CN116602210A - Assembly line for tissue culture seedling segmentation-inoculation operation - Google Patents

Abstract

The invention discloses a production line for tissue culture seedling segmentation-inoculation operation, which comprises a conveying mechanism, a seedling cutting device and a seedling planting device, wherein tissue culture seedlings on a tissue culture seedling conveying belt are manually spread out and thrown into the seedling cutting device one by one, the seedling cutting devices are respectively arranged at two sides of a culture tank conveying belt, the seedlings are manually placed at a seedling throwing funnel, and a tissue culture Miao Jingyou cutting blade to be cut is cut through a pair of extrusion rollers which are arranged in a row to row manner, and falls into a guide pipe through a seedling discharging port to prepare for seedling planting; two pots of seedling planting-fixing operation can be completed every two beats. The tissue culture seedlings cut by the seedling cutting device are arranged above the culture tank through the fixing plates at the tail ends of the seedling planting guide pipes in different directions; the uniformity of the tissue culture seedlings in the container is ensured, and the tissue culture seedlings placed in each pot fall into the pot from the transverse seedling planting pipe and the longitudinal seedling planting pipe respectively. The invention can replace the rapid cutting and inoculating operation of tissue culture seedlings with high professional requirements and high labor intensity by simple and low-intensity manual operation.

Description

Assembly line for tissue culture seedling segmentation-inoculation operation

Technical Field

The invention relates to the technical field of tissue culture production, in particular to a production line for tissue culture seedling segmentation-inoculation operation.

Background

The tissue culture propagation production operation requires a culture professional to perform operations such as tissue culture seedling segmentation, inoculation (seedling planting) and the like. Because the inoculation amount is large, workers need to repeatedly operate, the labor intensity is high, the operation quality is unstable, and the production efficiency is difficult to meet the requirement of mass production.

Disclosure of Invention

The invention aims to provide a production line for tissue culture seedling segmentation-inoculation operation, which solves the problems in the prior art, can improve the tissue culture production operation efficiency, reduce the manual operation intensity, ensure the operation quality of key links such as inoculation, control the production labor cost and improve the survival rate of the tissue culture seedlings.

In order to achieve the above object, the present invention provides the following solutions: the invention provides a production line for tissue culture seedling dividing-inoculating operation, which comprises

The conveying mechanism comprises a culture tank conveying belt and a tissue culture seedling conveying belt, the culture tank is clamped and mounted on the culture tank conveying belt, and the tissue culture seedling conveying belt is used for conveying tissue culture seedlings; and

the seedling cutting device comprises a driving motor, a seedling throwing funnel, a cutting blade, a seedling discharging port and two squeeze rollers, flexible bulges are distributed on the surfaces of the squeeze rollers, two ends of the squeeze rollers are fixed on a shell through bearings, and one side of each squeeze roller is connected with the driving motor; the two squeeze rollers rotate inwards at a constant speed relatively, the seedling throwing hopper is arranged at the top of the shell, and the tissue culture seedlings on the tissue culture seedling conveying belt are manually placed into the seedling throwing hopper; a gap is reserved between the two squeeze rollers, the cutting blades fixed at the bottom of the shell are arranged under the gap of the two squeeze rollers, and the bottoms of the cutting blades are seedling outlet of the shell; and

the seedling planting device is arranged below the seedling cutting device and comprises a frame, a transverse seedling planting pipe, a longitudinal seedling planting pipe, a seedling planting fixing plate and a vibration mechanism, wherein a plurality of seedling cutting devices are arranged on two sides of the culture tank conveying belt, and the positions of the seedling cutting devices are staggered; the bottoms of the seedling discharging ports of the seedling cutting devices positioned on the same side of the culture tank conveying belt are connected with a transverse seedling planting pipe and a longitudinal seedling planting pipe at intervals; the two ends of the horizontal seedling planting pipe and the vertical seedling planting pipe are respectively fixedly connected with the seedling discharging opening and the seedling planting fixing plate, the seedling planting fixing plate is used for contacting the top surface of the culture tank, the cut tissue culture seedlings are planted in the culture tank after falling through the transverse seedling planting pipes or the longitudinal seedling planting pipes.

Preferably, a fixed flexible clamping plate is arranged on the culture tank conveying belt and used for clamping and fixing the culture tank.

Preferably, four seedling cutting devices are arranged on two sides of the culture tank conveying belt, and the positions of the four seedling cutting devices are staggered; the bottoms of the seedling discharging ports of the two seedling cutting devices positioned on the same side of the culture tank conveying belt are respectively connected with the transverse seedling planting pipe and the longitudinal seedling planting pipe.

Preferably, the number of the horizontal seedling planting pipes or the vertical seedling planting pipes connected with the bottom of the seedling outlet of the seedling cutting device is two, the seedling planting directions of the two horizontal seedling planting pipes are parallel to the conveying direction of the conveying belt of the culture tank, and the seedling planting directions of the two vertical seedling planting pipes are perpendicular to the conveying direction of the conveying belt of the culture tank; the seedling planting action of each seedling cutting device is to plant the seedlings once at intervals of one culture tank.

Preferably, both ends of the horizontal seedling planting pipe and the vertical seedling planting pipe are hard pipes, the middle of the horizontal seedling planting pipe and the vertical seedling planting pipe is a flexible hose, the horizontal seedling planting pipe and the vertical seedling planting pipe which are positioned on the same side of the culture tank conveying belt are connected with the same vibrating plate together, the driving end of the vibrating plate is a double-side inner rack, and the double-side inner rack at the driving end of the vibrating plate is meshed with a gear on a rotating shaft of the vibrating motor.

Preferably, the seedling fixing device comprises a seedling fixing tail end, a seedling fixing cylinder and a seedling fixing plate, the seedling fixing plate is further arranged on the rear side of a station of the seedling cutting device in the frame, the seedling fixing cylinder is mounted on the seedling fixing plate, the tail end of the seedling fixing cylinder is connected with the seedling fixing tail end, and the seedling fixing tail end is used for pressing down tissue culture seedlings falling into the culture tank.

Preferably, the lower end of the seedling fixing end is a flexible cylindrical block; the seedling fixing cylinder moves once every time the conveying belt of the culture tank steps by one unit.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention relates to a production line for tissue culture seedling segmentation-inoculation operation, which comprises a conveying mechanism, a seedling cutting device and a seedling planting device, wherein tissue culture seedlings are integrally taken out onto a tissue culture seedling conveying belt through an end effector, are manually spread out and thrown into the seedling cutting device one by one, the seedling cutting devices are respectively arranged at two sides of a culture tank conveying belt, the seedlings are manually placed at a seedling throwing funnel, and are cut by a tissue culture Miao Jingyou cutting blade to be cut through a pair of extrusion rollers, and fall into a guide pipe through a seedling outlet for seedling planting; two pots of seedling planting-fixing operation can be completed every two beats. The tissue culture seedlings cut by the seedling cutting device are arranged above the culture tank through the fixing plates at the tail ends of the seedling planting guide pipes in different directions; the uniformity of the tissue culture seedlings in the container is ensured, and the tissue culture seedlings placed in each pot fall into the pot from the transverse seedling planting pipe and the longitudinal seedling planting pipe respectively. The invention can replace the rapid cutting and inoculating operation of tissue culture seedlings with high professional requirements and high labor intensity by simple and low-intensity manual operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of a production line for tissue culture seedling dividing-inoculating operation in an embodiment of the present invention;

FIG. 2 is a schematic station distribution diagram of a line for tissue culture seedling dividing-inoculating operation;

FIG. 3 is a structural view of a transfer belt of the culture tank;

FIG. 4 is an isometric view of a seedling cutting device;

FIG. 5 is a side view of the seedling cutting device;

FIG. 6 is a cross-sectional view taken along A-A of FIG. 5;

FIG. 7 is a structural view of the seedling planting device and the seedling fixing device;

FIG. 8 is a side view of the planting device and the fixing device;

wherein, 1, a conveying belt of a culture tank; 11. a conveyor belt; 12. a flexible splint; 13. a culture tank; 2. a tissue culture seedling conveying belt; 3. a seedling cutting device; 31. miao Loudou; 32. a driving motor; 33. a housing; 34. a seedling opening; 35. a squeeze roll; 36. a cutting blade; 4. a seedling planting device; 41. a seedling tube is transversely planted; 42. a seedling tube is longitudinally planted; 43. a seedling planting fixing plate; 44. a vibration plate; 45. a vibration motor; 5. a seedling fixing device; 51. a frame; 52. a seedling fixing cylinder; 53. fixing the seedling fixing plate; 54. fixing seedling ends; 6. a manual station; 7. a seedling planting station; 8. a seedling cutting station; 9. and a seedling fixing station.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide a production line for tissue culture seedling segmentation-inoculation operation, which solves the problems in the prior art, can improve the tissue culture production operation efficiency, reduce the manual operation intensity, ensure the operation quality of key links such as inoculation, control the production labor cost and improve the survival rate of the tissue culture seedlings.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1 to 8, the invention provides a production line for tissue culture seedling dividing-inoculating operation, which comprises a conveying mechanism, a seedling cutting device 3, a seedling planting device 4 and a seedling fixing device 5.

The conveying mechanism comprises a culture tank conveying belt 1 and a tissue culture seedling conveying belt 2, the culture tank conveying belt 1 and the tissue culture seedling conveying belt 2 are vertically arranged, the two sides of the middle of the tissue culture seedling conveying belt 2 are respectively provided with a manual station 6, the culture tank conveying belt 1 is provided with a fixed flexible clamping plate 12 for clamping and fixing a culture tank 13, and the two tissue culture seedling conveying belts 2 convey the tissue culture seedlings taken out from the culture tank 13 towards the middle.

The seedling cutting device 3 consists of a driving motor 32, a seedling throwing funnel 31, squeeze rollers 35, cutting blades 36 and seedling discharging openings 34, wherein flexible protrusions are distributed on the surfaces of the squeeze rollers 35, two ends of the squeeze rollers are fixed on a shell 33 through bearings, one side of the squeeze rollers is connected with the structural driving motor 32, the squeeze rollers 35 rotate at constant speed inwards relatively, a gap is reserved between the squeeze rollers for clamping tissue culture seedlings placed by the seedling throwing funnel 31 manually, the cutting blades 36 fixed at the bottoms of the shell 33 are arranged under the gap of the squeeze rollers 35, the seedlings are pushed to the cutting blades 36 through the clamping of the squeeze rollers 35 to be cut, and cut seedling fragments fall into a seedling guiding pipe along with the funnel-shaped seedling discharging openings 34 to perform seedling planting operation.

The planting device 4 is arranged below the seedling cutting device 3, the planting device 4 comprises a frame 51, a horizontal planting tube 41, a vertical planting tube 42, a planting fixing plate 43, a vibration plate 44 and a vibration motor 45, wherein 4 tissue culture seedlings need to be uniformly inoculated to each culture tank 13, two types of planting tubes are fixedly designed, namely the horizontal planting tube 41 and the vertical planting tube 42, are distributed in pairs, two ends of the planting tube are respectively and fixedly connected to a lower seedling opening 34 of the seedling cutting device 3 and the planting fixing plate 43 through hard tubes, a vibration plate 44 is arranged in the middle of the planting tube, one vibration plate 44 is connected with two pairs of seedling guiding tubes on one side, one end of the vibration plate 44 is meshed with gears on the rotating shaft of the vibration motor 45 in a bilateral mode, left-right vibration is realized through positive and negative rotation of the vibration motor 45, and seedlings are placed in the seedling guiding tubes. Two seedling planting devices 4 are respectively arranged on two sides of the seedling cutting device 3, seedling planting pipes at the bottoms of the seedling planting devices 4 on the same side are different, one is a transverse seedling planting pipe 41, and the other is a longitudinal seedling planting pipe 42; the seedling planting device 4 positioned at the same side performs seedling planting on the culture tank 13 twice, thereby realizing four-seedling cutting cross distribution.

In order to ensure that seedlings can be fixed in agar of the culture tank 13, a seedling fixing device 5 is arranged behind the seedling planting device 4, the seedling fixing device 5 comprises a seedling fixing tail end 54, a seedling fixing cylinder 52 and a seedling fixing plate 53, the lower end of the seedling fixing tail end 54 is a flexible cylindrical block, the upper end of the seedling fixing tail end is fixed at the tail end of the seedling fixing cylinder 52, the seedling fixing cylinder 52 is fixed on the seedling fixing plate 53, and the culture tank conveying belt 1 moves once every step by one unit, so that seedling fixing operation is realized.

The working process of the assembly line for the tissue culture seedling dividing-inoculating operation in the invention is as follows:

the tissue culture seedlings are integrally taken out onto the tissue culture seedling conveying belt 2 through the end effector, are manually spread out and thrown into the seedling cutting device 3 one by one, the seedling cutting stations 8 are respectively arranged on two sides of the seedling planting station 7, the seedling fixing station 9 is arranged at the rear of the seedling planting station 7, and two-pot seedling planting-fixing operation can be completed every two beats.

The seedling is manually placed at the seedling-throwing funnel 31, the tissue culture seedling to be cut is cut by the cutting blade 36 through the row pair rotating squeeze rollers 35, and falls into the guide tube through the seedling-discharging port 34 to prepare for seedling planting.

The tissue culture Miao Zhimiao is that the segmented tissue culture Miao Junyun is placed on a culture medium of a tissue culture container, a seedling planting mechanism is mainly divided into two steps of seedling planting and seedling fixing, and the tissue culture seedlings segmented by the seedling cutting mechanism are arranged above a combination tank through fixing plates by the tail ends of seedling planting guide pipes in different directions; ensuring the uniformity of the tissue culture seedlings in the container, placing 4 tissue culture seedlings in each pot, and respectively dropping the 4 tissue culture seedlings into the pot by the transverse and longitudinal seedling planting pipes 42; in order to prevent the tissue culture seedling from being blocked in the pipe, a micro amplitude vibration plate driven by a motor is arranged at the middle part of the seedling planting pipe.

The four seedling cutting stations 8 are arranged in a crossing manner, two persons are used for placing tissue culture seedlings, the tail end of the seedling fixing mechanism is driven by the air cylinder to be provided with a flexible pressing plate, and the tissue culture seedlings thrown in the tank can be more beneficial to the cultivation of the tissue culture seedlings.

The labor intensity is high in the existing tissue culture Miao Qiemiao and inoculation operation, the professional requirement is high, and the input cost of professionals in the tissue culture seedling segmentation-inoculation operation can be reduced through the present production line; the method is simple and efficient, the seedling throwing work of two cutting devices can be simultaneously carried out at one station, the expertise of staff is reduced, and accurate cutting can be realized; the method combines the steps of the pot supply conveyor belt 11 (one step beat is the center distance of two adjacent pots) by putting 4 segmented seedlings into agar in the culture pot 13 through the transverse seedling guide pipes and the longitudinal seedling guide pipes, can finish seedling planting output of the two pots in one beat, and greatly improves the working efficiency under manual operation only.

The invention is characterized in that:

1. the invention can realize the automatic operation of segmentation-inoculation in tissue culture operation, and can greatly reduce the labor cost of manpower;

2. the seedling cutting-planting-fixing integrated workbench adopts flexible seedling guiding pipes with different distributions, improves the seedling planting efficiency, adopts a vibration mode to assist in seedling discharging, and increases a seedling fixing station 9 to enable seedlings planted with agar to go deeper;

3. a flexible extrusion type seedling cutting device 3.

It should be noted that it will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

The principles and embodiments of the present invention have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present invention; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (7)

1. A production line for tissue culture seedling dividing-inoculating operation, characterized in that: comprising

The conveying mechanism comprises a culture tank conveying belt and a tissue culture seedling conveying belt, the culture tank is clamped and mounted on the culture tank conveying belt, and the tissue culture seedling conveying belt is used for conveying tissue culture seedlings; and

the seedling cutting device comprises a driving motor, a seedling throwing funnel, a cutting blade, a seedling discharging port and two squeeze rollers, flexible bulges are distributed on the surfaces of the squeeze rollers, two ends of the squeeze rollers are fixed on a shell through bearings, and one side of each squeeze roller is connected with the driving motor; the two squeeze rollers rotate inwards at a constant speed relatively, the seedling throwing hopper is arranged at the top of the shell, and the tissue culture seedlings on the tissue culture seedling conveying belt are manually placed into the seedling throwing hopper; a gap is reserved between the two squeeze rollers, the cutting blades fixed at the bottom of the shell are arranged under the gap of the two squeeze rollers, and the bottoms of the cutting blades are seedling outlet of the shell; and

the seedling planting device is arranged below the seedling cutting device and comprises a frame, a transverse seedling planting pipe, a longitudinal seedling planting pipe, a seedling planting fixing plate and a vibration mechanism, wherein a plurality of seedling cutting devices are arranged on two sides of the culture tank conveying belt, and the positions of the seedling cutting devices are staggered; the bottoms of the seedling discharging ports of the seedling cutting devices positioned on the same side of the culture tank conveying belt are connected with a transverse seedling planting pipe and a longitudinal seedling planting pipe at intervals; the two ends of the horizontal seedling planting pipe and the vertical seedling planting pipe are respectively fixedly connected with the seedling discharging opening and the seedling planting fixing plate, the seedling planting fixing plate is used for contacting the top surface of the culture tank, the cut tissue culture seedlings are planted in the culture tank after falling through the transverse seedling planting pipes or the longitudinal seedling planting pipes.

2. The assembly line for tissue culture seedling dividing-inoculating operation according to claim 1, wherein: the culture tank conveying belt is provided with a fixed flexible clamping plate, and the flexible clamping plate is used for clamping and fixing the culture tank.

3. The assembly line for tissue culture seedling dividing-inoculating operation according to claim 1, wherein: four seedling cutting devices are arranged on two sides of the culture tank conveying belt in a total mode, and the positions of the four seedling cutting devices are staggered; the bottoms of the seedling discharging ports of the two seedling cutting devices positioned on the same side of the culture tank conveying belt are respectively connected with the transverse seedling planting pipe and the longitudinal seedling planting pipe.

4. A pipeline for tissue culture seedling dividing-inoculating operation according to claim 3, characterized in that: the number of the transverse seedling planting pipes or the longitudinal seedling planting pipes connected with the bottom of the seedling outlet of the seedling cutting device is two, the seedling planting directions of the two transverse seedling planting pipes are parallel to the conveying direction of the conveying belt of the culture tank, and the seedling planting directions of the two longitudinal seedling planting pipes are perpendicular to the conveying direction of the conveying belt of the culture tank; the seedling planting action of each seedling cutting device is to plant the seedlings once at intervals of one culture tank.

5. The assembly line for tissue culture seedling dividing-inoculating operation according to claim 1, wherein: the seedling planting device comprises a seedling planting pipe, a vibrating plate driving end and a rotating shaft, wherein the two ends of the seedling planting pipe are hard pipes, the middle of the seedling planting pipe and the middle of the seedling planting pipe are flexible hoses, the vibrating plate is positioned on the same side of a conveying belt of a culture tank, the seedling planting pipe and the seedling planting pipe are connected with the same vibrating plate jointly, the driving end of the vibrating plate is a double-side inner rack, and the double-side inner rack at the driving end of the vibrating plate is meshed with a gear on a rotating shaft of a vibrating motor.

6. The assembly line for tissue culture seedling dividing-inoculating operation according to claim 1, wherein: still including solid seedling device, solid seedling device includes solid seedling end, solid seedling cylinder and solid seedling fixed plate, be located in the frame cut the station rear side of seedling device still be provided with solid seedling fixed plate, solid seedling cylinder installs solid seedling fixed plate is last, solid seedling cylinder's end-to-end connection has solid seedling end, solid seedling end is used for falling into the group that cultivates in the jar banks up the seedling and pushes down.

7. The assembly line for tissue culture seedling dividing-inoculating operation according to claim 6, wherein: the lower end of the seedling fixing end is a flexible cylindrical block; the seedling fixing cylinder moves once every time the conveying belt of the culture tank steps by one unit.