CN207623050U - Farmland environmental information harvester - Google Patents
Farmland environmental information harvester Download PDFInfo
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- CN207623050U CN207623050U CN201721915286.1U CN201721915286U CN207623050U CN 207623050 U CN207623050 U CN 207623050U CN 201721915286 U CN201721915286 U CN 201721915286U CN 207623050 U CN207623050 U CN 207623050U
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- soil
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Abstract
The utility model is related to a kind of harvesters, more particularly to a kind of farmland environmental information harvester.Farmland environmental information harvester, including soil collection case, soil information collecting device, slotting native frame component, handrail and step tread plate, the soil collection case include vasculum ontology, case lid, observation window and are managed into soil;The right end of the vasculum ontology is connected by screw case lid, and the center of the case lid is equipped with rectangular through-hole, and the inside of rectangular through-hole passes through all-purpose adhesive bonding connection observation window;The centre of the bottom end of the vasculum ontology is welded to connect and is connected into soil and manages;The utility model can be rapidly and efficiently farmland soil is acquired, analysis detection is carried out convenient for the soil environment information to farmland, convenient for planting different types of effect for different soil environments, it can easily acquire soil and store soil, easy to use, highly practical, structure novel.
Description
Technical field
The utility model is related to a kind of harvesters, more particularly to a kind of farmland environmental information harvester.
Background technology
Precision agriculture is one of hot fields of research of agricultural science in the world in recent years.The meaning of precision agriculture is exactly to press
According to the actual conditions of each operating unit in field, soil and crop management measure are finely accurately adjusted, is optimized to the maximum extent
Every countryside tax system to obtain maximum output and maximum economic benefit, while protecting agroecological environment, the agriculturals such as protection soil
Natural resources.
The essence of precision agriculture is to be directed to the tool in plot in production according to the soil Crop spatial variation information being collected into
Body situation determines corresponding agricultural measures.Due to the influence of field weather, long-term cropping, soil characteristic is all changing in real time.
The accurate variation for understanding soil characteristic, is not only advantageous to us and targetedly pours, and applies fertilizer, and to preventing soil property from degenerating,
Agri-scientific research modeling etc. has prodigious impetus.Existing farmland environmental information harvester can not be acquired quickly and easily
Soil, and it can not store the soil after acquisition.
Utility model content
The purpose of this utility model is to provide a kind of farmland environmental information harvester, can be rapidly and efficiently to farmland
In soil be acquired, carry out analysis detection convenient for the soil environment information to farmland, convenient for be directed to different soil environments
Different types of effect is planted, can easily acquire soil and stores soil, easy to use, highly practical, structure novel.
The purpose of this utility model is achieved through the following technical solutions:
Farmland environmental information harvester, including soil collection case, soil information collecting device, slotting native frame component, handrail
And step tread plate, the soil collection case include vasculum ontology, case lid, observation window and are managed into soil;The right side of the vasculum ontology
End is connected by screw case lid, and the center of the case lid is equipped with rectangular through-hole, and the inside of rectangular through-hole is connected by omnipotent glue sticking
Connect observation window;The centre of the bottom end of the vasculum ontology is welded to connect and is connected into soil and manages;
The soil information collecting device includes joystick, rotating disc, rotation axis and adopts native conveyor screw;The joystick is logical
Cross the eccentric position that screw is connected to the top surface of rotating disc;The centre of the rotating disc bottom surface is fixedly connected with the top of rotation axis;
The rotation axis is connected to the centre on vasculum ontology top by the bearing block with bearing;The lower end of the rotation axis is inserted into
To the inside of vasculum ontology, the lower end of the rotation axis, which is welded to connect, adopts native conveyor screw;It wears the lower end for adopting native conveyor screw
Go out into soil and manages;
The slotting native frame component includes upper fixed block, briquetting, compression bar, tensioning spring I, door shape connecting rod, inserts native axis, is lower solid
Determine block and tensioning spring II;The upper fixing block is fixedly connected on the left side of soil collection case;The briquetting passes through screw thread
It is connected to the top of compression bar, on upper fixed block, the bottom end of the compression bar is connected by screw for the compression bar sliding connection
Door shape connecting rod;The left end and right end of the door shape connecting rod are respectively connected by screw one and insert native axis, and two are inserted native axis difference
On two lower fixed blocks, two lower fixed blocks are respectively fixedly connected with the leading flank in soil collection case with after for sliding connection
On side;It is cased with tensioning spring I on the compression bar, the upper end of tensioning spring I is welded to connect fixed block, under tensioning spring I
End is welded to connect door shape connecting rod;It is cased with tensioning spring II on the slotting native axis, the upper end of tensioning spring II is welded to connect a word
The lower end of shape connecting rod, tensioning spring II is welded to connect lower fixed block;
The upper end of the left side of the soil collection case is connected by screw handrail;The left side of the soil collection case
Lower end is welded to connect step tread plate.
The bottom end of the slotting native axis is tapered head.
The bottom end into native pipe is connected through a screw thread protecting tube lid.
The slotting native axis is that stainless steel metal is inserted into head.
Bonding connection rubber antiskid pad on the top surface of the step tread plate.
The beneficial effects of the utility model:The farmland environmental information harvester of the utility model, can be rapidly and efficiently
Farmland soil is acquired, analysis detection is carried out convenient for the soil environment information to farmland, convenient for for different
Soil environment plants different types of effect, can easily acquire soil and store soil, easy to use, highly practical,
Structure novel.
Description of the drawings
Fig. 1 is the overall structure diagram one of the utility model;
Fig. 2 is the overall structure diagram two of the utility model;
Fig. 3 is the structural schematic diagram of the soil collection case inside the utility model;
Fig. 4 is the structural schematic diagram of the soil information collecting device inside the utility model;
Fig. 5 is the structural schematic diagram of the slotting native frame component inside the utility model.
In figure:Soil collection case 1;Vasculum ontology 1-1;Case lid 1-2;Observation window 1-3;Into native pipe 1-4;Soil information is adopted
Acquisition means 2;Joystick 2-1;Rotating disc 2-2;Rotation axis 2-3;Adopt native conveyor screw 2-4;Insert soil frame component 3;Upper fixed block 3-1;
Briquetting 3-2;Compression bar 3-3;Door shape connecting rod 3-4;Insert soil axis 3-5;Lower fixed block 3-6;Handrail 4;Step tread plate 5.
Specific implementation mode
1-5 is described in further detail the utility model below in conjunction with the accompanying drawings.
Specific implementation mode one:
As shown in Figs. 1-5, farmland environmental information harvester, including soil collection case 1, soil information collecting device 2, insert
Native frame component 3, handrail 4 and step tread plate 5, when the utility model is used, soil collection case 1 can be placed on to soil to be collected
Then the upper end of earth is suitably inserting to the inside of soil to be collected by inserting native frame component 3, then presses handrail and use foot
Trample step tread plate 5 so that the soil information collecting device 2 inside soil collection case 1 is contacted with soil, and is gradually pressed downward
It is dynamic, while by shaking with hands soil information collecting device 2 by soil collection to the inside of soil collection case 1.
The soil collection case 1 includes vasculum ontology 1-1, case lid 1-2, observation window 1-3 and into native pipe 1-4;It is described to adopt
The center that the right end of header ontology 1-1 is connected by screw case lid 1-2, the case lid 1-2 is equipped with rectangular through-hole, rectangular through-hole
Inside passes through all-purpose adhesive bonding connection observation window 1-3;The centre of the bottom end of the vasculum ontology 1-1 be welded to connect and be connected into
Native pipe 1-4;
The soil information collecting device 2 includes joystick 2-1, rotating disc 2-2, rotation axis 2-3 and adopts native conveyor screw 2-
4;The joystick 2-1 is connected by screw the eccentric position in the top surface of rotating disc 2-2;In the bottom surfaces the rotating disc 2-2
Between be fixedly connected with the top of rotation axis 2-3;The rotation axis 2-3 is connected to vasculum ontology 1- by the bearing block with bearing
The centre on 1 top;The lower end of the rotation axis 2-3 is inserted into the inside of vasculum ontology 1-1, the lower end of the rotation axis 2-3
It is welded to connect and adopts native conveyor screw 2-4;The lower end for adopting native conveyor screw 2-4 is pierced by into native pipe 1-4;The soil information collecting dress
It sets 2 when in use, is contacted with soil when adopting native conveyor screw 2-4 and after be suitably inserting into soil, pass through hand rocking bar of starting
2-1 drive rotating disc 2-2 rotations, drive rotation axis 2-3 rotations, are driven when rotation axis 2-3 is rotated and adopt soil when rotating disc 2-2 is rotated
Conveyor screw 2-4 rotations, are acquired soil by adopting native conveyor screw 2-4, by soil collection to the inside of soil collection case 1.
The slotting native frame component 3 includes upper fixed block 3-1, briquetting 3-2, compression bar 3-3, tensioning spring I, door shape connecting rod 3-
4, native axis 3-5, lower fixed block 3-6 and tensioning spring II are inserted;The upper fixing block 3-1 is fixedly connected on a left side for soil collection case 1
On side;The briquetting 3-2 is threadedly attached in the top of compression bar 3-3, and the compression bar 3-3 sliding connections are in upper fixation
On block 3-1, the bottom end of the compression bar 3-3 is connected by screw door shape connecting rod 3-4;The left end of the door shape connecting rod 3-4 and
Right end is respectively connected by screw one and inserts native axis 3-5, inserts soil axis 3-5 for two and is slidably connected respectively in two lower fixed block 3-
On 6, two lower fixed block 3-6 are respectively fixedly connected on the leading flank and trailing flank of soil collection case 1;On the compression bar 3-3
It is cased with tensioning spring I, the upper end of tensioning spring I is welded to connect fixed block 3-1, and the lower end of tensioning spring I is welded to connect a word
Shape connecting rod 3-4;It is cased with tensioning spring II on the slotting native axis 3-5, the upper end of tensioning spring II is welded to connect door shape connecting rod 3-
The lower end of 4, tensioning spring II are welded to connect lower fixed block 3-6;The slotting native frame component 3 wraps when in use, can be by pressing
Handrail 4 and step tread plate 5 are so that the slotting soil axis 3-5 inserted inside native frame component 3 is pulled down, to be suitably inserting to soil
Portion, due to the setting of tensioning spring I and tensioning spring II so that insert soil frame component 3 has centainly during carrying out underthrust
Absorbing shock performance, prevent from inserting native frame component 3 and damage.
The upper end of the left side of the soil collection case 1 is connected by screw handrail 4;The left side of the soil collection case 1
The lower end in face is welded to connect step tread plate 5.
The bottom end of the slotting native axis 3-5 is tapered head.
The bottom end into native pipe 1-4 is connected through a screw thread protecting tube lid.
The slotting native axis 3-5 is that stainless steel metal is inserted into head.
Bonding connection rubber antiskid pad on the top surface of the step tread plate 5.
The farmland environmental information harvester of the utility model, its working principle is that:It when in use, can be by soil collection
Case 1 is placed on the upper end of soil to be collected, is then suitably inserting to soil to be collected by inserting native frame component 3
Then portion presses handrail and tramples step tread plate 5 with foot so that the soil information collecting device 2 inside soil collection case 1 and soil
Contact, and gradually pull down, while by shaking with hands soil information collecting device 2 by soil collection to soil collection case
1 inside;The soil information collecting device 2 when in use, when adopt native conveyor screw 2-4 contacted with soil and be suitably inserting to
After in soil, rotating disc 2-2 rotations are driven by the hand rocking bar 2-1 that starts, drive rotation axis 2-3 to turn when rotating disc 2-2 is rotated
It is dynamic, it is driven when rotation axis 2-3 is rotated and adopts native conveyor screw 2-4 rotations, soil is acquired by adopting native conveyor screw 2-4, it will be native
Earth is acquired to the inside of soil collection case 1.
Certainly, above description is not limitation of the utility model, and the utility model is also not limited to the example above, this skill
The variations, modifications, additions or substitutions that the those of ordinary skill in art field is made in the essential scope of the utility model, also belong to
In the scope of protection of the utility model.
Claims (5)
1. farmland environmental information harvester, including soil collection case (1), soil information collecting device (2), slotting native frame component
(3), handrail (4) and step tread plate (5), it is characterised in that:The soil collection case (1) includes vasculum ontology (1-1), case lid
(1-2), observation window (1-3) and into soil manage (1-4);The right end of the vasculum ontology (1-1) is connected by screw case lid (1-
2), the center of the case lid (1-2) is equipped with rectangular through-hole, and the inside of rectangular through-hole passes through all-purpose adhesive bonding connection observation window (1-
3);The centre of the bottom end of the vasculum ontology (1-1), which is welded to connect and is connected into soil, manages (1-4);
The soil information collecting device (2) includes joystick (2-1), rotating disc (2-2), rotation axis (2-3) and adopts native spiral
Body (2-4);The joystick (2-1) is connected by screw the eccentric position in the top surface of rotating disc (2-2);The rotating disc
The centre of the bottom surface (2-2) is fixedly connected with the top of rotation axis (2-3);The rotation axis (2-3) passes through the bearing block with bearing
It is connected to the centre on the top vasculum ontology (1-1);The lower end of the rotation axis (2-3) is inserted into vasculum ontology (1-1)
Inside, the lower end of the rotation axis (2-3), which is welded to connect, adopts native conveyor screw (2-4);It wears the lower end for adopting native conveyor screw (2-4)
Go out into soil and manages (1-4);
The slotting native frame component (3) includes upper fixed block (3-1), briquetting (3-2), compression bar (3-3), tensioning spring I, door shape company
Bar (3-4) inserts native axis (3-5), lower fixed block (3-6) and tensioning spring II;The upper fixing block (3-1) is fixedly connected on soil
On the left side of vasculum (1);The briquetting (3-2) is threadedly attached in the top of compression bar (3-3), the compression bar (3-3)
On upper fixed block (3-1), the bottom end of the compression bar (3-3) is connected by screw door shape connecting rod (3-4) for sliding connection;
The left end and right end of the door shape connecting rod (3-4) are respectively connected by screw one and insert native axis (3-5), and two are inserted native axis (3-5)
It is slidably connected respectively on two lower fixed blocks (3-6), two lower fixed blocks (3-6) are respectively fixedly connected in soil collection
On the leading flank and trailing flank of case (1);It is cased with tensioning spring I on the compression bar (3-3), the upper end of tensioning spring I is welded to connect
The lower end of upper fixed block (3-1), tensioning spring I is welded to connect door shape connecting rod (3-4);It is cased with and opens on the slotting native axis (3-5)
The upper end of tight spring II, tensioning spring II are welded to connect door shape connecting rod (3-4), and the lower end of tensioning spring II is welded to connect lower solid
Determine block (3-6);
The upper end of the left side of the soil collection case (1) is connected by screw handrail (4);A left side for the soil collection case (1)
The lower end of side is welded to connect step tread plate (5).
2. farmland environmental information harvester according to claim 1, it is characterised in that:The bottom of the slotting native axis (3-5)
End is tapered head.
3. farmland environmental information harvester according to claim 1, it is characterised in that:The bottom into soil pipe (1-4)
End is connected through a screw thread protecting tube lid.
4. farmland environmental information harvester according to claim 1, it is characterised in that:The slotting native axis (3-5) is not
Steel metal of becoming rusty is inserted into head.
5. farmland environmental information harvester according to claim 1, it is characterised in that:The top surface of the step tread plate (5)
Upper bonding connection rubber antiskid pad.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721915286.1U CN207623050U (en) | 2017-12-31 | 2017-12-31 | Farmland environmental information harvester |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721915286.1U CN207623050U (en) | 2017-12-31 | 2017-12-31 | Farmland environmental information harvester |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207623050U true CN207623050U (en) | 2018-07-17 |
Family
ID=62830855
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721915286.1U Expired - Fee Related CN207623050U (en) | 2017-12-31 | 2017-12-31 | Farmland environmental information harvester |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207623050U (en) |
-
2017
- 2017-12-31 CN CN201721915286.1U patent/CN207623050U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180717 Termination date: 20181231 |
|
CF01 | Termination of patent right due to non-payment of annual fee |