CN214039338U - Novel intelligent granary system - Google Patents

Abstract

The utility model discloses a novel intelligent granary system, including the granary: the grain bin is characterized in that the unpowered rotor is connected with a spreading mechanism, the spreading mechanism is used for performing single-channel pitching annular spreading on grains through the central axial rotation of the unpowered rotor or performing multi-channel multi-point annular spreading on the grains through the central axial rotation of the unpowered rotor, the inner wall of the grain bin is provided with a mounting frame, the mounting frame is connected with a hanging frame through a connecting shaft which is vertically arranged, the hanging frame is vertically provided with a plurality of spiral stirring assemblies which are parallel to each other and drive the grains to stir from bottom to top, and one end of the bottom of the grain bin is provided with a fan. The utility model discloses in, this granary flat storehouse mixing system can carry out annular dispensing operation with the cereal that falls into in the granary through the dispensing mechanism that sets up to the rotatory spiral stirring subassembly of cooperation annular makes lax more between the cereal, reduces the static pressure, thereby increases the relative velocity of flow in the air admission cereal that flows, has improved the drying efficiency of cereal in the granary.

Description

Novel intelligent granary system

Technical Field

The utility model relates to a granary grain drying technical field especially relates to a novel intelligent granary system.

Background

The most effective method of drying the grain is to increase the heat but may be at risk of over-drying the grain near the heat source, stirring mixes the dryest grain at the bottom of the bin with the wetter grain at the top, thus making the moisture content more uniform, tests have shown that stirring the grain with less than a 1% change from top to bottom also relaxes the grain, reduces static pressure and increases air flow, thus drying the grain faster and more efficiently.

Current granary mixing system when to cereal drying, adopts the drying methods of directly-heated type usually, because between the cereal inseparabler for gap between the cereal is less, thereby leads to flowing air can't be comprehensive and even enter into the cereal in dry, and then reduced cereal drying's speed and efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and propose and can carry out the comprehensive stirring of annular to cereal, improve a novel intelligent granary system of air that flows to cereal drying efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a novel intelligent granary system, includes the granary:

a feeding bin is arranged at the inlet end of the granary, and an unpowered rotor is arranged on the inner wall of the feeding bin;

the unpowered rotor is connected with a spreading mechanism, and the spreading mechanism performs pitching annular spreading on single channels of grains by means of central axial rotation of the unpowered rotor or performs multi-channel multi-point annular spreading on grains by means of central axial rotation of the unpowered rotor;

the inner wall of the granary is provided with an installation frame, the installation frame is connected with the hanging frame through a connecting shaft which is vertically arranged, and the hanging frame rotates by taking the connecting shaft as a center;

a plurality of spiral stirring assemblies which are parallel to each other and drive the grains to stir from bottom to top are vertically arranged on the hanging rack;

and one end of the bottom of the granary is provided with a fan, and the other end of the granary is provided with a discharge bin.

As a further description of the above technical solution:

the spreading mechanism comprises a first connecting rod connected with the unpowered rotor, the bottom of the first connecting rod is rotatably connected with the spreading plate through a rotating shaft, and an adjusting component for adjusting the pitching rotation of the spreading plate is arranged on the first connecting rod.

As a further description of the above technical solution:

the adjusting component comprises an electric cylinder, two ends of the electric cylinder are respectively connected with the first connecting rod and the spreading plate through pin shafts, and the spreading plate is driven to rotate in a pitching mode by taking the rotating shaft as a base point.

As a further description of the above technical solution:

the spreading mechanism comprises a second connecting rod connected to the unpowered rotor, a declination type flow guide leveling plate is arranged on the second connecting rod, a plurality of declination type spreading slideways are arranged at the bottom of the second connecting rod, and a plurality of spreading holes are formed in the spreading slideways.

As a further description of the above technical solution:

also includes a rotary drive assembly;

the rotary driving component comprises a rotary motor arranged on the mounting rack, the output end of the rotary motor is connected with a gear, and the gear is meshed and connected with a gear ring on the connecting shaft.

As a further description of the above technical solution:

one end of the hanging rack is provided with a rolling motor, the output end of the rolling motor is connected with a roller, and the roller is in rolling contact with a guide rail on the inner wall of the granary.

As a further description of the above technical solution:

the spiral stirring assembly comprises a stirring motor arranged on the hanging frame, and the output end of the stirring motor is connected with a spiral stirring shaft extending into the grains.

As a further description of the above technical solution:

also comprises a transverse moving component;

the transverse moving assembly comprises a transverse moving motor arranged at the other end of the hanging rack, the transverse moving motor is connected with a plurality of nut seats through a screw rod, and the nut seats are connected with a plurality of stirring motors one by one correspondingly.

As a further description of the above technical solution:

the device also comprises a discharging component;

the discharging assembly comprises a discharging spiral shaft which is arranged on the upper surface of the supporting frame and communicated with the discharging bin, a plurality of flow guide spiral shafts are vertically connected onto the discharging spiral shaft, and the plurality of flow guide spiral shafts are arranged in the hollow plate in parallel.

As a further description of the above technical solution:

the mounting rack is respectively provided with an infrared sensor, a particulate matter concentration sensor and a temperature and humidity sensor;

a plurality of temperature and humidity sensors and pressure sensors are respectively arranged on the granary and the spiral stirring shaft, and the infrared sensor, the particulate matter concentration sensor, the temperature and humidity sensors and the pressure sensors are electrically connected with the double-power-supply control assembly at the top of the granary.

The utility model provides a novel intelligent granary system. The method has the following beneficial effects:

this granary system is through the spreading mechanism that sets up, can carry out annular spreading operation with the cereal that falls into in the granary, ensure the even wholeness of cereal spreading, and the rotatory spiral stirring subassembly of cooperation annular, can be in cereal spreading, carry out the spiral stirring processing from bottom to top with cereal, increase relative gap between the cereal, make between the cereal lax more, reduce the static pressure, thereby increase the relative velocity of flow in the air admission cereal, the drying rate and the dry wholeness of cereal in the granary have been accelerated.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of a novel intelligent granary system provided by the present invention;

fig. 2 is a schematic structural view of a second embodiment of the novel intelligent granary system provided by the present invention;

FIG. 3 is a schematic structural diagram of a dispensing mechanism according to a first embodiment of the present invention;

FIG. 4 is a schematic structural view of a dispensing mechanism according to a second embodiment of the present invention;

fig. 5 is a schematic view of a partial structure of a joint of the mounting bracket, the rotary driving assembly and the hanging bracket according to the present invention;

fig. 6 is a schematic top view of the hanging rack of the present invention;

fig. 7 is a schematic view of the local structure of the middle granary of the present invention;

fig. 8 is a schematic top view of the discharging assembly of the present invention;

fig. 9 is a schematic view of a local structure of a joint of the hollow plate and the discharging assembly of the present invention.

Illustration of the drawings:

1. a feeding bin; 2. an unpowered rotor; 3. a dispensing mechanism; 31. a rotating shaft; 32. spreading plates; 33. a first link; 34. an adjustment assembly; 341. an electric cylinder; 342. a pin shaft; 35. a second link; 36. flow guiding leveling plate; 37. spreading a slideway; 38. spreading holes; 4. a mounting frame; 41. an infrared sensor; 42. a particulate matter concentration sensor; 5. a rotary drive assembly; 51. a rotating electric machine; 52. a gear; 53. a toothed ring; 6. a connecting shaft; 7. a hanger; 71. a traversing assembly; 711. a traversing motor; 712. a screw rod; 713. a nut seat; 72. a roller; 73. a rolling motor; 8. a helical stirring assembly; 81. a stirring motor; 82. a spiral stirring shaft; 9. a granary; 91. a guide rail; 92. a temperature and humidity sensor; 93. a pressure sensor; 10. a fan; 11. a support frame; 111. a hollowed-out plate; 12. a discharge assembly; 121. a discharge screw shaft; 122. a flow guide screw shaft; 13. a discharging bin; 14. a dual power control assembly.

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.

As shown in fig. 1 and 2, a novel intelligent granary system comprises a granary 9:

a feeding bin 1 is arranged at the inlet end of the granary 9, and an unpowered rotor 2 is arranged on the inner wall of the feeding bin 1;

the unpowered rotor 2 is connected with a spreading mechanism 3, and the spreading mechanism 3 performs single-channel pitching annular spreading on grains by means of central axial rotation of the unpowered rotor 2 or performs multi-channel multi-point annular spreading on grains by means of central axial rotation of the unpowered rotor 2;

the inner wall of the granary 9 is provided with a mounting rack 4, the mounting rack 4 is connected with a hanging rack 7 through a connecting shaft 6 which is vertically arranged, and the hanging rack 7 rotates by taking the connecting shaft 6 as a center;

a plurality of spiral stirring assemblies 8 which are parallel to each other and drive the grains to be stirred from bottom to top are vertically arranged on the hanging rack 7;

a fan 10 is arranged at one end of the bottom of the granary 9, a heat source or cold source element is arranged in the fan 10, heating, normal temperature or refrigeration of air blown out by the fan 10 are realized, and a discharge bin 13 is arranged at the other end of the granary.

In this embodiment, the grain is transported to the top of the grain bin 9 by the feeding mechanism and enters the feeding bin 1, at this time, the falling grain contacts and impacts the unpowered rotor 2 to rotate, the rotating unpowered rotor 2 transmits the driving force to the spreading mechanism 3, so that the spreading mechanism 3 performs single-channel pitching annular spreading on the grain by the central axial rotation of the unpowered rotor 2 or performs multi-channel multi-point annular spreading on the grain by the central axial rotation of the unpowered rotor 2 to ensure the uniformity of the grain spreading, on the other hand, the hanging frame 7 can rotate on the inner wall of the grain bin 9 under the action of the connecting shaft 6, and by combining the stirring treatment of the spiral stirring assembly 8, the grain in the grain bin 9 can be comprehensively stirred from bottom to top, so that the relative gaps between the grains are increased, the grains are looser, the static pressure is reduced, at this time, the fan 10 starts to introduce high temperature into the hollowed plate 111, Air flows at normal temperature or low temperature, and the flowing air flows upwards to enter grains, so that the relative flow rate of the flowing air entering the grains is increased, and the drying rate and the drying comprehensiveness of the grains in the granary 9 are accelerated.

Example one

As shown in fig. 3, the spreading mechanism 3 includes a first connecting rod 33 connected to the unpowered rotor 2, the bottom of the first connecting rod 33 is rotatably connected to the spreading plate 32 through a rotating shaft 31, an adjusting component 34 for adjusting the pitching rotation of the spreading plate 32 is disposed on the first connecting rod 33, the first connecting rod 33 is driven by the unpowered rotor 2 to rotate, so as to drive the spreading plate 32 to move circularly, and in cooperation with the pitching adjusting function of the adjusting component 34, single-channel pitching circular spreading can be performed on the grains, thereby ensuring the uniformity of the grain spreading.

The number of the spreading plates 32 can be multiple, the silos of the granaries 9 are used as circle centers, the arrangement is carried out at certain angles at intervals according to the diameter of the granaries 9, and the warehousing and spreading uniformity can be further guaranteed when the unpowered rotor 2 fails.

The adjusting assembly 34 comprises an electric cylinder 341, both ends of the electric cylinder 341 are respectively connected with the first connecting rod 33 and the spreading plate 32 through a pin 342, and the spreading plate 32 is driven to rotate in pitch by taking the rotating shaft 31 as a base point, and the pitch angle between the spreading plate 32 and the first connecting rod 33 can be adjusted by combining the rotation effect of the pin 342 through the telescopic action of the electric cylinder 341, so that the spreading position of the spreading plate 32 on grains is changed, and the grains can be comprehensively and uniformly spread in the inner cavity of the granary 9.

Example two

As shown in fig. 4, the spreading mechanism 3 includes a second connecting rod 35 connected to the unpowered rotor 2, a declined diversion leveling plate 36 is disposed on the second connecting rod 35, a plurality of declined spreading slideways 37 are disposed at the bottom of the second connecting rod 35, a plurality of spreading holes 38 are disposed in the spreading slideways 37, the second connecting rod 35 is driven by the unpowered rotor 2 to rotate, at this time, falling grains first contact the diversion leveling plate 36 and are divided evenly, and then the grains are uniformly distributed along the plurality of spreading slideways 37 in an annular state and spread from the spreading holes 38, so that the effect of multi-channel multi-point annular spreading of the grains can be achieved.

As shown in fig. 5, still include rotation driving assembly 5, rotation driving assembly 5 includes a rotating electrical machines 51 who sets up on mounting bracket 4, rotating electrical machines 51's output hookup has gear 52, and gear 52 is connected with the ring gear 53 meshing on connecting 6, rotating electrical machines 51 drives gear 52 rotatory, make gear 52 and ring gear 53 meshing be connected, can drive connecting 6 rotatory, realize the effect of stores pylon 7 annular motion in granary 9, make spiral stirring assembly 8 can carry out annular stirring to the cereal in granary 9 and handle.

As shown in fig. 5 and 7, a rolling motor 73 is disposed at one end of the hanging rack 7, and an output end of the rolling motor 73 is connected with a roller 72, and the roller 72 is in rolling contact with a guide rail 91 on an inner wall of the grain bin 9, so as to support the hanging rack 7 in a rolling manner, and cooperate with the rotary driving assembly 5 to realize a combined driving effect of the hanging rack 7, thereby ensuring stability of the hanging rack 7 during circular motion.

As shown in fig. 5, the spiral stirring assembly 8 includes a stirring motor 81 disposed on the rack 7, and the output end of the stirring motor 81 is connected with a spiral stirring shaft 82 extending into the grains, so that the spiral stirring shaft 82 can stir and lift the grains from bottom to top, increase the relative gap between the grains, and make the grains loose.

As shown in fig. 5 and 6, the horizontal moving assembly 71 further comprises a horizontal moving assembly 71, the horizontal moving assembly 71 comprises a horizontal moving motor 711 arranged at the other end of the hanging rack 7, the horizontal moving motor 711 is connected with a plurality of nut seats 713 through a screw 712, the nut seats 713 are connected with a plurality of stirring motors 81 one by one, and the positions of a plurality of spiral stirring assemblies 8 can be adjusted in a horizontal moving manner by the driving action of the horizontal moving motor 711 and the transmission action of the screw 712 and the nut seats 713, so that grains in the grain bin 9 can be further stirred comprehensively.

As shown in fig. 1, fig. 8 and fig. 9, the grain-saving device further comprises a discharging component 12, the discharging component 12 comprises a discharging screw shaft 121 disposed on the upper surface of the support frame 11 and communicated with the discharging bin 13, a plurality of guiding screw shafts 122 are vertically connected to the discharging screw shaft 121, and the plurality of guiding screw shafts 122 are disposed in parallel in the hollow plate 111, the discharging screw shaft 121 is located in the middle of the hollow plate 111, grain in the grain bin 9 can be continuously and spirally discharged, when grain in the grain bin 9 is about to be discharged, the plurality of guiding screw shafts 122 are simultaneously started, and grain remaining at the bottom of the grain bin 9 can be guided to the middle and gathered together, so that grain remaining at the bottom of the grain bin 9 can enter the discharging screw shaft 121 to be discharged outwards, thereby preventing grain from remaining in the grain bin 9, and avoiding inconvenience caused by secondary discharging operation.

As shown in fig. 7, the mounting frame 4 is respectively provided with an infrared sensor 41, a particulate matter concentration sensor 42 and a temperature and humidity sensor 92, the granary 9 and the spiral stirring shaft 82 are respectively provided with a plurality of temperature and humidity sensors 92 and pressure sensors 93, the infrared sensor 41, the particulate matter concentration sensor 42, the temperature and humidity sensor 92 and the pressure sensors 93 are electrically connected with a dual power supply control assembly 14 at the top of the granary 9, the dual power supply control assembly 14 comprises a storage battery and a 4G data transmission module, the mobile transmission service is used for transmitting to an external server in real time, the dual power supply mainly solves the problems of temperature and humidity monitoring and bin capacity monitoring during power failure, a manager can be reminded to add a standby power supply to perform actions in the granary 9 when the temperature and humidity are abnormal, high-quality storage of grains is ensured, the infrared sensor 41 is mainly used for monitoring whether a living body exists in the granary 9, when someone is in the granary, closing of the cabin door is forbidden, the system can remind an alarm and can monitor eggs and other insects, so that grain storage safety is guaranteed and the grain is prevented from being damaged by mice and insects, the particle concentration sensor 42 mainly detects the particle concentration in the granary 9 and avoids dust explosion, when the concentration value reaches different set values, the system can start different execution modules (such as ventilation/exhaust, stopping warehousing and the like) to further guarantee life and property safety, the pressure sensor 93 is used for monitoring the capacity of the granary 9, when the unauthorized granary capacity is reduced, the system can actively alarm to remind a manager of paying attention to theft prevention and the like, in addition, the pressure sensor 93 can be used for calculating the capacity of the granary systematically, the storage arrangement management requirement is met, and the operation of dumping and weighing is not needed;

meanwhile, an inclined sensor can be arranged on the inner wall of the granary 9, when the granary 9 reaches a set hidden danger value, the system forcibly gives an alarm, and managers arrive at the site at the first time to contact each professional engineer for timely disposal; when the treatment time exceeds the set value of the system, the system automatically executes forced dumping (or discharging) work.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a novel intelligent granary system, includes granary (9), its characterized in that:

a feeding bin (1) is arranged at the inlet end of the granary (9), and an unpowered rotor (2) is arranged on the inner wall of the feeding bin (1);

the unpowered rotor (2) is connected with a spreading mechanism (3), and the spreading mechanism (3) performs single-channel pitching annular spreading on grains by means of central axial rotation of the unpowered rotor (2) or performs multi-channel multi-point annular spreading on grains by means of central axial rotation of the unpowered rotor (2);

the inner wall of the granary (9) is provided with a mounting rack (4), the mounting rack (4) is connected with a hanging rack (7) through a connecting shaft (6) which is vertically arranged, and the hanging rack (7) rotates by taking the connecting shaft (6) as a center;

a plurality of spiral stirring assemblies (8) which are parallel to each other and drive the grains to be stirred from bottom to top are vertically arranged on the hanging rack (7);

and one end of the bottom of the granary (9) is provided with a fan (10), and the other end of the bottom of the granary is provided with a discharge bin (13).

2. The novel intelligent granary system according to claim 1, wherein: the spreading mechanism (3) comprises a first connecting rod (33) connected with the unpowered rotor (2), the bottom of the first connecting rod (33) is rotatably connected with the spreading plate (32) through a rotating shaft (31), and an adjusting component (34) for adjusting the pitching rotation of the spreading plate (32) is arranged on the first connecting rod (33).

3. The novel intelligent granary system according to claim 2, wherein: the adjusting assembly (34) comprises an electric cylinder (341), two ends of the electric cylinder (341) are respectively connected with the first connecting rod (33) and the spreading plate (32) through a pin shaft (342), and the spreading plate (32) is driven to rotate in a pitching mode by taking the rotating shaft (31) as a base point.

4. The novel intelligent granary system according to claim 1, wherein: the spreading mechanism (3) comprises a second connecting rod (35) connected to the unpowered rotor (2), a declined flow guide leveling plate (36) is arranged on the second connecting rod (35), a plurality of declined spreading slideways (37) are arranged at the bottom of the second connecting rod (35), and a plurality of spreading holes (38) are formed in the spreading slideways (37).

5. The novel intelligent granary system according to claim 1, wherein: also comprises a rotary driving component (5);

the rotary driving component (5) comprises a rotary motor (51) arranged on the mounting frame (4), the output end of the rotary motor (51) is connected with a gear (52), and the gear (52) is meshed and connected with a gear ring (53) on the connecting shaft (6).

6. The novel intelligent granary system according to claim 1, wherein: one end of the hanging rack (7) is provided with a rolling motor (73), the output end of the rolling motor (73) is connected with a roller (72), and the roller (72) is in rolling contact with a guide rail (91) on the inner wall of the granary (9).

7. The novel intelligent granary system according to claim 1, wherein: the spiral stirring component (8) comprises a stirring motor (81) arranged on the hanging rack (7), and the output end of the stirring motor (81) is connected with a spiral stirring shaft (82) extending into the grains.

8. The novel intelligent granary system according to claim 1, wherein: further comprising a traverse assembly (71);

the transverse moving assembly (71) comprises a transverse moving motor (711) arranged at the other end of the hanging rack (7), the transverse moving motor (711) is connected with a plurality of nut seats (713) through a screw rod (712), and the nut seats (713) are connected with a plurality of stirring motors (81) one by one correspondingly.

9. The novel intelligent granary system according to claim 1, wherein: also comprises a discharging component (12);

the discharging assembly (12) comprises a discharging screw shaft (121) which is arranged on the upper surface of the support frame (11) and communicated with the discharging bin (13), the discharging screw shaft (121) is vertically connected with a plurality of flow guide screw shafts (122), and the plurality of flow guide screw shafts (122) are arranged in the hollow plate (111) in parallel.

10. The novel intelligent granary system according to claim 1, wherein: the mounting rack (4) is respectively provided with an infrared sensor (41), a particulate matter concentration sensor (42) and a temperature and humidity sensor (92);

a plurality of temperature and humidity sensors (92) and pressure sensors (93) are respectively arranged on the granary (9) and the spiral stirring shaft (82), and the infrared sensor (41), the particulate matter concentration sensor (42), the temperature and humidity sensors (92) and the pressure sensors (93) are electrically connected with the double-power-supply control assembly (14) at the top of the granary (9).

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