CN203416667U - Plant cultivation device - Google Patents

Abstract

The utility model provides a plant cultivation device which enables the flux density of light quanta irradiating plants to be optimized according to the types of the plants and the growth conditions of the plants. The plant cultivation device comprises bearing and containing portions (2) and LED illumination devices, wherein each bearing and containing portion (2) is used for bearing and containing a cultivation groove where the plants are cultivated, each LED illumination device is arranged above the corresponding bearing and bearing portion (2), LED packages (12) are adopted for the LED illumination devices, and the LED packages (12) emit the light quanta with the flux density necessary for the growth of the plants in the cultivation grooves borne and contained in the bearing and containing portions (2). According to the plant cultivation device, a cultivation area (5) which is in a square shape when people look down from the top of the cultivation area is arranged above each bearing and containing portion (2) and located in the height position between the roots of the plants cultivated in the cultivation grooves and the leaves of the plants cultivated in the cultivation grooves. If the length of the left lateral side (5a) of each cultivation area (5) and the length of the right lateral side (5a) of each cultivation area (5) are L, the LED packages (12) accounting for 30% of all the LED packages (12) of the LED illumination devices are arranged above the belt-shaped portions (7,9) between straight lines (6,8) and the front lateral side and the rear lateral side (5b,5c), wherein points (PA, PB) located on the length portions, 0.3*L away from the front ends and the rear ends of the left lateral side (5a) and the right lateral side (5a), of each cultivation area (5) are connected to form the straight lines (6.8).

Description

Plant cultivating device

Technical field

The utility model only relates to the LED encapsulation that LED wafer is installed is used as light source, and such as the plant cultivating device using in plant factor, vegetable works, seedling nursing device etc.

In this specification and claims, by being called up and down up and down of Fig. 1.

Background technology

As the plant cultivating device as light source by artificial light, have: cultivating stand, this cultivating stand has the mounting portion that is implanted with cultivation of plants groove mounting for planting; With devices spaced apart be configured in the lighting device of the top of mounting portion, and be known to following lighting device, lighting device has: a plurality of straight pipe type external electrode fluorescent lamps that are arranged in parallel; And along the length direction devices spaced apart of external electrode fluorescent lamp be configured in a plurality of LED encapsulation between adjacent external electrode fluorescent lamp, compare the interval closeer (with reference to patent documentation 1) between the adjacent external electrode fluorescent lamp in one side of outside with the inner side of the orientation of external electrode fluorescent lamp.

But, according to the lighting device described in patent documentation 1, because used a plurality of external electrode fluorescent lamps, so power consumption cost uprises.In addition, for external electrode fluorescent lamp and LED, the life-span is different, and the life-span of external electrode fluorescent lamp is shorter than LED, therefore maintenance property step-down.

Patent documentation 1: TOHKEMY 2006-320314 communique

Utility model content

The purpose of this utility model is, address the above problem, provide a kind of and can make the light quantum flux density optimization of irradiating to plant according to the growth situation of the kind of plant and plant, and have and can reduce power consumption cost, and can improve the plant cultivating device of the lighting device of maintenance property.

The utility model to achieve these goals, and consists of following mode.

1) a kind of plant cultivating device, have for kind be implanted with a plurality of mounting portions of cultivation of plants groove mounting and devices spaced apart and be configured in the top of mounting portion and only the LED lighting device of LED encapsulation, described LED illumination encapsulation is sent loading in the necessary light quantum flux density of growth of the plant of the cultivating groove of mounting portion

Above mounting portion and loading on the root of the plant of planting in the cultivating groove of mounting portion and the height and position between leaf and have cultural area, plant is so that root expands to the downside of cultural area, and the mode that makes leaf be present in the upside of cultural area configures,

To link the each point of periphery of cultural area and the length of the straight line at center as L, by being positioned in described straight line between the line that links apart from the point of the length part of periphery 0.3 * L and described periphery, forming band-like portions, so that the mode that in all LED encapsulation of LED lighting device, the LED of 60% above quantity encapsulates the top of at least a portion that is positioned at described band-like portions configures LED, encapsulating.

2) above-mentioned 1) in described plant cultivating device, cultural area is square overlooking lower, using the length on two limits that are parallel to each other as L, to be positioned at apart from the some straight line connected to each other of the length part of length direction one end 0.3 * L on described two limits, and by the top of the band-like portions that form between limit connected to each other, the length direction one end on described two limits, and will be positioned at apart from the some straight line connected to each other of the length part of the length direction other end 0.3 * L on described two limits, and by the top of the band-like portions that form between the length direction other end on described two limits limit connected to each other, the LED that disposes respectively 30% above quantity in all LED encapsulation of LED lighting device encapsulates.

3) above-mentioned 2) in described plant cultivating device, be configured in the top of a side band-like portions in described two band-like portions LED encapsulation quantity and be configured in the total of quantity of the LED encapsulation of the top of the opposing party's band-like portions in described two band-like portions, become LED lighting device all LED encapsulation quantity 100%.

4) above-mentioned 2) or 3) in described plant cultivating device, be configured in the LED encapsulation of the top of a side band-like portions in described two band-like portions quantity, be configured in described two band-like portions in the quantity that encapsulates of the opposing party's the LED of top of band-like portions equate.

5) above-mentioned 2) to 4) in plant cultivating device described in any one, on the straight line extending at the length direction along described band-like portions, with devices spaced apart be arranged with a plurality of LED encapsulation mode form and have encapsulation row, above described two band-like portions, along the width devices spaced apart of band-like portions dispose a plurality of encapsulation row.

6), above-mentioned 5) in described plant cultivating device, the light of the LED encapsulation at the length direction two ends that are configured in band-like portions in described encapsulation row, arrives the length direction two ends of the band-like portions in described cultural area.

According to above-mentioned 1)～6) plant cultivating device, because have and only used the LED lighting device of LED encapsulation of the necessary light quantum flux density of growth sending for being positioned in the plant of the cultivating groove in mounting portion, so compare with the plant cultivating device described in thering is the patent documentation 1 that uses the lighting device have external electrode fluorescent lamp and LED encapsulation, can reduce power consumption cost, and improve maintenance property.

In addition, because will link the each point of periphery of cultural area and the length of the straight line at center as L, by being positioned in described straight line between the line that links apart from the point of the length part of periphery 0.3 * L and described periphery, forming band-like portions, so that configuring LED, the mode of top that in all LED of LED lighting device encapsulation, the LED encapsulation of 60% above quantity is positioned at least a portion of band-like portions encapsulates, so in order to ensure the necessary light quantum flux density of growth for being positioned in the plant of the cultivating groove in mounting portion, and used the LED of minimum necessary amount to encapsulate, on this basis, can make the light quantum flux density of sending to cultural area integral body become homogenising, and can reduce equipment cost and power consumption cost.

According to above-mentioned 2)～5) plant cultivating device, because cultural area is square overlooking lower, using the length on two limits that are parallel to each other as L, to be positioned at apart from the some straight line connected to each other of the length part of length direction one end 0.3 * L on described two limits, and by the top of the band-like portions that form between limit connected to each other, the length direction one end on described two limits, and will be positioned at apart from the some straight line connected to each other of the length part of the length direction other end 0.3 * L on described two limits, and by the top of the band-like portions that form between the length direction other end on described two limits limit connected to each other, dispose respectively the more than 30% LED encapsulation of quantity in all LED encapsulation of LED lighting device, so in order to ensure the necessary light quantum flux density of growth for being positioned in the plant of the cultivating groove in mounting portion, and used the LED of minimum necessary amount to encapsulate, on this basis, can make the light quantum flux density of sending to cultural area integral body in effect, become homogenising, and can reduce equipment cost and power consumption cost.

According to above-mentioned 6) plant cultivating device, can prevent from cultural area producing the scope that the light that sends from LED encapsulation can not arrive.

Accompanying drawing explanation

Fig. 1 means the front view that the summary of plant cultivating device of the present utility model forms.

Fig. 2 means that LED encapsulation is with respect to the figure of the configuration example of the cultural area of the plant cultivating device of Fig. 1.

Fig. 3 means the figure of the implementation method of the test example of carrying out in order to verify the effect of plant cultivating device of the present utility model and comparative test example.

Description of reference numerals

1 plant cultivating device

2 mounting portions

3 LED lighting devices

4 cultivating grooves

5 cultural areas

Limit, the 5a left and right sides

5b front side edge

5c back side edge

6,8 straight lines

7 front side band-like portions

9 rear side band-like portions

11 encapsulation row

12 LED encapsulation

Band-like portions in the middle of 13

Embodiment

Below, with reference to the accompanying drawings of embodiment of the present utility model.Present embodiment is useful in plant cultivating device of the present utility model in the water-cultivating of plant.

In the following description, the left and right of Fig. 2 and Fig. 3 is called to left and right, before the downside of Fig. 2 and Fig. 3 is called, after its opposition side is called.

In addition, in the following description, for " aluminium " this term, on the basis of situation that shows as " fine aluminium ", except fine aluminium, also comprise aluminium alloy.

Fig. 1 means that the integral body of plant cultivating device of the present utility model forms, and Fig. 2 and Fig. 3 represent the formation of its major part.

In Fig. 1, the LED lighting device 3 of the top that plant cultivating device 1 has a plurality of mounting portions 2 of supporting to devices spaced apart along the vertical direction by not shown pillar, be configured in to devices spaced apart each mounting portion 2 and supply with the feedway (diagram is slightly) of moisture and nutriment to the plant that is planted in vegetables in the cultivating groove 4 loading in mounting portion 2 etc.

Plant cultivating device 1 is above each mounting portion 2 and loading on the root and the height and position between leaf of the plant of planting in the cultivating groove 4 of mounting portion 2, there is cultural area 5, plant is so that root expands to the downside of cultural area, and the mode that makes leaf be present in the upside of cultural area configures.In the situation that the water-cultivating of this embodiment, the upside quilt cover 20 of cultivating groove 4 covers, though omitted diagram, but plant is supported parts carry, this support unit is disposed in the through hole being formed on cover 20, the root of plant expands to cover 20 downside, the stem of plant from cover 20 through hole by and to the top of cover 20, extend, leaf expands to the top of cover 20.And, at the upper surface that covers 20, have cultural area 5.

LED lighting device 3 has only used LED encapsulation, and this LED illumination encapsulation is sent for the necessary light quantum flux density of growth (in the following description, being simply called light quantity) that is positioned in the plant of the cultivating groove 4 in each mounting portion 2.In addition, except the mounting portion 2 of upper end, LED lighting device 3 is located in the mounting portion 2 that being positioned at top of each mounting portion 2, and for the mounting portion 2 of upper end, LED lighting device 3 arranges by suitable mechanism.And, to loading the plant of the vegetables etc. of the cultivating groove 4 in mounting portion 2, the light by LED lighting device 1 irradiation LED and supply with moisture and nutrient, and, by excessively managing being provided with the indoor temperature of plant cultivating device 1, impel plant growth and efficiently results.

As shown in Figure 2, the cultural area 5 of plant cultivating device 1 is viewed as along the long rectangle of left and right directions from overlooking.Using the length of two left and right sides limit 5a being parallel to each other of cultural area 5 as L, to be positioned at apart from the some PA straight line 6 connected to each other of the length part of length direction one end (front end) 0.3 * L of limit, left and right sides 5a, and by the top of the front side band-like portions 7 that form between the front side edge 5b connected to each other of length direction one end (front end) of limit, left and right sides 5a, and will be positioned at apart from the some PB straight line 8 connected to each other of the length part of the length direction other end (rear end) 0.3 * L of limit, left and right sides 5a, and by the top of the rear side band-like portions 9 that form between the length direction other end (rear end) of limit, left and right sides 5a back side edge 5c connected to each other, dispose respectively the more than 30% LED encapsulation of quantity in all LED encapsulation of LED lighting device 3.

In other words, to link the each point of periphery of cultural area 5 and the length of the straight line at center as L, by being positioned in above-mentioned straight line between the line that links apart from the point of the length part of periphery 0.3 * L and above-mentioned periphery, forming band-like portions, with be positioned at band-like portions at least a portion, be the mode of the top of front side band-like portions 7 and rear side band-like portions 9, two band-like portions 7,9 add up to the LED of 60% above quantity in all LED encapsulation of disposing LED lighting device 3 to encapsulate.

At this, as shown in Figure 3, on the straight line extending with the length direction (left and right directions) along two band-like portions 7,9, be arranged with to devices spaced apart the encapsulation row 11 that the mode of a plurality of LED encapsulation 12 forms, along width (fore-and-aft direction) devices spaced apart of two band-like portions 7,9 be configured in the top of two band-like portions 7,9.On each encapsulation row 11, dispose the LED encapsulation 12 that red LED wafer has been installed and the LED encapsulation 12 that blue led wafer has been installed, the red LED encapsulation 12 of for example disposing equal number between two adjacent blue led encapsulation 12.All encapsulation row 11 cover by having the cover 3a (with reference to Fig. 1) of light transmission.Though omitted diagram, can be also that each all LED encapsulation 11 that encapsulates row 11 is arranged on a basal disc, or a plurality of basal discs that a plurality of LED encapsulation 12 are installed configure side by side along left and right directions.As well-known, LED encapsulation 12 is provided with 1 or a plurality of LED wafer.

In addition, can be also, a plurality of LED encapsulation 12 be assembled in straight pipe type LED light fixture longer on left and right directions under the state being installed on basal disc, and the LED lighting device that makes to consist of a plurality of straight pipe type LED light fixtures is configured in the top of each mounting portion 2.And, can be also that the other forms of LED lamp that makes to have one or more LED encapsulation 12 is suitably arranged a plurality of, forms thus LED lighting device, and makes this LED lighting device be configured in the top of each mounting portion 2.

At this, be preferably, make to be configured in former and later two band-like portions 7, the quantity of the LED of the top of a side band-like portions encapsulation 12 in 9, with be configured in former and later two band-like portions 7, the total of the quantity of the LED of the top of the opposing party's band-like portions encapsulation 12 in 9, the all LED that become LED lighting device 3 encapsulate 100% of 12 quantity, and/and, make to be configured in former and later two band-like portions 7, the quantity of the LED of the top of a side band-like portions encapsulation 12 in 9, with be configured in former and later two band-like portions 7, in 9, the quantity of the LED of the top of the opposing party's band-like portions encapsulation 12 equates.And, being preferably, the LED that makes to be configured in the length direction two ends (two ends, left and right) of two band-like portions 7,9 encapsulates 12 light, arrives the length direction two ends of two band-like portions 7,9 in cultural area 5.

In addition, encapsulation row 11 can be also need in the whole width range of the fore-and-aft direction of former and later two band-like portions 7,9, not configure, and only in a part for this width, configure.For example, can be to be only configured in apart from the front side edge 5b of front side band-like portions 7 and to there is the part of 1/3 width or have in the part of 2/3 width.In addition, can be to be also only configured in apart from the back side edge 5c of rear side band-like portions 9 and to there is the part of 1/3 width or have in the part of 2/3 width.And, also can be, in cultural area 5 be formed on middle band-like portions 13 between two straight lines 6,8, be middle band-like portions 13 between front side band-like portions 7 and rear side band-like portions 9 above, configuration packages row 11, or also can not configure completely.In the situation that encapsulation row 11 be configured in the middle of band-like portions 13 above, the LED encapsulation 12 that in the middle of being configured in, the encapsulation row 11 of top of band-like portions 13 have is certainly not enough to all LED in LED lighting device 3 and encapsulates 40% of 12 quantity.

Below, with comparative test example, the test example of carrying out in order to verify the effect of plant cultivating device 1 of the present utility model is together described.

Test example and comparative test example

Using the length L of the fore-and-aft direction of limit, the left and right sides 5a of a cultural area 5 as 600mm, using the length L 1 of the left and right directions of front and back dual-side 5b, 5c as 1300mm.

In addition, prepare 20 row encapsulation row 11, and form LED lighting device 3 by these 20 encapsulation row 11 that are listed as, wherein, encapsulation row 11 make to be respectively provided with a red LED wafer (Zhao He electrician company system, HRP-350F) a 36 red LED encapsulation 12 and blue led wafer (Zhao He electrician company system is respectively installed, GH2GR450G) 12 blue led encapsulation 12, so that uniformly-spaced, blue led encapsulation 12 for making the mode of three red LED encapsulation 12 between adjacent blue led encapsulation 12 arrange point-blank.Red LED encapsulation 12 and blue led encapsulation 12 are along the long rectangle of left and right directions, the length of the fore-and-aft direction of left and right sides sheet 5a is 3mm, and the length of the left and right directions of front and back dual-side is 4mm, and, in each encapsulation row 11, as the spacing of the distance between centers of adjacent LED encapsulation 12, be 27mm.

And, on the height and position of 20cm above two band-like portions 7,9 of the front and back of cultural area 5, along fore-and-aft direction, equally spaced configure the encapsulation row 11 of right quantity or do not configure, and on the height and position of 20cm above middle strip-shaped members 13, along fore-and-aft direction, equally spaced configure the encapsulation row 11 of right quantity or do not configure, thus, to being configured in the quantity of the LED encapsulation 12 of front and back two band-like portions 7,9 of cultural area 5 and the top of middle band-like portions 13, carry out various changes.

In test example 1～4 and comparative test example 1, encapsulation row 11 are equally spaced configured in to the width (configuration condition 1) on the whole of fore-and-aft direction of front and back two band-like portions 7,9 of cultural area 5 along fore-and-aft direction.In test example 5～7 and comparative test example 2～3, the front side edge 5b apart from front side band-like portions 7 that encapsulation row 11 are equally spaced only configured in to cultural area 5 along fore-and-aft direction has the part of 2/3 width and apart from the back side edge 5c of rear side band-like portions 9, has in the part of 2/3 width (configuration condition 2).In test example 8～10 and comparative test example 4～5, the front side edge 5b apart from front side band-like portions 7 that encapsulation row 11 are equally spaced only configured in to cultural area 5 along fore-and-aft direction has the part of 1/3 width and apart from the back side edge 5c of rear side band-like portions 9, has in the part of 1/3 width (configuration condition 3).

In addition,, in test example 5～10 and comparative test example 2～5, between front side band-like portions 7 and middle band-like portions 13 and between rear side band-like portions 9 and middle band-like portions 13, have respectively the part that there is no up configuration packages row 11.

Now, so that above each band-like portions 7,9,13 along fore-and-aft direction the encapsulation row 11 of rear and front end in the encapsulation row 11 of adjacent encapsulation row 11 and configuration above the encapsulation row 11 of rear and front end and the front and back both side edges of each band-like portions 7,9,13, and compare the mode configuration packages row 11 that are positioned at inner side directly over the front and back both side edges of each band-like portions.In addition, the distance between the LED encapsulation 12 center at the two ends, left and right of each encapsulation row 11 and limit, the left and right sides 5a of pilot region is made as to 15.5mm.Table 1 represents to be configured in the quantity of encapsulation row 11 and the quantity of LED encapsulation 12 of front and back two band-like portions 7,9 of cultural area 5 and the top of middle band-like portions 13.

Table 1

In table 1, LED encapsulation quantitative proportion represents to be present in the quantity of the LED encapsulation 12 in each band-like portions 7,9,13 with respect to the ratio of the quantity of all LED encapsulation 12.

Under this state, by LED lighting device 3, irradiate cultural area 5, and measure the light quantity of 9 points (P1～P9) shown in Fig. 2, be the some P1 at two ends, left and right of the front side edge 5b of cultural area 5, the point P2 at the center of P3 and left and right directions, the point P4 at the center of the fore-and-aft direction of limit, left and right sides 5a, P6, the point P5 at whole center, point P7 with the two ends, left and right of back side edge 5c, the light quantity of the point P8 at the center of P9 and left and right directions, and obtain the average light quantity of 9 points (P1～P9), the light quantity of maximum amount and minimum amount of light is poor, and with average light quantity divided by the poor light quantity rate of light quantity.This result represents in table 2.

Table 2

From the result shown in table 2, dispose respectively LED lighting device 3 above the front side of cultural area 5 band-like portions 7 and rear side band-like portions 9 in, the LED of 30% above quantity of all LED encapsulation 12 encapsulates in 12 test example 1～10, above-mentioned light quantity rate is below 50%, makes the light quantity sent to cultural area 5 integral body homogenising effectively.With respect to this, in comparative test example 1～5, above-mentioned light quantity rate surpasses 90%, and the light quantity of sending to cultural area 5 integral body is inhomogeneous.

In the above-described embodiment, plant cultivating device is useful in the water-cultivating of plant, but is not limited to this, also can be useful in the soil cultivation of plant.In this case, planting is at the soil of putting into cultivating groove, and the native surface of cultivating groove, by covering lid, arranges cultural area on cover.In addition, also can cultural area be set on the native surface of cultivating groove.

Plant cultivating device of the present utility model is preferably used in the plant factor using LED lighting device as artificial light source, vegetable works, seedling nursing device etc.

Claims (6)

1. a plant cultivating device, it is characterized in that, have for kind be implanted with a plurality of mounting portions of cultivation of plants groove mounting and devices spaced apart and be configured in the top of mounting portion and only the LED lighting device of LED encapsulation, described LED encapsulation is sent loading in the necessary light quantum flux density of growth of the plant of the cultivating groove of mounting portion

Above mounting portion and loading on the root of the plant of planting in the cultivating groove of mounting portion and the height and position between leaf and have cultural area, plant is so that root expands to the downside of cultural area, and the mode that makes leaf be present in the upside of cultural area configures,

To link the each point of periphery of cultural area and the length of the straight line at center as L, by being positioned in described straight line between the line that links apart from the point of the length part of periphery 0.3 * L and described periphery, forming band-like portions, so that the mode that in all LED encapsulation of LED lighting device, the LED of 60% above quantity encapsulates the top of at least a portion that is positioned at described band-like portions configures described LED, encapsulating.

2. plant cultivating device according to claim 1, it is characterized in that, cultural area is square overlooking lower, using the length on two limits that are parallel to each other as L, to be positioned at apart from the some straight line connected to each other of the length part of length direction one end 0.3 * L on described two limits, and by the top of the band-like portions that form between limit connected to each other, the length direction one end on described two limits, and will be positioned at from the some straight line connected to each other of the length part of the length direction other end 0.3 * L on described two limits, and by the top of the band-like portions that form between the length direction other end on described two limits limit connected to each other, the LED that disposes respectively 30% above quantity in all LED encapsulation of LED lighting device encapsulates.

3. plant cultivating device according to claim 2, it is characterized in that, be configured in the top of a side band-like portions in described two band-like portions LED encapsulation quantity and be configured in the total of quantity of the LED encapsulation of the top of the opposing party's band-like portions in described two band-like portions, become LED lighting device all LED encapsulation quantity 100%.

4. according to the plant cultivating device described in claim 2 or 3, it is characterized in that, be configured in the LED encapsulation of the top of a side band-like portions in described two band-like portions quantity, be configured in described two band-like portions in the quantity that encapsulates of the opposing party's the LED of top of band-like portions equate.

5. according to the plant cultivating device described in any one in claim 2 to 4, it is characterized in that, on the straight line extending at the length direction along described band-like portions, with devices spaced apart be arranged with a plurality of LED encapsulation mode form and have encapsulation row, above described two band-like portions, along the width devices spaced apart of band-like portions dispose a plurality of encapsulation row.

6. plant cultivating device according to claim 5, is characterized in that, the light of the LED encapsulation at the length direction two ends that are configured in band-like portions in described encapsulation row arrives the length direction two ends of the band-like portions in described cultural area.

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