CN219121966U - Automatic on-line detection mechanism for organic compound fertilizer conveying - Google Patents

Abstract

An automatic online detection mechanism for organic compound fertilizer conveying comprises a feeding chute, wherein strip holes are formed in the side walls of the feeding chute, a rotating plate is arranged in each strip hole, one end of each rotating plate is hinged in each strip hole through a connecting pin, and the connecting pins are connected with a driving device through shafts; a sampling bin is arranged outside the feeding chute at one side of the strip hole, a material blocking mechanism bin is arranged at one side of the sampling bin, a partition plate is arranged in the material blocking mechanism bin, a guide column is arranged on the partition plate, the upper end of the guide column passes through the baffle plate, a spring is sleeved on the guide column below the baffle plate, and a traction rope is arranged at the bottom of the baffle plate and connected with the rotating plate after passing through the partition plate; a rotating shaft is arranged in the sampling bin, a rotating cone is arranged on the rotating shaft, and a fine material weighing area is arranged below the sampling bin; a coarse bin is arranged on one side of the sampling bin; and a coarse material weighing area is arranged below the coarse material bin. The utility model adopts the above structure, can realize online sample and automated inspection, need not to shut down, and the product after the detection can return to the transfer chain again in, avoids the product extravagant.

Description

Automatic on-line detection mechanism for organic compound fertilizer conveying

Technical Field

The utility model relates to the technical field of composite microbial fertilizer processing, in particular to an automatic online detection mechanism for organic compound fertilizer conveying.

Background

In the production and conveying process of the organic compound fertilizer, products with undesirable particle sizes possibly mixed in the products need to be sampled and detected, and due to continuous operation of a conveying line, shutdown sampling is needed in the sampling process, so that a vacuum period exists in conveying operation, and if the purpose of sampling can be achieved without shutdown, the conveying operation efficiency can be effectively ensured, and the operation continuity is ensured.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an automatic online detection mechanism for organic compound fertilizer conveying, which can realize online sampling and automatic detection without stopping, and the detected product can be returned to a conveying line again, so that the waste of the product is avoided.

In order to solve the technical problems, the utility model adopts the following technical scheme: the automatic online detection mechanism for organic compound fertilizer conveying comprises a feeding chute, wherein strip holes are formed in the side wall of the feeding chute, a rotating plate is arranged in each strip hole, one end of the rotating plate is hinged in each strip hole through a connecting pin, and the connecting pin is connected with a driving device shaft;

the feeding chute on one side of the strip hole is externally provided with a sampling bin, one side of the sampling bin is provided with a material blocking mechanism bin, the material blocking mechanism bin is contacted with the side wall of the feeding chute and is arranged to cover the strip hole, a baffle plate is arranged in the material blocking mechanism bin, a guide column is arranged on the baffle plate, the upper end of the guide column passes through the baffle plate, a spring is sleeved on the guide column below the baffle plate, the bottom of the baffle plate is provided with a traction rope, and the traction rope is fixedly connected with the outer wall of one end of the rotating plate, which is far away from the connecting pin, after passing through the baffle plate;

a vertical rotating shaft is arranged in the sampling bin, the rotating shaft is driven by a motor arranged at the top of the sampling bin, a rotary cone is arranged on the rotating shaft, and a fine material weighing area is arranged below the sampling bin;

a coarse material bin is arranged on one side of the sampling bin, which is far away from the feeding chute, and the sampling bin is communicated with the coarse material bin through coarse material passing holes in the sampling bin;

and a coarse fodder weighing area is arranged below the coarse fodder bin.

In the preferred scheme, the feeding chute is provided with an arc groove on the inner wall of one side far away from the rotating plate, and the arc groove is positioned on the annular running track at one end of the rotating plate.

In the preferred scheme, a rotating plate limiting plate is arranged on the inner wall of the feeding chute above the arc groove.

In the preferred scheme, the feeding chute outer wall below the strip hole is provided with a direction-adjusting ring, and one end of the traction rope far away from the baffle plate bypasses the direction-adjusting ring and is connected with the rotating plate.

In the preferred scheme, the horizontal cross section diameter of rotatory cone from top to bottom increases gradually, is equipped with a plurality of radiant panels on the lateral wall of rotatory cone, the outer fringe laminating of radiant panel is on the sampling storehouse inner wall.

In the preferred scheme, the coarse fodder passing hole and the rotary cone are arranged on the same horizontal height.

In the preferred scheme, the bottom of coarse fodder weighing area and fine fodder weighing area be equipped with a loading plate respectively, two loading plates set up on two weighing sensor, two weighing sensor are connected to on the controller.

In the preferred scheme, the coarse material weighing area and the fine material weighing area are connected through a material passing pipe perpendicular to the material conveying direction, a cylinder is arranged outside one side, far away from the fine material weighing area, of the coarse material weighing area, a pushing plate is arranged on a cylinder driving rod and extends into the coarse material weighing area and the fine material weighing area, and materials on the material bearing plate are pushed into the feeding chute again along the material passing pipe direction.

The automatic online detection mechanism for organic compound fertilizer delivery provided by the utility model has the following beneficial effects by adopting the structure:

(1) The purpose of sampling without stopping is realized, the continuity of conveying operation is ensured, and the problem of conveying efficiency reduction caused by stopping sampling is avoided;

(2) The automatic detection purpose is achieved, after the detection operation is finished, products can be returned to the conveying line, and waste of the products is avoided.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

fig. 1 is a schematic view of the structure of the present utility model during transportation.

Fig. 2 is a schematic view of a rotary cone structure according to the present utility model.

FIG. 3 is a schematic diagram of the sampling structure according to the present utility model.

In the figure: the device comprises a feeding chute 1, a strip hole 2, a rotary plate 3, a connecting pin 4, an arc groove 5, a rotary plate limiting plate 6, a sampling bin 7, a material blocking mechanism bin 8, a partition plate 9, a traction rope 10, a steering ring 11, a baffle 12, a guide post 13, a spring 14, a rotating shaft 15, a rotary cone 16, a radiation plate 17, a motor 18, a coarse material passing hole 19, a coarse material bin 20, a coarse material weighing area 21, a fine material weighing area 22, a cylinder 23, a material pushing plate 24, a material passing pipe 25, a material carrying plate 26, a weighing sensor 27 and a controller 28.

Detailed Description

1-3, an automatic online detection mechanism for organic compound fertilizer delivery comprises a feeding chute 1, wherein a strip hole 2 is formed in the side wall of the feeding chute 1, a rotating plate 3 is arranged in the strip hole 2, one end of the rotating plate 3 is hinged in the strip hole 2 through a connecting pin 4, and the connecting pin 4 is connected with a driving device through a shaft;

the outside of the feeding chute 1 at one side of the strip hole 2 is provided with a sampling bin 7, one side of the sampling bin 7 is provided with a material blocking mechanism bin 8, the material blocking mechanism bin 8 is contacted with the side wall of the feeding chute 1 and is arranged to cover the strip hole 2, a partition plate 9 is arranged in the material blocking mechanism bin 8, a guide post 13 is arranged on the partition plate 9, the upper end of the guide post 13 passes through a baffle 12 to be arranged, a spring 14 is sleeved on the guide post 13 below the baffle 12, the bottom of the baffle 12 is provided with a traction rope 10, and the traction rope 10 is fixedly connected with the outer wall of one end of the rotating plate 3 far away from the connecting pin 4 after passing through the partition plate 9;

a vertical rotating shaft 15 is arranged in the sampling bin 7, the rotating shaft 15 is driven by a motor 18 arranged at the top of the sampling bin 7, a rotary cone 16 is arranged on the rotating shaft 15, and a fine material weighing area 22 is arranged below the sampling bin 7;

a coarse material bin 20 is arranged on one side of the sampling bin 7 far away from the feeding chute 1, and the sampling bin 7 is communicated with the coarse material bin 20 through coarse material passing holes 19 on the sampling bin 7;

a coarse fodder weighing area 21 is arranged below the coarse fodder bin 20.

In the preferred proposal, the feeding chute 1 is provided with an arc groove 5 on the inner wall of one side far away from the rotating plate 3, and the arc groove 5 is positioned on the annular running track at one end of the rotating plate 3.

In the preferable proposal, a rotating plate limiting plate 6 is arranged on the inner wall of the feeding chute 1 above the arc groove 5.

In the preferred proposal, the outer wall of the feeding chute 1 below the strip hole 2 is provided with a direction-adjusting ring 11, and one end of the haulage rope 10 far away from the baffle 12 bypasses the direction-adjusting ring 11 and is connected with the rotating plate 3.

In the preferred scheme, the horizontal section diameter of the rotary cone 16 is gradually increased from top to bottom, a plurality of radiation plates 17 are arranged on the side wall of the rotary cone 16, and the outer edges of the radiation plates 17 are attached to the inner wall of the sampling bin 7.

In a preferred embodiment, the coarse material passing hole 19 and the rotary cone 16 are arranged at the same level.

In a preferred embodiment, the bottoms of the coarse material weighing area 21 and the fine material weighing area 22 are respectively provided with a material bearing plate 26, the two material bearing plates 26 are arranged on two weighing sensors 27, and the two weighing sensors 27 are connected to a controller 28.

In the preferred scheme, the coarse material weighing area 21 and the fine material weighing area 22 are connected through a material passing pipe 25 perpendicular to the conveying direction of materials, a cylinder 23 is arranged outside one side, far away from the fine material weighing area 22, of the coarse material weighing area 21, a pushing plate 24 is arranged on a driving rod of the cylinder 23, the pushing plate 24 stretches into the coarse material weighing area 21 and the fine material weighing area 22, and materials on a material bearing plate 26 are pushed into the feeding chute 1 again along the direction of the material passing pipe 25.

The utility model discloses an automatic on-line measuring mechanism is carried to organic compound fertilizer carries when carrying out the operation of organic compound fertilizer:

as shown in fig. 1, the feeding chute 1 can realize continuous conveying of materials at this time, and when sampling detection is needed:

as shown in fig. 3, at this time, the rotating plate 3 is rotated by the driving device to rotate to the state shown in fig. 3, at this time, the material is blocked by the rotating plate 3 and moves into the sampling bin 7, the device returns to the state shown in fig. 1 after sampling is completed, the material entering the sampling bin 7 is sieved by the rotating cone 16, the fine material directly falls down, the coarse material is clamped between the rotating cone 16 and the sampling bin 7, the coarse material rotates along with the rotating cone 16 under the driving of the motor 18 and falls into the coarse material bin 20 after moving to the coarse material passing hole 19, the coarse material and the fine material respectively fall into the coarse material weighing area 21 and the fine material weighing area 22 and fall onto the material bearing plate 26, after weighing is completed by the two weighing sensors 27, the weighing sensors 27 send weight signals to the controller 28, and after the detection operation is completed, the air cylinder 23 acts and drives the pushing plate 24 to move transversely, and the material falling onto the material bearing plate 26 is pushed into the feeding tube 25 to the chute 1 to complete the detection operation.

Claims (8)

1. The utility model provides an automatic on-line measuring mechanism is carried to organic compound fertilizer, includes feeding chute (1), its characterized in that: the side wall of the feeding chute (1) is provided with a strip hole (2), a rotating plate (3) is arranged in the strip hole (2), one end of the rotating plate (3) is hinged in the strip hole (2) through a connecting pin (4), and the connecting pin (4) is connected with a driving device through a shaft;

the feeding chute (1) on one side of the strip hole (2) is externally provided with a sampling bin (7), one side of the sampling bin (7) is provided with a stop mechanism bin (8), the stop mechanism bin (8) is in contact with the side wall of the feeding chute (1) and is arranged to cover the strip hole (2), a partition plate (9) is arranged in the stop mechanism bin (8), a guide column (13) is arranged on the partition plate (9), the upper end of the guide column (13) passes through a baffle plate (12) to be arranged, a spring (14) is sleeved on the guide column (13) below the baffle plate (12), the bottom of the baffle plate (12) is provided with a traction rope (10), and the traction rope (10) passes through the partition plate (9) and is fixedly connected with the outer wall of one end, far away from the connecting pin (4), of the rotating plate (3);

a vertical rotating shaft (15) is arranged in the sampling bin (7), the rotating shaft (15) is driven by a motor (18) arranged at the top of the sampling bin (7), a rotary cone (16) is arranged on the rotating shaft (15), and a fine material weighing area (22) is arranged below the sampling bin (7);

a coarse material bin (20) is arranged on one side, far away from the feeding chute (1), of the sampling bin (7), and the sampling bin (7) is communicated with the coarse material bin (20) through coarse material passing holes (19) in the sampling bin (7);

and a coarse fodder weighing area (21) is arranged below the coarse fodder bin (20).

2. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 1, wherein: the feeding chute (1) is provided with an arc groove (5) on the inner wall of one side far away from the rotating plate (3), and the arc groove (5) is positioned on an annular running track at one end of the rotating plate (3).

3. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 2, wherein: a rotating plate limiting plate (6) is arranged on the inner wall of the feeding chute (1) above the arc groove (5).

4. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 1, wherein: the outer wall of the feeding chute (1) below the strip hole (2) is provided with a direction-adjusting ring (11), and one end of the traction rope (10) far away from the baffle plate (12) bypasses the direction-adjusting ring (11) and is connected with the rotating plate (3).

5. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 1, wherein: the diameter of the horizontal section of the rotary cone (16) is gradually increased from top to bottom, a plurality of radiation plates (17) are arranged on the side wall of the rotary cone (16), and the outer edges of the radiation plates (17) are attached to the inner wall of the sampling bin (7).

6. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 5, wherein: the coarse material passing hole (19) and the rotary cone (16) are arranged on the same horizontal height.

7. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 1, wherein: the bottom of coarse material weighing area (21) and fine material weighing area (22) be equipped with one respectively and hold flitch (26), two hold flitch (26) set up on two weighing sensor (27), two weighing sensor (27) are connected to on controller (28).

8. The automatic on-line detection mechanism for organic compound fertilizer delivery according to claim 1, wherein: the coarse material weighing area (21) and the fine material weighing area (22) are connected through a material passing pipe (25) perpendicular to the conveying direction of materials, an air cylinder (23) is arranged outside one side, far away from the fine material weighing area (22), of the coarse material weighing area (21), a pushing plate (24) is arranged on a driving rod of the air cylinder (23), the pushing plate (24) stretches into the coarse material weighing area (21) and the fine material weighing area (22), and materials on a material bearing plate (26) are pushed into a feeding chute (1) again along the direction of the material passing pipe (25).

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