阅读说明：本技术 管状铁芯及其应用方法 (Tubular iron core and application method thereof ) 是由 赵继广 朱建云 于 2020-04-10 设计创作，主要内容包括：本发明公布了管状铁芯及其应用方法,本发明涉及电磁感应领域,本发明公布了管状铁芯这一新的铁芯形式,同时公布了应用管状铁芯增大产生感生电场的方法；本发明包括以下几个部分：将带绝缘层的导线平行于管状铁芯中心线沿管壁内外缠绕在管状铁芯上,将缠绕导线通以变化电流,管状铁芯会起到增大产生感生电场的作用；将管状铁芯套在变化电流上,管状铁芯会起到增大产生感生电场的作用；利用管状铁芯增大产生感生电场的方法,本发明创新了一种制作直线带电粒子感应加速器的方法,创新了一种利用交流电产生感应交流电的方法。(The invention discloses a tubular iron core and an application method thereof, relates to the field of electromagnetic induction, and discloses a new iron core form of the tubular iron core and a method for increasing the induced electric field by applying the tubular iron core; the invention comprises the following parts: winding a wire with an insulating layer on the tubular iron core along the inner part and the outer part of the pipe wall in parallel to the central line of the tubular iron core, and electrifying the wound wire with variable current, wherein the tubular iron core can play a role in increasing the generated induced electric field; the tubular iron core is sleeved on the changing current, and the tubular iron core can play a role in increasing the generated induced electric field; the invention discloses a method for producing a linear charged particle induction accelerator and a method for producing induction alternating current by using alternating current.)

1. Tubular iron core, its characterized in that: the tubular iron core (1) is tubular and is a non-solid iron core.

2. The tubular core of claim 1, wherein: comprising a tubular core (1) for increasing the generation of an induced electric field.

3. The application method of the tubular iron core is characterized in that:

the application method 1: uniformly winding a lead (2) with an insulating layer inside and outside the pipe wall of a straight pipe-shaped iron core (1) with a uniformly smooth pipe wall, wherein the lead (2) is densely wound along the pipe wall in a cavity, and the lead (2) in the cavity is parallel to the central line of the pipe-shaped iron core (1); the number of winding layers of the wire (2) is at least one; when the current changes in the lead (2), the charged particles at the central line position of the tubular iron core (1) can be accelerated under the action of the induced electric field in the cavity due to the induced electric field generated by the changed current, so that the linear charged particle induction accelerator can be manufactured.

4. The application method of the tubular iron core is characterized in that:

the application method 2 comprises the following steps: sleeving a straight tubular iron core (1) with a uniform and smooth pipe wall on an even number of parallel wires (2), wherein the wires (2) are symmetrical about the central line of the tubular iron core (1); when the same changing current exists in each lead (2), the charged particles at the central line position in the cavity of the tubular iron core (1) can be accelerated under the action of an induced electric field in the cavity due to the induced electric field generated by the changing current, so that the linear charged particle induction accelerator can be manufactured.

5. The application method of the tubular iron core is characterized in that:

the application method 3: the tubular iron core (1) is sleeved on a lead (2) for transmitting alternating current and an induced lead, and induced alternating current is generated in an increased mode in an induced lead loop.

6. The application method of the tubular iron core is characterized in that:

the application method 4 comprises the following steps: the tubular iron core (1) is sleeved on other elements generating the induced electric field, so that the induced electric field can be increased.

Technical Field

The invention relates to form research and application research and development of an iron core, relates to increase and generation of an induced electric field by utilizing a tubular iron core, relates to innovative manufacture of a linear charged particle induction accelerator, and relates to generation of induced alternating current by utilizing alternating current.

Background

The research on the iron core and the application of the theory of generating the induced electric field by the change current are the basis of the invention, and the theory of generating the induced electric field by the change current is shown in the theory of generating the induced electric field by the change current [ J ] scientific wind, 2019 (02): 248. the current commonly used theory for generating the induced electric field is that the changing magnetic field generates the electric field.

The iron core is an important element for increasing the generation of the induced electric field, and the iron core has an essential role in the betatron to increase the generation of the induced electric field. The invention innovates the application form and the application method of the iron core, the shape of the iron core of the invention is different from the iron core of the electronic induction accelerator, the iron core of the invention is in a hollow tubular form, and the invention uses the tubular iron core to increase and generate the induced electric field. The invention discloses a method for manufacturing a linear induction accelerator and a method for generating induction alternating current by innovating an application form and an application method of an iron core. Compared with the electronic induction accelerator, the method for manufacturing the linear charged particle induction accelerator according to the method for increasing the generated induced electric field by the tubular iron core is essentially characterized in that the induced electric field generated by the tubular iron core is circular, but the induced electric field used by the electronic induction accelerator is linear, so that the defects of the electronic induction accelerator caused by nonlinear acceleration of charged particles are overcome; the method for generating the induction alternating current by using the alternating current, which is invented according to the principle that the tubular iron core increases the generated induction electric field, increases the generated induction alternating current compared with the same condition that the tubular iron core is not used.

Disclosure of Invention

The invention aims to provide a tubular iron core and an application method thereof, which are used for increasing the generation of an induced electric field.

The invention adopts the following technical scheme:

the tubular iron core is a non-solid iron core and is in a tubular shape.

Further, the tubular iron core is used for increasing the generation of the induced electric field.

Application method of tubular iron core 1: uniformly winding a wire with an insulating layer inside and outside a straight tubular iron core tube wall with a smooth tube wall, wherein the wire is densely wound along the tube wall in a cavity, and the wire in the cavity is parallel to the central line of the tubular iron core;

the winding layer number of the wire is at least one layer;

when the current changes in the lead, the charged particles at the center line position of the tubular iron core can be accelerated under the action of the induced electric field in the cavity due to the induced electric field generated by the changed current, so that the linear charged particle induction accelerator can be manufactured.

Application method of tubular iron core 2: sleeving a straight tubular iron core with a uniform and smooth pipe wall on even number of parallel wires, wherein the wires are symmetrical about the central line of the tubular iron core;

when the same changing current exists in each lead, the charged particles at the central line position in the cavity of the tubular iron core can be accelerated under the action of the induced electric field in the cavity due to the induced electric field generated by the changing current, so that the linear charged particle induction accelerator can be manufactured.

Application method of tubular iron core 3: the tubular iron core is sleeved on a lead for transmitting alternating current and an induced lead, and induced alternating current is generated in an increased mode in an induced lead loop.

Application method of tubular iron core 4: the induced electric field can be increased by sleeving the tubular iron core on other elements generating the induced electric field.

Compared with the prior art, the invention has the beneficial technical effects that:

the invention has innovated the application form and application method of the iron core, the iron core form of the invention is different from the iron core of the electronic induction accelerator, the iron core of the invention is the hollow tubular form, the invention increases and produces the induced electric field with the tubular iron core; the invention discloses a method for manufacturing a linear charged particle induction accelerator and a method for generating induction alternating current by innovating an application form and an application method of an iron core. Compared with the electronic induction accelerator, the method for manufacturing the linear charged particle induction accelerator according to the method for increasing the generated induced electric field by the tubular iron core is essentially characterized in that the induced electric field generated by the tubular iron core is circular, but the induced electric field used by the electronic induction accelerator is linear, so that the defects of the electronic induction accelerator caused by nonlinear acceleration of charged particles are overcome; the method for generating the induction alternating current by using the alternating current is invented according to the principle that the tubular iron core increases and generates the induction electric field, and compared with the same condition that the tubular iron core is not applied, the generated induction alternating current is multiplied by several times.

Drawings

The invention is further illustrated in the following description with reference to the drawings.

Fig. 1 is a schematic structural diagram of a tubular iron core according to an embodiment of the present invention;

fig. 2 is a schematic structural view illustrating a conductor uniformly wound inside and outside along a tube wall of a tubular core according to a second embodiment of the present invention;

fig. 3 is a diagram of a second embodiment of the present invention, which is used to show that the application of the tubular iron core can increase the generation of the induced electric field.

Fig. 4 is an experiment for verifying the secondary effect of the embodiment of the present invention, which is an experiment for increasing the induced electric field generated by using the solid iron core of the betatron, so as to compare with fig. 3 for increasing the induced electric field generated by using the tubular iron core.

Fig. 5 is a diagram illustrating an electron beam demonstration apparatus for verifying the moving direction of an electron beam when the electron beam is subjected to an induced electric field and a magnetic force of a current in the middle of a tubular iron core according to a second embodiment of the present invention.

Fig. 6 is an experimental examination of the direction of the induced electric field generated by the varying current according to the second embodiment of the present invention, which further illustrates the direction of the induced electric field in the tubular core cavity by further examining a new theory of the induced electric field generated by the varying current.

Fig. 7 is a study of the iron core by combining the theory of generating an induced electric field by applying a varying current in the third embodiment of the present invention, and the present invention provides a method for increasing the generated induced electric field by using a tubular iron core sleeve on a varying current, and a linear charged particle induction accelerator can be manufactured by using the method.

Fig. 8 is a study of the iron core in combination with the theory of generating an induced electric field by applying a varying current in the fourth embodiment of the present invention, and the present invention discloses a method for increasing the induced alternating current generated in the induced conductor by sleeving the tubular iron core on the alternating current and the induced conductor.

Fig. 9 is a diagram illustrating the effect of increasing the induced electric field generated by an open tubular iron core in the fourth embodiment of the present invention, so as to illustrate that the tubular iron core can be in various forms.

Fig. 10 is an illustration of the effect of increasing the induced electric field generated on the spring-type tubular iron core in the fourth embodiment of the present invention, so as to illustrate that the tubular iron core can be in various shapes and in various application manners.

Description of reference numerals: 1. a tubular iron core; 2. and (4) conducting wires.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.