文件列表
立轴式破碎机的设计
立轴式破碎机的设计
../三维模型
../三维模型
../../GB_CONNECTING_PIECE_KEYS_CSK 28X100.sldprt [87.77 KB]
../../GB_CONNECTING_PIECE_KEYS_CSK 28X100.sldprt [87.77 KB]
../../GB_CONNECTING_PIECE_KEYS_CSK 36X400.sldprt [81.45 KB]
../../GB_CONNECTING_PIECE_KEYS_CSK 36X400.sldprt [81.45 KB]
../../GB_FASTENER_BOLT_HHBC M20X80-S.sldprt [201.66 KB]
../../GB_FASTENER_BOLT_HHBC M20X80-S.sldprt [201.66 KB]
../../GB_FASTENER_BOLT_HHBFTC M8X16-S.sldprt [193.27 KB]
../../GB_FASTENER_BOLT_HHBFTC M8X16-S.sldprt [193.27 KB]
../../GB_FASTENER_BOLT_SHBCC M14X60-S.sldprt [231.53 KB]
../../GB_FASTENER_BOLT_SHBCC M14X60-S.sldprt [231.53 KB]
../../GB_FASTENER_BOLT_STBAB A M16X40-N.sldprt [144.81 KB]
../../GB_FASTENER_BOLT_STBAB A M16X40-N.sldprt [144.81 KB]
../../GB_FASTENER_NUT_SNAB1 M16-N.sldprt [135.07 KB]
../../GB_FASTENER_NUT_SNAB1 M16-N.sldprt [135.07 KB]
../../GB_FASTENER_NUT_SNAB1XY B M20X2-S.sldprt [171.74 KB]
../../GB_FASTENER_NUT_SNAB1XY B M20X2-S.sldprt [171.74 KB]
../../GB_FASTENER_NUT_SNAB1XY M14X1.5-S.sldprt [169.90 KB]
../../GB_FASTENER_NUT_SNAB1XY M14X1.5-S.sldprt [169.90 KB]
../../Rolling bearings 1222 GB 281-94.sldprt [443.12 KB]
../../Rolling bearings 1222 GB 281-94.sldprt [443.12 KB]
../../Rolling bearings 2218 GB 281-94.sldprt [492.67 KB]
../../Rolling bearings 2218 GB 281-94.sldprt [492.67 KB]
../../Rolling bearings 2222 GB 281-94.sldprt [432.78 KB]
../../Rolling bearings 2222 GB 281-94.sldprt [432.78 KB]
../../Rolling bearings 29318 90x155x39 GB 5859-94.sldprt [397.74 KB]
../../Rolling bearings 29318 90x155x39 GB 5859-94.sldprt [397.74 KB]
../../Rolling bearings 29324 120x210x54 GB 5859-94.sldprt [395.04 KB]
../../Rolling bearings 29324 120x210x54 GB 5859-94.sldprt [395.04 KB]
../../Rolling bearings 29418 90x190x60 GB 5859-94.sldprt [344.41 KB]
../../Rolling bearings 29418 90x190x60 GB 5859-94.sldprt [344.41 KB]
../../上盖.SLDPRT [331.36 KB]
../../上盖.SLDPRT [331.36 KB]
../../上轴承盖.SLDPRT [87.09 KB]
../../上轴承盖.SLDPRT [87.09 KB]
../../下支撑.SLDPRT [274.68 KB]
../../下支撑.SLDPRT [274.68 KB]
../../下轴承盖.SLDPRT [87.31 KB]
../../下轴承盖.SLDPRT [87.31 KB]
../../主轴.SLDPRT [127.19 KB]
../../主轴.SLDPRT [127.19 KB]
../../出料口.SLDPRT [105.86 KB]
../../出料口.SLDPRT [105.86 KB]
../../反击板.SLDPRT [179.61 KB]
../../反击板.SLDPRT [179.61 KB]
../../圆盘.SLDPRT [105.37 KB]
../../圆盘.SLDPRT [105.37 KB]
../../带轮.SLDPRT [165.46 KB]
../../带轮.SLDPRT [165.46 KB]
../../机体.SLDPRT [295.64 KB]
../../机体.SLDPRT [295.64 KB]
../../破碎板.SLDPRT [183.06 KB]
../../破碎板.SLDPRT [183.06 KB]
../../立轴式破碎机.SLDASM [2.36 MB]
../../立轴式破碎机.SLDASM [2.36 MB]
../../箱体.SLDASM [124.51 KB]
../../箱体.SLDASM [124.51 KB]
../../转子.SLDASM [984.16 KB]
../../转子.SLDASM [984.16 KB]
../../轴套1.SLDPRT [83.53 KB]
../../轴套1.SLDPRT [83.53 KB]
../../轴套2.SLDPRT [82.33 KB]
../../轴套2.SLDPRT [82.33 KB]
../../轴套3.SLDPRT [76.75 KB]
../../轴套3.SLDPRT [76.75 KB]
../../进料斗.SLDPRT [141.43 KB]
../../进料斗.SLDPRT [141.43 KB]
../../进料斗钣金.SLDPRT [185.01 KB]
../../进料斗钣金.SLDPRT [185.01 KB]
../../铰链.SLDPRT [70.78 KB]
../../铰链.SLDPRT [70.78 KB]
../../销耳.SLDPRT [70.92 KB]
../../销耳.SLDPRT [70.92 KB]
../../锁耳.SLDPRT [64.37 KB]
../../锁耳.SLDPRT [64.37 KB]
../../锤.SLDPRT [164.36 KB]
../../锤.SLDPRT [164.36 KB]
../../锤销.SLDPRT [73.92 KB]
../../锤销.SLDPRT [73.92 KB]
../../门板.SLDPRT [229.08 KB]
../../门板.SLDPRT [229.08 KB]
../../门板销 2.SLDPRT [71.56 KB]
../../门板销 2.SLDPRT [71.56 KB]
../../门板销.SLDPRT [73.16 KB]
../../门板销.SLDPRT [73.16 KB]
../../门板锁紧螺栓.SLDPRT [102.24 KB]
../../门板锁紧螺栓.SLDPRT [102.24 KB]
../开题报告.doc [982 KB]
../开题报告.doc [982 KB]
../立轴式破碎机二维图纸.dwg [658.15 KB] 查看图纸
../立轴式破碎机二维图纸.dwg [658.15 KB] 查看图纸
../设计说明书.doc [2.44 MB]
../设计说明书.doc [2.44 MB]
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文档介绍
立轴式破碎机的设计
摘要
在制造建材产品的过程中,不论从基础材料到成品的工序中,都需要通过破碎,研磨的工艺使得表面积增大达到加快熵变的产生。均匀的接触,流动性的提升,不仅能使反应速度提高,也能方便运输跟贮存。精细的研磨可以在不改变原料的质量的前提下,轻松地提升成品的质量。这不仅仅节省产品在生产过程中的损失,也为低碳于优质生产提供了保障。
对于一般使用研磨技术的行业来讲,通过使用机械零件来冲击粉碎原材料是普遍采用的方式。并且机械设备的效率高,经济效益好。而在目前机械设备中,研磨破碎的设计仍是主要改进和设计目的。
而相较于在矿物跟建筑行业,各种机械破碎机都或多或少存在功耗过高,却产能不高的问题。对比于目前行业“以破代磨”的技术来说,通过提高破碎效率,降低研磨物质的颗粒大小,提升研磨效率,减少功耗。
本论文是通过分析得来的数据库信息,分析问题所在,并横向比较其优缺点。
关键词立轴式;研磨;破碎机;物料;
Vertical shaft crusher design
Abstract
In the manufacture of building materials products, no matter from the basic materials to finished products in the process, we need to break through the grinding process to increase the surface area, to speed up the generation of entropy uniform contact and the promotion of fluidity can not only increase the reaction speed, but also facilitate the transportation and grinding can easily improve the quality of finished products without changing the quality of the raw not only saves the product in the production process the loss, also provided the safeguard for the low carbon to the high quality production.
For general grinding industries, the use of mechanical parts to impact the crushing of raw materials is mon , the mechanical equipment has high efficiency and good economic returns. In the current mechanical equipment, grinding and crushing design is still the main improvement and design purposes.
pared to the mineral and construction industry, all kinds of mechanical crusher are more or less high power consumption, but the production capacity is not contrast to the current industry "broken generation grinding" technology, by improving the crushing efficiency, reducing the size of abrasive particles, improve grinding efficiency, reduce power consumption.
In this paper, we analyze the database information, analyze the problems pare the advantages and disadvantages of them.
Keywords Vertical shaft;Grind;Crusher;Materiel
目录
摘要 I
Abstract II
第1章绪论 1
摘要
在制造建材产品的过程中,不论从基础材料到成品的工序中,都需要通过破碎,研磨的工艺使得表面积增大达到加快熵变的产生。均匀的接触,流动性的提升,不仅能使反应速度提高,也能方便运输跟贮存。精细的研磨可以在不改变原料的质量的前提下,轻松地提升成品的质量。这不仅仅节省产品在生产过程中的损失,也为低碳于优质生产提供了保障。
对于一般使用研磨技术的行业来讲,通过使用机械零件来冲击粉碎原材料是普遍采用的方式。并且机械设备的效率高,经济效益好。而在目前机械设备中,研磨破碎的设计仍是主要改进和设计目的。
而相较于在矿物跟建筑行业,各种机械破碎机都或多或少存在功耗过高,却产能不高的问题。对比于目前行业“以破代磨”的技术来说,通过提高破碎效率,降低研磨物质的颗粒大小,提升研磨效率,减少功耗。
本论文是通过分析得来的数据库信息,分析问题所在,并横向比较其优缺点。
关键词立轴式;研磨;破碎机;物料;
Vertical shaft crusher design
Abstract
In the manufacture of building materials products, no matter from the basic materials to finished products in the process, we need to break through the grinding process to increase the surface area, to speed up the generation of entropy uniform contact and the promotion of fluidity can not only increase the reaction speed, but also facilitate the transportation and grinding can easily improve the quality of finished products without changing the quality of the raw not only saves the product in the production process the loss, also provided the safeguard for the low carbon to the high quality production.
For general grinding industries, the use of mechanical parts to impact the crushing of raw materials is mon , the mechanical equipment has high efficiency and good economic returns. In the current mechanical equipment, grinding and crushing design is still the main improvement and design purposes.
pared to the mineral and construction industry, all kinds of mechanical crusher are more or less high power consumption, but the production capacity is not contrast to the current industry "broken generation grinding" technology, by improving the crushing efficiency, reducing the size of abrasive particles, improve grinding efficiency, reduce power consumption.
In this paper, we analyze the database information, analyze the problems pare the advantages and disadvantages of them.
Keywords Vertical shaft;Grind;Crusher;Materiel
目录
摘要 I
Abstract II
第1章绪论 1
立轴式破碎机的设计 来自淘豆网www.taodocs.com转载请标明出处.
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