CN213486252U - A field planting basin for plant water planting is used - Google Patents

Abstract

The utility model relates to a water planting plant technical field especially relates to a field planting basin for water planting plant. The water flow is pumped into the planting groove from the water storage groove through a water pump, flows into a flow channel through a water supply pipe and flows back to the water storage groove from a water falling port, so that nutrient solution in the water flow flows sufficiently, the dissolved oxygen of the nutrient solution is effectively increased, and the utilization rate of the nutrient solution is improved; through the cooperation of the gap on the field planting cell wall and the spillway on the catch basin wall, can make the inside stable water level that keeps of field planting groove, can prevent the emergence of overflow accident, can provide stable culture solution degree of depth for the plant roots simultaneously.

Description

A field planting basin for plant water planting is used

Technical Field

The utility model relates to a water planting plant technical field especially relates to a field planting basin for plant water planting is used.

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, the general fixed planting water tank has a rough and over-simple internal structure, the internal structure is simple and unstable, water supply management to plants is not fine, water consumption is large, nutrient solution cannot flow sufficiently in the fixed planting water tank, and oxygen content in the nutrient solution is extremely easy to reduce; the insufficient flowing of the nutrient solution can cause local unbalance of nutrients in the nutrient solution, so that the utilization rate of the nutrient solution is low; and adopts a mode of uninterrupted water feeding of a water pump. When the plant root system changes, the stable culture solution depth can not be ensured, and a stable culture solution depth environment is provided for the plant root system. When the water falling port is blocked by root systems or sundries, other water outlets are not arranged, overflow accidents are easy to happen, and dangers are easy to happen.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the technical defects exist are overcome, the field planting water tank for plant water planting is provided, the water storage tank and the field planting tank are matched with each other to form a water flow internal circulation structure, water flow is introduced into the field planting tank from the water storage tank through the water pump, the water flow flows into a flow channel through the water supply pipe and flows back to the water storage tank from a water falling port, so that the nutrient solution in the water flow flows sufficiently, the condition of unbalanced flow of the nutrient solution is effectively reduced, and the utilization rate of the nutrient solution is improved; through the cooperation of the overflow gap on the planting groove wall and the overflow way on the catch basin wall, can make the inside stable water level that keeps of planting groove, can prevent the emergence of overflow accident, can provide stable culture solution degree of depth for plant roots simultaneously.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: comprises a water storage tank, a planting tank and a planting plate, wherein the planting tank and the planting plate are arranged on the water storage tank; the water storage tank comprises a planting tank supporting structure, a wire guide port, an overflow channel, a water storage tank reinforcing rib and a water pump; the planting groove supporting structure is arranged inside the water storage groove, the wire guide port is arranged on the water storage groove, the overflow channel is arranged on the wall of the water storage groove, the water storage groove reinforcing rib is arranged at the bottom of the water storage groove, and the water pump is arranged at the bottom of the water storage groove; the planting groove comprises a water feeding pipe, a water filling port, a water falling port, an overflow port, a flow channel, a planting plate supporting table, a water feeding port and an overflow structure; the overflow structure sets up on the field planting groove, the mouth of a river sets up in the overflow structure, the filler sets up in the overflow structure, the water-supply pipe sets up on the mouth of a river, the mouth of falling into the water sets up in field planting tank bottom, the gap sets up on the field planting groove cell wall, the runner sets up in field planting tank bottom, field planting board brace table sets up in field planting tank bottom, is located between the runner.

Furthermore, the customized slot supporting structure comprises a peripheral planting slot supporting platform and an independent planting slot supporting platform; the supporting table of the peripheral planting groove is connected with the wall of the water storage groove, and the supporting table of the independent planting groove is not connected with the wall of the water storage groove.

Furthermore, the wire guide port comprises a first wire guide port and a second wire guide port, and the first wire guide port and the second wire guide port are arranged on two sides of one corner of the water storage tank 1.

Furthermore, the overflow channel comprises a first overflow channel, a second overflow channel, a third overflow channel and a fourth overflow channel, wherein the first overflow channel and the second overflow channel are arranged on the long-edge slot wall on one side of the water storage tank, and the third overflow channel and the fourth overflow channel are arranged on the long-edge slot wall on the other side of the water storage tank.

Further, the overflow gap comprises an overflow gap I, an overflow gap II, an overflow gap III and an overflow gap IV; the overflow gap is opposite to the overflow channel, and the first overflow gap, the second overflow gap, the third overflow gap and the fourth overflow gap are equal in height.

Further, the overflow structure comprises an overflow table I, an overflow table II and an overflow table III; the first overflow table is arranged at one corner of the field planting groove, the second overflow table is arranged at the other corner of the field planting groove and is located at the same side as the first overflow table, and the third overflow table is arranged at the center of the two opposite sides of the first overflow table.

Furthermore, be provided with the funnel that adds water on the field planting board, the funnel that adds water sets up in the top of filler, and is relative with the filler.

Furthermore, the water falling port is higher than the bottom of the planting slot.

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

1. the water pump is used for introducing water flow into the flow channel in the planting groove from the water supply pipe, and the water flow flows through the whole flow channel and then flows back to the water storage groove from the water falling port, so that water circulation in the planting groove and the water storage groove is formed, the flowing uniformity of nutrient solution in the water flow is effectively improved, and the utilization rate of the nutrient solution is greatly increased;

2. through the matching of the overflow port and the overflow structure on the wall of the planting slot and the overflow channel on the wall of the water storage slot, when the water falling port is blocked, excessive nutrient solution can be discharged into the water storage slot, so that the nutrient solution in the planting slot is in a stable depth, and the occurrence of an overflow accident is avoided;

3. through the matching of the planting groove supporting table and the planting plate supporting table, the planting groove and the planting plate are uniformly supported after being installed, and the peripheral deformation is avoided, so that the overall structure sinks, and the overall stability and functionality are greatly improved;

4. the height of the water falling port on the planting groove is higher than the height of the bottom of the planting groove, so that the nutrient solution in the planting groove has a certain depth, and a nutrient solution environment with stable depth is provided for plants.

Drawings

Fig. 1 is an overall schematic diagram of a water storage tank and a planting tank of a planting water tank for plant water planting.

Fig. 2 is a schematic front view of a permanent planting water tank reservoir for hydroponics of plants.

Fig. 3 is a schematic view of the back of a permanent planting water tank used for hydroponics of plants.

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

Fig. 5 is a back schematic view of a planting water tank planting tank for plant water planting.

FIG. 6 is a top view and a water flow diagram of a planting water tank for water planting of plants.

Fig. 7 is an overall exploded schematic view of a permanent planting water tank for hydroponics of plants.

In the figure: 1. a water storage tank; 2. a planting groove; 3. a water feeding pipe; 4. a water filling port; 5. a water falling port; 6a, a first overflow port; 6b, a second overflow port; 6c, a third overflow port; 6d, a fourth overflow port; 7. a flow channel; 8. a planting plate supporting table; 9. a supporting table of the surrounding planting slots; 9h, independently planting the groove supporting table; 10a, a first wire guide port; 10b, a second wire guide port; 11a, a first overflow channel; 11b, a second overflow channel; 11c, a third overflow channel; 11d, a fourth overflow channel; 12. A water storage tank reinforcing rib; 13. a water feeding port; 14a, a first overflow table; 14b, a second overflow table; 14c, a third overflow table; 15. a field planting plate; 16. a water adding funnel; 17. and (4) a water pump.

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. 1-7, comprises a water storage tank 1, a planting tank 2 arranged on the water storage tank 1 and a planting plate 15; the water storage tank 1 comprises a planting tank supporting structure, a wire guide port, an overflow channel, a water storage tank reinforcing rib 12 and a water pump 17; the planting groove supporting structure is arranged inside the water storage groove 1, the wire guide port is arranged on the water storage groove 1, the overflow channel is arranged on the groove wall of the water storage groove 1, the water storage groove reinforcing ribs 12 are arranged at the bottom of the water storage groove 1, and the water pump 17 is arranged at the bottom of the water storage groove 1; the planting groove 2 comprises a water feeding pipe 3, a water filling port 4, a water falling port 5, an overflow port, a flow channel 7, a planting plate supporting platform 8, a water feeding port 13 and an overflow structure; the overflow structure sets up on field planting groove 2, it sets up in the overflow structure to go up mouth of a river 13, it sets up in the overflow structure to add mouth of a river 4, it sets up on last mouth of a river 3 to go up water pipe, the mouth of falling into water 5 sets up in field planting groove 2 bottoms, the gap sets up on field planting groove 2 cell walls, runner 7 sets up in field planting groove 2 bottoms, field planting board brace table 8 sets up in field planting groove 2 bottoms, is located between the runner 7.

The water storage tank is used for containing nutrient solution, and meanwhile, the planting tank can be arranged at the upper part of the water storage tank. The effect of field planting groove bearing structure is to support the field planting groove, makes the field planting groove obtain even support, can not take place to warp or sink the phenomenon because of the live time overlength, has increased life and security. The wire guide opening is used for installing a line of the water pump, and meanwhile, a gap is not formed between the planting groove and the water storage groove, and the installation of the planting groove and the water storage groove is not affected. The overflow channel has the function that redundant nutrient solution in the planting groove can flow to the water storage groove from the planting groove, but the normal use of the water storage groove and the planting groove can not be influenced without manual operation. The water storage tank reinforcing ribs are used for increasing the strength of the water storage tank and increasing the bearing capacity of the water storage tank. The water pump is used for conveying nutrient solution in the water storage tank to the planting tank.

The effect of field planting groove is for the rhizome of plant provides the nutrient solution growth environment of a stable degree of depth, can make nutrient solution obtain abundant utilization simultaneously, can not appear the unbalanced problem of nutrient solution, cooperates the catch basin and can form endless nutrient solution rivers. The effect of overflow structure makes the interior too much nutrient solution of field planting groove can flow to the gap through overflow structure, and can not sheltered from by the field planting board brace table that is higher than overflow structure to make the interior nutrient solution of field planting groove lasting rising, the overflow accident appears. The function of the water feeding port is to install a water feeding pipe. The water supply pipe is used for connecting a water pump, and nutrient solution in the water storage tank is conveyed into the flow channel in the planting tank through the water pump. The water filling port is used for replenishing consumed nutrient solution into the water storage tank. The water falling port is used for naturally returning the nutrient solution in the planting groove to the water storage groove to form circulation with the nutrient solution actively conveyed to the planting groove by the water pump. The overflow port has the function of enabling nutrient solution flowing through the overflow structure to flow out of the planting groove and then flow into the water storage groove through the overflow port and an overflow channel on the water storage groove, so that overflow accidents are prevented. The runner is used for enabling the nutrient solution to fully flow through the bottom of the planting groove, so that the root system of the plant is fully nourished. The planting plate supporting platform is used for uniformly supporting the planting plates on the planting slots.

The customized slot supporting structure comprises a peripheral planting slot supporting platform 9 and an independent planting slot supporting platform 9 h; the peripheral planting groove supporting platform 9 is connected with the wall of the water storage groove 1, and the independent planting groove supporting platform 9h is not connected with the wall of the water storage groove 1.

The supporting table of the peripheral planting slots and the supporting table of the independent planting slots can provide more uniform supporting force for the planting slots, so that the planting slots cannot deform due to the weight of the internal nutrient solution and plants.

The wire guiding port comprises a first wire guiding port 10a and a second wire guiding port 10b, and the first wire guiding port 10a and the second wire guiding port 10b are arranged on two sides of one corner of the water storage tank 1.

The overflow comprises a first overflow channel 11a, a second overflow channel 11b, a third overflow channel 11c and a fourth overflow channel 11d, wherein the first overflow channel 11a and the second overflow channel 11b are arranged on the long-edge slot wall on one side of the water storage tank 1, and the third overflow channel 11c and the fourth overflow channel 11d are arranged on the long-edge slot wall on the other side of the water storage tank 1.

The overflow gap comprises a first overflow gap 6a, a second overflow gap 6b, a third overflow gap 6c and a fourth overflow gap 6 d; the overflow is opposite to the overflow, and the first overflow 6a, the second overflow 6b, the third overflow 6c and the fourth overflow 6d are equal in height.

The overflow gap and the overflow channel can enable the redundant nutrient solution to flow into the water storage tank more conveniently and rapidly, meanwhile, the whole normal use and the plant growth cannot be influenced, and the occurrence of an overflow event can also be prevented.

The overflow structure comprises a first overflow table 14a, a second overflow table 14b and a third overflow table 14 c; the first overflow table 14a is arranged at one corner of the planting groove 2, the second overflow table 14b is arranged at the other corner of the planting groove 2 and is located at the same side as the first overflow table 14a, and the third overflow table 14c is arranged at the center of the opposite side of the second overflow table 14 b.

Be provided with on the field planting board 15 and add water funnel 16, it sets up in the top of filler 4 to add water funnel 16, is relative with filler 4. The water falling port 5 is higher than the bottom of the planting groove 2.

The water adding funnel has the function of being more convenient when nutrient solution or clear water is added, and reducing the condition that the nutrient solution or the clear water is sprinkled outside; the water falling port is higher than the bottom of the planting groove, so that the nutrient solution with stable depth is formed in the planting groove when the nutrient solution circulates, and plants can obtain a better growth environment.

When the device is used, the water storage tank, the planting tank and the planting plate are sequentially installed, plants to be cultured are placed, the water pump is placed into the water storage tank, the line of the water pump is smoothed out from the wire guide port, nutrient solution with proper concentration is placed into the water storage tank from the water adding funnel, then the water pump is started, the water pump can convey the nutrient solution in the water storage tank into the planting tank through the water feeding pipe, the nutrient solution in the planting tank is conveyed to flow through the flow channel, and when the height of the nutrient solution is higher than that of the water falling port, the nutrient solution can flow back to the water storage tank from the water falling port, so that nutrient solution water flow with stable depth is formed; when the water falling port is blocked accidentally, the water pump still works at the moment, nutrient solution is continuously conveyed to the planting slot, but the nutrient solution cannot completely flow back to the water storage slot from the water falling port, namely the height of the nutrient solution in the planting slot is increased continuously; and after the water falling port is cleaned, the circulating nutrient solution water flow is recovered to the normal depth.

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 basin that is used for plant water planting to use which characterized in that: comprises a water storage tank (1), a planting tank (2) arranged on the water storage tank (1) and a planting plate (15); the water storage tank (1) comprises a planting tank supporting structure, a wire guide port, an overflow channel, a water storage tank reinforcing rib (12) and a water pump (17); the planting groove supporting structure is arranged inside the water storage groove (1), the wire guide opening is arranged on the water storage groove (1), the overflow channel is arranged on the groove wall of the water storage groove (1), the water storage groove reinforcing ribs (12) are arranged at the bottom of the water storage groove (1), and the water pump (17) is arranged at the bottom of the water storage groove (1); the planting groove (2) comprises a water feeding pipe (3), a water filling port (4), a water falling port (5), an overflow port, a flow channel (7), a planting plate supporting platform (8), a water feeding port (13) and an overflow structure; the overflow structure sets up on field planting groove (2), it sets up in the overflow structure to go up mouth of a river (13), it sets up in the overflow structure to add mouth of a river (4), it sets up on last mouth of a river (13) to go up water pipe (3), fall water inlet (5) set up in field planting groove (2) bottom, the overflow mouth sets up on field planting groove (2) cell wall, runner (7) set up in field planting groove (2) bottom, field planting board brace table (8) set up in field planting groove (2) bottom, are located between runner (7).

2. The planting water tank for hydroponics of plants according to claim 1, wherein: the planting groove supporting structure comprises a peripheral planting groove supporting platform (9) and an independent planting groove supporting platform (9 h); the peripheral planting groove supporting platform (9) is connected with the wall of the water storage groove (1), and the independent planting groove supporting platform (9h) is not connected with the wall of the water storage groove (1).

3. The planting water tank for hydroponics of plants according to claim 1, wherein: the wire guide port comprises a first wire guide port (10a) and a second wire guide port (10b), and the first wire guide port (10a) and the second wire guide port (10b) are arranged on two sides of one corner of the water storage tank (1).

4. The planting water tank for hydroponics of plants according to claim 1, wherein: the overflow includes overflow one (11a), overflow two (11b), overflow three (11c) and overflow four (11d), overflow one (11a) and overflow two (11b) set up on the long limit cell wall of catch basin (1) one side, overflow three (11c) and overflow four (11d) set up on the long limit cell wall of catch basin (1) opposite side.

5. The planting water tank for hydroponics of plants according to claim 1, wherein: the overflow comprises a first overflow (6a), a second overflow (6b), a third overflow (6c) and a fourth overflow (6 d); the overflow port is opposite to the overflow channel, and the first overflow port (6a), the second overflow port (6b), the third overflow port (6c) and the fourth overflow port (6d) are equal in height.

6. The planting water tank for hydroponics of plants according to claim 1, wherein: the overflow structure comprises a first overflow platform (14a), a second overflow platform (14b) and a third overflow platform (14 c); overflow platform (14a) sets up in the one corner department of field planting groove (2), overflow platform two (14b) set up in another angle of field planting groove (2), with overflow platform one (14a) homonymy, overflow platform three (14c) set up in overflow platform two (14b) contralateral central point and put.

7. The planting water tank for hydroponics of plants according to claim 1, wherein: be provided with on field planting board (15) and add water funnel (16), it sets up in the top of filler (4) to add water funnel (16), is relative with filler (4).

8. The planting water tank for hydroponics of plants according to claim 1, wherein: the water falling port (5) is higher than the bottom of the planting groove (2).

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