CN213486253U - Planting device of plant water planting - Google Patents

Abstract

The utility model relates to a plant water planting technical field especially relates to a field planting device of plant water planting. Comprises a tray and a planting groove arranged at the bottom of the tray; the tray comprises a planting hole, a tray boss and a water flowing groove; the planting holes are uniformly arranged on the tray, the planting holes penetrate through the tray, the tray bosses are arranged on the peripheral edge of the tray, the flowing water grooves are arranged on the tray, and the flowing water grooves are connected with the adjacent planting holes; the planting groove comprises a supporting platform, a water channel, a flow disturbing platform, an overflow platform and a reinforcing structure; the tray is matched with the planting slots, and the water flowing grooves on the tray are used for connecting adjacent planting holes, so that water on the tray can flow into the planting holes through the water flowing grooves and further flow into the planting slots; the vortex table that the planting inslot portion set up can carry out the intensive mixing to the culture solution that flows, makes the concentration of culture solution even, increases the utilization ratio of culture solution, is favorable to vegetation.

Description

Planting device of plant water planting

Technical Field

The utility model relates to a plant water planting technical field especially relates to a field planting device of plant water planting.

Background

Hydroponic plants are convenient, clean and inexpensive plants. The water culture adopts modern biological technology to further domesticate common plants and flowers. China's water culture is still in a primary development stage, and the technology and facilities are not mature and complete.

At present, a common field planting device adopts a long-strip tube-type structure or an injection molding pot-type structure, so that the cost of a mold is high, the internal structure of a field planting groove is simple and extensive, the culture solution in the field planting groove cannot be managed, the field planting groove and a tray are not designed in a matched manner, air flow in the field planting groove is not smooth after installation, water or the culture solution on the upper surface of the tray cannot be discharged, resources are wasted, leaves at the bottom of a plant are easy to adhere to the tray, and the plant and the health of people are greatly influenced if the leaves are easy to rot when not cleaned in time; the culture solution in the planting groove can not flow sufficiently, and the concentration of the culture solution is easy to be uneven, so that the utilization rate of the culture solution is reduced, and the growth of plants is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the technical defects exist, and provides a field planting device for water culture of plants, wherein a tray is matched with a field planting groove, and the water flowing grooves on the tray are used for connecting adjacent field planting holes, so that the water on the tray flows into the field planting holes through the water flowing grooves and further flows into the field planting groove; the vortex table that the planting inslot portion set up can carry out the intensive mixing to the culture solution that flows, makes the concentration of culture solution even, increases the utilization ratio of culture solution, is favorable to vegetation.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: comprises a tray and a planting groove arranged at the bottom of the tray; the tray comprises a planting hole, a tray boss and a water flowing groove; the planting holes are evenly arranged on the tray, the planting holes penetrate through the tray, the tray bosses are arranged on the edges of the periphery of the tray, the flowing water grooves are arranged on the tray, and the flowing water grooves are connected with the adjacent planting holes.

Furthermore, the planting groove comprises a supporting platform, a water channel, a flow disturbing platform, an overflow platform and a reinforcing structure; the supporting table is arranged on the bottom surface inside the field planting groove, the water channel is arranged between the supporting tables, the water channel is continuous and uninterrupted, the flow disturbing table is arranged on the water channel and fixedly connected with the supporting table, the overflow table is arranged on the supporting table, and the reinforcing structure is arranged on the field planting groove.

Further, be provided with the ventilation hole on the tray, the ventilation hole sets up between the planting hole, the ventilation hole runs through the tray.

Furthermore, the tray is provided with series ribs and a transverse groove, the series ribs are arranged between the planting holes and communicated with the water flowing groove, the transverse groove is arranged in the middle of the tray, and the transverse groove is communicated with the series ribs; the bottom surface of the transverse groove is provided with a plurality of water flow holes, and the water flow holes penetrate through the bottom surface of the transverse groove.

Furthermore, a vent is arranged at the top of the support platform and penetrates through the support platform, and the vent is opposite to the vent.

Further, additional strengthening includes recess and strengthening rib, the recess sets up on the field planting groove inner wall, the strengthening rib sets up on the field planting groove is followed upward.

Further, the field planting tank bottom surface is provided with a plurality of brace tables, brace table one end and field planting inslot wall connection have the water course between one end and the field planting inslot wall, the overflow table sets up in brace table and field planting inslot wall junction.

Furthermore, a chamfer is arranged at the edge of the water channel; one end of the water channel is provided with a water outlet pipe, the other end of the water channel is provided with a water inlet pipe, the water outlet pipe is communicated with the planting groove, and the water inlet pipe is communicated with the planting groove.

Compared with the prior art, the utility model has the advantages of it is following:

1. the water or culture solution on the tray flows into the planting holes through the flowing water grooves and then flows into the planting grooves, so that the waste of the culture solution is avoided, and the situation that leaves at the bottom of the plant are stuck on the tray to generate rot is also avoided;

2. the turbulence tables in the planting slots are arranged in the water channel, so that the culture solution flowing in the water channel can be automatically and fully mixed without additional operation, the utilization rate of the culture solution is improved, and the healthy growth of plants is ensured;

3. the supporting table and the reinforcing ribs in the planting groove enable the tray to be uniformly and stably supported, deformation is avoided, tray damage is reduced, and stability and safety of the whole structure are effectively improved;

4. through the chamfer that the water course edge set up, resistance when can reducing rivers flow can not make the phenomenon that the culture solution does not flow in some corners, avoids the accumulational phenomenon in corner of culture solution to increase the oxygen content in the culture solution, improved the oxygen content in the culture solution, guarantee plant roots's healthy growth.

Drawings

Fig. 1 is an overall schematic diagram of a planting device for water culture of plants.

Fig. 2 is a schematic view of a tray of a planting device for water planting of plants.

Fig. 3 is a schematic view of another tray of a planting device for hydroponics of plants.

Fig. 4 is a front schematic view of a planting groove of a planting device for water planting of plants.

Fig. 5 is a schematic view of the bottom of a planting slot of a planting device for water planting of plants.

Fig. 6 is a water flow direction schematic diagram of a planting device for plant water culture.

In the figure: 1. a planting groove; 2. a tray; 3. a water outlet pipe; 4. a water inlet pipe; 5. planting holes; 6. a vent hole; 6a, a vent; 7. a support table; 8. a groove; 9. reinforcing ribs; 10. chamfering; 11. an overflow table; 12. a spoiler; 13. a water channel; 14. a tray boss; 15. the flowing water groove and the 16 series ribs; 17. a transverse groove; 18. and (4) a water flowing hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-6, comprises a tray 2 and a planting slot 1 arranged at the bottom of the tray 2; the tray 2 comprises a planting hole 5, a tray boss 14 and a water flowing groove 15; plant the hole 5 align to grid on tray 2, plant the hole 5 and run through tray 2, tray boss 14 sets up in tray 2 edge all around, flowing water recess 15 sets up on tray 2, adjacent plant the hole is connected to the flowing water recess.

The planting groove 1 comprises a support table 7, a water channel 13, a turbulent flow table 12, an overflow table 11 and a reinforcing structure; the utility model discloses a field planting groove 1, including a field planting groove 1, a supporting bench 7, water course 13, vortex platform 12 and a supporting bench 7 fixed connection, overflow platform 11 sets up on a supporting bench 7, additional strengthening sets up on field planting groove 1, water course 13 sets up between supporting bench 7, water course 13 does not break in succession, vortex platform 12 sets up on water course 13, vortex platform 12 and a supporting bench 7 fixed connection, overflow platform 11 sets up on a supporting.

Be provided with ventilation hole 6 on tray 2, ventilation hole 6 sets up between planting hole 5, ventilation hole 6 runs through tray 2.

The tray 2 is provided with series ribs 16 and transverse grooves 17, the series ribs 16 are arranged between the planting holes 5 and communicated with the water flowing grooves 15, the transverse grooves 17 are arranged in the middle of the tray 2, and the transverse grooves 17 are communicated with the series ribs 16; the bottom surface of the transverse groove 17 is provided with a plurality of water flowing holes 18, and the water flowing holes 18 penetrate through the bottom surface of the transverse groove 17.

The top of the support platform 7 is provided with a vent 6a, the vent 6a penetrates through the support platform 7, and the vent 6a is opposite to the vent 6.

The reinforcing structure comprises a groove 8 and a reinforcing rib 9, wherein the groove 8 is arranged on the inner wall of the field planting groove 1, and the reinforcing rib 9 is arranged on the upper edge of the field planting groove 1.

The utility model discloses a field planting groove 1 bottom surface is provided with a plurality of brace tables 7, brace table 7 one end and field planting groove 1 inner wall connection have water course 13 between one end and the 1 inner wall of field planting groove, overflow table 11 sets up in brace table 7 and the 1 inner wall junction of field planting groove.

A chamfer 10 is arranged at the edge of the water channel 13; one end of the water channel 13 is provided with a water outlet pipe 3, the other end of the water channel is provided with a water inlet pipe 4, the water outlet pipe 3 is communicated with the planting groove 1, and the water inlet pipe 4 is communicated with the planting groove 1.

The effect of tray is through the field planting basket and the plant of field planting hole placement, makes its plant wholly not drop to the field planting inslot, and the root system stretches into in the culture solution of field planting inslot. The ventilation holes are matched with the ventilation openings on the planting slots to play a role of ventilation from top to bottom, so that the air in the planting slots is smooth, and plants can obtain a good growing environment. The effect of tray boss is the intensity of strengthening the tray structure, can block the water on the tray simultaneously, prevents the outflow. The water flowing grooves are used for providing a flowing path for water on the tray when water exists on the tray, such as water sprayed on the tray when plants are taken out or sprayed on the leaf surfaces, so that the water on the tray flows into the planting holes along the water flowing grooves and then flows into the planting grooves; and the concave design in the flowing water groove, the intensity of tray has evenly been increased.

The planting slots are used for providing flowing culture solution water flow for plants. The supporting table and the reinforcing ribs are used for providing uniform support for the tray, so that the tray is not easy to deform. The water channel is used for enabling the culture solution to flow. The turbulent flow table makes the flowing culture solution form turbulent flow to play a role in stirring. The effect of overflow platform is when the rivers block, prevents that the water level from rising in the water course and taking place the overflow phenomenon to when plant roots is dense, when blockking flowing culture solution, the culture solution can follow overflow platform and flow out, avoids the culture solution in the field planting groove to pile up too much. The strengthening structure is used for increasing the strength of the integral structure of the planting slot, so that the integral structure of the planting slot is firmer, and the reinforcing ribs play roles in positioning and stabilizing the tray. The chamfer at the edge of the water channel has the function of reducing the resistance of the flowing culture solution, so that the culture solution cannot be accumulated at the corner.

The tray can also be as shown in fig. 3, the water on the tray flows into the transverse grooves layer by layer through the communication of the concave serial ribs and the water flowing grooves on the tray, and the serial ribs are communicated with the transverse grooves arranged in the middle of the tray, and finally the water flows downwards from the water flowing holes at the bottom of the transverse grooves.

When the tray is used, the tray is placed on the planting groove, the planting basket and the plants are placed in the planting holes, then the culture solution enters the water channel from the water inlet pipe and is disturbed by the turbulence table on the way to form turbulence, so that the water flow of the culture solution is stirred and is discharged from the water outlet after flowing through the whole water channel, when the plants are taken out or sprayed on the leaf surface, and when water exists on the surface of the tray, the water on the tray can flow into the planting holes through the water flowing grooves, so that the water flows into the planting groove; or the water on the tray flows into the series ribs through the water flowing grooves, then flows into the transverse grooves through the series ribs, and flows into the planting grooves through the water flowing holes at the bottoms of the transverse grooves.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (8)

1. The utility model provides a field planting device of plant water planting which characterized in that: comprises a tray (2) and a planting groove (1) arranged at the bottom of the tray (2); the tray (2) comprises a planting hole (5), a tray boss (14) and a water flowing groove (15); plant hole (5) align to grid on tray (2), plant hole (5) run through tray (2), tray boss (14) set up in tray (2) edge all around, flowing water recess (15) set up on tray (2), adjacent plant hole is connected to the flowing water recess.

2. The field planting device of claim 1, wherein: the planting groove (1) comprises a supporting platform (7), a water channel (13), a flow disturbing platform (12), an overflow platform (11) and a reinforcing structure; support bench (7) set up on the inside bottom surface of field planting groove (1), water course (13) set up between support bench (7), water course (13) do not break off in succession, vortex platform (12) set up on water course (13), vortex platform (12) and support bench (7) fixed connection, overflow platform (11) set up on support bench (7), additional strengthening sets up on field planting groove (1).

3. The field planting device of claim 1, wherein: be provided with ventilation hole (6) on tray (2), ventilation hole (6) set up between planting hole (5), ventilation hole (6) run through tray (2).

4. The field planting device of claim 1, wherein: the tray (2) is provided with series ribs (16) and transverse grooves (17), the series ribs (16) are arranged between the planting holes (5) and communicated with the water flowing grooves (15), the transverse grooves (17) are arranged in the middle of the tray (2), and the transverse grooves (17) are communicated with the series ribs (16); the bottom surface of the transverse groove (17) is provided with a plurality of water flowing holes (18), and the water flowing holes (18) penetrate through the bottom surface of the transverse groove (17).

5. The field planting device of claim 2, wherein: the top of the support platform (7) is provided with a vent (6a), the vent (6a) penetrates through the support platform (7), and the vent (6a) is opposite to the vent (6).

6. The field planting device of claim 2, wherein: the reinforcing structure comprises a groove (8) and a reinforcing rib (9), the groove (8) is arranged on the inner wall of the field planting groove (1), and the reinforcing rib (9) is arranged on the upper edge of the field planting groove (1).

7. The field planting device of claim 2, wherein: the bottom surface of field planting groove (1) is provided with a plurality of brace tables (7), brace table (7) one end and field planting groove (1) inner wall connection have water course (13) between one end and field planting groove (1) inner wall, overflow platform (11) set up in brace table (7) and field planting groove (1) inner wall junction.

8. The field planting device of claim 2, wherein: a chamfer (10) is arranged at the edge of the water channel (13); water course (13) one end is provided with outlet pipe (3), and the other end is provided with inlet tube (4), outlet pipe (3) communicate with each other with field planting groove (1), inlet tube (4) communicate with each other with field planting groove (1).

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