutting shell 26 is driven to rotate by a driving motor 103 through a driving shaft 105 and an inner telescopic rod 107, so that the sweet potatoes passing through the root hair through hole 211 are cut off by a cutting blade 212, meanwhile, other root hairs repeatedly enter each root hair through hole 211 and are cut off by the cutting blade 212 in the rotating process of the cutting shell 26 due to the stretching property of the root hairs, thereby processing most root hairs on the outer surface of the sweet potatoes, the device has a complete and reasonable structure, realizes the rapid cutting processing of the root hairs on the outer surface of the sweet potatoes, and effectively improves the working efficiency of the root, is suitable for large-scale processing.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides a sweet potato is excavated surface root palpus processing apparatus, includes drive assembly (1), root palpus processing assembly (2) and root palpus processing base (3), its characterized in that: a root hair processing assembly (2) is arranged at the bottom end of the interior of the driving assembly (1), and a root hair processing base (3) is arranged at the bottom end of the exterior of the driving assembly (1);

the driving assembly (1) comprises a driving shell (101), a motor sleeve (102), a driving motor (103), a clamping and embedding base (104), a driving shaft (105), a supporting spring (106), an inner telescopic rod (107), a locking hole (108), a bolt bayonet (109), a locking bolt (1010), a connecting plate (1011), a connecting bolt (1012), an outer embedding ring (1013), a heat dissipation hole (1014) and a fixing bolt (1015), wherein the motor sleeve (102) is arranged at the center of the top of the driving shell (101), the driving motor (103) is installed in the motor sleeve (102), the clamping and embedding base (104) is arranged on the lower side of the motor sleeve (102), the driving shaft (105) is installed on the lower side of the clamping and embedding base (104), the supporting spring (106) is arranged at the bottom end in the driving shaft (105), and the inner telescopic rod (107) is connected with the tail end of the supporting spring (106), the side of interior telescopic link (107) is equipped with locking hole (108), the outside side of drive shaft (105) is equipped with bolt bayonet socket (109), installation locking bolt (1010) in bolt bayonet socket (109), the bottom of interior telescopic link (107) is equipped with connecting plate (1011), outside installation connecting bolt (1012) of connecting plate (1011), the upper end outside of drive shell (101) is equipped with outer caulking ring (1013), be equipped with louvre (1014) on outer caulking ring (1013), the lower extreme outside installation fixing bolt (1015) of drive shell (101).

2. A yam excavation surface root hair treatment apparatus as claimed in claim 1, wherein: the root hair processing assembly (2) comprises a base connecting plate (21), a central partition plate (22), an outer limiting plate (23), a horizontal slide way (24), a horizontal sliding block (25), a cutting shell (26), hoop bayonets (27), positioning screws (28), positioning hoops (29), positioning nuts (210), root hair perforation holes (211) and cutting edges (212), wherein the central partition plate (22) is arranged at the center of the lower end of the base connecting plate (21), the horizontal slide way (24) is respectively arranged on two sides of the central partition plate (22), the horizontal sliding block (25) is arranged at the tail end of the horizontal slide way (24), the cutting shell (26) is arranged on the lower side of the horizontal sliding block (25), the hoop bayonets (27) are arranged on the outer side surface of the upper end of the cutting shell (26), the positioning screws (28) are arranged in the hoop bayonets (27), and the positioning hoops (29) are installed on the positioning screws, the side of cutting shell (26) is equipped with root hair perforation (211), be equipped with cutting edge (212) in root hair perforation (211).

3. A yam excavation surface root hair treatment apparatus as claimed in claim 1, wherein: the root hair processing base (3) comprises a base shell (31), an installation screw hole (32), a supporting bottom rod (33), a buffer spring (34), a movable supporting rod (35), a placing base (36), a placing sleeve (37), a cutting plate (38), an inner clamping ring (39), a collecting frame (310) and a root hair collecting net (311), wherein the installation screw hole (32) is formed in the side face of the upper end of the base shell (31), the supporting bottom rod (33) is arranged at the center of the bottom end inside the base shell (31), the buffer spring (34) is arranged inside the supporting bottom rod (33), the movable supporting rod (35) is arranged at the top of the buffer spring (34), the placing base (36) is arranged at the top of the movable supporting rod (35), the placing sleeve (37) is arranged on the upper side of the placing base (36), and the cutting plate (38) is arranged inside the placing sleeve (37), be equipped with interior snap ring (39) on the inner wall of base shell (31), install collection frame (310) on interior snap ring (39), the bottom of collecting frame (310) is equipped with root hair and collects net (311).

4. A yam excavation surface root hair treatment apparatus as claimed in claim 3, wherein: the cutting plate (38) comprises a main plate body (381), a protective frame (382) and a cutting blade (384) of a cutting hole (383), wherein the protective frame (382) is installed at the outer edge of the main plate body (381), the main plate body (381) is provided with the cutting hole (383), and the cutting blade (384) is arranged in the cutting hole (383).

5. A yam excavation surface root hair treatment apparatus as claimed in claim 2, wherein: the cutting shell (26) is formed by combining two groups of half sleeves and is clamped and fixed by a positioning hoop ring (29).

6. A yam excavation surface root hair treatment apparatus as claimed in claim 2, wherein: the base connecting plate (21) is fixed at the bottom of the connecting plate (1011) through a connecting bolt (1012).

7. A method of implementing an apparatus for processing root hairs on a digging surface of sweet potatoes as claimed in any one of claims 1 to 6, comprising the steps of:

s1: sweet potatoes with root hairs are placed in a placing sleeve (37) in a root hair processing base (3) and are placed above a cutting plate (38);

s2: according to the actual size of the sweet potatoes, the actual extension length of an inner telescopic rod (107) in the driving component (1) is adjusted, and a root hair processing component (2) is installed;

s3: installing the driving assembly (1) and the root hair processing assembly (2) above the root hair processing base (3) to enable the cutting shell (26) to be nested outside the sweet potatoes, and enabling the root hairs outside the sweet potatoes to freely pass through root hair through holes (211) on the surface of the cutting shell (26);

s4: starting a driving motor (103), driving the lower-side root hair processing assembly (2) to rotate by the driving motor (103) through a driving shaft (105) and an inner telescopic rod (107), enabling root hairs on the outer side of the sweet potatoes to repeatedly pass through a root hair through hole (211) on the surface of a cutting shell (26), and cutting off the root hairs by a cutting blade (212) in the root hair through hole (211);

s5: the cut sweet potato root hairs freely fall into the root hair processing base (3) and are recovered by the internal root hair collecting net (311).

Images