CN109000966A - A kind of environmental project Soil K+adsorption sampler - Google Patents
A kind of environmental project Soil K+adsorption sampler Download PDFInfo
- Publication number
- CN109000966A CN109000966A CN201811068104.0A CN201811068104A CN109000966A CN 109000966 A CN109000966 A CN 109000966A CN 201811068104 A CN201811068104 A CN 201811068104A CN 109000966 A CN109000966 A CN 109000966A
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- Prior art keywords
- rotary cylinder
- fixed
- cylinder
- sliding
- soil
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/04—Devices for withdrawing samples in the solid state, e.g. by cutting
- G01N1/08—Devices for withdrawing samples in the solid state, e.g. by cutting involving an extracting tool, e.g. core bit
Abstract
A kind of environmental project Soil K+adsorption sampler of the present invention discloses a kind of cooperation by rotary cylinder and rotor plate, and the soil taken is sealed up for safekeeping to the sampler in rotary cylinder.The soil taken can be prevented unrestrained, improve sampling efficiency.It is characterized in that the fixed cylinder bottom end is uncovered structure, guiding is placed on fixed cylinder top middle portion, screw thread is equipped in the fixed medial wall of the tube, rotary cylinder top is placed in fixed cylinder, bottom end is placed in outside fixed cylinder, screw thread is equipped on the rotary cylinder lateral wall, and and fixed medial wall of the tube on screw thread bolt, the rotary cylinder bottom end is uncovered structure, rotation slot is provided on the outer wall of the fixed cylinder bottom end, the rotation slot is ring structure, the rotation groove depth is gradually reduced from rotary cylinder bottom end to top, connecting rod one end passes through guiding and is placed in fixed cylinder, and it is connected with rotary cylinder top middle portion, the connecting rod other end is placed in outside fixed cylinder, holding rod is placed on the connecting rod other end.
Description
Technical field
A kind of environmental project Soil K+adsorption sampler of the present invention is related to using in a kind of environmental project, carry out to soil
The sampler being sampled when detection, belongs to field of environment engineering.In particular to a kind of cooperation by rotary cylinder and rotor plate,
The soil taken is sealed up for safekeeping to the sampler in rotary cylinder.
Background technique
Currently, the acquisition of pedotheque is that utilization of agricultural resources utilization and environmental science comment soil nutrient and pollution level
The premise of valence analysis is to be engaged in important one of the element task of soil investigation work scientific worker, it is usual to carry out soil collection
Multipoint acquisition is carried out in different location, traditional sampling mode is to excavate soil using spade, and soil is packed into sample containing
It is stored in bottle, usual sample containing bottle bottleneck is smaller, is easy to appear unrestrained situation when built-in to bottle directly from spade;
Publication number CN107449630A discloses a kind of device and its sampling method for directly promoting soil sample, including outer drilling rod
With the first cut drill for being located at outer drilling rod lower end, outer drilling rod is hollow pipe, and inside is equipped with topsoil sampling bench or deep layer
Soil sample collector, topsoil sampling bench include the first probe tube and retainer, and deep soil sampler includes interior drilling rod, is located at
Second cut drill of interior drilling rod lower end and the second probe tube inside interior drilling rod;When topsoil sampling work, by surface layer
Soil sample platform is installed on inside outer drilling rod, and when deep soil sample works, topsoil sampling bench is taken out, and replaces deep soil
Earth sampler is inserted into inside outer drilling rod and runs continuous samples, and when being sampled using the device, probe tube is extracted out of soil
When, the soil sample in probe tube is connected with underground, it is easy to drop out soil sample out of probe tube when taking out probe tube,
Keep sampling amount insufficient, needs to be sampled again, efficiency is lower.
Summary of the invention
In order to improve above situation, a kind of environmental project Soil K+adsorption sampler of the present invention provides one kind and passes through rotary cylinder
With the cooperation of rotor plate up for safekeeping, the soil taken is sealed to the sampler in rotary cylinder.The soil taken can be prevented unrestrained, improved
Sampling efficiency.
A kind of environmental project Soil K+adsorption sampler of the present invention is achieved in that a kind of environmental project soil inspection of the present invention
It surveys sampler to be made of agent set, lower boring device and closing device, agent set is made of fixed cylinder and guide sleeve, described solid
Safety barrel bottom end is uncovered structure, and guiding is placed on fixed cylinder top middle portion, and screw thread, lower brill dress are equipped in the fixed medial wall of the tube
It sets and is made of holding rod, connecting rod, venthole, rotary cylinder, support rod, baffle, thread plate, stop collar and rotation slot, rotary cylinder top
End is placed in fixed cylinder, and bottom end is placed in outside fixed cylinder, screw thread is equipped on the rotary cylinder lateral wall, and and fix in medial wall of the tube
Screw thread bolt, the rotary cylinder bottom end is uncovered structure, is provided with rotation slot, the rotation on the outer wall of the fixed cylinder bottom end
Slot is ring structure, and the rotation groove depth is gradually reduced from rotary cylinder bottom end to top, and connecting rod one end passes through guiding and is nested with
In in fixed cylinder, and it is connected with rotary cylinder top middle portion, the connecting rod other end is placed in outside fixed cylinder, and it is another that holding rod is placed in connecting rod
On one end, the holding rod surface is equipped with rubber pad, and baffle is placed in rotary cylinder, and by two support rods and rotary cylinder top
Wall is connected, and spiral plate is placed in rotation medial wall of the tube, and is located in rotary cylinder, and stop collar is placed on rotation drum outer wall, and
Outside fixed cylinder, the rotary cylinder top is opened there are two venthole, one end diameter of the venthole inside rotary cylinder
Greater than far from the other end diameter inside rotary cylinder, closing device is by lead, sliding gasket, swivel becket, sliding bar, fixed bullet
Spring, rotor plate, draw bar, fixed ear, fixed ring, sliding panel and compressed spring composition, open that there are two connections on the rotary cylinder
Slot, and be located at the two sides of baffle, the connectivity slot extends to rotation groove location from rotary cylinder top straight down, then to
Bending on the outside of rotary cylinder, and be connected outside rotary cylinder, two pins are respectively placed in rotation slot, rotor plate one end and pin
It is hinged, described two rotor plate other ends fit, and the rotor plate is curved plate-like structure, and fixed ring is placed in fixed cylinder
On wall, and it is located at the top of rotary cylinder, the Fixing shrink ring is placed in connecting rod, and sliding gasket is placed in fixed ring, and is nested with
In in connecting rod, being provided with annular groove on the sliding gasket, swivel becket is placed in the annular groove on sliding gasket, the swivel becket
It can be rotated, the swivel becket internal diameter is less than fixed ring internal diameter, and two sliding panels are located at the lower section of fixed ring, and are located at
The two sides of connecting rod, are provided with through-hole on the sliding panel, and sliding bar one end sequentially passes through through-hole on sliding panel, fixed ring, cunning
Washer is connected with swivel becket, and limited block is equipped on the sliding bar other end, is equipped with compressed spring on the sliding bar,
And between sliding panel and the sliding bar other end, fixed ear is placed on sliding panel, described two fixed ears and two connectivity slots
It corresponds, lead one end is connected with fixed ear, and the other end passes through corresponding connectivity slot and is placed in outside rotary cylinder, draw bar one end
It is connected with the lead other end, the other end pin adjacent in rotation slot is connected, it is equipped with fixed spring on the lead,
And between rotary cylinder lateral wall and draw bar.
In use, under original state, two rotation plate closings block rotary cylinder bottom end, take when to soil
When sample, the present invention will be placed on the ground first, and then push holding rod, holding rod drives connecting rod to move down, under connecting rod
Rotary cylinder is pressed, since rotary cylinder and fixed cylinder are threadedly engaged, and then rotary cylinder is moved down and rotated in fixed cylinder, rotary cylinder drilling
In ground, in rotary cylinder folding process, rotation by pulling two sliding panels by lead respectively, two sliding panels edge respectively
Corresponding sliding bar slide downward, the compressed spring on sliding bar compressed, compressed spring is by compression process, to sliding panel
It is hindered, the speed that sliding panel moves down reduces, and then lead relatively rotates cylinder and moves up, and two leads pass through traction respectively
Bar pulls two rotor plates, opens two rotor plates, and then rotary cylinder bottom end is opened, and soil under rotary cylinder with drilling through
It crosses rotary cylinder bottom end to enter in rotary cylinder, and is moved down along the spiral plate on rotary cylinder inner wall, baffle is to rotary cylinder
Interior soil carries out compacting fixation, when soil reaches a certain amount of in rotary cylinder, pulls up holding rod, holding rod passes through connecting rod band
Dynamic rotary cylinder moves up, and rotary cylinder is moved and rotated into fixed cylinder, and compressed spring rebound, sliding panel moves up, and restores
To origin-location, two rotor plates are closed under lead pulling respectively, are blocked again to rotary cylinder bottom end, and then will rotation
Soil and underground partition in cylinder come, and then the whole pull-up present invention, pulls out out of ground;
The holding rod surface is equipped with the design of rubber pad, can increase the frictional force between hand and holding rod, improves stability;
One end diameter of the venthole inside rotary cylinder is greater than the design far from the other end diameter inside rotary cylinder, just
Gas discharge when soil sample, in rotary cylinder;
The swivel becket rotatably designs, and can be rotated under the drive of rotary cylinder, but not cause shadow to fixed ring
It rings;
The swivel becket internal diameter is less than the design of fixed ring internal diameter, convenient for sliding bar is fixed, improves stability;
The design of the baffle, by the soil compression in rotary cylinder, can increase and take in rotary cylinder during lower drill sampling
Amount of soil;
The rotor plate and rotary cylinder cooperation can prevent the soil in rotary cylinder unrestrained the design that soil is sampled;
In the going down process, two rotor plates are opened, and after sampling, the design of two rotation plate closings can be to taking
Soil sealed up for safekeeping, keep apart the soil taken and underground, will not be adopted when taking out the present invention out of ground
The soil taken drops out;
Reach and is used in environmental project, the purpose that is sampled when being detected to soil.
Beneficial effect.
One, structure is simple, convenient and practical.
Two, cheap, it is easy to spread.
Three, the soil taken can be prevented unrestrained, improve sampling efficiency.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of environmental project Soil K+adsorption sampler of the present invention.
Fig. 2 is a kind of structural schematic diagram of environmental project Soil K+adsorption sampler fixed ear of the present invention.
Fig. 3 is a kind of structural schematic diagram of environmental project Soil K+adsorption sampler rotation slot of the present invention.
In attached drawing
Wherein part are as follows: lead (1), fixed cylinder (2), sliding gasket (3), guide sleeve (4), holding rod (5), connecting rod (6), rotation
Ring (7), sliding bar (8), venthole (9), rotary cylinder (10), support rod (11), baffle (12), fixed spring (13), thread plate
(14), rotor plate (15), draw bar (16), stop collar (17), fixed ear (18), fixed ring (19), sliding panel (20) compress bullet
Spring (21), rotation slot (22).
A kind of environmental project Soil K+adsorption sampler of the present invention is achieved in that by agent set, lower boring device and opens
It attaches together and sets composition, agent set is made of fixed cylinder (2) and guide sleeve (4), and fixed cylinder (2) bottom end is uncovered structure, is led
Be placed in fixed cylinder (2) top middle portion to set (4), be equipped with screw thread on fixed cylinder (2) inner sidewall, lower boring device by holding rod (5),
Connecting rod (6), venthole (9), rotary cylinder (10), support rod (11), baffle (12), thread plate (14), stop collar (17) and turn
Dynamic slot (22) composition, rotary cylinder (10) top are placed in fixed cylinder (2), and bottom end is placed in fixed cylinder (2) outside, the rotary cylinder (10)
Be equipped with screw thread on lateral wall, and with the screw thread bolt on fixed cylinder (2) inner sidewall, rotary cylinder (10) bottom end is open knot
Structure is provided with rotation slot (22) on the outer wall of fixed cylinder (2) bottom end, and the rotation slot (22) is ring structure, the rotation slot
(22) depth is gradually reduced from rotary cylinder (10) bottom end to top, and connecting rod (6) one end passes through guide sleeve (4) and is placed in fixed cylinder
(2) in, and it is connected with rotary cylinder (10) top middle portion, connecting rod (6) other end is placed in fixed cylinder (2) outside, and holding rod (5) is placed in
On connecting rod (6) other end, holding rod (5) surface is equipped with rubber pad, and baffle (12) is placed in rotary cylinder (10), and passes through two
A support rod (11) is connected with rotary cylinder (10) top inner wall, and spiral plate is placed on rotary cylinder (10) inner sidewall, and is located at and turns
In dynamic cylinder (10), stop collar (17) is placed on rotary cylinder (10) outer wall, and is located at fixed cylinder (2) outside, the rotary cylinder (10)
Top is opened there are two venthole (9), and the venthole (9) is greater than close to rotary cylinder (10) internal one end diameter far from rotary cylinder
(10) internal other end diameter, closing device is by lead (1), sliding gasket (3), swivel becket (7), sliding bar (8), fixed bullet
Spring (13), rotor plate (15), draw bar (16), fixed ear (18), fixed ring (19), sliding panel (20) and compressed spring (21) group
At being opened on the rotary cylinder (10) there are two connectivity slot, and be located at the two sides of baffle (12), the connectivity slot is from rotary cylinder
(10) top extends to rotation slot (22) position straight down, then to bending on the outside of rotary cylinder (10), and with rotary cylinder (10)
Outside is connected, and two pins are respectively placed in rotation slot (22), and rotor plate (15) one end and pin are hinged, and described two turns
Movable plate (15) other end fits, and the rotor plate (15) is curved plate-like structure, and fixed ring (19) is placed in fixed cylinder (2) inner wall
On, and it is located at the top of rotary cylinder (10), the fixed ring (19) is placed on connecting rod (6), and sliding gasket (3) is placed in fixation
It on ring (19), and is placed on connecting rod (6), annular groove is provided on the sliding gasket (3), swivel becket (7) is placed in sliding mats
Enclose (3) on annular groove in, the swivel becket (7) can be rotated, swivel becket (7) internal diameter be less than fixed ring (19) internal diameter, two
A sliding panel (20) is located at the lower section of fixed ring (19), and is located at the two sides of connecting rod (6), the sliding panel (20)
On be provided with through-hole, sliding bar (8) one end sequentially passes through through-hole on sliding panel (20), fixed ring (19), sliding gasket (3) and turns
Rotating ring (7) is connected, and limited block is equipped on sliding bar (8) other end, is equipped with compressed spring on the sliding bar (8)
(21), and between sliding panel (20) and sliding bar (8) other end, fixed ear (18) is placed on sliding panel (20), and described two
A fixed ear (18) and two connectivity slots correspond, and lead (1) one end is connected with fixed ear (18), and the other end, which passes through, to be corresponded to
Connectivity slot be placed in rotary cylinder (10) outside, draw bar (16) one end is connected with lead (1) other end, the other end and rotation slot
(22) adjacent pin is connected in, is equipped with fixed spring (13) on the lead (1), and is located at rotary cylinder (10) lateral wall
Between draw bar (16).
In use, under original state, two rotor plate (15) closures are blocked rotary cylinder (10) bottom end, when to soil
When earth is sampled, the present invention will be placed on the ground first, and then push holding rod (5), holding rod (5) drives connecting rod (6)
It moving down, connecting rod (6) pushes rotary cylinder (10), since rotary cylinder (10) and fixed cylinder (2) are threadedly engaged, and then rotary cylinder
(10) it moving down and rotates in fixed cylinder (2), rotary cylinder (10) is crept into ground, in rotary cylinder (10) folding process, rotation
By by lead (1) respectively pull two sliding panels (20), two sliding panels (20) respectively along corresponding sliding bar (8) to
Lower slider, the compressed spring (21) on sliding bar (8) are compressed, and compressed spring (21) is by compression process, to sliding panel (20)
It is hindered, the speed that sliding panel (20) moves down reduces, and then lead (1) relatively rotates cylinder (10) and moves up, two leads
(1) two rotor plates (15) are pulled by draw bar (16) respectively, opens two rotor plates (15), and then rotary cylinder (10) bottom
End is opened, and soil enters in rotary cylinder (10) with drilling through rotary cylinder (10) bottom end under rotary cylinder (10), and edge
Spiral plate on rotary cylinder (10) inner wall move down, baffle (12) carries out compacting fixation to the soil in rotary cylinder (10),
It when rotary cylinder (10) interior soil reaches a certain amount of, pulls up holding rod (5), holding rod (5) drives rotary cylinder by connecting rod (6)
(10) move up, rotary cylinder (10) is moved and is rotated into fixed cylinder (2), compressed spring (21) rebound, sliding panel (20) to
Upper movement restores to origin-location, and two rotor plates (15) are closed in the case where lead (1) pulls respectively, to rotary cylinder (10) bottom end
Blocked again, so by rotary cylinder (10) soil and underground partition come, the then whole pull-up present invention, from
It is pulled out in ground;
Holding rod (5) surface is equipped with the design of rubber pad, can increase the frictional force between hand and holding rod (5), improves steady
It is qualitative;
The venthole (9) is greater than straight far from rotary cylinder (10) internal other end close to rotary cylinder (10) internal one end diameter
The design of diameter, gas discharge when being convenient for soil sample, in rotary cylinder (10);
The swivel becket (7) is rotatably designed, and can be rotated under the drive of rotary cylinder (10), but not to fixed ring
(19) it impacts;
Swivel becket (7) internal diameter is less than the design of fixed ring (19) internal diameter, convenient for sliding bar (8) is fixed, improves steady
It is qualitative;
The design of the baffle (12), by the soil compression in rotary cylinder (10), can increase rotation during lower drill sampling
Amount of soil is taken in cylinder (10);
The rotor plate (15) and rotary cylinder (10) cooperation can prevent in rotary cylinder (10) design that soil is sampled
Soil it is unrestrained;
In the going down process, two rotor plates (15) are opened, after sampling, the design of two rotor plates (15) closure, and energy
It is enough that the soil taken is sealed up for safekeeping, keep apart the soil taken and underground, will not by the present invention out of ground
When taking-up, the soil taken is dropped out;
Reach and is used in environmental project, the purpose that is sampled when being detected to soil.
Claims (9)
1. a kind of environmental project Soil K+adsorption sampler, it is characterized in that: be made of agent set, lower boring device and closing device,
Agent set is made of fixed cylinder and guide sleeve, and the fixed cylinder bottom end is uncovered structure, and guiding is placed in fixed cylinder top
Portion is equipped with screw thread in the fixed medial wall of the tube, and lower boring device is by holding rod, connecting rod, venthole, rotary cylinder, support rod, gear
Plate, thread plate, stop collar and rotation slot composition, rotary cylinder top are placed in fixed cylinder, and bottom end is placed in outside fixed cylinder, the rotation
Be equipped with screw thread on cylinder lateral wall, and and fixed medial wall of the tube on screw thread bolt, the rotary cylinder bottom end is uncovered structure, institute
State and be provided with rotation slot on the outer wall of fixed cylinder bottom end, connecting rod one end pass through guiding be placed in fixed cylinder, and with rotary cylinder top
Middle part is connected, and the connecting rod other end is placed in outside fixed cylinder, and holding rod is placed on the connecting rod other end, and baffle is placed in rotary cylinder,
And be connected by two support rods with rotary cylinder top inner wall, spiral plate is placed in rotation medial wall of the tube, and is located at rotary cylinder
Interior, stop collar is placed on rotation drum outer wall, and is located at outside fixed cylinder, and the rotary cylinder top is opened there are two venthole, is opened and closed
Device is by lead, sliding gasket, swivel becket, sliding bar, fixed spring, rotor plate, draw bar, fixed ear, fixed ring, sliding panel
It is formed with compressed spring, opens that there are two connectivity slots on the rotary cylinder, and be located at the two sides of baffle, two pins are set respectively
In in rotation slot, rotor plate one end and pin are hinged, and described two rotor plate other ends fit, and the rotor plate is arc
Plate structure, fixed ring are placed on fixed cylinder inner wall, and are located at the top of rotary cylinder, and the Fixing shrink ring is placed in connecting rod,
Sliding gasket is placed in fixed ring, and is placed in connecting rod, and annular groove is provided on the sliding gasket, and swivel becket is placed in sliding
In annular groove on washer, two sliding panels are located at the lower section of fixed ring, and are located at the two sides of connecting rod, the cunning
Through-hole is provided on movable plate, sliding bar one end sequentially passes through through-hole, fixed ring, sliding gasket on sliding panel and is connected with swivel becket
It connects, limited block is equipped on the sliding bar other end, compressed spring is equipped on the sliding bar, and be located at sliding panel and sliding
Between the bar other end, fixed ear is placed on sliding panel, and described two fixed ears and two connectivity slots correspond, lead one end and
Fixed ear is connected, and the other end passes through corresponding connectivity slot and is placed in outside rotary cylinder, and draw bar one end is connected with the lead other end,
The other end pin adjacent in rotation slot is connected, and fixed spring is equipped on the lead, and be located at rotary cylinder lateral wall
Between draw bar.
2. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that the rotation slot is ring
Shape structure.
3. a kind of environmental project Soil K+adsorption sampler according to claim 2, it is characterised in that the rotation groove depth
It is gradually reduced from rotary cylinder bottom end to top.
4. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that the venthole is close
One end diameter inside rotary cylinder is greater than far from the other end diameter inside rotary cylinder.
5. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that the connectivity slot from turn
Dynamic cylinder top extends to rotation groove location straight down, then to bending on the outside of rotary cylinder, and be connected outside rotary cylinder.
6. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that the swivel becket can turn
It is dynamic.
7. a kind of environmental project Soil K+adsorption sampler according to claim 6, it is characterised in that the swivel becket internal diameter
Less than fixed ring internal diameter.
8. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that set on the holding rod surface
There is rubber pad.
9. a kind of environmental project Soil K+adsorption sampler according to claim 1, it is characterised in that in the going down process,
Two rotor plates are opened, after sampling, two rotation plate closings.
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CN201811068104.0A CN109000966B (en) | 2018-09-13 | 2018-09-13 | Environmental engineering soil detection sampler |
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CN201811068104.0A CN109000966B (en) | 2018-09-13 | 2018-09-13 | Environmental engineering soil detection sampler |
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CN109000966A true CN109000966A (en) | 2018-12-14 |
CN109000966B CN109000966B (en) | 2021-01-19 |
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CN109357918A (en) * | 2018-12-17 | 2019-02-19 | 黄河水利职业技术学院 | A kind of food inspection sampler |
CN110296864A (en) * | 2019-07-24 | 2019-10-01 | 张少红 | A kind of carbon granules sampler |
CN110376011A (en) * | 2019-08-22 | 2019-10-25 | 吉林大学 | A kind of ground water soil layer sampler |
CN110842880A (en) * | 2019-12-09 | 2020-02-28 | 徐州欧百瑞智能设备有限公司 | Modular intelligent special-shaped part operating platform |
CN110881348A (en) * | 2019-12-18 | 2020-03-17 | 刘明 | Mulching machine for agricultural planting |
CN110987514A (en) * | 2019-01-08 | 2020-04-10 | 青岛地质工程勘察院 | Different depth soil sampling device for geological exploration |
CN111649977A (en) * | 2020-05-27 | 2020-09-11 | 临沂大学 | Soil sampling device for preventing disturbance damage to soil sample layer during sampling separation |
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CN109357918A (en) * | 2018-12-17 | 2019-02-19 | 黄河水利职业技术学院 | A kind of food inspection sampler |
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CN110296864A (en) * | 2019-07-24 | 2019-10-01 | 张少红 | A kind of carbon granules sampler |
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CN110842880B (en) * | 2019-12-09 | 2023-05-30 | 徐州欧百瑞智能设备有限公司 | Modularized intelligent abnormal part operation platform |
CN110881348A (en) * | 2019-12-18 | 2020-03-17 | 刘明 | Mulching machine for agricultural planting |
CN111649977A (en) * | 2020-05-27 | 2020-09-11 | 临沂大学 | Soil sampling device for preventing disturbance damage to soil sample layer during sampling separation |
CN112297252A (en) * | 2020-11-07 | 2021-02-02 | 袁利峰 | Building construction system and working method thereof |
CN113358402A (en) * | 2021-06-04 | 2021-09-07 | 中国煤炭地质总局第一勘探局科教中心 | Be used for engineering geological exploration soil sampling tube of being convenient for expand |
CN116413286A (en) * | 2023-03-02 | 2023-07-11 | 海南省土壤肥料总站 | Intelligent observation device and method for soil profile |
CN116413286B (en) * | 2023-03-02 | 2023-10-10 | 海南省土壤肥料总站 | Intelligent observation device and method for soil profile |
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