CN108432488A - Implant system and its planting unit - Google Patents

Abstract

The present invention proposes a kind of planting unit, including multiple planting grooves mutually stacked and multiple field planting disks.Each plantation slot forms the first opening for having an accommodating space and being connected with accommodating space.Each field planting disk includes that multiple 2 first support portions planted recess portions and be connected by growing surface and with its opposite sides are constituted, its junction is equipped with the first connecting line, each plantation recess portion is accommodated in the first accommodating space and growing surface corresponds to the first opening, each growing surface is made of be connected and the second sub- face, its junction is equipped with the second connecting line, it on growing surface or is intertwined on the first sub- face and on the second sub- face so that pre-determined distance is mutually arranged respectively between second opening of each plantation recess portion, wherein, the vertical height for being colonized the horizontal plane where the second connecting line to the first opening of the planting groove of its setting of disk is greater than or equal to the vertical height of the horizontal plane where the first connecting line to the first opening of the planting groove of its setting of field planting disk.

Description

Implant system and its planting unit

Technical field

The invention relates to a kind of implant system and its planting units, and in particular to one kind can on demand and kind Space size is planted to select the implant system and its plantation of the planting groove number of plies, field planting disk height and plantation recess portion range and quantity etc. Device.

Background technology

Existing planting unit can also plant edible plants other than beautifying the environment, and edible plants is planted to kind On planting apparatus, then it can be harvested in the set time, it is then direct-edible or eaten again through subsequent processing again.

When planting edible plants, it will usually have that high harvesting amount, plant growth space are big, planting number is more and plantation model Big demand is enclosed, if needing to improve harvesting amount, relatively required planting number is more, therefore requires the plantation model of bigger Enclose or area, however, in limited environment, improve harvesting amount, extend bigger planting range and plant growth space actually For an important topic.

Therefore, there is an urgent need for a kind of implant system of proposition and its planting units, it is possible to provide larger plant growth space and plantation Range.

Invention content

Therefore, a kind of implant system of present invention proposition and its planting unit, can be on demand by the first sub- face of growing surface And second sub- face installation position and plant recess portion arrangement mode to plant suitable plant and obtain high harvesting amount.

An embodiment according to the present invention, proposes a kind of planting unit.Planting unit includes multiple planting grooves and multiple fixed Plant disk.Each planting groove mutually stacks and is respectively formed with one first accommodating space, and the end face of each planting groove is formed with and first One first opening that accommodating space is connected.Each 2 first for being colonized disk and being connected by a growing surface and with its opposite sides Support part is constituted, and junction is equipped with one first connecting line, and each disk that is colonized includes multiple plantation recess portions, and each first support portion is set respectively The opposite sides in planting groove is set, each recess portion of planting is accommodated in the first accommodating space and the first opening of growing surface correspondence, each to plant Face is made of one first sub- face being connected and one second sub- face, and junction is equipped with one second connecting line, it is each plant recess portion it End face more forms one second opening, and each the second opening for planting recess portion is mutually arranged with a pre-determined distance on growing surface respectively Or interlaced configuration is on the first sub- face and on the second sub- face, wherein is colonized the second connecting line of disk to the plantation of its setting The vertical height of horizontal plane where first opening of slot is greater than or equal to the first connecting line of field planting disk to the plantation of its setting The vertical height of horizontal plane where first opening of slot.

According to another embodiment of the present invention, a kind of implant system is proposed.Implant system includes multiple plantation dresses above-mentioned It sets.Each planting unit is mutually arranged, the second opening of each plantation recess portion on the growing surface of the field planting disk of planting unit and another The second interlaced configuration of opening of each plantation recess portion on the growing surface of the field planting disk of planting unit.

According to another embodiment of the present invention, a kind of implant system is proposed.Implant system includes multiple planting units.Plantation Device includes multiple planting grooves and multiple field planting disks.Each planting groove mutually stacks and is respectively formed with one first accommodating space, respectively The end face of planting groove is formed with one first opening being connected with the first accommodating space.Each field planting disk by a growing surface and and its 2 first support portions that are connected of opposite sides constitute, junction is equipped with one first connecting line, and each disk that is colonized includes multiple Recess portion is planted, each first support portion is separately positioned on the opposite sides of planting groove, and each recess portion of planting is accommodated in the first accommodating space And growing surface corresponds to the first opening, each growing surface is made of one first sub- face being connected and one second sub- face, and junction is set Have one second connecting line, each end face for planting recess portion more forms one second opening, it is each plant the second of recess portion be open respectively with One pre-determined distance is mutually arranged on growing surface or interlaced configuration is on the first sub- face and on the second sub- face, wherein field planting The vertical height of horizontal plane where second connecting line of disk to the first opening of the planting groove of its setting is greater than or equal to field planting The vertical height of horizontal plane where first connecting line of disk to the first opening of the planting groove of its setting.Each planting unit is mutual Arrangement, the second opening of each plantation recess portion of planting unit being colonized on the growing surface of disk and the field planting disk of another planting unit The second interlaced configuration of opening of each plantation recess portion on growing surface.

Advantage is the present invention compared with the existing technology, and implant system and its planting unit of the invention then may be used According to the growth demand of various different plants, it is mutually arranged respectively with a pre-determined distance by the second opening of each plantation recess portion On growing surface or it is interlaced configuration on the first sub- face and on the second sub- face, and field planting disk the first connecting line to its be arranged Planting groove first opening where horizontal plane vertical height be greater than or equal to field planting disk the second connecting line to its be arranged Planting groove the first opening where the vertical height of horizontal plane make plant in response to the volume size size after plant growth Except can vertical-growth, oblique can also grow, can obtain good growth in large space, and then promote plant growth yield and adopt Yield.

More preferably understand in order to which the above-mentioned and other aspect to the present invention has, preferred embodiment cited below particularly, and coordinates institute Accompanying drawings are described in detail below.

Description of the drawings

Fig. 1 is painted the structural schematic diagram of the planting unit according to one embodiment of the invention.

Fig. 2 is painted the partial enlargement signal being arranged according to the field planting disk of the planting unit of one embodiment of the invention in planting groove Figure.

Fig. 3 is painted the partial enlargement being arranged in planting groove according to the field planting disk of the planting unit of another embodiment of the present invention and shows It is intended to.

Fig. 4 is painted the field planting disk schematic top plan view according to the planting unit of one embodiment of the invention.

Fig. 5 is painted the field planting disk schematic top plan view according to the planting unit of another embodiment of the present invention.

Fig. 6 is painted the structural schematic diagram according to an implant system of the invention and its multiple planting units.

Fig. 7 is painted according to the mutually arranged schematic top plan view of multiple planting units of an implant system of the invention.

Specific implementation mode

It will be described various embodiments of the present invention below, and coordinate schema as illustration.Other than these detailed descriptions, this Invention can also widely be implemented in other examples, and the replacement easily of any embodiment, modification, equivalence changes are all In the range of this case, and it is subject to the scope of the claims later.In the description of specification, in order to make reader to the present invention There is more complete understanding, provides many specific details；However, the present invention may be in clipped or these whole specific details Under the premise of, can still it implement.Moreover, it is well known that the step of or component be not described in details, to avoid the present invention is caused Unnecessary limitation.Same or similar component will be indicated with same or like symbol in schema.It is specifically intended that schema Only signal is used, not the actual size of proxy component or quantity, unless otherwise specified.

Fig. 1 is painted the structural schematic diagram of the planting unit according to one embodiment of the invention.Fig. 2 is painted real according to the present invention one Close-up schematic view in planting groove is arranged in the field planting disk for applying the planting unit of example.Fig. 3 is painted according to another implementation of the present invention The close-up schematic view in planting groove is arranged in the field planting disk of the planting unit of example.Shown in Fig. 1 to Fig. 3, plantation dress It includes multiple planting grooves 110, multiple field planting disks 120, a supporting rack 130 to set 100.Wherein, field planting disk 120 is arranged in planting groove On 110.Planting groove 110 is arranged on supporting rack 130.

In embodiment, each planting groove 110 mutually stacks, more can be arranged in a mutually vertical manner or mutually it is setting up and down, it is various It plants slot 110 and is respectively formed with one first accommodating space 110s, and the end face of each planting groove 110 is formed with and the first accommodating space The one first opening 110o that 110s is connected.

In an embodiment, planting groove 110 can be that appearance is a cube or a cuboid, and an indent is formed in it Slot is as the first accommodating space 110s.In another embodiment, planting groove 110 can be that four sides and a bottom surface are constituted, by It is connected with each other by the relative side of four sides, another side in four sides is connected respectively with bottom surface to constitute the first accommodating space 110s, and the side of relatively another side of four sides then constitutes end face and forms the be connected to the first accommodating space 110s One opening 110o.But the present invention is not limited thereto.

In one first support portion 122 that embodiment, field planting disk 120 are connected by a growing surface 121 and corresponding thereto both sides Constitute, junction be equipped with one first connecting line L1, this means, the opposite sides of growing surface 121 respectively with two the first support portions 122 side is connected, and the connection of one of opposite sides of growing surface 121 and the side of the first support portion 122 There is the first connecting line L1 at place, and the opposite sides of growing surface 121 is therein another with the side of another first support portion 122 Junction have the first connecting line L1.Therefore, field planting disk 120 has two the first connecting line L1.Each field planting disk 120 is separately positioned on On each planting groove 110, each first support portion 122 is separately positioned on the opposite sides of planting groove 110.In in implementation, it is respectively colonized disk 120 are more crossed on by 2 first support portions 122 in the opposite sides of its corresponding planting groove 110 respectively, this means, planting groove On the side of 110 opposite sides；Or it is arranged in the first accommodating space 110s of planting groove 110；Or it is arranged in planting groove 110 The outside in opposite sides face, on the side for the opposite sides that this is then separately positioned on planting groove 110 with each first support portion 122 For.But the present invention is not limited thereto.

Fig. 4 is painted the field planting disk schematic top plan view according to the planting unit of one embodiment of the invention.Please again referring concurrently to Fig. 1 Shown in Fig. 4, each field planting disk 120 of the present embodiment divides including multiple plantation recess portions 123, and each recess portion 123 of planting is respectively contained in First accommodating space 110s and the growing surface 121 for being colonized disk 120 correspond to the first opening 110o.Growing surface 121 by be connected one The sub- face 121b of first sub- face 121a and one second are constituted, and junction is equipped with one second connecting line L2.This means, when growing surface 121 When being connected to form by the first sub- sub- face 121b of face 121a and second, then the mutually interconnection of the first sub- sub- face 121b of face 121a and second There is the second connecting line L2 at the place of connecing.Wherein, the second connecting line L2 of field planting disk 120 to the first of its planting groove 110 being arranged is open The vertical height H1 of horizontal plane where 110o is greater than or equal to the first connecting line L1 of field planting disk 120 to the planting groove of its setting The vertical height H2 of horizontal plane where 110 the first opening 110o.It is colonized the end face of each plantation recess portion 123 on disk 120 One second opening 123o is more formed, the second opening 123o of each plantation recess portion 123 is mutually arranged with a pre-determined distance D1 respectively On growing surface 121 or interlaced configuration is on the first sub- face 121a and on the second sub- face 121b.The pre-determined distance of the present embodiment D1 can be the mutually online distance of central points of two adjacent plantation recess portions 123, imply that for adjacent two kinds plant recess portions 123 it The distance between the central point of second opening 123o.For example, pre-determined distance D1 can be equal to the diameter of the second opening 123o D2, can also be greater than or less than second opening 123o diameter D2, this then with pre-determined distance D1 be more than second opening 123o Diameter D2 for, but the present invention is not limited thereto.In the present embodiment, each recess portion 123 of planting more forms the second of an indent The plant of accommodating space (not shown), required plantation can then be planted in each plantation recess portion 123 of each field planting disk 120, can more incite somebody to action Block is planted, such as sponge or planting soil are arranged in each plantation recess portion 123, then by planting in plantation block, or will kind The plant being implanted in potting is set up directly in each plantation recess portion 123, but the present invention is not limited thereto.

In addition, more can be in response to the volume size after the volume size of the plant of plantation and/or its growth, adjustment field planting disk The diameter D2 of second opening 123o of each plantation recess portion 123 on 120.

Please again referring concurrently to shown in Fig. 2 and Fig. 4, in an embodiment, when the second connecting line L2 of field planting disk 120 is arranged to it Planting groove 110 first opening 110o where horizontal plane vertical height H1 be more than field planting disk 120 the first connecting line Ll To the horizontal plane where the first opening 110o of the planting groove 110 of its setting vertical height H2 when, this means, the first sub- face 121a And second sub- face 121b be respectively an inclined-plane, and the first sub- sub- face 121b of face 121a and second respectively with where the first connecting line L1 Horizontal plane between be equipped with an angle A.The range of this angle A may be greater than 0 degree and be less than or equal to 90 degree.Herein with the first son The angle A between the horizontal plane where the first connecting line L1, i.e. included angle A are 45 to the sub- face 121b of face 121a and second respectively For degree.But the present invention is not limited thereto.Respectively with pre-determined distance D1 phases between second opening 123o of each plantation recess portion 123 It is mutually arranged in mutually arranged with pre-determined distance D1 respectively between the first sub- face 121a and the second opening 123o of each plantation recess portion 123 Second opening 123o of each plantation recess portion 123 between the second sub- face 121b, and on the first sub- face 121a and in the second son Second opening 123o of each plantation recess portion 123 on the 121b of face distinguishes interlaced configuration.

In embodiment, the junction of the first sub- sub- face 121b of face 121a and second of the field planting disk 120 of planting unit 100 is more A groove 124 is formed, two ends of groove 124 extend to another opposite the two of growing surface 121 with the direction of parallel second connecting line L2 Side, this means, the shape of groove 124 is strip, and the both ends of groove 124 side with the another opposite sides of growing surface 121 respectively While be connected, and another two end of groove 124 then can more be separately connected the junction of the first sub- sub- face 121b of face 121a and second, change It can be located at groove 124 that Yan Zhi, the second connecting line L2, which can be positioned at another two end of groove 124 or the second connecting line L2, Bottom on.But the present invention is not limited thereto.

In an embodiment, at least two third opening (not shown) can more be formed by being colonized on the groove 124 of disk 120, if Disk 120 will be colonized by being intended to removes from planting groove 110, then third opening is available for users to or machine is inserted into the side of using in third opening Field planting disk 120 is removed and will not being destroyed on the growing surface 121 of field planting disk 120 from planting groove 110 just and easily is planted Any plant.

Fig. 5 is painted the field planting disk schematic top plan view according to the planting unit of another embodiment of the present invention.Please refer to Fig. 3 and figure Shown in 5, in another embodiment, where the second connecting line L2 to the first opening 110o of the planting groove 110 of its setting of field planting Horizontal plane vertical height H1 be equal to field planting disk 120 the first connecting line L1 to its setting planting groove 110 first opening When the vertical height H2 of the horizontal plane where 110o, this means, the first sub- sub- face 121b of face 121a and second be mutually coupled respectively and It is a flat surface respectively, and the horizontal plane where the first sub- face 121a is equal to the horizontal plane where the second sub- face 121b.It respectively plants recessed Portion 123 second opening 123o between respectively with pre-determined distance D1 it is mutually arranged and configure in the first sub- sub- faces face 121a and second Between 121b, for example, more respectively with the interlaced rows of pre-determined distance D1 between each the second opening 123o for planting recess portion 123 It arranges and configures on the first sub- face 121a and on the second sub- face 121b.In another embodiment, each the second opening for planting recess portion 123 123o is more connected to the second connecting line L2 (not shown).Therefore, respectively the diameter D2 of the second opening 123o of plantation recess portion 123 more can be with It is less than or equal to the vertical range of the opposite sides of the first sub- face 121a and/or the opposite sides of the second sub- face 121b.It is then each Second opening 123o of plantation recess portion 123 can provide the plant that plantation needs smaller space or small volume of growing up.

In another embodiment, when the second connecting line L2 to the first of its planting groove 110 being arranged of field planting disk 120 is open The vertical height H1 of horizontal plane where 110o is equal to the second connecting line L1 of field planting disk 120 to the planting groove 110 of its setting When the vertical height H2 of the horizontal plane where the first opening 110o, this means, growing surface 121 is a flat surface, further, the first son The sub- face 121b of face 121a and second are mutually coupled respectively and are a flat surface respectively, and the horizontal plane where the first sub- face 121a is equal to Horizontal plane where second sub- face 121b, more even the first sub- sub- face 121b of face 121a and second constitute plantation with being integrally formed Face 121.And angle of the growing surface 121 more between the horizontal plane where the first connecting line L1 can be 0 degree, i.e. growing surface 121 It is the horizontal plane where the first connecting line L1.Respectively with pre-determined distance D1 between second opening 123o of each plantation recess portion 123 Mutually arranged and configuration is on growing surface 121.Therefore, respectively the diameter of the second opening 123o of plantation recess portion 123 more can be small In or equal to growing surface 121 opposite sides vertical range.Then respectively the second opening 123o of plantation recess portion 123 can provide plantation Need larger space or the larger plant of volume that grows up.

For example, when the fruit of the plant growth small volume of plantation but plant is more, such as strawberry, then it can plant The second connecting line L2 of each field planting disk 120 of planting unit 100 is implanted in the first opening 110o institutes of its planting groove 110 being arranged The vertical height H1 planting grooves 110 that are more than the first connecting line L1 of field planting disk 120 to its setting of horizontal plane first open The vertical height H2 of horizontal plane where mouthful 110o, and the second opening 123o of each plantation recess portion 123 is interconnected the respectively On one sub- face 121a and on the second sub- face 121b, the diameter D2 of each the second opening 123o for planting recess portion 123 may be less than or equal to The vertical range of the opposite sides of the first sub- sub- face 121b of face 121a and/or second, each the second opening 123o for planting recess portion 123 Between pre-determined distance D1 can be more than it is each plantation recess portion 123 second opening 123o diameter D2, by each plantation recess portion 123 The second opening 123o between pre-determined distance D1 apart from each other can more be given birth in fruit with raised growth for the fruit of plant Fruit is placed in groove 124 after length, makes fruit caused by being not easily susceptible to illumination in groove 124 without because growth is too fast It does not harvest and begins to rotten or blackening.

For example, when the plant growth volume of plantation is larger, such as lettuce, then it can be planted in planting unit 100 Each field planting disk 120 the second connecting line L2 to the first opening 110o of the planting groove 110 of its setting where horizontal plane hang down Straight height H1 is equal to the water where the first connecting line L1 to the first opening 110o of the planting groove 110 of its setting of field planting disk 120 The vertical height H2 of plane, and the second opening 123o mispairing of each plantation recess portion 123 is set on growing surface 121, and recess portion is respectively planted The diameter D2 of 123 the second opening 123o may be less than or equal to the vertical range of the opposite sides of growing surface 121, respectively plant recess portion Pre-determined distance D1 between 123 the second opening 123o can be less than or equal to the second opening 123o's of each plantation recess portion 123 Diameter D2, by pre-determined distance D1 the giving birth to for plant apart from each other between the second opening 123o of each plantation recess portion 123 Long volume is larger and will not be influenced by another plant.

Each field planting disk 120 of planting unit 100 is correspondingly arranged on each planting groove 110, and by the second of field planting disk 120 It is fixed that the vertical height H1 of horizontal plane where connecting line L2 to the first opening 110o of the planting groove 110 of its setting is greater than or equal to Plant the vertical height of the horizontal plane where the first connecting line L1 to the first opening 110o of the planting groove 110 of its setting of disk 120 H2, and more can be interconnected on the first sub- face 121a and second is sub respectively by the second opening 123o of each plantation recess portion 123 It on the 121b of face or is arranged on growing surface 121, has with the growing space and growth volume that make the plant of plantation according to demand It is suitble to or the second opening 123o of each plantation recess portion 123 appropriate can be housed, more by the second connecting line L2 of field planting disk 120 Vertical height H1 to the horizontal plane where the first opening 110o of the planting groove 110 of its setting is more than the first of field planting disk 120 When the vertical height H2 of the horizontal plane where connecting line L1 to the first opening 110o of the planting groove 110 of its setting, make plantation Plant can it is oblique growth and have larger growing space, by field planting disk 120 the second connecting line L2 to its setting planting groove 110 first opening 110o where horizontal plane vertical height H1 be equal to field planting disk 120 the 1st connecting line L1 to its setting When the vertical height H2 of the horizontal plane where the first opening 110o of planting groove 110, the plant of plantation has larger growth volume It can be accommodated in the second opening 123o, second that its suitable each plantation recess portion 123 is adjusted with the demand according to planting plants The diameter of opening 123o and opposite vertical height, promote harvesting amount and good growing environment.

In another embodiment, field planting disk 120 further includes 2 second support portion (not shown), each second support portion respectively with kind The another opposite sides in plant face 121 is connected.In another embodiment, each second support portion is another opposite with growing surface 121 more respectively Both sides and the both ends of groove 124 are connected (not shown).

Shown in Fig. 1, in embodiment, supporting rack 130 includes multiple support elements 131, and the setting of each support element 131 exists Between each planting groove 110, each planting groove 110 more is mutually perpendicular to stack or mutually stack up and down by each support element 131.This implementation The quantity of planting groove 110 and field planting disk 120 in example can correspond, and can also be colonized the number that 120 quantity of disk is less than planting groove 110 Amount more can adjust planting groove 110 in response to demand and be colonized the quantity of disk 120.For example, planting groove 110 and field planting disk 120 Quantity can be identical, and if to be colonized disk 120 on the planting groove 110 as one group, then organize the multiple that number can be four, you can with It it is four groups, eight groups or 16 groups, the present embodiment is respectively then eight groups with the quantity of planting groove 110 and field planting disk 120, and Fig. 1 is then For omitting line and save intermediate several groups.

In another embodiment, the length of the support element 131 between each planting groove 110 can be more adjusted by according to demand Degree or quantity, with the growing space size of quantity or plant in response to planting groove 110.If the quantity of planting groove 110 is reduced, The quantity for the support element 131 being oppositely arranged can then be reduced.If needing to plant and needing larger growing space, then can increase Support element 131 is combined with each other to increase entire length, or uses tool by 131 quantity of support element between two planting grooves 110 Retractility support element 131 then adjusts the collapsing length of support element 131, and then it is empty to increase the plantation between two planting grooves 110 Between.But the present invention is not limited thereto.

Shown in Fig. 1 to Fig. 3, in embodiment, planting unit 100 further includes an oral siphon 141, an outlet pipe 142 and multiple water pipes 143, the planting groove 110 of the top of one end connection planting unit 100 of oral siphon 141, outlet pipe 142 One end connection planting unit 100 lowermost end planting groove 110, each water pipe 143 is then connected between each planting groove 110, more Can be connected between each two kind Zhi slots, and each water pipe 143 is more arranged in the support element 131 of supporting rack 130.Each water pipe 143 more can in a staggered manner be connected between each two planting groove 110.For example, the both ends of the water pipe 143 of one of them It can be connected between the planting groove 110 and its next planting groove 110 of 100 top of planting unit, then the rest may be inferred, in addition a water The both ends of pipe 143 can be connected between the planting groove 110 and its upper and lower planting groove 110 of 100 lowermost end of planting unit.Further Speech, therefore a water source can be received by oral siphon 143141, such as：The water source provided by an external device (ED) or planting unit 100, Water is originated from oral siphon 141, kind via the planting groove of top 110 and each water pipe 143 being connected between each planting groove 110 again It plants slot 110 and water pipe 143 is directed to the outlet pipe 142 of lowermost end, then because there is water source to flow through each planting groove 110, be then planted in each The plant of field planting disk 120 on planting groove 110 is obtained good growth by the irrigation of suitable water source.Water is originated from oral siphon 141 flow into the water (flow) direction of 142 outflow of outlet pipe, can be the right water from planting groove 110 in a manner of S types or arc type Pipe flows into, then from the left side water pipe outflow of planting groove 110, then water is originated from the left side water pipe of next planting groove 110 and flows into, since then under The right water pipe outflow of one planting groove 110.But the present invention is not limited thereto.

In an embodiment, planting unit 100 further includes a water tank and a motor (not shown), then planting unit 100 enters Water pipe 141 can connect and receive the water source of water tank offer, and extracts water source by motor and send to the planting groove 110 of top The oral siphon 141 connected is to provide the conveying and irrigation at water source.

In another embodiment, planting unit 100 can connect an external device (ED) (not shown), such as with transportable water source The water-supply-pipe for planting factory provides water source so that planting unit 100 is conveyed and be irrigated by plantation factory.

Fig. 6 is painted the structural schematic diagram according to an implant system of the invention and its multiple planting units.Fig. 7 is painted according to this Invent the mutually arranged schematic top plan view of multiple planting units of an implant system.It please refers to shown in Fig. 6 and Fig. 7, in embodiment, Implant system 200 further includes multiple planting units 100, this means, more can constitute implant system 200 by multiple planting units 100. Each planting unit 100 of the implant system 200 of Fig. 6 and Fig. 7 has identical executive mode, fortune with the planting unit of Fig. 1 100 respectively Make and start, identical component and is given the same reference numerals, therefore is repeated no more in this.Wherein, the plantation dress in implant system 200 It sets 100 mutually arranged, can more be arranged in a manner of being mutually parallel.On the growing surface 121 of the field planting disk 120 of planting unit 100 Each plantation recess portion 123 the second opening 123o and another planting unit 100 field planting disk 120 growing surface 121 on it is various Plant the second opening interlaced configurations of 123o of recess portion 123.This means, all planting units 100 according to demand according to identical position Or direction is mutually arranged, can more be arranged parallel to each other.

It is set in the 121 mutual neighbour of growing surface of an embodiment, each planting unit 100.Further, each planting unit 100 One of first sub- sub- face 121b of face 121a and second neighbours set of the first sub- face 121a and second of another planting unit 100 One of face 121b；The second sub- face 121b neighbour of planting unit 100 set another planting unit or on the contrary, each plantation Second sub- face 121b neighbour of device sets the first sub- face 121a of another planting unit.For example, implant system 200 includes by a left side To right sequential there are three planting unit 100, then the first sub- sub- face 121b of face 121a and second of intermediate planting unit 100 The first sub- face of adjacent the second sub- face 121b for setting the planting unit 100 on the right of it and the adjacent planting unit 100 for setting its left side respectively 121a therefore, the second opening 123o of each plantation recess portion 123 on the first sub- face 121a of the field planting disk 120 of planting unit 100 And the second opening 123o of each plantation recess portion 123 on the second sub- face 121b of the field planting disk 120 of another planting unit 100 is mutual It is interconnected；And/or the second opening of each plantation recess portion 123 on the second sub- face 121b of the field planting disk 120 of planting unit 100 Second opening 123o of each plantation recess portion 123 on the first sub- face 121a of the field planting disk 123 of 123o and another planting unit 100 Interlaced configuration.Herein more to be colonized the second connecting line L2 of disk 120 to the first opening 110o of its planting groove 110 being arranged The vertical height H1 of the horizontal plane at place is more than the first connecting line L1 to the first of its planting groove 110 being arranged of field planting disk 120 For the vertical height H2 of horizontal plane where opening 110o.But the present invention is not limited thereto.

In the present embodiment, each planting unit 100 of implant system 200 further includes an at least first pulley 151 and at least one Second pulley 152 and the top and bottom end for being separately positioned on planting unit 100 further include 2 with each planting unit 100 herein It one pulley 151 and two second pulleys 152 and is separately positioned on for the top and bottom end of planting unit 100.

In an embodiment, implant system 200 can more apply the (not shown) in planting factory, and plantation factory integrally can be with It is mobile or non-moving type, if movable planting factory, such as：Can planting plants counter, then plant factory and further include Multiple upper lower railway (not shown) being mutually parallel and correspond to arrangement, each planting unit 100 of implant system 200 is then by first The corresponding upper lower railway for planting factory uses harvesting or plantation to be slided respectively for pulley 151 and second pulley 152.

In another embodiment, implant system 200 further includes multiple lighting devices 210 and is separately positioned on each planting unit 100 Between, each lighting device 210 more respectively includes multiple lighting units 211, arranged perpendicularly, and more can up and down mutually electrically Connection and concatenation.There is provided light source by multiple lighting units 211 makes the Zhi objects of plantation that good growth light source can be obtained.

In conclusion the implant system and its planting unit of the present invention, then can according to the growth demand of various different plants, It is mutually arranged on growing surface 121 with pre-determined distance D1 respectively by the second opening of each plantation recess portion or interlaced configuration exists On first sub- face 121a and on the second sub- face 121b, and the second connecting line L2 of disk 120 is colonized to the planting groove 110 of its setting The first opening 110o where the vertical height H1 of horizontal plane be greater than or equal to the first connecting line L1 of field planting disk 120 and set to it The vertical height H2 of horizontal plane where first opening 110o of the planting groove 110 set, in response to the volume size after plant growth Size, make plant except can vertical-growth, oblique can also grow, can obtain good growth in large space, and then promote plant Grow yield and recovery ratio.

In conclusion although the present invention has been disclosed as a preferred embodiment, however, it is not to limit the invention.This hair Related technical personnel in bright technical field, without departing from the spirit and scope of the present invention, when various changes can be made With retouching, but these change and retouch should all belong to the protection domain of appended claims of the present invention because.

Claims (10)

1. a kind of planting unit, which is characterized in that including：

Multiple planting grooves, each planting groove mutually stack, and are respectively formed with one first accommodating space, each planting groove End face is formed with one first opening being connected with first accommodating space；And

Multiple field planting disks, the 2 first support portion structures that each field planting disk is connected by a growing surface and with its opposite sides At junction is equipped with one first connecting line, and each field planting disk includes multiple plantation recess portions, each first support portion difference Opposite sides in the planting groove is set, and each plantation recess portion is accommodated in first accommodating space and the growing surface pair First opening, each growing surface is answered to be made of one first sub- face being connected and one second sub- face, junction is equipped with One second connecting line, the end face of each plantation recess portion more form one second and are open, and described the second of each plantation recess portion Opening is mutually arranged on the growing surface with a pre-determined distance respectively or interlaced configuration is on the described first sub- face and institute It states on the second sub- face, wherein described the first of the planting groove of second connecting line of the field planting disk to its setting opens Described kind of the vertical height of horizontal plane where mouthful more than or equal to first connecting line for being colonized disk to its setting Plant the vertical height of the horizontal plane where first opening of slot.

2. planting unit according to claim 1, which is characterized in that further include a supporting rack, support frame as described above includes more A support element, each support element are arranged between the planting groove, and the planting groove more mutually hangs down by each support element Directly stack.

3. planting unit according to claim 1, which is characterized in that when it is described field planting disk second connecting line to its The vertical height of horizontal plane where first opening for the planting groove being arranged is equal to described the first of the field planting disk Connecting line to its setting the planting groove it is described first opening where horizontal plane vertical height when, it is described respectively plant it is recessed It is mutually arranged on the growing surface with the pre-determined distance respectively between second opening in portion.

4. planting unit according to claim 1, which is characterized in that when it is described field planting disk second connecting line to its The vertical height of horizontal plane where first opening for the planting groove being arranged is equal to described the first of the field planting disk Connecting line to its setting the planting groove it is described first opening where horizontal plane vertical height when, it is described respectively plant it is recessed Between second opening in portion respectively with the pre-determined distance be mutually arranged the described first sub- face and the second sub- face it Between.

5. planting unit according to claim 1, which is characterized in that when it is described field planting disk second connecting line to its The vertical height of horizontal plane where first opening for the planting groove being arranged is more than described the first of the field planting disk Connecting line to its setting the planting groove it is described first opening where horizontal plane vertical height when, it is described respectively plant it is recessed It is mutually arranged in the described first sub- face and each plantation recess portion with the pre-determined distance respectively between second opening in portion Second opening between respectively between the mutually arranged second sub- face of the pre-determined distance, on the described first sub- face Each plantation recess portion second opening and each plantation recess portion on the described second sub- face described the The interlaced configuration respectively of two openings.

6. planting unit according to claim 5, which is characterized in that the first sub- face and the second sub- face are respectively One inclined-plane, and the first sub- face and the second sub- face are equipped with one between the horizontal plane where first connecting line respectively Angle.

7. planting unit according to claim 5, which is characterized in that the connection in the first sub- face and the second sub- face Place more forms a groove, and two ends of the groove extend to the another phase of the growing surface with the direction of parallel second connecting line To both sides.

8. planting unit according to claim 1, which is characterized in that each field planting disk further includes 2 second support portions, Each second support portion is connected with the another opposite sides of the growing surface respectively.

9. a kind of implant system, which is characterized in that including：

Duo Seed planting apparatus as described in claim 1, Ge mutually arranged , Suo Shu Seed planting apparatus of Seed planting apparatus it is described fixed Plant second opening of each plantation recess portion on the growing surface of disk and the field planting of the another Seed planting apparatus The interlaced configuration of second opening of each plantation recess portion on the growing surface of disk.

10. implant system according to claim 9, which is characterized in that the field planting disk of the planting unit it is described One of first sub- face and the second sub- face neighbour set first son of the field planting disk of another planting unit It is described various on described first sub- face of the field planting disk of one of face and the second sub- face , Suo Shu Seed planting apparatus It plants described various on the described second sub- face of second opening of recess portion and the field planting disk of another planting unit The the described second sub- face neighbour for planting the second interlaced configuration of opening of recess portion or the field planting disk of the planting unit sets Described first sub- face of the field planting disk of another planting unit, described the second of the field planting disk of the planting unit Described the first of second opening of each plantation recess portion on sub- face and the field planting disk of another planting unit The interlaced configuration of second opening of each plantation recess portion on sub- face.