CN105981638A - Planting module - Google Patents

Abstract

The invention discloses a planting module which comprises a first groove body and an aerial fog supply unit. The aerosol supply unit is detachably arranged in the first groove body, wherein the aerosol supply unit comprises a flow passage and a plurality of aerosol components. The flow channel is used for receiving a culture solution. The flow passage has a plurality of assembly holes. The aerosol components are arranged corresponding to the assembly holes and are suitable for converting the culture solution in the flow channel into aerosol to be sprayed into the first groove body. The invention also provides a planting device comprising a plurality of planting modules.

Description

Plant cultivation module

Technical field

The present invention relates to one kind and plant cultivation module, and particularly relate to a kind of to come by the way of aerial fog cultivation Planting plants plant cultivation module.

Background technology

In order to plant the production efficiency improving crop under area in limited planting, except the kind of cultivation is planted in improvement Outward, it is possible to reach by the way of cultivation is planted in change.It is said that in general, crop is planted out of doors, and adopt Cultivation mode is planted by plane kenel.Out of doors during plantation, mostly can spray insecticide in case worm of curing the disease Evil, therefore after crop is gathered, still has pesticide residues in crop.Although in processing, boiling or edible Preliminary cleaning can be first passed through before crop, but still be not enough to completely remove the pesticide of residual.Get off for a long time, For the health of eater, one endangers greatly beyond doubt.

Therefore, the hydroponic culture without spraying insecticide or applying fertilizer starts prevailing in recent years, and its planting environment is big Mostly be indoor, and use three-dimensional kenel plant cultivation mode.Crop is mainly provided in hydroponic culture case Required nutritional solution, plants cultivation mode for replace conventional soil cultivation so that the crop after gathering more is defended Raw, safety, without there being the doubt of pesticide residues.But, hydroponic culture is only capable made from plantation is specific Thing, therefore more limit on using.

Summary of the invention

It is an object of the invention to provide one kind and plant cultivation module, work can be planted by the way of aerial fog cultivation Thing.

For reaching above-mentioned purpose, the present invention proposes one kind and plants cultivation module, including the first cell body and aerosol supply Unit.Aerosol feeding unit is removable installed in the first cell body, and wherein aerosol feeding unit includes stream Road and multiple aerosol assembly.Runner is in order to receive culture fluid.Runner has multiple assembly hole.These gas Mist assembly is arranged corresponding to these assembly holes, and is suitable to the culture fluid in runner be converted into aerosol with spray Spill to the first cell body.

In one embodiment of this invention, above-mentioned cultivation module of planting also includes planting cultivation dish, hides the first cell body Opening, wherein plant cultivation dish and carried with runner by the first cell body, and define chamber with the first cell body.

In one embodiment of this invention, above-mentioned cultivation module of planting also includes the second cell body, is arranged at first In cell body, and between the first cell body and runner.

In one embodiment of this invention, the first above-mentioned cell body has first discharge port, and the second cell body There is the second floss hole being correspondingly arranged with first discharge port.

In one embodiment of this invention, each above-mentioned aerosol assembly includes the collar, culture fluid absorber And aerosol conversion element.The collar is connected on the assembly hole of correspondence.Culture fluid absorber is arranged at runner In, wherein the end of culture fluid absorber passes the collar.Aerosol conversion element is connected on the collar, and with The end of culture fluid absorber contacts.

In one embodiment of this invention, above-mentioned runner also has discharge orifice, runs through the sidewall of runner. Discharge orifice is high at a distance of second with the bottom surface of the bottom surface of runner apart the first height, culture fluid absorber and runner Degree, wherein the first height is more than the second height.

In one embodiment of this invention, when the liquid level of the culture fluid in runner is more than the first height Time, part culture fluid self bleed holes flows out.

In one embodiment of this invention, above-mentioned runner includes U-shaped runner, L font runner or l Font runner.

In one embodiment of this invention, above-mentioned cultivation module of planting also includes culture fluid supply pipe, corresponds to Runner and arrange, in order to provide culture fluid to runner.

The present invention also proposes one kind and plants cultivation device, and including multiple cultivation modules of planting, wherein each plants cultivation module bag Include the first cell body and aerosol feeding unit.Aerosol feeding unit is removable installed in the first cell body, Wherein aerosol feeding unit includes runner and multiple aerosol assembly.Runner is in order to receive culture fluid.Runner There is multiple assembly hole.These aerosol assemblies are arranged corresponding to these assembly holes, and are suitable in runner Culture fluid be converted into aerosol to be sprayed in the first cell body.

Based on above-mentioned, the present invention plant cultivation module can be by the aerosol assembly being arranged on the assembly hole of runner Culture fluid in runner is converted into aerosol, and is sprayed in the first cell body, be used for providing crop to plant The moisture of Shi Suoxu and nutrient.Additionally, the three-dimensional planting device of the present invention aforementioned can plant cultivation module by multiple Layering is arranged, for planting production efficiency and the yield improving crop under area in limited planting.

For the features described above of the present invention and advantage can be become apparent, special embodiment below, and coordinate Appended accompanying drawing is described in detail below.

Accompanying drawing explanation

Fig. 1 is the decomposition explanatory diagram planting cultivation module of one embodiment of the invention；

Fig. 2 is the constitutional diagram planting cultivation module of Fig. 1；

Fig. 3 is the exploded explanatory diagram of the aerosol feeding unit of Fig. 1；

Fig. 4 is the schematic top plan view planting cultivation module of another embodiment of the present invention；

Fig. 5 is the schematic top plan view planting cultivation module of further embodiment of this invention；

Fig. 6 is the schematic top plan view planting cultivation module of a present invention more embodiment；

Fig. 7 is the schematic diagram planting cultivation device of one embodiment of the invention.

Symbol description

10: plant cultivation device

11: carrier

12: carry seat

13: tank

100,100A～100C: plant cultivation module

110: the first cell bodies

111: opening

112: first discharge port

120: aerosol feeding unit

121,121a～121c: runner

121a1,121b1: the first subflow road

121a2,121b2: the second subflow road

122: aerosol assembly

122a: the collar

122b: culture fluid absorber

122c: aerosol conversion element

122d: end

123: assembly hole

124: discharge orifice

125: sidewall

126: bottom surface

130: culture fluid supply pipe

140: plant cultivation dish

150: the second cell bodies

151: the second floss holes

C: chamber

H: liquid level

H1: the first height

H2: the second height

L: culture fluid

R1, R2: block

Detailed description of the invention

Fig. 1 is the decomposition explanatory diagram planting cultivation module of one embodiment of the invention.Fig. 2 be Fig. 1 plant cultivation mould The constitutional diagram of block.Fig. 3 is the exploded explanatory diagram of the aerosol feeding unit of Fig. 1, the most for clarity Representing and be easy to explanation, the cultivation dish 140 of planting of Fig. 2 is to illustrate with dotted line.Refer to Fig. 1 to Fig. 3, In the present embodiment, plant cultivation module 100 and include the first cell body 110 and aerosol feeding unit 120, wherein Aerosol feeding unit 120 is for being removable installed in the first cell body 110.For example, supply when aerosol When answering unit 120 to be arranged in the first cell body 110, planting cultivation module 100 i.e. can be in the way of aerial fog cultivation Carry out planting plants, such as rhizome plants.On the contrary, when aerosol feeding unit 120 is from the first cell body 110 When disassembling, plant cultivation module 100 then can come in the way of hydroponic culture planting plants, such as water plough plant Thing.In other words, the cultivation module 100 of planting of the present embodiment can be used to plant different types of crop, and it uses On the most flexibly and more elastic.

Plant module 100 and can be applicable to the three-dimensional planting device 10 of indoor or outdoors it is said that in general, plant and (illustrate In Fig. 7), the practice more typically is to plant cultivation module 100 layering and be arranged at three-dimensional planting device 10 by multiple and (paint Be shown in Fig. 7) carrier 11 (being illustrated in Fig. 7) on, for limited plant to plant improve the life of crop under area Produce efficiency and yield.Specifically, aerosol feeding unit 120 includes runner 121 and multiple aerosol group Part 122, wherein runner 121 is positioned at the first cell body 110, in order to receive culture fluid supply pipe 130 institute The culture fluid L provided.Therefore, culture fluid supply pipe 130 need to be arranged corresponding to runner 121, or It is to be connected with runner 121, for by culture fluid L supply to runner 121.The composition of culture fluid L E.g. based on the fertilizer of the leaf in traditional agriculture fertilizer, root manure or real fertilizer etc., it is dissolved in water, And can go to adjust composition and the ratio of various composition of culture fluid L according to the kind of crop and growing state, use In the concentration and the acid-base value that control culture fluid L.Certainly, culture fluid L can also be water, and the present invention is to this It is not any limitation as.

In the present embodiment, runner 121 can be U-shaped runner, and has multiple assembly hole 123.Gas Mist assembly 122 is for being removable installed in runner 121, and wherein this aerosol assembly 122 is corresponding to these Assembly hole 123 and arrange, and be suitable to the culture fluid L in runner 121 be converted into aerosol to be sprayed to In one cell body 110.Specifically, each aerosol assembly 122 includes collar 122a, culture fluid absorber 122b and aerosol conversion element 122c, wherein each collar 122a is through corresponding assembly hole 123 Clamping is thereon.Culture fluid absorber 122b is arranged in runner 121, wherein culture fluid absorber 122b End 122d through collar 122a, with the aerosol conversion element 122c being connected on collar 122a Contact.Herein, culture fluid absorber 122b e.g. sponge or other suitable water suction materials, its Culture fluid L is immersed in the local of middle culture fluid absorber 122b, for absorbing runner 121 by capillarity Interior culture fluid L so that culture fluid L can rise to end 122d.Due to aerosol conversion element 122c Contacting with the end 122d infiltrated by culture fluid L, therefore culture fluid L can be changed by aerosol Element 122c is converted into aerosol and is sprayed in the first cell body 110.

On the other hand, plant cultivation module 100 and may also include and plant cultivation dish 140, wherein plant cultivation dish 140 and may be used to Planting plants, and carried with runner 121 by the first cell body 110.For example, cultivation dish 140 is planted Area is substantially equal with the aperture area of the first cell body 110, is therefore placed in will plant cultivation dish 140 After on one cell body 110 and runner 121, plant cultivation dish 140 and can be completely covered by the opening 111 of the first cell body 110 And define cavity C with the first cell body 110, and plant the root in the crop planted on cultivation dish 140 and can stretch Enter chamber so that its root can infiltrating, when being used for absorbing growth by the aerosol that is sprayed in cavity C Required moisture and nutrient.

On the other hand, plant cultivation module 100 in addition to including planting cultivation dish 140, may also include the second cell body 150.The exterior contour of the second cell body 150 substantially conforms to the in-profile of the first cell body 110, and it can It is selectively arranged in the first cell body 110, and between the first cell body 110 and runner 121.This Place, the first cell body 110 has first discharge port 112, and the second cell body 150 has and first discharge port 112 the second floss holes 151 being correspondingly arranged, aerosol the most absorbed by crops can be connected certainly Second floss hole 151 is discharged with first discharge port 112, and recyclable.It should be noted that, plant cultivation Module 100 includes that the second cell body 150 is only in order to illustration, and is not used to limit the present invention, i.e. plants Plant module 100 only include the first cell body 110, aerosol feeding unit 120 and plant cultivation dish 140 with in generation State the scope that effect also to be protected for the present invention.

As in figure 2 it is shown, runner 121 can have discharge orifice 124, run through the sidewall 125 of runner 121. In the present embodiment, the bottom surface 126 of discharge orifice 124 and runner 121 is at a distance of the first height H1, and trains The bottom surface 126 of nutrient solution absorber 122b and runner 121 is at a distance of the second height H2, wherein the first height H1 is more than the second height H2.When the liquid level H of the culture fluid L in runner 121 is more than the first height During H1, part culture fluid L will flow out by self bleed holes 124.On the other hand, due to the first height H1 More than the second height H2, it is thus ensured that culture fluid absorber 122b can be infiltrated by culture fluid L, Make the sustainable aerosol that is converted into by culture fluid L of aerosol conversion element 122c to be sprayed to the first cell body 110 In.

Hereinafter will enumerate other embodiments using as explanation.Should be noted that at this, following embodiment edge With element numbers and the partial content of previous embodiment, wherein use identical label to represent identical or near As element, and eliminate the explanation of constructed content.Before referring to about the explanation of clipped Stating embodiment, it is no longer repeated for following embodiment.

Fig. 4 is the schematic top plan view planting cultivation module of another embodiment of the present invention, represents the most for clarity And it is easy to explanation, omit to depict and plant cultivation dish 140.Refer to Fig. 4, module 100A is planted in planting of the present embodiment With Fig. 1 plant cultivation module 100 substantially similar, but Main Differences between the two is: plant cultivation module The runner 121a of 100A is L font runner, and wherein aerosol assembly 122 is respectively arranged at the first subflow road In 121a1 and the second subflow road 121a2, with by aerosol spray to the first cell body 110.

Fig. 5 is the schematic top plan view planting cultivation module of further embodiment of this invention, represents the most for clarity And it is easy to explanation, omit to depict and plant cultivation dish 140.Refer to Fig. 5, module 100B is planted in planting of the present embodiment With Fig. 1 plant cultivation module 100 substantially similar, but Main Differences between the two is: although planting cultivation The runner 121b of module 100B is also U-shaped runner, but runner 121b is located substantially in the first cell body The central authorities of 110, so that the first cell body 110 is divided into two block R1 and R2, are wherein positioned at the first subflow The aerosol conversion element 122c of the aerosol assembly 122 of road 121b1 is towards block R1, with towards block R1 Spray aerosol.It is positioned at the aerosol conversion element 122c face of the aerosol assembly 122 of the second subflow road 121b2 To block R2, to spray aerosol towards block R2.

Fig. 6 is the schematic top plan view planting cultivation module of a present invention more embodiment, represents the most for clarity And it is easy to explanation, omit to depict and plant cultivation dish 140.Refer to Fig. 6, module 100C is planted in planting of the present embodiment With Fig. 5 plant cultivation module 100B substantially similar, but Main Differences between the two is: plant cultivation mould The runner 121c of block 100C is l font runner, and wherein aerosol assembly 122 shifts to install in runner 121c In so that aerosol conversion element 122c is respectively for block R1 and R2, to be respectively facing block R1 Aerosol is sprayed with R2.

Fig. 7 is the schematic diagram planting cultivation device of one embodiment of the invention.Refer to Fig. 7 and wherein plant cultivation device 10 can include carrier 11, multiple as shown in Figure 2 plant plant module 100 and savings culture fluid L water Groove 13, wherein these are planted cultivation module 100 and are respectively arranged on multiple load seats 12 of carrier 11, and cultivate Liquid supply pipe 130 is i.e. to draw culture fluid L from tank 13 to plant cultivation module 100 to provide to each.Though So the present embodiment plant plant device 10 be with layering be provided with multiple as shown in Figure 2 plant cultivation module 100 Explain, but the present invention is not limited thereto.In other embodiments, plant cultivation the multiple of device and plant cultivation mould Block is alternatively any one planting module 100A to 100C of planting the most as shown in Figures 4 to 6, or such as Planting shown in Fig. 2 and Fig. 4 to Fig. 6 plants module 100, the combination of 100A to 100, and end regards reality and needs Ask and adjusted.

In sum, the aerosol assembly planting module of planting of the present invention is arranged corresponding to the assembly hole of runner, Wherein culture fluid can be immersed in the local of the culture fluid absorber of aerosol assembly, for being absorbed by capillarity Culture fluid in runner so that culture fluid can rise to the end of the culture fluid absorber through the collar.By Aerosol conversion element in aerosol assembly contacts with the end infiltrated by culture fluid, therefore culture fluid Aerosol can be converted into by aerosol conversion element and be sprayed in the first cell body, when being used for providing crop to plant Required moisture and nutrient.Additionally, multiple aforementioned cultivation modules of planting can be divided by the three-dimensional planting device of the present invention Layer is arranged, for planting production efficiency and the yield improving crop under area in limited planting.

Although disclosing the present invention in conjunction with above example, but it being not limited to the present invention, any Art has usually intellectual, without departing from the spirit and scope of the present invention, can do some The change permitted and retouching, therefore protection scope of the present invention should be with what the claim enclosed was defined Accurate.

Claims (10)

1. plant cultivation module for one kind, it is characterised in that including:

First cell body；And

Aerosol feeding unit, is removable installed in this first cell body, wherein this aerosol feeding unit bag Include:

Runner, in order to receive culture fluid, this runner has multiple assembly hole；And

Multiple aerosol assemblies, are removable installed in this runner, and wherein those aerosol assemblies are corresponding Arrange in those assembly holes, and be suitable to this culture fluid in this runner is converted into aerosol to be sprayed to this In first cell body.

Plant cultivation module the most as claimed in claim 1, it is characterised in that also include:

Planting cultivation dish, hide the opening of this first cell body, wherein this plants cultivation dish by this first cell body and this runner Carried, and defined chamber with this first cell body.

Plant cultivation module the most as claimed in claim 1, it is characterised in that also include:

Second cell body, is arranged in this first cell body, and between this first cell body and this runner.

Plant cultivation module the most as claimed in claim 3, it is characterised in that this first cell body has first row Put mouth, and this second cell body has the second floss hole being correspondingly arranged with this first discharge port.

Plant cultivation module the most as claimed in claim 1, it is characterised in that respectively this aerosol assembly includes:

The collar, is connected on this assembly hole of correspondence；

Culture fluid absorber, is arranged in this runner, and wherein the end of this culture fluid absorber passes this set Ring；And

Aerosol conversion element, is connected on this collar, and contacts with this end of this culture fluid absorber.

Plant cultivation module the most as claimed in claim 5, it is characterised in that this runner also has discharge orifice, Running through the sidewall of this runner, this discharge orifice absorbs at a distance of the first height, this culture fluid with the bottom surface of this runner This bottom surface of body and this runner is at a distance of the second height, and this first height is more than this second height.

Plant cultivation module the most as claimed in claim 6, it is characterised in that when this culture fluid in this runner Liquid level more than this first height time, partly this culture fluid flows out from this discharge orifice.

Plant cultivation module the most as claimed in claim 1, it is characterised in that this runner includes U-shaped stream Road, L font runner or l font runner.

Plant cultivation module the most as claimed in claim 1, it is characterised in that also include:

Culture fluid supply pipe, is arranged, in order to provide this culture fluid to this runner corresponding to this runner.

10. plant a cultivation device, plant cultivation module including multiple, it is characterised in that respectively this plants cultivation module bag Include:

First cell body；And

Aerosol feeding unit, is removable installed in this first cell body, wherein this aerosol feeding unit bag Include:

Runner, in order to receive culture fluid, this runner has multiple assembly hole；And

Multiple aerosol assemblies, are removable installed in this runner, and wherein those aerosol assemblies are corresponding Arrange in those assembly holes, and be suitable to this culture fluid in this runner is converted into aerosol to be sprayed to this In first cell body.