CN217211620U - Sampling device for detecting organic fertilizer calcium, phosphorus and potassium elements - Google Patents

Abstract

The utility model discloses an organic fertile calcium phosphorus potassium element detects uses sampling device, including the box, the box is cylindrical structure, and the top of box is connected with the hollow pole of connection through having seted up the through-hole, the inside of connecting hollow pole and box is provided with the stirring collection mechanism that can collect the fertilizer granule. The utility model discloses a mechanism can be collected the fertilizer granule in the fertilizer windrow inside the cylinder inside groove to the stirring that sets up is collected the mechanism, and can mix the organic fertilizer granule of the different degree of depth and collect the accuracy that subsequent element of being convenient for detected in cylinder inside groove inside, because the fixed plate top makes up into the collection indoor portion that the feed inlet can be collected fixed plate one side and intercommunication groove combination into with the fertilizer granule, then carry out the element detection to the fertilizer of collecting indoor portion through the check out test set that sets up, and it can detect simultaneously and solve need sample many times among the prior art and compare the problem that causes the waste time to be provided with the multiunit collecting chamber.

Description

Sampling device for detecting organic fertilizer calcium, phosphorus and potassium elements

Technical Field

The utility model relates to a fertilizer detection area specifically is a sampling device is used in organic fertile calcium phosphorus potassium element detection.

Background

The organic fertilizer is mainly derived from plants and animals, is prepared from carbon-containing materials which are applied to soil to provide plant nutrition and have main functions, is processed by biological substances, animal and plant wastes and plant residues, eliminates toxic and harmful substances in the organic fertilizer, is rich in a large amount of beneficial substances, can provide comprehensive nutrition for crops, has long fertilizer efficiency, can increase and update soil organic matters, promotes the propagation of microorganisms, improves the physicochemical property and the biological activity of the soil, and is also a main nutrient for green food production.

Whether the organic fertilizer is excellent or not is determined by the content of calcium, phosphorus and potassium elements contained in the organic fertilizer, however, in the prior art, samples for detecting the calcium, phosphorus and potassium elements in the organic fertilizer are generally sampled for multiple times to be compared, and the result can be obtained, so that time is wasted.

Therefore, it is necessary to provide a sampling device for detecting organic fertilizer calcium, phosphorus and potassium elements to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an organic fertile calcium phosphorus potassium element detects uses sampling device to solve the problem that above-mentioned background art exists.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an organic fertile calcium phosphorus potassium element detects uses sampling device, the power distribution box comprises a box body, the box is cylindrical structure, the top of box is connected with the hollow pole of connection through having seted up the through-hole, the inside of connecting hollow pole and box is provided with the stirring collection mechanism that can collect the fertilizer granule, the inside from top to bottom equidistance of box is provided with element detection mechanism.

Preferably, the stirring and collecting mechanism comprises a spiral shaft groove arranged at the lower half section of the inner wall of the connecting hollow rod, the inner wall of the spiral shaft groove is spirally connected with a spiral shaft rod, the top of the spiral shaft rod is connected with a fixed rod through a bearing, the top of the fixed rod is connected with a pressing plate in a penetrating mode with the top of the connecting hollow rod, a cylindrical inner groove is formed in the box body and penetrates through the bottom of the box body, a stirring rod connected to the bottom of the spiral shaft rod is arranged inside the cylindrical inner groove, and a spiral shaft blade is installed on the outer wall of the stirring rod.

Preferably, the spiral shaft rod and the connecting hollow rod form a spiral up-and-down rotating structure through a spiral shaft groove.

Preferably, the spiral shaft blade is of a screw auger structure, and the bottom of the stirring rod is connected with a conical block.

Preferably, the element detection mechanism comprises a communicating groove formed in the inner wall of the box body and communicated with the cylindrical inner groove, a fixing plate is fixedly connected to the bottom of one end, close to the cylindrical inner groove, of the communicating groove, a collection chamber is formed by combining one side of the fixing plate and the communicating groove, a feeding hole is formed by combining the top of the fixing plate and the communicating groove, and detection equipment penetrating through the box body to the outer side is arranged inside the collection chamber.

Preferably, the detection equipment comprises an element detector arranged inside the collection chamber, and the element detector penetrates through the outer side of the box body and is electrically connected with a display screen.

Preferably, the top of the fixing plate is in an inclined outward structure.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a mechanism can be collected the fertilizer granule in the fertilizer windrow inside the cylinder inside groove to the stirring that sets up is collected the mechanism, and can mix the organic fertilizer granule of the different degree of depth and collect the accuracy that subsequent element of being convenient for detected in cylinder inside groove inside, because the fixed plate top makes up into the collection indoor portion that the feed inlet can be collected fixed plate one side and intercommunication groove combination into with the fertilizer granule, then carry out the element detection to the fertilizer of collecting indoor portion through the check out test set that sets up, and it can detect simultaneously and solve need sample many times among the prior art and compare the problem that causes the waste time to be provided with the multiunit collecting chamber.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a schematic front view of the present invention;

fig. 4 is an enlarged view of a portion a in fig. 3 according to the present invention.

In the figure: 1. a box body; 2. connecting the hollow rod; 3. a stirring and collecting mechanism; 301. a helical shaft groove; 302. a helical shaft lever; 303. fixing the rod; 304. a pressing plate; 305. a cylindrical inner groove; 306. a stirring rod; 307. a helical shaft blade; 4. an element detection mechanism; 401. a communicating groove; 402. a fixing plate; 403. a collection chamber; 404. a feed inlet; 405. a detection device; 4051. an element detector; 4052. a display screen; 5. and (5) a conical block.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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 of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "disposed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention according to its overall structure.

Referring to fig. 1-4, a sampling device for detecting organic fertilizer calcium phosphorus potassium elements comprises a box body 1, wherein the box body 1 is of a cylindrical structure, the top of the box body 1 is connected with a connecting hollow rod 2 through a through hole, a stirring and collecting mechanism 3 capable of collecting organic fertilizer particles is arranged inside the connecting hollow rod 2 and the box body 1, and element detection mechanisms 4 are arranged inside the box body 1 from top to bottom at equal intervals.

As shown in fig. 1-4, the stirring and collecting mechanism 3 comprises a spiral shaft groove 301 disposed at the lower half section of the inner wall of the connecting hollow rod 2, the inner wall of the spiral shaft groove 301 is connected with a spiral shaft rod 302 in a spiral manner, the top of the spiral shaft rod 302 is connected with a fixed rod 303 through a bearing, the top of the fixed rod 303 is connected with a pressing plate 304 through the top of the connecting hollow rod 2, a cylindrical inner groove 305 is disposed inside the box 1 and penetrates the bottom of the box 1, a stirring rod 306 connected to the bottom of the spiral shaft rod 302 is disposed inside the cylindrical inner groove 305, a spiral shaft blade 307 is mounted on the outer wall of the stirring rod 306, when in use, the box 1 is firstly inserted into an organic fertilizer stack, organic fertilizer particles in the organic fertilizer compost can be collected in the cylindrical inner groove 305 through the arranged stirring and collecting mechanism 3, and can mix the fertilizer granule of the different degree of depth and collect the accuracy of subsequent element detection of being convenient for inside cylinder inside groove 305.

As shown in fig. 1-4, the screw shaft 302 and the hollow rod 2 form a spiral up-and-down rotating structure through the screw shaft groove 301, when organic fertilizer particles need to be sampled, a worker only needs to hold the pressing plate 304 with a hand to apply downward pressure, at this time, the fixing rod 303 moves downward and drives the screw shaft 302 and the screw shaft groove 301 to perform rotary spiral movement through the bearing, the screw shaft 302 rotates downward and drives the stirring rod 306 to rotate downward, the stirring rod 306 rotates downward and drives the screw shaft blade 307 to move downward, at this time, the top of the screw shaft blade 307 can support the organic fertilizer particles, then the worker holds the pressing plate 304 to apply upward tension to drive the fixing rod 303 to move upward, at this time, the screw shaft 302 rotates upward and moves to make the screw shaft blade 307 move upward and transport the organic fertilizer particles into the cylindrical inner groove 305, and the worker can drive the screw shaft blade 307 to collect the organic fertilizer particles at different depths by continuously repeating the fixing rod 303 to drive the screw shaft blade 307 to move upward and downward And collects inside the cylindrical inner tank 305.

As shown in fig. 1-4, the screw shaft blade 307 is in an auger structure, the bottom of the stirring rod 306 is connected with the conical block 5, when organic fertilizer is sampled, robber particles can be continuously transported upwards by the screw shaft blade 307 in the auger structure, the stirring rod 306 can better move downwards by the rotation of the conical block 5, and the resistance of the stirring rod 306 to move downwards is reduced.

As shown in fig. 1-4, the element detection mechanism 4 includes a communication groove 401 provided in the inner wall of the box 1 and communicating with the cylindrical inner groove 305, a fixing plate 402 is fixedly connected to the bottom of one end of the communication groove 401 near the cylindrical inner groove 305, a collection chamber 403 is formed by combining one side of the fixing plate 402 and the communication groove 401, a feed inlet 404 is formed by combining the top of the fixing plate 402 and the communication groove 401, a detection device 405 penetrating to the outside of the box 1 is provided inside the collection chamber 403, when organic fertilizer particles are transported to the inside of the cylindrical inner groove 305 through the stirring collection mechanism 3, the organic fertilizer particles can be collected inside the collection chamber 403 formed by combining one side of the fixing plate 402 and the communication groove 401 due to the feed inlet 404 formed by combining the top of the fixing plate 402 and the communication groove 401, and then element detection is performed on the organic fertilizer inside the collection chamber 403 through the detection device 405.

As shown in fig. 1-4, the detection device 405 includes an element detector 4051 installed inside the collection chamber 403, the element detector 4051 penetrates to the outside of the box body 1 and is electrically connected with a display screen 4052, the element detector 4051 through the setting performs element detection on the organic fertilizer inside the collection chamber 403, and then the result is displayed to the staff through the display screen 4052.

As shown in fig. 1-4, the top of the fixing plate 402 is an inclined outward structure, after the detection of organic fertilizer is finished, only the bottom of the box body 1 needs to be directed upward, then the box body 1 is vibrated to scatter organic fertilizer particles in the collecting chamber 403 in the cylindrical inner groove 305 through the inclined structure at the top of the fixing plate 402, and then the box body 1 is reset to pour out the organic fertilizer particles.

The working principle is as follows: when the device is used, firstly, the box body 1 is inserted into an organic fertilizer windrow, then organic fertilizer particles in the organic fertilizer windrow can be collected inside the cylindrical inner groove 305 through the arranged stirring and collecting mechanism 3, and organic fertilizer particles with different depths can be mixed and collected inside the cylindrical inner groove 305, so that the accuracy of subsequent element detection is convenient, when organic fertilizer particles need to be sampled, a worker only needs to hold the pressing plate 304 by hand to apply pressure downwards, at the moment, the fixing rod 303 can move downwards and drive the spiral shaft rod 302 and the spiral shaft groove 301 to rotate and spirally move through the bearing, the spiral shaft rod 302 can rotate and move downwards to drive the stirring rod 306 to rotate and move downwards, the stirring rod 306 rotates and moves downwards to drive the spiral shaft blade 307 to move downwards, at the moment, the top of the spiral shaft blade 307 can support organic fertilizer particles, then the worker holds the pressing plate 304 to apply tensile force upwards to drive the fixing rod 303 to move upwards, at the moment, the spiral shaft lever 302 rotates and moves upwards to enable the spiral shaft blade 307 to move upwards to transport organic fertilizer particles into the cylindrical inner groove 305, a worker can drive the spiral shaft blade 307 to collect organic fertilizer particles with different depths into the cylindrical inner groove 305 by continuously repeating the up-and-down movement of the fixing lever 303, when sampling organic fertilizer, robber particles can be continuously transported upwards by the auger structure of the arranged spiral shaft blade 307, the stirring rod 306 can better move downwards by the rotation of the arranged conical block 5, the resistance of the stirring rod 306 to move downwards is reduced, when the organic fertilizer particles are transported into the cylindrical inner groove 305 by the arranged stirring and collecting mechanism 3, the organic fertilizer particles can be collected into the collecting chamber 403 formed by combining the top of the fixing plate 402 with the communicating groove 401 at one side of the fixing plate 402 and the communicating groove 401, then carry out the element through the check out test set 405 that sets up to the inside fertilizer of collecting chamber 403 and detect, carry out the element through the inside fertilizer of collecting chamber 403 through the element detector 4051 that sets up and detect, then show the staff with the result through the display screen 4052 that sets up, after organic fertilizer detects, only need with box 1 bottom towards the top, then shake box 1 and can scatter the inside fertilizer granule of collecting chamber 403 in cylinder inside groove 305 through the slope structure at fixed plate 402 top, then reset box 1 and can pour out the fertilizer granule.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides an organic fertile calcium phosphorus potassium element detects uses sampling device, includes box (1), its characterized in that: the utility model discloses a fertilizer spraying device, box (1) is cylindrical structure, the top of box (1) is connected with connects hollow rod (2) through seting up the through-hole, connect hollow rod (2) and the inside of box (1) and be provided with stirring collection mechanism (3) that can collect the fertilizer granule, box (1) inside from top to bottom equidistance is provided with element detection mechanism (4).

2. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium elements as claimed in claim 1, wherein: the stirring and collecting mechanism (3) comprises a spiral shaft groove (301) which is arranged at the lower half section of the inner wall of the connecting hollow rod (2), the inner wall of the spiral shaft groove (301) is spirally connected with a spiral shaft rod (302), the top of the spiral shaft rod (302) is connected with a fixing rod (303) through a bearing, the top of the fixing rod (303) is connected with a pressing plate (304) in a penetrating manner with the hollow rod (2), a cylindrical inner groove (305) is formed in the box body (1) and penetrates through the bottom of the box body (1), a stirring rod (306) which is connected to the bottom of the spiral shaft rod (302) is arranged in the cylindrical inner groove (305), and a spiral shaft blade (307) is arranged on the outer wall of the stirring rod (306).

3. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium element as claimed in claim 2, wherein: the spiral shaft rod (302) and the connecting hollow rod (2) form a spiral up-and-down rotating structure through the spiral shaft groove (301).

4. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium element as claimed in claim 2, wherein: the spiral shaft blade (307) is of a screw auger structure, and the bottom of the stirring rod (306) is connected with a conical block (5).

5. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium elements as claimed in claim 1, wherein: the element detection mechanism (4) comprises a communicating groove (401) formed in the inner wall of the box body (1) and communicated with the cylindrical inner groove (305), a fixing plate (402) is fixedly connected to the bottom of one end, close to the cylindrical inner groove (305), of the communicating groove (401), a collection chamber (403) is formed by combining one side of the fixing plate (402) with the communicating groove (401), a feeding hole (404) is formed by combining the top of the fixing plate (402) with the communicating groove (401), and detection equipment (405) penetrating to the outer side of the box body (1) is arranged inside the collection chamber (403).

6. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium elements as claimed in claim 5, wherein: the detection device (405) comprises an element detector (4051) installed inside the collection chamber (403), and the element detector (4051) penetrates through the box body (1) and is electrically connected with a display screen (4052).

7. The sampling device for detecting the organic fertilizer calcium, phosphorus and potassium elements as claimed in claim 5, wherein: the top of the fixing plate (402) is in an inclined outward structure.

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