CN116168916A - Combined magnet array with enhanced regional magnetic field strength - Google Patents

Abstract

The invention belongs to the technical field of steel processing, and discloses a combined magnet array with enhanced regional magnetic field strength, which comprises the following components: magnet: the magnets are tubular, the number of the magnets is even, every two magnets are connected end to end along the same polarity of the axle center, and the magnets are magnetized in the transverse direction; a connecting shaft; the connecting shaft penetrates through the magnet, nuts or clamping locks for fixing the magnet are arranged at two ends of the connecting shaft, the homopolar butt joint of the magnet is adopted, the distribution condition of local magnetic induction lines around the magnet is changed, the local magnetic induction lines are dense, the magnetic induction intensity of a local area is enhanced, and static magnetic energy obtained by extranuclear electrons of fuel molecules passing through the area can reach the energy required by electronic transition or energy level splitting.

Description

Combined magnet array with enhanced regional magnetic field strength

Technical Field

The invention belongs to the technical field of magnetic fields, and particularly relates to a combined magnet array with enhanced regional magnetic field strength.

Background

Magnetization refers to the phenomenon that under the action of a magnetic field, orientation tends to be consistent when magnetic moments in a material are arranged, so that certain magnetism is presented; the spectrum is split under the action of a magnetic field, and the coupling superposition magnetic moment of microscopic electron spin magnetic moment and orbit magnetic moment in the material obtains additional magnetic moment under the action of an external magnetic field, so that electrons obtain additional energy, the additional energy is in the order of ten minus three electron volts when the magnetic induction intensity of the external magnetic field is 100mT, the energy level required by electron transition cannot be reached, the magnetic induction intensity generated by the existing magnet in the conventional arrangement mode of plastic soft magnetic, rubber soft magnetic, ferrite, neodymium iron boron, zinc cobalt, alnico and various nano magnets is smaller, and the combination of the magnets is required to be improved to change the spatial distribution state of the magnetic induction lines so that the local magnetic induction intensity of the magnet can be greatly enhanced.

Disclosure of Invention

The present invention is directed to a combined magnet array having enhanced magnetic field strength through the region through which the present invention passes.

Based on the above purpose, the invention adopts the following technical scheme: a combined magnet array with enhanced field strength in a region, comprising: a magnet; the magnets are tubular, the number of the magnets is even, every two magnets are connected end to end along the same polarity of the axle center, and the magnets are magnetized in the transverse direction; and the connecting shaft penetrates through the magnet, and nuts or locking locks for fixing the magnet are arranged at two ends of the connecting shaft.

The magnet mounting step is 1: n magnets are connected in the groove or fixed on the plate in an S-pole to S-pole and N-pole to N-pole arrangement mode by utilizing the groove or the plate; 2: the magnetic tube is provided with a tubular magnet in the shape of a circular tube magnet, a square tube magnet and the like, a shaft or a soft belt is penetrated into the magnetic tube, and N magnet directions are connected with S poles according to S poles, and N poles are connected with N in a tight arrangement mode for series connection; suitable magnetic materials include those that allow for soft magnetic: plastic soft magnet, rubber soft magnet, soft nano magnet, hard magnet: ferrite magnets, neodymium-iron-boron magnets, zinc-cobalt magnets, alnico magnets, high temperature rare earth permanent magnets (rare earth-iron-nitrogen permanent magnet materials), nanomagnets, and hard magnets of various materials; use environment temperature range: and selecting proper magnetic materials (magnets) according to the ambient temperature at the temperature of minus 50 ℃ to 1600 ℃.

Compared with the prior art, the invention has the following beneficial effects: the homopolar butt joint of the magnets changes the distribution condition of local magnetic induction lines around the magnets, so that the local magnetic induction lines are dense, the magnetic induction intensity of local areas is enhanced, and the static magnetic energy obtained by the extra-nuclear electrons of fuel molecules passing through the areas can reach the energy required by electron transition or energy level splitting.

Drawings

Fig. 1 is a diagram of a homopolar butt joint of four magnets.

Fig. 2 is a plot of the overall magnetic field lines of a homopolar butt joint of four magnets.

Fig. 3 is a plot of the overall magnetic field lines of a heteropolarity butt joint of two magnets.

Fig. 4 is a plot of magnetic lines of force for a single magnet.

1. Four magnets with the same polarity are butted, 2.S magnets with the same polarity are butted, 3.N magnets with the same polarity are butted, 4 connecting shafts, 5 nuts or locks, 6 magnets with the same polarity are butted with the whole magnetic force lines, 7.N pairs of magnetic force lines, 8.S magnets with the same polarity are butted with the magnetic force lines, 9.S pole magnetic force lines, 10 magnets with different polarities are butted with the whole magnetic force lines, 11.N pole magnetic lines, 12 magnets with different polarities are butted, and 13 magnets.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

Example 1

A combined magnet array with enhanced magnetic field intensity in a region is shown in a figure 1, wherein a hole is arranged in the center of the transverse surface of each magnet, the four magnets are sequentially penetrated on a connecting shaft 4 by a homopolar butt joint method and are provided with threads or clamping holes, two ends of each magnet are fastened together by nuts or clamping locks 5, two homopolar N-pole butt joints 3 and one homopolar S-pole butt joint 2 are formed, magnetic force of two magnetic poles appears at each N-pole and S-pole homopolar butt joint, and the magnetic force at the homopolar butt joints is improved.

As shown in fig. 2, in the drawing of the integral magnetic force line 6 with homopolar butt joint of four magnets, from the view of magnetic force line distribution, two homopolar butt joint magnetic force lines 7 with N poles and one homopolar butt joint magnetic force line 8 with S poles appear at the butt joint position of the magnets, the two ends of the magnetic force line are not in butt joint with S poles, the magnetic force line appearing at the homopolar butt joint position of each N pole and each S pole is the density of the magnetic force line formed by overlapping two magnetic poles, and the density of the magnetic force line at the homopolar butt joint position of the magnets is enhanced.

As shown in fig. 3, in the drawing of the overall magnetic force line 10 of the heteropolarity butt joint of two magnets, it is obvious that only one distribution of magnetic force lines of a natural magnetic field is shown, no distribution of magnetic force lines emitted and absorbed occurs at the butt joint position 12 of the heteropolarity two magnets, which means that the magnet of heteropolarity butt joint forms a magnetic field with a larger size and one magnet, only the distribution of magnetic force lines emitted by the N-terminal magnetic force line 11 and absorbed by the S-terminal magnetic force line is lower in overall compared with the magnetic field intensity and the density of the magnetic force line distribution at the butt joint position in fig. 1 and 2.

As shown in fig. 4, in the drawing of the magnetic force lines 13 of a single magnet, under the condition that the size, the volume and the shape of the magnet are completely consistent with those of two heteropolarity self-priming magnets in fig. 3, the only magnetic field distribution is the magnetic field which is emitted by the magnetic force lines 11 of the N-pole and absorbed by the magnetic force lines 9 of the S-pole, and the magnetic field distribution is completely consistent with that of the whole magnetic force lines 10 of the heteropolarity butt joint of the two magnets in fig. 3.

Fig. 1 to 4 above: the magnetic field strength and the density of the magnetic field are enhanced, so that the magnetic field can play a larger role.

1. Magnet processing: the magnet is cut into strips with various specifications, such as square, round and the like, the longitudinal surface is perforated, the magnetic pole direction is transverse, and then the magnet is cut into the required size.

2. The using method comprises the following steps: the magnets are tightly connected in series on the fixed shaft according to the arrangement mode of the S pole pair S pole and the N pole pair N pole, or the magnets are tightly fixed in the groove or on the groove plate according to the arrangement combination of the S pole pair S pole and the N pole pair N pole by adopting the groove or the groove plate.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, and it should be noted that variations and modifications could be made by those skilled in the art without departing from the spirit of the invention, which would fall within the scope of the invention as defined by the appended claims.

Claims (1)

1. A combined magnet array with enhanced field strength, characterized in that: comprising the following steps:

magnet: the magnets are tubular, the number of the magnets is even, every two magnets are connected end to end along the same polarity of the axle center, and the magnets are magnetized in the transverse direction;

a connecting shaft; the connecting shaft penetrates through the magnet, and nuts or locking locks for fixing the magnet are arranged at two ends of the connecting shaft.

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