CN203505181U - Planting bed combined structure for high-density indoor planting - Google Patents
Planting bed combined structure for high-density indoor planting Download PDFInfo
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- CN203505181U CN203505181U CN201320697847.0U CN201320697847U CN203505181U CN 203505181 U CN203505181 U CN 203505181U CN 201320697847 U CN201320697847 U CN 201320697847U CN 203505181 U CN203505181 U CN 203505181U
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- plantation
- planting
- conservancy diversion
- water conservancy
- plant
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Abstract
The utility model discloses a planting bed combined structure for high-density indoor planting. The planting bed combined structure comprises a planting flume body and a planting floating plate; a diversion flume adopts an S-shaped structure, and is connected with an injection opening and an overflow opening; planting holes are formed at intervals sequentially in the extension direction of the diversion flume; the height, relative to the bottom surface of the diversion flume, of the injection opening is larger than that, relative to the bottom surface of the diversion flume, of the overflow opening; a nutrient solution flows in the direction of the diversion flume; after continuous injection of the nutrient solution is performed for a period, the concentration of the nutrient solution can be uniformly distributed below each planting hole, so that each plant can uniformly and sufficiently absorb the nutrient solution and liquid substances, growth rate and size consistency of plants can be ensured, and a stable control mode is provided for indoor planting. At each growing stage of each plant, required nutrients are relatively different, therefore according to the design, a continuous water circulation method is adopted to reduce residual nutrients and filter unnecessary substances before nutrient conversion at each stage or edible plant harvest.
Description
Technical field
The utility model relates to indoor field of planting technology, refers in particular to the implant bed combining structure of the indoor plantation of a kind of high density.
Background technology
Continuous progress and development along with science and technology, each Plants is slowly moved into indoor plantation by original soil kind vegetation, thereby there is increasing plant factor, these plant factors can carry out high-density planting, utilize various science and technology can nurture vegetables, fruit, flowers of various anti-season etc., to meet people in the different demands of Various Seasonal, thereby provide great convenience for meeting people's material requisite.
Indoor plantation adopts layer frame can realize high-density planting mostly, on layer frame, be placed with the plantation cell body for planting plants, yet, existing water cultivation or soil plantation are planted cell body design and are planted bed without groove diversion Design collocation water cultivation floating bed or soil, cause nutrient solution concentration cannot be evenly distributed to the root of every plant, make the speed of plant growth and size have obvious difference; And nutrient solution surface oil slick or impurity cannot be discharged and be filtered smoothly, the injecting gas that also cannot pressurize during feed flow activation nutrient solution or liquid, thus make troubles to indoor plantation.
Utility model content
In view of this, the utility model is for the disappearance of prior art existence, its main purpose is to provide the implant bed combining structure of the indoor plantation of a kind of high density, and it can effectively solve existing plantation cell body and nutrient solution concentration cannot be evenly distributed to the root of every plant and nutrient solution surface oil slick or impurity and cannot be discharged smoothly the problem of filtering.
For achieving the above object, the utility model adopts following technical scheme:
An implant bed combining structure for the indoor plantation of high density, includes plantation cell body and plantation kickboard; On this plantation cell body, be provided with inlet and overfall, in this plantation cell body, be provided with water conservancy diversion groove, this water conservancy diversion groove is roundabout S type structure, the input of water conservancy diversion groove connects inlet, the output of water conservancy diversion groove connects overfall, and the height of the relative curb groove bottom of inlet is greater than the height of the relative curb groove bottom of overfall; This plantation kickboard is covered in the top of plantation cell body, and plantation has a plurality of kinds of plant holes in kickboard, and the direction that the plurality of kind of plant hole extends along water conservancy diversion groove is intervally arranged successively, and each plant hole bottom is all over against stretching in water conservancy diversion groove.
As a kind of preferred version, described plantation cell body includes pedestal and a plurality of flow apron, this pedestal has cavity, and aforementioned inlet and overfall are arranged on pedestal, and the plurality of flow apron spaced and parallel is arranged in cavity and jointly encloses and be configured to aforementioned water conservancy diversion groove with the inwall of cavity.
As a kind of preferred version, the bottom surface of described plantation kickboard is concaved with draw-in groove, and the top card of flow apron is loaded in draw-in groove.
As a kind of preferred version, described each plant hole is all the pyramid structure of back taper.
As a kind of preferred version, described each plant hole has included water accepting layer, culture layer, fill stratum and spare level, and this water accepting layer, culture layer, fill stratum and spare level stack from lower to upper successively.
As a kind of preferred version, described culture layer is foam or the cloth cotton of weaving cotton cloth.
The utility model compared with prior art has obvious advantage and beneficial effect, particularly, and as shown from the above technical solution:
By be provided with water conservancy diversion groove in planting cell body, utilize water conservancy diversion groove to be roundabout S type structure, and connect inlet and overfall, the direction that simultaneously coordinates kind of plant hole to extend along water conservancy diversion groove is intervally arranged successively and the height of the relative curb groove bottom of inlet is greater than the height of the relative curb groove bottom of overfall, nutrient solution flows along water conservancy diversion groove direction, when continuing to inject nutrient solution, after a period of time, can make concentration be uniformly distributed the below of each kind of plant hole, and make unnecessary nutrient solution be communicated with foreign matter impurity discharge overfall reflux and filter, so, every plant can evenly fully absorb nutrient solution and liquid, guarantee plant growth rate and in the same size, and the injecting gas that can pressurize during feed flow activation nutrient solution or liquid, thereby bring stable control mode to indoor plantation.In each stage of every plant growth, required nutrient is also relatively different, can be before each phase transition nutrient or before edible class plant gathers by this design, and use and continue water-cycling mode to reduce residual nutrient and to filter unwanted material.
For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is elaborated.
Accompanying drawing explanation
Fig. 1 is the overall structure sectional view of the preferred embodiment of the utility model;
Fig. 2 plants the enlarged diagram of cell body in the preferred embodiment of the utility model;
Fig. 3 plants the enlarged diagram of kickboard in the preferred embodiment of the utility model;
Fig. 4 plants the enlarged diagram of plant hole in the preferred embodiment of the utility model.
Accompanying drawing identifier declaration:
10, plantation cell body 11, pedestal
12, flow apron 101, inlet
102, overfall 103, water conservancy diversion groove
20, plantation kickboard 21, kind plant hole
211, water accepting layer 212, culture layer
213, fill stratum 214, spare level
201, draw-in groove.
Embodiment
Please refer to shown in Fig. 1 to Fig. 4, the concrete structure that it has demonstrated the preferred embodiment of the utility model, includes plantation cell body 10 and plantation kickboard 20.
Wherein, as shown in Figure 2, on this plantation cell body 10, be provided with inlet 101 and overfall 102, in this plantation cell body 10, be provided with water conservancy diversion groove 103, this water conservancy diversion groove 103 is roundabout S type structure, the input of water conservancy diversion groove 103 connects inlet 101, the output of water conservancy diversion groove 103 connects overfall 102, and the height of inlet 101 relative water conservancy diversion groove 103 bottom surfaces is greater than the height of overfall 102 relative water conservancy diversion groove 103 bottom surfaces, and the height of overfall 102 can be with the difference adjustment of kind of plant, when planting soil is planted thing when water level nutrient solution is given absorption saturated completely by soil after, overfall 102 can be opened completely, in case planting in plant root long period of soaking water, soil rots, so, nutrient solution flows along water conservancy diversion groove 103 directions, when continuing to inject nutrient solution, can make concentration be uniformly distributed on each position of water conservancy diversion groove 103 after a period of time, and make unnecessary nutrient solution be communicated with foreign matter impurity discharge overfall 102, water conservancy diversion groove 103 can carry out on demand size increase and decrease and adjust.And, particularly, in the present embodiment, this plantation cell body 10 includes pedestal 11 and a plurality of flow apron 12, this pedestal 11 has cavity, aforementioned inlet 101 and overfall 102 are arranged on pedestal 11, and the plurality of flow apron 12 spaced and parallel are arranged in cavity and jointly enclose and be configured to aforementioned water conservancy diversion groove 103 with the inwall of cavity.
This plantation kickboard 20 is covered in the top of plantation cell body 10, as shown in Figure 3, plantation has a plurality of kinds of plant holes 21 in kickboard 20, and the direction that the plurality of kind of plant hole 21 extends along water conservancy diversion groove 103 is intervally arranged successively, and each plant hole 21 bottom is all over against stretching in water conservancy diversion groove 103.And the bottom surface of this plantation kickboard 20 is concaved with draw-in groove 201, the top card of aforementioned flow apron 12 is loaded in draw-in groove 201, forms closely sealed bed group structure.
And as shown in Figure 1 and Figure 4, this each plant hole 21 is all the pyramid structure of back taper, between each stratum, because can making the various culture mediums of planting, the section of being designed with difference is able to firmly.So design is planted applicable to water plantation or soil plantation is planted two kinds of modes and all can be used, be different from and make water plant completely or the plantation of benzvalene form soil is planted.This each plant hole 21 has included water accepting layer 211, culture layer 212, fill stratum 213 and spare level 214, this water accepting layer 211, culture layer 212, fill stratum 213 and spare level 214 stack from lower to upper successively, can add on demand plantation required medium, mineral and fertilizer in required lamination; This culture layer 212 all can be used for the weave cotton cloth material of cotton or other form of foam, cloth, in order to plantling implantation and intercept native sand material landing to planting in cell body 10; This fill stratum 213 be used in when soil is planted thing, banket with or water plant fixedly implantation use of plantling; This spare level 214, for increasing the amount of banketing or fixed support plant bottom, is avoided the weight of plant own to cause and is toppled over.
In addition, it should be noted that: the utility model is designed to the whole group of closely sealed design of formula, and can change thickness or laminated height and the quantity of plantation kickboard 20 and cooperatively interact with the height of flow apron 12 according to kind of plant, therefore can't become again plug-back to overflow the problem of planting groove during nutrient solution water conservancy diversion.
The course of work that the present embodiment is described in detail in detail is as follows:
During use, plantation kickboard 20 is installed on plantation cell body 10, and by planting on various plant holes 21, from inlet 101 toward the inner nutrient solution of injecting of plantation cell body 10, nutrient solution flows along water conservancy diversion groove 103 directions, when continuing to inject nutrient solution, can make concentration be uniformly distributed the below of each kind of plant hole 21 after a period of time, and makes unnecessary nutrient solution be communicated with foreign matter impurity discharge overfall 102, every plant can evenly fully absorb nutrient solution, makes plant growth rate and in the same size.
Design focal point of the present utility model is: by be provided with water conservancy diversion groove in planting cell body, utilize water conservancy diversion groove to be roundabout S type structure, and connect inlet and overfall, the direction that simultaneously coordinates kind of plant hole to extend along water conservancy diversion groove is intervally arranged successively and the height of the relative curb groove bottom of inlet is greater than the height of the relative curb groove bottom of overfall, nutrient solution flows along water conservancy diversion groove direction, when continuing to inject nutrient solution, after a period of time, can make concentration be uniformly distributed the below of each kind of plant hole, and make unnecessary nutrient solution be communicated with foreign matter impurity discharge overfall reflux and filter, so, every plant can evenly fully absorb nutrient solution and liquid, guarantee plant growth rate and in the same size, and the injecting gas that can pressurize during feed flow activation nutrient solution or liquid, thereby bring stable control mode to indoor plantation.In each stage of every plant growth, required nutrient is also relatively different, can be before each phase transition nutrient or before edible class plant gathers by this design, and use and continue water-cycling mode to reduce residual nutrient and to filter unwanted material.
The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore any trickle modification, equivalent variations and modification that every foundation technical spirit of the present utility model is done above embodiment, all still belong in the scope of technical solutions of the utility model.
Claims (6)
1. an implant bed combining structure for the indoor plantation of high density, is characterized in that: include plantation cell body and plantation kickboard; On this plantation cell body, be provided with inlet and overfall, in this plantation cell body, be provided with water conservancy diversion groove, this water conservancy diversion groove is roundabout S type structure, the input of water conservancy diversion groove connects inlet, the output of water conservancy diversion groove connects overfall, and the height of the relative curb groove bottom of inlet is greater than the height of the relative curb groove bottom of overfall; This plantation kickboard is covered in the top of plantation cell body, and plantation has a plurality of kinds of plant holes in kickboard, and the direction that the plurality of kind of plant hole extends along water conservancy diversion groove is intervally arranged successively, and each plant hole bottom is all over against stretching in water conservancy diversion groove.
2. the implant bed combining structure of the indoor plantation of a kind of high density according to claim 1, it is characterized in that: described plantation cell body includes pedestal and a plurality of flow apron, this pedestal has cavity, aforementioned inlet and overfall are arranged on pedestal, and the plurality of flow apron spaced and parallel is arranged in cavity and jointly encloses and be configured to aforementioned water conservancy diversion groove with the inwall of cavity.
3. the implant bed combining structure of the indoor plantation of a kind of high density according to claim 2, is characterized in that: the bottom surface of described plantation kickboard is concaved with draw-in groove, and the top card of flow apron is loaded in draw-in groove.
4. the implant bed combining structure of the indoor plantation of a kind of high density according to claim 1, is characterized in that: described each plant hole is all the pyramid structure of back taper.
5. the implant bed combining structure of the indoor plantation of a kind of high density according to claim 4, it is characterized in that: described each plant hole has included water accepting layer, culture layer, fill stratum and spare level, and this water accepting layer, culture layer, fill stratum and spare level stack from lower to upper successively.
6. the implant bed combining structure of the indoor plantation of a kind of high density according to claim 5, is characterized in that: described culture layer is foam or the cloth cotton of weaving cotton cloth.
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CN201320697847.0U CN203505181U (en) | 2013-11-07 | 2013-11-07 | Planting bed combined structure for high-density indoor planting |
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CN201320697847.0U CN203505181U (en) | 2013-11-07 | 2013-11-07 | Planting bed combined structure for high-density indoor planting |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103749186A (en) * | 2013-11-07 | 2014-04-30 | 梁振成 | Planting bed composite structure for high-density indoor planting |
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2013
- 2013-11-07 CN CN201320697847.0U patent/CN203505181U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103749186A (en) * | 2013-11-07 | 2014-04-30 | 梁振成 | Planting bed composite structure for high-density indoor planting |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140402 Effective date of abandoning: 20160420 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |