A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Grinding device and grinding method for preparing microwave gyromagnetic ferrite material
The invention discloses a grinding device and a grinding method for preparing a microwave gyromagnetic ferrite material, and relates to the technical field of ferrite preparation and grinding. The grinding device for preparing the microwave gyromagnetic ferrite material comprises a support, a smashing barrel is fixedly installed on the inner side of the support, a feeding hopper is fixedly installed at the top of the smashing barrel, and a motor frame is fixedly installed at the top of the smashing barrel. According to the grinding device for preparing the microwave gyromagnetic ferrite material, the driving shaft drives the grinding oblique cone to move, the grinding oblique cone rotates along the inner side wall of the grinding ring, and grinding protrusions on the outer side of the grinding oblique cone can make close contact with the inner side of the grinding stone ring; when the oblique grinding cone rotates to be parallel to the first magnetic block, the first magnetic block can be attracted, the cleaning brush piece is driven to move towards the outer side of the oblique grinding cone and the outer side of the grinding protrusion, the caked magnetic ferrite material is scraped and cleaned, and therefore the caked magnetic ferrite material on the grinding head is cleaned.
本发明公开了一种用于微波旋磁铁氧体材料制备用研磨装置及研磨方法,涉及铁氧体制备研磨技术领域。该用于微波旋磁铁氧体材料制备用研磨装置,包括支架,所述支架的内侧固定安装有粉碎筒,所述粉碎筒的顶部固定安装有进料斗,所述粉碎筒的顶部固定安装有电机架。该用于微波旋磁铁氧体材料制备用研磨装置,通过驱动轴带动运动,使研磨斜锥沿着研磨圈的内侧壁转动,研磨斜锥外侧的研磨凸起会与研磨石圈的内侧紧密接触,由于研磨圈和清理刷片处于静置状态,当研磨斜锥转动至与磁块一平行的时候会对磁块一进行吸引,带动清理刷片向研磨斜锥和研磨凸起的外侧与运动,来对结块的磁铁氧体材料进行刮除清理,从而达到清理研磨头上结块的磁铁氧体材料。
Grinding device and grinding method for preparing microwave gyromagnetic ferrite material
The invention discloses a grinding device and a grinding method for preparing a microwave gyromagnetic ferrite material, and relates to the technical field of ferrite preparation and grinding. The grinding device for preparing the microwave gyromagnetic ferrite material comprises a support, a smashing barrel is fixedly installed on the inner side of the support, a feeding hopper is fixedly installed at the top of the smashing barrel, and a motor frame is fixedly installed at the top of the smashing barrel. According to the grinding device for preparing the microwave gyromagnetic ferrite material, the driving shaft drives the grinding oblique cone to move, the grinding oblique cone rotates along the inner side wall of the grinding ring, and grinding protrusions on the outer side of the grinding oblique cone can make close contact with the inner side of the grinding stone ring; when the oblique grinding cone rotates to be parallel to the first magnetic block, the first magnetic block can be attracted, the cleaning brush piece is driven to move towards the outer side of the oblique grinding cone and the outer side of the grinding protrusion, the caked magnetic ferrite material is scraped and cleaned, and therefore the caked magnetic ferrite material on the grinding head is cleaned.
本发明公开了一种用于微波旋磁铁氧体材料制备用研磨装置及研磨方法,涉及铁氧体制备研磨技术领域。该用于微波旋磁铁氧体材料制备用研磨装置,包括支架,所述支架的内侧固定安装有粉碎筒,所述粉碎筒的顶部固定安装有进料斗,所述粉碎筒的顶部固定安装有电机架。该用于微波旋磁铁氧体材料制备用研磨装置,通过驱动轴带动运动,使研磨斜锥沿着研磨圈的内侧壁转动,研磨斜锥外侧的研磨凸起会与研磨石圈的内侧紧密接触,由于研磨圈和清理刷片处于静置状态,当研磨斜锥转动至与磁块一平行的时候会对磁块一进行吸引,带动清理刷片向研磨斜锥和研磨凸起的外侧与运动,来对结块的磁铁氧体材料进行刮除清理,从而达到清理研磨头上结块的磁铁氧体材料。
Grinding device and grinding method for preparing microwave gyromagnetic ferrite material
一种用于微波旋磁铁氧体材料制备用研磨装置及研磨方法
ZHONG JINKE (author) / HUANG YUNXIA (author) / GONG ZEMING (author)
2023-04-25
Patent
Electronic Resource
Chinese
Microwave LiZnTiMn gyromagnetic ferrite material and preparation method thereof
| European Patent Office | 2021
LiZnTi gyromagnetic ferrite material and preparation method thereof
| European Patent Office | 2015
Microwave gyromagnetic ferrite material as well as preparation process and application thereof
| European Patent Office | 2020
Self-biased hexagonal ferrite gyromagnetic material and preparation method thereof
| European Patent Office | 2023
Low-loss LiZnTiMn gyromagnetic ferrite material and preparation method thereof
| European Patent Office | 2021