CN202979850U

CN202979850U - Soilless water culture vegetable frame

Info

Publication number: CN202979850U
Application number: CN2013200013106U
Authority: CN
Inventors: 吕兆龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-01-04
Filing date: 2013-01-04
Publication date: 2013-06-12
Anticipated expiration: 2023-01-04

Abstract

The utility model discloses a multi-layer soilless water culture vegetable frame. The multi-layer soilless water culture vegetable frame comprises multiple layers of vegetable culture media arranged longitudinally at intervals, a liquid storage pool, a liquid distributor and a water pump, wherein culture liquid in the liquid storage pool is sent into the liquid distributor at the top by the water pump via a conveying pipe and flows into opposite vegetable water culture utensils via overflow pipes, the culture liquid further flows into the lower vegetable water culture utensils from overflow holes of the upper vegetable water culture utensils, and the culture liquid is returned into the liquid storage pool via the overflow hole of the bottom vegetable water culture utensil. As the three-dimensional mode of the multiple layers of soilless water culture vegetable culture media is adopted, a fertilizer can be fully utilized, and land resources are greatly saved; particularly, the culture liquid adopts an open type laminar flow way, the problem that the still culture liquid is easy to rot is solved, the breeding of pathogenic bacteria can be effectively avoided, and the quantitative control on the culture liquid in the vegetable water culture utensils is realized so as to be more conductive to growth of vegetables; and compared with a traditional planting method, the yield is increased by multiple times.

Description

A kind of without native water planting vegetable frame

Technical field

The utility model relates to the shelf that a kind of planting vegetable is used, and specifically refers to a kind of without native water planting vegetable frame.

Background technology

Patent Office of the People's Republic of China discloses application (patent) number on October 5th, 2011 and has been CN201010135324.8, patent name is the patent of invention in the mini vegetable garden of soilless culture-combined water, the present invention relates to the growing vegetables field, is the utility model technology that a kind of portable obtains pollution-free vegetable.The technical scheme that its technical problem that solves the utility model adopts is: selected specific leaf, sprout as vegetable breeding are placed in custom-designed double-deck seedling dish.For containing the hypothallus of slow-release fertilizer, the centre is upper strata seedling dish grid to the seedling dish at the middle and upper levels, and lower floor is lower seedling dish water storage tray.Standby after the dry encapsulation process of seedling dish process sterilizing.When needed, pack as long as open, the indication of by specification, arrange and suitable occasion, regularly complete water spray and apply the nutrient solution operation, and clean bottom seedling dish according to vegetative period and the temperature of plant in good time, just can obtain free of contamination edible live body vegetables fully within the regular hour.The utility model is applicable to the balcony of urban family, nuisanceless leaf, sprout as vegetable production that garden, roof etc. are used by oneself on a small scale.There is following defective in above-mentioned patent documentation: the one, and the main regularly mode of artificial water spray that adopts if having high input the large-scale production operation, needs to drop into a large amount of manpowers, has virtually increased cost; The 2nd, at the middle and upper levels for containing the hypothallus of slow-release fertilizer, the centre is upper strata seedling dish grid due to the seedling dish, and lower floor is lower seedling dish water storage tray, this frame mode also enough rationally, too complicated, and to the use of seedling dish, also need through standby after the dry encapsulation process of sterilizing, virtually increase production cost; The 3rd, can not realize accurate quantitatively control to the culture fluid in the vegetable hydroponic vessel, in the process of artificial liquid feeding, the phenomenon of water can appear too much or cross, be unfavorable for the survival and growth of vegetables.

In addition, Patent Office of the People's Republic of China also discloses application (patent) number on August 22nd, 2012 and has been CN201120450661.6, and patent name is a kind of utility model patent that is applicable to the mini water planting vegetable growing device of household balcony.The utility model relates to a kind of mini water planting vegetable growing device that is applicable to household balcony.This hydroponic device comprises receiver, feed pipe, liquid back pipe, immersible pump, cultivation support and cultivation pipe network, immersible pump is placed in receiver, the cultivation support is arranged on receiver, consist of a supporting oblique surface, the cultivation pipe network is placed on the cultivation support, the cultivation pipe network by inlet be connected with feed pipe, liquid return hole is connected with liquid back pipe, the feed pipe other end is connected with receiver, the liquid back pipe other end is connected with receiver, and the cultivation pipe network is provided with several field planting holes.The utility model is three-dimensional vegetable growing device, effectively utilizes the space, can be placed on one jiao of household balcony, be fit to urban family and use, and the vegetables environmental protection of plantation, nuisanceless, simultaneously, also can be home environment and increase green, not only beautify but also practical.there is following defective in above-mentioned patent documentation: although also adopted fluid circulation system, but due to the feed liquid way that adopts sealing, not only easily grow germ, and because culture fluid can not fully contact with air, although also circulate, oxygen can not dissolve in culture fluid sufficiently, therefore be unfavorable in fact strengthening the vigor of vegetable root system, especially the mode that adopts the upper shed of cultivation pipe network to plant, and the cultivation pipe network of cultivation support forms supporting oblique surface, survival and growth not only bad for vegetables, and device is too heavy, floor space is relatively large, air resource is not fully utilized.In addition, this structure can only be for household use, can not carry out large-scale production.

Summary of the invention

In order to overcome above-mentioned deficiency, the purpose of this utility model be to provide a kind of save land resources and be conducive to the growth of vegetables and can carry out the large-scale production operation without native water planting vegetable frame.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is:

A kind of multiple field is without native water planting vegetable frame, include multilayer between the upper and lower every vegetables medium, liquid storage pool, knockout and water pump, multilayer vegetables medium is located at the top of liquid storage pool, knockout is located at the top of multilayer vegetables medium, every layer of vegetables medium is to be made of a plurality of vegetable hydroponic vessel, each vegetable hydroponic vessel is provided with spout hole, and knockout is provided with a plurality of overflow pipes, and each overflow pipe is corresponding with the vegetable hydroponic vessel of its below; Culture fluid in described liquid storage pool is sent into knockout by water pump through carrier pipe, flow into vegetable hydroponic vessel on the other side through each overflow pipe again, flowed into the vegetable hydroponic layer vessel of lower floor by the spout hole of the vegetable hydroponic vessel on upper strata, culture fluid returns to liquid storage pool through the spout hole of undermost vegetable hydroponic layer vessel again.

The vegetable hydroponic vessel of the described upper strata vegetables medium vegetable hydroponic vessel of adjacent lower floor's vegetables medium with it are interspersed, and in each layer vegetables medium, culture fluid flows into the vegetable hydroponic vessel of the odd number layer of lower floor through the vegetable hydroponic vessel of the odd number layer on upper strata, in like manner culture fluid flows into the vegetable hydroponic vessel of the even level of lower floor through the vegetable hydroponic vessel of the even level on upper strata.

Be electrically connected with the Intelligent Digital gauge tap on described water pump, described Intelligent Digital gauge tap can be set the working time of water pump and the intermittent time of water pump.

Described liquid storage pool is to hold by a plurality of circle, ellipse or the track type structure that the docking of liquid unit forms, and the vegetable hydroponic vessel of each layer are corresponding with the described liquid unit of holding; Described bottom of holding the interface at two ends, liquid unit is provided with installing hole and hollow bolt, and described hollow bolt interts in adjacent two installing holes that hold the liquid unit and fixes with nut, and each holds the liquid unit and is communicated with successively by hollow bolt.

Be respectively equipped with the vertical slot of indent on the described docking wall that holds two ends, liquid unit and double as the support bar of latch, the cross section of described support bar is to be made of two Plug Divisions, the body of rod of support bar is provided with limited block, and two Plug Divisions of support bar lower end are inserted in the adjacent relative vertical slot that holds the liquid unit; All be provided with the vertical groove of indent on the two side of the vegetable hydroponic vessel of described each layer, the vertical groove of undermost vegetable hydroponic vessel penetrates from the Plug Division of the upper end of described support bar, and make the vegetable hydroponic utensil support on described limited block, also be provided with the support bar that protrudes upward in the vertical groove of undermost vegetable hydroponic vessel, the vertical groove of the vegetable hydroponic vessel on upper strata interts on support bar and be supported on limited block, and the vegetable hydroponic vessel of each layer vegetables medium are all to peg graft by support bar to form.

The bottom surface of described vegetable hydroponic vessel is provided with described spout hole, on described bottom surface and be positioned at the groove that the side of spout hole is provided with to cultivate vegetables, described depth of groove is the degree of depth of culture fluid, on the bottom surface of described vegetable hydroponic vessel and the edge of close groove is provided with baffle plate, leave water stream channel on baffle plate, culture fluid on the bottom surface of inflow vegetable hydroponic vessel flows into groove through water stream channel, and unnecessary culture fluid is discharged through spout hole.

The spout hole place of described vegetable hydroponic vessel is provided with fair water cone, because the spout hole of the vegetable hydroponic vessel on upper strata is corresponding with the spout hole of the vegetable hydroponic vessel of lower floor, the effect of fair water cone is to depart from the spout hole of the vegetable hydroponic vessel of lower floor, guarantees that the culture fluid water conservancy diversion is in lower floor's vegetable hydroponic vessel.

The central part of described knockout bottom surface is provided with boss, and boss is provided with mozzle, and an end of described mozzle is connected with described carrier pipe; Be provided with a plurality of described overflow pipes along periphery on described knockout bottom surface.

The upper port of described mozzle is enlarging, and this structure can effectively be alleviated the pressure of current.

The upper port place of described mozzle is provided with drain cap, and this drain cap can prevent effectively that dust or foreign material from falling into mozzle, avoids clogging.

The beneficial effects of the utility model are: the three-dimensional pattern owing to adopting multiple field without native water planting vegetables medium, fertilizer is fully utilized, but and water planting go out the vegetables of environmental protection, and greatly saved land resources; Due to the pattern that adopts the culture fluid flow circuit, solved the easily problem of corruption of actionless culture fluid, thereby provide splendid growing environment to vegetables, especially culture fluid adopts the mode that open level flows, not only more can effectively avoid growing of germ, and due to fully the contacting of the culture fluid that circulates and atmosphere, make and contain sufficient oxygen in culture fluid, greatly strengthened the vigor of vegetable root system; In addition, level flows and combines with excessive overflow, the culture fluid in the vegetable hydroponic vessel is realized quantitatively controlling, thereby make the faster of vegetable growth; Because the vegetable hydroponic vessel between each layer are interlaced, even under less interfloor distance, do not affect daylighting yet; Owing to adopting the Intelligent Digital gauge tap, can automatically supply with culture fluid to each layer vegetable hydroponic vessel according to the intermittent time of the working time of setting water pump and water pump, greatly reduce the amount of labour, reduce production cost, and compare with traditional implantation methods, increase of production several times.

Description of drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is vertical view shown in Figure 1;

Fig. 3 is the structural representation in installation process shown in Figure 1;

Fig. 4 is the plan structure schematic diagram of vegetable hydroponic vessel shown in Figure 3;

Fig. 5 is the cutaway view along A-A line shown in Figure 4;

Fig. 6 is the plan structure schematic diagram of knockout shown in Figure 3;

Fig. 7 is the cutaway view along B-B line shown in Figure 6;

Fig. 8 is the plan structure schematic diagram that holds the liquid unit of liquid storage pool shown in Figure 3;

Fig. 9 is the cutaway view along C-C line shown in Figure 8;

Figure 10 is the adjacent installation diagram that holds the liquid unit shown in Figure 8;

Figure 11 is the structural representation of support bar shown in Figure 3;

Figure 12 is vertical view shown in Figure 11;

Figure 13 is the front structural representation of installation knockout of the utility model embodiment 2;

Figure 14 is the structural representation of liquid storage pool shown in Figure 13.

In figure: 1, vegetables medium; 2, liquid storage pool; 3, knockout; 4, water pump; 5, carrier pipe; 6, Intelligent Digital gauge tap; 7, spout hole; 8, groove; 9, baffle plate; 10, water stream channel; 11, boss; 12, mozzle; 13, drain cap; 14, vegetable hydroponic vessel; 15, overflow pipe; 16, hold the liquid unit; 17, installing hole; 18, hollow bolt; 19, nut; 20, vertical slot; 21, support bar; 22, Plug Division; 23, limited block; 24, vertical groove; 25, support bar; 26, limited block; 27, fair water cone.

Embodiment

embodiment 1: as Fig. 1, 2, 3, 4, shown in 5, a kind of multiple field is without native water planting vegetable frame, include multilayer between the upper and lower every vegetables medium 1, liquid storage pool 2, knockout 3, water pump 4, carrier pipe 5 and Intelligent Digital gauge tap 6, every layer of vegetables medium 1 is to be made of a plurality of vegetable hydroponic vessel 14, the bottom surface of described vegetable hydroponic vessel 14 is provided with spout hole 7, on described bottom surface and be positioned at the groove 8 that the side of spout hole 7 is provided with to cultivate vegetables, described groove 8 degree of depth are the degree of depth of culture fluid, on the bottom surface of vegetable hydroponic the vessel 14 and edge of close groove 8 is provided with baffle plate 9, baffle plate 9 is to be made of plurality of plates spaced apart, leave water stream channel 10 between plate and plate, culture fluid on the bottom surface of inflow vegetable hydroponic vessel flows into groove 8 through water stream channel, unnecessary culture fluid is discharged through spout hole 7.Multilayer vegetables medium 1 is located at the top of liquid storage pool 2, and knockout 3 is located at the top of multilayer vegetables medium 1.

As shown in Fig. 6,7, the central part of described knockout 3 bottom surfaces is provided with boss 11, and boss 11 is provided with mozzle 12, and the upper port of mozzle 12 is enlarging, and this structure can effectively be alleviated the pressure of current.The upper port place of described mozzle 12 is provided with drain cap 13, and this drain cap 13 can prevent effectively that dust or foreign material from falling into mozzle, avoids clogging.One end of described mozzle 12 is connected with described carrier pipe 5 one ends, water pump 4 in the other end of carrier pipe 5 and liquid storage pool 2 is connected, Intelligent Digital gauge tap 6 is electrically connected to water pump 4, and described Intelligent Digital gauge tap 6 can be set the working time of water pump and the intermittent time of water pump; Described knockout is provided with a plurality of overflow pipes 15 along periphery on 3 bottom surfaces, and each overflow pipe 15 is corresponding with the vegetable hydroponic vessel 14 of its below.

The vegetable hydroponic vessel 14 of the upper strata vegetables medium 1 vegetable hydroponic vessel 14 of adjacent lower floor's vegetables medium with it are interspersed, and in each layer vegetables medium, culture fluid flows into the vegetable hydroponic vessel 14 of the odd number layer of lower floor through the vegetable hydroponic vessel 14 of the odd number layer on upper strata, in like manner culture fluid flows into the vegetable hydroponic vessel of the even level of lower floor through the vegetable hydroponic vessel of the even level on upper strata, the vegetable hydroponic vessel that is to say the 1st, 3,5 layer are that the up and down is corresponding, and the vegetable hydroponic vessel of the 2nd, 4,6 layer are that the up and down is corresponding.

As shown in Fig. 3,8,9,10, liquid storage pool 2 is to hold by a plurality of the circular configuration that 16 docking of liquid unit form, and the vegetable hydroponic vessel 14 of each layer are corresponding with the described liquid unit 16 of holding; Described bottom of holding the interface at 16 two ends, liquid unit is provided with installing hole 17 and hollow bolt 18, described hollow bolt 18 interts in adjacent two installing holes 17 that hold liquid unit 16 and is fixing with nut 19, and each holds liquid unit 16 and is communicated with successively by hollow bolt 18.Hold the vertical slot 20 that is respectively equipped with indent on the docking wall at 16 two ends, liquid unit and the support bar 21 that doubles as latch.

as shown in Figure 11,12, the cross section of described support bar 21 is to be made of two Plug Divisions 22, and the body of rod of support bar 21 is provided with limited block 23, and two Plug Divisions 22 of support bar 21 lower ends are inserted in the adjacent relative vertical slot 20 that holds the liquid unit, all be provided with the vertical groove 24 of indent on the two side of the vegetable hydroponic vessel of described each layer, the vertical groove 24 of undermost vegetable hydroponic vessel penetrates from the Plug Division of the upper end of described support bar 21, and vegetable hydroponic vessel 14 are supported on described limited block 23, also be provided with the support bar 25 that protrudes upward in the vertical groove 24 of undermost vegetable hydroponic vessel 14, the vertical groove 24 of the vegetable hydroponic vessel 14 on upper strata interts on support bar 25 and be supported on limited block 26, by that analogy, the vegetable hydroponic vessel 14 of each layer vegetables medium are all to peg graft by support bar 25 to form.

as shown in Figure 3, culture fluid in described liquid storage pool 2 is sent into knockout 3 by water pump 4 through carrier pipe 5, flow into the vegetable hydroponic vessel 14 of ground floor on the other side and the vegetable hydroponic vessel 14 of the second layer through each overflow pipe 15 again, then, flow into the vegetable hydroponic layer vessel of the 3rd layer through the spout hole of the vegetable hydroponic vessel of ground floor, enter layer 5 by the 3rd laminar flow, flow at last the right liquid unit 16 that holds with it, in like manner, culture fluid flows into the 4th layer successively through the spout hole of the vegetable hydroponic vessel of the second layer, layer 6, until flow into corresponding with it bottommost hold the liquid unit, thereby formed the dynamic circulation of culture fluid, dynamic culture fluid circulation more is conducive to the growth of dish.

In addition, as shown in Figure 5, spout hole 7 places of described vegetable hydroponic vessel 14 are provided with fair water cone 27, and because the spout hole of the vegetable hydroponic vessel on upper strata is corresponding with the spout hole of the vegetable hydroponic vessel of lower floor, the effect that increases fair water cone is to guarantee that the culture fluid water conservancy diversion is in lower floor's vegetable hydroponic vessel; Certainly because the flow of culture fluid is little, culture fluid can not established fair water cone and can work yet along the spout hole inwall to dirty, and just the time of the dynamic circulation of culture fluid can be longer.

Embodiment 2, as shown in Figure 13,14, a kind of multiple field is basic identical without the structure of the structure of native water planting vegetable frame and embodiment 1, just total is not circular, every layer of vegetables medium 1 is to be made of a plurality of vegetable hydroponic vessel 14, and a plurality of vegetable hydroponic vessel 14 and liquid storage pool 2 a plurality of hold liquid unit 16 and enclose respectively and form the track type structure.

In a word; although the utility model has been enumerated above-mentioned preferred embodiment; but should illustrate; although those skilled in the art can carry out various variations and remodeling; unless such variation and remodeling have departed from scope of the present utility model, otherwise all should be included in protection domain of the present utility model.

Claims

1. a multiple field is without native water planting vegetable frame, it is characterized in that: it mainly contain multilayer between the upper and lower every vegetables medium, liquid storage pool, knockout and water pump consist of, multilayer vegetables medium is located at the top of liquid storage pool, knockout is located at the top of multilayer vegetables medium, every layer of vegetables medium is to be made of a plurality of vegetable hydroponic vessel, each vegetable hydroponic vessel is provided with spout hole, and knockout is provided with a plurality of overflow pipes, and each overflow pipe is corresponding with the vegetable hydroponic vessel of its below; Culture fluid in described liquid storage pool is sent into knockout by water pump through carrier pipe, flow into vegetable hydroponic vessel on the other side through each overflow pipe again, flowed into the vegetable hydroponic layer vessel of lower floor by the spout hole of the vegetable hydroponic vessel on upper strata, culture fluid returns to liquid storage pool through the spout hole of undermost vegetable hydroponic layer vessel again.

2. according to claim 1 without native water planting vegetable frame, it is characterized in that: the vegetable hydroponic vessel of the described upper strata vegetables medium vegetable hydroponic vessel of adjacent lower floor's vegetables medium with it are interspersed, and in each layer vegetables medium, culture fluid flows into the vegetable hydroponic vessel of the odd number layer of lower floor through the vegetable hydroponic vessel of the odd number layer on upper strata, in like manner culture fluid flows into the vegetable hydroponic vessel of the even level of lower floor through the vegetable hydroponic vessel of the even level on upper strata.

3. according to claim 1 and 2 without native water planting vegetable frame, it is characterized in that: be electrically connected with the Intelligent Digital gauge tap on described water pump, described Intelligent Digital gauge tap can be set the working time of water pump and the intermittent time of water pump.

4. according to claim 3 without native water planting vegetable frame, it is characterized in that: described liquid storage pool is to hold by a plurality of circle, ellipse or the track type structure that the docking of liquid unit forms, and the vegetable hydroponic vessel of each layer are corresponding with the described liquid unit of holding; Described bottom of holding the interface at two ends, liquid unit is provided with installing hole and hollow bolt, and described hollow bolt interts in adjacent two installing holes that hold the liquid unit and fixes with nut, and each holds the liquid unit and is communicated with successively by hollow bolt.

5. according to claim 4 without native water planting vegetable frame, it is characterized in that: be respectively equipped with the vertical slot of indent on the described docking wall that holds two ends, liquid unit and double as the support bar of latch, the cross section of described support bar is to be made of two Plug Divisions, the body of rod of support bar is provided with limited block, and two Plug Divisions of support bar lower end are inserted in the adjacent relative vertical slot that holds the liquid unit; All be provided with the vertical groove of indent on the two side of the vegetable hydroponic vessel of described each layer, the vertical groove of undermost vegetable hydroponic vessel penetrates from the Plug Division of the upper end of described support bar, and make the vegetable hydroponic utensil support on described limited block, also be provided with the support bar that protrudes upward in the vertical groove of undermost vegetable hydroponic vessel, the vertical groove of the vegetable hydroponic vessel on upper strata interts on support bar and be supported on limited block, and the vegetable hydroponic vessel of each layer vegetables medium are all to peg graft by support bar to form.

6. according to claim 1 without native water planting vegetable frame, it is characterized in that: the bottom surface of described vegetable hydroponic vessel is provided with described spout hole, on described bottom surface and be positioned at the groove that the side of spout hole is provided with to cultivate vegetables, described depth of groove is the degree of depth of culture fluid, on the bottom surface of described vegetable hydroponic vessel and the edge of close groove is provided with baffle plate, leave water stream channel on baffle plate, culture fluid on the bottom surface of inflow vegetable hydroponic vessel flows into groove through water stream channel, and unnecessary culture fluid is discharged through spout hole.

7. according to claim 6 without native water planting vegetable frame, it is characterized in that: the spout hole place of described vegetable hydroponic vessel is provided with fair water cone.

8. according to claim 1 without native water planting vegetable frame, it is characterized in that: the central part of described knockout bottom surface is provided with boss, and boss is provided with mozzle, and an end of described mozzle is connected with described carrier pipe; Be provided with a plurality of described overflow pipes along periphery on described knockout bottom surface.

9. according to claim 8 without native water planting vegetable frame, it is characterized in that: the upper port of described mozzle is enlarging.

10. according to claim 8 without native water planting vegetable frame, it is characterized in that: the upper port place of described mozzle is provided with drain cap.