CN115568362B - Novel planting platform for constructing three-dimensional aquatic plant community - Google Patents

Abstract

The application relates to the technical field of planting equipment, and particularly discloses a novel planting platform for constructing a three-dimensional aquatic plant community, which comprises a plurality of floating planting pots, wherein every two floating planting pots are mutually clamped, and a planting mechanism; the planting mechanism comprises basin placing components, two supporting components and lifting components, wherein the two supporting components are fixedly connected with the basin placing components respectively and are located at two ends of the basin placing components respectively, the two lifting components are rotatably connected with the corresponding supporting components respectively and located at the lower ends of the corresponding supporting components respectively. The setting of above structure can be convenient for collect aquatic plant seedling fast, has provided work efficiency, also need not artifical water down for work becomes light convenient.

Description

Novel planting platform for constructing three-dimensional aquatic plant community

Technical Field

The application relates to the technical field of planting equipment, in particular to a novel planting platform for constructing a three-dimensional aquatic plant community.

Background

At present, aquatic plants need to be planted in water, but the aquatic plants are usually planted in soil directly, after the aquatic plants grow into seedlings, the seedlings are pulled out of the flowerpot required for selling through manpower, so that the operation of collecting the seedlings is complicated, and meanwhile, the efficiency is low.

In the prior art, through the showy planting basin that uses the foam to make for aquatic plant directly floats and plants on the surface of water, when collecting the plant seedling and selling, can directly sell together with showy planting basin, need not to plant the plant seedling again, make convenient and fast more when collecting the plant seedling.

However, in the prior art, the aquatic plants are planted through the floating planting pot, and the plant seedlings are collected by the personnel who still need to drain in the collecting process, so that the collecting efficiency is slow and complex.

Disclosure of Invention

The application aims to provide a novel planting platform for constructing a three-dimensional aquatic plant community, which solves the problem that the efficiency of collecting aquatic plant seedlings is tedious and slow in the prior art.

In order to achieve the aim, the novel planting platform for constructing the stereoscopic aquatic plant community comprises a plurality of floating planting pots, wherein every two floating planting pots are mutually clamped,

the planting mechanism is also included;

the planting mechanism comprises basin placing components, supporting components and lifting components, wherein the number of the supporting components is two, the two supporting components are respectively fixedly connected with the basin placing components and are respectively positioned at two ends of the basin placing components, the number of the lifting components is two, and each lifting component is respectively and rotatably connected with the corresponding supporting component and is respectively positioned at the lower ends of the corresponding supporting components.

The planting mechanism further comprises a fixed limiting rod, the fixed limiting rod is in threaded connection with the basin placing assembly, and the fixed limiting rod penetrates through the basin placing assembly.

The basin placing assembly comprises a connecting plate, two sliding grooves and balls, wherein the number of the sliding grooves is two, the two sliding grooves are respectively fixedly connected with the connecting plate and are respectively located on one side of the connecting plate, each sliding groove is provided with a rolling groove, the number of the balls is multiple, each ball is respectively arranged in the corresponding rolling groove, and two ends of the floating planting basin are respectively arranged in the corresponding sliding groove.

Each supporting component comprises two supporting columns and a bottom plate, each supporting column is fixedly connected with the corresponding sliding groove and is located below the corresponding sliding groove, and the bottom plate is fixedly connected with the two supporting columns and is located below the two supporting columns.

Each lifting assembly comprises two rotating columns, a supporting frame, a screw rod and a submersible motor, wherein the rotating columns are fixedly connected with the bottom plate and located on two sides of the bottom plate, two ends of the supporting frame are respectively connected with the corresponding rotating columns in a rotating mode and are respectively sleeved on the outer surface wall of the corresponding rotating columns, the screw rod is in threaded connection with the supporting frame, the supporting frame is sleeved on the outer surface wall of the screw rod, and the screw rod is fixedly connected with the output end of the submersible motor and located above the submersible motor.

Wherein, a novel planting platform for constructing a three-dimensional aquatic plant community also comprises a base mechanism.

Each base mechanism comprises two side plates, a mounting plate, studs, nuts and a supporting table, wherein the two side plates are fixedly connected with the submersible motor and are respectively located on two sides of the submersible motor, the mounting plate is arranged below the submersible motor, the two studs and the two nuts are respectively arranged, each stud penetrates through the corresponding side plate, the mounting plate is in threaded connection with the corresponding nut, and the supporting table is fixedly connected with the mounting plate and located below the mounting plate.

Each base mechanism further comprises a connecting column and stabilizing rings, wherein the connecting columns are fixedly connected with the supporting table and located below the supporting table, the number of the stabilizing rings is multiple, and each stabilizing ring is fixedly connected with the connecting column and sleeved on the outer surface wall of the connecting column.

According to the novel planting platform for constructing the stereoscopic aquatic plant community, the required aquatic plants are planted in the floating planting pot, after the planting is finished, each floating planting pot is placed in the pot placing component, meanwhile, the pot placing component is supported by the two supporting components, the two ends of the pot placing component can be lifted and adjusted by the lifting component, when one end of the pot placing component is higher than the other end of the pot placing component, the floating planting pot can slide out along the pot placing component, and due to the arrangement of the structure, aquatic plant seedlings can be collected quickly, work efficiency is improved, manual water draining is not needed, and work is easy and convenient.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a first embodiment of the present application.

Fig. 2 is a front view of a first embodiment of the present application.

Fig. 3 is a cross-sectional view of the A-A line structure of fig. 2 in accordance with the present application.

Fig. 4 is a schematic structural view of the sliding groove of the present application.

Fig. 5 is a plan view of the sliding groove of the present application.

Fig. 6 is a schematic structural view of a second embodiment of the present application.

Fig. 7 is a front view of a second embodiment of the present application.

Fig. 8 is a schematic structural view of a third embodiment of the present application.

Fig. 9 is a schematic structural view of a fourth embodiment of the present application.

Fig. 10 is a schematic view of the structure of the spraying mechanism of the present application.

Fig. 11 is a top view of the spray mechanism of the present application.

Fig. 12 is a cross-sectional view of the B-B line structure of fig. 11 according to the present application.

Fig. 13 is a cross-sectional view of the C-C line structure of fig. 11 in accordance with the present application.

101-floating planting pot, 102-fixed limit rod, 103-connecting plate, 104-sliding groove, 105-ball, 106-rolling groove, 107-supporting column, 108-bottom plate, 109-rotating column, 110-supporting frame, 111-screw rod, 112-submersible motor, 113-bottom groove, 114-movable pressing plate, 115-movable shaft, 116-spring, 117-rotating supporting plate, 118-limit plate, 119-grip, 201-side plate, 202-mounting plate, 203-stud, 204-nut, 205-supporting table, 206-connecting column, 207-stabilizing ring, 301-supporting plate, 302-feeding tube, 303-nozzle, 401-bin body, 402-helical gear, 403-driving motor, 404-water inlet tube, 405-water outlet tube, 406-shaft column, 407-supporting plate, 408-sliding groove plate, 409-slider, 410-first spray head, 411-second spray head and 412-third spray head.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present application and should not be construed as limiting the application.

The first embodiment of the application is as follows:

referring to fig. 1 to 3, a novel planting platform for constructing a stereoscopic aquatic plant community comprises a plurality of floating planting pots 101, wherein each two floating planting pots 101 are mutually clamped,

the planting mechanism is also included;

the planting mechanism comprises basin placing components, supporting components and lifting components, wherein the number of the supporting components is two, the two supporting components are respectively fixedly connected with the basin placing components and are respectively positioned at two ends of the basin placing components, the number of the lifting components is two, and each lifting component is respectively and rotatably connected with the corresponding supporting component and is respectively positioned at the lower ends of the corresponding supporting components.

The planting mechanism further comprises a fixed limiting rod 102, the fixed limiting rod 102 is in threaded connection with the basin placing assembly, and the fixed limiting rod 102 penetrates through the basin placing assembly.

Basin subassembly includes connecting plate 103, sliding tray 104 and ball 105, the quantity of sliding tray 104 is two, two sliding tray 104 respectively with connecting plate 103 fixed connection, and be located respectively one side of connecting plate 103, every sliding tray 104 all has rolling tray 106, the quantity of ball 105 is many, every ball 105 sets up respectively in the inside of corresponding rolling tray 106, the both ends of showy planting basin 101 set up respectively in the inside of corresponding sliding tray 104.

Each supporting component comprises two supporting columns 107 and a bottom plate 108, each supporting column 107 is fixedly connected with the corresponding sliding groove 104 and is located below the corresponding sliding groove 104, and the bottom plate 108 is fixedly connected with the two supporting columns 107 and is located below the two supporting columns 107.

Each lifting assembly comprises two rotating columns 109, two supporting frames 110, a screw rod 111 and a submersible motor 112, wherein the rotating columns 109 are fixedly connected with the bottom plate 108 respectively and located on two sides of the bottom plate 108, two ends of each supporting frame 110 are respectively and rotatably connected with the corresponding rotating columns 109 and are respectively sleeved on the outer surface wall of the corresponding rotating column 109, the screw rod 111 is in threaded connection with the supporting frames 110, the supporting frames 110 are sleeved on the outer surface wall of the screw rod 111, and the screw rod 111 is fixedly connected with the output end of the submersible motor 112 and located above the submersible motor 112.

Each sliding groove 104 comprises a bottom groove 113, a movable pressing plate 114, a movable shaft 115, a spring 116, a rotary supporting plate 117, a limiting plate 118 and a handle 119, wherein the bottom groove 113 is fixedly connected with the connecting plate 103 and is located on one side of the connecting plate 103, the number of the rotary supporting plates 117 is two, the two rotary supporting plates 117 are respectively fixedly connected with the bottom groove 113 and are respectively located on one side of the bottom groove 113, the number of the movable shaft 115 is two, each movable shaft 115 is respectively and rotatably connected with the corresponding rotary supporting plate 117, the rotary supporting plates 117 are sleeved on the outer surface wall of the movable shaft 115, the two ends of the movable pressing plate 114 are respectively and fixedly connected with the two movable shafts 115 and are located between the two movable shafts 115, the spring 116 is sleeved on the outer surface wall of one movable shaft 115, the spring 116 is located between the movable pressing plate 114 and the rotary supporting plate 117, the number of the limiting plate is two, and the two movable plates are respectively and fixedly connected with the bottom groove 113 and the handle 119 are respectively located on one side of the movable pressing plate 114.

When in use, when aquatic plant seedlings need to be collected, the submersible motor 112 is started to rotate, the screw rod 111 is driven to rotate, the screw rod 111 rotates to drive the support frame 110 to move up and down along the screw rod 111, the bottom plate 108 can move up and down through the up and down movement of the support frame 110, the bottom plate 108 can rotate through the cooperation of the rotating column 109 and the support frame 110, the support column 107 supports the sliding groove 104, the two rolling grooves form a state with one high end and one low end through the rotation of the submersible motor 112, the fixed limiting rod 102 is opened to enable the floating planting pot 101 to slide, the rolling groove 106 is used for placing the rolling balls 105, the rolling balls 105 can reduce friction of the floating planting pot 101 in the sliding process, so that the floating planting pot 101 is smoother in the sliding process, when the floating planting pot 101 in the middle is required to be taken, the handle 119 is held to push the movable pressing plate 114 to one end with the spring 116 until the movable pressing plate 114 is separated from the limiting plate 118, the movable pressing plate 114 is rotated to open the movable pressing plate 114, after the floating planting pot 101 in the middle is taken, the movable pressing plate 114 is rotated again, so that the movable pressing plate 114 is arranged between the two limiting plates 118, meanwhile, the movable pressing plate 114 can be prevented from moving by the spring 116, the bottom groove 113 supports the rotating supporting plate 117, the rotating supporting plate 117 supports the movable shaft 115, meanwhile, the movable shaft 115 can facilitate the rotation of the movable pressing plate 114, the arrangement of the structure has higher efficiency when the aquatic plant seedlings are collected, and simultaneously, the operation is easier and simpler.

The second embodiment of the application is:

referring to fig. 4 to 5, on the basis of the first embodiment, the novel planting platform for constructing a stereoscopic aquatic plant community according to the present embodiment further includes a base mechanism.

Each base mechanism comprises two side plates 201, a mounting plate 202, studs 203, nuts 204 and a supporting table 205, wherein the number of the side plates 201 is two, the two side plates 201 are respectively fixedly connected with the submersible motor 112 and are respectively positioned on two sides of the submersible motor 112, the mounting plate 202 is arranged below the submersible motor 112, the number of the studs 203 and the nuts 204 is two, each stud 203 respectively penetrates through the corresponding side plate 201, the corresponding mounting plate 202 and the corresponding nuts are in threaded connection, and the supporting table 205 is fixedly connected with the mounting plate 202 and is positioned below the mounting plate 202.

Each base mechanism further comprises a connecting column 206 and a stabilizing ring 207, the connecting column 206 is fixedly connected with the supporting table 205 and located below the supporting table 205, the number of the stabilizing rings 207 is multiple, and each stabilizing ring 207 is fixedly connected with the connecting column 206 and sleeved on the outer surface wall of the connecting column 206.

When the novel planting platform is used, the stabilizing rings 207 and the connecting columns 206 are buried at the bottoms of the water tanks respectively, the stability of the supporting table 205 is enhanced by the stabilizing rings 207, the stabilizing table is placed to be inclined, meanwhile, the supporting table 205 supports the mounting plate 202, the mounting plate 202 supports the side plates 201 and the submersible motor 112, the side plates 201 and the mounting plate 202 are fastened with the studs 203 through the nuts 204, and the stability of the novel planting platform for constructing the three-dimensional aquatic plant community can be enhanced by the aid of the arrangement of the structures.

The third embodiment of the application is as follows:

referring to fig. 6, on the basis of the second embodiment, the novel planting platform for constructing a stereoscopic aquatic plant community of the present embodiment further includes a fertilizer adding mechanism.

The fertilizer adding mechanism comprises a plurality of support plates 301, a plurality of feed pipes 302 and a plurality of nozzles 303, wherein each support plate 301 is fixedly connected with one movable pressing plate, and is respectively located above the movable pressing plate, each feed pipe 302 is fixedly connected with the corresponding support plate 301, the corresponding support plate 301 is respectively sleeved on the outer surface wall of the corresponding feed pipe 302, the plurality of nozzles 303 are arranged, each nozzle 303 is respectively communicated with the corresponding feed pipe 302, and each nozzle 303 is respectively located on the outer surface wall of the corresponding feed pipe 302.

When the aquatic plant spraying device is used, the other end of the feeding pipe 302 is connected with the output end of the liquid medicine barrel, waste materials required by aquatic plants are dissolved and poured into the liquid medicine barrel, transported to the nozzle 303 through the feeding pipe 302, and then evenly sprayed to roots of the aquatic plants through the nozzle 303, and meanwhile the supporting plate 301 supports the feeding pipe 302.

The fourth embodiment of the present application is:

referring to fig. 7 to 10, on the basis of the third embodiment, the novel planting platform for constructing a stereoscopic aquatic plant community according to the present embodiment further includes a spraying mechanism.

The spraying mechanism comprises a bin body 401, bevel gears 402, driving motors 403, water inlet pipes 404, water outlet pipes 405, shaft posts 406 and support plates 407, wherein the number of the support plates 407 is two, each support plate 407 is fixedly connected with the corresponding sliding groove 104 and is respectively located at one side of the corresponding sliding groove 104, the number of the shaft posts 406 is two, each shaft post 406 is respectively and rotatably connected with the corresponding support plate 407, the bin body 401 is fixedly connected with the two shaft posts 406 and is located between the two shaft posts 406, the number of the bevel gears 402 is two, the two bevel gears 402 are respectively arranged at one side of the bin body 401, the two bevel gears 402 are meshed with each other, the driving motors 403 are arranged in the bin body 401, the output end of each driving motor 403 is fixedly connected with one bevel gear 402 and is located at one side of the bevel gears 402, the water inlet pipes 404 are communicated with the bin body 401 and are located at one side of the bin body 401 and are far away from the bin body 401 and are located at one side of the water outlet pipes 401.

The spraying mechanism further comprises a chute plate 408, a sliding block 409, a first spraying head 410, a second spraying head 411 and a third spraying head 412, wherein the chute plate 408 is communicated with the water outlet pipe 405 and is positioned at one end of the water outlet pipe 405, the sliding block 409 is slidably connected with the chute plate 408 and is positioned in the chute plate 408, and the first spraying head 410, the second spraying head 411 and the third spraying head 412 are respectively communicated with the sliding block 409 and are embedded in the sliding block 409.

When the novel water spraying device is used, the support plate 407 supports the shaft column 406, meanwhile, the water inlet pipe 404 is placed in a water body through the rotation of the shaft column 406, the driving motor 403 is started to rotate, one of the bevel gears 402 is rotated, the other bevel gear 402 is driven to rotate, the bevel gears 402 rotate at high speed in the bin body 401 to form air pressure difference, the water body is sucked into the bin body 401 through the water inlet pipe 404, water is discharged through the water outlet pipe 405, aquatic plant seedlings are sprayed, the shapes of the water bodies sprayed by the first spray nozzle 410, the second spray nozzle 411 and the third spray nozzle 412 are different from each other, the first spray nozzle 410, the second spray nozzle 411 and the third spray nozzle 412 can be adjusted according to the needs of a user, the slide block 409 is pushed, the corresponding spray nozzles are communicated with the water outlet pipe 405, and the leaf ends of the aquatic plant seedlings can be kept with water through the arrangement of the structure, and the aquatic plant seedlings can be guaranteed to grow better.

The above disclosure is only a preferred embodiment of the present application, and it should be understood that the scope of the application is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present application.

Claims (7)

1. The novel planting platform for constructing the three-dimensional aquatic plant community comprises a plurality of floating planting pots, wherein every two floating planting pots are mutually clamped,

the planting device also comprises a planting mechanism;

the planting mechanism comprises two basin placing components, two supporting components and two lifting components, wherein the two supporting components are fixedly connected with the basin placing components respectively and are positioned at two ends of the basin placing components respectively;

the basin placing assembly comprises two connecting plates, two sliding grooves and balls, wherein the two sliding grooves are respectively and fixedly connected with the connecting plates and are respectively positioned on one side of the connecting plates, each sliding groove is provided with a rolling groove, the number of the balls is multiple, each ball is respectively arranged in the corresponding rolling groove, and two ends of the floating planting basin are respectively arranged in the corresponding sliding groove;

each sliding groove comprises a bottom groove, a movable pressing plate, movable shafts, springs, rotary support plates, limiting plates and handles, wherein the bottom groove is fixedly connected with one connecting plate and is located on one side of the connecting plate, the quantity of the rotary support plates is two, the two rotary support plates are respectively fixedly connected with the bottom groove and are respectively located on one side of the bottom groove, the quantity of the movable shafts is two, each movable shaft is respectively and correspondingly rotatably connected with the rotary support plates, the rotary support plates are sleeved on the outer surface walls of the movable shafts, the two ends of each movable pressing plate are respectively and fixedly connected with the movable shafts and are located between the two movable shafts, the springs are sleeved on the outer surface wall of one movable shaft, the springs are located between the movable pressing plates and the rotary support plates, the quantity of the limiting plates is two, the limiting plates are respectively and fixedly connected with the bottom groove and are respectively located on one side of the bottom groove, the movable pressing plates are fixedly connected with the handles and are located on the upper sides of the movable pressing plates.

2. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 1,

the planting mechanism further comprises a fixed limiting rod, the fixed limiting rod is in threaded connection with the basin placing assembly, and the fixed limiting rod penetrates through the basin placing assembly.

3. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 2,

each supporting component comprises two supporting columns and a bottom plate, each supporting column is fixedly connected with the corresponding sliding groove and is positioned below the corresponding sliding groove, and the bottom plate is fixedly connected with the two supporting columns and is positioned below the two supporting columns.

4. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 3,

every lifting unit includes steering column, support frame, lead screw and submersible motor, the quantity of steering column is two, two the steering column respectively with bottom plate fixed connection, and be located the both sides of bottom plate, the both ends of support frame respectively with the corresponding steering column rotates to be connected to the cover respectively locates the outward appearance wall of corresponding steering column, the lead screw with support frame threaded connection, just the support frame cover is located the outward appearance wall of lead screw, the lead screw with submersible motor's output fixed connection, and be located submersible motor's top.

5. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 4,

the novel planting platform for constructing the stereoscopic aquatic plant community further comprises a base mechanism.

6. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 5,

each base mechanism comprises two side plates, a mounting plate, two studs, nuts and a supporting table, wherein the two side plates are fixedly connected with the submersible motor and are respectively positioned on two sides of the submersible motor, the mounting plate is arranged below the submersible motor, the two studs and the two nuts are respectively arranged, each stud penetrates through the corresponding side plate and the mounting plate and is in threaded connection with the corresponding nut, and the supporting table is fixedly connected with the mounting plate and is positioned below the mounting plate.

7. A novel planting platform for the construction of a population of stereoscopic aquatic plants according to claim 6,

each base mechanism further comprises a connecting column and stabilizing rings, wherein the connecting column is fixedly connected with the supporting table and is positioned below the supporting table, the number of the stabilizing rings is multiple, and each stabilizing ring is respectively fixedly connected with the connecting column and is respectively sleeved on the outer surface wall of the connecting column.