CN206181513U - Portable laminar flow plasma generator - Google Patents
Portable laminar flow plasma generator Download PDFInfo
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- CN206181513U CN206181513U CN201621091088.3U CN201621091088U CN206181513U CN 206181513 U CN206181513 U CN 206181513U CN 201621091088 U CN201621091088 U CN 201621091088U CN 206181513 U CN206181513 U CN 206181513U
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- plasma generator
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- laminar flow
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Abstract
The utility model belongs to when the ion device field, specifically be a plasma generator, especially relate to a portable laminar flow plasma generator, its characterized in that includes: negative pole, pipe inner anode, pipe external anode, cooling device, plasma jet export, anode insulating layer and plasma generator main part, negative pole, pipe inner anode, pipe external anode, cooling device, plasma jet export, anode insulating layer and plasma generator bulk phase link together, the negative pole sets up the inside in the plasma generator main part with pipe inner anode, pipe inner anode's inside is provided with one deck anode insulating layer, cooling device sets up the outside in the plasma generator main part, the plasma jet export sets up the one side in the plasma generator main part, pipe external anode sets up in the plasma jet export, the bottom of plasma generator main part still is provided with portable power, be provided with the mouth that charges on the portable power.
Description
Technical field
This utility model belongs to plasma apparatus field, specially a kind of plasma generator, more particularly to a kind of portable
Formula laminar flow plasma generator.
Background technology
Plasma state is the 4th state of material, the almost material of 99 ﹪ in universe(Still unacknowledged dark matter is not included)All
In plasma state.Plasma jet has similarity with general fluid on flow performance, with two kinds of flow regimes:Laminar flow
With turbulent flow.To a certain given fluid, when its flow velocity is less than a particular value, fluid makees well-regulated stratiform or the motion of a fluid stream shape,
Fluid particle does not have transverse movement, advances without interfering with each other between particle, and this liquid form is laminar flow;It is somebody's turn to do when rate of flow of fluid is more than
During value, the well-regulated motion of fluid is destroyed, and particle also has additional transverse movement, fluid in addition to main lengthwise movement
Particle staggeredly confusedly advances, and this liquid form is turbulent flow.
Plasma its temperature distribution range 1,000,000,000 K superhigh temperature then from the low temperature of 10 K to nuclear fusion plasma are simultaneously
Possess a series of peculiar properties, make plasma nano material production, new material synthesis, hot-working manufacture, smelt, probing,
The fields such as Coal Chemical Industry, junk process, material surface process, electronics, new forms of energy, military affairs, Aero-Space obtain extensively application.
In terms of plasma high-temperature thermal source, adopt using the quite varied arc plasma jet overwhelming majority at present
Turbulent flow form works, and this is determined by existing turbulent flow arc plasma jet generator technology and operation principle.Electric arc etc.
Ion generator is divided into two kinds of laminar flow and turbulent flow, and its key technology is generator architecture design.
In recent decades, the development of plasma generator and the exploitation of plasma diagnostics technology is achieved and huge entered
Exhibition, and the application in terms of plasma development is no longer limited to space flight and aviation with the emphasis of exploitation, but more turn to
The application of the industrial departments such as machinery, chemical industry, metallurgy, environmental protection, the particularly application in terms of materials processing and new material development.It is right
In the application of industrial productivity, it is desirable to which plasma generator has longer life-span and higher efficiency.But in Practical Project
Using in, plasma stream is presented complicated flow condition, particularly large scale, big flow, powerful industrial plasma
Turbulent flow is then usually in device.
Therefore, in commercial Application, it is desirable to which plasma jet is stably maintained at laminar condition, this is accomplished by assurance etc.
The links that gas ions are formed in generator, control has an impact the disturbance factor of arc stability, overcomes plasma
The turbulance of jet, just can produce high-temperature area length, energy attenuation it is slow and be evenly distributed, noise is little, be conducive to arc energy
Effectively utilizes and be easy to the plasma jet of technology controlling and process.
Utility model content
For above-mentioned deficiency of the prior art, this utility model provides a kind of portable laminar flow plasma generator.
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode, pipe inner anode, pipe outer anode, cooling
Device, plasma jet outlet, anode insulating layer and plasma generator main body, it is the negative electrode, pipe inner anode, pipe outer anode, cold
But device, plasma jet outlet, anode insulating layer and plasma generator main body are connected together, sun in the negative electrode and pipe
Pole is arranged on the inside of plasma generator main body, and the pipe inner anode is internally provided with one layer of anode insulating layer, described cold
But device is arranged on the outside of plasma generator main body, and the plasma jet outlet is arranged on the one of plasma generator main body
Side, the pipe outer anode is arranged in plasma jet outlet, and the bottom of the plasma generator main body is additionally provided with portable
Power supply, on the compact power charge port is provided with.
Due to compact power so that the scope of application of the present utility model is wider, under power-down mode, at field work all
Can normal work.
The plasma generator main body is internally provided with multiple negative electrodes.
The chiller is heat pipe.
The chiller includes cylindrical heat pipe or spiral type heat pipe.
The outlet shapes of the plasma jet outlet can be the polygon such as circle, rectangle, trapezoidal.
The anode insulating layer is temperature-resistant insulation layer.
The plasma generator main body is made up of heat-resistant basalt fibre material.
The compact power is that its operating voltage range of high pressure rechargeable battery pack is 36-380V.
The beneficial effects of the utility model:
1. the structure of laminar flow arc-plasma beam generator of the present utility model can realize laminar flow plasma high arc voltage,
The mode of operation of small current, structure is comparatively reasonable, can form laminar flow plasma jet.
2. the distribution of this utility model Anodic part and cathode portion, the formation of negative electrode ionization chamber contributes to stable etc.
Ionic fluid.
3. the laminar flow plasma jet excellent performance of generation of the present utility model, it is impossible to can with long-time steady operation, and
And the jet for producing has length length, energy density concentration, axial-temperature gradient is little, noise is low, controllability good, repeatable, essence
Spend high outstanding advantages.
4. multiple negative electrodes that this utility model is arranged, solve the problems, such as that the voltage of single negative electrode in prior art is excessive,
Extend the use time of negative electrode.
5. in this utility model, due to being provided with the chiller with heat pipe, wind-cooling heat dissipating of the prior art is contrasted
And water-cooling, chiller of the present utility model can allow the job stability and reliability of laminar flow plasma generator, from
And ensure that the stability of the laminar flow plasma produced from this utility model.
6. this utility model is due to carrying compact power so that the scope of application of the present utility model is wider, in power-off
Under pattern, at field work can normal work, substantially increase production efficiency, reduce the use of plasma generator into
This.
Description of the drawings
Fig. 1 is structure chart of the present utility model;
Reference
1. negative electrode, 2. pipe inner anode, 3. pipe outer anode, 4. chiller, 5. plasma jet outlet, 6. anode insulating layer,
7. plasma generator main body, 8. compact power, 9. charge port
Specific embodiment:
Embodiment 1:
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode 1, pipe inner anode 2, pipe outer anode 3,
The outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7, the negative electrode 1, pipe inner anode 2, pipe
Outer anode 3, the outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7 are connected together, institute
State negative electrode 1 and pipe inner anode 2 is arranged on the inside of plasma generator main body, the pipe inner anode 2 is internally provided with one layer
Anode insulating layer 6, the chiller 4 is arranged on the outside of plasma generator main body 7, and the plasma jet outlet 5 is arranged
In the side of plasma generator main body 7, the pipe outer anode 3 is arranged in plasma jet outlet 5, the plasma generator
The bottom of main body 7 is additionally provided with compact power 8, and charge port 9 is provided with the compact power 8.
Embodiment 2:
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode 1, pipe inner anode 2, pipe outer anode 3,
The outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7, the negative electrode 1, pipe inner anode 2, pipe
Outer anode 3, the outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7 are connected together, institute
State negative electrode 1 and pipe inner anode 2 is arranged on the inside of plasma generator main body, the pipe inner anode 2 is internally provided with one layer
Anode insulating layer 6, the chiller 4 is arranged on the outside of plasma generator main body 7, and the plasma jet outlet 5 is arranged
In the side of plasma generator main body 7, the pipe outer anode 3 is arranged in plasma jet outlet 5, the plasma generator
The bottom of main body 7 is additionally provided with compact power 8, and charge port 9 is provided with the compact power 8.
The plasma generator main body 7 is internally provided with multiple negative electrodes 1.
Embodiment 3:
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode 1, pipe inner anode 2, pipe outer anode 3,
The outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7, the negative electrode 1, pipe inner anode 2, pipe
Outer anode 3, the outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7 are connected together, institute
State negative electrode 1 and pipe inner anode 2 is arranged on the inside of plasma generator main body, the pipe inner anode 2 is internally provided with one layer
Anode insulating layer 6, the chiller 4 is arranged on the outside of plasma generator main body 7, and the plasma jet outlet 5 is arranged
In the side of plasma generator main body 7, the pipe outer anode 3 is arranged in plasma jet outlet 5, the plasma generator
The bottom of main body 7 is additionally provided with compact power 8, and charge port 9 is provided with the compact power 8.
The plasma generator main body 7 is internally provided with multiple negative electrodes 1.
The chiller 4 is heat pipe.
The chiller 4 includes cylindrical heat pipe or spiral type heat pipe.
The outlet shapes of the plasma jet outlet 5 can be the polygon such as circle, rectangle, trapezoidal.
Embodiment 4:
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode 1, pipe inner anode 2, pipe outer anode 3,
The outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7, the negative electrode 1, pipe inner anode 2, pipe
Outer anode 3, the outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7 are connected together, institute
State negative electrode 1 and pipe inner anode 2 is arranged on the inside of plasma generator main body, the pipe inner anode 2 is internally provided with one layer
Anode insulating layer 6, the chiller 4 is arranged on the outside of plasma generator main body 7, and the plasma jet outlet 5 is arranged
In the side of plasma generator main body 7, the pipe outer anode 3 is arranged in plasma jet outlet 5, the plasma generator
The bottom of main body 7 is additionally provided with compact power 8, and charge port 9 is provided with the compact power 8.
The plasma generator main body 7 is internally provided with multiple negative electrodes 1.
The chiller 4 is heat pipe.
The chiller 4 includes cylindrical heat pipe or spiral type heat pipe.
The outlet shapes of the plasma jet outlet 5 can be the polygon such as circle, rectangle, trapezoidal.
The anode insulating layer 6 is temperature-resistant insulation layer.
The plasma generator main body 7 is made up of heat-resistant basalt fibre material.
Embodiment 5:
A kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode 1, pipe inner anode 2, pipe outer anode 3,
The outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7, the negative electrode 1, pipe inner anode 2, pipe
Outer anode 3, the outlet 5, anode insulating layer 6 of chiller 4, plasma jet and plasma generator main body 7 are connected together, institute
State negative electrode 1 and pipe inner anode 2 is arranged on the inside of plasma generator main body, the pipe inner anode 2 is internally provided with one layer
Anode insulating layer 6, the chiller 4 is arranged on the outside of plasma generator main body 7, and the plasma jet outlet 5 is arranged
In the side of plasma generator main body 7, the pipe outer anode 3 is arranged in plasma jet outlet 5, the plasma generator
The bottom of main body 7 is additionally provided with compact power 8, and charge port 9 is provided with the compact power 8.
The plasma generator main body 7 is internally provided with multiple negative electrodes 1.
The chiller 4 is heat pipe.
The chiller 4 includes cylindrical heat pipe or spiral type heat pipe.
The outlet shapes of the plasma jet outlet 5 can be the polygon such as circle, rectangle, trapezoidal.
The anode insulating layer 6 is temperature-resistant insulation layer.
The plasma generator main body 7 is made up of heat-resistant basalt fibre material.
The compact power 8 is that its operating voltage range of high pressure rechargeable battery pack is 36-380V.
Claims (8)
1. a kind of portable laminar flow plasma generator, it is characterised in that include:Negative electrode (1), pipe inner anode (2), pipe outer anode
(3), chiller (4), plasma jet outlet (5), anode insulating layer (6) and plasma generator main body (7), the negative electrode
(1), pipe inner anode (2), pipe outer anode (3), chiller (4), plasma jet outlet (5), anode insulating layer (6) and plasma
Generator main body (7) is connected together, and the negative electrode (1) and pipe inner anode (2) are arranged on the interior of plasma generator main body
Portion, the pipe inner anode (2) is internally provided with one layer of anode insulating layer (6), and the chiller (4) is arranged on plasma and sends out
The outside of raw device main body (7), plasma jet outlet (5) is arranged on the side of plasma generator main body (7), outside the pipe
Anode (3) is arranged on plasma jet outlet (5), and the bottom of the plasma generator main body (7) is additionally provided with portable electric
Source (8), on the compact power (8) charge port (9) is provided with.
2. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The plasma generator
Main body (7) is internally provided with multiple negative electrodes (1).
3. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The chiller (4)
For heat pipe.
4. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The chiller (4)
Including cylindrical heat pipe or spiral type heat pipe.
5. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The plasma jet outlet
(5) outlet shapes can be the polygon such as circle, rectangle, trapezoidal.
6. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The anode insulating layer
(6) it is temperature-resistant insulation layer.
7. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The plasma generator
Main body (7) is made up of heat-resistant basalt fibre material.
8. a kind of portable laminar flow plasma generator according to claim 1, it is characterised in that:The compact power
(8) for high pressure rechargeable battery pack, its operating voltage range is 36-380V.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621091088.3U CN206181513U (en) | 2016-09-29 | 2016-09-29 | Portable laminar flow plasma generator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621091088.3U CN206181513U (en) | 2016-09-29 | 2016-09-29 | Portable laminar flow plasma generator |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206181513U true CN206181513U (en) | 2017-05-17 |
Family
ID=58677991
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621091088.3U Active CN206181513U (en) | 2016-09-29 | 2016-09-29 | Portable laminar flow plasma generator |
Country Status (1)
Country | Link |
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CN (1) | CN206181513U (en) |
-
2016
- 2016-09-29 CN CN201621091088.3U patent/CN206181513U/en active Active
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