CN114471349A - Material mixing machine used in cooperation with material conveying pipeline - Google Patents

Material mixing machine used in cooperation with material conveying pipeline Download PDF

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Publication number
CN114471349A
CN114471349A CN202210336225.9A CN202210336225A CN114471349A CN 114471349 A CN114471349 A CN 114471349A CN 202210336225 A CN202210336225 A CN 202210336225A CN 114471349 A CN114471349 A CN 114471349A
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CN
China
Prior art keywords
materials
pipeline
stirrer
conveying pipeline
main conveying
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Pending
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CN202210336225.9A
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Chinese (zh)
Inventor
陈定敢
曹建胜
曹金威
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Guangdong Animal Husbandry Science And Technology Co ltd
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Guangdong Animal Husbandry Science And Technology Co ltd
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Publication of CN114471349A publication Critical patent/CN114471349A/en
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Abstract

The invention relates to a mixer matched with a material conveying pipeline, which is characterized in that: comprises a main conveying pipeline (3) for conveying materials; the stirrer (1) receives materials conveyed by the main conveying pipeline (3) and is used for stirring and crushing single materials or mixing and crushing a mixture of a plurality of materials; an auxiliary pipeline (4) is used for conveying single materials or unmixed materials which are not stirred and crushed into the stirring mill (1) or conveying the materials which are stirred and crushed or mixed into the main conveying pipeline (3) again. The additive can be added on the conveying pipeline in a seamless connection mode, the additive is automatically added in the operation of the material conveying pipeline, a stirring and adding program is not required to be added before or after conveying, and the materials and the additive are uniformly, uniformly and accurately mixed.

Description

Material mixing machine used in cooperation with material conveying pipeline
Technical Field
The invention relates to a mixer, in particular to a mixer matched with a material conveying pipeline.
Background
Under the background of large spreading of African swine fever, the transportation of materials is carried out by pipeline transportation, so that the possibility of contact of people with the materials is reduced as much as possible. The use of pipelines to transport materials is therefore preferred.
However, the pipeline transportation of materials is performed in a closed pipeline, various liquid or solid additives are required to be added to the existing materials, the additives can help the growth of livestock, when the pipeline transportation is used, the additives are not easy to add, time and labor are consumed when the additives are added in the subsequent or previous links, and high cost is increased.
Disclosure of Invention
The invention designs a mixer matched with a material conveying pipeline for use, and solves the technical problems that when the pipeline is used for conveying materials in the prior art, additives are not easy to add, time and labor are consumed when the additives are added in a subsequent or preorder link, and high cost is increased.
In order to solve the technical problems, the invention adopts the following scheme:
the utility model provides a blendor that material conveying pipeline cooperation was used which characterized in that: comprises a main conveying pipeline for conveying materials; the mixer is used for receiving the materials conveyed by the main conveying pipeline and mixing and crushing a single material or a mixture of a plurality of materials; and the auxiliary pipeline is used for conveying single materials which are not stirred and crushed or multiple materials which are not mixed into the stirrer or conveying the materials which are stirred and crushed or mixed into the main conveying pipeline again.
Preferably, the device also comprises an adding device which is used for adding the same or different materials into the materials conveyed by the main conveying pipeline.
Preferably, when the main conveying pipeline is positioned above the stirrer, single materials which are not crushed by the main conveying pipeline or multiple materials which are not mixed enter the input end of the stirrer directly through the blanking channel and the intermediate storage bin, and crushed materials or mixed materials output by the stirrer enter the main conveying pipeline again through the auxiliary pipeline;
preferably, when the main conveying pipe is located below the mixer, the main conveying pipe conveys uncrushed single material or unmixed multiple materials to the input end of the mixer through the auxiliary pipe, and the mixer outputs crushed or mixed materials to enter the main conveying pipe again.
Preferably, the adding means comprises a liquid adding means and/or a solid adding means; the adding device can be arranged on the main conveying pipeline or the stirrer or between the main conveying pipeline and the stirrer.
Preferably, the main conveying pipeline conveys materials by a packing auger or a chain disc or gas, and the gas conveying comprises positive pressure pneumatic conveying and negative pressure pneumatic conveying; and/or the auxiliary pipeline conveys materials through an auger or a chain disc or gas, and the gas conveying comprises positive pressure pneumatic conveying and negative pressure pneumatic conveying.
Preferably, the main conveying pipeline or the auxiliary conveying pipeline conveys materials through an air pump or a fan.
Preferably, a plurality of said blenders are connected to said main conveying pipe, a plurality of said blenders working in concert, at least one blender for receiving uncrushed single or unmixed multiple materials conveyed by the main conveying pipe, and at least one blender for outputting crushed or mixed materials.
Preferably, the material crushing device is further included, and the material crushing device is used for crushing the material output by the main conveying pipeline and then conveying the crushed material into the stirring machine.
Preferably, the stirrer or/and the adding device is/are provided with a metering device or a retransmission sensor, the metering device or the retransmission sensor of the stirrer senses or weighs the weight of the materials in the stirrer, and the metering device or the retransmission sensor of the adding device senses or weighs the weight of the materials in the adding device; according to the weight of the materials sensed by a metering device of the stirring machine or a weighing sensor or the weight of the weighed materials, whether the materials are fed to the stirring machine or whether the additives are delivered to the stirring machine by the adding device is determined; and determining whether the adding device delivers the additive to the blender according to the weight of the additive sensed by a metering device of the adding device or a weighing sensor or the weighed additive.
Preferably, the stirrer or the main conveying pipeline is provided with a blanking valve device, and the blanking valve device starts feeding or stops feeding according to the output numerical value of a weighing sensor or a metering device of the stirrer; the discharge port of the stirrer is provided with a discharge valve device.
Preferably, one or more main conveying pipelines and one or more auxiliary pipelines form an annular structure, and the feeding chain disc moves under the action of the driving device to perform circular feeding.
Preferably, the single material or the unmixed multiple materials which are not crushed by the main conveying pipeline enter the input end of the stirrer through a blanking channel;
preferably, single materials or multiple materials which are not crushed by the main conveying pipeline are temporarily stored in an intermediate storage bin and then conveyed to the input end of the stirrer by the intermediate storage bin, so that the main conveying pipeline can keep uninterrupted work and the materials in the intermediate storage bin are temporarily stored to ensure that the stirrer is uniformly mixed;
preferably, the unbroken single material or unmixed multiple material of main conveying pipe keeps in to middle stock bin, waits after the material in the mixer breaks or after mixing and empties, carries to the mixer by middle stock bin again so that main conveying pipe keeps uninterrupted duty and middle stock bin can keep unbroken single material or unmixed multiple material and broken or material after mixing keep apart, ensures that the mixer has sufficient time and evenly mixes the material again and discharges simultaneously.
The utility model provides a blendor that material conveying pipeline cooperation was used which characterized in that: comprises a first inlet pipeline for conveying materials; the adding device is used for adding an additive into the material; a blender receiving material conveyed by the first inlet pipe and for mixing the material with a mixture of additives; the first output pipeline is used for outputting the mixed materials; the position of the first inlet pipeline is arranged at the input front end of the stirrer, and the position of the first outlet pipeline is arranged at the output rear end of the stirrer; the first inlet duct and the first outlet duct are located at the same level or at different levels.
Preferably, the upper first inlet pipeline is further connected with the upper second outlet pipeline, the lower first outlet pipeline is connected with the lower second inlet pipeline, the upper first inlet pipeline can select the upper second outlet pipeline or the lower first outlet pipeline to output materials, and similarly, the lower second inlet pipeline can also select the upper second outlet pipeline or the lower first outlet pipeline to output materials.
Compared with the prior art, the material mixer matched with the material conveying pipeline has the following beneficial effects:
(1) the additive feeding device can realize seamless connection of additive feeding on the conveying pipeline, and the additive is automatically fed in the operation of the material conveying pipeline, so that a stirring and feeding program is not required to be added before or after conveying, uniform, balanced and accurate mixing of materials and additives is ensured, the automation effect of material pipeline conveying is better, and the benefit is higher.
(2) The invention avoids material pollution caused by the contact of the materials with personnel in the process of material conveying and mixing of the materials and the additives, and avoids material pollution caused by the contact of the materials with personnel because the process of material conveying and mixing of the materials and the additives is completed in a fully-closed environment.
(3) The invention can isolate the materials from the outside air in the process of conveying the materials and mixing the materials and the additives, prevent the materials from being polluted by the outside air, and ensure that the automation effect of material pipeline transportation is better and the benefit is higher.
(4) The invention can use a plurality of mixers to be matched with each other, and each mixer has different functions, thereby ensuring the continuity of material transportation and not influencing the continuity of material transportation due to the existence of the mixing mechanism.
(5) In the invention, an intermediate feeding bin is added to temporarily store materials therein, so that the feeding continuity of a main conveying pipeline and an auxiliary pipeline is ensured; meanwhile, the speed of outputting materials to the stirrer by the intermediate storage bin is higher than the speed of directly outputting the materials by the main conveying pipeline, so that the feeding time is short, and the uniformity and quality of a stirring effect can be ensured.
(6) The invention not only can be used as a mixer, but also can be used as a crusher, so that materials to be crushed can be directly mixed or crushed in the pipeline conveying process, the traditional process that special crushing or mixing processes need to be added is changed, the cost is saved, and the production efficiency is improved.
Drawings
FIG. 1: the parts of embodiment 1 of the mixer are connected schematically;
FIG. 2: the parts of embodiment 2 of the mixer are connected schematically;
FIG. 3: the parts of embodiment 3 of the mixer are connected schematically;
FIG. 4: the parts of embodiment 4 of the mixer are connected schematically;
FIG. 5: the parts of embodiment 5 of the mixer are connected schematically;
FIG. 6: the parts of embodiment 6 of the mixer are connected schematically;
FIG. 7: the parts of embodiment 7 of the mixer are connected schematically;
FIG. 8: the parts of embodiment 8 of the mixer are connected schematically;
FIG. 9: the parts of embodiment 9 of the mixer are connected schematically;
FIG. 10: the parts of the embodiment 10 of the mixer are connected schematically;
FIG. 11: the parts of embodiment 11 of the mixer are connected schematically;
FIG. 12: the parts of embodiment 12 of the mixer are connected schematically;
FIG. 13: the parts of example 13 of the mixer according to the invention are connected schematically.
Description of reference numerals:
1, a stirrer; 11-stirring driving device; 12-a blanking channel; 13-feeding chain disc; 14-an intermediate storage bin; 2-an addition device; 21-liquid adding device; 221-a valve; 22-powder addition device; 3-main conveying pipeline; 31 — a first inlet duct; 32-a first output conduit; 33-a second output duct; 34 — a second inlet conduit; 4-auxiliary pipeline; 41-pressing guide wheels; 5-auxiliary pipeline driving device; 6-a blanking valve device; 7, a hopper; 8-material and wind separating device; 9-a pulverizer; 91-distributing barrel.
Detailed Description
The invention is further described below with reference to fig. 1 to 13:
as shown in fig. 1 to 10, a mixer for use with a material conveying pipe comprises a main conveying pipe 3 for conveying a material; the adding device 2 is used for adding additives into the materials; the mixer 1 receives the materials conveyed by the main conveying pipeline 3 and is used for mixing the mixture of the materials and the additives; an auxiliary line 4 for conveying the material that has not been stirred into the mixer 1 or for conveying the material that has been stirred back into the main conveying line 3.
When main pipeline 3 is located mixer 1 top, main pipeline 3 does not stir the material and gets into mixer 1 input through unloading passageway 12 or middle storage storehouse, and mixer 1 output mixes the material and passes through auxiliary pipeline 4 and reentry main pipeline 3 again.
The main conveying pipeline 3 does not stir the material and keeps in to middle stock storehouse 14, thereby carries to the input of mixer 1 by middle stock storehouse 14 again and can make main conveying pipeline 3 and auxiliary pipeline 4 keep uninterrupted duty and ensure that mixer 1 evenly stirs. Because, when the mixer 1 is working, the main conveying pipeline 3 and the auxiliary pipeline 4 can also be kept in working state, so that the materials are temporarily stored in the intermediate storage bin 14, and the continuity of feeding the main conveying pipeline 3 and the auxiliary pipeline 4 is ensured. Meanwhile, the speed of outputting materials to the stirrer 1 by the intermediate storage bin 14 is higher than the speed of directly outputting the materials by the main conveying pipeline 3, so that the feeding time is short, and the quality of a stirring effect can be ensured.
When main pipeline 3 was located mixer 1 below, main pipeline 3 did not stir the material and carry the material of not stirring to mixer 1 input through auxiliary pipeline 4, and mixer 1 output mixes the material and enters main pipeline 3 again.
The addition device 2 can be provided on the main conveyor pipe 3 or on the mixer 1.
The adding device 2 includes a liquid adding device 21 and a powder adding device 22.
The main conveying pipeline 3 conveys materials through an auger or a chain disc or gas; and/or the auxiliary pipeline 4 conveys materials through an auger or a chain disc or gas.
The main conveying pipeline 3 or the auxiliary pipeline 4 uses gas to convey materials, and the input end of the stirring machine 1 is also connected with a material and wind separating device 8.
1 a plurality of settings side by side of mixer, 1 collaborative work of a plurality of mixers, at least one mixer 1 is used for the stirring to contain the material of additive, and a mixer 1 is used for exporting the material of having mixed the additive.
As shown in fig. 8, the mixer further includes a crusher 9, and the crusher 9 crushes the material discharged from the main duct 3 and then feeds the crushed material into the mixer 1.
The stirrer 1 or/and the adding device 2 is/are provided with a weighing sensor, the weighing sensor of the stirrer 1 senses the weight of the materials in the stirrer 1, and the weighing sensor of the adding device 2 senses the weight of the materials in the adding device 2; according to the weight of the materials sensed by a weighing sensor of the stirring machine 1, whether to feed the stirring machine 1 or whether to convey additives to the stirring machine 1 by an adding device 2 is determined; whether the additive is delivered to the blender 1 by the adding device 2 is determined according to the weight of the additive sensed by the weighing sensor of the adding device 2.
The mixer 1 or the main conveying pipeline 3 is provided with a blanking valve device 6, and the blanking valve device 6 starts feeding or stops feeding according to the output numerical value of the weighing sensor of the mixer 1. A discharge valve device is arranged at the discharge hole of the stirrer 1. The material is feed, also can be other substances, theoretically more than two substances are required to be mixed, and the technical scheme of the invention can be used.
As shown in fig. 11, a mixer used with a material conveying pipe includes a first inlet pipe 31 for conveying a material; the adding device 2 is used for adding additives into the materials; a blender 1 receiving a first intake conduit 31 transporting material and for blending a mixture of the material and an additive; a first output pipeline 32 for outputting the stirred material; the first inlet duct 31 is disposed at the input front end of the mixer 1, and the first outlet duct 32 is disposed at the output rear end of the mixer 1. The first inlet duct 31 is located at the same level or at a different level than the first outlet duct 32.
The upper first inlet duct 31 is also connected to an upper second outlet duct 33, and the lower first outlet duct 32 is connected to a lower second inlet duct 34. Therefore, the upper first inlet pipeline 31 can select the upper second outlet pipeline 33 or the lower first outlet pipeline 32 to output materials, and similarly, the lower second inlet pipeline 34 can also select the upper second outlet pipeline 33 or the lower first outlet pipeline 32 to output materials, so that different conveying modes are enriched, and when a fault occurs, stable operation of the system can be ensured.
As shown in fig. 12, a mixer used with a material conveying pipe comprises a main conveying pipe 3 for conveying materials; the adding device 2 is used for adding additives into the materials; the mixer 1 receives the materials conveyed by the main conveying pipeline 3 and is used for mixing the mixture of the materials and the additives; an auxiliary line 4 for conveying the material that has not been stirred into the mixer 1 or for conveying the material that has been stirred back into the main conveying line 3. One or more main conveying pipelines 3 and one or more auxiliary pipelines 4 form an annular structure, and the feeding chain disc 13 moves under the action of the driving device to perform circular feeding. Thus, an endless conveyor system can be formed by the combination of the main conveyor pipe 3 and the auxiliary conveyor pipe 4, and the drive means can be a motor which moves the feeder chain tray 13 in the pipes via a transmission.
The change of direction of the auxiliary pipeline 4 is ensured by arranging a pressing guide wheel 41 so that the feeding chain disc 13 is tensioned and cannot be locked in the pipeline.
As shown in fig. 12, the first blanking method: the material which is not stirred in the main conveying pipeline 3 enters the input end of the stirrer 1 through the blanking channel 12; this way of transport can be straightforward, but it has two drawbacks: firstly, when the mixer is filled with materials and mixed, the feeding chain disc 13 in the pipeline needs to stop working, and feeding can be restarted after the mixer is output, so that the working of the feeding chain disc 13 cannot realize continuity. The time for the unstirred materials in the second main conveying pipeline 3 to enter the input end of the stirrer 1 through the blanking channel 12 is usually longer, and the time interval between the first material and the last material is longer, so that the stirring uniformity cannot be ensured, and the stirring quality is ensured.
When main pipeline 3 is located mixer 1 top, main pipeline 3 does not stir the material and gets into mixer 1 input through unloading passageway 12, and mixer 1 output mixes the material and passes through auxiliary pipeline 4 and reentry main pipeline 3 again.
When main pipeline 3 was located mixer 1 below, main pipeline 3 did not stir the material and carry the material of not stirring to mixer 1 input through auxiliary pipeline 4, and mixer 1 output mixes the material and enters main pipeline 3 again.
As shown in fig. 13, the second blanking method: the main conveying pipeline 3 temporarily stores the materials which are not stirred to the intermediate storage bin 14, and then the materials are conveyed to the input end of the stirrer 1 through the intermediate storage bin 14, so that the feeding chain disc 13 can keep uninterrupted work and the stirrer 1 can be ensured to uniformly stir. Because, when the mixer 1 works, the feeding chain disc 13 can also keep working state, and the materials are temporarily stored in the intermediate storage bin 14, so that the continuous work of the feeding chain disc 13 is ensured. Meanwhile, the speed of outputting materials to the stirrer 1 by the intermediate storage bin 14 is higher than the speed of directly outputting the materials by the main conveying pipeline 3, so that the feeding time is short, and the quality of a stirring effect can be ensured.
The material conveyed by the invention can be feed, grain, mineral and the like, and the invention can be applied to the material which is solid and needs to be crushed or mixed.
The invention is described above with reference to the accompanying drawings, it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. The utility model provides a blendor that material conveying pipeline cooperation was used which characterized in that: comprises a main conveying pipeline (3) for conveying materials; the stirrer (1) receives materials conveyed by the main conveying pipeline (3) and is used for stirring and crushing single materials or mixing and crushing a mixture of a plurality of materials; an auxiliary pipeline (4) is used for conveying single materials or unmixed materials which are not stirred and crushed into the stirring mill (1) or conveying the materials which are stirred and crushed or mixed into the main conveying pipeline (3) again.
2. The material mixing machine used together with the material conveying pipeline according to claim 1, wherein: the device also comprises an adding device (2) which is used for adding the same or different materials into the materials conveyed by the main conveying pipeline (3); the adding device (2) comprises a liquid adding device (21) and/or a solid adding device (22); the adding device (2) can be arranged on the main conveying pipeline (3) or the stirrer (1) or between the main conveying pipeline (3) and the stirrer (1).
3. A mixer for use with a material conveying pipe according to claim 1 or 2, characterised in that:
when the main conveying pipeline (3) is positioned above the stirrer (1), single materials which are not crushed or mixed in the main conveying pipeline (3) directly enter the input end of the stirrer (1) through a blanking channel (12) and an intermediate storage bin (14), and crushed or mixed materials output by the stirrer (1) enter the main conveying pipeline (3) again through an auxiliary pipeline (4);
or when the main conveying pipeline (3) is positioned below the stirrer (1), the main conveying pipeline (3) conveys uncrushed single materials or unmixed multiple materials to the input end of the stirrer (1) through the auxiliary pipeline (4), and the stirrer (1) outputs crushed or mixed materials to enter the main conveying pipeline (3) again.
4. A mixer for use with a material conveying pipe according to claim 3, characterised in that: the main conveying pipeline (3) conveys materials by a packing auger or a chain disc or gas, and the gas conveying comprises positive pressure pneumatic conveying and negative pressure pneumatic conveying; and/or the auxiliary pipeline (4) conveys materials through a packing auger or a chain disc or gas, and the gas conveying comprises positive pressure pneumatic conveying and negative pressure pneumatic conveying; the main conveying pipeline (3) or the auxiliary pipeline (4) conveys materials through an air pump or a fan.
5. A mixer for use with a material conveying pipe according to claim 3, characterised in that: a plurality of the blenders (1) are connected with the main conveying pipeline (3), the blenders (1) work together, at least one blender (1) is used for receiving single materials which are not crushed or mixed and are conveyed by the main conveying pipeline (3), and at least one blender (1) is used for outputting crushed or mixed materials; or the device also comprises a material crushing device (9), wherein the material crushing device (9) crushes the material output by the main conveying pipeline (3) and then sends the crushed material into the stirring machine (1).
6. A mixer for use with a material conveying pipe according to claim 3, characterised in that: the stirrer (1) or/and the adding device (2) is/are provided with a metering device or a retransmission sensor, the metering device or the retransmission sensor of the stirrer (1) senses or weighs the weight of the materials in the stirrer (1), and the metering device or the retransmission sensor of the adding device (2) senses or weighs the weight of the materials in the adding device (2); according to the weight of the materials sensed by a metering device or a weighing sensor of the stirring machine (1) or the weight of the weighed materials, whether to feed the stirring machine (1) or whether to convey additives to the stirring machine (1) by the adding device (2) is determined; and determining whether the adding device (2) delivers the additive to the blender (1) or not according to the weight of the additive sensed by a metering device or a weighing sensor of the adding device (2) or the weighed additive.
7. The material mixing machine used together with the material conveying pipeline according to claim 6, wherein: the stirrer (1) or the main conveying pipeline (3) is provided with a blanking valve device (6), and the blanking valve device (6) starts feeding or stops feeding according to the output numerical value of a weighing sensor or a metering device of the stirrer (1); and a discharge valve device is arranged at a discharge hole of the stirrer (1).
8. The material mixing machine used together with the material conveying pipeline according to claim 1, wherein: one or more main conveying pipelines (3) and one or more auxiliary pipelines (4) form an annular structure, and the feeding chain disc (13) moves under the action of the driving device to perform circular feeding;
uncrushed single materials or unmixed multiple materials in the main conveying pipeline (3) enter the input end of the stirrer (1) through a blanking channel (12);
or one or more main conveying pipelines (3) and one or more auxiliary pipelines (4) form an annular structure, and the feeding chain disc (13) moves under the action of the driving device to carry out circular feeding; uncrushed single materials or unmixed multiple materials in the main conveying pipeline (3) are temporarily stored in an intermediate storage bin (14) and then conveyed to the input end of the stirrer (1) from the intermediate storage bin (14), so that the main conveying pipeline (3) can keep uninterrupted work and the intermediate storage bin (14) temporarily stores the materials to ensure that the stirrer (1) is uniformly mixed;
or one or more main conveying pipelines (3) and one or more auxiliary pipelines (4) form an annular structure, and the feeding chain disc (13) moves under the action of the driving device to carry out circular feeding; uncrushed single material or unmixed multiple material in main pipeline (3) are kept in to middle stock bin (14) temporarily, treat behind the broken or mix back in the mixer (1) and empty the back, carry to mixer (1) by middle stock bin (14) again so that main pipeline (3) keep uninterrupted duty and middle stock bin (14) can keep uncrushed single material or unmixed multiple material and broken or the material after mixing to keep apart, ensure that mixer (1) has sufficient time to discharge the even mixture of material again simultaneously.
9. The utility model provides a blendor that material conveying pipeline cooperation was used which characterized in that: comprises a first inlet duct (31) for conveying material; an adding device (2) for adding an additive to the material; a blender (1) receiving material conveyed by the first inlet conduit (31) and for mixing the material with a mixture of additives; a first output pipeline (32) for outputting the mixed materials; the position of the first inlet pipeline (31) is arranged at the input front end of the stirrer (1), and the position of the first outlet pipeline (32) is arranged at the output rear end of the stirrer (1); the first inlet duct (31) is located at the same level or at a different level than the first outlet duct (32).
10. The material mixing machine used in cooperation with the material conveying pipeline according to claim 9, wherein: the upper first inlet pipeline (31) is also connected with the upper second outlet pipeline (33), the lower first outlet pipeline (32) is connected with the lower second inlet pipeline (34), the upper first inlet pipeline (31) can select the upper second outlet pipeline (33) or the lower first outlet pipeline (32) to output materials, and similarly, the lower second inlet pipeline (34) can also select the upper second outlet pipeline (33) or the lower first outlet pipeline (32) to output materials.
CN202210336225.9A 2021-09-28 2022-04-01 Material mixing machine used in cooperation with material conveying pipeline Pending CN114471349A (en)

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CN202111144882 2021-09-28

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116651255A (en) * 2023-06-09 2023-08-29 广东牧易丰畜牧科技有限公司 Mixer and automatic feeding system using same

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CN210496190U (en) * 2019-04-15 2020-05-12 江苏亚葵智能装备有限公司 Multi-bin airflow mixing device
CN210586339U (en) * 2019-08-26 2020-05-22 中广核研究院有限公司 Solid waste pretreatment system and solid waste treatment system

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Publication number Priority date Publication date Assignee Title
CN105014811A (en) * 2015-06-30 2015-11-04 江苏凯伦建材股份有限公司 Production method of modified asphalt base rolls
CN106669515A (en) * 2016-06-23 2017-05-17 北京长峰金鼎科技有限公司 Device and method for processing powdery material based on mixing type pneumatic force
CN210496190U (en) * 2019-04-15 2020-05-12 江苏亚葵智能装备有限公司 Multi-bin airflow mixing device
CN210586339U (en) * 2019-08-26 2020-05-22 中广核研究院有限公司 Solid waste pretreatment system and solid waste treatment system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116651255A (en) * 2023-06-09 2023-08-29 广东牧易丰畜牧科技有限公司 Mixer and automatic feeding system using same

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