Agricultural planting auxiliary frame

Abstract

The present application relates to the technical field of agricultural planting, and particularly relates to an agricultural planting auxiliary frame, which comprises mounting frames, arc-shaped parts on the two mounting frames are provided with arc-shaped sliding grooves, sliding shafts on pipe joints are symmetrically and slidingly installed in the arc-shaped sliding grooves of the mounting frames, connecting pipes are connected between two pipe joints on the same side, and mounting arc-shaped frames are arranged between two connecting pipes at the same horizontal position on the front and back sides. Through the assembly design, the present application realizes flexible installation and adjustment. Workers can conveniently adjust the positions of the pipe joints and the sliding shafts in the arc-shaped sliding grooves of the mounting frames by pulling the connecting pipes and moving the moving rods, so that the installation and fixation of the whole device are realized.

Description

Technical Field

[0001] This invention relates to the technical field of agricultural planting, and more particularly to an agricultural planting auxiliary frame. Background Technology

[0002] With the rapid advancement of technology, traditional land-based farming methods are no longer sufficient. Consequently, a series of innovative planting technologies have emerged, using machines to simulate natural growing environments and greatly enriching agricultural production models. Modern planting methods such as greenhouse cultivation and vertical farming are gradually gaining attention. They not only improve land use efficiency but also promote sustainable agricultural development. The importance of planting racks, as a crucial supporting structure in modern planting technologies, is self-evident.

[0003] However, current planting rack designs generally suffer from problems such as simplistic structures, low irrigation efficiency, and complex assembly. During irrigation, inadequate design often leads to significant water waste, increasing agricultural production costs and contradicting current water-saving principles. Furthermore, the complex assembly process increases the difficulty of using the planting racks, hindering their widespread adoption and application in agricultural production.

[0004] In view of the above problems, we urgently need to design an agricultural planting support frame that is both easy to irrigate and easy to assemble in order to meet the actual needs of modern agricultural production. Summary of the Invention

[0005] In order to overcome the shortcomings of current planting rack designs, such as simple structure, low irrigation efficiency and complex assembly, the technical problem of this invention is to provide an agricultural planting auxiliary rack that is both easy to irrigate and easy to assemble.

[0006] The technical implementation scheme of the present invention is as follows: an agricultural planting auxiliary frame, comprising a mounting frame, pipe joints, sliding shafts, connecting pipes, an arc-shaped mounting frame, a planting pot, a hinge block, a rotating shaft, a sprinkler assembly, a spraying assembly, a shielding assembly, and a limiting assembly. Arc-shaped grooves are formed on the arc-shaped portions of both mounting frames. The sliding shafts on the pipe joints are symmetrically and slidably mounted on the arc-shaped grooves of the mounting frames. Connecting pipes connect two pipe joints on the same side. Arc-shaped mounting frames are provided between two connecting pipes at the same horizontal position on both the front and rear sides. Planting pots are installed on the frame. Hinges are installed at the top of two adjacent connecting pipes. A rotating shaft is installed between the two hinges. A sprinkler assembly that can spray the planting pots evenly is installed between the connecting pipes. A cylindrical groove is opened on the cylindrical part of one side of the planting pot. One side of the cylindrical groove is connected to the planting area of ​​the planting pot. A spraying assembly for spraying medicine is installed in the cylindrical groove of the cylindrical part of the planting pot. A shielding assembly that can block the spraying assembly is installed on the planting pot. A limiting assembly that can limit the sliding shaft is installed on the arc-shaped part of both mounting frames.

[0007] Preferably, the sprinkler assembly includes a connector, a mounting base, a long spray pipe, a connecting water pipe, a mounting base, a water pump, a main water pipe, branch water pipes, and a winding wheel. The connector is connected to the pipe joint on the lower side. Mounting bases are symmetrically arranged on the front and back of the outer wall of the planting pot. A long spray pipe is arranged between two mounting bases. A connecting water pipe is installed between the connecting pipes. The connecting water pipe is connected to the connector and the long spray pipe. A water pump is installed on the mounting base. The outlet of the water pump is connected to the main water pipe. Two branch water pipes are arranged between the outlets of the main water pipe. The two branch water pipes are connected to the adjacent connectors respectively. A winding wheel is installed on the mounting base. The winding wheel can be used to wind up the branch water pipes.

[0008] Preferably, the spraying assembly includes a mounting bracket, a pump body, and a spray pipe. Circular holes are opened on the mutually distant sidewalls of the cylindrical parts of the planting pots, and the circular holes communicate with the cylindrical grooves. Mounting brackets are provided on the mutually distant sidewalls of the two planting pots. A spray pipe is provided in the cylindrical groove of the cylindrical part of the planting pot. A pump body is provided at the circular hole position of the planting pot. The spray pipe connected to the pump body is mounted on the mounting bracket. The spray pipe is used to connect to an external liquid tank.

[0009] Preferably, the shielding component includes a toggle block and an annular stop post. An arc-shaped groove is opened on the cylindrical part of the planting pot, and the toggle block is slidably arranged in the arc-shaped groove. The annular stop post is rotatably arranged on the spray tube. The toggle block is connected to the annular stop post, and the annular stop post has inclined grooves spaced apart.

[0010] Preferably, the limiting assembly includes an N-type seat, a movable rod, and an elastic element. The top of the arc-shaped portion on both mounting brackets is symmetrically provided with N-type seats on the left and right sides. The movable rod is slidably arranged inside the N-type seat. An elastic element is sleeved on the movable rod. One end of the elastic element is connected to the N-type seat, and the other end of the elastic element is connected to the lower part of the movable rod. The lower end of the movable rod passes through the arc-shaped portion on the mounting bracket, and the movable rod limits the sliding shaft.

[0011] Preferably, it also includes a slide, with the bottom of the mounting bracket slidingly mounted to the slide.

[0012] Preferably, it also includes a humidity sensor and a control panel. The control panel is installed on the mounting bracket, and the humidity sensor is installed inside the planting pot. The humidity sensor is connected to the control panel and an external power supply via a circuit.

[0013] Preferably, the mounting bracket and slide can be fastened with bolts.

[0014] The present invention has the following advantages:

[0015] 1. This device features a modular design, enabling flexible installation and adjustment. Workers can easily adjust the positions of pipe joints and sliding shafts within the arc-shaped grooves of the mounting frame by pulling the connecting pipes and moving the movable rods, thus achieving the installation and fixation of the entire device. This design not only simplifies the installation process but also improves the adaptability and flexibility of the device, allowing it to adapt to different environments and needs.

[0016] 2. This device features intelligent irrigation and fertilizer application. A humidity sensor monitors the humidity inside the planting pots in real time and transmits the signal to the controller on the control panel. When the controller receives a signal indicating that irrigation is needed, it activates the water pump, spraying water evenly onto the plants in the pots through the pipes. Furthermore, the device is equipped with a pesticide spraying system. Operators can adjust the position of the ring-shaped sprayer by moving a lever, allowing fertilizer to be sprayed directly onto the plant roots. This design not only improves the accuracy of irrigation and fertilization but also contributes to the healthy growth of the plants. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0018] Figure 2 This is a schematic diagram of the installation structure for mounting the arc-shaped frame and planting pot of the present invention.

[0019] Figure 3 This is a partial three-dimensional structural schematic diagram of the present invention.

[0020] Figure 4 This is a partial structural schematic diagram of the sprinkler irrigation assembly of the present invention.

[0021] Figure 5 This is a schematic diagram of the exploded structure of the present invention.

[0022] Figure 6 This is a three-dimensional structural diagram of the annular stop post of the present invention.

[0023] Figure 7 This is a schematic diagram of the installation structure of the limiting component of the present invention.

[0024] Figure 8 This is a schematic diagram of the installation structure of the humidity sensor of the present invention.

[0025] Explanation of reference numerals in the attached drawings: 1-Mounting bracket, 2-Arc-shaped groove, 3-Pipe joint, 31-Sliding shaft, 4-Connecting pipe, 5-Mounting arc-shaped bracket, 6-Planting pot, 7-Hinge block, 8-Rotating shaft, 9-Sprinkler assembly, 91-Connector, 92-Fixing seat, 93-Long spray pipe, 94-Connecting water pipe, 95-Mounting seat, 96-Water pump, 97-Main water pipe, 98-Diverter pipe, 99-Roller wheel, 10-Spraying assembly, 101-Card holder, 102-Round hole, 103-Pump body, 104-Spraying pipe, 11-Shielding assembly, 111-Arc-shaped groove, 112-Actuating block, 113-Annular stop post, 114-Sloping groove, 12-Limiting assembly, 121-N-type seat, 122-Moving rod, 123-Elastic element, 13-Sliding seat, 14-Humidity sensor, 15-Control panel. Detailed Implementation

[0026] The present invention will be further described below with reference to the embodiments shown in the accompanying drawings.

[0027] Example: Figure 1-2As shown, an agricultural planting auxiliary frame includes a mounting frame 1, a pipe joint 3, a sliding shaft 31, a connecting pipe 4, a mounting arc frame 5, a planting pot 6, a hinge block 7, a rotating shaft 8, a sprinkler assembly 9, a spraying assembly 10, a shielding assembly 11, and a limiting assembly 12. The arc-shaped portions of both mounting frames 1 have arc-shaped sliding grooves 2. The sliding shafts 31 on the pipe joints 3 are symmetrically and slidably mounted on the arc-shaped sliding grooves 2 of the mounting frames 1. A connecting pipe 4 connects the two pipe joints 3 on the same side. Mounting arc frames 5 are installed between the two connecting pipes 4 at the same horizontal position on both the front and rear sides. The mounting arc frames 5 are connected by screws... The planting pot 6 is installed by bolt connection. The top of the two adjacent connecting pipes 4 is provided with hinge block 7. A rotating shaft 8 is provided between the two hinge block 7. A sprinkler assembly 9 is provided between the connecting pipes 4 to spray the planting pot 6 evenly. A cylindrical groove is opened on the cylindrical part of one side of the planting pot 6. One side of the cylindrical groove is connected to the planting area of ​​the planting pot 6. A spraying assembly 10 for spraying medicine is provided in the cylindrical groove of the cylindrical part of the planting pot 6. A shielding assembly 11 is provided on the planting pot 6 to shield the spraying assembly 10. A limiting assembly 12 is provided on the arc part of the two mounting brackets 1 to limit the sliding shaft 31.

[0028] like Figure 1 , Figure 3 and Figure 4 As shown, the sprinkler assembly 9 includes a connector 91, a fixing base 92, a long spray pipe 93, a connecting water pipe 94, a mounting base 95, a water pump 96, a main water pipe 97, a branch water pipe 98, and a winding wheel 99. The connector 91 is connected to the pipe joint 3 on the lower side. The fixing bases 92 are symmetrically arranged on the front and back of the outer side wall of the planting pot 6. The long spray pipe 93 is arranged between the two fixing bases 92. The connecting water pipe 94 is installed in the connecting pipe 4. The connecting water pipe 94 is connected to the connector 91 and the long spray pipe 93. The water pump 96 is arranged on the mounting base 95. The outlet of the water pump 96 is connected to the main water pipe 97. Two branch water pipes 98 are arranged between the outlets of the main water pipe 97. The two branch water pipes 98 are respectively connected to the adjacent connectors 91. The winding wheel 99 is arranged on the mounting base 95. The winding wheel 99 can be used to wind up the branch water pipes 98.

[0029] like Figure 1 and Figure 5 As shown, the spraying assembly 10 includes a mounting base 101, a pump body 103, and a spraying tube 104. Each of the cylindrical sections of the planting pot 6 has a circular hole 102 on its far-away sidewalls, which communicates with the cylindrical groove. Mounting bases 101 are bolted to the far-away sidewalls of the two planting pots 6. A spraying tube 104 is installed inside the cylindrical groove of the cylindrical section of the planting pot 6. A pump body 103 is bolted to the circular hole 102 of the planting pot 6. The spraying tube connected to the pump body 103 is mounted on the mounting base 101 and is used to connect to an external liquid tank.

[0030] like Figure 1 , Figure 2 , Figure 5 and Figure 6 As shown, the shielding component 11 includes a toggle block 112 and an annular stop post 113. An arc-shaped groove 111 is opened on the cylindrical part of the planting pot 6. The toggle block 112 is slidably arranged in the arc-shaped groove 111. The annular stop post 113 is rotatably arranged on the spray tube 104. The toggle block 112 is connected to the annular stop post 113. The annular stop post 113 has inclined grooves 114 spaced apart.

[0031] like Figure 1 and Figure 7 As shown, the limiting assembly 12 includes an N-type seat 121, a moving rod 122, and an elastic element 123. The top of the arc-shaped portion on both mounting brackets 1 is symmetrically provided with N-type seats 121 by bolt connection. The moving rod 122 is slidably provided inside the N-type seat 121. The elastic element 123 is sleeved on the moving rod 122. The elastic element 123 is a compression spring. One end of the elastic element 123 is connected to the N-type seat 121, and the other end of the elastic element 123 is connected to the lower part of the moving rod 122. The lower end of the moving rod 122 passes through the arc-shaped portion on the mounting bracket 1, and the moving rod 122 limits the sliding shaft 31.

[0032] like Figure 1 As shown, it also includes a slide 13. The bottom of the mounting bracket 1 is slidably mounted to the slide 13. The mounting bracket 1 and the slide 13 can be fastened with bolts.

[0033] like Figure 1 and Figure 8 As shown, it also includes a humidity sensor 14 and a control panel 15. The control panel 15 is installed on the mounting bracket 1, and the humidity sensor 14 is installed inside the planting pot 6. The humidity sensor 14 is connected to the control panel 15 and an external power supply via a circuit.

[0034] When assembly is required, the worker pulls the connecting pipes 4 on both sides to the sides, and the hinge block 7 rotates around the rotating shaft 8. Then, the connecting pipe 4 drives the pipe joint 3 and the sliding shaft 31 to slide along both sides of the arc-shaped sliding groove 2 of the mounting frame 1. Then, by pulling the moving rod 122 upward, the elastic element 123 is compressed. When the sliding shaft 31 slides to the left and right sides of the arc-shaped sliding groove 2, the moving rod 122 is released, the elastic element 123 returns to its original position, and the moving rod 122 limits the sliding shaft 31. At this time, the bottom of the mounting frame 1 is slid onto the slide seat 13. When the humidity sensor 14 detects the humidity inside the planting pot 6, it transmits a signal to the controller on the control panel 15. Upon receiving a signal indicating the need for watering, the controller activates the water pump 96. The water pump 96 injects water into the connector 91 through the main water pipe 97 and the branch water pipe 98. The connector 91 then sprays water out through the connecting water pipe 94 and the long spray pipe 93, irrigating the plants in the planting pot 6. When pesticide spraying is required, the operator moves the toggle block 112, which rotates the annular baffle 113. The inclined groove 114 of the annular baffle 113 faces the inside of the planting pot 6, allowing the pump body 103 to draw in external fertilizer, which is then sprayed directly onto the plant roots through the spray pipe 104. This device has a simple structure, is easy to adjust and install, and can evenly irrigate and apply fertilizer to the plants in the planting pot 6.

[0035] The above description is merely a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present invention should be included within the scope of protection of the present invention. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.

Claims

1. An agricultural planting auxiliary frame, characterized in that, The system includes mounting brackets (1), with arc-shaped grooves (2) on the arc-shaped parts of both mounting brackets (1). A sliding shaft (31) on a pipe joint (3) is symmetrically and slidably installed in the arc-shaped groove (2) of the mounting bracket (1). Connecting pipes (4) connect the two pipe joints (3) on the same side. Arc-shaped mounting frames (5) are installed between the two connecting pipes (4) at the same horizontal position on both the front and rear sides. Planting pots (6) are installed on the arc-shaped mounting frames (5). Hinge blocks (7) are installed at the top of the two adjacent connecting pipes (4). A hinge block (7) is installed between the two hinge blocks (7). A rotating shaft (8) is provided, and a sprinkler assembly (9) capable of uniformly spraying the planting pot (6) is provided between the connecting pipes (4). A cylindrical groove is opened on one side of the cylindrical part of the planting pot (6), and one side of the cylindrical groove is connected to the planting area of ​​the planting pot (6). A spraying assembly (10) for spraying medicine is provided in the cylindrical groove of the cylindrical part of the planting pot (6). A shielding assembly (11) capable of shielding the spraying assembly (10) is provided on the planting pot (6). A limiting assembly (12) capable of limiting the sliding shaft (31) is provided on the arc-shaped parts of the two mounting brackets (1). The sprinkler assembly (9) includes a connector (91), and the connector (91) is connected to the pipe joint (3) on the lower side. The planting pot (6) is symmetrically provided with a fixing seat (92) on the front and back of the outer side wall. A long spray pipe (93) is provided between the two fixing seats (92). A connecting water pipe (94) is installed between the connecting pipes (4). The connecting water pipe (94) is connected to the connector (91) and the long spray pipe (93). A water pump (96) is provided on the mounting base (95). The outlet of the water pump (96) is connected to the main water pipe (97). Two branch water pipes (98) are provided between the outlet ends of the main water pipe (97). The two branch water pipes (98) are respectively connected to the adjacent connectors (91). A winding wheel (99) is provided on the mounting base (95). The winding wheel (99) can be used to wind up the branch water pipes (98). The spraying assembly (10) includes a mounting base (101). The cylindrical parts of the planting pots (6) are provided with circular holes (102) on their opposite sidewalls. The circular holes (102) are connected to the cylindrical grooves. The mounting base (101) is provided on the opposite sidewalls of the two planting pots (6). The cylindrical grooves of the cylindrical parts of the planting pots (6) are provided with spray pipes (104). The circular holes (102) of the planting pots (6) are provided with pump bodies (103). The pipes connected to the pump bodies (103) are clamped onto the mounting base (101). The pipes are used to connect to an external liquid tank. The shielding component (11) includes a toggle block (112), an arc groove (111) is opened on the cylindrical part of the planting pot (6), the toggle block (112) is slidably arranged in the arc groove (111), an annular stop post (113) is rotatably arranged on the spray tube (104), the toggle block (112) is connected to the annular stop post (113), and the annular stop post (113) is spaced apart with inclined grooves (114). It also includes a humidity sensor (14), a control panel (15) is provided on the mounting bracket (1), the humidity sensor (14) is provided in the planting pot (6), and the humidity sensor (14) is connected to the control panel (15) and an external power supply through a line.

2. An agricultural planting auxiliary frame according to claim 1, characterized in that, The limiting component (12) includes an N-type seat (121). The N-type seats (121) are symmetrically arranged on the top left and right sides of the arc-shaped parts on the two mounting brackets (1). A movable rod (122) is slidably arranged inside the N-type seat (121). An elastic element (123) is sleeved on the movable rod (122). One end of the elastic element (123) is connected to the N-type seat (121), and the other end of the elastic element (123) is connected to the lower part of the movable rod (122). The lower end of the movable rod (122) passes through the arc-shaped part on the mounting bracket (1). The movable rod (122) limits the sliding shaft (31).

3. An agricultural planting auxiliary frame according to claim 2, characterized in that, It also includes a slide (13), the bottom of which is slidably mounted to the slide (13).

4. An agricultural planting auxiliary frame according to claim 3, characterized in that, The mounting bracket (1) and the slide (13) can be fastened with bolts.

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