CN115229874A

CN115229874A - Wild soybean pythium root rot multistage section sampling device

Info

Publication number: CN115229874A
Application number: CN202210938556.XA
Authority: CN
Inventors: 杨光; 毕影东; 李炜; 来永才; 刘淼; 邸树峰; 梁文卫; 刘建新; 樊超; 王玲; 丁国华; 夏天舒; 孙兵; 谢婷婷; 李佳锐
Original assignee: Institute of Tillage and Cultivation Heilongjiang Academy of Agricultural Sciences
Current assignee: Institute of Tillage and Cultivation Heilongjiang Academy of Agricultural Sciences
Priority date: 2022-08-05
Filing date: 2022-08-05
Publication date: 2022-10-25

Abstract

The invention discloses a wild soybean pythium root rot multi-section slicing and sampling device, which relates to the technical field of slicing devices, and comprises a bottom plate and further comprises: the fixed mounting frame is arranged on one side of the bottom plate, the mounting column is rotationally arranged in the mounting frame, and one end of the mounting column is fixedly sleeved with the fixed disc; the slicing mechanism is arranged on one side of the mounting frame and comprises a connecting rod fixedly arranged on one side of the bottom of the mounting frame, one side of the connecting rod is fixedly connected with a limiting beam, two sides of the limiting beam are fixedly connected with a blanking barrel, two sides in the blanking barrel are slidably connected with sliding blocks, the side walls of the sliding blocks are fixedly connected with electric clamping columns, the mounting columns simultaneously drive a bearing disc and a fixed disc to intermittently rotate according to the slicing thickness required actually, when different material guide barrels correspond to materials, the falling distances of the materials are different, and under the action of a cutting assembly, the materials are continuously cut in multiple sections and different sizes; and the driving mechanism is arranged on one side of the mounting frame and used for driving the limiting mechanism and the slicing mechanism.

Description

Wild soybean pythium root rot multistage section sampling device

Technical Field

The invention relates to the technical field of slicing devices, in particular to a wild soybean pythium root rot multi-section slicing and sampling device.

Background

Wild soybean belongs to climbing type plant, and when climbing the growth, the stem portion coils on the support, and the bending degree is higher, and wild soybean branch number is more, and typical wild soybean stem and branch are distinguished not obviously, twine each other during the field growth, when wild soybean actually grows, can appear rotten root phenomenon, under this kind of circumstances, need carry out the sample observation research of cutting into slices, judge the pathogenic factor, and then be convenient for administer.

Traditional section device generally all is artifical material loading when actually using, then intermittent type section, and this kind of operating means, work efficiency is lower, and to the actual section sample simultaneously, need adjust sliced thickness according to the research type difference, traditional section device however can not cut out the sample of different thickness with higher efficiency from same root soybean plant, and then is not convenient for carry out polytype experiment, and the practicality is not high.

Disclosure of Invention

The invention provides a wild soybean pythium root rot multi-section slicing and sampling device, which solves the problems in the background art.

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

the utility model provides a wild soybean pythium root rot multistage section sampling device, includes the bottom plate, still includes: the fixed mounting frame is arranged on one side of the bottom plate, the mounting column is rotationally arranged in the mounting frame, and one end of the mounting column is fixedly sleeved with the fixed disc; the slicing mechanism is arranged on one side of the mounting frame and comprises a connecting rod fixedly arranged on one side of the bottom of the mounting frame, one side of the connecting rod is fixedly connected with a limiting beam, two sides of the limiting beam are fixedly connected with a blanking barrel, two sides in the blanking barrel are connected with sliding blocks in a sliding mode, the side wall of each sliding block is fixedly connected with an electric clamping column, one end of the blanking barrel is provided with a feeding hole, and the outer side of the blanking barrel is provided with a cutting assembly;

the limiting mechanisms are arranged on two sides of the fixed disc and comprise material guide cylinders, the material guide cylinders are in sliding penetrating connection with the fixed disc, the side walls of the material guide cylinders are fixedly connected with fixed rods, one sides of the fixed rods are fixedly connected with air cylinders, sealing blocks are in sliding connection in the air cylinders, one sides of the sealing blocks are fixedly connected with stop rods, one ends of the stop rods are sleeved with telescopic pieces, one ends of the stop rods penetrate through the side walls of the material guide cylinders, extend into the material guide cylinders and are in sliding connection with the side walls of the material guide cylinders, telescopic pipes are fixedly connected between the air cylinders and the fixed disc, air inlet grooves are formed in the fixed disc on one side of the telescopic pipes, air supply assemblies are arranged on two sides of the installation frame, adjusting assemblies are arranged between the material guide cylinders and the fixed disc, one ends of the installation columns penetrate through the fixed disc, one ends of the installation columns are fixedly sleeved with bearing discs, through holes are formed in two ends of the bearing discs, balls are rotatably arranged on two sides of the through holes, the bearing discs are used for adjusting the distance between the material guide cylinders and the fixed disc to intermittently rotate, when different material guide cylinders correspond to the material, the material falls, and the material are continuously cut in different sizes under the action of the cutting assemblies; and the driving mechanism is arranged on one side of the mounting frame and used for driving the limiting mechanism and the slicing mechanism.

As a preferred technical scheme of the invention, the cutting assembly comprises a movable rod, the top of the movable rod is in sliding connection with a limiting beam, an elastic part is fixedly connected between the movable rod and the blanking barrel, and one end of the movable rod is fixedly connected with a cutting knife.

As a preferred technical scheme of the invention, the gas supply assembly comprises a gas pump fixedly arranged on the side wall of the mounting frame, one side of the gas pump is fixedly connected with a gas outlet head, two sides of the bottom of the bearing disc are fixedly connected with surrounding rods, one end of each surrounding rod is fixedly connected with the fixed disc, one end of the gas inlet groove penetrates through the surrounding rods, the gas outlet head is matched with the surrounding rods, and when the fixed disc drives the surrounding rods to rotate and correspond to the gas outlet head, the gas outlet head can send gas into the gas inlet groove through the surrounding rods.

As a preferred technical scheme of the invention, the adjusting assembly comprises positioning blocks fixedly arranged on two sides of the material guiding cylinder, wherein one end of one positioning block is provided with an adjusting rod in a threaded penetrating manner, one end of the other positioning block is provided with a limiting column in a sliding penetrating manner, the side wall of the limiting column is provided with scale marks, one end of the adjusting rod is rotatably connected with the fixed disk, one end of the limiting column is fixedly connected with the fixed disk, the material guiding cylinder can be driven to move by rotating the adjusting rod, and accurate adjusting and positioning are realized under the action of the scale marks.

As a preferred technical scheme, the driving mechanism comprises a driving motor fixedly arranged on one side of the mounting frame, one end of the limiting beam is rotatably penetrated and provided with a driving column, one end of the driving column is fixedly connected with the end part of an output shaft of the driving motor, one end of the driving column is fixedly sleeved with an elliptical wheel, the side walls of movable rods on two sides of the elliptical wheel are rotatably connected with rollers, and the rollers are correspondingly arranged in contact with the elliptical wheel.

As a preferable technical scheme of the invention, one end of the driving column is fixedly connected with the incomplete gear, the end part of the mounting column is fixedly connected with the transmission gear, and the transmission gear is in meshing transmission connection with the incomplete gear.

As a preferred technical scheme of the invention, the bottom plates on two sides of the mounting column are fixedly connected with the material guide platform, two sides of the top wall of the mounting frame are fixedly connected with the feed hopper, and the feeding barrel and the side wall of the mounting frame are fixedly connected with the mounting arm.

The invention has the following advantages: when the device is used, rhizomes to be sliced penetrate through the feed inlet and are placed into the discharging barrel, the top end of the rootstocks is placed between the electric clamping columns, the rootstocks are clamped and fixed under the action of the electric clamping columns, the other end of the rootstocks is placed on the bearing disc, then the adjusting rod is rotated according to the thickness of the slices actually required, the guide cylinder is driven to move under the action of the positioning block, the comparison is carried out under the action of the scale marks on the limiting column, then the driving motor is started to drive the driving column to rotate, the driving column drives the transmission gear to rotate through the incomplete gear, the transmission gear drives the bearing disc and the fixed disc on the mounting column to rotate intermittently, when the through hole on the bearing disc corresponds to the rootstocks, the rootstocks fall into the guide cylinder under the action of gravity, at the moment, the gas outlet head on one side of the gas pump is correspondingly communicated with the gas inlet groove, and gas enters the gas cylinder through the telescopic pipe, the device has the advantages that the stop rod on one side of the sealing block is driven to move into the guide cylinder under the action of pressure intensity to limit the rhizome, the movable rod is driven to move by the idler wheel under the action of the elliptical wheel, the movable rod drives the cutting knife to move to cut the rhizome, the guide cylinder resets under the action of the elastic piece, after the cutting is completed, the incomplete gear drives the mounting column to rotate by the transmission gear again, the mounting column drives the cut rhizome to rotate, the upper end of the uncut rhizome immediately falls on the bearing plate, the guide cylinder corresponding to the next through opening rotates to the whole rhizome, the height of the stop rod is different due to different adjusting heights of the guide cylinder, the size of the fallen rhizome is also different, when the rhizome is cut, slices with different thicknesses can be cut, the device is convenient to operate and use as a whole, the cutting efficiency is high, and the slicing processing of multiple thicknesses can be efficiently performed on one end of a plant, wide application range and high practicability.

Drawings

FIG. 1 is a schematic structural diagram of a wild soybean Pythium root rot multi-section slice sampling device main body.

Fig. 2 is an enlarged structural schematic diagram of a in fig. 1.

Fig. 3 is an enlarged structural schematic diagram of B in fig. 1.

FIG. 4 is a schematic structural diagram of a transmission gear in a wild soybean pythium root rot multi-section slice sampling device.

FIG. 5 is a schematic structural diagram of an elliptical wheel in a wild soybean Pythium root rot multi-section slice sampling device.

In the figure: 1. a base plate; 2. a material guide table; 3. fixing the disc; 4. mounting a column; 5. a carrier tray; 6. a material guide cylinder; 7. adjusting a rod; 8. a surrounding rod; 9. an air outlet head; 10. an air pump; 11. a limiting column; 12. a port; 13. a cutting knife; 14. a movable rod; 15. a drive column; 16. an elliptical wheel; 17. an elastic member; 18. feeding the material barrel; 19. a feed inlet; 20. a feed hopper; 21. a limiting beam; 22. a drive motor; 23. a connecting rod; 24. mounting an arm; 25. a slider; 26. an electric clamping column; 27. a roller; 28. installing a frame; 29. fixing the rod; 30. a stop lever; 31. an air cylinder; 32. a telescoping member; 33. a sealing block; 34. an incomplete gear; 35. a transmission gear; 36. a ball bearing; 37. a telescopic pipe; 38. an air inlet groove; 39. positioning a block; 40. a slicing mechanism; 41. a cutting assembly; 42. a gas supply assembly; 43. an adjustment assembly; 44. a drive mechanism; 45. a limiting mechanism.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

Example 1

Referring to fig. 1-5, a multi-section slice sampling device for wild soybean pythium root rot includes a bottom plate 1, and further includes: the fixed mounting frame 28 is arranged on one side of the bottom plate 1, the mounting column 4 is rotatably arranged in the mounting frame 28, and one end of the mounting column 4 is fixedly sleeved with the fixed disc 3; the slicing mechanism 40 is arranged on one side of the mounting frame 28 and comprises a connecting rod 23 fixedly arranged on one side of the bottom of the mounting frame 28, one side of the connecting rod 23 is fixedly connected with a limiting beam 21, two sides of the limiting beam 21 are fixedly connected with a blanking barrel 18, two sides in the blanking barrel 18 are slidably connected with a sliding block 25, the side wall of the sliding block 25 is fixedly connected with an electric clamping column 26, one end of the blanking barrel 18 is provided with a feeding hole 19, and the outer side of the blanking barrel 18 is provided with a cutting assembly 41;

the limiting mechanism 45 arranged on two sides of the fixed disk 3 comprises a material guide cylinder 6, the material guide cylinder 6 is in sliding through connection with the fixed disk 3, the side wall of the material guide cylinder 6 is fixedly connected with a fixing rod 29, one side of the fixing rod 29 is fixedly connected with an air cylinder 31, the air cylinder 31 is in sliding connection with a sealing block 33, one side of the sealing block 33 is fixedly connected with a stop lever 30, one end of the stop lever 30 is sleeved with a telescopic piece 32, one end of the stop lever 30 penetrates through the side wall of the material guide cylinder 6, extends into the material guide cylinder 6 and is in sliding connection with the side wall of the material guide cylinder 6, a telescopic pipe 37 is fixedly connected between the air cylinder 31 and the fixed disk 3, an air inlet groove 38 is arranged in the fixed disk 3 on one side of the telescopic pipe 37, air supply components 42 are arranged on two sides of the mounting frame 28, an adjusting component 43 is arranged between the material guide cylinder 6 and the fixed disk 3, one end of the mounting column 4 penetrates through the fixed disk 3, one end of the mounting column is fixedly sleeved with the bearing disk 5, through holes 12 are formed in two ends of the bearing disk 5, balls 36 are rotatably arranged on the end faces of the bearing disk 5 on two sides of each through hole 12, the distance between the material guide cylinder 6 and the cutting component 41 is adjusted through the adjusting component 43 according to the actual required slice thickness, the mounting column 4 simultaneously drives the bearing disk 5 and the fixed disk 3 to rotate intermittently, when different material guide cylinders 6 correspond to materials, the falling distances of the materials are different, and the materials are continuously cut in multiple sections and different sizes under the action of the cutting component 41; a driving mechanism 44 is provided on one side of the mounting frame 28 for driving the limiting mechanism 45 and the slicing mechanism 40.

When the device is used, the rootstocks to be sliced are put into the lower charging barrel 18 through the feeding hole 19, the top ends of the rootstocks are placed between the electric clamping columns 26, the rootstocks are clamped and fixed under the action of the electric clamping columns 26, and the other ends of the rootstocks are placed on the bearing tray 5.

Example 2

Referring to fig. 1 to 5, the other contents of the present embodiment are the same as embodiment 1, except that: the cutting assembly 41 comprises a movable rod 14, the top of the movable rod 14 is slidably connected with a limiting beam 21, an elastic part 17 is fixedly connected between the movable rod 14 and the blanking barrel 18, one end of the movable rod 14 is fixedly connected with the cutting knife 13, and the elastic part 17 can be a spring with telescopic property or an elastic metal sheet.

Air supply unit 42 is including fixed setting in the air pump 10 of installing frame 28 lateral wall, and air pump 10 one side fixed connection goes out gas head 9, bear 5 bottom both sides fixed connection surrounding rod 8 of dish, surround 8 one ends of pole and fixed disk 3 fixed connection, enclosing rod 8 is passed to air inlet duct 38 one end, and gas head 9 sets up with enclosing rod 8 cooperation, and when fixed disk 3 drove enclosing rod 8 and rotate and correspond with gas head 9, gas head 9 can send gas into air inlet duct 38 through enclosing rod 8.

The adjusting assembly 43 comprises positioning blocks 39 fixedly arranged on two sides of the guide cylinder 6, one end of one positioning block 39 is threaded and provided with an adjusting rod 7, one end of the other positioning block 39 is slid and provided with a limiting column 11, the side wall of the limiting column 11 is provided with scale marks, one end of the adjusting rod 7 is rotatably connected with the fixed disk 3, one end of the limiting column 11 is fixedly connected with the fixed disk 3, the adjusting rod 7 can drive the guide cylinder 6 to move through rotation, and accurate adjusting and positioning are realized under the action of the scale marks.

Actuating mechanism 44 sets up in the driving motor 22 of installing frame 28 one side including fixed, spacing beam 21 one end is rotated and is run through and set up driving column 15, driving column 15 one end and driving motor 22's output shaft end fixed connection, the fixed cover of driving column 15 one end connects elliptical wheel 16, and the movable rod 14 lateral wall of elliptical wheel 16 both sides rotates and connects gyro wheel 27, and gyro wheel 27 corresponds the setting with the contact of elliptical wheel 16, and when elliptical wheel 16 rotated, through contacting with gyro wheel 27, the movable rod 14 was driven and is removed.

One end of the driving column 15 is fixedly connected with the incomplete gear 34, the end part of the mounting column 4 is fixedly connected with the transmission gear 35, the transmission gear 35 is in meshing transmission connection with the incomplete gear 34, the driving motor 22 drives the driving column 15 to rotate, the driving column 15 drives the transmission gear 35 to rotate through the incomplete gear 34, and the transmission gear 35 drives the bearing disc 5 and the fixing disc 3 on the mounting column 4 to intermittently rotate.

Fixed connection guide platform 2 on the bottom plate 1 of 4 sides of erection column, mounting frame 28 roof both sides fixed connection feeder hopper 20, fixed connection installation arm 24 between lower feed cylinder 18 and the 28 lateral walls of mounting frame, during the actual unloading, the material is derived through guide platform 2, is convenient for collect.

When the through hole 12 on the bearing disc 5 corresponds to the rhizome, the rhizome falls into the guide cylinder 6 under the action of gravity, the air outlet head 9 on one side of the air pump 10 is correspondingly communicated with the air inlet groove 38 at the moment, air enters the air cylinder 31 through the telescopic pipe 37, the stop lever 30 on one side of the sealing block 33 is driven to move into the guide cylinder 6 under the action of pressure, the rhizome is limited, the movable rod 14 is driven to move through the roller 27 under the action of the elliptical wheel 16, the movable rod 14 drives the cutting knife 13 to move, the rhizome is cut, and the rhizome is reset under the action of the elastic piece 17.

After the cutting is completed for one time, the incomplete gear 34 drives the mounting column 4 to rotate through the transmission gear 35 again, the mounting column 4 drives the cut rhizome to rotate, the upper end of the uncut rhizome immediately falls on the bearing plate 5, and in the mode that the material guide cylinder 6 corresponding to the next through opening 12 rotates to the position where the rhizome is completely removed, due to the fact that the height of the material guide cylinder 6 is different, the height of the stop rod 30 is also different, the size of the fallen rhizome is also different, and when the rhizome is cut, slices with different thicknesses can be cut.

The device operation is convenient overall, cuts efficiently, can be efficient carry out the section processing of multiple different thickness to the one end plant, and application range is wide, and the practicality is higher.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a wild soybean pythium root rot multistage section sampling device, includes the bottom plate, its characterized in that still includes:

the mounting frame is arranged on one side of the bottom plate, a mounting column is arranged in the mounting frame, and a fixed disc is arranged at one end of the mounting column;

the slicing mechanism is arranged on one side of the mounting frame and comprises a connecting rod fixedly arranged on one side of the mounting frame, one side of the connecting rod is fixedly connected with a limiting beam, two sides of the limiting beam are fixedly connected with a lower charging barrel, two sides in the lower charging barrel are connected with sliding blocks in a sliding mode, the side wall of each sliding block is fixedly connected with an electric clamping column, one end of the lower charging barrel is provided with a feeding hole, and the outer side of the lower charging barrel is provided with a cutting assembly;

the limiting mechanisms are arranged on two sides of the fixed disk and comprise material guide cylinders, the material guide cylinders are connected with the fixed disk in a sliding and penetrating manner, the side walls of the material guide cylinders are fixedly connected with fixed rods, one sides of the fixed rods are fixedly connected with air cylinders, sealing blocks are connected in the air cylinders in a sliding manner, one sides of the sealing blocks are fixedly connected with stop rods, one ends of the stop rods are sleeved with telescopic parts, one ends of the stop rods penetrate through the side walls of the material guide cylinders and extend into the material guide cylinders, telescopic pipes are fixedly connected between the air cylinders and the fixed disk, air inlet grooves are formed in the fixed disk on one side of each telescopic pipe, air supply assemblies are arranged on two sides of the installation frame, an adjusting assembly is arranged between each material guide cylinder and the fixed disk, one ends of the installation columns penetrate through the fixed disk and are fixedly sleeved with bearing disks, through holes are formed in two ends of the bearing disks on two sides of each through the bearing disk, balls are arranged on the end surfaces of the bearing disks on two sides of each through the opening, the installation columns simultaneously drive the bearing disks and the intermittent rotation of the fixed disks, when different material guide cylinders correspond to the materials, and the materials are continuously cut under the action of the cutting assemblies;

and the driving mechanism is arranged on one side of the mounting frame and used for driving the limiting mechanism and the slicing mechanism.

2. The wild soybean pythium root rot multi-section slice sampling device as claimed in claim 1, wherein the cutting assembly comprises a movable rod, the top of the movable rod is slidably connected with a limit beam, an elastic part is fixedly connected between the movable rod and the blanking barrel, and one end of the movable rod is fixedly connected with a cutting knife.

3. The wild soybean pythium root rot multi-section slicing and sampling device as claimed in claim 1, wherein the air supply assembly comprises an air pump fixedly arranged on a side wall of the mounting frame, one side of the air pump is fixedly connected with an air outlet head, two sides of the bottom of the carrier plate are fixedly connected with surrounding rods, one end of each surrounding rod is fixedly connected with the fixed plate, and one end of the air inlet groove penetrates through the surrounding rods.

4. The wild soybean pythium root rot multi-section slicing and sampling device as claimed in claim 1, wherein the adjusting assembly comprises positioning blocks fixedly arranged on both sides of the material guiding cylinder, one end of one of the positioning blocks is threaded through to form an adjusting rod, one end of the other positioning block is slidably threaded through to form a limiting column, and the side wall of the limiting column is provided with scale marks.

5. The multi-section wild soybean pythium root rot section sampling device as claimed in claim 1, wherein the driving mechanism comprises a driving motor fixedly arranged on one side of the mounting frame, one end of the limiting beam is rotatably arranged to penetrate through a driving column, one end of the driving column is fixedly sleeved with an elliptical wheel, and the movable rod side walls on two sides of the elliptical wheel are rotatably connected with rollers.

6. The wild soybean pythium root rot multi-section slice sampling device as claimed in claim 5, wherein one end of the driving column is fixedly connected with an incomplete gear, the end of the mounting column is fixedly connected with a transmission gear, and the transmission gear is in meshing transmission connection with the incomplete gear.

7. The wild soybean pythium root rot multi-section slicing and sampling device as claimed in claim 1, wherein the bottom plates on both sides of the mounting post are fixedly connected with a material guiding platform, and both sides of the top wall of the mounting frame are fixedly connected with a feeding hopper.