Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Electromagnetic movement mechanism and electromagnetic lock
The invention relates to the field of electromagnetic motion, and discloses an electromagnetic motion mechanism and an electromagnetic lock, the electromagnetic motion mechanism comprises at least one wire spool (1) with a central through hole, at least one coil (2), at least one magnetic conductive material block (3) and at least two magnets (4), the coil (2) is wound on the wire spool (1), and the magnetic conductive material block (3) is wound on the wire spool (1). The magnets (41) and (42) are respectively placed at the tail part of the wire spool (1) and are fixed, and the magnetic conductive material block (3) can move back and forth on a straight line where the central through hole of the wire spool (1) is located. Compared with the prior art, the electromagnetic movement mechanism is larger in magnetic force, longer in stroke, flexible in design size, low in power consumption and not prone to heating damage after long-time work.
本发明涉及电磁运动领域,公开了一种电磁运动机构及电磁锁,包括至少一个中心通孔的绕线盘(1)、以及至少一个线圈(2)、以及至少一个导磁性材料块(3)、以及至少二个磁铁(4),所述线圈(2)绕在所述绕线盘(1)上,所述磁铁(41)(42)分别放置在所述绕线盘(1)的尾部并且固定,所述导磁性材料块(3)能够在所述绕线盘(1)的中心通孔所在直线上来回移动。与现有技术相比,本电磁运动机构的磁力更大,行程更长,设计尺寸比较灵活,功耗低,长时间工作不易发热损坏。
Electromagnetic movement mechanism and electromagnetic lock
The invention relates to the field of electromagnetic motion, and discloses an electromagnetic motion mechanism and an electromagnetic lock, the electromagnetic motion mechanism comprises at least one wire spool (1) with a central through hole, at least one coil (2), at least one magnetic conductive material block (3) and at least two magnets (4), the coil (2) is wound on the wire spool (1), and the magnetic conductive material block (3) is wound on the wire spool (1). The magnets (41) and (42) are respectively placed at the tail part of the wire spool (1) and are fixed, and the magnetic conductive material block (3) can move back and forth on a straight line where the central through hole of the wire spool (1) is located. Compared with the prior art, the electromagnetic movement mechanism is larger in magnetic force, longer in stroke, flexible in design size, low in power consumption and not prone to heating damage after long-time work.
本发明涉及电磁运动领域,公开了一种电磁运动机构及电磁锁,包括至少一个中心通孔的绕线盘(1)、以及至少一个线圈(2)、以及至少一个导磁性材料块(3)、以及至少二个磁铁(4),所述线圈(2)绕在所述绕线盘(1)上,所述磁铁(41)(42)分别放置在所述绕线盘(1)的尾部并且固定,所述导磁性材料块(3)能够在所述绕线盘(1)的中心通孔所在直线上来回移动。与现有技术相比,本电磁运动机构的磁力更大,行程更长,设计尺寸比较灵活,功耗低,长时间工作不易发热损坏。
Electromagnetic movement mechanism and electromagnetic lock
一种电磁运动机构及电磁锁
ZHANG QIANG (Autor:in)
21.03.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E05B
LOCKS
,
Schlösser
Electromagnetic lock structure and electromagnetic lock system
| Europäisches Patentamt | 2024