CN211347576U - Organic fertilizer sampling detector - Google Patents
Organic fertilizer sampling detector Download PDFInfo
- Publication number
- CN211347576U CN211347576U CN201922440188.2U CN201922440188U CN211347576U CN 211347576 U CN211347576 U CN 211347576U CN 201922440188 U CN201922440188 U CN 201922440188U CN 211347576 U CN211347576 U CN 211347576U
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- cylinder body
- cylinder
- rotating shaft
- sampling
- organic fertilizer
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Abstract
The utility model relates to an organic fertilizer sampling detector, which comprises a sampling cylinder body, wherein the sampling cylinder body comprises a cylinder body A and a cylinder body B, the cylinder body A and the cylinder body B are coaxially arranged and are alternately distributed along the axial direction, the cylinder body A is a fusiform structure consisting of a cone cylinder A and a cone cylinder B, a feed inlet is arranged on the side wall of the cone cylinder A, a cone baffle is arranged on the inner surface of the cone cylinder A in a sliding way, the cone baffle is fixedly connected on a rotating shaft A, the rotating shaft A is arranged on a sealing baffle close to the lower end in the cylinder body A in a rotating way, a through hole is arranged on the side surface of the cone baffle corresponding to the feed inlet, a rotating shaft B is arranged in the cylinder body B, the upper surface of the sampling cylinder body is connected with a sleeve, a connecting shaft is arranged in the, the bottom ends of the rotating shaft B and the connecting shaft are respectively provided with a clamping shaft matched with the clamping groove; the utility model discloses simple structure, operation convenient to use, can take a sample to the fertilizer of different degree of depth department simultaneously.
Description
Technical Field
The utility model belongs to the technical field of organic fertilizer production detects, concretely relates to organic fertilizer sampling detector.
Background
In the process that the fertilizer is piled up and decomposed in the fermentation tank, the decomposing condition of the fertilizer needs to be known at any time, besides the observation of the temperature inside the fertilizer pile, various technical indexes of the fertilizer, such as the contents of nitrogen, phosphorus, potassium, organic matters, pH value, moisture and the like, also need to be monitored at any time, so that the sampling of the piled fertilizer directly determines whether the monitoring data is accurate or not; at present, a common sampler basically adopts a long steel pipe as a storage pipe, and the long steel pipe is inserted into a fertilizer accumulation and then pulled out, so that the sampling mode is not beneficial to layered sampling of the accumulated fertilizer, the fertilizer decomposition condition of each depth cannot be accurately known, and errors of analysis data are often caused; therefore, it is very necessary to design an organic fertilizer sampling detector which has simple structure and convenient operation and use and can simultaneously sample fertilizers at different depths.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defects and the insufficiency of the prior art, providing an organic fertilizer sampling detector which has simple structure and convenient operation and use and can sample the fertilizer at different depths.
The purpose of the utility model is realized like this: a sampling detector for organic fertilizers comprises a sampling cylinder body, wherein the sampling cylinder body comprises a cylinder body A and a cylinder body B, the cylinder body A and the cylinder body B are connected in a detachable mode, the cylinder body A and the cylinder body B are coaxially arranged and are distributed at intervals along the axial direction of the cylinder body A, the cylinder body A is of a shuttle-shaped structure consisting of a conical cylinder A and a conical cylinder B, a feed inlet is formed in the side wall of the conical cylinder A, a conical baffle is arranged on the inner surface of the conical cylinder A in a sliding mode and fixedly connected to a rotating shaft A, the rotating shaft A is rotatably arranged on a sealing baffle close to the lower end in the cylinder body A, a through hole is formed in the side surface of the conical baffle corresponding to the feed inlet, a rotating shaft B is arranged in the cylinder body B, a sleeve is connected to the upper surface of the sampling cylinder body, and a connecting shaft is rotatably arranged in the sleeve, the top of pivot A and pivot B be provided with the draw-in groove respectively, the bottom of pivot A, pivot B and connecting axle be provided with draw-in groove matched with card axle respectively.
The sleeve is in threaded connection with the sampling cylinder body and the cylinder body A and the cylinder body B respectively.
The inner surface of the sleeve is provided with an arc-shaped groove in the horizontal direction, the two ends of the arc-shaped groove are provided with spherical grooves, the side surface of the connecting shaft is provided with a spring hole in the horizontal position corresponding to the arc-shaped groove, a spring is arranged in the spring hole, the movable end of the spring is provided with a steel ball, and the steel ball is arranged in the arc-shaped groove in a rolling manner.
And the upper end of the connecting shaft and the outer wall of the sleeve are respectively connected with an operating handle A and an operating handle B.
The lower end of the cylinder A at the lowest end is connected with a conical sealing cover.
The upper end of the cylinder body B adopts a structural size which can be connected and matched with the lower ends of other cylinder bodies B.
The cross sections of the clamping shaft and the clamping groove are in rectangular structures or irregular polygonal structures.
The utility model has the advantages that: the utility model provides a sample barrel is connected by fusiform barrel A and columnar barrel B and constitutes, wherein, barrel A is used for gathering fertilizer sample, and barrel B can be used for adjusting the distance between the adjacent barrel A, thereby control the degree of depth of sampling point, after sample barrel assembly is accomplished, the feed inlet on all barrel A just in time staggers with the through-hole on the toper baffle, then insert sample barrel in the waste heap, after sending all barrel A to corresponding degree of depth position in the chemical fertilizer heap, the rotation connecting axle, make it drive the toper baffle rotation in different barrel A through pivot A and pivot B, make the feed inlet on all barrel A just in time correspond with the through-hole on the toper baffle, fertilizer gets into in corresponding barrel A through the feed inlet, after the sample is accomplished, reverse rotation connecting axle, make the through-hole on the toper baffle resume the normal position, and then the sampling barrel is pulled upwards to obtain a fertilizer sample at a corresponding depth in the fertilizer pile, and the fertilizer in the barrel A can be poured out through the opening at the upper end of the barrel A, so that the operation is very simple and convenient.
Drawings
FIG. 1 is a schematic structural diagram of an organic fertilizer sampling detector of the present invention.
FIG. 2 is a schematic view of a partial structure of the organic fertilizer sampling detector of the present invention.
FIG. 3 is a schematic view of the top view structure of a cone barrel A of the organic fertilizer sampling detector of the present invention.
FIG. 4 is a schematic view of the top view structure of the conical baffle plate in the organic fertilizer sampling detector of the present invention.
FIG. 5 is a schematic view of the cross-sectional structure of the sleeve in the organic fertilizer sampling detector of the present invention.
FIG. 6 is a schematic view of the top view of the rotating shaft A of the organic fertilizer sampling detector of the present invention.
FIG. 7 is a schematic view of the bottom view of the rotating shaft A of the organic fertilizer sampling detector of the present invention.
In the figure: 1. the device comprises a conical cylinder A2, a feed inlet 3, a conical baffle 4, a conical cylinder B5, a rotating shaft B6, a cylinder B7, a sealing cover 8, a cylinder A9, a sealing baffle 10, a rotating shaft A11, a through hole 12, a spring 13, a steel ball 14, a spring hole 15, a sleeve 16, an operating handle A17, a connecting shaft 18, an operating handle B19, an arc-shaped groove 20, a spherical groove 21, a clamping groove 22 and a clamping shaft.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Example 1
As shown in fig. 1-7, an organic fertilizer sampling detector comprises a sampling cylinder body, the sampling cylinder body comprises a cylinder body A8 and a cylinder body B6, the cylinder body A8 is detachably connected with the cylinder body B6, the cylinder body A8 and the cylinder body B6 are coaxially arranged and are alternately distributed along the axial direction, the cylinder body A8 is a shuttle-shaped structure composed of a cone cylinder a1 and a cone cylinder B4, a feed inlet 2 is arranged on the side wall of the cone cylinder a1, a cone baffle 3 is arranged on the inner surface of the cone cylinder a1 in a sliding manner, the cone baffle 3 is fixedly connected with a rotating shaft a10, the rotating shaft a10 is rotatably arranged on a sealing baffle 9 close to the lower end in the cylinder body A8, a through hole 11 is arranged on the side surface of the cone baffle 3 corresponding to the feed inlet 2, a rotating shaft B5 is arranged in the cylinder body B6, and a sleeve 15 is connected with the upper surface of the sampling cylinder body, the sleeve 15 is provided with a connecting shaft 17 in a rotating manner, the top ends of the rotating shaft A10 and the rotating shaft B5 are respectively provided with a clamping groove 21, and the bottom ends of the rotating shaft A10, the rotating shaft B5 and the connecting shaft 17 are respectively provided with a clamping shaft 22 matched with the clamping grooves 21.
The utility model provides a sample barrel is connected by fusiform barrel A and columnar barrel B and constitutes, wherein, barrel A is used for gathering fertilizer sample, and barrel B can be used for adjusting the distance between the adjacent barrel A, thereby control the degree of depth of sampling point, after sample barrel assembly is accomplished, the feed inlet on all barrel A just in time staggers with the through-hole on the toper baffle, then insert sample barrel in the waste heap, after sending all barrel A to corresponding degree of depth position in the chemical fertilizer heap, the rotation connecting axle, make it drive the toper baffle rotation in different barrel A through pivot A and pivot B, make the feed inlet on all barrel A just in time correspond with the through-hole on the toper baffle, fertilizer gets into in corresponding barrel A through the feed inlet, after the sample is accomplished, reverse rotation connecting axle, make the through-hole on the toper baffle resume the normal position, then the sampling barrel is pulled upwards to obtain a fertilizer sample at a corresponding depth in the fertilizer pile, and the fertilizer in the barrel A can be poured out through the upper end opening of the barrel A; generally, the utility model has the advantages of simple structure, operation convenient to use, can carry out the sample to the fertilizer of the different degree of depth department simultaneously.
Example 2
As shown in fig. 1-7, an organic fertilizer sampling detector comprises a sampling cylinder body, the sampling cylinder body comprises a cylinder body A8 and a cylinder body B6, the cylinder body A8 is detachably connected with the cylinder body B6, the cylinder body A8 and the cylinder body B6 are coaxially arranged and are alternately distributed along the axial direction, the cylinder body A8 is a shuttle-shaped structure composed of a cone cylinder a1 and a cone cylinder B4, a feed inlet 2 is arranged on the side wall of the cone cylinder a1, a cone baffle 3 is arranged on the inner surface of the cone cylinder a1 in a sliding manner, the cone baffle 3 is fixedly connected with a rotating shaft a10, the rotating shaft a10 is rotatably arranged on a sealing baffle 9 close to the lower end in the cylinder body A8, a through hole 11 is arranged on the side surface of the cone baffle 3 corresponding to the feed inlet 2, a rotating shaft B5 is arranged in the cylinder body B6, and a sleeve 15 is connected with the upper surface of the sampling cylinder body, the sleeve 15 is internally and rotatably provided with a connecting shaft 17, the top ends of the rotating shaft A10 and the rotating shaft B5 are respectively provided with a clamping groove 21, and the bottom ends of the rotating shaft A10, the rotating shaft B5 and the connecting shaft 17 are respectively provided with a clamping shaft 22 matched with the clamping groove 21; the sleeve 15 is in threaded connection with the sampling cylinder body, and the cylinder body A8 and the cylinder body B6 are in threaded connection with each other; an arc-shaped groove 19 in the horizontal direction is formed in the inner surface of the sleeve 15, spherical grooves 20 are formed in two ends of the arc-shaped groove 19, a spring hole 14 is formed in the side surface of the connecting shaft 17 in the horizontal position corresponding to the arc-shaped groove 19, a spring 12 is arranged in the spring hole 14, a steel ball 13 is arranged at the movable end of the spring 12, and the steel ball 13 is arranged in the arc-shaped groove 19 in a rolling mode; the upper end of the connecting shaft 17 and the outer wall of the sleeve 15 are respectively connected with an operating handle A16 and an operating handle B18; the lower end of the cylinder A8 at the lowest end is connected with a conical sealing cover 7; the upper end of the cylinder B6 adopts a structural size which can be connected and matched with the lower ends of other cylinders B6; the cross-sectional shapes of the clamping shaft 22 and the clamping groove 21 are rectangular structures or irregular polygonal structures.
The utility model provides a sample barrel is connected by fusiform barrel A and columnar barrel B and constitutes, wherein, barrel A is used for gathering fertilizer sample, and barrel B can be used for adjusting the distance between the adjacent barrel A, thereby control the degree of depth of sampling point, after sample barrel assembly is accomplished, the feed inlet on all barrel A just in time staggers with the through-hole on the toper baffle, then insert sample barrel in the waste heap, after sending all barrel A to corresponding degree of depth position in the chemical fertilizer heap, the rotation connecting axle, make it drive the toper baffle rotation in different barrel A through pivot A and pivot B, make the feed inlet on all barrel A just in time correspond with the through-hole on the toper baffle, fertilizer gets into in corresponding barrel A through the feed inlet, after the sample is accomplished, reverse rotation connecting axle, make the through-hole on the toper baffle resume the normal position, then the sampling barrel is pulled upwards to obtain a fertilizer sample at a corresponding depth in the fertilizer pile, and the fertilizer in the barrel A can be poured out through the upper end opening of the barrel A; the sleeve and the sampling cylinder body and the cylinder body A and the cylinder body B are respectively in threaded connection, so that the disassembly and the assembly are convenient, and the connection sealing performance is good; the inner surface of the sleeve is provided with an arc-shaped groove in the horizontal direction, two ends of the arc-shaped groove are provided with spherical grooves, the side surface of the connecting shaft is provided with a spring hole in the horizontal position corresponding to the arc-shaped groove, a spring is arranged in the spring hole, the movable end of the spring is provided with a steel ball, the steel ball is arranged in the arc-shaped groove in a rolling manner, when the steel ball is just clamped in the spherical grooves at the two ends of the arc-shaped groove, the connecting shaft is just positioned at the rotation limit position, namely, a through hole on the conical baffle is just corresponding to the feed inlet or the conical baffle completely blocks the feed inlet, so that the rotating positioning of the connecting shaft is facilitated, and fertilizer is prevented from entering the barrel A from a gap of the feed inlet; the upper end of the connecting shaft and the outer wall of the sleeve 15 are respectively connected with an operating handle A and an operating handle B, so that the operation is convenient; the lower end of the cylinder A at the lowest end is connected with a conical sealing cover, so that the resistance of pushing the feeding pipe downwards is reduced; the upper end of the cylinder body B in the utility model adopts a structure which can be matched with the lower ends of other cylinder bodies B, and the purpose of adjusting the distance between the adjacent cylinder bodies A can be achieved through the connection of a plurality of cylinder bodies B; the cross sections of the clamping shaft and the clamping groove are of rectangular structures or irregular polygonal structures, so that the conical baffle plate is convenient to rotate and position in the installation process; generally, the utility model has the advantages of simple structure, operation convenient to use, can carry out the sample to the fertilizer of the different degree of depth department simultaneously.
Claims (6)
1. The utility model provides an organic fertilizer sampling detector, it includes the sample barrel, its characterized in that: the sampling cylinder comprises a cylinder body A and a cylinder body B, the cylinder body A and the cylinder body B are connected in a detachable mode, the cylinder body A and the cylinder body B are coaxially arranged and are distributed at intervals along the axial direction of the cylinder body A, the cylinder body A is of a shuttle-shaped structure consisting of a conical cylinder A and a conical cylinder B, a feed inlet is formed in the side wall of the conical cylinder A, a conical baffle is arranged on the inner surface of the conical cylinder A in a sliding mode and is fixedly connected to the rotating shaft A, the rotating shaft A is rotatably arranged on a sealing baffle close to the lower end in the cylinder body A, a through hole is formed in the side surface of the conical baffle corresponding to the feed inlet, a rotating shaft B is arranged in the cylinder body B, a sleeve is connected to the upper surface of the sampling cylinder body, a connecting shaft is rotatably arranged in the sleeve, and clamping grooves are respectively formed in the top ends of the rotating shaft A and the rotating shaft, and clamping shafts matched with the clamping grooves are respectively arranged at the bottom ends of the rotating shaft A, the rotating shaft B and the connecting shaft.
2. The organic fertilizer sampling detector of claim 1, characterized in that: the sleeve is in threaded connection with the sampling cylinder body and the cylinder body A and the cylinder body B respectively.
3. The organic fertilizer sampling detector of claim 1, characterized in that: the inner surface of the sleeve is provided with an arc-shaped groove in the horizontal direction, the two ends of the arc-shaped groove are provided with spherical grooves, the side surface of the connecting shaft is provided with a spring hole in the horizontal position corresponding to the arc-shaped groove, a spring is arranged in the spring hole, the movable end of the spring is provided with a steel ball, and the steel ball is arranged in the arc-shaped groove in a rolling manner.
4. The organic fertilizer sampling detector of claim 1, characterized in that: and the upper end of the connecting shaft and the outer wall of the sleeve are respectively connected with an operating handle A and an operating handle B.
5. The organic fertilizer sampling detector of claim 1, characterized in that: the lower end of the cylinder A at the lowest end is connected with a conical sealing cover.
6. The organic fertilizer sampling detector of claim 1, characterized in that: the upper end of the cylinder B adopts a structural size which can be connected and matched with the lower end of the cylinder B.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201922440188.2U CN211347576U (en) | 2019-12-30 | 2019-12-30 | Organic fertilizer sampling detector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201922440188.2U CN211347576U (en) | 2019-12-30 | 2019-12-30 | Organic fertilizer sampling detector |
Publications (1)
Publication Number | Publication Date |
---|---|
CN211347576U true CN211347576U (en) | 2020-08-25 |
Family
ID=72133510
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201922440188.2U Expired - Fee Related CN211347576U (en) | 2019-12-30 | 2019-12-30 | Organic fertilizer sampling detector |
Country Status (1)
Country | Link |
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CN (1) | CN211347576U (en) |
-
2019
- 2019-12-30 CN CN201922440188.2U patent/CN211347576U/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 |
Granted publication date: 20200825 Termination date: 20211230 |
|
CF01 | Termination of patent right due to non-payment of annual fee |