CN111252321A

CN111252321A - Maize sample mark device

Info

Publication number: CN111252321A
Application number: CN201911039920.3A
Authority: CN
Inventors: 李明言; 刘春晓; 李宗新; 张慧
Original assignee: Jinan Qiyuan Information Technology Co Ltd
Current assignee: Jinan Qiyuan Information Technology Co Ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-06-09

Abstract

The corn sampling and marking device is used for marking the sampled corns. It includes: the base is provided with traveling wheels; the shell is arranged above the base and fixedly connected with the base, and a placing cavity for placing the label card is formed in the top of the shell; the rubber band sleeving unit comprises a rubber band sleeving device and a driving mechanism, wherein a circular hole is formed in the rubber band sleeving device, a cylinder is fixedly installed at the bottom of the rubber band sleeving device, and the rubber band sleeving device and the cylinder are placed in a central hole in the shell; a plurality of groups of brackets are fixed on the outer wall of the cylinder, belt pulleys are rotatably mounted on the brackets, a belt is arranged between the belt pulleys on the two brackets which are arranged in groups, and a plurality of rubber bands which are arranged at equal intervals are sleeved between the belts; a driving mechanism for driving the belt pulley to rotate is arranged in the shell; and the feeding mechanism is used for pushing the label card in the placing cavity out of the inner side of the cylinder. The invention can conveniently realize the marking of the corn cobs.

Description

Maize sample mark device

Technical Field

The invention relates to the technical field of corn breeding research, in particular to a corn sampling and marking device.

Background

In the breeding research work of corn, the corn needs to be sampled after being matured so as to carry out the seed test research. During the sampling process, the most important thing is to mark the sampled corn cobs so as to distinguish the corn cobs. In the prior art, when marking the corn cobs, a first person usually marks the corn cobs, a second person bundles the corn cobs with the marks, and a third person collects the corn cobs. In this operation mode, a lot of manpower is required, and even if one person completes the work, the work efficiency is low.

Disclosure of Invention

The invention aims to provide a corn sampling and marking device which is used for marking corn after sampling.

The technical scheme adopted by the invention for solving the technical problems is as follows: maize sample marking device, characterized by, it includes:

the base is provided with traveling wheels;

the shell is arranged above the base and fixedly connected with the base, a placing cavity for placing the label card is formed in the top of the shell, and different digital marks are arranged on the label cards in different placing cavities;

the rubber band sleeving unit comprises a rubber band sleeving device and a driving mechanism, wherein a circular hole is formed in the rubber band sleeving device, a cylinder is fixedly installed at the bottom of the rubber band sleeving device, and the rubber band sleeving device and the cylinder are placed in a central hole in the shell; a plurality of groups of brackets are fixed on the outer wall of the cylinder, belt pulleys are rotatably mounted on the brackets, a belt is arranged between the belt pulleys on the two brackets which are arranged in groups, and a plurality of rubber bands which are arranged at equal intervals are sleeved between the belts; a driving mechanism for driving the belt pulley to rotate is arranged in the shell;

and the feeding mechanism is used for pushing the label card in the placing cavity out of the inner side of the cylinder.

Furthermore, a support rod is arranged between the base and the shell.

Furthermore, the rubber band sleeving device is of a regular hexagon structure, and a blind hole is formed in the side wall of the rubber band sleeving device.

Furthermore, the total length of the rubber band sleeving device and the cylinder is smaller than the depth of the central hole, and side holes which correspond to the placing cavities one to one are arranged on the side wall of the cylinder.

Furthermore, the driving mechanism comprises a driving gear and a worm which are rotatably installed at the bottom of the central hole and coaxially arranged, a worm wheel which is meshed with the worm and coaxially arranged with the driving wheel, gear rings arranged on the inner sides of the driving wheels, supporting wheels which are arranged outside the gear rings and meshed with the gear rings, and driven gears which are coaxially arranged with a belt pulley on the lower portion of the cylinder, wherein one of the supporting wheels is driven by a motor to rotate.

Furthermore, the center hole is a through hole which penetrates through the upper surface and the lower surface of the shell, a sealing plate groove is formed in the lower portion of the shell, a sealing plate is arranged in the sealing plate groove, a swing rod is fixed on the sealing plate and is hinged with the shell, a torsion spring is arranged between the swing rod and the shell, and the sealing plate blocks the center hole under the action of the torsion spring.

Furthermore, the feeding mechanism comprises a push rod connected with the shell in a sliding manner, a push plate fixed on the push rod and arranged in a sliding groove in the shell in a sliding manner, a limiting plate arranged on the outer wall of the push rod, and a spring arranged between the limiting plate and the shell; a baffle is arranged on one side of the placing cavity close to the axis of the central hole, and the thickness of a gap between the baffle and the placing cavity is the same as that of the label card; a lower sliding surface is arranged between the central hole and the placing cavity.

Furthermore, a cover plate for sealing the placing cavity is arranged at the top of the shell.

The invention has the beneficial effects that: the corn sampling and marking device is convenient to operate, and when the corn sampling and marking device is used, corn cobs are sequentially placed in the circular holes of the rubber band sleeving device, and then the second handle is pushed, so that the corresponding tag card can be moved to the periphery of the corn cobs, and the rubber bands can be sleeved on the corn cobs; the first handle is then swung to drop the corn cobs into the collection bag.

Drawings

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

FIG. 2 is a schematic top view of the rubber band retainer;

FIG. 3 is a three-dimensional schematic view of a rubber band retainer;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is a schematic view of a drive mechanism;

FIG. 6 is a schematic view of the assembly of the base and the housing;

FIG. 7 is a schematic view of a housing bottom blocking mechanism;

FIG. 8 is a schematic view of a closure plate;

FIG. 9 is a schematic view of the storage of the tag card;

FIG. 10 is a schematic view of a label card feed mechanism;

FIG. 11 is a schematic view of the tab card sliding down the center hole;

in the figure: the device comprises a shell 1, a central hole 11, a placement cavity 12, a lower sliding surface 13, a guide hole 14, a cover plate 15, a plate sealing groove 16, a swing rod cavity 17, a handrail 18, a baffle 19, a base 2, a supporting rod 21, a traveling wheel 22, a rubber band sleeving device 3, a cylinder 31, a round hole 32, a blind hole 33, a support 34, a belt pulley 35, a belt 36, a driven gear 37, a side hole 38, a driving gear 4, a worm 41, a worm gear 42, a gear ring 43, a motor 44, a supporting wheel 45, a driving wheel 46, a sealing plate 5, a swing rod 51, a first handle 52, a label card 6, a push plate 7, a push rod 71, a second handle 72, a limiting plate 73.

Detailed Description

As shown in fig. 1 to 11, the present invention mainly includes a housing 1, a base 2, a rubber band nesting unit and a feeding mechanism, and the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and 6, the casing 1 is a cylindrical hollow structure, the casing is a metal piece or a plastic piece, the base 2 is arranged below the casing, a plurality of support rods 21 are arranged between the base and the casing, the support rods are used for fixedly connecting the base and the casing together, and the base is provided with traveling wheels 22 so as to facilitate the overall movement. The length of the supporting rod can be adjusted to meet the requirements of users with different heights. A central hole 11 is provided in the center of the housing and penetrates the upper and lower surfaces of the housing. A plurality of (such as 6) placing cavities 12 which are uniformly arranged along the circumferential direction are formed in the upper surface of the shell, the placing cavities are used for placing the label cards 6, the label cards are rectangular cards, the front surface and the back surface of each label card are marked with numbers, and the label cards in different placing cavities are marked with different numbers; the numbers marked on the label cards in different placing cavities are different in the circumferential sequence, but are numbered in sequence, such as numbers 1-6. As shown in fig. 9 and 10, a lower sliding surface 13 is provided between the central hole and the placing cavity, the lower sliding surface is an inclined surface, and the tag card in the placing cavity slides down along the lower sliding surface and then enters the central hole. The top of the shell is provided with a plurality of cover plates 15, and the cover plates are arranged at the upper part of the placing cavity and used for sealing the placing cavity; when the label card is placed into the placing cavity, the cover plate is opened, and the cover plate can be connected with the inner wall of the placing cavity through the hinge.

As shown in fig. 7 and 8, a sealing plate groove 16 and a swing rod cavity 17 which are communicated with each other are arranged at the lower part of the shell, wherein the sealing plate groove is also communicated with the central hole. A circular sealing plate 5 is arranged in the sealing plate groove, a swing rod 51 is fixed on the sealing plate, a first end of the swing rod is fixedly connected with the sealing plate, and a first handle 52 is fixed at a second end of the swing rod. The swing rod is hinged with the shell, the sealing plate can be driven to swing in the groove of the sealing plate in a natural state by operating the first handle, a torsion spring is arranged between the swing rod and the shell, and the lower part of the central hole is blocked by the sealing plate under the action of the torsion spring. When the first handle is operated, the sealing plate and the central hole can be staggered, and the central hole is communicated.

A rubber band sleeving device 3 is detachably arranged in the central hole, as shown in fig. 2 to 4, the rubber band sleeving device is of a regular polygon structure, and the edge of the rubber band sleeving device is provided with a round angle. The rubber band nesting device is internally provided with a round hole 32, and the lower surface of the rubber band nesting device is fixed with a cylinder 31 which is of a cylindrical structure and is fixedly connected with the rubber band nesting device. A number of side holes 38 are provided in the lower part of the cylinder. The six side surfaces of the rubber band nesting device are respectively provided with a blind hole 33 so as to be convenient for holding the rubber band nesting device. Six sets of brackets 34 are fixed to the outer wall of the cylinder, pulleys 35 are rotatably mounted on the brackets, and belts 36 are disposed between the pulleys on the brackets arranged in sets. When in use, the cylinder is placed in the central hole, and the axial dimension of the central hole is larger than the height of the cylinder. The upper part of the central hole is used for accommodating the lower part of the rubber band sleeving device, and after the rubber band sleeving device is placed in the central hole, the rubber band sleeving device and the shell can be fixed relatively.

A driving mechanism for driving the belt pulley to rotate is arranged in the shell and comprises a driven gear 37, a driving gear 4, a worm 41, a worm wheel 42, a gear ring 43, a supporting wheel 45, a driving wheel 46 and a motor 44. The supports arranged in groups are arranged up and down, and a driven gear 37 coaxially arranged with the belt pulley is rotatably arranged on the support below. The lower part of the central hole is provided with a plurality of driving gears 4 which are rotatably connected with the shell, the driving gears are meshed with the driven gears, the driving gears are coaxially arranged with a worm 41, the worm is rotatably connected with the shell, the worm is meshed with a worm wheel 42, and the worm wheel is rotatably connected with the shell. The worm wheel is arranged coaxially with the driving wheel 46, and a gear ring 43 is arranged on the inner side of the circumference enclosed by the driving wheels, and the gear ring is engaged with the driving wheel. And three supporting wheels 45 are further arranged on the outer side of the gear ring, the supporting wheels are uniformly arranged on the same circumference, the supporting wheels are meshed with the gear ring, one of the supporting wheels is a driving part, and the supporting wheels rotate under the driving of a motor 44. When the gear ring supporting device works, the motor acts to drive the supporting wheels to rotate, and the three supporting wheels not only play a role in supporting the gear ring, but also drive the gear ring to rotate. The ring gear is rotatory, drives the drive wheel and rotates, and then drives the worm wheel and rotate, and then drives the worm and rotate, and then drives the driving gear and rotate, and then drives driven gear and rotate, and then drives the belt pulley of below and rotate, and then drives the motion of belt. Rubber bands are arranged among the belts and are sleeved on the belts after being stretched. Before the use, a plurality of rubber bands are sleeved on the belt in advance, and the rubber bands are basically arranged at equal intervals from top to bottom. The belt and the rubber band have friction force, and the rubber band can move along with the belt under the action of the friction force. Under the effect of belt, the rubber band from top to bottom removes, and after the rubber band breaks away from the belt, the pulling force that the rubber band self receives reduces, and the rubber band dwindles and overlaps under self elasticity and put on the corn-on-cob.

In order to move the tag card to the periphery of the corn cob, a feeding mechanism is arranged on the shell, as shown in fig. 10 and 11, the feeding mechanism comprises a push plate 7, a push rod 71, a limiting plate 73 and a spring 74, the push plate is a rectangular plate, the push plate is fixedly connected with the push rod, and the push rod is movably arranged in a guide hole 14 on the side wall of the shell. The shell is internally provided with a sliding groove for accommodating the push plate, and the push plate is arranged in the sliding groove in a sliding manner. A limiting plate 73 is fixed on the outer wall of the push rod, a spring 74 is arranged between the limiting plate and the shell, the push plate is located on the inner sides of the circumferences of the plurality of placing cavities under the action of the spring, a second handle 72 is fixed on the push rod, the second handle is pushed in the shell, the spring can be compressed, and the push plate moves in the placing cavities. The baffle 16 is arranged in the placing cavity, a gap is formed between the lower surface of the baffle and the bottom of the placing cavity, the thickness of the gap is the same as that of the label card, and the label card placed at the lowest part of the placing cavity can be pushed out of the placing cavity after the push plate enters the placing cavity, as shown in fig. 11, the pushed label card enters the lower sliding surface and slides downwards along the lower sliding surface to enter the central hole, then passes through the side hole in the side face of the cylinder to enter the cylinder and is attached to the periphery of a corn cob. After the second handle is released, the push rod and the push plate are reset under the action of the spring. The guiding hole is communicated with the sliding groove, the sliding groove is communicated with the placing cavity, and the placing cavity is communicated with the central hole.

In order to facilitate the integral movement, a handrail 18 is fixed on the outer wall of the shell, and an operator holds the handrail to push the integral movement. And the top of the shell is provided with a label which corresponds to the placing cavities one by one, and the number on the label card in the placing cavity corresponds to the label. In order to facilitate the work of the motor, a travel switch is arranged in the sliding groove and is used for being in contact with the push rod. When the push rod is contacted with the travel switch, the travel switch sends a signal to the controller, the controller controls the motor to perform delay action, the motor acts for a period of time (such as 2s), the belt moves for a distance at the moment, and the rubber band at the lowest part of the belt is separated from the belt in the process. In order to collect the marked corn cobs, a collecting bag is arranged between the base and the shell and can be hung at the bottom of the shell.

The method of use of the invention is described below:

(1) arranging the corn cobs picked up by sampling according to a certain sequence, wherein the sequence can be the size sequence of the corn cobs, the plump degree sequence of corn kernels or the combination of the two sequences, firstly, placing the best corn cobs in the round holes of the rubber band sleeving device, enabling the corn cobs to fall under the dead weight until the corn cobs are contacted with the sealing plate, and then, supporting the corn cobs by the sealing plate;

(2) pushing a second handle corresponding to the No. ① placing cavity, so that the push plate moves towards the center of the shell until the push plate pushes out the label card at the bottom of the No. ① placing cavity, and at the moment, the label card slides downwards along the lower sliding surface and passes through the side hole and then is attached to the periphery of the corn cob;

(3) the motor acts, the rubber band positioned at the lowest part on the belt is sleeved on the corn cobs, and the label card and the corn cobs are bound together by the rubber band;

(4) swinging the first handle to make the sealing plate staggered with the central hole, and dropping the corn cobs on the sealing plate into the collecting bag under the self-weight;

(5) placing the second best corn cob into the round hole of the rubber band sleeving device, and repeating the steps (2) - (4) to finish the marking of the second corn cob;

(6) and (5) repeating the steps (2) to (5) to finish marking other corn cobs, so that the corn cobs and the corresponding label cards are bound together through rubber bands.

Claims

1. Maize sample marking device, characterized by, it includes:

the base is provided with traveling wheels;

2. The corn sampling and marking device of claim 1 wherein a support rod is disposed between the base and the housing.

3. The corn sampling and marking device as claimed in claim 1, wherein the rubber band nesting device is a regular hexagon structure, and a blind hole is formed on the side wall of the rubber band nesting device.

4. The corn sampling and marking device as claimed in claim 1, wherein the total length of the rubber band sleeving device and the cylinder is less than the depth of the central hole, and side holes corresponding to the placing cavities one by one are formed on the side wall of the cylinder.

5. The corn sampling and marking device of claim 1, wherein the driving mechanism comprises a driving gear and a worm rotatably mounted at the bottom of the central hole and coaxially disposed, a worm wheel engaged with the worm and coaxially disposed with the driving wheel, a plurality of gear rings disposed inside the driving wheels, a supporting wheel disposed outside the gear rings and engaged with the gear rings, and a driven gear coaxially disposed with the belt pulley at the lower portion of the cylinder, wherein one of the supporting wheels is rotated by a motor.

6. The corn sampling and marking device as claimed in claim 1, wherein the central hole is a through hole penetrating the upper and lower surfaces of the housing, a sealing plate groove is formed in the lower portion of the housing, a sealing plate is disposed in the sealing plate groove, a swing rod is fixed to the sealing plate, the swing rod is hinged to the housing, a torsion spring is disposed between the swing rod and the housing, and the sealing plate blocks the central hole under the action of the torsion spring.

7. The corn sampling and marking device according to claim 1, wherein the feeding mechanism comprises a push rod connected with the housing in a sliding manner, a push plate fixed on the push rod and arranged in a sliding groove in the housing in a sliding manner, a limit plate arranged on the outer wall of the push rod, and a spring arranged between the limit plate and the housing; a baffle is arranged on one side of the placing cavity close to the axis of the central hole, and the thickness of a gap between the baffle and the placing cavity is the same as that of the label card; a lower sliding surface is arranged between the central hole and the placing cavity.

8. The corn sampling and marking device of claim 1 wherein a cover plate is provided on the top of the housing to seal the placement chamber.