CN220986815U - Saline-alkali tolerant rice variety breeding device - Google Patents

Abstract

The utility model discloses a saline-alkali tolerant rice variety breeding device, which relates to the technical field of rice breeding devices and comprises a breeding bin; the utility model provides a salt and alkali resistant rice variety breeding device, when observing the camera and carrying out altitude mixture control, start the motor through external control ware, make the output of motor drive the threaded rod and rotate along the bearing frame, the movable plate moves along the outside of threaded rod simultaneously, it slides along the inside of auxiliary tank to drive the auxiliary block in the removal in-process, the mount slides along the inside of moving the hole, further drive and observe the camera and carry out the regulation of altitude mixture control, thereby carry out automatic control and observe the camera lift, can be according to rice growth state, discernment through observing the camera, feedback to external control ware, and then control altitude mixture control subassembly drives and observe the camera lift, thereby the better growth condition of catching rice, do not need manual regulation of observing the camera of observing.

Description

Saline-alkali tolerant rice variety breeding device

Technical Field

The utility model relates to the technical field of rice breeding devices, in particular to a saline-alkali tolerant rice variety breeding device.

Background

Rice, cereal crops of the genus oryza; the rice stalks are vertical and 0.5 to 1.5 meters high, leaf sheaths are loose, and the base parts at two sides are downwards extended to form leaf sheath edges; the conical inflorescence is loose, the small spike is rectangular, two sides of the conical inflorescence are flattened, the conical inflorescence contains 3 small flowers, the lemma of the amphoteric small flowers is always fine, and 6 stamens are arranged; is an important cereal widely planted in Asia tropical zone, and needs to be subjected to variety breeding before planting, seeds suitable for saline-alkali water quality growth are selected, and then the seeds are used in a breeding device;

The existing saline-alkali tolerant rice variety breeding device (bulletin number: CN 219555771U) can quickly know the growth conditions of different rice seedlings in the use process, is convenient for quickly judging the growth conditions of the saline-alkali tolerant rice, judges whether the saline-alkali tolerant rice accords with breeding conditions, but in the use process, an observation camera cannot automatically adjust the height, needs manual operation, can monitor the growth conditions of the rice seedlings in real time, cannot be remotely controlled, and needs a great deal of time for manual operation.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a device for breeding a variety of saline-alkali tolerant rice, which solves the problems in the background art.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a salt and alkali resistant rice variety breeding device, includes breeds the storehouse, breeds the inside in storehouse and is provided with cultivates the storehouse, it is provided with the handle to cultivate the outside in storehouse, it is provided with the fixture block to cultivate the bottom in storehouse, it is provided with the draw-in groove to breeds the inside in storehouse, it is provided with the observation camera to cultivate the inside in storehouse, it is provided with high adjusting part to cultivate the junction of storehouse and observation camera, it is provided with the light filling lamp to breed the top in storehouse;

The height adjusting assembly comprises a supporting plate, the upper end of the supporting plate is provided with a motor, the output end of the motor is provided with a threaded rod, an auxiliary groove and a moving hole are formed in the outer side of the cultivation bin, a moving plate is arranged at the bottom of the supporting plate, a threaded hole is formed in the middle of the moving plate, and an auxiliary block and a fixing frame are arranged on one side of the moving plate.

As a further technical scheme of the utility model, the cultivation bins and the breeding bins are in sliding connection through clamping grooves and clamping blocks, the number of the cultivation bins is three groups, the cultivation bins are distributed in an array, the three groups of cultivation bins are respectively a saline-alkali resistant rice cultivation bin, a non-saline-alkali resistant rice cultivation bin and a preparation cultivation bin, and the cultivation bins are of transparent structures.

As a further technical scheme of the utility model, the handle is fixedly connected with the cultivating bin, the handle is of a C-shaped structure, the number of the observation cameras is three groups and is distributed in an array, the light supplementing lamps are fixedly connected with the cultivating bin through bolts, and the number of the light supplementing lamps is three groups and is distributed in an array.

As a further technical scheme of the utility model, the number of the supporting plates is twice that of the cultivation bins, the supporting plates are fixedly connected with the cultivation bins, the motor is fixedly connected with the supporting plates, the output end of the motor is fixedly connected with the threaded rod, and a bearing seat is arranged between the bottom of the threaded rod and the other group of supporting plates.

As a further technical scheme of the utility model, the number of the auxiliary grooves is twice that of the cultivation bins, the auxiliary grooves are symmetrically distributed, the threaded holes penetrate through the middle part of the movable plate, and the threaded holes are matched with the threaded rods.

As a further technical scheme of the utility model, the auxiliary blocks are fixedly connected with the moving plate, the number of the auxiliary blocks is equal to that of the auxiliary grooves, the auxiliary blocks are matched with the auxiliary grooves, the fixing frame is fixedly connected with the moving plate, the fixing frame is matched with the moving hole, and the fixing frame is fixedly connected with the observation camera.

The utility model provides a device for breeding a variety of saline-alkali tolerant rice. Compared with the prior art, the method has the following beneficial effects: through the setting of altitude mixture control subassembly, when observing the camera and carrying out altitude mixture control, start the motor through external control ware, make the output of motor drive the threaded rod and rotate along the bearing frame, the inside screw hole of movable plate moves along the outside of threaded rod simultaneously, it slides along the inside of auxiliary tank to drive the auxiliary block in the removal in-process, the mount slides along the inside of moving the hole, further drive and observe the camera and carry out the regulation of altitude mixture control, thereby carry out automatic control and observe the camera lift, can be according to rice growth state, through observing the camera discernment, feedback to external control ware, and then control altitude mixture control subassembly drives and observe the camera lift, thereby the growth condition of better catching rice does not need manual regulation of observing the camera.

Drawings

FIG. 1 is a schematic diagram of a device for selectively breeding a variety of saline-alkali tolerant rice;

FIG. 2 is a partial exploded view of a device for breeding a variety of saline-alkali tolerant rice;

FIG. 3 is an enlarged view of A in FIG. 2 of a device for breeding varieties of saline-alkali tolerant rice;

FIG. 4 is another view of a device for selectively breeding a variety of saline-alkali tolerant rice;

FIG. 5 is an enlarged view of B in FIG. 4 showing a device for selectively breeding a variety of a saline-alkali tolerant rice.

In the figure: 1. breeding a bin; 2. a cultivation bin; 3. a handle; 4. a clamping block; 5. a clamping groove; 6. an observation camera; 7. a height adjustment assembly; 71. a support plate; 72. a motor; 73. a threaded rod; 74. an auxiliary groove; 75. a moving plate; 76. a threaded hole; 77. an auxiliary block; 78. a fixing frame; 79. a moving hole; 8. and a light supplementing lamp.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the utility model provides a technical scheme of a saline-alkali tolerant rice variety breeding device: the utility model provides a salt and alkali resistant rice variety breeding device, includes breeds storehouse 1, breeds the inside in storehouse 1 and is provided with breeds storehouse 2, breeds the outside in storehouse 2 and is provided with handle 3, breeds the bottom in storehouse 2 and is provided with fixture block 4, breeds the inside in storehouse 1 and is provided with draw-in groove 5, breeds the inside in storehouse 2 and is provided with observation camera 6, breeds the junction of storehouse 2 and observation camera 6 and is provided with altitude mixture control subassembly 7, breeds the top in storehouse 1 and is provided with light filling lamp 8;

Wherein, the altitude mixture control subassembly 7 includes backup pad 71, and the upper end of backup pad 71 is provided with motor 72, and the output of motor 72 is provided with threaded rod 73, and auxiliary tank 74 and removal hole 79 have been seted up in the outside of cultivating storehouse 2, and the bottom of backup pad 71 is provided with movable plate 75, and screw hole 76 has been seted up at the middle part of movable plate 75, and one side of movable plate 75 is provided with auxiliary block 77 and mount 78.

Referring to fig. 1-2, the cultivating bins 2 are slidably connected with the breeding bins 1 through clamping grooves 5 and clamping blocks 4, the number of the cultivating bins 2 is three groups and distributed in an array, the three groups of cultivating bins 2 are respectively a saline-alkali resistant rice cultivating bin, a non-saline-alkali resistant rice cultivating bin and a preparation cultivating bin, and the cultivating bins 2 are transparent structures, so that the contrast cultivation of different seeds is facilitated.

Referring to fig. 1-2, the handle 3 is fixedly connected with the cultivating bin 2, the handle 3 is in a C-shaped structure, the number of the observation cameras 6 is three groups and distributed in an array, the light supplementing lamps 8 and the cultivating bin 1 are fixedly connected through bolts, and the number of the light supplementing lamps 8 is three groups and distributed in an array, so that the cultivating bin 2 is mounted and dismounted.

Referring to fig. 1-5, the number of the supporting plates 71 is twice the number of the cultivating bins 2, the supporting plates 71 are fixedly connected with the cultivating bins 2, the motor 72 is fixedly connected with the supporting plates 71, the output end of the motor 72 is fixedly connected with the threaded rod 73, a bearing seat is arranged between the bottom of the threaded rod 73 and the other group of supporting plates 71, the number of the auxiliary grooves 74 is twice the number of the cultivating bins 2, the auxiliary grooves 74 are symmetrically distributed, the threaded holes 76 penetrate through the middle part of the movable plate 75, and the threaded holes 76 are matched with the threaded rods 73, so that the movable plate 75 is conveniently driven to move up and down.

Referring to fig. 1-5, the auxiliary blocks 77 are fixedly connected with the moving plate 75, the number of the auxiliary blocks 77 is equal to that of the auxiliary grooves 74, and the auxiliary blocks are matched with the auxiliary grooves 74, the fixing frame 78 is fixedly connected with the moving plate 75, the fixing frame 78 is matched with the moving hole 79, the fixing frame 78 is fixedly connected with the observation camera 6, and the fixing frame 78 is convenient for driving the observation camera 6 to move up and down along the inside of the moving hole 79.

The working principle of the utility model is as follows: in the use process of the device, a user connects three groups of light supplementing lamps 8 with an external controller, the environment, soil and later fertilization inside the three groups of cultivation bins 2 are the same, the only difference is inside rice seedlings, wherein saline-alkali tolerant rice is planted inside the saline-alkali tolerant rice cultivation bins, non-saline-alkali tolerant rice is planted inside the non-saline-alkali tolerant rice cultivation bins, ordinary rice is planted inside the preparation cultivation bins, the observation camera 6 is controlled by the height adjusting component 7 to move up and down to observe the growth conditions of the rice inside the saline-alkali tolerant rice cultivation bins, the non-saline-alkali tolerant rice cultivation bins and the preparation cultivation bins, and data are recorded, so that whether the saline-alkali tolerant rice accords with breeding conditions is judged.

It should be noted that, through the setting of the height adjusting component 7, when the observation camera 6 carries out height adjustment, start the motor 72 through external control ware, make the output of motor 72 drive threaded rod 73 and rotate along the bearing frame, the inside screw hole 76 of movable plate 75 moves along the outside of threaded rod 73 simultaneously, drive auxiliary block 77 and slide along the inside of auxiliary groove 74 in the removal in-process, mount 78 slides along the inside of moving hole 79, further drive the adjustment of observation camera 6 and carry out the height, thereby carry out automatic control and observe camera 6 and go up and down, can be according to rice growth state, through observing the camera 6 discernment, feedback to external control ware, and then control the height adjusting component 7 and drive the observation camera 6 and go up and down, thereby better capture the growth condition of rice.

Claims (6)

1. The utility model provides a salt and alkali resistant rice variety breeding device, includes breeds storehouse (1), its characterized in that, the inside of breeds storehouse (1) is provided with breeds storehouse (2), the outside of breeding storehouse (2) is provided with handle (3), the bottom of breeding storehouse (2) is provided with fixture block (4), the inside of breeding storehouse (1) is provided with draw-in groove (5), the inside of breeding storehouse (2) is provided with observation camera (6), the junction of breeding storehouse (2) and observation camera (6) is provided with altitude mixture control subassembly (7), the top of breeding storehouse (1) is provided with light filling lamp (8);

The height adjusting assembly (7) comprises a supporting plate (71), a motor (72) is arranged at the upper end of the supporting plate (71), a threaded rod (73) is arranged at the output end of the motor (72), an auxiliary groove (74) and a moving hole (79) are formed in the outer side of the cultivation bin (2), a moving plate (75) is arranged at the bottom of the supporting plate (71), a threaded hole (76) is formed in the middle of the moving plate (75), and an auxiliary block (77) and a fixing frame (78) are arranged on one side of the moving plate (75).

2. The device for breeding the saline-alkali resistant rice varieties according to claim 1, wherein the breeding bins (2) are slidably connected with the breeding bins (1) through clamping grooves (5) and clamping blocks (4), the number of the breeding bins (2) is three, the breeding bins (2) are distributed in an array, the three groups of the breeding bins (2) are respectively a saline-alkali resistant rice breeding bin, a non-saline-alkali resistant rice breeding bin and a preparation breeding bin, and the breeding bins (2) are of transparent structures.

3. The saline-alkali tolerant rice variety breeding device according to claim 1, wherein the handle (3) is fixedly connected with the cultivation bin (2), the handle (3) is of a C-shaped structure, the number of the observation cameras (6) is three groups and distributed in an array, the light supplementing lamps (8) and the breeding bin (1) are fixedly connected through bolts, and the number of the light supplementing lamps (8) is three groups and distributed in an array.

4. The saline-alkali tolerant rice variety breeding device according to claim 1, wherein the number of the supporting plates (71) is twice the number of the cultivation bins (2), the supporting plates (71) are fixedly connected with the cultivation bins (2), the motors (72) are fixedly connected with the supporting plates (71), the output ends of the motors (72) are fixedly connected with the threaded rods (73), and bearing seats are arranged between the bottoms of the threaded rods (73) and the other group of supporting plates (71).

5. The saline-alkali tolerant rice variety breeding device according to claim 1, wherein the number of the auxiliary grooves (74) is twice that of the cultivation bins (2), the auxiliary grooves (74) are symmetrically distributed, the threaded holes (76) penetrate through the middle of the movable plate (75), and the threaded holes (76) are matched with the threaded rods (73).

6. The saline-alkali tolerant rice variety breeding device according to claim 1, wherein the auxiliary blocks (77) are fixedly connected with the movable plates (75), the number of the auxiliary blocks (77) is equal to that of the auxiliary grooves (74), the auxiliary blocks are matched with the auxiliary grooves (74), the fixed frames (78) are fixedly connected with the movable plates (75), the fixed frames (78) are matched with the movable holes (79), and the fixed frames (78) are fixedly connected with the observation camera (6).