SU471394A1 - Device for thermomagnetic processing products - Google Patents
Device for thermomagnetic processing productsInfo
- Publication number
- SU471394A1 SU471394A1 SU1820745A SU1820745A SU471394A1 SU 471394 A1 SU471394 A1 SU 471394A1 SU 1820745 A SU1820745 A SU 1820745A SU 1820745 A SU1820745 A SU 1820745A SU 471394 A1 SU471394 A1 SU 471394A1
- Authority
- SU
- USSR - Soviet Union
- Prior art keywords
- semi
- processing products
- thermomagnetic
- thermomagnetic processing
- housing
- Prior art date
Links
Landscapes
- Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
Description
1one
Изобретение относитс к технологическим процессам термомагнитной обработки магнитных сердечников с пр моугольной петлей гистерезиса .This invention relates to a process for the thermomagnetic treatment of magnetic cores with a rectangular hysteresis loop.
Известно устройство дл термомагнитной обработки изделий, содержащее разъемный корпус, полукорпуса которого св заны электрически , и тепловой экран.A device for thermomagnetic processing of products is known, comprising a split housing, the semi-bodies of which are electrically connected, and a heat shield.
Однако -известное устройство характеризуетс неравномерностью магнитного пол в рабочем объеме корпуса, из-за чего невозможно проводить термомагнитную обработку сердечников дл получени пр моугольной петли гистерезиса. Кроме того, жесткое крепление внутренних трубок с разъемными полукорпусами может быть причиной их деформаций при высокой температуре.However, the well-known device is characterized by a non-uniform magnetic field in the working volume of the housing, due to which it is impossible to conduct thermomagnetic processing of the cores to obtain a rectangular hysteresis loop. In addition, rigid fastening of the inner tubes with detachable semi-hulls may cause their deformation at high temperature.
Предлагаемое устройство снабжено цилиндрическим токостержнем, на котором с зазором укреплены полукорпуса. Это позвол ет создать равномерное магнитное поле в рабочем объеме корпуса.The proposed device is equipped with a cylindrical tokosteroom, on which with a gap reinforced semi-hull. This allows a uniform magnetic field to be created in the working volume of the housing.
На чертеже изображено предлагаемое устройство .The drawing shows the proposed device.
Устройство имеет цилиндрический токостержень 1, на который свободно насажен разъемный корпус, полукорпуса 2 которого ст гиваютс при помощи шпилек 3 планками 4. Электрическа изол ци щпилек обеспечиваетс керамическими втулками 5. На центральной утоненной части токостержн имеютс изол торы 6, на которых расположены магнитныеThe device has a cylindrical current rod 1, on which a detachable housing is freely mounted, the semi-bodies 2 of which are fastened with studs 3 with strips 4. The electrical insulation of the rods is provided by ceramic bushings 5. On the central thinned part of the current-core there are insulators 6 on which magnetic
сердечники 7. На полукорпусах размещеныcores 7. On semi-bodies are placed
изол торы 8, к которым крепитс тепловойinsulators 8 to which thermals are attached
экран 9. Токопроводники 10 поджимаютс screen 9. The conductors 10 are pressed
планками к полукорпусам.straps to semi-hulls.
При пропускании электрического тока поBy passing an electric current through
разъемному корпусу и цилиндрическому токостержню силой, определ емой термомагнитной обработки, сердечники приобретают магнитную текстуру, т. е. пр моугольную петлю гистерезиса.The separable body and the cylindrical current core, by the force determined by thermomagnetic processing, the cores acquire a magnetic texture, i.e., a rectangular hysteresis loop.
Тепловой режим термомагннтной обработки контролируетс термопарой, вводимой внутрь цилиндрического токостержн .The thermal mode of thermomagnetic processing is controlled by a thermocouple inserted into the cylindrical current core.
Предмет изобретени Subject invention
Устройство дл термомагпитпой обработки изделий, содержащее разъемный корпус, полукорп )са которого св заны электрически, и тепловой экран, отличающеес тем, что, с целью создани равномерного магнитного пол в рабочем объеме корпуса, оно снабжено цилиндрическим токостержнем, на котором с зазором укреплены полукорпуса. JII/ / J /A device for thermomagpal processing of products, comprising a split housing, a semi-corp), which is electrically connected, and a heat shield, characterized in that in order to create a uniform magnetic field in the working volume of the housing, it is equipped with a cylindrical tokor core, on which the half-corps are reinforced with a gap. Jii // j /
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SU1820745A SU471394A1 (en) | 1972-08-10 | 1972-08-10 | Device for thermomagnetic processing products |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SU1820745A SU471394A1 (en) | 1972-08-10 | 1972-08-10 | Device for thermomagnetic processing products |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| SU471394A1 true SU471394A1 (en) | 1975-05-25 |
Family
ID=20524866
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| SU1820745A SU471394A1 (en) | 1972-08-10 | 1972-08-10 | Device for thermomagnetic processing products |
Country Status (1)
| Country | Link |
|---|---|
| SU (1) | SU471394A1 (en) |
-
1972
- 1972-08-10 SU SU1820745A patent/SU471394A1/en active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| SU471394A1 (en) | Device for thermomagnetic processing products | |
| US3252018A (en) | Superconducting alternator | |
| US3467076A (en) | High magnetic flux experimental apparatus | |
| GB1550245A (en) | Apparatus for treating tumours | |
| SE8002541L (en) | DEVICE FOR PREPARATION OF ELECTRICAL RESISTANCE ELEMENTS | |
| GB580374A (en) | Improvements in apparatus for heating by high frequency electric energy | |
| SU124859A2 (en) | Device for tensioning reinforcement | |
| BEREZIN et al. | Variation of temperature during the first stage of an electric explosion of wires(Color temperature measurement in first stage of electrical explosion of copper, silver and constantan wires as function of magnitude of energy input for various heating times) | |
| SU513272A1 (en) | Temperature measuring device | |
| SU129265A1 (en) | Heat treatment chamber for elastic yarns | |
| JPS5638132A (en) | Reaction apparatus of electric heating | |
| KOVAN et al. | Investigation of the parameters of a plasma in a strong magnetic field using dual electric probes(Concentration and electron temperature for plasma in strong magnetic field, using dual floating probe method) | |
| JPS5772031A (en) | Temperature sensor | |
| SU389274A1 (en) | ||
| BREDERLOW et al. | Non-Equilibrium Electrical Conductivity and Electron Temperature Measurements in Electric Fields and Crossed Electric and Magnetic Fields | |
| SU64089A1 (en) | Removable electrical contact for moving electrical heaters | |
| SU110586A1 (en) | Gas generator installation | |
| KHAN | Cooling of an initially hot semi-infinite piezoelectric rod by radiation | |
| SU375736A1 (en) | LIBRARY ^.,., I | |
| SU819682A1 (en) | Device for checking uniformity of non-ferromagnetic metal rod electrical resistance | |
| HUST et al. | Standard reference materials: Thermal conductivity of electrolytic iron, SRM 734, from 4 to 300 K(Thermal conductivity data for electrolytic iron, SRM 734, obtained by axial one-dimensional heat flow method from 4 to 300 K)[Final Report] | |
| BEREZIN et al. | Measurement of the temperature in the first stage of an electrical explosion of wires(Color temperature measurement in first stage of electrical explosion of copper, silver and constantan wires as function of magnitude of energy input for various heating times) | |
| ELIUTIN et al. | Investigation of electrical resistance, thermoelectric, heat conducting and mechanical properties of titanium-molybdenum-aluminum alloys | |
| Lobyshev et al. | Resonance properties of solutions of proteins as shown by the measurements obtained by LA Lapayeva of the electrical conductivity over the frequency range 0· 1-10 MHz | |
| AFANASEV et al. | Study of the electrical conductivity of the plasma in coaxial-type MHD generator models(Conductivity and electron temperature in coaxial MHD generator plasma with magnetic field, studying Joule heating effect on performance) |