A ginger breeding cabinet

Abstract

The utility model relates to a kind of ginger breeding cabinet, including cabinet, the inside surface of cabinet is equipped with mesh plate, two groups of mesh plate are equipped with the spray and the spray irradiation structure of integration of irradiation between installation, top plate is installed between two groups of mesh plate, and top plate lower end surface is equipped with at least two groups of guide rail, and movable plate is movably installed on guide rail, and movable plate lower end surface is respectively equipped with plant irradiation lamp and connecting plate, connecting plate is distributed along the transverse longitudinal section of movable plate symmetry, two groups of connecting plate are transversely installed between water pipe, and multiple groups of nozzle are connected on water pipe surface;Mesh plate surface is also equipped with bearing block, breeding box is located the upper end surface of bearing block, and it is correspondingly arranged with spray irradiation structure, two groups of water pipe are connected in series, and flexible water pipe is connected at port, and the other end of flexible water pipe is connected with connecting pipe, and connecting pipe is connected with water pipe.The utility model solves the problem that the existing breeding cabinet does not realize the integrated structure of irradiation and spraying, and cannot guarantee the uniformity of spraying when spraying.

Description

Technical Field

[0001] This utility model relates to the field of breeding equipment technology, specifically a ginger breeding cabinet. Background Technology

[0002] To promote healthy sprouting of ginger seeds, a seedling cabinet is generally used. The seedling cabinet can control temperature, light and other measures to achieve effective healthy sprouting. However, nowadays, seedling cabinets typically have multiple seedling boxes placed inside from bottom to top. This method causes inconvenience when spraying or illuminating with lights, and the spraying is uneven.

[0003] Therefore, in order to achieve integrated spraying and irradiation, and to spray more evenly during spraying, thereby overcoming the shortcomings of the existing technology, a ginger breeding cabinet is proposed to overcome the shortcomings of the existing technology. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a ginger breeding cabinet that solves the problems of existing breeding cabinets not achieving an integrated structure for irradiation and spraying, and also failing to guarantee the uniformity of spraying during spraying.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a ginger breeding cabinet, comprising a cabinet body, with a perforated plate installed on the inner side of the cabinet body, and a spraying and irradiation structure integrating spraying and irradiation installed between two sets of perforated plates. The spraying and irradiation structure includes a driving structure and a moving structure. The moving structure includes a top plate, a moving plate, a plant irradiation lamp, a water pipe, and nozzles. The top plate is installed between the two sets of perforated plates, and at least two sets of guide rails are provided on the lower end face of the top plate. The moving plate is movably installed on the guide rails, and a plant irradiation lamp and a connecting plate are respectively installed on the lower end face of the moving plate. The connecting plates are symmetrically distributed along the transverse longitudinal section of the moving plate. A water pipe is installed transversely between the two sets of connecting plates, and multiple sets of nozzles are connected to the surface of the water pipe. Furthermore, a support block is also installed on the surface of the perforated plate, and its breeding box is located on the upper end face of the support block and is correspondingly arranged with the spraying and irradiation structure. The two sets of water pipes are connected in series, and a telescopic water pipe is connected at one end. The other end of the telescopic water pipe is connected to the connecting pipe, and the connecting pipe is connected to the water pipe.

[0006] Furthermore, the drive structure includes a mounting base, a dual-axis stepper motor, a rotating shaft, a bearing housing, and a tensioning wheel, as described above. Both the mounting base and the bearing housing are mounted on the inner bottom surface of the cabinet. A dual-axis stepper motor is mounted on one side of the mounting base, and its output end is connected to the rotating shaft. The rotating shaft is connected to the inner ring of the bearing housing. A tensioning wheel is mounted on the surface of the rotating shaft, and two sets of steel ropes are fixed to the surface of the tensioning wheel. The other end of each steel rope is connected to a connecting plate in each spray irradiation structure.

[0007] Furthermore, a base plate is installed between the two sets of perforated plates, and a U-shaped groove is opened on the surface of the base plate. Mounting plates are installed on the front and rear faces of the perforated plates, and steel ropes pass through the openings on the surface of the mounting plates and are connected to the connecting plates.

[0008] As a preferred technical solution, a heater is installed on the top of the inner side of the cabinet, and a temperature and humidity sensor for detecting temperature can also be installed on the inner side of the cabinet.

[0009] As a preferred technical solution, an elongated opening is provided on the left side of the cabinet, and a sealing plate is installed on the side to cover the elongated opening. The elongated opening is positioned corresponding to the left side of the plant illumination lamp, and a cabinet door is installed on the front side of the cabinet.

[0010] Compared with the prior art, this utility model provides a ginger breeding cabinet, which has the following beneficial effects:

[0011] 1. This breeding cabinet, through its top plate, movable plate, plant illumination lamps, water pipes, nozzles, guide rails, and drive structure, uses a drive structure to move a steel rope, which in turn moves the movable plate. The movement of the water pipes and nozzles then provides mobile spraying to the breeding boxes, ensuring a uniform mist spray. Furthermore, this breeding cabinet integrates plant illumination lamps and spraying into one unit, with one set installed on each layer. This ensures sufficient illumination and spraying, thus solving the problem of existing breeding cabinets lacking an integrated structure for illumination and spraying, and failing to guarantee uniform spraying. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the present invention;

[0013] Figure 2 This is a schematic diagram of the internal structure of the cabinet of this utility model;

[0014] Figure 3 This is a schematic diagram of the driving structure of this utility model;

[0015] Figure 4 This is a schematic diagram of the connecting pipe of this utility model;

[0016] Figure 5 This utility model Figure 2 A magnified view of part A;

[0017] Figure 6 This utility model Figure 3 A magnified view of part B;

[0018] Figure 7 This utility model Figure 4 A magnified view of part C.

[0019] In the diagram: 1. Cabinet body; 2. Sealing plate; 3. Cabinet door; 4. Heater; 5. Mesh plate; 6. Top plate; 7. Guide rail; 8. Plant illumination lamp; 9. Connecting plate; 10. Water pipe; 11. Nozzle; 12. Base plate; 13. Mounting base; 14. Dual-axis stepper motor; 15. Rotating shaft; 16. Bearing seat; 17. Tensioning wheel; 18. Mounting plate; 19. Bearing block; 20. Connecting pipe; 21. Telescopic water pipe; 22. Moving plate. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. Example

[0021] Please see Figure 1-7 This utility model provides the following technical solution: a ginger breeding cabinet, including a cabinet body 1, with perforated plates 5 installed on the inner side of the cabinet body 1, and a spraying and irradiation structure integrating spraying and irradiation installed between two sets of perforated plates 5. The spraying and irradiation structure includes a driving structure and a moving structure. The moving structure includes a top plate 6, a moving plate 22, a plant irradiation lamp 8, a water pipe 10, and a nozzle 11. The top plate 6 is installed between two sets of perforated plates 5, and at least two sets of guide rails 7 are provided on the lower end face of the top plate 6. The moving plate 22 is movably installed on the guide rails 7, and the lower end of the moving plate 22... Plant illumination lamps 8 and connecting plates 9 are installed on the surface of the movable plate 22. The connecting plates 9 are symmetrically distributed along the transverse longitudinal section of the movable plate 22. Water pipes 10 are installed transversely between the two sets of connecting plates 9. Multiple sets of nozzles 11 are connected to the surface of the water pipes 10. Next, a support block 19 is installed on the surface of the mesh plate 5. Its breeding box is located on the upper end of the support block 19 and is set in correspondence with the spray illumination structure. Its two sets of water pipes 10 are connected in series. A telescopic water pipe 21 is connected at the end. The other end of the telescopic water pipe 21 is connected to the connecting pipe 20, and the connecting pipe 20 is connected to the water pipe.

[0022] In this implementation plan, the specific working principle is as follows: This breeding cabinet, through a drive structure and steel rope, moves the connecting plate 9, which in turn moves the moving structure along the guide rail 7, thereby moving the plant illumination lamp 8, water pipe 10, and nozzle 11. During spraying, the nozzle 11 sprays water in a mist, achieving uniform coverage of the breeding box. The plant illumination lamp 8 and water pipe 10 are all mounted on the moving plate 22, achieving integration. (See figure...) Figure 2-7As can be seen, each layer is equipped with a set of moving structures, and each set of moving structures is connected to the drive structure by steel ropes. This solves the problem that existing breeding cabinets do not have an integrated structure for irradiation and spraying, and cannot guarantee the uniformity of spraying.

[0023] Based on the above, the specific details of the driving structure can be found in [reference needed]. Figure 3 As can be seen, the drive structure includes a mounting base 13, a dual-axis stepper motor 14, a rotating shaft 15, a bearing seat 16, and a tensioning wheel 17. The mounting base 13 and the bearing seat 16 are both installed on the inner bottom surface of the cabinet 1. The dual-axis stepper motor 14 is installed on one side of the mounting base 13, and its output end is connected to the rotating shaft 15. The rotating shaft 15 is connected to the inner ring of the bearing seat 16. The tensioning wheel 17 is installed on the surface of the rotating shaft 15. Two sets of steel ropes are fixed on the surface of the tensioning wheel 17. The other end of the steel ropes is connected to the connecting plate 9 in each set of spray irradiation structures. The dual-axis stepper motor 14 drives the rotating shaft 15 to rotate, which in turn drives the tensioning wheel 17 to rotate, so that the steel ropes on each layer of the moving structure are wound on the tensioning wheel 17, thereby achieving the purpose of driving the moving structure to move.

[0024] Secondly, to facilitate the movement of the steel rope, as can be seen from the attached drawings, a base plate 12 is installed between the two sets of perforated plates 5. A U-shaped groove is opened on the surface of the base plate 12. Mounting plates 18 are installed on the front and rear faces of the perforated plates 5. The steel rope passes through the openings on the surface of the mounting plates 18 and connects to the connecting plate 9.

[0025] To ensure the temperature inside cabinet 1, please refer to the following: Figure 2 As can be seen, a heater 4 is installed on the top of the inner side of the cabinet 1, and a temperature and humidity sensor for detecting temperature can also be installed on the inner side of the cabinet 1.

[0026] For details on replacing the telescopic water pipe 21 and maintaining its internal structure, please refer to [link / reference needed]. Figure 1 As can be seen, a long opening is provided on the left side of the cabinet 1, and a sealing plate 2 is installed on the side to cover the long opening. The long opening is set to correspond to the left side of the plant illumination lamp 8. A cabinet door 3 is installed on the front side of the cabinet 1.

[0027] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A ginger breeding cabinet, comprising a cabinet body (1), wherein a perforated plate (5) is installed on the inner side of the cabinet body (1), characterized in that: A spraying and irradiation structure integrating spraying and irradiation is installed between the two sets of perforated plates (5). The spraying and irradiation structure includes a driving structure and a moving structure. The moving structure includes a top plate (6), a moving plate (22), a plant irradiation lamp (8), a water pipe (10), and a nozzle (11). The top plate (6) is installed between the two sets of perforated plates (5). The lower end face of the top plate (6) is provided with at least two sets of guide rails (7). The moving plate (22) is movably installed on the guide rails (7). The lower end face of the moving plate (22) is respectively equipped with a plant irradiation lamp (8) and a connecting plate (9). The plates (9) are symmetrically distributed along the transverse longitudinal section of the movable plate (22). A water pipe (10) is installed transversely between the two sets of connecting plates (9). Multiple sets of nozzles (11) are connected to the surface of the water pipe (10). Next, a carrier block (19) is installed on the surface of the mesh plate (5). Its breeding box is located on the upper end of the carrier block (19) and is set in correspondence with the spray irradiation structure. Its two sets of water pipes (10) are connected in series. A telescopic water pipe (21) is connected at the port. The other end of the telescopic water pipe (21) is connected to the connecting pipe (20), and the connecting pipe (20) is connected to the water pipe.

2. The ginger breeding cabinet according to claim 1, characterized in that: The drive structure includes a mounting base (13), a dual-axis stepper motor (14), a rotating shaft (15), a bearing seat (16), and a tensioning wheel (17). The mounting base (13) and the bearing seat (16) are both installed on the inner bottom surface of the cabinet (1). The dual-axis stepper motor (14) is installed on one side of the mounting base (13), and its output end is connected to the rotating shaft (15). The rotating shaft (15) is connected to the inner ring of the bearing seat (16). The tensioning wheel (17) is installed on the surface of the rotating shaft (15). Two sets of steel ropes are fixed on the surface of the tensioning wheel (17), and the other end of the steel ropes is connected to the connecting plate (9) in each set of spray irradiation structures.

3. The ginger breeding cabinet according to claim 2, characterized in that: A base plate (12) is installed between the two sets of perforated plates (5). A U-shaped groove is opened on the surface of the base plate (12). Mounting plates (18) are installed on the front and rear faces of the perforated plates (5). A steel rope passes through the opening on the surface of the mounting plate (18) and connects to the connecting plate (9).

4. The ginger breeding cabinet according to claim 1, characterized in that: A heater (4) is installed on the top of the inner side of the cabinet (1), and a temperature and humidity sensor for detecting temperature can also be installed on the inner side of the cabinet (1).

5. A ginger breeding cabinet according to claim 4, characterized in that: The cabinet (1) also has an elongated opening on the left side, and a sealing plate (2) is installed on the side to cover the elongated opening. The elongated opening is set to correspond to the left side of the plant illumination lamp (8). A cabinet door (3) is installed on the front side of the cabinet (1).

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