CN-118923520-B - Water planting frame for agricultural and optical integrated plant factory

Abstract

The invention provides a hydroponic planting frame for an agricultural and optical integrated plant factory, which comprises a bearing frame, wherein the bearing frame is used for installing hydroponic tanks, the bearing frames are arranged along a plurality of upright posts of a photovoltaic bracket, one end of the bearing frame is connected with the upright posts through at least two leaning angles, a supporting rod is arranged at the other end of the bearing frame and is inclined towards the direction of the upright posts, and the hydroponic tanks are fixedly arranged on the bearing frame. The angle is in a V shape or a U shape when overlooked, the opening of the angle is used for accommodating the upright post, the two angles are separated by a distance in height, the two angles are fixedly connected with the vertical rod, one end of the flat rod is fixedly connected with the vertical rod, and the other end of the flat rod is fixedly connected with the stay bar; when each leaning angle is contacted with the upright post, the included angle between the supporting rod and the vertical plane is 3-45 degrees, the bottom of the supporting rod is provided with a supporting foot, and the supporting foot is pressed below the ground. By adopting the structure, the construction efficiency is very high, and because the connecting structure is few, the conventional processes of screwing bolts, welding and the like are not needed, and the construction efficiency is greatly improved.

Inventors

• XUE YANGYANG
• CHEN FULAI

Assignees

• 三峡珠江发电有限公司
• 惠东润佳新能源科技有限公司

Dates

Publication Date

20260508

Application Date

20240925

Claims (8)

1. 1. The water planting frame for the agricultural and optical integrated plant factory is characterized by comprising a bearing frame, wherein the bearing frame is used for installing a water planting groove (7), and a plurality of bearing frames are arranged along a plurality of upright posts (3) of a photovoltaic bracket; One end of the bearing frame is connected with the upright post (3) through at least two leaning angles, the other end of the bearing frame is provided with a supporting rod (9), and the supporting rod (9) inclines towards the direction of the upright post (3); The angle is in a V shape or a U shape when overlooked, an opening of the angle is used for accommodating the upright post (3), the two angles are separated in height by a certain distance, the two angles are fixedly connected with the vertical post (6), one end of the flat rod (8) is fixedly connected with the vertical post (6), and the other end of the flat rod (8) is fixedly connected with the supporting rod (9); when each leaning angle is contacted with the upright post (3), the included angle between the supporting rod (9) and the vertical plane is 3-45 degrees; the bottom of the stay bar (9) is provided with a support leg (10), and the support leg (10) is pressed into the ground; The support leg (10) has the structure that the top of the support leg (10) is provided with a top joint (101), and the top joint (101) is used for being fixedly connected with the stay bar (9); A cylindrical section (102) and a sharp bottom (106) which are vertically arranged are sequentially arranged below the top joint (101), a slidable sleeve (104) is arranged on the cylindrical section (102), a fixing screw (103) is arranged on the sleeve (104) and is used for being fixed with the cylindrical section (102), and a pedal (105) extending towards the horizontal direction is arranged at the edge of the sleeve (104); The axis of the support leg (10) is vertical to the ground; The water culture tank (7) is fixedly arranged on the bearing frame.
2. 2. The hydroponic cultivation frame for the agricultural and optical integrated plant factory according to claim 1, wherein the flat bars (8) are horizontally or obliquely arranged, and the hydroponic tanks (7) are arranged in a plurality along the flat bars (8); when the flat rod (8) is obliquely arranged, one end close to the upright post (3) is higher, and one end far away from the upright post (3) is lower; Reinforcing ribs (12) are arranged between the flat bars (8) and the stay bars (9).
3. 3. The hydroponic planting frame for the agricultural and optical integrated plant factory according to claim 2, wherein the stay bar (9) is further provided with an extension bar (13), and the extension bar (13) is used for supporting the hydroponic tank (7).
4. 4. The hydroponic planting frame for an agricultural and optical integrated plant factory according to claim 1, wherein a friction layer (16) is arranged on the inner wall of the leaning angle.
5. 5. The hydroponic planting frame for an agricultural and optical integrated plant factory according to claim 1, wherein the rattan supporting rods (14) are arranged on the flat rods (8), and rattan supporting cross rods (15) are arranged on the rattan supporting rods (14), so that the hydroponic planting frame is formed.
6. 6. The water planting frame for the agricultural and optical integrated plant factory is characterized in that a water planting groove (7) is fixedly connected with a flat rod (8) through a connecting clamp (11); The connecting card (11) has the structure that the upper end surface of the bottom plate (112) is provided with upper side walls (111) at positions close to two sides, and the upper side walls (111) are fixedly connected with the hydroponic tank (7); The lower side walls (116) are oppositely arranged at the positions, close to two sides, of the lower end face of the bottom plate (112), and the lower side walls (116) are fixedly connected with the flat rods (8); the horizontal projection of the upper side wall (111) is perpendicular to the horizontal projection of the lower side wall (116).
7. 7. The hydroponic stand for an agricultural and optical integrated plant factory according to claim 1, wherein the upper side wall (111) and the lower side wall (116) are provided with buckles (113) and/or screw holes (114).
8. 8. The hydroponic cultivation stand for an agricultural and optical integrated plant factory according to claim 7, wherein a base plate (115) is further provided, the base plate (115) is arranged between the upper side wall (111) or the lower side wall (116) and between the hydroponic tank (7) and the flat bar (8), and the height of the base plate (115) is adjusted to enable the hydroponic tank (7) to incline along the arrangement direction of the plurality of upright posts (3).

Description

Water planting frame for agricultural and optical integrated plant factory Technical Field The invention relates to the technical field of water planting frames in agricultural and optical integrated under-board facility agriculture projects, in particular to a water planting frame for an agricultural and optical integrated plant factory. Background The agriculture and light integrated plate under-facility agriculture organically fuses the photovoltaic engineering with the plant factory, realizes the sharing of facilities and space, can reduce the facility investment and the production operation cost of the plant factory, and reduces the construction and installation cost of the under-plate plant factory including the planting frame. The existing planting frame is complex in structure, a multi-column structure is generally adopted, the construction cost, particularly the installation cost is high, the structural strength is insufficient, and the problem of slight shaking exists. The main reason that the installation cost of the water planting frame is higher is that the water planting groove needs to have a certain inclination angle, for example, the water planting groove is inclined by 1-5 degrees along the length direction of the water planting groove, so that nutrient solution in the water planting groove circulates, plants along the water planting groove can be ensured to obtain enough nutrition, a plant factory under the photovoltaic engineering does not have high-precision horizon generally, more time and energy are required for on-site adjustment of the elevation of each bearing frame, and the requirements on constructors are high. The prior art does not see the water planting frame that fuses better with photovoltaic facility, can make full use of current photovoltaic facility, also does not see and can arrange fast to be convenient for flexible production and conveniently change different structures, in order to adapt to the water planting frame scheme of different vegetation demands. Disclosure of Invention The invention aims to solve the technical problem of providing the water planting frame for the agricultural and optical integrated plant factory, which can greatly improve the construction efficiency of the water planting frame, reduce the construction cost, and can conveniently and rapidly adjust the structure of the water planting frame according to the production requirement of the plant factory so as to realize rapid-adaptive order-type production. The technical scheme adopted by the invention is that the hydroponic planting frame for the agricultural and optical integrated plant factory comprises a bearing frame, wherein the bearing frame is used for installing a hydroponic tank, and a plurality of bearing frames are arranged along a plurality of upright posts of a photovoltaic bracket; one end of the bearing frame is connected with the upright post through at least two leaning angles, and the other end of the bearing frame is provided with a supporting rod which inclines towards the direction of the upright post; The water planting groove is fixedly arranged on the bearing frame. In the preferred scheme, the leaning angle is in a V shape or a U shape in overlook, an opening of the leaning angle is used for accommodating the upright post, the two leaning angles are separated by a distance in height, the two leaning angles are fixedly connected with the vertical rod, one end of the flat rod is fixedly connected with the vertical rod, and the other end of the flat rod is fixedly connected with the supporting rod; when each leaning angle is contacted with the upright post, the included angle between the supporting rod and the vertical plane is 3-45 degrees; the bottom of the stay bar is provided with a support leg which is pressed into the ground. In a preferred scheme, the flat rods are horizontally or obliquely arranged, and a plurality of hydroponic tanks are arranged along the flat rods; When the flat rods are obliquely arranged, one end close to the upright post is higher, and one end far away from the upright post is lower; and a reinforcing rib is arranged between the flat rod and the stay bar. In the preferred proposal, the stay bar is also provided with an extension bar which is used for supporting the hydroponic tank. In a preferred embodiment, a friction layer is provided on the inner wall of the corner. In the preferred scheme, a rattan supporting rod is arranged on the flat rod, and a rattan supporting cross rod is arranged on the rattan supporting rod, so that the solid hydroponic planting frame is formed. In the preferred scheme, the hydroponic tank is fixedly connected with the flat rod through a connecting clamp; the connecting card is structurally characterized in that the upper end face of the bottom plate is provided with upper side walls at positions close to two sides, and the upper side walls are fixedly connected with the hydroponic tank; the lower end face of the bot