A kind of neodymium-iron-boron magnetic material crystallization system
Technical field
The present invention relates to magneticsubstance Field of Heat-treatment, particularly relate to a kind of neodymium-iron-boron magnetic material crystallization system.
Background technology
Crystallization and thermal treatment operation is an important step in magnetic materials production whole process, and the crystallization and thermal treatment device production time of always continuing to use now is long, and air extraction is unclean, cause portion of material oxidized, and it is slow to come out of the stove, the waiting time of coming out of the stove is long, continuous prodution is seriously obstructed, inefficiency.
Summary of the invention
In order to solve above-mentioned prior art Problems existing, the invention provides a kind of neodymium-iron-boron magnetic material crystallization system, can continuous seepage, increase work efficiency.
To achieve these goals, new solution of the present invention is achieved in that a kind of neodymium-iron-boron magnetic material crystallization system, comprise discharge barrel 1, high temperature crystallization section 5, be fixedly connected on the feeding tube 6 of described high temperature crystallization section 5 one end, and the controlling box 2 to be connected with described high temperature crystallization section 5 sidepiece, vacuum extractor 7, the other end of described high temperature crystallization section 5 axially connects cooling portion 4, the other end in described cooling portion 4 is fixedly connected with described discharge barrel 1, a refrigerating unit 3 is arranged circumferentially with the connectivity port of described discharge barrel 1 in described cooling portion 4, and connect electric motor 8, described high temperature crystallization section 5, cooling portion 4 is all positioned on base 9.
Further, described high temperature crystallization section 5 sidepiece is equipped with temperature sensor, is connected between described temperature sensor with described controlling box 2 by electric wire.
Further, described controlling box 2 there are telltale, temperature indicator, time display.
Further, on described discharge barrel 1 with visual windows, temperature indicator, control valve, discharge port.
Further, described refrigerating unit 3 connects water inlet pipe and rising pipe.
Further, on described feeding tube 6 with control valve, vacuum-pumping tube.
Further, described vacuum extractor 7 is with tensimeter, vacuum pump.
Further, described electric motor 8 is connected to the discharging port in described cooling portion 4 by transmission chain.
Further, described high temperature crystallization section 5 is axially connected with described cooling portion 4, and has angle of inclination between level ground.
The present invention has following beneficial effect: the present invention is rational in infrastructure, compact, anti-oxidation when vacuum extractor makes the present embodiment work, anti-spontaneous combustion, and it is fast that refrigerating unit makes material lower the temperature, can continuous seepage, increases work efficiency.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention.
Below in conjunction with accompanying drawing, the present invention will be further described in detail.
With reference to accompanying drawing 1 description of symbols: 1, discharge barrel, 2, controlling box, 3, refrigerating unit, 4, cooling portion, 5, high temperature crystallization section, 6, feeding tube, 7, vacuum extractor, 8, electric motor, 9, base.
Embodiment
A kind of neodymium-iron-boron magnetic material crystallization system of the present invention, comprises discharge barrel 1, high temperature crystallization section 5, establishes heat insulation layer, process furnace silk, boiler tube in described high temperature crystallization section 5.Be fixedly connected on the feeding tube 6 of described high temperature crystallization section 5 one end, with control valve, vacuum-pumping tube on described feeding tube 6, and the controlling box 2 to be connected with described high temperature crystallization section 5 sidepiece, described high temperature crystallization section 5 sidepiece is equipped with temperature sensor, is connected between described temperature sensor with described controlling box 2 by electric wire.Described controlling box 2 there are telltale, temperature indicator, time display, can the working order of Real-time Feedback high temperature crystallization section 5.
In the present embodiment, vacuum extractor 7 is through in whole device, and it is with tensimeter, vacuum pump.In work, the air of finding time in whole device, prevents magneticsubstance spontaneous combustion or oxidation.The other end of described high temperature crystallization section 5 axially connects cooling portion 4, and described high temperature crystallization section 5, inside, cooling portion 4 share a boiler tube.The other end in described cooling portion 4 is fixedly connected with described discharge barrel 1, with visual windows, temperature indicator, control valve, discharge port on described discharge barrel 1.Be arranged circumferentially a refrigerating unit 3 in described cooling portion 4 with the connectivity port of described discharge barrel 1, and connect electric motor 8, described electric motor 8 is connected to the discharging port in described cooling portion 4 by transmission chain.Described refrigerating unit 3 connects water inlet pipe and rising pipe, and described high temperature crystallization section 5 is axially connected with described cooling portion 4, and is all positioned on base 9, and has angle of inclination between level ground, and namely coil outlet end is low, and entrance end is high.
During work, first add in feeding tube 6 and treat Crystallizing treatment material, feeding tube 6 is sealed, after switching on power, vacuumize with vacuum extractor 7, electric motor 8 drives boiler tube to rotate, and makes stove intraductal material crystallization even, and slowly goes towards exit end is sliding, then enter in cooling portion 4, cold water passes through the inlet tube and outlet tube of refrigerating unit 3 at cooling portion 4 internal circulation flow, and to material cooling, final material flows out in discharge barrel 1.
What finally illustrate is, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, other amendments that those of ordinary skill in the art make technical scheme of the present invention or equivalently to replace, only otherwise depart from the spirit and scope of technical solution of the present invention, all should be encompassed in the middle of right of the present invention.