CN113390470A - Grain condition detection system for grain storage supervision - Google Patents

Abstract

The invention discloses a grain condition detection system for grain storage supervision, which relates to the technical field of electronic detection equipment and comprises a supporting device and a detection assembly, wherein the detection assembly is used for detecting the humidity and the temperature of grains, the grain condition detection system also comprises a driving device, a weighing device and a linkage assembly, the driving device drives the grains to move on the supporting device and enter the weighing device for weighing, the detection assembly is linked with the driving device through the linkage assembly, the automation degree is high, and the labor is saved.

Description

Grain condition detection system for grain storage supervision

Technical Field

The invention relates to the technical field of electronic detection equipment, in particular to a grain condition detection system for grain storage supervision.

Background

In the technical field of grain condition detection of grain storage supervision, in the daily storage of grain depots in China at present, in the links of cooling and ventilation, dehumidifying and ventilation, conditioning and ventilation and the like of grains, the measurement of the temperature and the moisture of the grains is an important link, the existing detection tool can only measure the temperature and the humidity of air inside and outside the grain depots or can only measure the moisture and the temperature by manually inserting the detection tool into shallow grain piles, monthly inventory check and spot check are frequently carried out in the stock management, the detection process is manual during spot check, the process is complicated and inconvenient to record, and the efficiency is low.

A grain condition detection device for grain storage supervision is disclosed in patent with application number CN201620195992.2, comprising: the temperature and humidity sensor comprises a handle, a shell, a temperature and humidity sensor, a detection rod, a power supply module, a small motor, a single chip microcomputer, a display and an alarm; the top at the casing is fixed to the handle, the small-size motor, a single-chip microcomputer, power module and alarm set up in the casing, the display sets up on the casing, the probe rod upper end sets up in the casing, the probe rod stretches out the below of casing setting at the casing, temperature and humidity sensor sets up the inside at the probe rod, be equipped with the bleeder vent on the probe rod, temperature and humidity sensor, the small-size motor, a single-chip microcomputer, display and alarm are connected with power module respectively, temperature and humidity sensor, display and alarm are connected with the singlechip respectively, gear engagement is passed through with the pivot at probe rod top to the output shaft of small-size motor and is connected. The device portable, artifical manual operation, but still too loaded down with trivial details based on manual operation, can not realize automaticly. The invention can realize quality detection in the process of detecting temperature and humidity through automatic linkage detection.

Disclosure of Invention

The invention discloses a grain condition detection system for grain storage supervision, which aims at the technical problems, and comprises a supporting device and a detection assembly, wherein the detection assembly is used for detecting the humidity and the temperature of grains; the supporting device comprises a primary wheel frame, a plurality of primary rollers are rotatably arranged on the primary wheel frame, and grains are placed on the primary rollers; the driving device comprises a driving assembly and a vertical moving shaft, wherein a nylon ball is arranged at the upper end of the vertical moving shaft, a lower layer support is fixedly arranged below the vertical moving shaft, a plurality of pressing and feeding discs are fixedly arranged below the lower layer support, the driving assembly drives the pressing and feeding discs, and the pressing and feeding discs stir the grains on the primary rollers to move forwards to enter the weighing device; the linkage assembly comprises a linkage sliding shaft, the linkage sliding shaft is fixedly arranged on the upper side of the driving device, a linkage plate is arranged on the linkage sliding shaft in a sliding mode, a first end of a linkage spring is fixedly arranged on the linkage plate, a second end of the linkage spring is fixedly connected with the linkage sliding shaft, the nylon ball is in contact with the lower surface of the linkage plate, and the vertical moving shaft moves up and down to drive the linkage plate to move up and down; the linkage assembly drives the detection assembly to move up and down, and the detection assembly detects the grains on the weighing device.

Furthermore, the driving device further comprises an upper supporting rod, the upper supporting rod is fixedly installed on the supporting device, an installation frame is fixedly installed on the upper supporting rod, a transverse moving shaft is fixedly installed on the installation frame, a connecting block is installed on the transverse moving shaft in a sliding mode, and the vertical moving shaft is installed on the connecting block in a sliding mode.

Furthermore, the driving assembly comprises a motor, the motor is fixedly arranged on the mounting frame, and a motor gear is fixedly arranged on a rotating shaft of the motor; the upper supporting rod is fixedly provided with a side plate, the side plate is fixedly provided with a plurality of fixing rods, the fixing rods are fixedly provided with triangular sliding rails together, the side plate is rotatably provided with a large gear, the large gear is meshed with the motor gear, a radial sliding groove is formed in the large gear, a shifting shaft is matched in the sliding groove and fixedly connected with the lower layer of support, and one end of the shifting shaft is matched with the triangular sliding rails.

Further, the weighing device comprises a mounting plate, the mounting plate is fixedly mounted on the supporting device, a weighing shaft is slidably mounted on the mounting plate, a weighing plate is fixedly mounted on the weighing shaft, a weighing spring is fixedly mounted below the weighing plate and fixedly connected with the weighing shaft, a plurality of weighing idler wheels are rotatably mounted on the weighing plate, a weighing rack is fixedly mounted below the weighing plate, a weighing wheel carrier is fixedly mounted on the mounting plate, weight scales are arranged on the weighing wheel carrier, a weighing gear and a pointer are rotatably mounted on the weighing wheel carrier, and the weighing gear and the pointer are fixedly connected.

Further, the linkage assembly further comprises a top layer mounting frame, the top layer mounting frame is fixedly mounted on the supporting device, a rotating shaft is rotatably mounted on the top layer mounting frame, a linkage gear is fixedly mounted on the rotating shaft, a linkage rack is meshed with one side of the linkage gear, the linkage rack is fixedly connected with the linkage plate, an intermediate gear is rotatably mounted on the top layer mounting frame, a driven bevel gear is fixedly mounted on the intermediate gear, a driving bevel gear is meshed with the upper side of the driven bevel gear, the driving bevel gear is fixedly mounted on the rotating shaft, a driving gear I and a driving gear II are further rotatably mounted on the top layer mounting frame, the driving gear I and the driving gear II are both meshed with the intermediate gear, a screw I is fixedly mounted on the lower side of the driving gear I, a screw II is fixedly mounted on the lower side of the driving gear I, and the screw I and the screw II drive the detection assembly to move up and down.

Furthermore, the detection assembly comprises an upper rod and a lower rod, the upper rod and the lower rod are slidably mounted on the supporting device, a thread bush I and a thread bush II are fixedly mounted between the upper rod and the lower rod, the thread bush I is matched with the lead screw II, the thread bush II is matched with the lead screw I, an intermediate rod and a humidity detection plate are fixedly mounted between the upper rod and the lower rod, and a plurality of thermometers are fixedly mounted on the intermediate rod.

Furthermore, the weighing devices are arranged in a plurality and used for weighing respectively, and the detection assembly is internally provided with a plurality of humidity detection plates for detecting grains at different positions.

Compared with the prior art, the invention has the beneficial effects that: (1) the driving assembly is arranged in the driving device, so that grains can intermittently move forwards, and the detection assembly is provided with time for detection; (2) the invention is provided with the linkage assembly, so that the driving device and the detection assembly can be linked, and the automation degree is high; (3) the grain weighing device is provided with a plurality of weighing assemblies, and the detection assemblies are internally provided with a plurality of thermometers and humidity detection plates, so that grains at different positions can be detected.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of a driving device according to the present invention.

FIG. 3 is a schematic view of a driving device according to the present invention.

Fig. 4 is a partially enlarged view of the driving device of the present invention.

FIG. 5 is a schematic view of a weighing apparatus of the present invention.

Fig. 6 is an enlarged view of a portion of the weighing apparatus of the present invention.

FIG. 7 is a schematic view of a linkage assembly according to the present invention.

FIG. 8 is an enlarged view of a portion of the linkage assembly of the present invention.

FIG. 9 is a schematic view of a detection assembly according to the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

The drawings are only for purposes of illustration and are only schematic and non-limiting, and certain elements of the drawings may be omitted, enlarged or reduced to better illustrate the embodiments of the present invention and not to represent the actual product size, and certain well-known structures in the drawings and descriptions thereof may be omitted for those skilled in the art.

Example (b): as shown in fig. 1, 5 and 7, a grain condition detection system for grain storage supervision comprises a supporting device 1, wherein the supporting device 1 comprises a bottom plate 101, a short supporting rod 102 and a high supporting rod 103 are fixedly arranged on the bottom plate 101, a primary wheel carrier 104 is fixedly arranged on the short supporting rod 102, a plurality of primary rollers 105 are rotatably arranged on the primary wheel carrier 104, a driving device 2, a weighing device 3, a linkage component 4 and a detection component 5 are arranged on the supporting device 1, grains are placed on the primary rollers 105, and the driving device 2 drives the grains to roll on the primary rollers 105 to enter the weighing device 3 for weighing and detection.

As shown in fig. 1, 2, 3, 4, and 7, the driving device 2 includes a driving assembly, the driving assembly drives the pushing plate 214 to transport the grains, the driving assembly drives the vertical moving shaft 208 to work, the upper supporting rod 201 is fixedly mounted on the short supporting rod 102, the upper supporting rod 201 is fixedly mounted with a mounting rack 202, the mounting rack 202 is fixedly mounted with a horizontal moving shaft 207, the horizontal moving shaft 207 is slidably mounted with a connecting block 210, the connecting block 210 is slidably mounted with the vertical moving shaft 208, a lower layer support 209 is fixedly mounted at the lower side of the vertical moving shaft 208, and a plurality of pushing plates 214 are fixedly mounted at the lower side of the lower layer support 209.

The driving component comprises a motor 203, a motor gear 204 is fixedly arranged on a rotating shaft of the motor 203, a large gear 205 is meshed with the lower side of the motor gear 204, the large gear 205 is rotatably arranged on a side plate 211, the side plate 211 is fixedly arranged on an upper supporting rod 201, a plurality of fixing rods 213 are fixedly arranged on the side plate 211, a triangular sliding rail 212 is fixedly arranged between the fixing rods 213, a shifting shaft 206 is matched in the triangular sliding rail 212, a radial sliding groove is arranged on the large gear 205 and is matched with the shifting shaft 206, the shifting shaft 206 is fixedly connected with a lower layer bracket 209, the motor 203 is started, the motor gear 204 drives the motor gear 204 to rotate, the large gear 205 drives the shifting shaft 206 to rotate, when the large gear 205 rotates, the sliding groove drives the shifting shaft 206 to move, because the shifting shaft 206 is matched with the triangular sliding rail 212, the moving track of the shifting shaft 206 is triangular, therefore, the shifting shaft 206 drives the lower layer bracket 209 to move, and the lower layer bracket 209 drives the delivery plate 214 to move, when the escorting disk 214 moves, the escorting disk 214 stirs the grains to move.

As shown in fig. 2, 4, 7 and 8, the linkage assembly 4 includes a linkage sliding shaft 401, the linkage sliding shaft 401 is fixedly installed on the installation frame 202, a linkage plate 402 is slidably installed on the linkage sliding shaft 401, a linkage spring 403 is fixedly installed on the linkage plate 402, one end of the linkage spring 403 is fixedly connected with the linkage sliding shaft 401, a linkage rack 404 is fixedly installed on the linkage plate 402, a linkage gear 405 is matched with one side of the linkage rack 404, a rotation shaft 406 is fixedly installed at the axle center of the linkage gear 405, the rotation shaft 406 is rotatably installed on the top layer installation frame 413, the top layer installation frame 413 is fixedly installed on the high support rod 103, a driving bevel gear 407 is fixedly installed on the rotation shaft 406, an intermediate gear 414 is rotatably installed on the top layer installation frame 413, a driven bevel gear 408 is fixedly installed on the intermediate gear 414, the driven bevel gear 408 is engaged with the driving bevel gear 407, a driving gear ii 410 and a driving gear i 409 are also rotatably installed on the top layer installation frame 413, the driving gear I409 and the driving gear II 410 are meshed with the intermediate gear 414, a screw rod II 412 is fixedly arranged on the lower side of the driving gear I409, a screw rod I411 is fixedly arranged on the lower side of the driving gear II 410, a nylon ball 215 is arranged on the vertical moving shaft 208, and the nylon ball 215 is in contact with the lower side of the linkage plate 402.

When the driving device 2 is operated, the vertical moving shaft 208 slides on the connecting block 210, the connecting block 210 slides on the horizontal moving shaft 207, and when the connecting block 210 slides laterally, the vertical moving shaft 208 is driven to move transversely, the nylon ball 215 rolls on the lower side of the linkage plate 402, when the vertical moving shaft 208 slides up and down, the nylon ball 215 moves up and down against the linkage plate 402, the linkage spring 403 is compressed or reset, the linkage plate 402 drives the linkage rack 404 to move up and down, the linkage rack 404 drives the linkage gear 405 to rotate, the linkage gear 405 drives the driving bevel gear 407 to rotate through the rotating shaft 406, the driving bevel gear 407 drives the driven bevel gear 408, the driven bevel gear 408 drives the intermediate gear 414 to rotate, the intermediate gear 414 drives the driving gear I409 and the driving gear II 410 to rotate, the rotation through II 412 of lead screw and I411 of lead screw drives detection module 5 and reciprocates, carries out the detection of humidity and temperature to grain.

As shown in fig. 7, 8 and 9, the detection assembly 5 comprises an upper rod 501 and a lower rod 507, the upper rod 501 and the lower rod 507 are slidably mounted on the high support rod 103, a thread bushing i 502 and a thread bushing ii 503 are fixedly mounted between the upper rod 501 and the lower rod 507, the thread bushing i 502 is matched with a screw rod ii 412, the thread bushing ii 503 is matched with a screw rod i 411, an intermediate rod 504 and a plurality of humidity detection plates 505 are fixedly mounted between the upper rod 501 and the lower rod 507, and a plurality of thermometers 506 are fixedly mounted on the intermediate rod 504.

The lead screw I411 and the lead screw II 412 drive the thread bush II 503 and the thread bush I502 to slide, the detection assembly 5 can descend between a plurality of weighing devices 3 when descending, and then the thermometer 506 and the humidity detection plate 505 can carry out relevant detection.

As shown in fig. 5, 6 and 7, a plurality of weighing devices 3 are provided, each weighing device 3 includes a mounting plate 301, the mounting plate 301 is fixedly mounted on the bottom plate 101, a weighing shaft 302 is slidably mounted on the mounting plate 301, a weighing pan 304 is fixedly mounted on the weighing shaft 302, a weighing spring 303 is fixedly mounted on the lower side of the weighing pan 304, the weighing spring 303 is fixedly connected with the mounting plate 301, a plurality of weighing rollers 305 are rotatably mounted on the weighing pan 304, a weighing rack 306 is fixedly mounted on the lower side of the weighing pan 304, a weighing wheel carriage 308 is fixedly mounted on the mounting plate 301, a weighing gear 307 and a pointer 309 are rotatably mounted on the weighing wheel carriage 308, the weighing gear 307 and the pointer 309 are fixedly connected, grains on the primary roller 105 are moved onto the weighing rollers 305 by the driving device 2 and move on the weighing rollers 305, the grains press the weighing pan 304 to move downwards due to gravity, the weighing springs 303 are compressed, and the weighing rack 306 moves downwards to drive the weighing gear 307 to rotate, the weighing gear 307 drives the pointer 309 to rotate, a weight scale is marked on the weighing wheel frame 308, and the pointer 309 indicates the weight scale.

The working principle is as follows: put grain on primary gyro wheel 105, starter motor 203, motor 203 drives drive assembly, drive assembly drives escort dish 214 and stirs grain, stir grain to weighing device 3, vertical shift axle 208 and nylon ball 215 are also driving linkage assembly 4 simultaneously, linkage assembly 4 drive determine module 5 detects the grain on weighing device 3, constantly stir weighing device 3 with grain along with escort dish 214, determine module 5 also can carry out the detection of temperature and humidity to the grain of different positions, set up a plurality of weighing device 3 simultaneously and also can weigh grain many times.

Claims (7)

1. The utility model provides a grain condition detecting system for grain storage supervision, includes strutting arrangement and determine module, determine module is used for detecting humidity and the temperature of grain, its characterized in that: the device comprises a support device, a driving device, a weighing device and a linkage assembly, wherein the driving device, the weighing device and the linkage assembly are arranged on the support device; the supporting device comprises a primary wheel frame, a plurality of primary rollers are rotatably arranged on the primary wheel frame, and grains are placed on the primary rollers; the driving device comprises a driving assembly and a vertical moving shaft, wherein a nylon ball is arranged at the upper end of the vertical moving shaft, a lower layer support is fixedly arranged below the vertical moving shaft, a plurality of pressing and feeding discs are fixedly arranged below the lower layer support, the driving assembly drives the pressing and feeding discs, and the pressing and feeding discs stir the grains on the primary rollers to move forwards to enter the weighing device; the linkage assembly comprises a linkage sliding shaft, the linkage sliding shaft is fixedly arranged on the upper side of the driving device, a linkage plate is arranged on the linkage sliding shaft in a sliding mode, a first end of a linkage spring is fixedly arranged on the linkage plate, a second end of the linkage spring is fixedly connected with the linkage sliding shaft, the nylon ball is in contact with the lower surface of the linkage plate, and the vertical moving shaft moves up and down to drive the linkage plate to move up and down; the linkage assembly drives the detection assembly to move up and down, and the detection assembly detects the grains on the weighing device.

2. The grain condition detection system for grain storage supervision as claimed in claim 1, wherein: the driving device further comprises an upper supporting rod, the upper supporting rod is fixedly installed on the supporting device, an installation frame is fixedly installed on the upper supporting rod, a transverse moving shaft is fixedly installed on the installation frame, a connecting block is installed on the transverse moving shaft in a sliding mode, and the vertical moving shaft is installed on the connecting block in a sliding mode.

3. The grain condition detection system for grain storage supervision as claimed in claim 2, wherein: the driving assembly comprises a motor, the motor is fixedly arranged on the mounting frame, and a motor gear is fixedly arranged on a rotating shaft of the motor; the upper supporting rod is fixedly provided with a side plate, the side plate is fixedly provided with a plurality of fixing rods, the fixing rods are fixedly provided with triangular sliding rails together, the side plate is rotatably provided with a large gear, the large gear is meshed with the motor gear, a radial sliding groove is formed in the large gear, a shifting shaft is matched in the sliding groove and fixedly connected with the lower layer of support, and one end of the shifting shaft is matched with the triangular sliding rails.

4. A grain condition detection system for grain warehousing supervision as claimed in claim 3 wherein: the weighing device comprises a mounting plate, the mounting plate is fixedly mounted on the supporting device, a weighing shaft is slidably mounted on the mounting plate, a weighing plate is fixedly mounted on the weighing shaft, a weighing spring is fixedly mounted below the weighing plate, the weighing spring is fixedly connected with the weighing shaft, a plurality of weighing idler wheels are rotatably mounted on the weighing plate, a weighing rack is fixedly mounted below the weighing plate, a weighing wheel carrier is fixedly mounted on the mounting plate, weight scales are arranged on the weighing wheel carrier, a weighing gear and a pointer are rotatably mounted on the weighing wheel carrier, and the weighing gear and the pointer are fixedly connected.

5. The grain condition detection system for grain storage supervision according to claim 4, characterized in that: linkage subassembly still includes the top layer mounting bracket, top layer mounting bracket fixed mounting on strutting arrangement, and the axis of rotation is equipped with in the rotation on the top layer mounting bracket, and the fixed linkage gear that is equipped with in the axis of rotation, one side meshing of linkage gear has the linkage rack, the linkage rack with linkage board fixed connection, the rotatory intermediate gear that is equipped with on the top layer mounting bracket, the fixed driven bevel gear that is equipped with on the intermediate gear, driven bevel gear upside meshing have a drive bevel gear, drive bevel gear fixed mounting in the axis of rotation, still rotatory drive gear I and the drive gear II of being equipped with on the top layer mounting bracket, drive gear I and drive gear II all with the intermediate gear meshing, the fixed lead screw I that is equipped with of II downside of drive gear, the fixed lead screw II that is equipped with of I downside of drive gear, the drive of lead screw I and II drives of lead screw detection component up-and-down motion.

6. The grain condition detection system for grain storage supervision according to claim 5, characterized in that: the detection assembly comprises an upper rod and a lower rod, the upper rod and the lower rod are slidably mounted on the supporting device, a thread bush I and a thread bush II are fixedly mounted between the upper rod and the lower rod, the thread bush I is matched with the lead screw II, the thread bush II is matched with the lead screw I, an intermediate rod and a humidity detection plate are fixedly mounted between the upper rod and the lower rod, and a plurality of thermometers are fixedly mounted on the intermediate rod.

7. The grain condition detection system for grain storage supervision according to claim 6, characterized in that: the weighing device is provided with a plurality of weighing devices which are used for weighing respectively, and the detection assembly is internally provided with a plurality of humidity detection plates which are used for detecting grains at different positions.

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