CN204261621U - Mixed sample system continuously - Google Patents

Abstract

The utility model relates to continuously mixed sample system, comprise the first storehouse of loading the first sample and the second storehouse of loading the second sample, the discharging opening in the first storehouse and the second storehouse is arranged at the charging aperture place of Belt Flow scale respectively, belt drives controller is according to the setting proportioning of the first sample and the second sample, drive the belt rotation of described first Belt Flow scale and the discharging of the second Belt Flow scale, thus realize continuous batch mixing.Thus make, after mixed sample, sample mixes that sample is even, mechanical damage is little.System architecture is compact, can continuous seepage.Simultaneously use cost is low, labour intensity is low, efficiency is high and simple to operation.

Description

Mixed sample system continuously

Technical field

The utility model belongs to mixed sample equipment technical field, is specifically related to mix sample system continuously.

Background technology

Because dispersion is compared in current China's breeding of hybrid rice base, and be mostly a point family production of hybrid seeds, due to management and the difference of weather, the quality of the seed after purchase varies, and uniformity is very poor.In order to the seed quality ensureing to sell to market is excellent and uniformity good, in hybrid rice seeds processing, all to adopt this technique of mixed sample.

At present, the most general mixed sample loading mode is the free flowability utilizing seed, adopts manpower or belt conveyor seed to be lifted to certain altitude and then to fix a point casting on ground, form a cone.Down fall after this batch of seed being transported to certain altitude by manpower or grain scraper by belt conveyor again after being finished down whole batch, in another local formation cone, so circulate casting, until meet the requirements.This mixed sample loading mode needs larger place, and seed is mechanically damaged greatly; And labor strength is large, efficiency is low, and cost is high; In addition, during mixed sample, dust is large, and contaminated environment, affects workman healthy.

A kind of mixed sample loading mode is also had to be mixed seed in proportion by temporary storing bin in automation process, because seed batch is general all very large, this mixed sample loading mode also just carries out the mixed sample in local to seed, seed after mixed sample can cause front and back quality inconsistent, mass discrepancy is still larger, likely cause enterprise to judge by accident when sample is checked, up-to-standard seed batch be judged to defective, or defective seed batch is judged to qualified.

Uniformity difference due to seed causes between peasant household or ground interblock shows inconsistent, easily dispute occurs.In a word, mixed sample is uneven will bring great risk to enterprise and user, and exists in mixed sampling technology and mix the various problems such as sample is uneven, cost is high, mechanical damage is large, dust is large, labour intensity is large, efficiency is low.

Utility model content

For the defect existed in prior art, the purpose of this utility model is to provide that a kind of mixed sample is even, mechanical damage is little, compact conformation, floor space are little, use cost is low, labour intensity is low, efficiency is high, simple to operate and be practically applicable to the mixed continuously sample system that streamline works continuously.

For reaching above object, the technical solution adopted in the utility model is: mixed sample system continuously, comprise: load the first storehouse of the first sample and load the second storehouse of the second sample, wherein, also comprise, the first Belt Flow scale, the second Belt Flow scale, belt drives controller and the first transport tape, the feeding port of described first Belt Flow scale and the feeding port of described second Belt Flow scale, be arranged at the below of the first bin discharge port external and the second bin discharge port external respectively, the discharging opening of described first Belt Flow scale and described second Belt Flow scale is positioned on the transmission face of described first transport tape, described control output end, be connected with the belt drives end of described first Belt Flow scale and the second Belt Flow scale, according to the setting proportioning of the first sample and the second sample, the belt rotation of described first Belt Flow scale and the belt of the second Belt Flow scale is driven to rotate, make the discharging opening of the discharging opening of described first Belt Flow scale and described second Belt Flow scale, on the transmission face of described first transport tape, the first sample and the second sample is transmitted by described setting proportioning, the first sample described and the second sample are transferred to the transmission ends of described first transport tape by described first transport tape, pile up mixed sample.

In one embodiment, also comprise, material loading transport tape and material loading threeway, one end of described material loading transport tape is arranged at the logical opening part of one in described material loading threeway, and in described material loading threeway another two open up mouth is communicated with the opening part in the first storehouse described and the second storehouse respectively.

In one embodiment, also comprise, the second mixing device, described second mixing device comprises: silo, and described silo is arranged at the transmission ends of described first transport tape.

In one embodiment, described second mixing device also comprises, lifting device and blending bunker, and the feeding mouth of described lifting device is arranged in the bucket of described silo, and described blending bunker is arranged at below the discharging opening of described lifting device.

In one embodiment, described blending bunker comprises, upper blending bunker, lower blending bunker, and described lower blending bunker is connected with described lifting device, is positioned at the below of the discharging opening of described upper blending bunker (91).

In one embodiment, described upper blending bunker and lower blending bunker are divided into multiple independently batch mixing unit, each batch mixing unit comprises independently feeding port and discharging opening, and described feeding port is positioned at the top of described batch mixing unit, and described discharging opening is positioned at the bottom of described batch mixing unit.

In one embodiment, the feeding mouth place of described lower blending bunker is also arranged: vibra feeder.

In one embodiment, described second mixing device is multiple, is communicated with between described multiple second mixing device by intermediate transfer belt.

In one embodiment, also comprise, the second transport tape, described second transport tape is arranged at issuing of the discharging opening of lower blending bunker in multiple second mixing device.

In one embodiment, the quantity in the first storehouse described and the second storehouse is multiple.

The beneficial effects of the utility model are: seed can mix sample by machine automatization, realize working continuously, greatly reduce labor strength after dropping into this continuous mixed sample equipment under relatively airtight environment; Promote number of times because adopting the broken lifting of nothing and reducing seed simultaneously, can greatly reduce seed mechanical damage and quantity loss, significantly reduce mixed sample cost, improve processing benefit; Realize without dust work, purified working environment; And the mixed continuously sample equipment that the utility model provides ensure that mixed sample seed quality uniformity, and little, simple to operate, the mixed sample efficiency of compact equipment, floor space is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of mixed sample system continuously in a kind of embodiment of the utility model;

Fig. 2 is the schematic diagram of the internal structure of blending bunker in a kind of embodiment of the utility model;

Fig. 3 is the schematic diagram of the another kind of structure of the inside of blending bunker in a kind of embodiment of the utility model;

Fig. 4 is the structural representation that in a kind of embodiment of the utility model, multiple types mixes sample system continuously;

Fig. 5 is the structural representation of mixed sample system continuously in the another kind of embodiment of the utility model.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

As shown in Figure 1, the mixed continuously sample system in a kind of embodiment of the utility model, be included on mixed sample place and arrange: the first storehouse 10 and the second storehouse 20, wherein, the first sample is loaded in the first storehouse 10, and the second sample is loaded in the second storehouse 10.The feeding mouth 13 in the first storehouse 10 and the feeding mouth 23 in the second storehouse 20, communicate with two logical 61,62 of material loading threeway 60 respectively, other one logical 63 of material loading threeway 60 communicates with the transmission terminal of material loading transport tape 50, material loading transport tape 50 rolls along 5A direction, thus is loaded from kind of Zhong Xiangzhong storehouse, storehouse by kind of material.At the discharging opening 12 in the first storehouse 10 and discharging opening 22 place in the second storehouse 20, the feeding port 131 and 231 of the first Belt Flow scale 13 and the second Belt Flow scale 23, first Belt Flow scale 13 and the second Belt Flow scale 23 is set respectively, lays respectively at the below at the discharging opening 12 in the first storehouse 10 and the discharging opening 22 in the second storehouse 20; First Belt Flow scale 13 and the second Belt Flow scale 23 are along 13A direction rolling transmission, and its discharge end 132 and 232 is positioned on the transmission face of the first transport tape 40.The control output end of belt drives controller 30 is connected with the belt drives end of the first Belt Flow scale 13 and the second Belt Flow scale 23, according to the setting proportioning of the first sample and the second sample, the belt rotation of the first Belt Flow scale 13 and the belt of the second Belt Flow scale 23 is driven to rotate, make the discharging opening of the discharging opening of the first Belt Flow scale 13 and described second Belt Flow scale 23, on the transmission face of the first transport tape 40, transmit the first sample and the second sample by setting proportioning.Such as: when setting proportioning is: when the first sample is 70%, the second sample is 30%, belt drives controller 30 is according to 10KG batch mixing amount, drive the output speed of the first Belt Flow scale 13, the first Belt Flow scale 13 is made to export 7KG in the time of setting, drive the output speed of the second Belt Flow scale 23, make the second Belt Flow scale 23 export 3KG in the time of setting.The first sample and the second sample, along the transmission of 40A direction, are transferred to the transmission ends 41 of the first transport tape 40, pile up in transmission ends 41 by the first transport tape 40, form once mixed sample.

For making mixed sample more even, in a kind of embodiment of the present utility model, be also provided with the second mixing device 100 in the transmission ends 41 of the first transport tape 40.Second mixing device 100 comprises and being arranged at: the silo 70 of the transmission ends 41 of the first transport tape 40, lifting device 80 and blending bunker 90, the feeding mouth 81 of lifting device 80 is arranged in the bucket of silo 70, extracts the once mixed sample be deposited in silo 70.Blending bunker 90 is connected below the discharging opening 82 of lifting device 80 upper end.Can fully mix in blending bunker 90 for making once to mix sample, above-mentioned blending bunker 90 can be set to respectively, upper blending bunker 91 and lower blending bunker 92, and lower blending bunker 92 is connected with the sidewall of lifting device 80 by surveying beam, is positioned at the below of the discharging opening of blending bunker 91.Thus the secondary mixing achieved once mixing sample.

For improving the problem that in batch mixing, local is uneven, in a kind of embodiment of the present utility model, as shown in Figure 2, the internal structure of upper blending bunker 91 and/or lower blending bunker 92 is independently many bins structure, namely, upper blending bunker 91 and/or lower blending bunker 92 are divided into four independently batch mixing unit 911,912,913 and 914, each batch mixing unit comprises independently feeding port and discharging opening, feeding port is positioned at 911,912,913 and 914 tops of batch mixing unit, and discharging opening is positioned at the bottom of each independent batch mixing unit.As shown in Figure 3, be four conical discharging openings 921,922,923 and 924 in the bottom of upper blending bunker 91 and/or lower blending bunker 92, this discharging opening also can and be connected with automatically controlled flow valve, so that control when carry out discharging.For making mixed sample can enter in lower blending bunker 92 smoothly, also arrange: one or four vibra feeders 93 at the feeding mouth place of lower blending bunker 92, when vibra feeder 93 is four, its each vibra feeder is corresponding with four discharging openings of upper blending bunker 91.

For realizing the batch mixing of multi items, as shown in Figure 4, in a kind of embodiment of the present utility model, the second mixing device 100 is 2,4 or multiple that are arranged side by side, and is communicated with between each second mixing device 100 by intermediate transfer belt 73.And at the discharging opening of multiple second mixing device 100, namely the second transport tape 110 is set the issuing of discharging opening of blending bunker 92.Thus when there being multiple batch mixing type in mixing system, by intermediate transfer belt 73, multiple batch mixing type is separately carried out rerolling.

For realizing the batch mixing of kind continuous, in enormous quantities, as shown in Figure 5, in a kind of embodiment of the present utility model.The first storehouse 10 and the second storehouse 20 can be set to multiple simultaneously.Thus continuous batch mixing of planting material in enormous quantities can be realized.

The seed of different quality is first transported to six feed bins of material proportion device by the utility model respectively by inclined belt, after all feed bin seeds reach ratio requirement, the flow velocity of the Belt Flow scale of bin bottom by ratio requirement is opened, simultaneously six feed bins when blowing due to funnel principle, the seed also practicable first mixing in this storehouse; Material after proportioning passes through into change belt and the rotating belt transport hopper to vertical elevator, then risen to the top of front and back material mixing device feed bin by vertical elevator, four feed bin chargings of front and back material mixing device given successively by material by the bottom bracket shell device between vertical elevator and feed bin; When four feed bin materials reach requirement, six feed bins of material proportion device are also all blanked, the vibra feeder of four bin bottoms of material mixing device before and after now simultaneously opening, material in four feed bins enters the feed bin of instantaneous mixed sampling device by identical flow velocity simultaneously, due to funnel principle, in four feed bins, the seed in this storehouse can mix in fact again, and four feed bins storeroom out also achieves further mixing simultaneously; When instantaneous mixed sampling device feed bin is filled, four feed bin materials of material mixing device also all emptying now, the automatically controlled flow valve of instantaneous mixed sampling device bin bottom can be opened, due to funnel principle, further mixing carried out by material in instantaneous mixed sampling device feed bin, just can reach uniformity from automatically controlled flow valve quality of material out.

Structure described in the utility model is not limited to the embodiment described in detailed description of the invention, and those skilled in the art draw other embodiment according to the technical solution of the utility model, belongs to technological innovation scope of the present utility model equally.

Claims (10)

1. mix sample system continuously, comprise: load the first storehouse (10) of the first sample and load the second storehouse (20) of the second sample, it is characterized in that, also comprise, the first Belt Flow scale (13), the second Belt Flow scale (23), belt drives controller (30) and the first transport tape (40), the feeding port of described first Belt Flow scale (13) and the feeding port of described second Belt Flow scale (23), be arranged at the below of the first storehouse (10) discharging opening and the second storehouse (20) discharging opening respectively, the discharging opening of described first Belt Flow scale (13) and described second Belt Flow scale (23) is positioned on the transmission face of described first transport tape (40), the control output end of described (30), be connected with the belt drives end of described first Belt Flow scale (13) and the second Belt Flow scale (23), according to the setting proportioning of the first sample and the second sample, the belt rotation of described first Belt Flow scale (13) and the belt of the second Belt Flow scale (23) is driven to rotate, make the discharging opening of the discharging opening of described first Belt Flow scale (13) and described second Belt Flow scale (23), on the transmission face of described first transport tape (40), the first sample and the second sample is transmitted by described setting proportioning, the first sample described and the second sample are transferred to the transmission ends of described first transport tape (40) by described first transport tape (40), pile up mixed sample.

2. mixed sample system continuously according to claim 1, it is characterized in that, also comprise, material loading transport tape (50) and material loading threeway (60), one end of described material loading transport tape (50) is arranged at the logical opening part of one in described material loading threeway (60), and in described material loading threeway (60) another two open up mouth is communicated with the opening part of described the first storehouse (10) and the second storehouse (20) respectively.

3. mixed sample system continuously according to claim 1 and 2, it is characterized in that, also comprise, second mixing device (100), described second mixing device (100) comprising: silo (70), and described silo (70) is arranged at the transmission ends of described first transport tape (40).

4. mixed sample system continuously according to claim 3, it is characterized in that, described second mixing device (100) also comprises, lifting device (80) and blending bunker (90), the feeding mouth of described lifting device (80) is arranged in the bucket of described silo (70), and described blending bunker (90) is arranged at below the discharging opening of described lifting device (80).

5. mixed sample system continuously according to claim 4, it is characterized in that, described blending bunker (90) comprises, upper blending bunker (91), lower blending bunker (92), described lower blending bunker (92) is connected with described lifting device (80), is positioned at the below of the discharging opening of described upper blending bunker (91).

6. mixed sample system continuously according to claim 5, it is characterized in that, described upper blending bunker (91) and lower blending bunker (92) are divided into multiple independently batch mixing unit, each batch mixing unit comprises independently feeding port and discharging opening, described feeding port is positioned at the top of described batch mixing unit, and described discharging opening is positioned at the bottom of described batch mixing unit.

7. mixed sample system continuously according to claim 6, it is characterized in that, the feeding mouth place of described lower blending bunker (92) is also arranged: vibra feeder.

8. mixed sample system continuously according to claim 3, it is characterized in that, described second mixing device (100), for multiple, is communicated with by intermediate transfer belt (73) between described multiple second mixing device (100).

9. the mixed continuously sample system according to claim 5 or 8, it is characterized in that, also comprise, second transport tape (110), described second transport tape (110) is arranged at issuing of the discharging opening of lower blending bunker (92) in multiple second mixing device (100).

10. mixed sample system continuously according to claim 1 and 2, it is characterized in that, the quantity of described the first storehouse (10) and the second storehouse (20) is multiple.