CN205812912U - A kind of water-retention is from irrigating formula flowerpot - Google Patents

Abstract

This utility model relates to a kind of water-retention from irrigating formula flowerpot, improve for existing flowerpot structure, design philosophy based on water cycling and reutilization, devise brand-new structure, effectively can collect for the water resource not absorbed by soil, and the detection electric control structure designed by combining, the detection for soil moisture situation is realized by designed humidity sensor (8), based on this result, pass through intelligent control method, draw collected water resource and again realize the irrigation of soil, achieve water resource cycling and reutilization, the operation of watering for plant can not only be automatically obtained, the operation of the person that eliminates plant growing, and the waste of water resource can be prevented effectively from.

Description

A kind of water-retention is from irrigating formula flowerpot

Technical field

This utility model relates to a kind of water-retention and certainly irrigates formula flowerpot, belongs to Smart Home technology neck Territory.

Background technology

Along with the development of science and technology level and improving constantly of people's living standard, more come The most household electrical appliance just develop towards intelligentized direction, and the intelligent electric appliance in family is the most increasingly Many, such as intelligent television, smart jack etc., none does not provides for daily life Convenient, the most traditional flowerpot, it is also introduced into design more intelligent, more individual character words, Such as number of patent application: 201210469662.4, discloses a kind of flowerpot, including being connected to one The basin body risen and base, the position that the bottom of above-mentioned basin body is connected with base is formed some permeable Hole, above-mentioned basin body and base are made by metal material；The flowerpot of technique scheme design, Basin body links together with base, it is simple to move integrally；In the position shape that basin body is connected with base Become some permeable holes, make water successfully penetrate into the root hair of plant from base, and prevent battalion Foster soil is the moistest, beneficially the growth of plant；And basin body and base all use metal material Making, service life is long.

Moreover, number of patent application: 201310526821.4, disclose a kind of flowerpot, bag Include pot body, it is characterised in that described pot body both sides arrange handle, outside pot body Fix connection on wall and alarm clock and thermometer are set, arrange at the bottom of flowerpot below pot body, described flower Drawer is set at the bottom of basin, dividing plate is set in described drawer, described dividing plate arranges leaking hole, every Arranging water absorber below plate, described alarm clock and temperature are calculated as embedded design, alarm clock and temperature The outer surface of meter is equal with the outer wall of pot body, arranges repeatable utilization in described water absorber Absorbent material；The flowerpot of technique scheme design, is convenient for people to carrying, and can be by The set of time sprayed water on flowers becomes alarm clock, reminds people not forget to spray water on flowers, it is to avoid Hua Yin Wither for nobody waters even dead, and can well control the temperature of flowerpot, keep house The cleaning of front yard air, can effectively solve the problem that simultaneously and causes water to overflow because watering water excess.

From above-mentioned prior art, existing flowerpot is just towards personalized and intelligentized direction Development, provides for people and uses impression more easily；But existing flowerpot is actually used In, still there is weak point, such as, institute's planting plants in flowerpot watered operation, People need regularly to observe to water, in order to avoid plant drying, and it is known that pour into flower Water in basin can progressively infiltrate through in soil, and is discharged outside flowerpot by the osculum bottom flowerpot, The utilization rate not only making water is the highest, and causes the waste of water resource, when plant needs again Time to be watered, people must the most manually water, to keep the normal growth of plant, because of This, this is the weak point of existing flowerpot.

Utility model content

For above-mentioned technical problem, technical problem to be solved in the utility model is to provide one Water-retention, from irrigating formula flowerpot, improves for existing flowerpot structure, and design introduces automatically controlled knot Structure, and combined with intelligent detection structure, by the way of water cycling and reutilization, can not only realize intelligence Can water, and the waste of water resource can be prevented effectively from.

This utility model is in order to solve above-mentioned technical problem by the following technical solutions: this practicality is new Type devises a kind of water-retention and certainly irrigates formula flowerpot, including pot body, dividing plate, feed pipe, draws Water pipe, drain pipe, control module, and be connected with control module respectively power module, Humidity sensor, micro pump, power module through control module be respectively humidity sensor, Micro pump is powered；Wherein, side and the bottom surface of pot body are all closed, dividing plate and flower Parallel being arranged in pot body in basin body bottom surface, and separator edge one week all with flowerpot this The sidewall of body is connected, and dividing plate will be divided into top soil region cavity and bottom inside pot body Water-retention cavity, baffle surface arranges the osculum running through upper and lower surface；The length of feed pipe with The girth of pot body opening is equal, and the two ends of feed pipe abut each other composition annular feed pipe, Annular feed pipe is arranged at the inner side of pot body edge of opening, and annular along pot body opening On feed pipe, sidewall towards pot body middle and upper part soil region cavity arranges at least one and waters Water hole；Power module is arranged at the lateral surface of pot body, and control module is arranged at pot body The medial surface of top soil region cavity, humidity sensor is arranged on the top soil of pot body In the cavity of region；Aqueduct, drain pipe and micro pump three are respectively positioned in pot body, its In, aqueduct runs through the top and bottom of dividing plate, and the water inlet of aqueduct is positioned at the bottom of pot body In water-retention cavity, the outlet of aqueduct is positioned in the top soil region cavity of pot body, The outlet of aqueduct is connected with the water inlet of micro pump, the outlet of micro pump and row The water inlet of water pipe is connected, and the outlet of drain pipe is connected with the sidewall of annular feed pipe, Run through the inside of annular feed pipe.

As a kind of optimal technical scheme of the present utility model: the water inlet of described aqueduct is positioned at Bottom in pot body middle and lower part water-retention cavity.

As a kind of optimal technical scheme of the present utility model: it is adjacent one another are that described each waters water hole Equally spaced distribution is arranged on, on described annular feed pipe towards soil district, pot body middle and upper part On the sidewall of territory cavity.

As a kind of optimal technical scheme of the present utility model: the surface of described control module and micro- Waterproof layer is all wrapped up on the surface of type water pump.

As a kind of optimal technical scheme of the present utility model: described control module is single-chip microcomputer.

As a kind of optimal technical scheme of the present utility model: described power module is external electricity Source.

A kind of water-retention described in the utility model uses above technical scheme with existing from irrigating formula flowerpot There is technology to compare, have following technical effect that

(1) water-retention of this utility model design is from irrigating formula flowerpot, ties for existing flowerpot Structure improves, design philosophy based on water cycling and reutilization, devises brand-new structure, energy Enough effectively collect for the water resource not absorbed by soil, and the inspection designed by combination Survey electric control structure, realize the inspection for soil moisture situation by designed humidity sensor Survey, based on this result, by intelligent control method, draw collected water resource and again realize soil The irrigation of earth, it is achieved that water resource cycling and reutilization, can not only be automatically obtained for plant Water operation, the operation of the person that eliminates plant growing, and the wave of water resource can be prevented effectively from Take；

(2) water-retention of this utility model design is from irrigating in formula flowerpot, intakes for aqueduct The position of mouth, design is positioned at the bottom in pot body middle and lower part water-retention cavity further, it is possible to Under the control of designed micro pump, for collected by pot body middle and lower part water-retention cavity Water resource realizes extracting to greatest extent, substantially increases the work efficiency of water cycling and reutilization；

(3) water-retention of this utility model design is from irrigating in formula flowerpot, waters for described each Water hole, further design each water water hole equally spaced distribution adjacent one another are be arranged on, described ring Towards on the sidewall of pot body middle and upper part soil region cavity on shape feed pipe, it is possible to for flower Basin body middle and upper part soil region cavity realizes irrigating more uniformly, substantially increases plant and fills The work efficiency irrigate；

(4) water-retention of this utility model design is from irrigating in formula flowerpot, for control module Surface and the surface of micro pump, further design packet is wrapped with waterproof layer, it is possible to for controlling mould Block and micro pump realize being effectively protected, it is ensured that the use longevity of control module and micro pump Life；And for control module, it is designed with single-chip microcomputer further, on the one hand can be applicable to Later stage certainly irrigates the extension demand of formula flowerpot, on the other hand, succinct control framework for water-retention Pattern can be easy to the maintenance in later stage；

(5) water-retention of this utility model design is from irrigating in formula flowerpot, for power module, It is designed with external power supply further, it is possible to provide more steady for designed detection electric control structure Fixed electric energy supply, the moment ensures water-retention designed by this utility model, and oneself irrigates formula flowerpot in reality Stability in work.

Accompanying drawing explanation

Fig. 1 is that this utility model design water-retention is from the structural representation irrigating formula flowerpot.

Wherein, 1. pot body, 2. dividing plate, 3. annular feed pipe, 4. aqueduct, 5. row Water pipe, 6. control module, 7. power module, 8. humidity sensor, 9. micro pump, 10. top soil region cavity, 11. bottom water-retention cavitys, 12. osculums, 13. water Hole.

Detailed description of the invention

Make further for detailed description of the invention of the present utility model below in conjunction with Figure of description Detailed description.

As it is shown in figure 1, a kind of water-retention of this utility model design is from irrigating formula flowerpot, including flower Basin body 1, dividing plate 2, feed pipe, aqueduct 4, drain pipe 5, control module 6, and The power module 7 that is connected with control module 6 respectively, humidity sensor 8, micro pump 9, Power module 7 supplies through control module 6 respectively humidity sensor 8, micro pump 9 Electricity；Wherein, side and the bottom surface of pot body 1 are all closed, dividing plate 2 and pot body 1 end What face was parallel is arranged in pot body 1, and dividing plate 2 edge one week all with pot body 1 Sidewall be connected, dividing plate 2 is divided into top soil region cavity 10 by internal for pot body 1 With bottom water-retention cavity 11, dividing plate 2 surface arranges the osculum 12 running through upper and lower surface； The length of feed pipe is equal with the girth of pot body 1 opening, and the two ends of feed pipe abut each other Constituting annular feed pipe 3, annular feed pipe 3 is arranged at pot body along pot body 1 opening Towards soil district, pot body 1 middle and upper part on the inner side of 1 edge of opening, and annular feed pipe 3 The sidewall of territory cavity 10 arranges at least one and waters water hole 13；Power module 7 is arranged at flowerpot originally The lateral surface of body 1, control module 6 is arranged at pot body 1 top soil region cavity 10 Medial surface, humidity sensor 8 is arranged on the top soil region cavity 10 of pot body 1 In；Aqueduct 4, drain pipe 5 and micro pump 9 three are respectively positioned in pot body 1, its In, aqueduct 4 runs through the top and bottom of dividing plate 2, and the water inlet of aqueduct 4 is positioned at pot body In the bottom water-retention cavity 11 of 1, the outlet of aqueduct 4 is positioned at the top of pot body 1 In soil region cavity 10, the outlet of aqueduct 4 is connected with the water inlet of micro pump 9 Connecing, the outlet of micro pump 9 is connected with the water inlet of drain pipe 5, going out of drain pipe 5 The mouth of a river is connected with the sidewall of annular feed pipe 3, runs through the inside of annular feed pipe 3.Above-mentioned The water-retention of Technical Design, from irrigating formula flowerpot, improves for existing flowerpot structure, Design philosophy based on water cycling and reutilization, devises brand-new structure, it is possible to for the most native The water resource that earth is absorbed effectively is collected, and the detection electric control structure designed by combination, Realize the detection for soil moisture situation by designed humidity sensor 8, tie based on this Really, by intelligent control method, draw collected water resource and again realize the irrigation of soil, real Show water resource cycling and reutilization, the operation of watering for plant can not only be automatically obtained, saved Go the operation of plant growing person, and the waste of water resource can be prevented effectively from.

Based on above-mentioned design water-retention on the basis irrigating formula flowerpot technical scheme, this practicality is new Type devises following optimal technical scheme the most further: for the position of aqueduct 4 water inlet, Design is positioned at the bottom in pot body 1 middle and lower part water-retention cavity 11 further, it is possible in institute Under the control of design micro pump 9, received for pot body 1 middle and lower part water-retention cavity 11 The water resource of collection realizes extracting to greatest extent, substantially increases the work effect of water cycling and reutilization Rate；Also have and water water hole 13 for described each, design each further and water water hole 13 phase each other Adjacent equally spaced distribution is arranged on, on described annular feed pipe 3 towards pot body 1 middle and upper part On the sidewall of soil region cavity 10, it is possible to for soil region chamber, pot body 1 middle and upper part Body 10 realizes irrigating more uniformly, substantially increases the work efficiency of plant irrigation；Then For surface and the surface of micro pump 9 of control module 6, further design packet is wrapped with waterproof Layer, it is possible to realize being effectively protected for control module 6 and micro pump 9, it is ensured that control Module 6 and the service life of micro pump 9；And for control module 6, design further Using single-chip microcomputer, on the one hand can be applicable to the later stage need to from the extension irrigating formula flowerpot for water-retention Asking, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage；Moreover, For power module 7, it is designed with external power supply further, it is possible to for designed detection electricity Control structure provides more stable electric energy supply, and the moment ensures that water-retention designed by this utility model is certainly Irrigation formula flowerpot stability in real work.

This utility model design water-retention from irrigate formula flowerpot in the middle of actual application, including Pot body 1, dividing plate 2, feed pipe, aqueduct 4, drain pipe 5, single-chip microcomputer, Yi Jifen The external power supply that is not connected with single-chip microcomputer, humidity sensor 8, micro pump 9, external electricity Source is powered through single-chip microcomputer respectively humidity sensor 8, micro pump 9；Wherein, flower Side and the bottom surface of basin body 1 are all closed, dividing plate 2 and setting of paralleling in pot body 1 bottom surface It is placed in pot body 1, and dividing plate 2 edge one week all sidewalls with pot body 1 is connected, Dividing plate 2 is divided into top soil region cavity 10 and bottom water-retention cavity by internal for pot body 1 11, dividing plate 2 surface arranges the osculum 12 running through upper and lower surface；The length of feed pipe with The girth of pot body 1 opening is equal, and the two ends of feed pipe abut each other composition annular feed pipe 3, annular feed pipe 3 is arranged in pot body 1 edge of opening along pot body 1 opening Towards the side of pot body 1 middle and upper part soil region cavity 10 on side, and annular feed pipe 3 Wall arranges at least one and waters water hole 13, and each waters equally spaced point adjacent one another are of water hole 13 Cloth is arranged on, on described annular feed pipe 3 towards pot body 1 middle and upper part soil region cavity On the sidewall of 10；External power supply is arranged at the lateral surface of pot body 1, and single-chip microcomputer is arranged at The medial surface of pot body 1 top soil region cavity 10, humidity sensor 8 is arranged on flower In the top soil region cavity 10 of basin body 1；Aqueduct 4, drain pipe 5 and Miniature water Pump 9 three is respectively positioned in pot body 1, and the surface of single-chip microcomputer and the surface of micro pump 9 are equal Parcel waterproof layer, wherein, aqueduct 4 runs through the top and bottom of dividing plate 2, the water inlet of aqueduct 4 Mouth is positioned at the bottom in pot body 1 middle and lower part water-retention cavity 11, the outlet of aqueduct 4 Being positioned in the top soil region cavity 10 of pot body 1, the outlet of aqueduct 4 is with micro- The water inlet of type water pump 9 is connected, the outlet of micro pump 9 and the water inlet of drain pipe 5 Being connected, the outlet of drain pipe 5 is connected with the sidewall of annular feed pipe 3, runs through annular The inside of feed pipe 3.In the middle of actual application, first user waters for plant, Pouring into the moisture in pot body 1 top soil region cavity 10, part is by plant and soil Being absorbed, part can flow by the osculum 12 on top soil region cavity 10 bottom baffles 2 Enter in pot body 1 bottom water-retention cavity 11, and be stored in bottom water-retention cavity 11, keep away Exempt from the direct loss of water resource；In application, it is arranged at soil region chamber, pot body 1 top Humidity sensor 8 real time operation in body 10, detection obtains the Humidity Detection result of soil, and Being uploaded in real time in the middle of the single-chip microcomputer that is attached thereto, single-chip microcomputer is according to received Humidity Detection As a result, make corresponding operating, wherein, when Humidity Detection result is less than threshold value, then judge this Time pot body 1 top soil region cavity 10 in soil moisture relatively low, need to water, The micro pump 9 that then single-chip microcomputer controls to be attached thereto immediately works, and micro pump 9 is through aqueduct 4 suctions are stored in the water in pot body 1 bottom water-retention cavity 11, and will through drain pipe 5 Water resource is sent in annular feed pipe 3, and the water being admitted in annular feed pipe 3 is supplied water by annular Each on pipe 3 sidewall waters water hole 13 and waters as in pot body 1 top soil region cavity 10, Achieve the cycling and reutilization of water resource, above-mentioned whole specific implementation process, can not only be automatic Realize for the operation of watering of plant, the operation of the person that eliminates plant growing, and can be effective Avoid the waste of water resource.

It is explained in detail for embodiment of the present utility model above in conjunction with Figure of description, But this utility model is not limited to above-mentioned embodiment, is had those of ordinary skill in the art In the standby ken, it is also possible to make various on the premise of without departing from this utility model objective Change.

Claims (6)

1. water-retention is from irrigating a formula flowerpot, including pot body (1), it is characterised in that: also Including dividing plate (2), feed pipe, aqueduct (4), drain pipe (5), control module (6), And be connected with control module (6) respectively power module (7), humidity sensor (8), Micro pump (9), power module (7) is respectively humidity sensor through control module (6) (8), micro pump (9) is powered；Wherein, the side of pot body (1) and bottom surface All closing, what dividing plate (2) was paralleled with pot body (1) bottom surface is arranged at pot body (1) In, and dividing plate (2) edge one week all sidewalls with pot body (1) are connected, dividing plate (2) It is divided into top soil region cavity (10) and bottom water-retention cavity by internal for pot body (1) (11), on dividing plate (2) surface, setting runs through the osculum (12) of upper and lower surface；Feed pipe Length equal with the girth of pot body (1) opening, the two ends of feed pipe abut each other structure Circularizing feed pipe (3), annular feed pipe (3) is arranged at flower along pot body (1) opening Towards pot body (1) on the inner side of basin body (1) edge of opening, and annular feed pipe (3) The sidewall of middle and upper part soil region cavity (10) arranges at least one and waters water hole (13)；Power supply Module (7) is arranged at the lateral surface of pot body (1), and control module (6) is arranged at flower The medial surface on basin body (1) top soil region cavity (10), humidity sensor (8) sets Put in top soil region cavity (10) of pot body (1)；Aqueduct (4), row Water pipe (5) and micro pump (9) three are respectively positioned in pot body (1), wherein, draw Water pipe (4) runs through the top and bottom of dividing plate (2), and the water inlet of aqueduct (4) is positioned at flowerpot In bottom water-retention cavity (11) of body (1), the outlet of aqueduct (4) is positioned at flowerpot In top soil region cavity (10) of body (1), the outlet of aqueduct (4) is with micro- The water inlet of type water pump (9) is connected, the outlet of micro pump (9) and drain pipe (5) Water inlet be connected, the outlet of drain pipe (5) with annular feed pipe (3) sidewall phase Connect, run through the inside of annular feed pipe (3).

The most according to claim 1, a kind of water-retention is from irrigating formula flowerpot, it is characterised in that: institute The water inlet stating aqueduct (4) is positioned in pot body (1) middle and lower part water-retention cavity (11) Bottom.

The most according to claim 1, a kind of water-retention is from irrigating formula flowerpot, it is characterised in that: institute State each water water hole (13) equally spaced distribution adjacent one another are be arranged on, described annular feed pipe (3) towards on the sidewall of pot body (1) middle and upper part soil region cavity (10) on.

The most according to claim 1, a kind of water-retention is from irrigating formula flowerpot, it is characterised in that: institute Waterproof layer is all wrapped up on the surface on the surface and micro pump (9) of stating control module (6).

The most according to claim 1, a kind of water-retention is from irrigating formula flowerpot, it is characterised in that: institute Stating control module (6) is single-chip microcomputer.

The most according to claim 1, a kind of water-retention is from irrigating formula flowerpot, it is characterised in that: institute Stating power module (7) is external power supply.