IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0143414
(1993-10-25)
|
우선권정보 |
ES-0000201 (1993-02-04) |
발명자
/ 주소 |
- de la Torre Barreiro Jose L. (Rafael Calvo No. 30 28010 Madrid ESX)
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
0 |
초록
▼
These improvements are applicable to conditioners fitted with three independent magnetic fields, each generated by a magnet or set of magnets (3, 5, 7) and consisting in coupling to the first magnet or set of magnets (3) an auxiliary magnet or group of magnets (17) using a telescoping shaft (16), wh
These improvements are applicable to conditioners fitted with three independent magnetic fields, each generated by a magnet or set of magnets (3, 5, 7) and consisting in coupling to the first magnet or set of magnets (3) an auxiliary magnet or group of magnets (17) using a telescoping shaft (16), which complementary magnet (17) will tend to move away from the first magnetic field (3) and will carry a front or conical plug (18) which may move to a greater or lesser extent depending on the stream of fluid running through the conditioner, such that the greater the stream of water, the closer this auxiliary magnet (17) is and the greater the intensity of the magnetic field in the area (20) where the water flows through between the permanent magnet or magnet group (3) and its magnetically permeable body (4). The design also provides for the incorporation of a magnetic filter (12-13) and a rotor fitted with blades (21-22), equipped with a coil (23) in which an electromotive force is generated which may be tapped through outside contacts (24).
대표청구항
▼
A magnetic conditioner for treating liquids, comprising: a tubular body made of a nonmagnetic material, said body including a longitudinal axis, a central flow passage extending along said axis, and including an inlet end and an outlet end spaced along said axis and communicating with said central f
A magnetic conditioner for treating liquids, comprising: a tubular body made of a nonmagnetic material, said body including a longitudinal axis, a central flow passage extending along said axis, and including an inlet end and an outlet end spaced along said axis and communicating with said central flow passage, said inlet and outlet ends each respectively terminating in a companion flange; and a core located within said tubular body for establishing three independent magnetic fields aligned coaxially along said longitudinal axis, said core comprising first, second, and third magnets or groups of magnets, each of said magnets or groups of magnets being aligned coaxially along said longitudinal axis, each of magnets or groups of magnets having magnetic poles spaced apart along said longitudinal axis, each of said magnets being separated apart from one another by spacers, said core including first, second, and third magnetically permeable bodies spaced apart from and coaxially surrounding said first, second, and third magnets or groups of magnets, respectively, wherein said first magnet or group of magnets includes a south pole facing said inlet end and a north pole facing a north pole of said second magnet or group of magnets, wherein the second magnet or group of magnets includes a south pole facing a south pole of said third magnet or group of magnets, and wherein said third magnet or group of magnets includes a north pole facing said outlet end, and wherein said core further includes an auxiliary magnet or group of magnets coaxially aligned with said longitudinal axis and located between said first magnet or group of magnets and said inlet end, said auxiliary magnet or group of magnets including a north pole facing said inlet end and a south pole adjacent the south pole of said first magnet or group of magnets, telescoping shaft means for permitting axial movement of said auxiliary magnet or group of magnets along said longitudinal axis relative to said first magnet or group of magnets, wherein a conical plug is attached to a front of said auxiliary magnet or group of magnets and facing said inlet end, wherein said housing includes a truncated cone-shaped seat located between said conical plug and said inlet for receiving said conical plug, whereby a magnetic force caused by the like-pole interaction between the auxiliary magnet or group of magnets and said first group of magnets biases the plug toward said truncated cone-shaped seat, and whereby a greater stream of water flowing though the conditioner causes a greater axial movement of the plug and said auxiliary magnet or group of magnets in a direction away from said seat and towards said first magnet or group of magnets resulting in a greater influence of the auxiliary magnet or group of magnets on the first magnet or group of magnets, and a greater radial magnetic field established between said first magnet or group of magnets and said first magnetically permeable body.
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