CN206744097U - A kind of elaeagnus mollis cultivates automatic irrigation device - Google Patents
A kind of elaeagnus mollis cultivates automatic irrigation device Download PDFInfo
- Publication number
- CN206744097U CN206744097U CN201720198716.6U CN201720198716U CN206744097U CN 206744097 U CN206744097 U CN 206744097U CN 201720198716 U CN201720198716 U CN 201720198716U CN 206744097 U CN206744097 U CN 206744097U
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- CN
- China
- Prior art keywords
- soil
- fountain head
- elaeagnus mollis
- control valve
- pipe
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses a kind of elaeagnus mollis to cultivate automatic irrigation device, including horizontal water-supply-pipe, the inside of the horizontal water-supply-pipe is provided with the first one-way control valve, the bottom of the horizontal water-supply-pipe is connected with the first soil fountain head and the second soil fountain head respectively by the first vertical communicating pipe and the second vertical communicating pipe, and the inside of the first soil fountain head and the second soil fountain head is mounted on moisture detector.In the utility model, mesh Water outlet is installed in the top that elaeagnus mollis is cultivated first, and fountain head is installed in the soil that elaeagnus mollis is cultivated, mesh Water outlet is watered for elaeagnus mollis seedling top layer soil, and fountain head elaeagnus mollis seedling is obtained and watered inside soil, and while watering, the reaction force acted on due to water on soil, so that soil produces the loosening of mobile degree, so as to avoid soil caking phenomenon from occurring, the growth result of elaeagnus mollis is more preferable.
Description
Technical field
Irrigation rig technical field is the utility model is related to, more particularly to a kind of elaeagnus mollis cultivates automatic irrigation device.
Background technology
The technical measures of moisture needed for trees are supplemented for ground.In order to ensure trees normal growth, stable high yield is obtained, it is necessary to
Trees are supplied with the moisture of abundance.Under field conditions (factors), it is often uneven because of precipitation deficit or distribution, it is impossible to meet trees
To moisture requirement.Therefore, it is necessary to artificially irrigated, to mend the deficiency of natural rainfall.Irrigate, that is, use irrigated land.Irrigate former
It is then to be fitted depending on trees water-requiring property, growing stage, weather, edaphic condition irrigation volume, irrigation frequency and time
When, appropriate, Rational Irrigation.
But existing elaeagnus mollis cultivates automatic irrigation device in use there is in place of some shortcomings, for
The irrigation of elaeagnus mollis seedling, irrigated only for the soil of earth's surface, the soil of earth's surface can be caused to lump over time, so as to
It is hardened so that the growth retardation of elaeagnus mollis seedling, the quality decline of trees.
Utility model content
The purpose of this utility model is and a kind of elaeagnus mollis training proposed in order to solve shortcoming present in prior art
Educate automatic irrigation device.
To achieve these goals, the utility model employs following technical scheme:A kind of elaeagnus mollis cultivates automatic fill
Device, including horizontal water-supply-pipe are irrigate, the inside of the horizontal water-supply-pipe is provided with the first one-way control valve, the horizontal water-supply-pipe
Bottom by the first vertical communicating pipe and the second vertical communicating pipe respectively with the first soil fountain head and the second soil fountain head
Connection, and mesh Water outlet is welded with the first vertical communicating pipe and the second vertical communicating pipe, mesh Water outlet is located at soil
The top of layer, the second one-way control valve is installed above the mesh Water outlet, and the is provided with below mesh Water outlet
The inside of three one-way control valves, the first soil fountain head and the second soil fountain head is mounted on moisture detector, described
Second one-way control valve, the 3rd one-way control valve and the first one-way control valve input and control room output end are connected by LAN
Connect, the moisture detector output end is connected with control room input by LAN, at the control room and the control of AVR centers
Manage device to be electrically connected with, the AVR central control processors input is electrically connected with regulation button output end.
As further describing for above-mentioned technical proposal:
The bottom of the first soil fountain head and the second soil fountain head is mounted on soil dividing plate.
As further describing for above-mentioned technical proposal:
The AVR central control processors output end is electrically connected with information memory input.
As further describing for above-mentioned technical proposal:
The first soil fountain head and the second soil fountain head are at the same horizontal position.
As further describing for above-mentioned technical proposal:
AVR central control processors, information memory and the regulation button are respectively positioned on the inside of control room.
In the utility model, mesh Water outlet is installed in the top on elaeagnus mollis garden ground first, and in elaeagnus mollis
Fountain head is installed, mesh Water outlet waters for elaeagnus mollis seedling top layer soil, and fountain head wing in the soil of cultivation
Fruit oil tree is watered inside soil, and while watering, the reaction force that is acted on due to water on soil so that soil
Ground produces the loosening of mobile degree, and so as to avoid soil caking phenomenon from occurring, the growth result of elaeagnus mollis is more preferable, is secondly spraying
The moisture detector of soil is additionally provided with head, is detected for the humidity in soil, when humidity reaches detected value, unidirectionally
Control valve can start, and be irrigated, and so as to accomplish to automatically adjust irrigation, and the time irrigated can be recorded, so as to
Supported for the culture and improvement data in later stage.
Brief description of the drawings
Fig. 1 be the utility model proposes a kind of elaeagnus mollis cultivate automatic irrigation device structural representation;
Fig. 2 be the utility model proposes a kind of elaeagnus mollis cultivate automatic irrigation device FB(flow block).
Marginal data:
The horizontal water-supply-pipes of 1-, the one-way control valves of 2- second, 3- mesh Water outlet, the one-way control valves of 4- the 3rd, 5- soil horizons,
First vertical communicating pipes of 6-, the first soil of 7- fountain head, 8- moisture detectors, 9- soil dividing plate, the one-way control valves of 10- first,
Second vertical communicating pipes of 11-, the second soil of 12- fountain head, 13- control rooms, 14-AVR central control processors, the storage of 15- information
Storage, 16- regulation buttons.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.
Reference picture 1-2, a kind of elaeagnus mollis cultivate automatic irrigation device, including horizontal water-supply-pipe 1, horizontal water-supply-pipe 1
Inside is provided with the first one-way control valve 10, and the bottom of horizontal water-supply-pipe 1 is connected vertically by the first vertical communicating pipe 6 with second
Pipe 11 is connected with the first soil fountain head 7 and the second soil fountain head 12 respectively, and the first vertical communicating pipe 6 and second connected vertically
Mesh Water outlet 3 is welded with siphunculus 11, mesh Water outlet 3 is located at the top of soil horizon 5, the top peace of mesh Water outlet 3
Equipped with the second one-way control valve 2, and the lower section of mesh Water outlet 3 is provided with the 3rd one-way control valve 4, the first soil fountain head 7
Moisture detector 8, the second one-way control valve 2, the and of the 3rd one-way control valve 4 are mounted on the inside of the second soil fountain head 12
The input of first one-way control valve 10 is connected with the output end of control room 13 by LAN, the output end of moisture detector 8 and control
The input of room 13 is connected by LAN, and control room 13 and AVR central control processors 14 are electrically connected with, at the control of AVR centers
The input of device 14 is managed to be electrically connected with the output end of regulation button 16.
The bottom of first soil fountain head 7 and the second soil fountain head 12 is mounted on soil dividing plate 9.
The output end of AVR central control processors 14 is electrically connected with the input of information memory 15.
First soil fountain head 7 and the second soil fountain head 12 are at the same horizontal position.
AVR central control processors 14, information memory 15 and regulation button 16 are respectively positioned on the inside of control room 13.
Horizontal water-supply-pipe 1, the first vertical 6 and second vertical communicating pipe 11 of communicating pipe are used to convey water, the second unidirectional control
Valve 2, the 3rd one-way control valve 4 and the first one-way control valve 10 processed are used to control the unlatching of water and closure, mesh Water outlet 3 to use
To be irrigated in for earth's surface, the first soil fountain head 7 and the second soil fountain head 12 are used to irrigate inside ground to be irrigated,
Moisture detector 8 is used for the humidity for detecting soil, and control room 13 is used to receiving and sending information, AVR central control processors 14
For processing information, information memory 15 is used to store information, and regulation button 16 is used to adjust the second one-way control valve the 2, the 3rd
The unlatching of the one-way control valve 10 of one-way control valve 4 and first and closure.
Operation principle:In use, moisture detector 8 detects to the humidity in soil, when reaching the numerical value that has set
Afterwards, horizontal water-supply-pipe 1 is passed through water, opens the first one-way control valve 10 so that the first vertical communicating pipe 6 and second connected vertically
Water is flowed into siphunculus 11, opens the second one-way control valve 2, the 3rd one-way control valve 4 is closed, i.e., can cause mesh Water outlet 3
Water is sprayed, is irrigated for the earth's surface on elaeagnus mollis garden ground, when the second one-way control valve 2 of opening and the 3rd one-way control valve 4
When, the first soil fountain head 7 and the second soil fountain head 12 can be caused to spray water, due to reaction force while irrigating
Influence, it is a certain degree of loose make it that soil occurs, so that the growth result of elaeagnus mollis is more preferable, the time of irrigation is equal
It can be recorded in the information memory 15 in control room 13, the culture hence for elaeagnus mollis provides Data safeguard.
It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (5)
1. a kind of elaeagnus mollis seedling field automatic irrigation device, including horizontal water-supply-pipe(1), it is characterised in that the horizontal water delivery
Pipe(1)Inside the first one-way control valve is installed(10), the horizontal water-supply-pipe(1)Bottom passed through for the first vertical communicating pipe
(6)With the second vertical communicating pipe(11)Respectively with the first soil fountain head(7)With the second soil fountain head(12)Connection, and first
Vertical communicating pipe(6)With the second vertical communicating pipe(11)On be welded with mesh Water outlet(3), mesh Water outlet(3)Positioned at soil
Earth layer(5)Top, the mesh Water outlet(3)Top the second one-way control valve is installed(2), and mesh Water outlet(3)
Lower section the 3rd one-way control valve is installed(4), the first soil fountain head(7)With the second soil fountain head(12)Inside
It is mounted on moisture detector(8), second one-way control valve(2), the 3rd one-way control valve(4)With the first one-way control valve
(10)Input and control room(13)Output end is connected by LAN, the moisture detector(8)Output end and control room
(13)Input is connected by LAN, the control room(13)With AVR central control processors(14)It is electrically connected with, it is described
AVR central control processors(14)Input and regulation button(16)Output end is electrically connected with.
A kind of 2. elaeagnus mollis seedling field automatic irrigation device according to claim 1, it is characterised in that first soil
Fountain head(7)With the second soil fountain head(12)Bottom be mounted on soil dividing plate(9).
A kind of 3. elaeagnus mollis seedling field automatic irrigation device according to claim 1, it is characterised in that the AVR centers
Control processor(14)Output end and information memory(15)Input is electrically connected with.
A kind of 4. elaeagnus mollis seedling field automatic irrigation device according to claim 1, it is characterised in that first soil
Fountain head(7)With the second soil fountain head(12)It is at the same horizontal position.
A kind of 5. elaeagnus mollis seedling field automatic irrigation device according to claim 1, it is characterised in that the AVR centers
Control processor(14), information memory(15)And regulation button(16)It is respectively positioned on control room(13)Inside.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720198716.6U CN206744097U (en) | 2017-03-02 | 2017-03-02 | A kind of elaeagnus mollis cultivates automatic irrigation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720198716.6U CN206744097U (en) | 2017-03-02 | 2017-03-02 | A kind of elaeagnus mollis cultivates automatic irrigation device |
Publications (1)
Publication Number | Publication Date |
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CN206744097U true CN206744097U (en) | 2017-12-15 |
Family
ID=60608814
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720198716.6U Expired - Fee Related CN206744097U (en) | 2017-03-02 | 2017-03-02 | A kind of elaeagnus mollis cultivates automatic irrigation device |
Country Status (1)
Country | Link |
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CN (1) | CN206744097U (en) |
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2017
- 2017-03-02 CN CN201720198716.6U patent/CN206744097U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171215 Termination date: 20190302 |