CN203536350U

CN203536350U - Electromagnetic wave generating device

Info

Publication number: CN203536350U
Application number: CN201320711305.4U
Authority: CN
Inventors: 陆振民; 陆子野
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-11-12
Filing date: 2013-11-12
Publication date: 2014-04-09
Anticipated expiration: 2023-11-12

Abstract

The utility model discloses an electromagnetic wave generating device. The electromagnetic wave generating device comprises an electron generating part used for generating electrons and an injection part used for the electron generating part to inject the electrons. A direction changing part used for intercepting the injected electrons and changing the travelling directions of the injected electrons and a guiding part used for changing the speeds and travelling directions of the injected electrons are arranged inside the injection part, and one end, far away from the electron generating part, of the guiding part is an anode end. The utility model provides the electromagnetic wave generating device, and by means of multiple direction changing, the gathering of the electrons is facilitated when the electrons travel in the injection part, so that the electrons gather to a region in a relatively centralized manner after the electrons leave the injection part, and the number of received electrons in the unit area of the region is increased.

Description

Electromagnetic wave generating device

Technical field

The utility model relates to electromagnetism field, in particular to a kind of electromagnetic wave generating device, and a kind of multiple unit electromagnetic wave generator that uses this electromagnetic wave generating device.

Background technology

At present, conventional electromagnetic wave launcher is all simply by emission source by electron emission out.Because the electronics that emission source emits is outwards to propagate in the mode of scattering, therefore along with the increase of propagation distance, electronics is just overstepping the bounds of propriety loose in traveling process, thereby the region that can cause electronics finally to fall into is relatively wide, the relatively less problem of electron amount that electronics receiving area unit are receives.

Utility model content

The purpose of this utility model is to provide a kind of electromagnetic wave generating device that electronics is more gathered in running, to solve the problem that in prior art, electronics comparatively disperses in traveling process.

A kind of electromagnetic wave generating device is provided in embodiment of the present utility model, has comprised the electronics generating unit that electronics occurs; Incident section for described electronics generating unit incident electron; In described incident section, be provided with the break-in portion of tackling incident electron and changing incident electron direct of travel, and change the guide part of described incident electron speed and direct of travel, described guide part is anode tap away from one end of electronics generating unit.Incident section be electronics from electronics generating unit is sent and is left, the parts that enter.The electronics that electronics generating unit penetrates in incident section after a break-in of break-in portion, then after the speed and direction changing of guide part, to the anode direction of guide part, advance, and finally depart from incident section.

Described incident section is that radial section is trapezoidal hollow cylindrical metal body, the ejecting end that the larger one end of its diameter is incident electron, ejecting end is uncovered, the less one end of its diameter is incident electron injects end, the described end of injecting is for sealed end, and the middle part of its end face has pilot hole.Electronics in incident section after break-in portion refraction changes direction, negative line feed is to injecting end, and holds the inwall of end face to carry out secondary reflection injecting.

Described electronics generating unit comprises a guide channel, described in guide channel is inserted into, injects in the pilot hole of end.To guarantee that all electronics of launching from electronics generating unit can enter in incident section.

Described break-in portion is round metal cone, and the drift angle of cone points to the output of electronics generating unit, and the volume of cone can guarantee that the electronics in all incident sections can be stopped and change direct of travel by it.

Described break-in portion is fixed in described incident section by more than one support, and one end of described support and described break-in portion are fixed, and the other end and described incident section are fixed; Or described support is T shape, one end of its vertical portion and described break-in portion are fixed, and the other end and transverse part are fixed, and one end of transverse part and described electronics generating unit are fixed, and the other end and described incident section are fixed.By the fixing break-in portion of support, can reduce the barrier that touches in the process that electronics moves in incident section as far as possible.

Described guide part comprises the inductance coil being electrically connected to city, and alternating current is converted to direct current and transfers to the kenotron of anode tap, inductance coil and kenotron series connection.Civil power outputs to anode tap through inductance coil and high pressure Rectigon, thereby makes anode tap with positive high voltage, so it can guarantee that electronics all penetrates from the ejecting end of incident section.

Described anode tap is ring-type, between the anode tap of ring-type and the ejecting end of incident section, is provided with insulating part, and guide part is electrically connected to electronics generating unit.Anode tap is directly fixed on the end of ejecting end by insulating part.

Described inductance coil is connected with mains supply with after the parallel connection of described electronics generating unit again.

The multiple unit electromagnetic wave generator being comprised of electromagnetic wave generating device, comprises plural electromagnetic wave generating device.A plurality of electromagnetic wave generating devices are combined use, can produce Overlay.

The axis of the incident section of described electromagnetic wave generating device extends to outside described electromagnetic wave generating device, and intersects at a point, and the electronics that a plurality of electromagnetic wave generating devices penetrate all falls in the enclosed region of same hollow; Because a large amount of electronics fall in same interval, therefore electromagnetic Overlay is more obvious.The region that the electron institute that described hollow enclosed region penetrates for any single electromagnetic wave generating device falls into, because the electronics of each electromagnetic wave generating device falls into same region, therefore, Overlay now be the best.

The utility model provides a kind of electromagnetic wave generating device, repeatedly break-in by electronics in incident section, make in process that electronics advances in incident section, can more gather, thereby what make that electronics can relatively concentrate after leaving incident section gathers in a region, thereby increases the electron amount receiving in this area unit area.

Accompanying drawing explanation

Fig. 1 shows the schematic diagram of a kind of electromagnetic wave generating device provided by the utility model;

Fig. 2 shows the partial right side view of Fig. 1;

Fig. 3 shows the schematic diagram of a kind of multiple unit electromagnetic wave generator that the utility model provides;

Fig. 4 shows the partial right side view of Fig. 3;

Fig. 5 shows the partial left side view of Fig. 3.

Embodiment

Below by specific embodiment, also by reference to the accompanying drawings the utility model is described in further detail.

Referring to Fig. 1-Fig. 5, in figure, dotted line is the route that electronics is advanced.A kind of electromagnetic wave generating device 100 is provided in embodiment of the present utility model, has comprised the electronics generating unit 600 that electronics occurs; The incident section 200 of electronics generating unit incident electron; Change the guide part of incident electron speed; In incident section 200, be provided with the break-in portion 300 of tackling incident electron and changing incident electron direct of travel, guide part is anode tap 410 away from one end of electronics generating unit.Electronics generating unit 600 also can replace with in a stern voice wave producer.Incident section 200 is for electronics is from electronics generating unit 600 is sent and left, the parts that enter.The electronics that electronics generating unit 600 penetrates is interior after 300 break-ins of break-in portion in incident section 200, then after the speed and direction changing of guide part, to anode tap 410 directions of guide part, advances.Electronics, after twice break-in, under the impact of anode tap 410, finally departs from incident section 200.In whole process, because electronics is subject to the impact of anode tap 410, electronics extreme 410 deflections that can constantly face south in traveling process, so penetrate behind incident section 200 when electronics, the area of the opposed area that it falls into is less, the electron amount in unit are is more.

Incident section 200 for radial section be trapezoidal hollow cylindrical metal body, the ejecting end 220 that the larger one end of its diameter is incident electron, ejecting end is uncovered, injecting that the less one end of its diameter is incident electron holds 210, inject end for sealed end, the middle part of its end face has pilot hole.Electronics is interior in incident section 200 to be changed after direction through 300 refractions of break-in portion, and negative line feed holds 210 to injecting, and carries out secondary reflection at the inwall of injecting end end face.Electronics, after carrying out secondary reflection, continues towards incident section 200 ejecting end 220 and advances, and continue to be subject to the impact of anode tap 410 in this whole process, and the extreme deflection that faces south.

Electronics generating unit 600 comprises a guide channel 610, and guide channel is inserted in the pilot hole of injecting end 210.To guarantee that all electronics of launching from electronics generating unit 600 can enter in incident section 200.

Break-in portion 300 is round metal cone, the drift angle of cone points to electronics generating unit 600, the volume of cone can guarantee that the electronics in all incident sections 200 can be stopped by it and change direct of travel, and can be to electronics advancing to cause and stop after the secondary break-in through injecting end inwall.

Break-in portion 300 is fixed in incident section 200 by more than one support 310, and one end of support 310 and break-in portion 300 are fixing, and the other end and incident section 200 are fixing; Or support 310 is T shape, one end of its vertical portion and break-in portion 300 are fixing, and one end and transverse part are fixed, and one end of transverse part is fixed with electronics generating unit 600, and the other end and incident section 200 are fixed.By the fixing break-in portion 300 of support 310, can reduce electronics barrier that touches in the process of incident section 200 interior motions as far as possible, thereby cause the skew of electronics.

Guide part comprises the inductance coil being electrically connected to city, and alternating current is converted to direct current and transfers to the kenotron 400 of anode tap, inductance coil and kenotron 400 series connection.Civil power outputs to anode tap 410 through inductance coil and high pressure Rectigon, thereby makes anode tap with positive high voltage, because anode tap 410 is with positive high voltage, so it can guarantee that all 200 ejecting end 220 penetrates electronics from incident section.

Anode tap 410 is ring-type, between the anode tap of ring-type and the ejecting end 220 of incident section 200, is provided with insulating part 500, and guide part is electrically connected to electronics generating unit 600.Anode tap 410 is directly fixed on the end of ejecting end 220 by insulating part 500, guide part, insulating part 500 and anode tap 410 threes form a trumpet-shaped drum, and its peristome is anode tap 410, and injecting that its bottom is incident section 200 holds 210.

Inductance coil is connected with mains supply with after 600 parallel connections of electronics generating unit again.

The multiple unit electromagnetic wave generator being comprised of electromagnetic wave generating device 100, comprises more than one electromagnetic wave generating device 100.The shape of its arrangement is as quincunx or as the cross of Fig. 3-5.A plurality of electromagnetic wave generating devices are combined use can produce Overlay.

The axis of the incident section 200 of a plurality of electromagnetic wave generating devices extends to outside electromagnetic wave generating device, and intersects at a point.Thereby the electronics that a plurality of electromagnetic wave generating devices are penetrated all falls in the enclosed region of same hollow; Because a large amount of electronics fall in same interval, therefore electromagnetic Overlay is more obvious.

The region falling into when the electron institute that hollow enclosed region penetrates for any single electromagnetic wave generating device, because the electronics of each electromagnetic wave generating device falls into same region, therefore, the electron amount receiving in this area unit area is more, therefore, Overlay is now best.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims

1. an electromagnetic wave generating device, is characterized in that: comprise the electronics generating unit that electronics occurs; Incident section for described electronics generating unit incident electron; In described incident section, be provided with the break-in portion of tackling described incident electron and changing described incident electron direct of travel, and change the guide part of described incident electron speed and direct of travel, described guide part is anode tap away from one end of described electronics generating unit.

2. electromagnetic wave generating device according to claim 1, it is characterized in that: described incident section is that radial section is trapezoidal hollow cylindrical metal body, the ejecting end that the larger one end of its diameter is incident electron, ejecting end is uncovered, the less one end of its diameter is incident electron injects end, the described end of injecting is for sealed end, and the middle part of its end face has pilot hole.

3. electromagnetic wave generating device according to claim 2, is characterized in that: described electronics generating unit comprises a guide channel, described in guide channel is inserted into, injects in the pilot hole of end.

4. electromagnetic wave generating device according to claim 3, is characterized in that: described break-in portion is round metal cone, and the drift angle of cone points to the output of electronics generating unit.

5. electromagnetic wave generating device according to claim 4, is characterized in that: described break-in portion is fixed in described incident section by more than one support, and one end of described support and described break-in portion are fixed, and the other end and described incident section are fixed; Or described support is T shape, one end of its vertical portion and described break-in portion are fixed, and the other end and transverse part are fixed, and one end of transverse part and described electronics generating unit are fixed, and the other end and described incident section are fixed.

6. electromagnetic wave generating device according to claim 2, it is characterized in that: described guide part comprises the inductance coil being electrically connected to city, with alternating current is converted to direct current and transfers to the kenotron of anode tap, described inductance coil and the series connection of described kenotron.

7. electromagnetic wave generating device according to claim 6, is characterized in that: described anode tap is ring-type, and between the anode tap of ring-type and the ejecting end of incident section, be provided with insulating part, guide part is electrically connected to electronics generating unit.

8. electromagnetic wave generating device according to claim 6, is characterized in that: described inductance coil is connected with mains supply with after the parallel connection of described electronics generating unit again.

9. the multiple unit electromagnetic wave generator forming according to the electromagnetic wave generating device described in claim 1 to 8 any one, is characterized in that: it comprises plural electromagnetic wave generating device.

10. multiple unit electromagnetic wave generator according to claim 9, is characterized in that: the axis of the incident section of described electromagnetic wave generating device extends to outside described electromagnetic wave generating device, and intersects at a point.