CN114160038A - Intelligent material supply and distribution system - Google Patents

Abstract

The invention discloses an intelligent material supplying and proportioning system, which comprises: a bottom plate and a vertical plate fixedly connected with one side of the bottom plate, wherein the vertical plate is used for installing and fixing intelligent feeding parts and storing parts, the material storage component comprises a material storage barrel, L-shaped frames and a transverse plate, wherein one end of each of the two L-shaped frames is fixedly connected to two sides of the upper end of the corresponding vertical plate respectively, the other end of the L-shaped frame is fixedly connected to the bottom plate, the transverse plates are respectively and fixedly connected between the two L-shaped frames, the plurality of material storage cylinders are arrayed on the transverse plates in an equidistant mode, the material storage component is used for storing materials, the pull rod is pulled in the weighing cavity along with the increase of the materials in the material collection cavity, and the positive spring is stretched until the upper end of the pull rod descends to the scale marks on the outer side wall of the weighing cavity, so that the quantitative flow direction of the materials in the storage cylinder is controlled to be temporarily stored in the material collecting cavity, and the effect of intelligent control and quantitative control of material transfer is achieved.

Description

Intelligent material supply and distribution system

Technical Field

The invention relates to the technical field of material supplying and dispensing equipment, in particular to an intelligent material supplying and dispensing system.

Background

The batching system is an automatic batching device used for batching production of industries such as feed and concrete lamps, and a computer with automatic batching algorithm software is usually used as a control system for automatic batching, so that the batching system not only saves labor and labor in work, but also greatly improves batching precision.

Present intelligent confession batching system of fodder does not have automatic unloading and with the mix structure of different materials when the cooperation mostly when using in the agricultural, consequently current confession batching system practices thrift the batching time inadequately when using, can increase staff's physical power simultaneously.

Disclosure of Invention

The invention aims to solve the following defects in the prior art that the existing intelligent feed supply and proportioning system for agricultural feeds mostly does not have a mixing structure for automatically discharging and proportioning different materials, so that the existing feed supply and proportioning system is not enough to save proportioning time in use, and simultaneously can increase the physical strength of workers, and the intelligent feed supply and proportioning system is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent dosing system, comprising:

the vertical plate is fixedly connected with one side of the bottom plate and used for installing and fixing the intelligent feeding parts;

the storage component comprises storage barrels, L-shaped frames and transverse plates, one end of each of the two L-shaped frames is fixedly connected to two sides of the upper end of the corresponding vertical plate, the other end of each of the L-shaped frames is fixedly connected to the corresponding bottom plate, the transverse plates are fixedly connected between the two L-shaped frames, the storage barrels are arrayed on the transverse plates in an equidistant mode, and the storage component is used for storing materials;

the weighing component comprises a weighing cavity, pull rods, positive springs and fixing rods, the top ends of the fixing rods are respectively and fixedly connected to the storage barrel, the weighing cavity is fixedly connected between the two fixing rods, the pull rods vertically penetrate through the lower side wall of the weighing cavity, the positive springs are respectively and fixedly connected between the storage barrel and the weighing cavity, and the weighing component is used for quantitatively batching materials;

the blanking component comprises an intercepting plate, mounting plates and a corrugated pipe, the mounting plates are arranged on the side wall of the vertical plate in an equidistant array mode, a sliding groove is formed in each mounting plate, the intercepting plate is connected in the sliding groove in a sliding mode, the lower end of the corrugated pipe is connected to the intercepting plate in a sliding mode, and the blanking component is used for controlling the downward placement of materials;

the driving part comprises supporting rods, lantern rings and a rotating plate, the lantern rings are fixedly connected to the vertical plate, the upper ends of the supporting rods are respectively and rotatably connected to the lantern rings, one end of the rotating plate is respectively and fixedly connected to the lower ends of the supporting rods, and the driving part is used for driving the blanking part to work;

connect the material part, connect the material part to include guide rail, slider, connect the material chamber, two the equal fixed connection of guide rail is in on the bottom plate, slider sliding connection is two between the guide rail, connect the material chamber to install the slider upper end.

Preferably, the storage component further comprises a blanking device, and the blanking devices are respectively and fixedly communicated with the lower end of the storage barrel.

Preferably, the weighing part further comprises a material collecting cavity, and the material collecting cavities are respectively and fixedly connected between the two pull rods.

Preferably, the blanking member further includes through holes, and the through holes are respectively installed on the intercepting plate and located at one side of the bellows.

Preferably, the top ends of the corrugated pipes are respectively and fixedly communicated with the lower end of the aggregate cavity.

Preferably, the driving part further comprises a torsion spring and a fixing plate, the torsion springs are respectively and fixedly connected between the lantern ring and the supporting rod, the fixing plate is fixedly connected to the rotating plate, and the fixing plate is provided with limiting blocks in an equidistant array.

Preferably, the outer surface of the support rod is provided with vertical insections, the side wall of the intercepting plate is provided with strip-shaped insections, and the support rod is meshed and connected with the intercepting plate.

Preferably, connect the material part still includes pivot, lug, and is a plurality of the pivot all runs through connect material on the chamber, it has the puddler to be annular array in the pivot, the lug is annular array and is in the one end of pivot.

Preferably, a controller is fixedly connected to the vertical plate, and the controller is electrically connected to the discharging device.

Compared with the prior art, the invention has the beneficial effects that:

1. the drive slider slides the in-process from left to right on the guide rail, at first extrudees to be located left rotor plate to promote the rotor plate to pass through branch at lantern ring internal rotation, the rotor plate is by rotatory to the parallel state with riser vertical angle this moment, simultaneously because branch is rotatory and drive the board of damming and slide in the mounting panel, the through-hole removes to the bellows downside on the board of damming this moment, thereby the material thing of the intracavity that gathers materials passes through the bellows and the through-hole falls to connect the material intracavity, reaches the effect of automatic material that connects.

2. The internal switch of the feeder is controlled to be opened through the controller respectively, so that the material inside the storage barrel is located in the material collecting cavity of the lower side through the flow direction of the feeder respectively, the material collecting cavity is in the weighing cavity along with the increase of the material, a positive spring is stretched, the upper end of the pull rod descends to the scale marks on the outer side wall of the weighing cavity, the quantitative flow direction of the material in the storage barrel is controlled to be collected in the material collecting cavity and temporarily stored, and the effect of intelligent control and quantitative control of material transfer is achieved.

3. Along with the slider drives the removal that connects the material chamber for lug and stopper meshing, thereby drive the pivot and fix the pivoted puddler rotation, can stir the different materials that are located and connect the material intracavity.

Drawings

FIG. 1 is a schematic front view of an intelligent dispensing system according to the present invention;

FIG. 2 is a schematic view of a portion A of FIG. 1;

fig. 3 is a schematic structural diagram of a material receiving cavity of an intelligent material supplying and dispensing system provided by the invention;

FIG. 4 is a schematic diagram of a weighing cavity of an intelligent feeding and dispensing system according to the present invention;

fig. 5 is a schematic structural diagram of a fixing plate of an intelligent material supplying and dispensing system according to the present invention.

In the figure: the device comprises a vertical plate 1, a storage barrel 2, a transverse plate 3, a feeder 4, a material collecting cavity 5, a weighing cavity 6, a 7L-shaped frame, a controller 8, a guide rail 9, a bottom plate 10, a material receiving cavity 11, a sliding block 12, a rotating plate 13, a stirring rod 14, a rotating shaft 15, a lug 16, a fixed plate 17, a limited block 18, a pull rod 19, a positive spring 20, a fixed rod 21, a support rod 22, a lantern ring 23, a torsion spring 24, a shutoff plate 25, a mounting plate 26, a corrugated pipe 27 and a through hole 28.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an intelligent feeding and batching system, comprising:

the intelligent feeding device comprises a bottom plate 10 and a vertical plate 1 fixedly connected to one side of the bottom plate 10, wherein the vertical plate is used for installing and fixing intelligent feeding parts;

the storage component comprises storage barrels 2, L-shaped frames 7 and a transverse plate 3, wherein one end of each of the two L-shaped frames 7 is fixedly connected to two sides of the upper end of a vertical plate 1, the other end of each L-shaped frame 7 is fixedly connected to a bottom plate 10, the transverse plate 3 is fixedly connected between the L-shaped frames 7, a plurality of storage barrels 2 are arrayed on the transverse plate 3 in an equidistant mode, the storage barrels 2 vertically penetrate through the transverse plate 3, the L-shaped frames 7 are used for supporting and fixing the transverse plate 3 and the discharge barrels 2, raw materials with different components are placed in the storage barrels 2 for storage before batching, the storage component further comprises a blanking device 4, a plurality of blanking devices 4 are fixedly communicated with the lower end of each storage barrel 2, a control switch is arranged in each blanking device 4, a controller 8 is fixedly connected to the vertical plate 1, and the controller 8 is electrically connected to the blanking devices 4, so that the controller 8 can control the switch in each blanking device 4 at any time, thereby reach the interior material of stable control storage section of thick bamboo 2 and transfer weight to the proportion of a plurality of material batching of reasonable control, storage component is used for the storage of material thing.

The weighing component comprises a weighing cavity 6, pull rods 19, positive springs 20 and fixing rods 21, the top ends of the fixing rods 21 are respectively and fixedly connected to the storage barrel 2, the weighing cavity 6 is fixedly connected between the two fixing rods 21, the pull rods 19 vertically penetrate through the lower side wall of the weighing cavity 6, the weighing component further comprises a material collecting cavity 5, the material collecting cavities 5 are respectively and fixedly connected between the two pull rods 19, materials in the storage barrel 2 respectively flow into the material collecting cavity 5 on the lower side through a blanking device 4, the pull rods 19 are pulled in the weighing cavity 6 along with the increase of the materials in the material collecting cavity 5, the positive springs 20 are stretched until the upper ends of the pull rods 19 fall onto scale marks on the outer side wall of the weighing cavity 6, (like the same weighing method of a tension meter in the prior art) to control the quantitative flow of the materials in the storage barrel 2 to the material collecting cavity 5 and temporarily store the materials, the positive springs 20 are respectively and fixedly connected between the storage barrel 2 and the weighing cavity 6, when the material in the material collecting cavity 5 is completely placed, the material collecting cavity 5 is reset upwards under the tension of the positive spring 20, and the weighing component is used for quantitatively batching the material.

The blanking part comprises a shutoff plate 25, a mounting plate 26, a corrugated pipe 27 and a plurality of mounting plates 26 which are arranged on the side wall of the vertical plate 1 at equal intervals, the mounting plates 26 are provided with sliding grooves, the shutoff plate 25 is connected in the sliding grooves in a sliding way, the lower end of the corrugated pipe 27 is connected on the shutoff plate 25 in a sliding way, the top ends of the corrugated pipes 27 are respectively and fixedly communicated with the lower end of the material collecting cavity 5, the corrugated pipe 27 has elasticity, so that the stable sliding of the lower end of the corrugated pipe 27 on the upper surface of the shutoff plate 25 is not influenced when the material collecting cavity 5 moves up and down, the blanking part also comprises a through hole 28, the through holes 28 are respectively arranged on the shutoff plate 25 and are positioned at one side of the corrugated pipe 27, as the support rod 22 rotates and drives the shutoff plate 25 to slide in the mounting plates 26, at the moment, the through hole 28 on the shutoff plate 25 moves to the lower side of the corrugated pipe 27, so that materials in the material collecting cavity 5 fall into the material collecting cavity 11 through the corrugated pipe 27 and the through hole 28, reach the effect of automatic material that connects, the unloading part is used for controlling transferring of material.

The driving part comprises a supporting rod 22, lantern rings 23 and a rotating plate 13, the lantern rings 23 are fixedly connected to a vertical plate 1, the upper ends of the supporting rods 22 are respectively and rotatably connected to the lantern rings 23, one end of the rotating plate 13 is respectively and fixedly connected to the lower end of the supporting rod 22, vertical insections are formed in the outer surface of the supporting rod 22, stripe patterns are formed in the side wall of a cut-off plate 25, the supporting rod 22 is in meshed connection with the cut-off plate 25, in the process that a driving sliding block 12 slides on a guide rail 9 from left to right, the rotating plate 13 on the left side is firstly extruded, the rotating plate 13 is pushed to rotate in the lantern rings 23 through the supporting rod 22 and drives a torsion spring 24, at the moment, the rotating plate 13 rotates to be parallel to the vertical angle with the vertical plate 1, meanwhile, the cutting-off plate 25 is driven to slide in a mounting plate 26 due to the rotation of the supporting rod 22, the driving part further comprises the torsion spring 24 and a fixing plate 17, the torsion springs 24 are respectively and fixedly connected between the lantern rings 23 and the supporting rods 22, when the material receiving cavity 11 is far away from the rotating plate 13, the rotating plate 13 performs reset rotation under the torsion of the torsion spring 24, the fixed plate 17 is fixedly connected to the rotating plate 13, the fixed plate 17 is provided with limiting blocks 18 in an equidistant array, and the driving part is used for driving the blanking part to work;

connect the material part, connect the material part to include guide rail 9, slider 12, connect material chamber 11, the equal fixed connection of two guide rail 9 is on bottom plate 10, slider 12 sliding connection is between two guide rail 9, connect material chamber 11 to install in slider 12 upper end, connect the material part still to include pivot 15, lug 16, a plurality of pivots 15 all run through on connecing material chamber 11, it has puddler 14 to be annular array in pivot 15, lug 16 is the one end of annular array at pivot 15, along with slider 12 drives the removal of connecing material chamber 11, make lug 16 and stopper 18 meshing, thereby it is rotatory to drive pivot 15 and fix puddler 14 in pivot 15, can stir the material that is located and connects material chamber 11.

According to the invention, when ingredients are required, different required materials are respectively placed in the storage barrel 2, the controller 8 is used for respectively controlling the switches inside the blanking device 8 to be opened, so that the materials inside the storage barrel 2 respectively flow into the material collecting cavity 5 positioned on the lower side through the blanking device 4, the pull rod 19 is pulled in the weighing cavity 6 along with the increase of the materials in the material collecting cavity 5, and the positive spring 20 is stretched until the upper end of the pull rod 19 descends onto the scale marks on the outer side wall of the weighing cavity 6 (like the same weighing method of a tension meter in the prior art), so that the materials in the storage barrel 2 are controlled to quantitatively flow into the material collecting cavity 5 and are temporarily stored.

Then, in the process of sliding the sliding block 12 on the guide rail 9 from left to right, the rotating plate 13 on the left side is firstly extruded, the rotating plate 13 is pushed to rotate in the lantern ring 23 through the supporting rod 22, the torsion spring 24 is driven, at the moment, the rotating plate 13 rotates from a vertical angle with the vertical plate 1 to a parallel state, meanwhile, the supporting rod 22 rotates and drives the cut-off plate 25 to slide in the mounting plate 26, at the moment, the through hole 28 on the cut-off plate 25 moves to the lower side of the corrugated pipe 27, so that the material in the material collecting cavity 5 falls into the material receiving cavity 11 through the corrugated pipe 27 and the through hole 28 to achieve the effect of automatically receiving the material, the protruding block 16 is meshed with the limiting block 18 along with the movement of the material receiving cavity 11 driven by the sliding block 12, the rotating shaft 15 and the stirring rod 14 fixed on the rotating shaft 15 are driven to rotate, and the material in the material receiving cavity 11 can be stirred.

When the receiving cavity 11 moves through the first rotating plate 13 on the left side along with the slider 12, after the rotating plate 13 is no longer subjected to an external acting force, the rotating plate 13 and the supporting rod 22 rotate in a resetting manner under the torsion of the torsion spring 24, and when the shutoff plate 25 is reset, the through hole 28 and the corrugated pipe 27 are staggered, so that the lower end of the corrugated pipe 27 is sealed again, and meanwhile, when the material in the collecting cavity 5 flows into the receiving cavity 11, the collecting cavity 5 moves upwards and resets under the tension of the positive spring 20, and simultaneously, the receiving cavity 11 extrudes the rotating plate 13 in the middle again to rotate, and puts the material in the middle into the receiving cavity 11, when the receiving cavity 11 receives the materials in the plurality of storage barrels 2, and simultaneously, the effect of automatically mixing different materials in the receiving cavity 11 through the stirring 14 along with the rotation of the rotating shaft 15 is achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. An intelligent dosing system, comprising:

the feeding device comprises a bottom plate (10) and a vertical plate (1) fixedly connected with one side of the bottom plate (10), wherein the vertical plate is used for installing and fixing intelligent feeding parts;

the storage component comprises storage barrels (2), L-shaped frames (7) and transverse plates (3), one ends of the two L-shaped frames (7) are fixedly connected to two sides of the upper end of the vertical plate (1) respectively, the other ends of the L-shaped frames (7) are fixedly connected to the bottom plate (10), the transverse plates (3) are fixedly connected between the two L-shaped frames (7) respectively, the storage barrels (2) are arrayed on the transverse plates (3) in an equidistant mode, and the storage component is used for storing materials;

the weighing component comprises a weighing cavity (6), pull rods (19), positive springs (20) and fixing rods (21), the top ends of the fixing rods (21) are fixedly connected to the storage barrel (2) respectively, the weighing cavity (6) is fixedly connected between the two fixing rods (21), the pull rods (19) vertically penetrate through the lower side wall of the weighing cavity (6), the positive springs (20) are fixedly connected between the storage barrel (2) and the weighing cavity (6) respectively, and the weighing component is used for quantitatively batching materials;

the blanking component comprises an intercepting plate (25), mounting plates (26) and a corrugated pipe (27), the mounting plates (26) are arrayed on the side wall of the vertical plate (1) at equal intervals, sliding grooves are formed in the mounting plates (26), the intercepting plate (25) is connected in the sliding grooves in a sliding mode, the lower end of the corrugated pipe (27) is connected to the intercepting plate (25) in a sliding mode, and the blanking component is used for controlling the downward placement of materials;

the driving part comprises supporting rods (22), lantern rings (23) and a rotating plate (13), the lantern rings (23) are fixedly connected to the vertical plate (1), the upper ends of the supporting rods (22) are respectively and rotatably connected into the lantern rings (23), one end of the rotating plate (13) is respectively and fixedly connected to the lower ends of the supporting rods (22), and the driving part is used for driving the blanking part to work;

connect the material part, connect the material part to include guide rail (9), slider (12), connect material chamber (11), two the equal fixed connection of guide rail (9) is in on bottom plate (10), slider (12) sliding connection is two between guide rail (9), connect material chamber (11) to install slider (12) upper end.

2. An intelligent feeding and dispensing system as claimed in claim 1, wherein the storage component further comprises a plurality of feeders (4), and the plurality of feeders (4) are respectively and fixedly communicated with the lower end of the storage barrel (2).

3. An intelligent feeding and dispensing system according to claim 1, wherein the weighing unit further comprises a plurality of collecting chambers (5), and the collecting chambers (5) are respectively fixedly connected between the two pull rods (19).

4. A smart feeding and dispensing system according to claim 1, wherein the blanking member further comprises a plurality of through holes (28), and a plurality of the through holes (28) are respectively installed on the intercepting plate (25) and located at one side of the bellows (27).

5. An intelligent feeding and mixing system as claimed in claim 3, wherein the top ends of the bellows (27) are respectively fixedly communicated with the lower end of the material collecting cavity (5).

6. An intelligent dosing system according to claim 1, wherein the driving part further comprises torsion springs (24) and a fixing plate (17), the torsion springs (24) are respectively and fixedly connected between the collar (23) and the support rod (22), the fixing plate (17) is fixedly connected to the rotating plate (13), and the fixing plate (17) is provided with limiting blocks (18) in an equidistant array.

7. An intelligent dosing system according to claim 1, wherein the outer surface of the supporting rod (22) is provided with vertical insections, the side wall of the cut-off plate (25) is provided with stripe-shaped insections, and the supporting rod (22) is engaged with the cut-off plate (25).

8. An intelligent material supplying and mixing system according to claim 1, wherein the material receiving component further comprises a plurality of rotating shafts (15) and a plurality of bumps (16), the plurality of rotating shafts (15) penetrate through the material receiving cavity (11), the rotating shafts (15) are provided with stirring rods (14) in an annular array, and the bumps (16) are arranged at one ends of the rotating shafts (15) in an annular array.

9. An intelligent feeding and blending system according to claim 2, wherein a controller (8) is fixedly connected to the vertical plate (1), and the controller (8) is electrically connected to the blanking device (4).

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