Novel soybean planting and irrigation device
By introducing a telescopic linkage mechanism and a linkage gear structure into the soybean planting irrigation device, the problems of inconvenient device storage and spacing adaptability have been solved, achieving convenient storage and flexible irrigation, and extending the service life of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-07-29
- Publication Date
- 2026-07-07
AI Technical Summary
Existing soybean irrigation systems take up a lot of space when stored, affecting convenience, and cannot adapt to the needs of different planting spacing.
The device employs a telescopic linkage mechanism, which allows it to be retracted into the irrigation linkage storage platform when not in use. The linkage gears ensure synchronous movement of the linkage, enabling convenient storage and adjustable irrigation spacing.
It reduces the space occupied when storing the device, increases storage convenience, can adapt to different planting spacing, and extends the service life of the connecting rod.
Smart Images

Figure CN224460791U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of soybean planting irrigation, and in particular to a novel soybean planting irrigation device. Background Technology
[0002] An existing patent (publication number: CN222885122U) proposes a novel soybean planting irrigation device, including a support plate. Each of the triangular sections at the bottom of the support plate is bolted with a movable wheel, and positioning components are provided on both sides of the bottom of the support plate. By setting up an irrigation-saving component, after the variable frequency water pump is started, it draws fertilizer water from the water tank through the suction pipe connected to its absorption end. However, this device has a fixed length of "the output end of the variable frequency water pump is connected to a delivery pipe, and the top of the delivery pipe is equipped with an irrigation-saving component", which makes the device occupy a lot of space when stored, affecting the convenience of storage. Summary of the Invention
[0003] This utility model addresses the aforementioned shortcomings of the existing technology by providing a novel soybean irrigation device that, during soybean planting irrigation, utilizes the telescopic structure of the telescopic linkage mechanism to allow the device to be retracted into the irrigation linkage storage platform when idle, thereby reducing the space occupied when storing the device and increasing its ease of storage.
[0004] The objective of this utility model is achieved through the following technical solution:
[0005] A novel soybean irrigation device includes an irrigation device support platform, side support plates, support plate drive cylinders, an irrigation tank, and an irrigation pump. The irrigation device support platform has an irrigation tank connection groove inside, which is adapted to the irrigation tank and connects to it. The irrigation tank is inserted into the irrigation tank connection groove. One side of the irrigation device support platform has an irrigation linkage storage platform. The top and bottom of the irrigation linkage storage platform both have support plate connection grooves. A side support plate is installed inside the irrigation linkage storage platform. The top and bottom of the side support plate both have support plate connecting sliders, which are adapted to the support plate connection grooves and connect to them. The support plate connecting sliders slide within the support plate connection grooves. A support plate driven block is located above the support plate connecting slider at the top of the side support plate. The top of the irrigation linkage storage platform is connected to the support plate drive cylinder. Two sets of support plate drive cylinders are symmetrically distributed on both sides of the irrigation linkage storage platform. The telescopic rods of the support plate drive cylinders are fixedly connected to the support plate driven blocks. The side of the side support plate has a gear connection platform and a connecting rod block mounting slide.
[0006] The gear connecting platform is located in the center. Two sets of connecting rod block mounting slides are distributed on the upper and lower sides of the gear connecting platform. The connecting rod drive block is adapted to the connecting rod block mounting slide and is connected to the connecting rod block mounting slide. The connecting rod drive block slides outside the connecting rod block mounting slide. The gear connecting platform is rotatably connected to the linkage gear. The linkage gear meshes with the connecting rod drive blocks on the upper and lower sides at the same time. The top of the connecting rod drive block is connected to the connecting rod driven block. A connecting rod drive cylinder is provided on the top of the connecting rod drive block. The side bearing plate is fixedly connected to the side of the connecting rod drive cylinder.
[0007] The connecting rod drive cylinder has a telescopic rod fixedly connected to a connecting rod driven block. The side of the connecting rod drive block has a connecting rod mechanism mounting column. The side of the side bearing plate is provided with an inner connecting rod. Multiple sets of inner connecting rods are connected end to end to form a telescopic connecting rod mechanism. The side of the telescopic connecting rod mechanism away from the side bearing plate is connected to an outer connecting rod. The side of the telescopic connecting rod mechanism close to the side bearing plate is connected to the connecting rod mechanism mounting column.
[0008] The inner connecting rod has an irrigation column connecting platform at its middle part and the outer connecting rod at its end. The middle and bottom of the irrigation column are rotatably connected to the corresponding irrigation column connecting platform. The top of the irrigation column has an irrigation nozzle. Irrigation pipes are connected to both sides of the irrigation tank. Irrigation pumps and irrigation pipe positioning blocks are connected to both sides of the irrigation device support platform.
[0009] Beneficial effects: 1. During the irrigation of soybean planting, the telescopic linkage mechanism of this utility model can be retracted into the irrigation linkage storage platform when the device is not in use, by means of its own telescopic structure, reducing the space occupied when storing the device and increasing the convenience of storing the device.
[0010] 2. Based on the telescopic linkage mechanism's inherent extensibility, this utility model allows for free adjustment of the irrigation spacing to adapt to different soybean planting spacings, thus increasing the device's irrigation applicability.
[0011] 3. The connecting rod drive blocks on both the upper and lower sides of this utility model are engaged with the linkage gear, so that the upper and lower sets of connecting rod drive blocks always move synchronously, thereby making the force balanced when the telescopic connecting rod mechanism expands and retracts, reducing the failure rate of the telescopic connecting rod mechanism during expansion and retraction, and extending the service life of the inner and outer connecting rods.
[0012] 4. The sliding block of the bearing plate of this utility model slides inside the bearing plate connecting groove, so that the side bearing plate can move inside the irrigation rod storage platform, and the inner connecting rod, telescopic connecting rod mechanism linkage gear and other parts can be further retracted into the irrigation rod storage platform, further reducing the space occupied by this device. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the structure of the novel soybean planting irrigation device described in this utility model.
[0014] Figure 2 This is a side cross-sectional view of the novel soybean planting irrigation device described in this utility model.
[0015] Figure 3 This is a diagram showing the internal structure of the novel soybean planting irrigation device described in this utility model.
[0016] Figure 4 This is a diagram showing the idle state of the novel soybean planting irrigation device described in this utility model.
[0017] Figure 5 This is a schematic diagram of the support platform structure of the irrigation device described in this utility model.
[0018] Figure 6 This is a schematic diagram of the side bearing plate structure described in this utility model.
[0019] Figure 7 This is a schematic diagram of the connecting rod drive block structure described in this utility model. Detailed Implementation
[0020] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:
[0021] Example 1:
[0022] A novel soybean irrigation device includes an irrigation device support platform 1, a side support plate 4, a support plate drive cylinder 5, an irrigation tank 7, and an irrigation pump 8. The irrigation device support platform 1 has an irrigation tank connection groove 15 inside, which is adapted to the irrigation tank 7 and connects to it. The irrigation tank 7 is inserted into the irrigation tank connection groove 15. An irrigation rod storage platform 2 is located on one side of the irrigation device support platform 1. The top and bottom of the irrigation rod storage platform 2 both have support plate connection grooves 3. A side support plate 4 is installed inside the irrigation rod storage platform 2. The top and bottom of the side support plate 4 both have support plate connecting sliders 17, which are adapted to the support plate connection grooves 3 and connect to them. The carrier plate connecting slider 17 slides inside the carrier plate connecting groove 3, allowing the side carrier plate 4 to move inside the irrigation link storage platform 2. This allows components such as the inner connecting rod 121 and the linkage gear 23 of the telescopic connecting rod mechanism 1 to be further retracted into the irrigation link storage platform 2, further reducing the space occupied by this device. The upper part of the carrier plate connecting slider 17 located at the top of the side carrier plate 4 has a carrier plate driven block 6. The top of the irrigation link storage platform 2 is connected to the carrier plate drive cylinder 5. Two sets of carrier plate drive cylinders 5 are symmetrically distributed on both sides of the irrigation link storage platform 2. The telescopic rod of the carrier plate drive cylinder 5 is fixedly connected to the carrier plate driven block 6. The side of the side carrier plate 4 has a gear connecting platform 22 and a connecting rod block mounting slide 24.
[0023] Example 2:
[0024] The gear connecting platform 22 of this utility model is located in the center. Two sets of connecting rod block mounting slides 24 are distributed on the upper and lower sides of the gear connecting platform 22. The connecting rod drive block 18 is adapted to the connecting rod block mounting slide 24 and is connected to the connecting rod block mounting slide 24. The connecting rod drive block 18 slides outside the connecting rod block mounting slide 24. The gear connecting platform 22 is rotatably connected to the linkage gear 23. The linkage gear 23 meshes with the connecting rod drive blocks 18 on the upper and lower sides simultaneously. The connecting rod drive block located at the top... The top of the connecting rod driven block 20 is connected to the top of the connecting rod. The upper and lower connecting rod drive blocks 18 are both engaged with the linkage gear 23, so that the upper and lower connecting rod drive blocks 18 always move synchronously. This makes the force on the telescopic connecting rod mechanism 12 balanced when it expands and retracts, reduces the failure rate of the telescopic connecting rod mechanism 12 when it expands and retracts, and extends the service life of the inner connecting rod 121 and the outer connecting rod 122. The top of the connecting rod drive block 18 is provided with a connecting rod drive cylinder 19, and the side bearing plate 4 is fixedly connected to the side of the connecting rod drive cylinder 19.
[0025] Example 3:
[0026] The linkage drive cylinder 19 of this utility model has a telescopic rod fixedly connected to a linkage driven block 20. The linkage drive block 18 has a linkage mechanism mounting column 25 on its side. The side of the side bearing plate 4 is provided with an inner linkage 121. Multiple sets of inner linkages 121 are connected end to end to form a telescopic linkage mechanism 12. According to the telescopic linkage mechanism 12 itself, the irrigation spacing of this device can be freely adjusted to adapt to different soybean planting spacings, thereby increasing the irrigation applicability of this device. The side of the telescopic linkage mechanism 12 away from the side bearing plate 4 is connected to an outer linkage 122, and the side of the telescopic linkage mechanism 12 close to the side bearing plate 4 is connected to the linkage mechanism mounting column 25. During the soybean planting irrigation process, the telescopic linkage mechanism 12 itself can be retracted into the irrigation linkage storage platform 2 when idle, reducing the space occupied when storing the device and increasing the convenience of storage.
[0027] Example 4:
[0028] The inner connecting rod 121 and the outer connecting rod 122 of this utility model each have an irrigation column connecting platform 13 in the middle and at the end. The middle and bottom of the irrigation column 14 are rotatably connected to the irrigation column connecting platform 13 at the corresponding positions. The top of the irrigation column 14 has an irrigation nozzle 21. Irrigation pipes 9 are connected to both sides of the irrigation tank 7. Irrigation pump 8 and irrigation pipe positioning block 11 are connected to both sides of the irrigation device support platform 1.
[0029] Example 5:
[0030] The irrigation pipe positioning block 11 of this utility model is located on the side of the irrigation pump 8 near the irrigation connecting rod storage platform 2. The irrigation pipe positioning block 11 is connected to the lower irrigation pipe 10, the top of the irrigation pump 8 is connected to the upper irrigation pipe 9, one side of the lower irrigation pipe 10 is connected to the irrigation pump 8, and the other side of the lower irrigation pipe 10 is connected to the irrigation column 14 in sequence.
[0031] Example 6:
[0032] The installation steps of this utility model are as follows: Insert the bearing plate connecting slider 17 of the side bearing plate 4 into the bearing plate connecting groove 3 of the irrigation device bearing platform 1; fix the top of the irrigation connecting rod storage platform 2 of the irrigation device bearing platform 1 to the bearing plate drive cylinder 5; fix the telescopic rod of the bearing plate drive cylinder 5 to the bearing plate driven block 6 of the side bearing plate 4; rotatably connect the linkage gear 23 to the gear connecting platform 22 of the side bearing plate 4; sleeve the connecting rod drive block 18 on the outside of the connecting rod block mounting slide 24 of the side bearing plate 4; connect the first and last ends of multiple inner connecting rods 121 to form a telescopic connecting rod mechanism 12; connect one end of the telescopic connecting rod mechanism 12 to the connecting rod mechanism of the connecting rod drive block 18. The mounting column 25 is rotatably connected, and the other end of the telescopic linkage mechanism 12 is rotatably connected to the outer linkage 122. The irrigation column 14 is rotatably connected to the irrigation column connecting platform 13 of the inner linkage 121 and the outer linkage 122. The irrigation tank 7 is inserted into the irrigation tank connecting groove 15 of the irrigation device support platform 1. Both sides of the irrigation device support platform 1 are connected to the irrigation pump 8 and the irrigation pipe positioning block 11. Both sides of the irrigation tank 7 are connected to the upper irrigation pipe 9. The top of the irrigation pump 8 is connected to the upper irrigation pipe 9. The bottom of the irrigation pump 8 is connected to the lower irrigation pipe 10. The middle part of the irrigation pipe positioning block 11 is connected to the lower irrigation pipe 10. The side of the lower irrigation pipe 10 away from the irrigation pump 8 is connected to the irrigation column 14 in sequence. The installation of this device is completed.
[0033] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A novel irrigation device for soybean cultivation, characterized in that: The system includes an irrigation device support platform (1), a side support plate (4), a support plate drive cylinder (5), an irrigation tank (7), and an irrigation pump (8). The irrigation device support platform (1) has an irrigation tank connection groove (15) inside, which is adapted to the irrigation tank (7). The irrigation tank connection groove (15) connects to the irrigation tank (7), and the irrigation tank (7) is inserted into the irrigation tank connection groove (15). The irrigation device support platform (1) has an irrigation connecting rod storage platform (2) on one side. The irrigation connecting rod storage platform (2) has a support plate connection groove (3) at both the top and bottom. The irrigation connecting rod storage platform (2) has a side support plate (4) inside, and the side support plate (4) has a support plate connection slide at both the top and bottom. Block (17), the bearing plate connecting slider (17) is adapted to the bearing plate connecting groove (3), the bearing plate connecting slider (17) is connected to the bearing plate connecting groove (3), the bearing plate connecting slider (17) slides inside the bearing plate connecting groove (3), the upper part of the bearing plate connecting slider (17) located at the top of the side bearing plate (4) has a bearing plate driven block (6), the top of the irrigation link storage platform (2) is connected to the bearing plate drive cylinder (5), two sets of bearing plate drive cylinders (5) are symmetrically distributed on both sides of the irrigation link storage platform (2), the extension rod of the bearing plate drive cylinder (5) is fixedly connected to the bearing plate driven block (6), the side of the side bearing plate (4) has a gear connecting platform (22) and a connecting rod block mounting slide (24).
2. The novel soybean planting irrigation device according to claim 1, characterized in that: The gear connecting platform (22) is in the center position. Two sets of connecting rod block mounting slides (24) are distributed on the upper and lower sides of the gear connecting platform (22). The connecting rod drive block (18) is adapted to the connecting rod block mounting slide (24). The connecting rod drive block (18) is connected to the connecting rod block mounting slide (24). The connecting rod drive block (18) slides outside the connecting rod block mounting slide (24). The gear connecting platform (22) is rotatably connected to the linkage gear (23). The linkage gear (23) meshes with the connecting rod drive blocks (18) on the upper and lower sides at the same time. The top of the connecting rod drive block (18) is connected to the connecting rod driven block (20). The top of the connecting rod drive block (18) is provided with a connecting rod drive cylinder (19). The side of the connecting rod drive cylinder (19) is fixedly connected to the side bearing plate (4).
3. The novel soybean planting irrigation device according to claim 2, characterized in that: The connecting rod drive cylinder (19) has a telescopic rod fixedly connected to the connecting rod driven block (20). The side of the connecting rod drive block (18) has a connecting rod mechanism mounting column (25). The side of the side bearing plate (4) is provided with an inner connecting rod (121). Multiple sets of inner connecting rods (121) are connected end to end to form a telescopic connecting rod mechanism (12). The side of the telescopic connecting rod mechanism (12) away from the side bearing plate (4) is connected to an outer connecting rod (122). The side of the telescopic connecting rod mechanism (12) close to the side bearing plate (4) is connected to the connecting rod mechanism mounting column (25).
4. The novel soybean planting irrigation device according to claim 3, characterized in that: The inner connecting rod (121) and the outer connecting rod (122) are both equipped with irrigation column connecting platforms (13). The middle and bottom of the irrigation column (14) are rotatably connected to the corresponding irrigation column connecting platforms (13). The top of the irrigation column (14) is equipped with an irrigation nozzle (21). The irrigation tank (7) is connected to the irrigation pipes (9) on both sides. The irrigation device support platform (1) is connected to the irrigation pump (8) and the irrigation pipe positioning block (11) on both sides.
5. The novel soybean planting irrigation device according to claim 3, characterized in that: The irrigation pipe positioning block (11) is located on the side of the irrigation pump (8) near the irrigation connecting rod storage platform (2). The irrigation pipe positioning block (11) is connected to the lower irrigation pipe (10). The top of the irrigation pump (8) is connected to the upper irrigation pipe (9). The lower irrigation pipe (10) is connected to the irrigation pump (8) on one side. The lower irrigation pipe (10) is connected to the irrigation column (14) on the other side in sequence.