CN209848832U - Automatic batching hopper conveyer of measurement feed proportioning system - Google Patents

Abstract

The utility model discloses an automatic measure batching system's batching fill conveyer sets up the discharge gate below at automatic measure batching system's automatic measure blanking machine, and it includes the transport frame, lay and supply to place the transport track, the drive transport track that carry batching to fight in the transport frame advance the transport actuating mechanism that carries batching and the positioner and the control module of location batching fill position, carry actuating mechanism and positioner connection control module. The conveyer of the batching hopper has large load and stable conveying, and is particularly suitable for an automatic metering and batching system.

Description

Automatic batching hopper conveyer of measurement feed proportioning system

Technical Field

The utility model relates to a conveying machinery especially relates to be applied to the conveying machinery among the automatic measurement feed proportioning system.

Background

The production of the foaming material is prepared by preparing a plurality of raw materials according to a certain proportion and then producing the foaming material by a foaming production process, wherein the raw materials comprise granular materials of powdery materials, the proportion of various materials is different, the quantity span of the main materials and the auxiliary agents is large, the main materials are more than hundreds of kilograms, and the auxiliary agents are less than or equal to kilograms, which is a common condition, so the batching step before the production of the foaming material is a relatively troublesome procedure, and the conveying of the materials in the batching process in the procedure is an operation with higher labor intensity.

At present, the batching process in most enterprises is completely operated manually, the participation degree of material taking, material weighing and manual conveying is high, the labor intensity is high, the error rate is high, the batching efficiency is low, and the problems to be solved for production and manufacturing enterprises with high productivity are urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a loading capacity is big, carries steadily, especially is suitable for the batching fill conveyer of an automatic measure batching system that automatic measure batching system used.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides an automatic measure batching system's batching fill conveyer, sets up the discharge gate below at automatic measure batching system's automatic measure blanking machine, and it includes the conveyor frame, lay and supply to place the conveyer way that the transport batching was fought, drive conveyer way advance the transport actuating mechanism that carries the batching fill and the positioner and the control module who fixes a position batching fill position in the conveyor frame, carry actuating mechanism and positioner connection control module.

The conveying path is formed by arranging a plurality of conveying roller shafts, two ends of each conveying roller shaft are respectively rotatably erected on two sides of the conveying rack, a gear is arranged at one end of each conveying roller shaft, the conveying driving mechanism comprises a transmission motor, a transmission gear arranged on an output shaft of the transmission motor and a chain meshed with the gear and the transmission gear, and the conveying driving mechanism is connected with the control module.

The utility model discloses a batching fill, including the front end bottom that is used for blocking batching fill direction of advance between two liang of transport rollers, locating device includes that both ends are connected respectively mounting panel on the both sides of carrying the frame, set up on the mounting panel and a plurality of location jar that the interval set up side by side and set up the inductive probe who is used for responding to the batching fill on carrying the frame side, the piston rod of location jar corresponds between two liang of transport rollers, and the piston rod passes when stretching out, and jar, inductive probe connection control module are fixed a position.

The batching hopper conveyor further comprises a dust collecting device provided with a dust recovery pipeline, and an air suction opening of the dust recovery pipeline corresponds to an opening of the batching hopper.

The batching fill conveyer is still including a plurality of erects in the conveyer frame and can correspond the fixed discharge gate mount of erectting of the discharge gate that supplies the automatic measurement blanking machine in the conveyer way top, the discharge gate mount is put on the shelf and is equipped with ejection of compact extension pipe, the lower extreme correspondence of ejection of compact extension pipe is in the conveyer way top, the upper end of ejection of compact extension pipe is used for being connected with the ejection of compact that supplies the automatic measurement blanking machine of automatic measurement dosing system.

The discharge port fixing frame is an L-shaped support, one arm end part of the L shape is connected to the side edge of the conveying rack, and a fixing ring for the discharge extension pipe to penetrate through is arranged at the other arm end part of the L shape.

By adopting the technical scheme, the beneficial effects of the utility model are that: the batching hopper conveyor of the automatic metering and batching system has a simple mechanical structure, is not easy to break down, has long service life, has a conveying channel which adopts a plurality of conveying roller shafts to arrange to form a large load capacity, is stable and smooth in conveying and accurate in positioning, is automatically controlled by a control module in conveying and positioning operations, is particularly suitable for conveying and using the batching hopper of the automatic metering and batching system, and is favorable for improving the automation performance of the automatic metering and batching system; above-mentioned positioner's structure setting, structural strength is high, can effectively block the batching fill inertia that prevents the load and slide forward.

Drawings

Fig. 1 is a schematic structural diagram of an automatic metering and batching system according to the present invention;

fig. 2 is a schematic structural view of a powder measuring and blanking machine in an automatic measuring and batching system according to the present invention;

fig. 3 is a schematic structural view of a granular material metering and blanking machine in an automatic metering and batching system according to the present invention;

fig. 4 is a schematic structural view of a granular material micro-blanking machine in an automatic metering and batching system according to the present invention;

FIG. 5 is a schematic structural view of a hopper conveyor in an automatic batching system according to the present invention;

fig. 6 is a schematic structural diagram of a circulating lifting feeder in an automatic metering and batching system.

In the figure:

powder measuring and blanking machine 1; a powder metering discharge port 10; a powder frame 11;

a powder hopper 12; a powder hopper body 121; a feed port 122; a discharge port 123;

a feeding device 13; a powder discharge port 131; a powder feed inlet 132; a feed cylinder 133;

a screw feed bar 134; a feed motor 135; a transmission 136;

a powder material metering hopper 14; a powder hopper body 141; a powder inlet 142; a blanking driving cylinder 143;

a cover plate 144 for powder; a powder weight sensing device 15;

a granular material metering blanking machine 2; the particle material is metered and discharged 20; a particulate material frame 21;

a particulate matter hopper 22; a particle hopper body 221; a particle feed port 222; a bulk discharge port 223;

a micro-discharge port 224; a bulk outlet cover 225; a feeder 226; bulk material drive cylinder 227;

a particulate material weighing hopper 23; a particulate material weighing hopper body 231; a particulate material inlet 232;

a blanking driving cylinder 233; a particulate material cover 234;

a particulate material weight sensing device 24;

a granular material micro-blanking machine 3; a micro-particle material metering discharge port 30; a micro-blanking frame 31;

a fine particulate matter hopper 32; a fine particle hopper body 321; a micro-particle feed inlet 322;

a single micro discharge port 323; a micro feeder 324;

a micro-particle material weighing hopper 33; a micro-particle material weighing hopper body 331;

a trace particle material inlet 332; a blanking drive cylinder 333; a microplate 334;

a trace particulate material weight sensing device 34;

a hopper conveyor 4; a conveyor frame 41; a conveyance path 42; the conveyance roller shaft 421;

a positioning device 43; a mounting plate 431; a positioning cylinder 432; a piston rod 4321; an inductive probe 433;

a discharge port holder 44; a fixing ring 441; a discharge extension tube 45;

a batching hopper 5; a circular lifting feeder 6; a feed entry end 61; a feed outlet end 62;

a conveyance master 63; a delivery rail 631; a small hopper 632; overlapping edges 6321;

a housing shell 64; a lower horizontal segment 641; a vertical mid-section 642; an upper horizontal section 643;

feeding into a hopper 65; a chassis 661; an upper chassis 6611; a lower chassis 6612;

a rail 662; road wheels 663; a travel drive mechanism 664; a guide structure 665;

a lift drive cylinder 666; a piston rod 6661.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

In this embodiment, the present invention discloses an automatic metering and batching system, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, which discloses a batching hopper conveyor of the automatic metering and batching system, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the automatic metering and batching system of the present invention comprises a powder metering and blanking machine 1, a granular material metering and blanking machine 2, a granular material micro-blanking machine 3, a batching hopper conveyor 4, a batching hopper 5 and a control module (not shown in the figure); the batching 5 is placed and is carried on the batching fill conveyer 4 and advance, powder measurement blanking machine 1 is equipped with powder measurement discharge gate 10 and corresponds 4 tops at the batching fill conveyer, granule material measurement blanking machine 2 is equipped with granule material measurement 20 mouths and corresponds 4 tops at the batching fill conveyer, granule material micro-blanking machine 3 is equipped with micro granule material measurement discharge gate 30 and corresponds 4 tops at the batching fill conveyer, the measurement unloading work of control module control powder measurement blanking machine 1, granule material measurement blanking machine 2 and granule material micro-blanking machine 3 and the transport work of control batching fill conveyer 4. In the utility model, the powder measuring blanking machine 1, the particle material measuring blanking machine 2 and the particle material micro blanking machine 3 can be arranged in various forms, as shown in the figure, the arrangement is arranged in parallel, but the raw materials are more than ten, twenty and more than many according to the number requirement of the material types to be proportioned by the user, for example, the foaming material proportioning has more machines corresponding to the measuring blanking, therefore, the powder measuring blanking machine 1, the particle material measuring blanking machine 2 and the particle material micro blanking machine 3 can also be respectively arranged in parallel, or one or more than one can be respectively arranged in parallel, the structure arranged in the upper and lower can shorten the automatic proportioning conveying length, reduce the occupied area, the mechanical material opening arranged at the upper part, the corresponding measuring discharge opening extends to correspond to the measuring discharge at the lower part, so as to ensure the blanking to the batching hopper.

As shown in fig. 2, the powder measuring and feeding machine 1 of the present invention includes a powder frame 11, a powder hopper 12, an agitating device (not shown in the figure), a feeding device 13, a powder measuring hopper 14, and a powder weight sensing device 15, wherein the powder hopper 12 includes a powder hopper body 121, a feeding port 122 at the upper end of the powder hopper body 121, and a discharging port 123 at the lower end of the powder hopper body 121, the feeding device 13 includes a feeding barrel 133 having one end of a powder discharging port 131 and the other end of a powder feeding port 132, a screw feeding rod 134 disposed in the feeding barrel 133, a feeding motor 135 driving the screw feeding rod 134 to rotate, and a transmission 136 between the feeding motor 135 and the screw feeding rod 134, the powder feeding port 132 is connected to the discharging port 123 of the powder hopper body 121, the agitating device includes an agitating rod disposed in the powder hopper body 121 and an agitating motor driving the agitating rod to rotate, the stirring device is arranged to loosen powder through rotation of the stirring rod and is used for preventing the powder from being compacted in the powder hopper body 121 and being discharged smoothly, the powder metering hopper 14 comprises a powder metering hopper body 141, a powder feeding port 142 at the upper end of the powder metering hopper body 141 and corresponding to a powder discharging port 131 of the feeding barrel 133 and a powder metering discharging port 10 at the lower end of the powder metering hopper body 141, the powder metering hopper 14 is indirectly erected on the powder rack 11 through a powder weight sensing device 15, a powder cover plate 144 driven by a powder discharging driving cylinder 143 is arranged on the powder metering discharging port 10 so as to open or close the powder metering hopper discharging port 10, and the stirring motor, the feeding motor 135, the speed changer 136, the powder weight sensing device 15 and the powder discharging driving cylinder 143 are connected with a control module. When powder is needed to be discharged, the working process of the powder metering and discharging machine 1 of the utility model is that the weight of the powder to be discharged is set firstly, the control module controls the operation of the proportioning hopper conveyor 4 to convey the proportioning hopper 5 to the lower part of the discharge port 10 of the corresponding powder metering hopper, then the control of the stirring motor, the feeding motor 135 and the transmission 136 starts to discharge the powder into the powder metering hopper 14, the adjustment of the discharging speed and the discharging amount of the powder discharge port 131 of the feeding barrel 133 can be controlled by controlling the rotating speed of the feeding motor 135 and/or the transmission 136, the discharging speed is fast, the discharging amount is large, otherwise, the discharging speed is small, the discharging speed is fast when the discharging speed is larger than the preset value, the discharging speed is slow when the discharging speed is smaller than the preset value, thereby the efficiency and the precision of the powder discharging metering are improved, the weight of the powder metering hopper 14 is monitored by the weight sensing device 15 in real, after the preset numerical value is reached, the stirring motor, the feeding motor 135 and the transmission 136 are controlled to stop working and stop discharging, then the powder discharging driving cylinder 143 is controlled to work and open the powder cover plate 144 to enable the powder in the powder metering hopper 14 to fall into the batching hopper 5, the metering and discharging of the powder are completed, and the batching hopper 5 can be conveyed to the lower part of the metering and discharging machine of the next material. Because the powder can appear the problem of powder raise dust at the in-process of unloading, both polluted air also cause the reduction of powder volume, for the influence that reduces this problem, the utility model discloses in can further be equipped with on the powder pan feeding mouth 142 of powder batch hopper 14 and prevent that the dust from flying upward through preventing the raise dust cover (not shown in the figure), also can further set up, powder measurement blanking machine 1 is still including the dust collection device (not shown in the figure) that is equipped with dust recovery pipeline, the inlet scoop of dust recovery pipeline corresponds feed inlet 122 of powder hopper body 121 upper end, the powder pan feeding mouth 142 of powder batch hopper and/or the opening setting of batching 5, and this structure setting can be better solution raise dust problem, recoverable powder reuse.

As shown in fig. 3, the particulate material metering and discharging machine 2 of the present invention comprises a particulate material frame 21, and a particulate material hopper 22, a particulate material weighing hopper 23 and a particulate material weight sensing device 24, which are erected on the particulate material frame 21, wherein the particulate material hopper 22 comprises a particulate material hopper body 221, a particulate material inlet 222 at the upper end of the particulate material hopper body 221, and a mass discharge port 223 and a micro discharge port 224 at the lower end of the particulate material hopper body 221, the mass discharge port 223 is used for mass discharge, the micro discharge port 224 is used for micro discharge, a mass discharge port cover plate 225 driven by a mass material driving cylinder 227 is disposed on the mass discharge port 223, so as to open or close the mass discharge port 223, a feeder 226 is disposed on the micro discharge port 224 (the feeder is an existing product, and is commercially available, and will not be, the particle material measuring hopper 23 comprises a particle material measuring hopper body 231, a particle material feeding port 232 which is arranged at the upper end of the particle material measuring hopper body 231 and corresponds to the mass discharge port 223 and the micro discharge port 224, and a particle material measuring discharge port 20 which is arranged at the lower end of the particle material measuring hopper body 231, the particle material measuring hopper 23 is indirectly erected on the particle material rack 21 through a particle material weight sensing device 24, a particle material cover plate 234 driven by a particle material driving cylinder 233 is arranged on the particle material measuring discharge port 20, so that the particle material measuring discharge port 20 is opened or closed, and the mass material driving cylinder 233, the feeder 226, the particle material driving cylinder 233 and the particle material weight sensing device 24 are connected with a control module. When the particle material is needed to be discharged, the working process of the particle material metering and discharging machine 2 of the utility model is that the weight of the particle material to be discharged is set firstly, the control module controls the operation of the proportioning hopper conveyor 4 to convey the proportioning hopper 5 to the position below the corresponding particle material metering and discharging port 20, then the control module controls the mass material driving cylinder 233 to open the mass discharging ports 223, thereby starting to discharge the particle material into the particle material metering hopper 23, the weight of the particle material metering hopper 23 is monitored by the particle material weight sensing device 24 in real time, when the preset value is larger, the discharge can be faster through the mass discharging ports 223, when the difference with the preset value is smaller, the control of the mass discharging ports 223 on the pipe wall of the mass material driving cylinder 233 is changed into slower discharge, namely, the control of the feeder 226 to start the discharging work, thereby realizing the improvement of the efficiency and the precision of the particle material, after the preset value is reached, the feeder 226 is controlled to stop working and stop feeding, and then the particle feeding driving cylinder 233 is controlled to work to open the particle cover 234 so that the particle materials in the particle material weighing hopper 23 fall into the batching hopper 5, so that the metering and feeding of the particle materials are completed, and the batching hopper 5 can be conveyed to the lower part of the metering and feeding machine of the next material.

As shown in fig. 4, in the present invention, the particulate material micro-feeder 3 includes a micro-feeder frame 31, and a micro-particulate material hopper 32, a micro-particulate material measuring hopper 33 and a micro-particulate material weight sensing device 34 erected on the micro-feeder frame 31, the micro-particulate material hopper 32 includes a micro-particulate material hopper body 321, a micro-particulate material inlet 322 at an upper end of the micro-particulate material hopper body 321, and a single micro-discharge outlet 323 at a lower end of the micro-particulate material hopper body 321, the single micro-discharge outlet 323 is provided with a micro-feeder 324, the micro-particulate material measuring hopper 33 includes a micro-particulate material measuring hopper body 331, a micro-particulate material measuring hopper body 331 at an upper end of the micro-particulate material measuring hopper body 331 and corresponds to the micro-particulate material inlet 332 at the single micro-discharge outlet 323 and the, the micro-particle material weighing hopper 33 is indirectly erected on the micro-blanking rack 31 through a micro-particle material weight sensing device 34, a micro cover plate 334 driven by a micro-blanking driving cylinder 333 is arranged on the micro-particle material metering discharge hole 30, so that the micro-particle material metering discharge hole 30 is opened or closed, and the micro-blanking driving cylinder 333, the micro feeder 324 and the micro-particle material weight sensing device 34 are connected with a control module. When the granular material with less raw material is needed to be fed, the working process of the granular material micro-feeder 3 of the utility model is that, the weight of the granular material to be fed is set firstly, the control module controls the feed hopper conveyor 4 to work to convey the feed hopper 5 to the position below the corresponding micro-granular material metering discharge port 30, then the micro-feeder 324 starts to feed into the micro-granular material metering hopper 33, the slow feeding with less quantity is realized to improve the efficiency and the precision of the granular material discharge metering, the weight of the micro-granular material metering hopper 33 is monitored by the micro-granular material weight sensing device 34 in real time, the micro-feeder 324 is controlled to stop working and stop feeding after the preset value is reached, then the micro-feeding driving cylinder 333 is controlled to work to open the micro cover plate 334 so that the granular material in the micro-granular material metering hopper 33 falls into the feed hopper 5, the metering and blanking of trace particle materials are completed, and the batching hopper 5 can be conveyed to the lower part of the metering and blanking machine of the next material.

As shown in FIG. 5, the batching hopper conveyor 4 of the present invention is correspondingly disposed below the powder material metering and discharging port 10, the granular material metering and discharging port 20 and the micro granular material metering and discharging port 30, and comprises a conveyor frame 41, a conveyor path 42 disposed on the conveyor frame 41 for placing the conveying batching hopper 5, a conveying driving mechanism (not shown in the figure) for driving the conveyor path 42 to advance and conveying the batching hopper 5, and a positioning device 43 for positioning the position of the batching hopper 5, wherein the conveying driving mechanism and the positioning device 43 are connected to a control module, the batching hopper 5 is disposed on the conveyor path 42, when the batching hopper 5 is required to be conveyed, the control module controls the conveying driving mechanism to start working to drive the conveyor path 42 to rotate, the batching hopper 5 is conveyed forward from the belt, and the positioning device 43 detects in real time, and when the batching hopper 5 is sensed, the control module controls the conveying driving mechanism to stop working, the feed path 42 stops rotating the hopper 5 and stops forward feed, so that automatic feed of the hopper at the time of automatic batching is achieved.

Further, in the utility model discloses in the transfer passage 42 is arranged by many conveying roller 421 and is constituted, conveying roller's both ends are rotatable erects respectively on the both sides of carrying frame 41, and its one end is equipped with gear (not shown in the figure), carry actuating mechanism and can adopt the drive technology of current common use, if including drive motor, set up at the drive motor output shaft drive gear and the chain of meshing on gear and drive gear, carry actuating mechanism connection control module.

Further, in the present invention, the positioning device 43 includes a mounting plate 431 whose two ends are respectively connected to the two sides of the conveying frame 41, a positioning cylinder 432 disposed on the mounting plate 431, and an inductive probe 433 disposed on the side of the conveying frame 41 for sensing the batching hopper 5, a piston rod 4321 of the positioning cylinder 432 is correspondingly disposed between two conveying roller shafts 421, the piston rod 4321 passes through between two conveying roller shafts 421 when extending out, i.e. passes out of the conveying passage 42, and is used for blocking the front end bottom of the advancing direction of the batching hopper 5, and the positioning cylinder 432 and the inductive probe 433 are connected to the control module; during operation, inductive probe 433 senses batching and fights 5 and carries when advancing to target in place, and signal transmission gives control module, and control module controls the piston rod 4321 of location jar 432 promptly and stretches out and prevent batching and fight 5 and carry and surpass or inertia slides forward, and control module controls transport actuating mechanism stop work promptly simultaneously, and conveyer way 42 stall batching is fought 5 and is stopped to carry forward to the automatic of batching time batching is fought and is fixed a position accurately, the location is stable.

In order to be suitable for the powder measuring and blanking machine 1, the particle material measuring and blanking machine 2, and the particle material micro blanking machine 3, a plurality of structures are arranged up and down, in this embodiment, the batching hopper conveyor 4 can be further arranged, and comprises a plurality of discharge port fixing frames 44 which are erected on the conveyor frame 41 and can be correspondingly and fixedly erected above the conveying channel 42 for the discharge ports of the powder measuring and blanking machine 1, the particle material measuring and blanking machine 2, and the particle material micro blanking machine 3, wherein the discharge port fixing frames 44 are erected with discharge extension pipes 45, the lower ends of the discharge extension pipes 45 are correspondingly arranged above the conveying channel 42, and the upper ends of the discharge extension pipes 45 are used for connecting the discharge ports of the powder measuring and blanking machine 1, the particle material measuring and blanking machine 2, and the particle material micro blanking machine 3; in this embodiment, the discharge port fixing frame 44 is an L-shaped bracket, one arm end of the L-shape is connected to the side of the conveying frame 41, and the other arm end of the L-shape is provided with a fixing ring 441 for the discharge extension pipe 45 to pass through and fix.

In the above disclosed embodiment, the batching process can be completely operated without manual operation or with few manual cares, so as to greatly reduce the labor consumption and labor intensity, but the bagged material is placed in the powder measuring and feeding machine 1, the particle material measuring and feeding machine 2 and the particle material micro-feeding machine 3, or is manually operated, so as to reduce the labor intensity of manual operation, the utility model has the advantages that the circulating lifting and feeding machine 6 is further arranged in the automatic batching system, the circulating lifting and feeding machine 6 can convey the material at the lower part to the higher part, so that the material can be conveniently poured into the powder measuring and feeding machine 1, the particle material measuring and feeding machine 2 and the particle material micro-feeding machine 3, as shown in fig. 6, the circulating lifting and feeding machine 6 comprises a feeding inlet end 61, a feeding outlet end 62 and a conveying total mechanism 63 between the feeding inlet end 61 and the feeding outlet end 62, the feeding outlet end 62 corresponds to the feeding inlet 122 of the powder hopper body 121, the particle feeding inlet 222 of the particle hopper body 221 or the micro-particle feeding inlet 322 of the micro-particle hopper body 321, the conveying mechanism 63 is connected with the control module, and powder or particle materials are conveyed from the feeding inlet end 61 to the feeding outlet end 62 through the conveying mechanism 63 and poured into the feeding outlet end 62 corresponding to the feeding inlet 122 of the powder hopper body 121, the particle feeding inlet 222 of the particle hopper body 221 or the micro-particle feeding inlet 322 of the micro-particle hopper body 321, so that the effect is achieved, and the manual operation of conveying bagged materials with heavy weight to a high place and pouring the bagged materials into the high place can be avoided.

The utility model discloses in further, circulation lift feeder 6 still includes casing 64 and pay-off income hopper 65, casing 64 includes interior communicating level hypomere 641, vertical middle section 642 and horizontal upper segment 643, the outer end upper surface of level hypomere 641 has been seted up pay-off admission end 61, pay-off income hopper 65 corresponds the setting in pay-off admission end 61 top, and the inner of level hypomere 643 links to each other with the lower extreme of vertical middle section 642, the inner of horizontal upper segment 643 links to each other with the upper end of vertical middle section 642, seted up on the outer end lower surface of level upper segment 643 pay-off exit end 62. When feeding is needed, bagged materials are poured into the feeding hopper 65 and enter the conveying main mechanism 63 from the feeding inlet end 61, and are conveyed to the feeding outlet end 62 to be poured into the feeding hole 122 of the powder hopper body 121, the particle feeding hole 222 of the particle hopper body 221 or the micro-particle feeding hole 322 of the micro-particle hopper body 321.

Further, in this embodiment, the conveying main mechanism 63 includes conveying rails 631 oppositely disposed on the inner wall of the housing 64 and surrounding the horizontal lower section 641, the vertical middle section 642 and two sides of the horizontal upper section 643, gears disposed along the conveying rails, conveying chains disposed along the conveying rails and engaged with the gears, a conveying motor disposed in the housing 64, transmission gears disposed on the output shaft of the conveying motor and engaged with the chains, small hoppers 632 sequentially disposed adjacent to each other and having sliders at two ends respectively embedded in the two conveying rails 631, and a material pouring and turning mechanism (not shown in the drawings) disposed corresponding to the material feeding and discharging port 62 for turning the small hoppers 632 through 180 degrees, wherein the transmission mechanism in the conveying main mechanism 63 is shown in detail, and the rotating mechanism is a conventional transmission technology as can be known from the above description.

In this embodiment, one side of the small hopper 632 is provided with an overlapping edge 6321 capable of overlapping with the side of the adjacent small hopper 632 in horizontal conveying, and this structure can prevent the material from leaking out from between two small hoppers 632 when the feeding hopper 65 is feeding.

In order to meet the feeding use requirements of a plurality of powder measuring and blanking machines 1, particle material measuring and blanking machines 2 or particle material micro-blanking machines 3, in the embodiment, the circulating lifting and feeding machine 6 further comprises a traveling mechanism 66 and a position positioning mechanism (not shown in the figure), the traveling mechanism 66 comprises a chassis 661 arranged at the bottom of the machine box 64 and a rail 662 arranged on the ground along the running length of the batching hopper conveyor 4, the chassis 661 is provided with a traveling wheel 663 traveling on the rail 662 and a traveling driving mechanism 664 driving the traveling wheel 663 to rotate, the traveling driving mechanism 663 is connected with a control module, the positioning mechanism comprises position positioning sensing devices arranged on the machine box 64 and on the powder measuring and blanking machines 1, the particle material measuring and blanking machines 2 and the particle material micro-blanking machines 3, and the position positioning sensing devices are connected with the control module, when the material conveying device needs to move to correspond to different metering blanking machines, the walking driving mechanism 664 is controlled to start to work, the whole circulating lifting feeder 6 starts to move, when the material conveying device moves to a positioned position, the position positioning sensing device senses and sends a signal, the control module controls the walking driving mechanism 664 to stop working, and the whole circulating lifting feeder 6 stops moving, so that the material conveying of corresponding materials can be carried out.

In addition, for the structure that the powder measuring and feeding machine 1, the granular material measuring and feeding machine 2 or the granular material micro-feeding machine 3 are arranged up and down, the structure of the above-mentioned circular elevating feeder 6 can not be adapted to the height, and in order to solve this problem, in this embodiment, the chassis 661 is provided with a lifting mechanism, the lifting mechanism is specifically that the chassis 661 comprises an upper chassis 6611, a lower chassis 6612, a guide structure 665 between the upper chassis 6611 and the lower chassis 6612, and a lifting driving cylinder 666 arranged on the upper chassis 6611, a piston rod 6661 of the lifting drive cylinder 666 is connected with a lower chassis 6612, the lifting drive cylinder 666 is connected with a control module, when the circulating lifting feeder 6 moves to the condition that the lifting height of the corresponding metering blanking machine is required, the control module controls the operation of the lifting driving cylinder 666 to extend and retract the piston rod 6661 so as to achieve the lifting operation.

Through the structure the utility model discloses an automatic blending system, from initial pay-off, material unloading, measurement, unloading to the batching fill, the whole realization automation of the transport that the batching was fought, the automation of realization is high, and the measurement accuracy is high, and unloading work is smooth, stable with carrying work, mechanical structure is difficult for breaking down, uses safelyr, environmental protection, can be used to the batching of similar nature products such as expanded material batching, food material batching to use, and application range is extensive.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (8)

1. The utility model provides an automatic measure proportioning system's batching fill conveyer which characterized in that: the automatic material feeding device is arranged below a discharge port of an automatic metering and batching machine of the automatic metering and batching system and comprises a conveying rack, a conveying channel, a conveying driving mechanism and a positioning device and a control module, wherein the conveying channel is arranged on the conveying rack and used for placing a conveying batching hopper, the conveying driving mechanism is used for driving the conveying channel to advance to convey the batching hopper, the positioning device is used for positioning the batching hopper, and the conveying driving mechanism and the positioning device are connected with the control module.

2. The hopper conveyor of an automated metered dispensing system of claim 1 wherein: the conveying path is formed by arranging a plurality of conveying roller shafts, two ends of each conveying roller shaft are respectively rotatably erected on two sides of the conveying rack, a gear is arranged at one end of each conveying roller shaft, the conveying driving mechanism comprises a transmission motor, a transmission gear arranged on an output shaft of the transmission motor and a chain meshed with the gear and the transmission gear, and the conveying driving mechanism is connected with the control module.

3. The hopper conveyor of an automated metered dispensing system of claim 1 wherein: the utility model discloses a batching fill, including the front end bottom that is used for blocking batching fill direction of advance between two liang of transport rollers, locating device includes that both ends are connected respectively mounting panel on the both sides of carrying the frame, set up on the mounting panel and a plurality of location jar that the interval set up side by side and set up the inductive probe who is used for responding to the batching fill on carrying the frame side, the piston rod of location jar corresponds between two liang of transport rollers, and the piston rod passes when stretching out, and jar, inductive probe connection control module are fixed a position.

4. The hopper conveyor of an automated metered dispensing system of any of claims 1 to 3 wherein: the batching hopper conveyor further comprises a dust collecting device provided with a dust recovery pipeline, and an air suction opening of the dust recovery pipeline corresponds to an opening of the batching hopper.

5. The hopper conveyor of an automated metered dispensing system of any of claims 1 to 3 wherein: the batching fill conveyer is still including a plurality of erects in the conveyer frame and can correspond the fixed discharge gate mount of erectting of the discharge gate that supplies the automatic measurement blanking machine in the conveyer way top, the discharge gate mount is put on the shelf and is equipped with ejection of compact extension pipe, the lower extreme correspondence of ejection of compact extension pipe is in the conveyer way top, the upper end of ejection of compact extension pipe is used for being connected with the ejection of compact that supplies the automatic measurement blanking machine of automatic measurement dosing system.

6. The hopper conveyor of an automated batching system as recited in claim 5 wherein: the discharge port fixing frame is an L-shaped support, one arm end part of the L shape is connected to the side edge of the conveying rack, and a fixing ring for the discharge extension pipe to penetrate through is arranged at the other arm end part of the L shape.

7. The hopper conveyor of an automated metered dispensing system of claim 4 wherein: the batching fill conveyer is still including a plurality of erects in the conveyer frame and can correspond the fixed discharge gate mount of erectting of the discharge gate that supplies the automatic measurement blanking machine in the conveyer way top, the discharge gate mount is put on the shelf and is equipped with ejection of compact extension pipe, the lower extreme correspondence of ejection of compact extension pipe is in the conveyer way top, the upper end of ejection of compact extension pipe is used for being connected with the ejection of compact that supplies the automatic measurement blanking machine of automatic measurement dosing system.

8. The hopper conveyor of an automated batching system as recited in claim 7 wherein: the discharge port fixing frame is an L-shaped support, one arm end part of the L shape is connected to the side edge of the conveying rack, and a fixing ring for the discharge extension pipe to penetrate through is arranged at the other arm end part of the L shape.