CN110415836A - High sound pressure reaction system - Google Patents

Abstract

The invention discloses a kind of high sound pressure reaction systems, including the high sound pressure chamber for generating high sound pressure, high sound pressure is intracavitary to be provided with ultrasonic transducer and reaction chamber, reaction chamber is located at the acoustic pressure focal regions of ultrasonic transducer, reaction chamber is used to accommodate the raw material deuteron and/or triton of nuclear fusion reaction, the chamber wall that the ultrasonic wave of ultrasonic transducer transmitting can penetrate reaction chamber is applied to the material in reaction chamber, high sound pressure reaction system further include: for the neutron detection device of the intracavitary neutron of detection reaction, neutron detection device be set to that high sound pressure is intracavitary or high sound pressure chamber outside.A possibility that sound causes nuclear fusion reaction to occur can be improved in high sound pressure reaction system of the invention, is effectively utilized high hydrostatic pressure force environment cavitation bubble and ruptures discharged energy, under high sound pressure environment, accurately, effectively detects the neutron of reaction process release.

Description

High sound pressure reaction system

Technical field

The invention belongs to ultrasonic technology fields, and in particular to a kind of high sound pressure reaction system.

Background technique

The fusion of nuclear fusion, also known as core, fusion reaction or fusion reaction, be two lighter cores are combined and formation one compared with A kind of nuclear reaction form of the core of weight and a very light core (or particle).Deuteron and triton are the optimum fuels of nuclear fusion.Sound Nuclear fusion is caused to refer to that under the action of high-intensitive sound wave, deuteron is in conjunction with deuteron or deuteron generates heavier atom in conjunction with triton The process of core.Higher hydrostatic pressure can be improved sound wave effect space-time bubble and rupture discharged energy, cause nuclear reaction for sound Igniting more energy are provided, be greatly promoted the generation that sound causes nuclear reaction.However current sound cause nuclear fusion reaction and Neutron detection system carries out in atmospheric pressure environment mostly, not yet in effect to steep what rupture was discharged using high hydrostatic pressure force environment cavitation Energy.

Summary of the invention

The technical problem to be solved by the present invention is to aiming at the above shortcomings existing in the prior art, provide high sound pressure reaction System solves under high sound pressure environment, and sound causes the neutron detection problem of nuclear fusion reaction.

It solves technical solution used by present invention problem and is to provide a kind of high sound pressure reaction system, including for producing The high sound pressure chamber of raw high sound pressure, high sound pressure is intracavitary to be provided with ultrasonic transducer and reaction chamber, and reaction chamber is located at ultrasonic transducer Acoustic pressure focal regions, reaction chamber are used to accommodate the raw material deuteron and/or triton of nuclear fusion reaction, the ultrasonic energy of ultrasonic transducer transmitting The chamber wall for enough penetrating reaction chamber is applied to material in reaction chamber, high sound pressure reaction system further include: is used for detection reaction chamber The neutron detection device of interior neutron, neutron detection device be set to that high sound pressure is intracavitary or high sound pressure chamber outside.

Preferably, when to be set to high sound pressure intracavitary for neutron detection device, neutron detection device include neutron detector and The high voltage bearing protection shell being set to outside neutron detector.

Preferably, neutron detection device further includes the first connector, connecting line, the second connector, the chamber of high sound pressure chamber The first connector through-hole is offered on locular wall, is provided with the first connector in the first connector through-hole, and the first connector includes the A connector first port, the first connector second port, the first connector first port with high sound pressure is intracavitary is connected to, first connects It connects and is connected to outside device second port and high sound pressure chamber, the second connector is set on protection shell, and the first connector first port is logical It crosses connecting line to be electrically connected with the second connector, the second connector is electrically connected with neutron detector.

Preferably, the first connector is the first aviation socket, and the second connector is the second aviation socket.

Preferably, when the middle period of the day from 11 p.m. to 1 a.m in neutron detection reaction chamber, reaction chamber is located at the center of high sound pressure chamber, The alignment probe reaction chamber of neutron detection device.

Preferably, it when neutron detection device is set to outside high sound pressure chamber, offers on the cavity of high sound pressure chamber for visiting The detection window of neutron is surveyed, detection window is provided with the detecting window for neutron detection, the probing light energy of neutron detection device Enough penetrate the test surface of detecting window.

Preferably, the material of the test surface of detecting window is aluminium or stainless steel.

Preferably, detecting window includes fixed part and the recessed portion that connect with fixed part, and fixed part is for consolidating detecting window Due to detection window, the bottom surface of recessed portion is test surface, is used to accommodate the probe of neutron detection device in the groove of recessed portion.

Preferably, ultrasonic transducer includes shell and the trigger mechanism for emitting ultrasonic wave for being set to outer shell outer wall, hair The surface of emission for penetrating mechanism surrounds resonant cavity, and resonant cavity is provided with resonant cavity detection opening, and the periphery of resonant cavity detection opening is corresponding Ultrasonic transducer shell outer wall and test surface face face paste close, resonant cavity detection is open corresponding test surface.

Preferably, the high sound pressure reaction system further includes the controller being set to outside high sound pressure chamber, controller with Neutron detection device electrical connection.

Preferably, the high sound pressure reaction system further includes movement mechanism, and movement mechanism is for clamping reaction chamber shifting Move or leave the acoustic pressure focal regions of ultrasonic transducer.

Preferably, ultrasonic transducer includes the trigger mechanism for emitting ultrasonic wave, and the surface of emission of trigger mechanism surrounds spherical shape Resonant cavity, resonant cavity be provided with resonant cavity opening, reaction chamber by resonant cavity opening pass in and out resonant cavity.

It preferably, is greater than 10 for the high sound pressure of the high sound pressure chamber of high sound pressure⁶Pa。

Preferably, the substrate of reaction chamber is polytetrafluoroethylene (PTFE).The substrate of reaction chamber is smaller to the propagation effect of ultrasonic wave.

High sound pressure reaction system of the invention can be improved a possibility that sound causes nuclear fusion reaction to occur, be effectively utilized High hydrostatic pressure force environment cavitation bubble ruptures discharged energy and accurately, effectively detects reaction process under high sound pressure environment The neutron of release.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the high sound pressure reaction system in the embodiment of the present invention 2；

Fig. 2 is the structural schematic diagram of the high sound pressure reaction system in the embodiment of the present invention 3.

In figure: 1- high sound pressure chamber；2- ultrasonic transducer；3- reaction chamber；4- neutron detector；5- protects shell；6- electricity Module；The first connector of 7-；8- connecting line；The second connector of 9-；10- movement mechanism；11- trigger mechanism；12- resonant cavity is opened Mouthful；13- detection window；14- fixed part；15- recessed portion；The bottom surface of 16- recessed portion；17- shell；18- resonant cavity detection opening； 19- neutron detection device；20- probe.

Specific embodiment

Technical solution in order to enable those skilled in the art to better understand the present invention, with reference to the accompanying drawing and specific embodiment party Present invention is further described in detail for formula.

Embodiment 1

The present embodiment provides a kind of high sound pressure reaction systems, including the high sound pressure chamber for generating high sound pressure, high sound pressure chamber It is inside provided with ultrasonic transducer and reaction chamber, reaction chamber is located at the acoustic pressure focal regions of ultrasonic transducer, and reaction chamber is poly- for accommodating core Become the raw material deuteron and/or triton of reaction, the chamber wall that the ultrasonic wave of ultrasonic transducer transmitting can penetrate reaction chamber is applied to Material in reaction chamber, high sound pressure reaction system further include: for the neutron detection device of the intracavitary neutron of detection reaction, neutron is visited Survey device be set to that high sound pressure is intracavitary or high sound pressure chamber outside.

A possibility that sound causes nuclear fusion reaction to occur, effective use can be improved in the high sound pressure reaction system of the present embodiment High hydrostatic pressure force environment cavitation bubble ruptures discharged energy, and under high sound pressure environment, accurately, effectively detection was reacted The neutron of journey release.

Embodiment 2

As shown in Figure 1, the present embodiment provides a kind of high sound pressure reaction system, including the high sound pressure chamber for generating high sound pressure 1, ultrasonic transducer 2 and reaction chamber 3 are provided in high sound pressure chamber 1, and reaction chamber 3 is located at the acoustic pressure focal regions of ultrasonic transducer 2, reaction Chamber 3 is used to accommodate the raw material deuteron and/or triton of nuclear fusion reaction, and the ultrasonic wave that ultrasonic transducer 2 emits can penetrate reaction The chamber wall of chamber 3 is applied to the material in reaction chamber 3, high sound pressure reaction system further include: for neutron in detection reaction chamber 3 Neutron detection device 19, neutron detection device 19 are set in high sound pressure chamber 1.

It preferably, is greater than 10 for the high sound pressure of the high sound pressure chamber of high sound pressure⁶Pa。

A possibility that sound causes nuclear fusion reaction to occur, effective use can be improved in the high sound pressure reaction system of the present embodiment High hydrostatic pressure force environment cavitation bubble ruptures discharged energy, and under high sound pressure environment, accurately, effectively detection was reacted The neutron of journey release.

It should be noted that the neutron detection device 19 in the present embodiment is set in high sound pressure chamber 1, neutron detection device 19 include neutron detector 4 and the high voltage bearing protection shell 5 being set to outside neutron detector 4.Specifically, neutron detector 4 Electrical module 6 be packaged in protection shell 5 in.

It should be noted that the neutron detection device 19 in the present embodiment further includes the first connector 7, connecting line 8, second Connector 9 offers the first connector through-hole on the chamber wall of high sound pressure chamber 1, is provided with the first company in the first connector through-hole Device 7 is connect, the first connector 7 includes the first connector first port, the first connector second port, the first connector first port It is connected to, is connected to outside the first connector second port and high sound pressure chamber 1, the second connector 9 is set to protective shell in high sound pressure chamber 1 On body 5, the first connector first port is electrically connected by connecting line 8 with the second connector 9.

First connector 7 is electrically connected by connecting line 8 with the second connector 9, the second connector 9 and 4 electricity of neutron detector Connection.

Specifically, the first connector 7 is the first aviation socket, the second connector 9 is the second aviation socket, and connecting line 8 is Deep water cable.

Preferably, when the middle period of the day from 11 p.m. to 1 a.m in 19 detection reaction chamber 3 of neutron detection device, reaction chamber 3 is located at high sound pressure chamber 1 The probe 20 at center, neutron detection device 19 is directed at reaction chamber 3.

It should be noted that the high sound pressure reaction system in the present embodiment further includes the control being set to outside high sound pressure chamber 1 Device, controller are electrically connected with neutron detection device 19.Specifically, the controller in the present embodiment is electrically connected with the first connector 7, It may be implemented remotely to control the neutron detection device 19 in high sound pressure chamber 1 by controller, to be effectively protected The safety of experimenter.First connector second port is also used to be electrically connected the controller outside high sound pressure chamber 1.

It should be noted that the high sound pressure reaction system in the present embodiment further includes movement mechanism 10, movement mechanism 10 is used The acoustic pressure focal regions of ultrasonic transducer 2 are moved to or left in clamping reaction chamber 3.

It should be noted that the ultrasonic transducer 2 in the present embodiment includes the trigger mechanism 11 of transmitting ultrasonic wave, transmitter The surface of emission of structure 11 surrounds spherical resonant cavity, and resonant cavity is provided with resonant cavity opening 12, and reaction chamber 3 passes through resonant cavity opening 12 Pass in and out resonant cavity.Specifically, the resonant cavity in the present embodiment is provided with resonant cavity detection opening 18, neutron detector 4 passes through humorous Vibration chamber detection opening 18 enters in resonant cavity, detects to the neutron of the reaction chamber 3 in resonant cavity.Movement mechanism 10 clamps Reaction chamber 3 is entered in resonant cavity by resonant cavity opening 12.

It should be noted that the substrate of the reaction chamber 3 in the present embodiment is polytetrafluoroethylene (PTFE), the substrate of reaction chamber 3 is to super The propagation effect of sound wave is smaller.

Embodiment 3

As shown in Fig. 2, the present embodiment provides a kind of high sound pressure reaction system, including the high sound pressure chamber for generating high sound pressure 1, ultrasonic transducer 2 and reaction chamber 3 are provided in high sound pressure chamber 1, and reaction chamber 3 is located at the acoustic pressure focal regions of ultrasonic transducer 2, reaction Chamber 3 is used to accommodate the raw material deuteron and/or triton of nuclear fusion reaction, and the ultrasonic wave that ultrasonic transducer 2 emits can penetrate reaction The chamber wall of chamber 3 is applied to the material in reaction chamber 3, high sound pressure reaction system further include: for neutron in detection reaction chamber 3 Neutron detection device 19, neutron detection device 19 are set to outside high sound pressure chamber 1.

It should be noted that the neutron detection device 19 in the present embodiment is set to outside high sound pressure chamber 1, high sound pressure chamber 1 The detection window 13 for detecting neutron is offered on cavity, detection window 13 is provided with the detecting window for neutron detection, in The probing light of sub- detection device 19 can penetrate the test surface of detecting window.

Preferably, the material of the test surface of detecting window is aluminium or stainless steel.Specifically, detecting window in the present embodiment The material of test surface is aluminium.Neutron penetrability in aluminium is more preferable.

It should be noted that the detecting window in the present embodiment includes fixed part 14 and the recessed portion that connect with fixed part 14 15, fixed part 14 is used to for detecting window being fixed on detection window 13, and the bottom surface of recessed portion 15 is test surface, the groove of recessed portion 15 The interior probe 20 for being used to accommodate neutron detection device 19.The bottom surface of recessed portion 15 relative to high sound pressure chamber wall closer to reaction Chamber 3.Recessed portion 15 not only to a certain extent can the probe 20 to neutron detection device 19 protection is fixed, but also can So that probe 20 is closer to reaction chamber 3.

It should be noted that the ultrasonic transducer 2 in the present embodiment includes that shell surpasses with the transmitting for being set to outer shell outer wall The trigger mechanism 11 of sound wave, the surface of emission of trigger mechanism 11 surround resonant cavity, and resonant cavity is provided with resonant cavity detection opening 18, humorous The outer wall and test surface face face paste of the shell of the corresponding ultrasonic transducer 2 in periphery for chamber detection opening 18 of shaking close, resonant cavity detection The corresponding test surface of opening 18.It is closed by face face paste, can preferably position ultrasonic transducer 2, and probe 20 can be made more Add close to reaction chamber 3.

It should be noted that the high sound pressure reaction system in the present embodiment further includes the control being set to outside high sound pressure chamber 1 Device, controller are electrically connected with neutron detection device 19.

It should be noted that the high sound pressure reaction system in the present embodiment further includes movement mechanism 10, movement mechanism 10 is used The acoustic pressure focal regions of ultrasonic transducer 2 are moved to or left in clamping reaction chamber 3.

It should be noted that the resonant cavity in the present embodiment is provided with resonant cavity opening 12, reaction chamber 3 is opened by resonant cavity Mouth 12 passes in and out resonant cavities.It is entered specifically, the movement mechanism 10 in the present embodiment clamps reaction chamber 3 by resonant cavity opening 12 In resonant cavity.

It is understood that the principle that embodiment of above is intended to be merely illustrative of the present and the exemplary implementation that uses Mode, however the present invention is not limited thereto.For those skilled in the art, essence of the invention is not being departed from In the case where mind and essence, various changes and modifications can be made therein, these variations and modifications are also considered as protection scope of the present invention.

Claims (12)

1. a kind of high sound pressure reaction system, which is characterized in that including the high sound pressure chamber for generating high sound pressure, high sound pressure is intracavitary to be set It is equipped with ultrasonic transducer and reaction chamber, reaction chamber is located at the acoustic pressure focal regions of ultrasonic transducer, and reaction chamber is anti-for accommodating nuclear fusion The raw material deuteron and/or triton answered, the chamber wall that the ultrasonic wave of ultrasonic transducer transmitting can penetrate reaction chamber are applied to reaction Intracavitary material, high sound pressure reaction system further include: for the neutron detection device of the intracavitary neutron of detection reaction, neutron detection dress Install be placed in that high sound pressure is intracavitary or high sound pressure chamber outside.

2. high sound pressure reaction system according to claim 1, which is characterized in that when neutron detection device is set to high sound pressure Intracavitary, neutron detection device includes neutron detector and the high voltage bearing protection shell that is set to outside neutron detector.

3. high sound pressure reaction system according to claim 2, which is characterized in that neutron detection device further includes the first connection Device, connecting line, the second connector, offer the first connector through-hole on the chamber wall of high sound pressure chamber, in the first connector through-hole It is provided with the first connector, the first connector includes the first connector first port, the first connector second port, the first connection Device first port with high sound pressure is intracavitary is connected to, be connected to outside the first connector second port and high sound pressure chamber, the second connector is arranged In on protection shell, the first connector first port is electrically connected by connecting line with the second connector, the second connector and neutron Detector electrical connection.

4. high sound pressure reaction system according to claim 3, which is characterized in that the first connector is the first aviation socket, Second connector is the second aviation socket.

5. according to high sound pressure reaction system described in claim 2~4 any one, which is characterized in that work as neutron detection device The intracavitary middle period of the day from 11 p.m. to 1 a.m of detection reaction, reaction chamber are located at the center of high sound pressure chamber, the alignment probe reaction chamber of neutron detection device.

6. high sound pressure reaction system according to claim 1, which is characterized in that when neutron detection device is set to high sound pressure Outside chamber, the detection window for detecting neutron is offered on the cavity of high sound pressure chamber, detection window is provided with for neutron detection Detecting window, the probing light of neutron detection device can penetrate the test surface of detecting window.

7. high sound pressure reaction system according to claim 6, which is characterized in that the material of the test surface of detecting window be aluminium or Stainless steel.

8. high sound pressure reaction system according to claim 6, which is characterized in that detecting window includes fixed part and and fixed part The recessed portion of connection, fixed part are used to detecting window being fixed on detection window, and the bottom surface of recessed portion is test surface, recessed portion it is recessed For accommodating the probe of neutron detection device in slot.

9. high sound pressure reaction system according to any one of claims 6 to 8, which is characterized in that ultrasonic transducer includes Shell and the trigger mechanism for emitting ultrasonic wave for being set to outer shell outer wall, the surface of emission of trigger mechanism surround resonant cavity, resonant cavity It is provided with resonant cavity detection opening, the outer wall and test surface of the shell of the corresponding ultrasonic transducer in periphery of resonant cavity detection opening Face face paste is closed, and resonant cavity detection, which is open, corresponds to test surface.

10. according to claim 1~4, high sound pressure reaction system described in 6~8 any one, which is characterized in that further include setting The controller being placed in outside high sound pressure chamber, controller are electrically connected with neutron detection device.

11. according to claim 1~4, high sound pressure reaction system described in 6~8 any one, which is characterized in that further include fortune Motivation structure, movement mechanism is for clamping the acoustic pressure focal regions that reaction chamber was moved to or left ultrasonic transducer.

12. according to claim 1~4, high sound pressure reaction system described in 6~8 any one, which is characterized in that ultrasonic transduction Device includes the trigger mechanism for emitting ultrasonic wave, and the surface of emission of trigger mechanism surrounds spherical resonant cavity, and resonant cavity is provided with resonance Chamber opening, reaction chamber are open by resonant cavity and pass in and out resonant cavity.