CN114100416B - Intelligent batching equipment for factories - Google Patents

Abstract

The invention discloses intelligent batching equipment for a factory, which comprises a batching mechanism, a stirring mechanism and a conveying mechanism, wherein the stirring mechanism is communicated with the bottom of the batching mechanism, and the conveying mechanism is communicated with the bottom of the stirring mechanism; the batching mechanism comprises a batching assembly and a plurality of stretching assemblies arranged in the batching assembly; the batching subassembly includes the fixed plate, the cross-under is provided with a plurality of batching section of thick bamboo on the fixed plate, and the batching section of thick bamboo rigid coupling that is located both ends is on rabbling mechanism, every batching section of thick bamboo week side symmetry is provided with two support slide bars, and all support slide bars are both sides parallel distribution, and the support slide bar tip that is located the homonymy has a baffle fixedly connected jointly, and a common slip lath has been cup jointed in the slip on the support slide bar that is located the homonymy. The invention can realize the simultaneous and equal-proportion mixing of various ingredients, and the primary stirring and mixing and the secondary stirring and mixing of various ingredients, thereby greatly improving the production efficiency.

Description

Intelligent batching equipment for factories

Technical Field

The invention relates to the technical field of chemical industry batching, in particular to intelligent batching equipment for a factory.

Background

Industrialization is generally defined as a process in which the specific gravity of an industrial or second industry production value is continuously increased in the total national production value, and a process in which the specific gravity of an industrial employment is continuously increased in the total employment. Industrialization refers to the development process of leading industrial production activities in national economy of a country and region, and is initially a spontaneous social phenomenon, but along with the rapid development of society, the industrialization process of China is continuously accelerated, and most of materials in the industrial production field are processed by proportioning, mixing and stirring different raw materials so as to be used for industrial production.

However, most of the existing industrial production workshops are manually burdened, and the traditional manual burdening process is complicated, consumes a large amount of labor force of staff, and seriously affects the production efficiency. Although few automatic batching equipment exist in the market and can automatically realize batching and stirring, the general efficiency of the automatic batching equipment is not high enough, the simultaneous same-quantity proportioning of various batching raw materials cannot be met, proportioning and mixing are needed one by one, and the final production efficiency of batching in a chemical plant is also affected; and when the raw materials of multiple ingredients are mixed together, the time required for stirring can be greatly prolonged, otherwise, the mixing of multiple raw materials is uneven, and the production efficiency is easily influenced only by means of the existing stirring and mixing device.

The utility model provides a patent of application number 201921921368.6 among the prior art provides an intelligent factory and uses dosing unit, this dosing unit can carry out intensive mixing with the raw materials of waiting to join in marriage in the batching box through the arc piece on (mixing) shaft surface, thereby make the mixing of raw materials more reasonable, be favorable to producing the better finished product spare of quality, the device simple structure, flexible in use, it is convenient, unloading process and stirring process need not manual intervention, made things convenient for industrial production batching, but this device also can not satisfy the same amount ratio when raw and other materials to multiple batching, the duration of stirring also can correspondingly increase, still have the disadvantage in the aspect of production efficiency.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and providing the intelligent batching equipment for the factory, which can realize the simultaneous and equal-proportion mixing of various batching, and can carry out primary stirring mixing and secondary stirring mixing on various batching, thereby greatly improving the production efficiency.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the intelligent batching equipment for the factory comprises a batching mechanism, a stirring mechanism and a conveying mechanism, wherein the stirring mechanism is communicated with the bottom of the batching mechanism, and the conveying mechanism is communicated with the bottom of the stirring mechanism;

the batching mechanism comprises a batching assembly and a plurality of stretching assemblies arranged in the batching assembly;

the batching assembly comprises a fixed plate, a plurality of batching cylinders are arranged on the fixed plate in a penetrating way, the batching cylinders at two ends are fixedly connected to a stirring mechanism, two supporting slide bars are symmetrically arranged on the periphery of each batching cylinder, all the supporting slide bars are distributed in parallel on two sides, a baffle is fixedly connected to the end parts of the supporting slide bars at the same side together, a common sliding batten is sleeved on the supporting slide bars at the same side in a sliding way, a plurality of supporting cylinders are fixedly arranged at the bottom ends of the sliding battens, a discharging cover plate is fixedly connected to the bottom ends of the supporting cylinders at the same side together, and the two discharging cover plates are folded at the lower ports of all the batching cylinders;

the fixed plate top still is provided with a plurality of mobile motors that correspond tensile subassembly quantity, can drive two slip laths and slide to the outside through a plurality of tensile subassemblies during the mobile motor operation, and then drive two ejection of compact apron through the support cylinder and open to both sides translation, make and place in the inside multiple batching of batching section of thick bamboo and fall into rabbling mechanism simultaneously.

Further, the stirring mechanism comprises a material conveying component fixedly connected to the material mixing cylinders at two ends and a stirring component rotatably arranged in the material conveying component; the stirring assembly can stir and mix various ingredients falling into the material conveying assembly at the same time, and the ingredients fall into the conveying mechanism through the material conveying assembly;

the conveying mechanism comprises a box body assembly fixedly connected to the bottom of the material conveying assembly and a conveying assembly arranged in the box body assembly; the conveying component can stir and mix the mixed ingredients falling into the box component again and convey and discharge the mixed ingredients.

Further, a plurality of hinge parts corresponding to the number of the stretching components are symmetrically arranged on the inner sides of the two sliding battens, a reset spring is sleeved on each supporting sliding rod, two ends of the reset spring are respectively connected with the batching barrel and the sliding battens, and a movable gear is arranged at the output end of each movable motor;

the stretching assembly comprises a threaded thin rod, a moving element assembled on the threaded thin rod, two hinging rods symmetrically hinged to two sides of the moving element, and a moving gear piece fixedly arranged at the bottom end of the threaded thin rod;

the two hinge rods in the same group are respectively hinged on the hinge pieces at two sides, and each movable gear piece is meshed with the corresponding movable gear.

Further, the material conveying component comprises a cylindrical barrel fixedly connected to the material mixing barrels at the two ends and communicated with the bottoms of the two material discharging cover plates, and a material feeding barrel frame fixedly connected to the bottoms of the cylindrical barrels;

the stirring assembly is rotatably installed in the cylindrical drum through the rotating clamping holes at the two ends, a rotating motor is further arranged at the end part of the cylindrical drum, and the stirring assembly is in transmission connection with the rotating motor.

Further, the stirring assembly comprises a stirring screw rod, two ends of the stirring screw rod are fixedly provided with rotating clamping pieces, and the rotating clamping pieces at the two ends are rotationally clamped in rotating clamping holes at the two ends;

one of them the rotation fastener tip still is provided with the round gear, the rotation motor output is provided with the rotation gear, the rotation gear meshes with the round gear mutually.

Further, a discharging sliding hole is formed in the top of the cylindrical barrel, and the two discharging cover plates are in sliding fit with the discharging sliding hole.

Further, the box assembly comprises a conveying box body, a feeding cylinder communicated and fixedly arranged at the top of the conveying box body and communicated and fixedly arranged at the bottom of the material conveying assembly, and an inclined discharging frame communicated and arranged at one end of the conveying box body;

the conveying box body is internally provided with a through conveying channel in a transverse mode, the conveying assembly is arranged at one end, far away from the inclined discharging frame, of the conveying box body, and extends into the conveying channel, and the bottom of the conveying box body is fixedly provided with supporting feet.

Further, the conveying assembly comprises a circular disc arranged at the end part of the conveying box body, a driving motor fixedly arranged on the circular disc, and a conveying propeller rod rotatably arranged on the circular disc and extending into the conveying channel;

the outer end of the material conveying propeller rod is provided with a cross ring gear, the output end of the driving motor is provided with a driving gear, and the driving gear is meshed with the cross ring gear.

Further, two stirring support frames are symmetrically arranged on the circumference of the material conveying propeller rod, a plurality of semicircular rings are arranged between the two stirring support frames, and a plurality of stirring elements are arranged on the outer wall of each semicircular ring.

Further, the outer side walls of the batching barrels at the two ends are fixedly provided with L-shaped rods, the side surfaces of the L-shaped rods are provided with first threaded holes, the two ends of the cylindrical barrels are fixedly provided with clamping sleeves, and the side surfaces of the clamping sleeves are provided with second threaded holes corresponding to the first threaded holes;

the two L-shaped rods are respectively clamped in the clamping sleeves at the two ends and are fastened and connected through bolts.

By adopting the technical scheme, the invention has the following beneficial effects:

1. according to the invention, the plurality of proportioning barrels are arranged on the fixed plate in a penetrating way, the moving motor operates to drive the moving element on the threaded thin rod to move downwards, the two sliding strips are driven to slide outwards through the hinged rods at two sides, and the two discharging cover plates are driven to horizontally move and open towards two sides through the supporting cylinder, so that various proportioning placed in the proportioning barrels can fall into the stirring mechanism at the same time, and then the stirring assembly is used for stirring, so that the simultaneous and equal-proportion mixing of various proportioning is facilitated, and the production efficiency is greatly improved.

2. According to the invention, multiple ingredients falling into the material conveying assembly can be simultaneously stirred and mixed through the stirring assembly, and the mixed ingredients falling into the box assembly can be stirred, mixed and conveyed again through the conveying assembly and discharged, so that the stirring is more fully and uniformly, the total duration of single stirring is shortened, and the production efficiency is further improved.

3. According to the invention, the reset springs are sleeved on each support sliding rod, and through the elastic action of the reset springs between the sliding battens and the batching barrel and the linkage structure of the screw thread driving and the hinging rods, the hinging rods on two sides have certain expansion and contraction acting force when pushing and pulling the sliding battens, so that the structure is prevented from loosening, and the moving element is ensured to smoothly finish moving, and the hinging rods can smoothly push and pull the sliding battens.

4. According to the invention, the stirring support frames are additionally arranged on the peripheral side of the material conveying propeller rod, the semicircular arc rings are arranged between the stirring support frames, and the plurality of stirring elements are arranged on the semicircular arc rings, so that the material conveying propeller rod can simultaneously carry out secondary stirring on part of mixed ingredients when rotating and conveying part of mixed ingredients, the material conveying propeller rod can convey and discharge materials and carry out secondary stirring at the same time, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a dispensing mechanism according to the present invention;

FIG. 3 is a schematic view of the configuration of the dosing assembly of the present invention;

FIG. 4 is a front view of the dosing assembly of the present invention;

FIG. 5 is a top view of the dosing assembly of the present invention;

FIG. 6 is a schematic view of the structure of the stretching assembly of the present invention;

FIG. 7 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 8 is a schematic view of a material transfer assembly according to the present invention;

FIG. 9 is a schematic view of the structure of the stirring assembly of the present invention;

FIG. 10 is a top view of the conveyor mechanism of the present invention;

FIG. 11 is a schematic view of the structure of the housing assembly of the present invention;

FIG. 12 is a schematic view of the structure of the transport assembly of the present invention;

wherein, 1. A batching mechanism; 2. a stirring mechanism; 3. a conveying mechanism; 4. a batching assembly; 401. a fixing plate; 402. a batching cylinder; 403. supporting a slide bar; 404. a baffle; 405. sliding the batten; 406. sliding the batten; 407. a support cylinder; 408. a discharging cover plate; l-shaped lever; 410. a first threaded hole; 411. a hinge; 412. a moving motor; 413. a moving gear; 5. a stretching assembly; 501. a threaded thin rod; 502. a moving element; 503. a hinge rod; 504. moving the gear member; 6. a material conveying assembly; 601. a cylinder barrel; 602. rotating the clamping hole; 603. a clamping sleeve; 604. a second threaded hole; 605. a rotating motor; 606. rotating the gear; 607. a discharging slide hole; 608. a feeding cylinder frame; 609. a third threaded hole; 7. a stirring assembly; 701. stirring screw rod; 702. rotating the clamping piece; 703. a circular gear; 8. a housing assembly; 801. conveying the box body; 802. a feed cylinder; 803. a fourth threaded hole; 804. a material conveying channel; 805. a threaded column; 806. an inclined discharging frame; 9. a transport assembly; 901. a feed screw rod; 902. a cross ring gear; 903. a circular disc; 904. limiting clamping holes; 905. a driving motor; 906. a drive gear; 907. a stirring support frame; 908. a semicircular arc ring; 909. a stirring element.

Detailed Description

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

As shown in fig. 1 to 12, in the present embodiment, there is provided an intelligent factory batching apparatus, which is composed of a batching mechanism 1, a stirring mechanism 2 and a conveying mechanism 3, wherein the stirring mechanism 2 is communicated with the bottom of the batching mechanism 1, and the conveying mechanism 3 is communicated with the bottom of the stirring mechanism 2. Wherein the dosing mechanism 1 in turn comprises a dosing assembly 4 and a plurality of stretching assemblies 5 arranged within the dosing assembly 4. The batching subassembly 4 specifically includes fixed plate 401, cross-under is provided with a plurality of batching section of thick bamboo 402 on the fixed plate 401, and the batching section of thick bamboo 402 rigid coupling that is located both ends is on rabbling mechanism 2, every batching section of thick bamboo 402 week side symmetry is provided with two horizontally supported slide bars 403, and all supported slide bars 403 are both sides and side by side distribution, the supporting slide bar 403 tip that is located the homonymy has jointly fixedly connected a baffle 404, namely has two baffles 404 altogether, supported slide bar 403 perpendicular to baffle 404, the supporting slide bar 403 that is located the homonymy has slided and has cup jointed a common sliding batten 405, namely has two sliding battens 405 altogether, sliding batten 405 is parallel with baffle 404. The bottom ends of the two sliding battens 405 are fixedly provided with a plurality of vertical supporting columns 407, the bottom ends of the supporting columns 407 positioned on the same side are fixedly connected with a discharging cover plate 408 together, namely, the two discharging cover plates 408 are arranged in total, the supporting columns 407 are perpendicular to the discharging cover plates 408, the two discharging cover plates 408 are folded at the lower ports of all the batching drums 402 in a normal state so as to prevent the batching drums 402 from leaking batching, and the supporting columns can be opened to two sides when needed, so that the batching in all the batching drums 402 can fall down simultaneously.

In order to drive two discharging cover plates 408 to expand to two sides synchronously, a plurality of mobile motors 412 corresponding to the number of the stretching assemblies 5 are further arranged at the top of the fixed plate 401, and the plurality of mobile motors 412 can drive the two sliding battens 405 to slide outwards along the supporting sliding rods 403 during synchronous operation, so that the two discharging cover plates 408 are driven to translate and expand to two sides through the supporting cylinders 407, various ingredients placed in the plurality of ingredient cylinders 402 can fall into the stirring mechanism 2 simultaneously, the simultaneous and same-proportion mixing of the various ingredients is facilitated, and the production efficiency is greatly improved.

Specifically, the stretching assembly 5 in this embodiment is composed of a threaded thin rod 501, a moving element 502, two hinge rods 503 and a moving gear member 504, wherein the moving element 502 is assembled on the threaded thin rod 501 in a threaded manner, the two hinge rods 503 are symmetrically hinged on two sides of the moving element 502, and the moving gear member 504 is fixedly arranged at the bottom end of the threaded thin rod 501. Correspondingly, a plurality of hinging pieces 411 corresponding to the number of the stretching assemblies 5 are symmetrically arranged on the inner sides of the two sliding battens 405, a group of two hinging pieces 411 are symmetrically arranged, two hinging rods 503 on a single moving element 502 are formed into a group, and the two hinging rods 503 in the same group are respectively hinged on one group of hinging pieces 411 on two sides; in addition, a moving gear 413 is disposed at an output end of each moving motor 412, and each moving gear member 504 is meshed with the corresponding moving gear 413. So set up, when two ejection of compact apron 408 need be opened, only need a key start all mobile motor 412, move through mobile motor 412 and drive the rotation of screw thread slender rod 501, drive the moving element 502 on it and move downwards, the articulated rod 503 of rethread both sides promotes two sliding battens 405 and follows support slide bar 403 outside and slide, and then the rethread supports cylinder 407 and drives two ejection of compact apron 408 to both sides translation and open.

In order to prevent the loosening of the connecting rod structure, the moving element 502 is ensured to smoothly complete moving, the hinge rod 503 can smoothly push and pull the sliding batten, a return spring 406 is sleeved on each support slide bar 403 in the embodiment, and two ends of the return spring 406 are respectively connected with the batching barrel 402 and the sliding batten 405. Therefore, the elastic action of the return spring 406 between the sliding batten 405 and the batching barrel 402 can ensure that the hinging rods 503 on two sides have certain expanding and contracting acting force when pushing and pulling the sliding batten 405, so as to ensure the stability of the structure.

Specifically, in order to further improve the production efficiency, the stirring mechanism 2 in this embodiment specifically includes a material conveying component 6 fixedly connected to the material mixing barrels 402 at two ends and a stirring component 7 rotatably installed inside the material conveying component 6, where the stirring component 7 can stir and mix multiple materials falling into the material conveying component 6 at the same time, and falls into the conveying mechanism 3 through the material conveying component 6. The conveying mechanism 3 specifically comprises a box body assembly 8 fixedly connected to the bottom of the material conveying assembly 6 and a conveying assembly 9 mounted on the box body assembly 8, wherein the conveying assembly 9 can stir, mix and convey and discharge mixed ingredients falling into the box body assembly 8 again. The setting can make the stirring more abundant even like this, compares in traditional single stirring, has shortened the total duration of stirring greatly, has further improved production efficiency.

Specifically, the material conveying component 6 in this embodiment further includes a cylinder 601 and a feeding cylinder frame 608, the cylinder 601 is fixedly connected to the material mixing cylinders 402 at two ends and is communicated with the bottoms of the two material discharging cover plates 408, the two material discharging cover plates 408 are opened to enable the material to fall into the cylinder 601, and the feeding cylinder frame 608 is fixedly arranged at the bottom of the cylinder 601. The rotation card hole 602 has all been seted up at cylinder 601 both ends, and stirring subassembly 7 rotates through the rotation card hole 602 at both ends and installs in cylinder 601, and cylinder 601 tip still is provided with rotation motor 605, and stirring subassembly 7 is connected with rotation motor 605 transmission, can order about stirring subassembly 7 to rotate through the operation of rotation motor 605, and then accomplishes first stirring. Of course, in order to make stirring more sufficient, the stirring assembly 7 in this embodiment specifically further includes a stirring screw 701, two ends of the stirring screw 701 are fixedly provided with rotation clamping pieces 702, and the rotation clamping pieces 702 at two ends are rotationally clamped in the rotation clamping holes 602 at two ends, so as to improve stirring stability. In addition, in this embodiment, a more precise transmission connection is selected, a circular gear 703 is disposed at an end of one of the rotation clamping members 702, a rotation gear 606 is disposed at an output end of the rotation motor 605, and the rotation gear 606 is meshed with the circular gear 703, so that the transmission connection is realized through gear cooperation.

In order to make the two discharging cover plates 408 move to two sides more smoothly, the top of the cylindrical barrel 601 in this embodiment is provided with a discharging slide hole 607, and the two discharging cover plates 408 are slidably matched with the discharging slide hole 607. Can form the direction limiting displacement to two ejection of compact apron 408 through ejection of compact slide hole 607, and then guarantee that two ejection of compact apron 408 can steadily slide, and can not misplace.

Specifically, the box assembly 8 in this embodiment further includes a conveying box 801, a feeding cylinder 802 and an oblique discharging frame 806, where the bottom of the feeding cylinder 802 is communicated and embedded and fixedly arranged at the top of the conveying box 801, the top of the feeding cylinder 802 is communicated and fixedly connected at the bottom of the material conveying assembly 6, and the oblique discharging frame 806 is communicated and arranged at one end of the conveying box 801 for final discharging. In order to improve the connection stability between the conveying mechanism 3 and the stirring mechanism 2, a plurality of third threaded holes 609 are formed in the bottom of the feeding barrel frame 608, a plurality of fourth threaded holes 803 are formed in the top of the feeding barrel 802, and the fourth threaded holes 803 and the third threaded holes 609 are firmly locked through fastening bolts. For the whole structural support, a plurality of supporting feet are also fixedly arranged at the bottom of the conveying box 801. In addition, the conveying channel 804 that runs through has transversely been seted up to the inside of carrying box 801, and conveying component 9 installs on the one end that carries box 801 to keep away from oblique ejection of compact frame 806, and conveying component 9 stretches into the conveying channel 804 inside, and conveying component 9 also carries out secondary stirring to the partial mixed batching when carrying the partial mixed batching to this one-shot two has improved production efficiency greatly.

Specifically, the conveying assembly 9 in this embodiment further includes a circular plate 903 mounted on an end of the conveying box 801, a driving motor 905 fixed on the circular plate 903, and a conveying screw 901 rotatably mounted on the circular plate 903 and extending into the conveying passage 804. The outer end of the material conveying propeller rod 901 is provided with a cross ring gear 902, the output end of a driving motor 905 is provided with a driving gear 906, the driving gear 906 is meshed with the cross ring gear 902, the material conveying propeller rod 901 can be driven to rotate through the operation of the driving motor 905 to finish conveying and secondary stirring, and precise transmission connection is realized through gear matching. In order to improve the connection stability between the circular plate 903 and the conveying box 801, a plurality of threaded columns 805 are fixedly arranged on the circumferential array at the end of the conveying box 801, a plurality of corresponding limit clamping holes 904 are formed on the circular plate 903 in a circumferential array, the circular plate 903 is clamped on the threaded columns 805 through the limit clamping holes 904, and the outer side of the circular plate 903 is fastened through a locking nut.

In order to better realize that the secondary stirring is performed while the mixed ingredients are conveyed, two stirring support frames 907 are symmetrically arranged on the circumference side of the material conveying propeller rod 901 in the embodiment, a plurality of semicircular arc rings 908 are arranged between the two stirring support frames 907, and a plurality of stirring elements 909 are arranged on the outer wall of each semicircular arc ring 908. So set up, when defeated material screw pole 901 rotates, can drive the stirring element 909 of week side and rotate together, the partly mixed batching can be carried to the defeated material screw pole 901 of central authorities, and marginal stirring element 909 can carry out the secondary stirring to the just mixed batching that falls, like this two-purpose, has improved production efficiency greatly.

In order to enhance the connection stability between the batching mechanism 1 and the stirring mechanism 2, in this embodiment, the outer side walls of the batching cylinders 402 located at two ends are respectively and fixedly provided with an L-shaped rod 409, the side surfaces of the L-shaped rods 409 are provided with first threaded holes 410, two ends of the cylinder 601 are respectively and fixedly provided with a clamping sleeve 603, the side surfaces of the clamping sleeves 603 are provided with second threaded holes 604 corresponding to the first threaded holes 410, the two L-shaped rods 409 are respectively clamped in the clamping sleeves 603 at two ends, and the batching assembly 4 and the material conveying assembly 6 are fastened and connected through bolts passing through the first threaded holes 410 and the second threaded holes 604.

The overall working principle of this embodiment is:

the moving motor 412 is started to drive the moving gear 413 to rotate and drive the moving gear member 504 and the threaded thin rod 501 to rotate, so that the moving element 502 moves on the threaded thin rod 501 in the vertical direction. Since the hinge 411 is fixed inside the sliding slat 405, when the moving element 502 moves vertically on the threaded thin rod 501, the symmetrical hinge rods 503 exert a certain expanding and contracting force on the sliding slat 405, so that a push-pull effect on the sliding slat 405 can be achieved. When the hinge rod 503 expands the sliding strip 405, the sliding strip 405 translates to two sides along the supporting slide rod 403 under the elastic force of the return spring 406, so as to drive the supporting cylinder 407 and the two discharging cover plates 408 at the bottom end to open to two sides along the discharging slide hole 607, so that the multiple ingredients placed in the multiple ingredient cylinders 402 drop into the cylinder 601 at the same time. The rotary motor 605 is started to drive the rotary gear 606 to rotate, and the stirring screw 701 is driven to rotate in the cylindrical drum 601, so that various ingredients entering the cylindrical drum 601 simultaneously are synchronously stirred and mixed. The ingredients after stirring are dropped through the feeding barrel frame 608, then through the feeding barrel 802, and finally drop into the feeding channel 804 of the feeding box 801. The driving motor 905 is started to drive the driving gear 906 to rotate, drive the cross ring gear 902 to rotate, and then drive the whole material conveying propeller rod 901 to rotate, so that the mixed ingredients can be mixed for the second time under the stirring action of the stirring elements 909 fixed on the semicircular ring 908. Finally, the materials are discharged from the inclined discharging frame 806 through the conveying function of the material conveying channel 804 and the material conveying propeller rod 901, so that the simultaneous and same-proportion mixing of various ingredients is realized, the primary stirring mixing and the secondary stirring mixing of the various ingredients are completed, and the production efficiency is further improved.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, 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 present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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 technical problems, technical solutions and beneficial effects that the present invention solves are further described in detail in the above specific embodiments, it should be understood that the above description is only specific embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. that fall within the spirit and principles of the present invention should be included in the scope of protection of the present invention.

Claims (9)

1. An intelligent factory batching plant, its characterized in that: the stirring device comprises a batching mechanism (1), a stirring mechanism (2) and a conveying mechanism (3), wherein the stirring mechanism (2) is communicated with the bottom of the batching mechanism (1), and the conveying mechanism (3) is communicated with the bottom of the stirring mechanism (2);

the batching mechanism (1) comprises a batching assembly (4) and a plurality of stretching assemblies (5) arranged in the batching assembly (4);

the batching assembly (4) comprises a fixed plate (401), a plurality of batching cylinders (402) are arranged on the fixed plate (401) in a penetrating way, the batching cylinders (402) at two ends are fixedly connected to the stirring mechanism (2), two supporting slide bars (403) are symmetrically arranged on the periphery of each batching cylinder (402), all the supporting slide bars (403) are distributed in parallel on two sides, one baffle (404) is fixedly connected to the end parts of the supporting slide bars (403) at the same side together, one common sliding batten (405) is sleeved on the supporting slide bars (403) at the same side in a sliding way, a plurality of supporting cylinders (407) are fixedly connected to the bottom ends of the two sliding battens (405), one discharging cover plate (408) is fixedly connected to the bottom ends of the supporting cylinders (407) at the same side together, and the two discharging cover plates (408) are folded at the lower ports of all the batching cylinders (402);

the top of the fixed plate (401) is also provided with a plurality of mobile motors (412) corresponding to the number of the stretching assemblies (5), and the mobile motors (412) can drive the two sliding battens (405) to slide outwards through the stretching assemblies (5) during operation, so that the two discharging cover plates (408) are driven to translate and open to two sides through the supporting cylinders (407), and various ingredients placed in the ingredient barrel (402) simultaneously fall into the stirring mechanism (2);

a plurality of hinging pieces (411) corresponding to the number of the stretching assemblies (5) are symmetrically arranged on the inner sides of the two sliding battens (405), a reset spring (406) is sleeved on each supporting sliding rod (403), two ends of the reset spring (406) are respectively connected with the batching barrel (402) and the sliding battens (405), and a movable gear (413) is arranged at the output end of each movable motor (412);

the stretching assembly (5) comprises a threaded thin rod (501), a moving element (502) assembled on the threaded thin rod (501), two hinging rods (503) symmetrically hinged to two sides of the moving element (502), and a moving gear piece (504) fixedly arranged at the bottom end of the threaded thin rod (501);

the two hinge rods (503) of the same group are respectively hinged on hinge parts (411) at two sides, and each moving gear part (504) is meshed with a corresponding moving gear (413).

2. The intelligent factory batching plant according to claim 1, wherein: the stirring mechanism (2) comprises a material conveying component (6) fixedly connected to the material mixing barrels (402) at two ends and a stirring component (7) rotatably arranged in the material conveying component (6); the stirring assembly (7) can stir and mix various ingredients falling into the material conveying assembly (6) at the same time, and the ingredients fall into the conveying mechanism (3) through the material conveying assembly (6);

the conveying mechanism (3) comprises a box body assembly (8) fixedly connected to the bottom of the material conveying assembly (6) in a communicating manner, and a conveying assembly (9) arranged in the box body assembly (8); the conveying assembly (9) can stir and mix the mixed ingredients falling into the box body assembly (8) again and convey and discharge the mixed ingredients.

3. The intelligent factory batching plant according to claim 2, wherein: the material conveying component (6) comprises a cylindrical barrel (601) fixedly connected to the material mixing barrels (402) at two ends and communicated with the bottoms of the two material discharging cover plates (408), and a material feeding barrel frame (608) fixedly connected to the bottoms of the cylindrical barrels (601);

the stirring device is characterized in that rotation clamping holes (602) are formed in two ends of the cylindrical drum (601), the stirring assembly (7) is rotatably installed in the cylindrical drum (601) through the rotation clamping holes (602) in the two ends, a rotation motor (605) is further arranged at the end of the cylindrical drum (601), and the stirring assembly (7) is in transmission connection with the rotation motor (605).

4. The intelligent factory batching plant according to claim 3, wherein: the stirring assembly (7) comprises a stirring screw rod (701), two ends of the stirring screw rod (701) are fixedly provided with rotating clamping pieces (702), and the rotating clamping pieces (702) at the two ends are rotationally clamped in rotating clamping holes (602) at the two ends;

one of them rotate fastener (702) tip and still be provided with circular gear (703), rotation motor (605) output is provided with rotation gear (606), rotation gear (606) meshes with circular gear (703).

5. The intelligent factory batching plant according to claim 3, wherein: the top of the cylindrical barrel (601) is provided with a discharging sliding hole (607), and the two discharging cover plates (408) are in sliding fit with the discharging sliding hole (607).

6. The intelligent factory batching plant according to claim 2, wherein: the box body assembly (8) comprises a conveying box body (801), a feeding cylinder (802) which is fixedly arranged at the top of the conveying box body (801) in a communicating manner and is fixedly connected to the bottom of the material conveying assembly (6), and an inclined discharging frame (806) which is arranged at one end of the conveying box body (801) in a communicating manner;

the conveying box body (801) is internally and transversely provided with a penetrating conveying channel (804), the conveying assembly (9) is arranged at one end, far away from the inclined discharging frame (806), of the conveying box body (801, the conveying assembly (9) stretches into the conveying channel (804), and the bottom of the conveying box body (801) is fixedly provided with supporting feet.

7. The intelligent factory batching apparatus according to claim 6, wherein: the conveying assembly (9) comprises a circular disc (903) arranged at the end part of the conveying box body (801), a driving motor (905) fixedly arranged on the circular disc (903) and a conveying propeller rod (901) rotatably arranged on the circular disc (903) and extending into the conveying channel (804);

the outer end of the material conveying propeller rod (901) is provided with a cross ring gear (902), the output end of the driving motor (905) is provided with a driving gear (906), and the driving gear (906) is meshed with the cross ring gear (902).

8. The intelligent factory batching plant according to claim 7, wherein: two stirring support frames (907) are symmetrically arranged on the circumferential side of the material conveying propeller rod (901), a plurality of semicircular arc rings (908) are arranged between the two stirring support frames (907), and a plurality of stirring elements (909) are arranged on the outer wall of each semicircular arc ring (908).

9. The intelligent factory batching plant according to claim 3, wherein: the outer side walls of the batching barrels (402) at the two ends are fixedly provided with L-shaped rods (409), the side surfaces of the L-shaped rods (409) are provided with first threaded holes (410), the two ends of the cylindrical barrels (601) are fixedly provided with clamping sleeves (603), and the side surfaces of the clamping sleeves (603) are provided with second threaded holes (604) corresponding to the first threaded holes (410);

the two L-shaped rods (409) are respectively clamped in clamping sleeves (603) at two ends and are fastened and connected through bolts.