CN211784435U - Environment measuring is with high-efficient sampling device of soil - Google Patents
Environment measuring is with high-efficient sampling device of soil Download PDFInfo
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- CN211784435U CN211784435U CN202020295742.2U CN202020295742U CN211784435U CN 211784435 U CN211784435 U CN 211784435U CN 202020295742 U CN202020295742 U CN 202020295742U CN 211784435 U CN211784435 U CN 211784435U
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Abstract
The utility model discloses a high-efficient sampling device of soil for environmental detection, include: the device comprises a base, a controller, a hydraulic cylinder, a fixing frame, a soil drilling mechanism, a conveying mechanism and a screening mechanism; the controller is arranged in the left front of the top end of the base along the up-down direction; the hydraulic cylinder is arranged at the center of the left side of the top end of the base in the vertical direction and is electrically connected with the controller; the fixed frame is arranged at the top end of the hydraulic cylinder; the soil drilling mechanism is arranged on the right side of the fixing frame along the up-down direction; the conveying mechanism is arranged on the right side of the soil drilling mechanism; the screening mechanism is installed on the right side of the base and is located below the conveying mechanism. This high-efficient sampling device of soil for environmental detection can realize automatic sample of digging earth to environmental soil, easy operation and efficient to can sieve the stone and rubbish in the sample soil of taking out is automatic, and the practicality is strong.
Description
Technical Field
The utility model relates to an environmental monitoring technical field specifically is a high-efficient sampling device of soil for environmental detection.
Background
Environmental monitoring (environmental monitoring) means that environmental quality (or pollution degree) and change trend thereof are determined by measuring representative values of factors influencing the environmental quality, a scheme for building an ecological environment monitoring network (hereinafter referred to as a scheme) is issued by a national office 2015 at 8 months and 12 days, and is proposed to 2020, an ecological environment monitoring network with global sea planning, integration of heaven and earth, upper and lower cooperation and information sharing is initially built, the scheme is clear, and an environmental protection department is responsible for building and operating the national environment quality monitoring network to master the overall situation of national ecological environment quality;
in the prior art, environmental monitoring often needs to monitor soil sampling, and current soil sampling needs manual use soil of staff to bore, spade and shovel and digs the sample of digging, and this kind of sampling mode operation is comparatively troublesome hard, and work efficiency is lower to need the manual stone and rubbish screening of staff in the sample of taking out, increased staff's operation item, to above-mentioned problem, we provide a kind of soil high efficiency sampling device for environmental detection.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-efficient sampling device of soil for environmental test to at least, solve prior art's needs manual use soil of staff and bore, spade and shovel and dig the sample, this kind of sampling mode operation is comparatively troublesome hard, and work efficiency is lower, and needs the staff to examine stone and rubbish examination manually in the sample of taking out, has increased the problem of staff's operation item.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an environment detects uses high-efficient sampling device of soil, includes:
a base;
the controller is arranged in the left front of the top end of the base along the vertical direction;
the hydraulic cylinder is arranged at the center of the left side of the top end of the base in the vertical direction and is electrically connected with the controller;
the fixing frame is arranged at the top end of the hydraulic cylinder;
the soil drilling mechanism is arranged on the right side of the fixing frame along the vertical direction;
the conveying mechanism is arranged on the right side of the soil drilling mechanism;
and the screening mechanism is arranged on the right side of the base and is positioned below the conveying mechanism.
Preferably, the earth boring mechanism includes: the soil drilling mechanism comprises a soil drilling mechanism shell, a first motor and a drill bit rod; the soil drilling mechanism shell is arranged at the center of the top end of the base along the vertical direction, and the bottom end of the soil drilling mechanism shell penetrates through the lower surface of the base; the first motor is arranged on the right side of the fixing frame along the vertical direction and is electrically connected with the controller; and the drill rod is connected to the output end of the first motor through screws in the vertical direction, and the bottom end of the drill rod extends out of the bottom end of the inner cavity of the shell of the soil drilling mechanism.
Preferably, the earth boring mechanism further comprises: the T-shaped rod, the push plate, the spring, the second motor and the cam; the T-shaped rod is inserted at the bottom end of the left side of the inner cavity of the soil drilling mechanism shell along the left-right direction, and the left side of the T-shaped rod extends out of the outer wall of the soil drilling mechanism shell; the push plate is arranged on the right side of the T-shaped rod; the spring is sleeved on the outer wall of the T-shaped rod, one end of the spring is fixedly connected with the inner side of the T-shaped rod, and the other end of the spring is fixedly connected with the outer wall of the soil drilling mechanism shell; the second motor is arranged at the bottom end of the outer wall of the soil drilling mechanism shell along the front-back direction and is electrically connected with the controller; the cam screw is connected to the output end of the second motor, and the outer wall of the cam is in contact with the left end of the T-shaped rod.
Preferably, the conveying mechanism includes: the conveying mechanism comprises a conveying mechanism shell, a third motor, a spiral conveying rod and a discharge hole; the conveying mechanism shell is obliquely arranged on the right side of the soil drilling mechanism shell upwards along the left-right direction, and the left side of the inner cavity of the conveying mechanism shell is communicated with the inner cavity of the soil drilling mechanism shell; the third motor is arranged at the right center of the conveying mechanism shell, the output end of the third motor extends into the inner cavity of the conveying mechanism shell, and the third motor is electrically connected with the controller; the screw conveying rod is connected to the output end of the third motor along the left-right direction through screws; the discharge port is cut at the bottom end of the right side of the outer wall of the conveying mechanism shell, and the upper end and the lower end of the inner cavity of the discharge port are respectively communicated with the inner cavity and the outer wall of the conveying mechanism shell.
Preferably, the sifting mechanism comprises: the screening mechanism comprises a shell, a top cover, a funnel, a fourth motor, a stirring blade, a screening plate and a waste collecting box; the screening mechanism shell is arranged on the right side of the base and is positioned on the right lower side of the conveying mechanism shell; the top cover is detachably arranged at the top end of the inner cavity of the screening mechanism shell; the funnel is arranged at the position, corresponding to the discharge port, of the outer side of the top end of the top cover along the vertical direction, and the bottom end of the funnel extends out of the lower surface of the top cover; the fourth motor is arranged at the center of the top end of the top cover along the up-down direction, the output end of the fourth motor extends out of the lower surface of the top cover, and the fourth motor is electrically connected with the controller; the stirring blade is connected to the output end of the fourth motor through a screw; the screening plate is detachably arranged in the middle of the inner cavity of the screening mechanism shell and is in contact with the lower surface of the stirring blade; the waste collecting box is detachably arranged on the outer wall of the screening mechanism shell and is positioned above the screening plate, and the inner cavity of the waste collecting box is communicated with the inner cavity of the screening mechanism shell.
Compared with the prior art, the beneficial effects of the utility model are that: the soil high-efficiency sampling device for environment detection drives the drill bit rod to rotate through the first motor, the hydraulic cylinder drives the fixing frame to drive the drill bit rod to move downwards under the coordination of the soil drilling mechanism through self shortening so as to break a soil layer, the soil below is taken out upwards into the soil drilling mechanism shell, the cam is driven to rotate through the second motor so as to drive the far hub end and the near hub end of the cam to contact with the left side of the T-shaped rod intermittently, the T-shaped rod drives the push plate to move left and right in a reciprocating manner in the inner cavity of the soil drilling mechanism shell so as to push the internal soil into the soil drilling mechanism shell, the spiral conveying rod is driven to rotate through the third motor so as to lift the soil, the soil enters the screening mechanism shell through the funnel, the stirring blade is driven to rotate through the fourth motor so as to push the soil on the surface of the screening plate to rotate so as to screen the soil, the automatic soil excavation and sampling of the environment soil can be, and can sieve the stone and rubbish in the sample soil of taking out automatically, the practicality is strong.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an exploded view of the earth-boring mechanism of FIG. 1;
FIG. 3 is an exploded view of the delivery mechanism of FIG. 1;
fig. 4 is an exploded view of the earth-boring mechanism of fig. 1.
In the figure: 1. the device comprises a base, 2, a controller, 3, a hydraulic cylinder, 4, a fixing frame, 5, an earth drilling mechanism, 51, an earth drilling mechanism shell, 52, a first motor, 53, a drill rod, 54, a T-shaped rod, 55, a push plate, 56, a spring, 57, a second motor, 58, a cam, 6, a conveying mechanism, 61, a conveying mechanism shell, 62, a third motor, 63, a spiral conveying rod, 64, a discharge hole, 7, a screening mechanism, 71, a screening mechanism shell, 72, a top cover, 73, a funnel, 74, a fourth motor, 75, a stirring blade, 76, a screening plate, 77 and a waste collection box.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an environment detects uses high-efficient sampling device of soil, includes: the device comprises a base 1, a controller 2, a hydraulic cylinder 3, a fixing frame 4, a soil drilling mechanism 5, a conveying mechanism 6 and a screening mechanism 7; the controller 2 is arranged at the left front part of the top end of the base 1 along the up-down direction, and the specific use model of the controller 2 is directly purchased and installed from the market according to the specific use requirement and is connected with an external adaptive power supply; the hydraulic cylinder 3 is arranged at the center of the left side of the top end of the base 1 in the up-down direction, the hydraulic cylinder 3 is electrically connected with the controller 2, the hydraulic cylinder 3 is directly purchased and installed from the market according to specific use requirements and is used, the hydraulic cylinder is connected with an external adaptive power supply and is controlled by the controller 2, and the hydraulic cylinder 3 can be extended and shortened by itself to drive the fixing frame 4 to move up and down; the fixed frame 4 is arranged at the top end of the hydraulic cylinder 3; the soil drilling mechanism 5 is arranged on the right side of the fixed frame 4 along the up-down direction; the conveying mechanism 6 is arranged on the right side of the soil drilling mechanism 5; the screening mechanism 7 is installed on the right side of the base 1 and below the conveying mechanism 6.
Preferably, the soil drilling mechanism 5 further includes: an earth boring mechanism housing 51, a first motor 52 and a bit shaft 53; the soil drilling mechanism shell 51 is arranged at the center of the top end of the base 1 along the vertical direction, and the bottom end of the soil drilling mechanism shell 51 penetrates through the lower surface of the base 1; the first motor 52 is installed on the right side of the fixing frame 4 along the up-down direction, the first motor 52 is electrically connected with the controller 2, the specific usage model of the first motor 52 is directly purchased and installed from the market according to the specific usage requirement, is used and connected with an external adaptive power supply, and is controlled by the controller 2; the drill bit rod 53 is connected to the output end of the first motor 52 along the up-down direction by screws, the bottom end of the drill bit rod 53 extends out of the bottom end of the inner cavity of the soil drilling mechanism shell 51, the bottom end of the drill bit rod 53 is conical, and the outer wall of the drill bit rod is provided with a helical blade.
Preferably, the soil drilling mechanism 5 further comprises: a T-bar 54, a push plate 55, a spring 56, a second motor 57, and a cam 58; the T-shaped rod 54 is inserted into the bottom end of the left side of the inner cavity of the soil drilling mechanism shell 51 along the left-right direction, and the left side of the T-shaped rod 54 extends out of the outer wall of the soil drilling mechanism shell 51; the push plate 55 is mounted on the right side of the T-bar 54; the spring 56 is sleeved on the outer wall of the T-shaped rod 54, one end of the spring 56 is fixedly connected with the inner side of the T-shaped rod 54, the other end of the spring 56 is fixedly connected with the outer wall of the soil drilling mechanism shell 51, the spring 56 is a compression spring, the elastic coefficient is 16N/CM, the spring generates elastic deformation after being stretched or extruded, and the spring recovers to an initial state after external force is removed; the second motor 57 is installed at the bottom end of the outer wall of the soil drilling mechanism shell 51 along the front-back direction, the second motor 57 is electrically connected with the controller 2, the specific usage model of the second motor 57 is directly purchased from the market and installed and used according to specific usage requirements, and is connected with an external adaptive power supply, and the controller 2 controls the second motor to drive the cam 58 to rotate; the cam 58 is connected with the output end of the second motor 57 through a screw, the outer wall of the cam 58 is in contact with the left end of the T-shaped rod 54, when the hub end of the cam 58 is in contact with the left side of the T-shaped rod 54, the T-shaped rod 54 moves to the right under the pushing of the cam 58 and presses the spring 56, when the hub end of the cam 58 is in contact with the left side of the T-shaped rod 54, the spring 56 pushes the T-shaped rod 54 to move to the left under the self elastic action, and therefore the T-shaped rod 54 drives the push plate 55 to reciprocate left and right in the inner cavity of the soil drilling mechanism shell 51.
Preferably, the conveying mechanism 6 further includes: a conveying mechanism shell 61, a third motor 62, a spiral conveying rod 63 and a discharge hole 64; the conveying mechanism shell 61 is obliquely arranged on the right side of the soil drilling mechanism shell 51 upwards along the left-right direction, and the left side of the inner cavity of the conveying mechanism shell 61 is communicated with the inner cavity of the soil drilling mechanism shell 51; the third motor 62 is installed at the right center of the conveying mechanism shell 61, the output end of the third motor 62 extends into the inner cavity of the conveying mechanism shell 61, the third motor 62 is electrically connected with the controller 2, and the specific usage model of the third motor 62 is directly purchased and installed from the market and used according to the specific usage requirement and is connected with an external adaptive power supply; the screw conveying rod 63 is connected to the output end of the third motor 62 along the left-right direction by screws; the discharge port 64 is arranged at the bottom end of the right side of the outer wall of the conveying mechanism shell 61, the upper end and the lower end of the inner cavity of the discharge port 64 are respectively communicated with the inner cavity and the outer wall of the conveying mechanism shell 61, the third motor 62 can drive the spiral conveying rod 63 to rotate clockwise in the inner cavity of the soil drilling mechanism shell 61, and soil in the soil drilling mechanism shell 61 moves upwards along the inner cavity of the soil drilling mechanism shell 61 under the action of the rotating force of the blades of the spiral conveying rod 63 and is discharged from the discharge port 64.
Preferably, the sifting mechanism 7 further includes: a screening mechanism housing 71, a top cover 72, a funnel 73, a fourth motor 74, a stirring blade 75, a screening plate 76 and a waste collection box 77; the screening mechanism housing 71 is mounted on the right side of the base 1 and is positioned at the lower right side of the conveying mechanism housing 61; the top cover 72 is detachably mounted at the top end of the inner cavity of the screening mechanism shell 71, and the soil sample in the screening mechanism shell 71 can be taken out after the top cover 72 and the screening plate 76 are taken down; the funnel 73 is arranged at the position, corresponding to the discharge hole 64, on the outer side of the top end of the top cover 72 along the vertical direction, and the bottom end of the funnel 73 extends out of the lower surface of the top cover 72; the fourth motor 74 is arranged at the center of the top end of the top cover 72 in the vertical direction, the output end of the fourth motor 74 extends out of the lower surface of the top cover 72, the fourth motor 74 is electrically connected with the controller 2, and the specific use model of the fourth motor 74 is directly purchased and installed from the market and used according to specific use requirements and is connected with an external adaptive power supply; the stirring blade 75 is screwed to the output end of the fourth motor 74; the screening plate 76 is detachably mounted in the middle of the inner cavity of the screening mechanism housing 71 and is in contact with the lower surface of the stirring blade 75, and the fourth motor 74 can drive the stirring blade 75 to rotate, so that the stirring blade 75 can push soil on the surface of the screening plate 76 to rotate for screening; the waste collection box 77 is detachably mounted on the outer wall of the screening mechanism shell 71 and is positioned above the screening plate 76, the inner cavity of the waste collection box 77 is communicated with the inner cavity of the screening mechanism shell 71, and collected stone garbage and the like are discharged into the waste collection box 77 and then are treated in a centralized manner.
All the electrical components in the present application can be connected with an external adaptive power supply through a wire, and an adaptive external controller should be selected to connect according to specific actual use conditions to meet the control requirements of all the electrical components, and the specific connection mode and the control sequence thereof should be referred to in the following working principle that the electrical components are electrically connected in sequence, the detailed connection means thereof is a known technology in the art and is not described, and the following main description of the working principle and the process specifically works as follows.
When the device is used, a worker places the device at a soil sampling position, the controller 2 sequentially starts the first motor 52 and the hydraulic cylinder 3, the first motor 52 drives the drill rod 53 to rotate, the hydraulic cylinder 3 drives the fixed frame 4 to move downwards through self shortening, the fixed frame 4 drives the drill rod 53 to move downwards under the cooperation of the soil drilling mechanism 5 so as to break through the soil layer, the helical blade at the top end of the soil drilling mechanism 53 breaks through the soil layer and simultaneously takes the soil below to the inner cavity of the soil drilling mechanism shell 51, the worker controls the controller 2 to sequentially start the second motor 57 and the third motor 62, the second motor 57 drives the cam 58 to rotate clockwise, the cam 58 is driven to rotate clockwise, the far hub end and the near hub end of the cam 58 are intermittently contacted with the left side of the T-shaped rod 54, the diameters of the far hub end and the near hub end of the cam 58 are different, when the far hub end of the cam 58 is contacted with the left side of the T-shaped rod 54, the T-shaped rod 54 moves to the right side under the pushing of the cam 58 and presses the spring 56, when the hub end of the cam 58 contacts with the left side of the T-shaped rod 54, the spring 56 pushes the T-shaped rod 54 to move to the left side under the self elastic action, so that the T-shaped rod 54 drives the push plate 55 to reciprocate left and right in the inner cavity of the soil drilling mechanism shell 51, soil in the soil drilling mechanism shell 51 is pushed into the soil drilling mechanism shell 61, the third motor 62 drives the spiral conveying rod 63 to rotate clockwise in the inner cavity of the soil drilling mechanism shell 61, the soil in the soil drilling mechanism shell 61 moves upwards along the inner cavity of the soil drilling mechanism shell 61 under the rotating force of the blades of the spiral conveying rod 63 and is discharged into the hopper 73 through the discharge port 64 and enters the upper surface of the sieving plate 76 in the sieving mechanism shell 71 through the hopper 73, a worker controls the fourth motor 74 to be started, the fourth motor 74 drives the stirring blades 75 to rotate clockwise, impel stirring vane 75 to promote screening board 76 surface soil to rotate to the soil that makes and is less than screening board 76 sieve mesh internal diameter passes the sieve mesh and falls in screening mechanism casing 71 inner chamber below, and the stone that is greater than screening board 76 sieve mesh internal diameter enters into to wait to handle after collecting in garbage collection box 77 under stirring vane 75's rotation, thereby can realize digging the sample to environment soil automatically, easy operation and efficient, and can sieve the stone and rubbish in the sample soil of taking out automatically, the practicality is strong.
In the description of the present invention, it is to be understood that the terms "top end", "bottom end", "one end", "front side", "rear side", "other end", "upper", "lower", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated; also, unless expressly stated or limited otherwise, the terms "mounted," "screwed," "plugged," "interference fit," "disposed," and the like are to be construed broadly, e.g., as a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. The utility model provides an environment measuring is with high-efficient sampling device of soil which characterized in that includes:
a base (1);
the controller (2) is arranged in the left front of the top end of the base (1) along the vertical direction;
the hydraulic cylinder (3) is arranged at the center of the left side of the top end of the base (1) in the vertical direction, and the hydraulic cylinder (3) is electrically connected with the controller (2);
the fixed frame (4) is arranged at the top end of the hydraulic cylinder (3);
the soil drilling mechanism (5) is arranged on the right side of the fixed frame (4) along the vertical direction;
the conveying mechanism (6) is arranged on the right side of the soil drilling mechanism (5);
and the screening mechanism (7) is arranged on the right side of the base (1) and is positioned below the conveying mechanism (6).
2. The soil high-efficiency sampling device for environment detection as recited in claim 1, wherein: the earth boring mechanism (5) comprises:
the soil drilling mechanism shell (51) is installed at the center of the top end of the base (1) along the vertical direction, and the bottom end of the soil drilling mechanism shell (51) penetrates through the lower surface of the base (1);
the first motor (52) is arranged on the right side of the fixed frame (4) along the vertical direction, and the first motor (52) is electrically connected with the controller (2);
and the drill rod (53) is connected to the output end of the first motor (52) through screws in the vertical direction, and the bottom end of the drill rod (53) extends out of the bottom end of the inner cavity of the soil drilling mechanism shell (51).
3. The soil high-efficiency sampling device for environment detection as recited in claim 2, wherein: the earth boring mechanism (5) further comprises:
the T-shaped rod (54) is inserted into the bottom end of the left side of the inner cavity of the soil drilling mechanism shell (51) in the left-right direction, and the left side of the T-shaped rod (54) extends out of the outer wall of the soil drilling mechanism shell (51);
a push plate (55) mounted on the right side of the T-bar (54);
the spring (56) is sleeved on the outer wall of the T-shaped rod (54), one end of the spring (56) is fixedly connected with the inner side of the T-shaped rod (54), and the other end of the spring (56) is fixedly connected with the outer wall of the soil drilling mechanism shell (51);
the second motor (57) is installed at the bottom end of the outer wall of the soil drilling mechanism shell (51) along the front-back direction, and the second motor (57) is electrically connected with the controller (2);
and the cam (58) is connected to the output end of the second motor (57) through a screw, and the outer wall of the cam (58) is contacted with the left end of the T-shaped rod (54).
4. The soil high-efficiency sampling device for environment detection as recited in claim 2, wherein: the conveying mechanism (6) comprises:
the conveying mechanism shell (61) is arranged on the right side of the soil drilling mechanism shell (51) in an upward inclining mode along the left-right direction, and the left side of an inner cavity of the conveying mechanism shell (61) is communicated with the inner cavity of the soil drilling mechanism shell (51);
the third motor (62) is installed at the right center of the conveying mechanism shell (61), the output end of the third motor (62) extends into the inner cavity of the conveying mechanism shell (61), and the third motor (62) is electrically connected with the controller (2);
a screw conveying rod (63) which is connected to the output end of the third motor (62) along the left-right direction by screws;
and the discharge port (64) is arranged at the bottom end of the right side of the outer wall of the conveying mechanism shell (61), and the upper end and the lower end of the inner cavity of the discharge port (64) are respectively communicated with the inner cavity and the outer wall of the conveying mechanism shell (61).
5. The soil high-efficiency sampling device for environment detection as recited in claim 1, wherein: the screening mechanism (7) comprises:
a screening mechanism housing (71) mounted on the right side of the base (1) and located at the lower right side of the conveying mechanism housing (61);
the top cover (72) is detachably arranged at the top end of the inner cavity of the screening mechanism shell (71);
the hopper (73) is arranged at the position, corresponding to the discharge hole (64), of the outer side of the top end of the top cover (72) along the vertical direction, and the bottom end of the hopper (73) extends out of the lower surface of the top cover (72);
the fourth motor (74) is arranged at the center of the top end of the top cover (72) in the vertical direction, the output end of the fourth motor (74) extends out of the lower surface of the top cover (72), and the fourth motor (74) is electrically connected with the controller (2);
the stirring blade (75) is connected to the output end of the fourth motor (74) through a screw;
the screening plate (76) is detachably arranged in the middle of the inner cavity of the screening mechanism shell (71) and is in contact with the lower surface of the stirring blade (75);
the waste collection box (77) is detachably mounted on the outer wall of the screening mechanism shell (71) and is positioned above the screening plate (76), and the inner cavity of the waste collection box (77) is communicated with the inner cavity of the screening mechanism shell (71).
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CN202020295742.2U CN211784435U (en) | 2020-03-11 | 2020-03-11 | Environment measuring is with high-efficient sampling device of soil |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112505289A (en) * | 2020-11-12 | 2021-03-16 | 安徽科技学院 | Automatic soil nutrient detection system |
CN114705490A (en) * | 2022-06-06 | 2022-07-05 | 江苏恒诺农业科技发展有限公司 | Soil sampling detection device for fruit planting |
-
2020
- 2020-03-11 CN CN202020295742.2U patent/CN211784435U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112505289A (en) * | 2020-11-12 | 2021-03-16 | 安徽科技学院 | Automatic soil nutrient detection system |
CN114705490A (en) * | 2022-06-06 | 2022-07-05 | 江苏恒诺农业科技发展有限公司 | Soil sampling detection device for fruit planting |
CN114705490B (en) * | 2022-06-06 | 2022-08-09 | 江苏恒诺农业科技发展有限公司 | Soil sampling detection device for fruit planting |
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