CN204362707U

CN204362707U - A kind of no soil cultivating flowerpot

Info

Publication number: CN204362707U
Application number: CN201420762760.1U
Authority: CN
Inventors: 刘艳伟; 李闯; 甄小丽; 黎会仙
Original assignee: Kunming University of Science and Technology
Current assignee: Kunming University of Science and Technology
Priority date: 2014-12-08
Filing date: 2014-12-08
Publication date: 2015-06-03
Anticipated expiration: 2024-12-08

Abstract

The utility model relates to a kind of no soil cultivating flowerpot, belongs to daily living article technical field.The utility model comprises at the bottom of flowerpot basin body, basin, power supply, water filling port, delivery port, minitype nozzle, micro electric pump, PH sensor, EC sensor; Flowerpot basin body designs a water filling port and delivery port at diagonal position, the side of flowerpot basin body is provided with inside groove, minitype nozzle is provided with in inside groove, PH sensor, EC sensor are set at the bottom of flowerpot, the trigger end of PH sensor, EC sensor is connected with micro electric pump, make the nutrient solution in inside groove under the effect of micro electric pump, be sprayed onto uniformly in flowerpot by minitype nozzle.The utility model makes plant root not perishable, adds water and nutrient solution convenience, can adapt to the plant of different size, simplicity of design, easy to use, practical, be applicable to various plants, simultaneously people can be assisted better to plant flowers, realizing at longer time can the advantage of unattended plant.

Description

A kind of no soil cultivating flowerpot

Technical field

The utility model relates to a kind of no soil cultivating flowerpot, belongs to daily living article technical field.

Background technology

At present, the plant of indoor soilless cultivation flowerpot is easy to death, and its reason is that plant is easy to lack moisture and the nutriment needed for growth, and people often can forget to add water to flowerpot because being busy with other thing.Meanwhile, in existing no soil cultivating flowerpot, plant causes root system to rot usually because of root atmosphere draught-free.Therefore be necessary that research one can configure plant desired nutritional liquid automatically, keep moisture needed for plant root, and the flowerpot that root system rots can be prevented.

Summary of the invention

The technical problems to be solved in the utility model is: the utility model provides a kind of no soil cultivating flowerpot, adds water and inconvenience that nutrient solution brings for solving problem that traditional flowerpot causes root system to rot because of root atmosphere draught-free and people.

Technical solutions of the utility model are: a kind of no soil cultivating flowerpot, to comprise at the bottom of flowerpot basin body 1, basin 2, power supply 3, water filling port 4, delivery port 5, minitype nozzle 6, micro electric pump 7, PH sensor 11, EC sensor 12, described flowerpot basin body 1 designs a water filling port 4 and delivery port 5 at diagonal position, the height of delivery port 5 is lower than the height of water filling port 4, change for facilitating the water in flowerpot, the side of flowerpot basin body 1 is provided with inside groove, for placing nutrient solution, minitype nozzle 6 is provided with in inside groove, at the bottom of flowerpot, PH sensor 11 is set in 2, EC sensor 12, PH sensor 11, the trigger end of EC sensor 12 is connected with the micro electric pump 7 being arranged on flowerpot basin body 1 side, make nutrient solution in inside groove under the effect of micro electric pump 7, flowerpot inside is sprayed onto uniformly by minitype nozzle 6.

The described inside groove being arranged on flowerpot basin body 1 side comprises inside groove I 8, inside groove II 9, inside groove III 10, inside groove IV 14; Described inside groove I 8, inside groove II 9, inside groove III 10, inside groove IV 14 are independent mutually, minitype nozzle 6 is equipped with in inside groove I 8, inside groove II 9, inside groove III 10, inside groove IV 14, each minitype nozzle 6 is connected with a micro electric pump 7 respectively, nutrient solution in inside groove I 8, inside groove II 9, inside groove III 10, inside groove IV 14 is under the effect of the micro electric pump 7 be attached thereto separately, flowerpot inside is sprayed onto uniformly, for realizing the object of spraying Different Nutrition liquid simultaneously by the minitype nozzle 6 be provided with in inside groove I 8, inside groove II 9, inside groove III 10, inside groove IV 14.

Also be provided with the interior basin 13 of a band grid in described flowerpot basin body 1, interior basin 13 adjusting of band grid, the water requirement for the size according to plant, different plant carrys out the size of basin 13 in adjustment belt grid.

PH sensor circuit operation principle of the present utility model is: the A end of PH sensor is placed in bottom flowerpot, because the pH value of the required growth of different plant is different, so can be responded to the scope of different PH on PH sensor with this by the size changing resistance.When using the utility model, before plant transplanting is in flowerpot, according to the monitoring range of the corresponding PH sensor of the growing environment different set of plant, in growing process, liquid PH value at the bottom of basin in 2 can change, and when PH excursion is more than set by PH sensor during scope, circuit A end senses generation current after the change of PH, by amplifying at B port current after circuit, then trigger the micro electric pump 7 connected.Under the work of micro electric pump 7, according to the difference of pH value, the solution in different solution inside grooves can be sprayed onto in 2 nutrient solutions at the bottom of basin by minitype nozzle 6, makes the solution pH value of flowerpot inside return to the condition of applicable plant growth.

EC sensor circuit operation principle of the present utility model is: the utility model EC sensor used can be Memoto electrochemical sensor, three electrode sensors, and R level is with reference to pole.When using the utility model, EC sensor electrode being placed in bottom 2 nutrient solutions, setting EC sensor according to different plants and detecting ion concentration excursion.When the ion concentration of flowerpot nutrient solution is below or above EC sensor settings value, generation current in circuit, after amplifying via circuit, by the work of P1 end band actuating miniature electric pump 7, if plant lacks the nutriments such as ion, then can by minitype nozzle 6 by lacked substance use in nutrient solution; If plant ion concentration is higher than plant growth environment, then water can be transported in 2 nutrient solutions at the bottom of basin.Meet the normal habitat of plant successively.

Use procedure of the present utility model is: the utility model is after transplanting plant, and added water in flowerpot by water filling port 4, height of water level is for just to cover plant root; The minimum that setting PH sensor 11, EC sensor 12 trigger, when the nutrient solution concentration in flowerpot is lower than setting value, PH sensor 11, EC sensor 12 trigger, the micro electric pump 7 be connected with PH sensor 11, EC sensor 12 is started working, nutrient solution in inside groove (be can be acid solution, saline solution, calcium nitrate solution, can put in different inside grooves) be evenly sprayed onto flowerpot inside by minitype nozzle 6, to meet the nutrition needed for plant growth.Simultaneously, in order to prevent rotten of plant root, delivery port 5 can be opened the height of water level reduced in flowerpot, or the water in flowerpot is changed, or directly can carry the interior basin 13 with grid, plant can be mentioned, water spills by being with the grid bottom the interior basin 13 of grid, and the root of plant is breathed freely.

The beneficial effects of the utility model are: this flowerpot makes plant root not perishable, and add water and nutrient solution convenience, the plant of different size can be adapted to, simplicity of design, easy to use, practical, be applicable to various plants, simultaneously people can be assisted better to plant flowers, realizing at longer time can the advantage of unattended plant.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model structure vertical view;

Fig. 3 is the interior basin structural representation of the utility model band grid;

Fig. 4 is the utility model PH sensor circuit figure;

Fig. 5 is the utility model EC sensor circuit figure.

Each label in Fig. 1-5: 1-flowerpot basin body, at the bottom of 2-basin, 3-power supply, 4-water filling port, 5-delivery port, 6-minitype nozzle, 7-micro electric pump, 8-inside groove I, 9-inside groove II, 10-inside groove III, 11-PH sensor, 12-EC sensor, 13-is with the interior basin of grid, 14-inside groove IV.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Embodiment 1: as Figure 1-5, a kind of no soil cultivating flowerpot, to comprise at the bottom of flowerpot basin body 1, basin 2, power supply 3, water filling port 4, delivery port 5, minitype nozzle 6, micro electric pump 7, PH sensor 11, EC sensor 12, described flowerpot basin body 1 designs a water filling port 4 and delivery port 5 at diagonal position, the height of delivery port 5 is lower than the height of water filling port 4, change for facilitating the water in flowerpot, the side of flowerpot basin body 1 is provided with inside groove, for placing nutrient solution, minitype nozzle 6 is provided with in inside groove, at the bottom of flowerpot, PH sensor 11 is set in 2, EC sensor 12, PH sensor 11, the trigger end of EC sensor 12 is connected with the micro electric pump 7 being arranged on flowerpot basin body 1 side, make nutrient solution in inside groove under the effect of micro electric pump 7, flowerpot inside is sprayed onto uniformly by minitype nozzle 6.

Embodiment 2: as Figure 1-5, a kind of no soil cultivating flowerpot, to comprise at the bottom of flowerpot basin body 1, basin 2, power supply 3, water filling port 4, delivery port 5, minitype nozzle 6, micro electric pump 7, PH sensor 11, EC sensor 12, described flowerpot basin body 1 designs a water filling port 4 and delivery port 5 at diagonal position, the height of delivery port 5 is lower than the height of water filling port 4, change for facilitating the water in flowerpot, the side of flowerpot basin body 1 is provided with inside groove, for placing nutrient solution, minitype nozzle 6 is provided with in inside groove, at the bottom of flowerpot, PH sensor 11 is set in 2, EC sensor 12, PH sensor 11, the trigger end of EC sensor 12 is connected with the micro electric pump 7 being arranged on flowerpot basin body 1 side, make nutrient solution in inside groove under the effect of micro electric pump 7, flowerpot inside is sprayed onto uniformly by minitype nozzle 6.

Embodiment 3: as Figure 1-5, a kind of no soil cultivating flowerpot, to comprise at the bottom of flowerpot basin body 1, basin 2, power supply 3, water filling port 4, delivery port 5, minitype nozzle 6, micro electric pump 7, PH sensor 11, EC sensor 12, described flowerpot basin body 1 designs a water filling port 4 and delivery port 5 at diagonal position, the height of delivery port 5 is lower than the height of water filling port 4, change for facilitating the water in flowerpot, the side of flowerpot basin body 1 is provided with inside groove, for placing nutrient solution, minitype nozzle 6 is provided with in inside groove, at the bottom of flowerpot, PH sensor 11 is set in 2, EC sensor 12, PH sensor 11, the trigger end of EC sensor 12 is connected with the micro electric pump 7 being arranged on flowerpot basin body 1 side, make nutrient solution in inside groove under the effect of micro electric pump 7, flowerpot inside is sprayed onto uniformly by minitype nozzle 6.

By reference to the accompanying drawings specific embodiment of the utility model is explained in detail above, but the utility model is not limited to above-described embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from the utility model aim.

Claims

1. a no soil cultivating flowerpot, is characterized in that: comprise (2) at the bottom of flowerpot basin body (1), basin, power supply (3), water filling port (4), delivery port (5), minitype nozzle (6), micro electric pump (7), PH sensor (11), EC sensor (12), described flowerpot basin body (1) designs a water filling port (4) and delivery port (5) at diagonal position, the height of delivery port (5) is lower than the height of water filling port (4), change for facilitating the water in flowerpot, the side of flowerpot basin body (1) is provided with inside groove, for placing nutrient solution, minitype nozzle (6) is provided with in inside groove, PH sensor (11) is set at the bottom of flowerpot (2), EC sensor (12), PH sensor (11), the trigger end of EC sensor (12) is connected with the micro electric pump (7) being arranged on flowerpot basin body (1) side, make nutrient solution in inside groove under the effect of micro electric pump (7), flowerpot inside is sprayed onto uniformly by minitype nozzle (6).

2. no soil cultivating flowerpot according to claim 1, is characterized in that: described in be arranged on flowerpot basin body (1) side inside groove comprise inside groove I (8), inside groove II (9), inside groove III (10), inside groove IV (14), described inside groove I (8), inside groove II (9), inside groove III (10), inside groove IV (14) is independent mutually, inside groove I (8), inside groove II (9), inside groove III (10), minitype nozzle (6) is equipped with in inside groove IV (14), each minitype nozzle (6) is connected with a micro electric pump (7) respectively, inside groove I (8), inside groove II (9), inside groove III (10), nutrient solution in inside groove IV (14) is under the effect of the micro electric pump be attached thereto separately (7), by inside groove I (8), inside groove II (9), inside groove III (10), the minitype nozzle (6) be provided with in inside groove IV (14) is sprayed onto flowerpot inside uniformly, for realizing the object of spraying Different Nutrition liquid simultaneously.

3. no soil cultivating flowerpot according to claim 1, it is characterized in that: the interior basin (13) being also provided with a band grid in described flowerpot basin body (1), with interior basin (13) adjusting of grid, the water requirement for the size according to plant, different plant carrys out the size of basin (13) in adjustment belt grid.