CN220987029U - Be applied to planting frame structure that aeroponics planted - Google Patents

Abstract

The application relates to the technical field of planting racks, in particular to a planting rack structure applied to aeroponics planting, which comprises a first bent and a second bent opposite to the first bent, wherein a bearing rack is arranged between the first bent and the second bent, and a first reinforcing component and a second reinforcing component are respectively arranged between the first bent and the second bent. The application has the effect of improving the stability of the whole structure of the planting frame.

Description

Be applied to planting frame structure that aeroponics planted

Technical Field

The application relates to the technical field of planting frames, in particular to a planting frame structure applied to aeroponics planting.

Background

The modern agriculture production forms mainly comprise a greenhouse, a plant factory and the like, are essentially forms for technical improvement of traditional agriculture and promotion of agricultural technology progress, and are effective ways for accelerating modernization of agriculture. In the prior art, in order to reduce the production cost, the container plant cultivation production base is developed so as to realize timely adjustment according to plant production requirements, and therefore, the planting technology of aeroponics is developed.

The aeroponic technique is an advanced cultivation mode in soilless cultivation technique, and can realize rapid growth and development of plants in a short period. In the current aeroponics planting technology, the cooperation is often used and is planted the frame and carry out the growth cultivation of plant, plants the frame and includes first bent and second bent, first bent is provided with the multilayer between first bent and the second bent and plants the frame, one side of planting the frame is provided with the aerial fog subassembly, when needs plant the plant, will plant first and place in proper order and plant the dish group on the frame in the multilayer, then start the aerial fog subassembly according to actual demand, aerial fog subassembly produces aerial fog this moment, provides required temperature, humidity, CO2 and wind-force for the plant.

In the process of realizing the application, the inventor finds that the first bent frame and the second bent frame are connected only by the planting frame, when the overall height of the planting frame is too high, the overall structure of the planting frame is easy to deform under the condition of shaking, and finally the situation that the planting disc group falls off is easy to occur.

Disclosure of utility model

In order to improve the stability of the overall structure of the planting frame, the application provides a planting frame structure applied to aeroponic planting.

The application provides a planting frame structure applied to aeroponic planting, which adopts the following technical scheme:

Be applied to planting frame structure that aeroponics planted, including first bent and with the second bent that first bent set up relatively, first bent with be provided with the bearing frame between the second bent, first bent with be provided with first enhancement subassembly and second enhancement subassembly between the second bent respectively.

Through adopting above-mentioned technical scheme, when needs put up the planting frame, first bent is put up with the second bent relatively earlier, then builds the bearing frame between first bent and second bent, and the bearing frame is used for supplying the plant dish group to place, and first enhancement subassembly and second enhancement subassembly are put up in proper order again at last, under the effect of first enhancement subassembly and second enhancement subassembly, have strengthened the joint strength between first bent and the second bent for the planting frame is difficult for rocking the deformation when rocking, and then is favorable to improving the stability of planting frame overall structure.

Optionally, the first reinforcing component includes two piece at least facade reinforcing plates, first bent includes two piece at least first pole setting, the second bent includes two piece at least second pole setting, two piece at least the facade reinforcing plate sets up respectively in two at least first pole setting with two at least between the second pole setting, first bent with the second bent all is provided with the mounting that is used for fixing the facade reinforcing plate.

Through adopting above-mentioned technical scheme, when need consolidate the planting frame, install the facade reinforcing plate between relative first pole setting and second pole setting, improve the joint strength between first bent and the second bent through the facade reinforcing plate, and then be favorable to improving the stability of planting frame overall structure.

Optionally, the mounting is including setting up in the right angle board at facade reinforcing plate both ends, both ends the right angle board laminate respectively in first pole setting and the surface of second pole setting, both ends the right angle board pass through the bolt respectively with first pole setting and second pole setting fixed connection.

Through adopting above-mentioned technical scheme, when the fixed facade reinforcing plate of needs, laminate the rectangular plate at facade reinforcing plate both ends in the surface of first pole setting and second pole setting respectively earlier, then the rethread bolt is screwed up, and the rectangular plate is favorable to restricting the removal of first pole setting and second pole setting, increases the area of contact of facade reinforcing plate with first pole setting and second pole setting respectively, and then is favorable to improving the stability of joint strength between first bent and the second bent.

Optionally, the second reinforcing component comprises a pull rod, a first hinging seat is respectively arranged on two sides of the first vertical rod, a second hinging seat is respectively arranged on two sides of the second vertical rod, the pull rod is obliquely arranged between the first bent and the second bent, one end of the pull rod is hinged with the first hinging seat, and the other end of the pull rod is hinged with the second hinging seat.

Through adopting above-mentioned technical scheme, when needs further consolidate planting the frame, place the pull rod between first bent and the second bent earlier, then with the one end of pull rod with first articulated seat articulated, the other end of pull rod is articulated with the articulated seat of second, first bent and second bent are fixed each other through the pull rod this moment, are favorable to further improving planting frame overall structure's stability.

Optionally, the pull rod includes pull tube and telescopic link, the telescopic link slip set up in the pull tube, the one end of telescopic link runs through the pull tube, and extend to outside the pull tube, the pull tube is provided with and is used for fixing the locking subassembly of telescopic link.

Through adopting above-mentioned technical scheme, for first bent and the second bent of adaptation different intervals, when needs use the pull rod to connect fixedly, pull out the telescopic link from a pull cylinder in earlier according to actual interval, then the rethread locking component is fixed in current flexible length with the telescopic link, and then is favorable to improving the application scope of pull rod.

Optionally, the locking subassembly includes the locking lever, the lateral wall of drawing the section of thick bamboo is provided with the lock frame, the locking lever with lock frame sliding connection, the one end of locking lever run through in draw a section of thick bamboo lateral wall, a plurality of locked grooves have been seted up to the lateral wall of telescopic link, the one end of locking lever with the locked groove is pegged graft, the lock frame is provided with and is used for the cooperation to drive the gliding moving part of locking lever.

Through adopting above-mentioned technical scheme, when needs are suitable for the pull rod, remove tensile locking lever earlier to make the locking lever break away from in the locked groove, then according to actual tensile telescopic link, when the telescopic link was tensile to required length, under the cooperation effect of moving the piece, peg graft the locking lever in the locked groove, the telescopic link was fixed in current length this moment, and then is favorable to improving the flexible fixed stability of telescopic link.

Optionally, the moving part comprises a spring, the spring is sleeved on the lock rod, a moving plate is sleeved on the side wall of the lock rod, one end of the spring is connected with the lock frame, and the other end of the spring is connected with the moving plate.

Through adopting above-mentioned technical scheme, when the locking lever moved towards the direction of keeping away from the pull cylinder, the locking lever extrudeed the spring through the movable plate, and when releasing the locking lever, the spring release elasticity and drive locking lever moved towards the direction that is close to the pull cylinder, and the locking lever grafting is in the locked groove this moment, and the telescopic link is fixed in the pull cylinder, and then is favorable to improving the stability that the telescopic link was fixed in the pull cylinder.

Optionally, the bearing frames are provided with multiple layers, and the distance between two adjacent layers of bearing frames ranges from 430mm to 470mm.

Through adopting above-mentioned technical scheme, multilayer bearing frame is favorable to supplying planting dish group to place, improves the quantity that the plant was planted, and with the interval control between the bearing frame between 430mm-470mm, is favorable to providing suitable growth space for the plant, and is favorable to the aerial fog to assist plant growth better.

In summary, the application has the following beneficial technical effects:

When needs put up and plant the frame, first bent and second bent are put up relatively earlier, then put up the bearing frame between first bent and second bent, the bearing frame is used for supplying the plant dish group to place, put up first enhancement subassembly and second enhancement subassembly again in proper order at last, under the effect of first enhancement subassembly and second enhancement subassembly, the joint strength between first bent and the second bent has been strengthened for plant the frame and be difficult for rocking the deformation when rocking, and then be favorable to improving the stability of planting frame overall structure.

Drawings

FIG. 1 is a schematic view of the overall structure of a planting frame applied to aeroponic planting of the present application;

FIG. 2 is a schematic view of the overall structure of the first reinforcement assembly of the present application;

FIG. 3 is a schematic view of the overall structure of a second reinforcement assembly of the present application;

Fig. 4 is an enlarged view of a portion a of fig. 3.

Reference numerals illustrate: 1. a first bent; 2. a second bent; 3. a bearing frame; 4. a planting frame bellows; 5. a ventilation cross beam; 6. a first upright; 7. a second upright; 8. a vertical face reinforcing plate; 9. a right angle plate; 10. a pull rod; 11. a first hinge base; 12. the second hinge seat; 13. pulling a barrel; 14. a telescopic rod; 15. a lock lever; 16. a lock frame; 17. pulling blocks; 18. a moving plate; 19. a locking groove; 20. and (3) a spring.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

Examples:

Referring to fig. 1, a planting frame structure applied to aeroponic planting comprises a first bent 1 and a second bent 2. The first bent 1 and the second bent 2 are oppositely placed, a bearing frame 3 is fixed between the first bent 1 and the second bent 2, and the bearing frame 3 is used for placing a plant tray set. A temperature and humidity integrated machine (not shown in the figure) is placed on one side far away from the planting frame, a planting frame bellows 4 is installed on one side of the planting frame, ventilation cross beams 5 are respectively installed on opposite sides of the first bent 1 and the second bent 2, and the bearing frame 3 is fixedly installed on the ventilation cross beams 5. The planting frame bellows 4 is including air inlet port and air outlet port, and the air inlet end and the warm and humid all-in-one of planting frame bellows 4 are fixed the intercommunication, and the air outlet port and the ventilation crossbeam 5 of planting frame bellows 4 are fixed the intercommunication.

When the temperature and humidity integrated machine is started, the air suitable for plant growth is blown towards the direction of the plant tray group through the ventilation cross beam 5, so that the rapid growth and development of plants in a short period are realized by utilizing an aerosol culture mode.

The first bent 1 comprises first vertical rods 6, and the number of the first vertical rods 6 is at least two. Similarly, the second bent 2 also includes second uprights 7, and the number of the second uprights 7 corresponds to the number of the first uprights 6. The adjacent first vertical rods 6 and the adjacent second vertical rods 7 are fixedly connected through the ventilation cross beam 5, and the bearing frame 3 is fixedly arranged on the ventilation cross beam 5.

Referring to fig. 1 and 2, in order to improve the stability of the overall structure of the planting frame, the planting frame is reduced to deform when shaking, and the first bent 1 and the second bent 2 are respectively provided with a first reinforcing component and a second reinforcing component. The first reinforcing component is used for reinforcing the upper support of the planting frame, and the second reinforcing component is used for reinforcing the lower support of the planting frame. The first stiffening component comprises a facade stiffening plate 8. The elevation reinforcing plate 8 is arranged between every two opposite first vertical rods 6 and second vertical rods 7, and the first vertical rods 6 and the second vertical rods 7 are respectively provided with a fixing piece for fixing the elevation reinforcing plate 8.

Specifically, referring to fig. 2, the fixing member includes integrally formed right angle plates 9 at two ends of the elevation reinforcing plate 8, the right angle plates 9 at one end of the elevation reinforcing plate 8 are attached to the surface of the first vertical rod 6, the right angle plates 9 at the other end of the elevation reinforcing plate 8 are attached to the surface of the second vertical rod 7, and the right angle plates 9 at two ends are respectively and fixedly connected with the first vertical rod 6 and the second vertical rod 7 through bolts.

When the vertical face reinforcing plate 8 is required to be installed, the rectangular plates 9 at the two ends of the vertical face reinforcing plate 8 are respectively attached to the surfaces of the first rectangular plate 9 and the second rectangular plate 9, then the bolts are screwed down, and at the moment, the first vertical rod 6 and the second vertical rod 7 are fixedly connected with each other through the vertical face reinforcing plate 8, so that the upper support of the planting frame is completed.

In particular, referring to fig. 1 and 3, the second reinforcement assembly includes a tie rod 10. The both sides that first pole setting 6 is close to the bottom are fixed with first articulated seat 11 respectively, and the both sides that second pole setting 7 is close to the bottom are fixed with second articulated seat 12 respectively. The quantity of the pull rods 10 is provided with a plurality of pull rods 10, the pull rods 10 are obliquely arranged between the first bent frame 1 and the second bent frame 2, one ends of the pull rods 10 are hinged with the first hinging seat 11, the other ends of the pull rods 10 are hinged with the second hinging seat 12, and the pull rods 10 are arranged in a line drawing mode. It should be noted that the plurality of tie rods 10 are all hinged by means of hinge bolts.

Referring to fig. 3 and 4, in order to facilitate the use of the pull rod 10 for different distances between the first bent 1 and the second bent 2, the pull rod 10 includes a pull cylinder 13 and a telescopic rod 14. The telescopic rod 14 slides in the pull cylinder 13, and one end of the telescopic rod 14 penetrates through the pull cylinder 13 and extends out of the pull cylinder 13. And the pull cylinder 13 is provided with a locking assembly for fixing the telescopic rod 14 in the current stretching position.

In particular, the locking assembly comprises a locking lever 15. The side wall of the pull cylinder 13 is fixed with a lock frame 16, the lock rod 15 slides in the lock frame 16, one end of the lock rod 15 penetrates through the lock frame 16, and a pull block 17 is coaxially fixed. The other end of the lock lever 15 penetrates the side wall of the pull cylinder 13 and extends into the pull cylinder 13. The side wall of the telescopic rod 14 is provided with a plurality of locking grooves 19, the locking grooves 19 are respectively arranged along the length direction of the telescopic rod 14, and the other end of the locking rod 15 is spliced with the locking grooves 19.

Referring to fig. 4, in order to assist in driving the lock lever 15 to be inserted into the lock groove 19, the lock frame 16 is provided with a moving member, the moving member is a spring 20, and the spring 20 is sleeved on the peripheral wall of the lock lever 15. The fixed ring of lateral wall of locking lever 15 is equipped with movable plate 18, and the one end and the movable plate 18 fixed connection of spring 20, the other end and the inner wall fixed connection of lock frame 16 of spring 20.

When the tie rod 10 is required to be installed, the required length of the tie rod 10 is firstly adopted according to the actual distance between the first bent 1 and the second bent 2. Then, the lock rod 15 is pulled again to enable the lock rod 15 to be separated from the locking groove 19, then the telescopic rod 14 is pulled again to the required length, the lock rod 15 is released, and under the action of the spring 20, the lock rod 15 is reset and inserted into the current locking groove 19, and the fixing of the current length of the pull rod 10 is completed. And then the pull rods 10 are fixedly installed in the first hinging seat 11 and the second hinging seat 12 in sequence through hinging bolts, and the pull rods 10 are arranged in the direction of a line diagram, so that the lower support of the support frame is completed.

It should be noted that, referring to fig. 1, the bearing frame 3 is provided with multiple layers, and the multiple layers of bearing frames 3 are beneficial to increasing the number of plants planted. The distance between two adjacent layers of bearing frames 3 ranges from 430mm to 470mm, in this embodiment, the distance between two adjacent layers of bearing frames 3 is 450mm, and under the distance of 450mm, a suitable growth space for plants is provided.

Be applied to planting frame structure's of aeroponics planting theory of operation:

When the planting frame needs to be reinforced, the lower part of the planting frame is fixed, at the moment, the two ends of the pull rod 10 are fixedly installed in the first hinging seat 11 and the second hinging seat 12 respectively through hinging bolts, the pull rods 10 are arranged in a line drawing mode, and under the action of the pull rods 10, the lower parts of the first bent 1 and the second bent 2 are connected and fixed.

And then fixing the upper part of the planting frame, attaching the rectangular plates 9 at the two ends of the vertical face reinforcing plate 8 to the surfaces of the first vertical rod 6 and the second vertical rod 7 respectively, and screwing the bolts. Under the action of the elevation reinforcing plate 8, the upper parts of the first bent 1 and the second bent 2 are connected and fixed.

In summary, the vertical surface reinforcing plate 8 is fixedly connected to the upper portion of the planting frame, and the pull rod 10 is fixedly connected to the lower portion of the planting frame, so that the overall stability of the planting frame is improved, and deformation of the planting frame when shaking again is reduced.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. Be applied to planting frame structure that aeroponics planted, including first bent (1) and with second bent (2) that first bent (1) set up relatively, its characterized in that: the bearing frame (3) is arranged between the first bent frame (1) and the second bent frame (2), and a first reinforcing component and a second reinforcing component are respectively arranged between the first bent frame (1) and the second bent frame (2).

2. A planting frame structure applied to aeroponic planting as claimed in claim 1, wherein: the first reinforcing component comprises at least two vertical face reinforcing plates (8), the first bent frame (1) comprises at least two first vertical rods (6), the second bent frame (2) comprises at least two second vertical rods (7), at least two vertical face reinforcing plates (8) are respectively arranged between the at least two first vertical rods (6) and the at least two second vertical rods (7), and the first bent frame (1) and the second bent frame (2) are respectively provided with fixing pieces for fixing the vertical face reinforcing plates (8).

3. A planting frame structure applied to aeroponic planting as claimed in claim 2, wherein: the fixing piece comprises right angle plates (9) arranged at two ends of the elevation reinforcing plate (8), the right angle plates (9) at two ends are respectively attached to the surfaces of the first vertical rod (6) and the second vertical rod (7), and the right angle plates (9) at two ends are respectively fixedly connected with the first vertical rod (6) and the second vertical rod (7) through bolts.

4. A planting frame structure applied to aeroponic planting according to claim 3, wherein: the second reinforcing component comprises a pull rod (10), a first hinging seat (11) is arranged on two sides of the first vertical rod (6) respectively, a second hinging seat (12) is arranged on two sides of the second vertical rod (7) respectively, the pull rod (10) is obliquely arranged between the first bent frame (1) and the second bent frame (2), one end of the pull rod (10) is hinged to the first hinging seat (11), and the other end of the pull rod (10) is hinged to the second hinging seat (12).

5. A planting frame structure for use in aeroponics planting as claimed in claim 4, wherein: the pull rod (10) comprises a pull cylinder (13) and a telescopic rod (14), the telescopic rod (14) is arranged in the pull cylinder (13) in a sliding mode, one end of the telescopic rod (14) penetrates through the pull cylinder (13) and extends out of the pull cylinder (13), and the pull cylinder (13) is provided with a locking assembly used for fixing the telescopic rod (14).

6. A planting frame structure for aeroponics planting as defined in claim 5, wherein: the locking assembly comprises a locking rod (15), a lock frame (16) is arranged on the side wall of the pull cylinder (13), the locking rod (15) is in sliding connection with the lock frame (16), one end of the locking rod (15) penetrates through the side wall of the pull cylinder (13), a plurality of locking grooves (19) are formed in the side wall of the telescopic rod (14), one end of the locking rod (15) is inserted into the locking grooves (19), and the lock frame (16) is provided with a moving part used for being matched and driving the locking rod (15) to slide.

7. The planting frame structure applied to aeroponic planting as claimed in claim 6, wherein: the movable part comprises a spring (20), the spring (20) is sleeved on the lock rod (15), a movable plate (18) is sleeved on the side wall of the lock rod (15), one end of the spring (20) is connected with the lock frame (16), and the other end of the spring (20) is connected with the movable plate (18).

8. A planting frame structure applied to aeroponic planting as claimed in claim 1, wherein: the bearing frames (3) are provided with multiple layers, and the distance between every two adjacent layers of bearing frames (3) ranges from 430mm to 470mm.