CN112514692A

CN112514692A - Biological breeding is with experimental contrast of hybridization cultivation scale testing arrangement

Info

Publication number: CN112514692A
Application number: CN202011367542.4A
Authority: CN
Inventors: 刘理杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2021-03-19

Abstract

The invention discloses a hybridization test contrast breeding large-scale testing device for biological breeding, which comprises a base, a motor, a water-absorbing sponge layer and a cleaning rod, wherein the motor is embedded in the base, the output end of the motor penetrates through the base and is connected with an installation rod, a connecting rod is fixed on the outer side of the installation rod, a cover plate is installed at the top of a cultivating box, an installation frame is fixed on the inner wall of the cultivating box through bolts, the water-absorbing sponge layer and a soil layer are respectively placed in a cultivating basin from bottom to top, a limiting rod is fixed on the outer side of a blocking ball, an installation ring is fixed on the top of the base, a guide ball is integrally arranged at the top of a bottom rod, and a support is fixed at the edge of the top of the base through. This scale testing arrangement is cultivated with hybridization test contrast to biological breeding realizes the automatic persistence of nutrient solution, avoids manual or the automatic trouble of replenishing of electric property, can make multiple even sunshine that shines of growing seedlings simultaneously, avoids influencing test data.

Description

Biological breeding is with experimental contrast of hybridization cultivation scale testing arrangement

Technical Field

The invention relates to the technical field of biological breeding, in particular to a hybridization test contrast cultivation large-scale testing device for biological breeding.

Background

The growth process of plant organisms is mainly planting and cultivating seeds, many mature edible plants can supplement various required nutrients for human bodies, in order to improve the excellence and economic benefits of plant growth, such as the maturation period and yield of organisms, the research is usually realized by researching hybrid organisms, when the hybridization research is carried out on novel organisms, the cultivation test is usually carried out, and a hybridization test cultivation testing device is used, however, the existing hybridization test cultivation testing device has the following problems when in use:

when organisms are subjected to hybridization test cultivation, the optimal test data is generally summarized through various hybridization characteristics, and a contrast test needs to be carried out;

meanwhile, the hybridization cultivation for biological seedling cultivation is a long-term process, nutrition required by growth needs to be maintained, and nutrition is usually supplied in a form of preparing nutrient solution, but the conventional hybridization test cultivation testing device is inconvenient for automatic supplement work of the nutrient solution, and the manual addition of the nutrient solution or the electric timing addition of the nutrient solution is troublesome.

In order to solve the above problems, innovative design based on the original hybridization test cultivation testing device is urgently needed.

Disclosure of Invention

The invention aims to provide a hybridization test contrast cultivation large-scale testing device for biological breeding, which solves the problems that the existing hybridization test cultivation testing device provided by the background technology is inconvenient to maintain the uniform irradiation of sunlight on a plurality of groups of test seedlings and is inconvenient for automatic supplement work of nutrient solution.

In order to achieve the purpose, the invention provides the following technical scheme: a hybridization test contrast cultivation scale testing device for biological breeding comprises a base, a motor, a water-absorbing sponge layer and a cleaning rod, wherein the motor is embedded in the base, the output end of the motor penetrates through the base and is connected with an installation rod, the installation rod is positioned above the base, the outer side of the installation rod is fixed with a connecting rod, the edge end shaft of the connecting rod is connected with a cultivation box, the top of the cultivation box is provided with a cover plate, the outer side of the cultivation box is provided with a water inlet pipe in a penetrating manner, the inner wall of the cultivation box is fixed with a mounting frame through bolts, a cultivation basin is placed on the mounting frame, the water-absorbing sponge layer and a soil layer are respectively placed in the cultivation basin from bottom to top, the bottom of the cultivation basin is provided with a water inlet, a blocking ball is placed in the water inlet, the outer side of the blocking ball is fixed with a limiting rod, the limiting rod is positioned in a limiting, and be fixed with first spring between the top of gag lever post and the spacing groove, the top of base is fixed with the collar, and the top of collar has seted up the activity groove to the sill bar has been placed in the activity inslot, the top an organic whole of sill bar is provided with the guide ball, and the guide ball is located the adjustment tank to the bottom of artificial containers is seted up to the adjustment tank, the top edge bolt fastening of base has the support, and the inboard top edge hub connection of support has the clearance pole, and the clearance pole is located the top of artificial containers, is fixed with the second spring between the top of clearance pole and the support moreover.

Preferably, the incubator is arc structural design, and the incubator is provided with 4 about the central axis symmetry of installation pole to angular distribution such as cultivation basin in the incubator has 3.

Preferably, the cross-section of the water inlet is designed to be a conical structure, the maximum diameter of the top of the water inlet is larger than the diameter of the blocking ball, and the minimum diameter of the bottom of the water inlet is smaller than the diameter of the blocking ball.

Preferably, the limiting rod forms an elastic sliding structure through the first spring and the limiting groove, and the limiting rod is symmetrically provided with 4 limiting rods around the central axis of the blocking ball.

Preferably, the bottom rod is designed to be a cylindrical structure, the diameter of the bottom rod is equal to the width of the movable groove, and the movable groove is designed to be a circular structure.

Preferably, a guide rod is fixed on the inner side of the bottom rod, one end of the guide rod is located in the guide groove, the guide groove is formed in the outer side of the guide ring, the guide ring is fixed on the top of the base, and the guide ring is located on the inner side of the mounting ring.

Preferably, the guide ball is connected with the adjusting groove in a sliding mode, and the diameter of the guide ball is larger than the width of the opening at the bottom of the adjusting groove.

Preferably, the guide rod is in fit sliding connection with the guide groove, and the guide groove is distributed on the guide ring in a wave-shaped circumference mode.

Preferably, the guide ring and the mounting ring are parallel to each other, and the guide ring and the mounting ring share a common central axis with the mounting rod.

Compared with the prior art, the invention has the beneficial effects that: the hybridization test contrast cultivation scale testing device for biological breeding;

1. through the four cultivation boxes with the equal-angle distribution arc-shaped structures, the biological breeding seedlings with different hybridization characteristics can be cultivated, the comparison is convenient, meanwhile, the water inlet and the blocking ball are arranged at the bottom of the cultivation basin, the elastic sliding structure is formed by matching the limiting rod through the first spring and the limiting groove, when the nutrient solution at the bottom of the cultivation basin is insufficient, the water pressure is reduced, the limiting rod drives the blocking ball to ascend in the water inlet under the action of the first spring, so that the nutrient solution continuously stored in the cultivation box enters the cultivation basin until the cultivation basin is full of the nutrient solution, the blocking ball is pressed to the bottom of the water inlet by the change of the water pressure, the automatic supplement work of the nutrient solution is realized by matching the water inlet with the conical-structured blocking ball which moves up and down, and the troubles of manual addition and automatic supplement of electric property are avoided;

2. through the bottom rod arranged at the bottom of the incubator, the guide rod on the inner side of the bottom rod slides in the guide groove distributed in the wave-shaped circumference, when the incubator rotates, the bottom rod rotates in the movable groove and moves up and down under the guide effect of the guide rod and the guide groove, and meanwhile, the guide ball at the top of the bottom rod slides in the adjusting groove at the bottom of the incubator, so that the incubator can synchronously rotate up and down at the end part of the connecting rod in the rotating process, the angle is adjusted, the change of daily illumination angle is adapted, the illumination efficiency is improved, the uniform irradiation of sunlight on the seedlings in four incubators is ensured, the phenomenon that the biological breeding seedlings with different hybridization characteristics in the incubator are influenced by illumination is avoided, and the detection accuracy is improved;

3. the cleaning rod arranged at the top of the incubator is elastically rotated on the support through the second spring, and when the incubator rotates and moves up and down synchronously, the cleaning rod can be in contact with the top of the incubator and elastically rotates, so that the cleaning rod can always clean the top of the incubator, and the influence on the illumination effect due to accumulation of dust for a long time is avoided.

Drawings

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

FIG. 2 is a schematic top sectional view of the incubator of the present invention;

FIG. 3 is a schematic side sectional view of the incubator of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic top sectional view of the cultivation pot of the present invention;

FIG. 6 is a schematic top view of a base according to the present invention;

FIG. 7 is a schematic side view of a guide ring according to the present invention;

FIG. 8 is a schematic view of a top view of the distribution structure of the cleaning rods of the present invention.

In the figure: 1. a base; 2. a motor; 3. mounting a rod; 4. an incubator; 5. a cover plate; 6. a water inlet pipe; 7. a mounting frame; 8. cultivating pots; 9. a water-absorbing sponge layer; 10. a soil layer; 11. a water inlet; 12. plugging the ball; 13. a limiting rod; 14. a limiting groove; 15. a first spring; 16. a connecting rod; 17. a mounting ring; 18. a movable groove; 19. a bottom bar; 20. guiding a ball; 21. an adjustment groove; 22. a guide bar; 23. a guide groove; 24. a guide ring; 25. a support; 26. cleaning the rod; 27. a second spring.

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. 1-8, the present invention provides a technical solution: a hybridization test contrast cultivation scale testing device for biological breeding comprises a base 1, a motor 2, an installation rod 3, an incubator 4, a cover plate 5, a water inlet pipe 6, an installation frame 7, a cultivation basin 8, a water absorption sponge layer 9, a soil layer 10, a water inlet 11, a plugging ball 12, a limiting rod 13, a limiting groove 14, a first spring 15, a connecting rod 16, an installation ring 17, a movable groove 18, a bottom rod 19, a guide ball 20, an adjusting groove 21, a guide rod 22, a guide groove 23, a guide ring 24, a support 25, a cleaning rod 26 and a second spring 27, wherein the motor 2 is embedded in the base 1, the output end of the motor 2 penetrates through the base 1 and is connected with the installation rod 3, the installation rod 3 is positioned above the base 1, the connecting rod 16 is fixed on the outer side of the installation rod 3, the incubator 4 is connected with the side end shaft of the connecting rod 16, the cover plate 5 is installed at the top of the incubator 4, the water inlet pipe 6 penetrates, the inner wall of the cultivating box 4 is fixed with a mounting frame 7 by bolts, the mounting frame 7 is provided with a cultivating basin 8, the cultivating basin 8 is internally provided with a water absorption sponge layer 9 and a soil layer 10 from bottom to top, the bottom of the cultivating basin 8 is provided with a water inlet 11, a plugging ball 12 is arranged in the water inlet 11, the outer side of the plugging ball 12 is fixed with a limiting rod 13, the limiting rod 13 is positioned in a limiting groove 14, the limiting groove 14 is arranged on the inner wall of the water inlet 11, a first spring 15 is fixed between the top of the limiting rod 13 and the limiting groove 14, the top of the base 1 is fixed with a mounting ring 17, the top of the mounting ring 17 is provided with a movable groove 18, a bottom rod 19 is arranged in the movable groove 18, the top of the bottom rod 19 is integrally provided with a guide ball 20, the guide ball 20 is positioned in an adjusting groove 21, the adjusting groove 21 is arranged at the bottom of the cultivating box 4, the top edge of the base 1 is fixed, and a cleaning rod 26 is pivotally connected to the top edge of the inner side of the bracket 25, the cleaning rod 26 is located above the cultivation box 4, and a second spring 27 is fixed between the top of the cleaning rod 26 and the bracket 25.

The cultivation box 4 is designed to be of an arc-shaped structure, 4 cultivation boxes 4 are symmetrically arranged about the central axis of the mounting

rod

3, 3 cultivation pots 8 in the cultivation box 4 are distributed at equal angles, hybridization tests can be conveniently carried out on biological breeding seedlings with different hybridization characteristics through the 4 cultivation boxes 4, and comparison detection is conveniently carried out;

the section of the water inlet 11 is designed to be a conical structure, the maximum diameter of the top of the water inlet 11 is larger than the diameter of the blocking ball 12, the minimum diameter of the bottom of the water inlet 11 is smaller than the diameter of the blocking ball 12, the limiting rod 13 forms an elastic sliding structure through the first spring 15 and the limiting groove 14, 4 limiting rods 13 are symmetrically arranged about the central axis of the blocking ball 12, when less nutrient solution is at the bottom of the cultivating pot 8, the internal water pressure becomes low, the elastic force of the first spring 15 pulls the limiting rod 13 to slide upwards in the limiting groove 14, so that the blocking ball 12 slides upwards in the water inlet 11, a gap is formed between the blocking ball 12 and the water inlet 11, at the moment, the nutrient solution pre-stored in the cultivating box 4 can enter the bottom of the cultivating pot 8 through the water inlet 11 and is conveyed to the soil layer 10 through the water absorption sponge layer 9 to supply seedlings, and when the nutrient solution at the bottom of the cultivating pot 8 is full, the internal water pressure presses the blocking ball 12 to the bottom of the water inlet 11, the water inlet 11 is sealed by the blocking ball 12, and the nutrient solution is automatically stored continuously without manual or electric driving;

the bottom rod 19 is designed to be a cylindrical structure, the diameter of the bottom rod 19 is equal to the width of the movable groove 18, the movable groove 18 is designed to be a circular structure, when the motor 2 drives the installation rod 3 to rotate, the installation rod 3 drives the cultivation box 4 to rotate through the connecting rod 16, and the bottom rod 19 is driven to synchronously rotate in the movable groove 18 under the transverse limiting action of the guide ball 20 and the adjusting groove 21;

a guide rod 22 is fixed on the inner side of the bottom rod 19, one end of the guide rod 22 is located in the guide groove 23, the guide groove 23 is arranged on the outer side of the guide ring 24, the guide ring 24 is fixed on the top of the base 1, the guide ring 24 is located on the inner side of the mounting ring 17, the guide rod 22 is in fit sliding connection with the guide groove 23, the guide groove 23 is distributed on the guide ring 24 in a wave-shaped circumference manner, the guide ring 24 is parallel to the mounting ring 17, the guide ring 24 and the mounting ring 17 share the same central axis with the mounting rod 3, when the bottom rod 19 rotates in the movable groove 18, the guide rod 22 on the bottom rod 19 rotates synchronously in the guide groove 23, and under the guiding action of the guide groove 23 of the wave-shaped structure, the guide rod 22 can drive the bottom rod 19 to move up and down in the movable groove;

sliding connection between guide 20 and adjustment tank 21, and the diameter of guide 20 is greater than the width of adjustment tank 21 bottom opening part, when sill bar 19 moves about in movable groove 18, the guide 20 at sill bar 19 top slides in adjustment tank 21, cooperation incubator 4 is the rotation on connecting rod 16, realize that incubator 4 can move about from top to bottom when following the 3 circumference rotations of installation pole, carry out the adjustment of angle, adapt to the change of daily illumination angle, improve illumination efficiency, guarantee the even sunshine that shines of growing seedlings in 4 incubators 4 simultaneously, the biological breeding of avoiding different hybridization characteristics in incubator 4 grows seedlings and shines the photic influence and appear the difference, improve detection accuracy.

The working principle is as follows: when the hybridization test contrast cultivation scale testing device for biological breeding is used, as shown in fig. 1-5, firstly, the cover plate 5 on the incubator 4 is opened, the cultivation pot 8 planted with the seedlings is placed on the mounting rack 7 in the incubator 4, then nutrient solution is poured into the incubator 4 through the water inlet pipe 6 outside the incubator 4, so that the page of the nutrient solution is higher than the height of the mounting rack 7, then the cover plate 5 is covered, when the nutrient solution at the bottom of the cultivation pot 8 is less during cultivation work, the internal water pressure becomes low, the elastic force of the first spring 15 pulls the limiting rod 13 to slide upwards in the limiting groove 14, so that the blocking ball 12 slides upwards in the water inlet 11, a gap exists between the blocking ball 12 and the water inlet 11, at the moment, the nutrient solution pre-stored in the incubator 4 can enter the bottom of the cultivation pot 8 through the water absorption sponge layer 9 and is conveyed to the soil layer 10, the seedling is fed, when the nutrient solution at the bottom of the cultivating pot 8 is full, the internal water pressure presses the blocking ball 12 to the bottom of the water inlet 11, the water inlet 11 is sealed by the blocking ball 12, the automatic continuous storage of the nutrient solution is completed according to the operation, the nutrient solution is supplemented without manual or electric driving, and the nutrient solution is only added into the cultivating box 4 through the water inlet pipe 6 periodically;

then, as shown in fig. 1-3 and fig. 6-8, when cultivation is performed, the motor 2 in the base 1 is started, the motor 2 drives the installation rod 3 to rotate, the installation rod 3 drives the cultivation box 4 to rotate through the connecting rod 16, under the transverse limiting action of the guide balls 20 and the adjusting grooves 21, the bottom rod 19 is driven to synchronously rotate in the movable groove 18, the guide rod 22 on the bottom rod 19 follows the guide groove 23 to synchronously rotate, under the guiding action of the guide groove 23 with the wave-shaped structure, the guide rod 22 can drive the bottom rod 19 to move up and down in the movable groove 18, meanwhile, the guide balls 20 on the top of the bottom rod 19 slide in the adjusting grooves 21, and the cultivation box 4 can move up and down while following the circumferential rotation of the installation rod 3 by matching with the rotation of the connecting rod 16, so as to adjust the angle, adapt to the change of the daily illumination angle, improve the illumination efficiency, and simultaneously ensure that the seedlings in 4 cultivation boxes 4 uniformly irradiate sunlight, avoid the biological breeding of different hybridization characteristics in incubator 4 to grow seedlings and receive illumination influence the difference appearance, improve the detection accuracy, simultaneously when incubator 4 is rotating, clearance pole 26 contact on its top and the support 25, can scrape the clearance to incubator 4 top through clearance pole 26, avoid the dust to pile up influence illumination effect, cooperate the tilting of incubator 4 simultaneously, clearance pole 26 can rotate through second spring 27 elasticity on support 25, make clearance pole 26 can all the time with the top contact of incubator 4, clear up incubator 4.

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

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

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a scale testing arrangement is cultivated with hybridization test contrast to biological breeding, includes base (1), motor (2), water absorption sponge layer (9) and clearance pole (26), its characterized in that: the embedded type of the base (1) is provided with the motor (2), the output end of the motor (2) penetrates through the base (1) and is connected with the installation rod (3), the installation rod (3) is positioned above the base (1), the outer side of the installation rod (3) is fixed with the connecting rod (16), the side end shaft of the connecting rod (16) is connected with the cultivation box (4), the top of the cultivation box (4) is provided with the cover plate (5), the outer side of the cultivation box (4) is provided with the water inlet pipe (6) in a penetrating manner, the inner wall of the cultivation box (4) is fixed with the mounting frame (7) through bolts, the cultivation basin (8) is placed on the mounting frame (7), the water absorption sponge layer (9) and the soil layer (10) are respectively placed in the cultivation basin (8) from bottom to top, the bottom of the cultivation basin (8) is provided with the water inlet (11), and the sealing ball (12, the outer side of the blocking ball (12) is fixed with a limiting rod (13), the limiting rod (13) is positioned in a limiting groove (14), the limiting groove (14) is arranged on the inner wall of the water inlet (11), a first spring (15) is fixed between the top of the limiting rod (13) and the limiting groove (14), the top of the base (1) is fixed with a mounting ring (17), the top of the mounting ring (17) is provided with a movable groove (18), a bottom rod (19) is arranged in the movable groove (18), the top of the bottom rod (19) is integrally provided with a guide ball (20), the guide ball (20) is positioned in an adjusting groove (21), the adjusting groove (21) is arranged at the bottom of the incubator (4), the top edge of the base (1) is fixed with a support (25) through bolts, the top shaft at the inner side of the support (25) is connected with a cleaning rod (26), and the cleaning rod (26) is positioned above the incubator (4), and a second spring (27) is fixed between the top of the cleaning rod (26) and the bracket (25).

2. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: incubator (4) are arc structural design, and incubator (4) are provided with 4 about the central axis symmetry of installation pole (3) to cultivation basin (8) equal angular distribution in incubator (4) has 3.

3. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: the cross-section of water inlet (11) is the design of toper structure, and the maximum diameter at water inlet (11) top is greater than the diameter of shutoff ball (12) to the minimum diameter of water inlet (11) bottom is less than the diameter of shutoff ball (12).

4. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: the limiting rod (13) forms an elastic sliding structure through the first spring (15) and the limiting groove (14), and the limiting rod (13) is symmetrically provided with 4 limiting rods around the central axis of the blocking ball (12).

5. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: the bottom rod (19) is designed to be of a cylindrical structure, the diameter of the bottom rod (19) is equal to the width of the movable groove (18), and the movable groove (18) is designed to be of a circular structure.

6. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: a guide rod (22) is fixed on the inner side of the bottom rod (19), one end of the guide rod (22) is located in the guide groove (23), the guide groove (23) is formed in the outer side of the guide ring (24), the guide ring (24) is fixed to the top of the base (1), and the guide ring (24) is located on the inner side of the mounting ring (17).

7. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 1, characterized in that: the guide ball (20) is connected with the adjusting groove (21) in a sliding mode, and the diameter of the guide ball (20) is larger than the width of an opening at the bottom of the adjusting groove (21).

8. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 6, characterized in that: the guide rod (22) is attached to and slidably connected with the guide groove (23), and the guide groove (23) is distributed on the guide ring (24) in a wave-shaped circumference mode.

9. The device for testing the hybridization test contrast cultivation scale for biological breeding according to claim 6, characterized in that: the guide ring (24) and the mounting ring (17) are parallel to each other, and the guide ring (24) and the mounting ring (17) share the same central axis with the mounting rod (3).