CN1670904A - Making process of tritium luminotron - Google Patents

Making process of tritium luminotron Download PDF

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Publication number
CN1670904A
CN1670904A CN 200510063392 CN200510063392A CN1670904A CN 1670904 A CN1670904 A CN 1670904A CN 200510063392 CN200510063392 CN 200510063392 CN 200510063392 A CN200510063392 A CN 200510063392A CN 1670904 A CN1670904 A CN 1670904A
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tritium
glass tube
luminotron
titanium
sealing
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CN100394534C (en
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芦群胜
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Abstract

This invention discloses a tritium luminotron making process, which contains glass tube single end enveloping, putting in tritium adsorption titanium bar or corpus cavernosum, vacuumizing, enveloping glass tube end, releasing tritium and enveloping and cutting tritium luminotron without any tritium leakage in productive process.

Description

A kind of manufacture craft of tritium luminotron
Technical field
The present invention relates to the manufacture craft of the device of a kind of illumination of noctovision occasion and demonstration, relate in particular to a kind of manufacture craft of tritium luminotron.
Background technology
The illumination and the display device of the noctovision occasion of existing use power supply power supply are to convert electric field or magnetic excitation luminescent substance to by additional power source, by this material itself or fluorescence excitation material and luminous again.In use be subjected to the direct restriction of additional power source power supply.External power supply is depended in it luminous.Its power supply and power supply changeover device are to use separately in the process of using, and this will increase manufacturing cost and operating cost.The useful life of power-supply device and power supply changeover device, service condition have also limited the useful life and the service condition of luminous tube itself, as the display lamp and the display device of automobile instrument panel.
The illumination of existing power free noctovision occasion and display device also have employing photoinduced fluroscence powder (luminescent powder) luminous.Though it need not power supply, it luminous is subjected to luminous ray or ultraviolet irradiation or excites and send, and its luminous intensity is subjected to the restriction of extraneous light power, can not be luminous continuously, and as noctilucence pin in the wrist-watch and noctilucence point position.
The nuclear fuel tritium is called superheavy hydrogen again, is one of isotope of hydrogen, and the symbol of element is T or 3H.Its atomic nucleus is made up of a proton and two neutrons, and has radioactivity, and the β decay can take place, and its half-life is 12.43.The nuclear fuel tritium is mainly used in thermonuclear weapon.
Tritium can directly excite different fluorescent material and send the visible light of different wave length, the visible light that is produced is also bright, stable and lasting than the visible light that existing photoinduced fluroscence powder (luminescent powder) sends, through test, even in adverse circumstances, still can continually send stronger visible light, and luminous intensity is more than ten times of fluorescent material (luminescent powder) of luminescence generated by light, and the half-life of tritium is 12.3, so luminescent lifetime reached more than 10 years.The tritium radiation source is launched Beta-ray ceiling capacity and only is 18KeV, and average energy is 6KeV.β ray penetration capacity is very weak, and an aluminium foil just can stop, and is the epidermis that can not penetrate application on human skin less than the β ray of 70KeV, and therefore radiation is dangerous.
Its these special performances and advantage is that other light source can't be compared, so cause the numerous scientists' in the world interest, country such as America and Europe has just carried out a large amount of discussion research work from the sixties.And proposed to utilize the tritium gas excitation fluorescent material and the imagination of making luminescent device.
Up to the present, the manufacture craft of guarantee to produce, use not having the safety in production tritium luminotron that tritium gas leaks extremely, also unprecedented report.
Summary of the invention
The manufacture craft that the purpose of this invention is to provide no tritium gas leakage, safety in production tritium luminotron in a kind of manufacture process.
Technical scheme provided by the present invention is as follows:
A kind of tritium luminotron comprises the fluorescent coating 2 of glass tube 1, glass tube coated inner wall and fills tritium gas in luminous tube inner chamber 3.Its manufacture craft may further comprise the steps:
(a) scribble the selection of phosphor powder layer glass tube;
The fluorescent material that is coated with in the phosphor powder layer is to be the fluorescent material of matrix with ZnS.
According to the requirement of luminous tube physical dimension, select the hard refractory glass tube that scribbles phosphor powder layer of corresponding size for use, the size ratio of attached chamber 4 of glass tube and glass tube (tritium luminotron) inner chamber 3 is 1: 1; The glass tube length that scribbles phosphor powder layer is greater than more than the 2mm than the length sum of attached chamber 4 of glass tube and glass tube inner chamber 3.
(b) the port sealing-in of the attached chamber of glass tube side 4; Can use the flame welding to seal;
(c) the titanium rod or the titanium cavernous body 5 that will adsorb tritium gas inserted in the attached chamber of glass tube;
Select the volume and the heating-up temperature of titanium rod or titanium cavernous body, control discharges the amount of tritium gas, 1 milligram of titanium can adsorb the tritium of Curie's energy in theory, thereby discharge 0.4 milliliter tritium gas, the equal in length of titanium rod or titanium cavernous body and glass tube inner chamber (3), diameter can guarantee to discharge enough tritium gas amounts during less than the 0.2-0.4mm of glass tube internal diameter; (vacuum degree is 1 * 10 under vacuum condition -4Millimeter of mercury) heats to 250 ℃-350 ℃, can discharge tritium gas.
(d) vacuumize;
Insert vacuum system and vacuumize suction to 1 * 10 sealing glass tube single-ended and that in attached chamber 4, be placed with the titanium rod that adsorbed tritium gas or cavernous body -4Millimeter of mercury.
(e) the port vacuum flame sealing of glass tube (tritium luminotron) inner chamber 3 sides separates;
The glass tube of having taken out vacuum after carrying out the vacuum flame sealing with the flame sealing machine on the vacuum system, is separated from vacuum system.
(f) discharge tritium gas:
Use high-frequency heating apparatus 6 heating to be placed with the glass pipe end of titanium rod or titanium cavernous body,, tritium gas is fully discharged 250-350 ℃ of heating 1-2 minute.
(g) sealing-in is cut apart:
High-frequency heating apparatus keeps said temperature to continue heating, glass tube attached chamber 4 parts and the sealing-in of tritium luminotron part that will be equipped with titanium rod or titanium cavernous body with the flame sealing machine are cut apart, room temperature is placed in attached chamber after cutting apart 4, the surplus tritium gas is by titanium rod or titanium cavernous body absorption (tritium gas can be adsorbed by titanium rod or titanium cavernous body again when being lower than 150 ℃), reclaim in attached chamber 4, recycling, finished product tritium luminotron test package.
Preferred version of the present invention is: the fluorescent material that is coated with in the phosphor powder layer in the step (a) is to be the fluorescent material of matrix with ZnS; Scribbling the attached chamber 4 of phosphor powder layer glass tube and the size ratio of inner chamber 3 is 1: 1; The glass tube length that scribbles phosphor powder layer is greater than 2mm than the length sum of attached chamber 4 of glass tube and glass tube inner chamber 3.
A preferred version more of the present invention is: be that the flame sealing machine that adopts the mist of natural gas, hydrogen, oxygen carries out sealing-in, sealing-in is cut apart among step (b), (e), (g), guarantee that gas does not leak.
A preferred version more of the present invention is: the equal in length of titanium rod of inserting in the step (c) or titanium cavernous body (5) and glass tube inner chamber (3), diameter are less than the 0.2-0.4mm of glass tube internal diameter.
A preferred version more of the present invention is: step (d) is 1 * 10 for being evacuated to vacuum degree -4Millimeter of mercury.
A preferred version more of the present invention is: step (f) is placed with the glass pipe end of titanium rod or titanium cavernous body for using the high-frequency heating apparatus heating, 250 ℃-350 ℃ heating 1-2 minute, tritium gas is discharged fully.
A preferred version more of the present invention is: step (g) is when carrying out sealing-in and cut apart, and high-frequency heating apparatus keeps the temperature in the step (f), continues the glass pipe end that heating is placed with titanium rod or titanium cavernous body.
The overall dimension of tritium luminotron, diameter can be at 0.6-3mm, and length can be in the 3-30mm scope.
Adopt different fluorescent material can send the color light wave of respective wavelength.
Production technology of the present invention, the fluorescent material that has solved traditional luminescence generated by light can not continue problem luminous, that fluorescent lifetime is short, guarantees that each tritium luminotron is all luminous stable lasting.Because tritium luminotron manufacture craft of the present invention adopts the titanium rod or the titanium cavernous body that have adsorbed tritium gas to fill tritium gas, flame Sealing Technology, thereby guarantee the leakage that each tritium luminotron production is used does not all have tritium gas extremely, do not pollute, guaranteed the high security in manufacturing and the use.
The tritium luminotron application that the present invention produces is very extensive, and as civil area: the noctovision in wrist-watch, automobile instrument panel, household electrical appliances, appliance switch panel, all kinds of instrument and meter shows; Military field: the noctovision that the rifle of spacecraft, all kinds of battlebus, battleship, opportunity of combat, small arms is taken aim in system and all kinds of armament systems shows.
Tritium luminotron manufacture craft of the present invention has used the radioelement excitated fluorescent powder of this fail safe of tritium gas luminous, need not the power supply power supply, has saved manufacturing cost and operating cost, has expanded application and occasion.Because adopt tritium gas as the luminous material that excites, the half-life of tritium is 12.3, so more than 10 years, be that the common luminous tube life-span is incomparable the useful life of luminous tube.
The most outstanding effect of tritium luminotron manufacture craft of the present invention can be summarized as:
1. technology is simple, is convenient to make and produce in batches.
2. effectively controlled tritium gas in the manufacturing process to the pollution of gas charging system with guaranteed the aeration quantity of tritium gas.
3. guaranteed in the use safe and reliable pollution-free.
4. be convenient to the taking back and process of waste material.
Description of drawings
Fig. 1 is a tritium luminotron structural representation among the present invention; The fluorescent coating 3 tritium luminotron inner chambers of 1 glass tube, 2 glass tube coated inner wall
Fig. 2 is tritium luminotron manufacturing process steps (a) schematic diagram; The attached chamber of 4 glass tubes
Fig. 3 is tritium luminotron manufacturing process steps (b) schematic diagram;
Fig. 4 is tritium luminotron manufacturing process steps (c) schematic diagram; 5 titanium rods or titanium cavernous body
Fig. 5 is tritium luminotron manufacturing process steps (d) schematic diagram;
Fig. 6 is tritium luminotron manufacturing process steps (e) schematic diagram;
Fig. 7 is tritium luminotron manufacturing process steps (f) schematic diagram; 6 high-frequency heating apparatus
Fig. 8 is tritium luminotron manufacturing process steps (g) schematic diagram;
Embodiment
Further specify the present invention again with reference to accompanying drawing, therefore do not limit the present invention within the described scope of embodiments.
All adopt the flame sealing machine of the mist of natural gas, hydrogen, oxygen in following examples;
Embodiment one:
(a) scribble the selection of phosphor powder layer glass tube:
According to the size and the glow color requirement of tritium luminotron, selecting corresponding coating with ZnS for use is the glass tube of the fluorescent material of matrix; Coating the attached chamber 4 of glass tube of phosphor powder layer and the size ratio of tritium luminotron inner chamber 3 is 1: 1.
Selected glass tube (Changchun Inst. of Optics and Fine Mechanics, Chinese Academy of Sciences's production) size that coats phosphor powder layer (green): internal diameter 0.6mm length 10mm wall thickness 0.2mm
(b) the port sealing-in of the attached chamber of glass tube 4 sides: use the flame sealing machine to carry out single-ended sealing-in;
(c) the titanium rod or the titanium cavernous body 5 (Beijing atom high-tech is used limited company and produced) that will adsorb tritium gas inserted and sealed in the attached chamber 4 of single-ended glass tube:
The titanium rod of the absorption tritium gas of selecting for use: the long 3mm of diameter 0.4mm
(d) vacuumize:
Insert vacuum system and vacuumize sealing glass tube single-ended and be placed with the titanium rod that adsorbed tritium gas or cavernous body in attached chamber, being evacuated to vacuum degree is 1 * 10 -4Millimeter of mercury.
(e) the port vacuum flame sealing of glass tube (tritium luminotron) lumen side, separate:
The glass tube of having taken out vacuum after carrying out the vacuum flame sealing with the flame sealing machine on the vacuum system, is separated from vacuum system.
(f) discharge tritium gas:
Use high-frequency heating apparatus 6 heating to adsorb the titanium rod of tritium gas or the glass pipe end of titanium cavernous body,, tritium gas is fully discharged 250 ℃ of heating 1 minute.
(g) sealing-in is cut apart:
High-frequency heating apparatus 6 keeps said temperature, continue the glass pipe end that heating is placed with titanium rod or titanium cavernous body, use the flame sealing machine, the glass tube that is equipped with titanium rod or titanium cavernous body attached chamber 4 parts and the sealing-in of tritium luminotron part are cut apart, get the green tritium luminotron of 0.6mm * 3mm, room temperature is placed in attached chamber after cutting apart 4 reclaim finished product tritium luminotron test package.
Embodiment two:
(a) scribble the selection of phosphor powder layer glass tube:
According to the size and the color requirement of tritium luminotron, select the corresponding glass tube that coats fluorescent material (is matrix with ZnS) layer for use.Coating the attached chamber 4 of glass tube of phosphor powder layer and the size ratio of tritium luminotron inner chamber 3 is 1: 1.
Selected phosphor powder layer (blue look) glass tube (Shanghai Kerune Phosphor Technology Co., Ltd.'s product) size that coats: internal diameter 2mm length 35mm wall thickness 0.2mm;
(b) the port sealing-in of the attached chamber of glass tube 4 sides: use the flame sealing machine to carry out single-ended sealing-in;
(c) the titanium rod or the titanium cavernous body 5 (Beijing atom high-tech is used limited company and produced) that will adsorb tritium gas inserted and sealed in the attached chamber 4 of single-ended glass tube:
The titanium rod of the absorption tritium gas of selecting for use: the long 14mm of diameter 1.6mm
(d) vacuumize;
Vacuum degree is 1 * 10 -4Millimeter of mercury.Insert vacuum system and vacuumize sealing glass tube single-ended and be placed with the titanium rod that adsorbed tritium gas or cavernous body in attached chamber, being evacuated to vacuum degree is 1 * 10 -4Millimeter of mercury.
(e) the port vacuum flame sealing of glass tube (tritium luminotron) lumen side, separate:
The glass tube of having taken out vacuum on the vacuum system with after carrying out vacuum seal for the flame sealing maching, separate from vacuum system.
(f) discharge tritium gas:
Use high-frequency heating apparatus 6 heating to adsorb the titanium rod of tritium gas or the glass pipe end of titanium cavernous body,, tritium gas is fully discharged 280 ℃ of heating 1 minute.
(g) sealing-in is cut apart:
High-frequency heating apparatus keeps said temperature, continues the glass pipe end that heating is placed with titanium rod or titanium cavernous body.Use to be the flame sealing maching, the glass tube that is equipped with titanium rod or titanium cavernous body attached chamber 4 parts and the sealing-in of tritium luminotron part are cut apart, get the blue look tritium luminotron of 2mm * 14mm; Room temperature is placed in attached chamber after cutting apart 4 reclaim finished product tritium luminotron test package.
Embodiment three:
(a) scribble the selection of phosphor powder layer glass tube:
According to the size and the color requirement of tritium luminotron, select the corresponding glass tube that coats fluorescent material (is matrix with ZnS) layer for use.Coating the attached chamber 4 of glass tube of phosphor powder layer and the size ratio of tritium luminotron inner chamber 3 is 1: 1.
Selected glass tube (the Changchun Ke Run photoelectric material Co., Ltd) size that coats fluorescent material (redness) layer: internal diameter 3mm length 68mm wall thickness 0.5mm
(b) the port sealing-in of the attached chamber of glass tube 4 sides: use the flame sealing machine to carry out single-ended sealing-in;
(c) the titanium rod or the titanium cavernous body 5 (Beijing atom high-tech is used limited company and produced) that will adsorb tritium gas inserted and sealed in the attached chamber 4 of single-ended glass tube;
Select the titanium cavernous body of absorption tritium gas for use: the long 30mm of diameter 2.6mm;
(d) vacuumize:
Insert vacuum system and vacuumize sealing glass tube single-ended and be placed with the titanium rod that adsorbed tritium gas or titanium cavernous body in attached chamber, being evacuated to vacuum degree is 1 * 10 -4Millimeter of mercury.
(e) the port vacuum flame sealing of glass tube (tritium luminotron) lumen side, separate:
The glass tube of having taken out vacuum on the vacuum system with after carrying out vacuum seal for the flame sealing maching, separate from vacuum system.
(f) discharge tritium gas:
Use high-frequency heating apparatus 6 heating to adsorb the titanium rod of tritium gas or the glass pipe end of titanium cavernous body,, tritium gas is fully discharged 350 ℃ of heating 2 minutes.
(g) sealing-in is cut apart:
High-frequency heating apparatus keeps said temperature, continues the glass pipe end that heating is placed with titanium rod or titanium cavernous body.Use the flame sealing machine, the glass tube that is equipped with titanium rod or titanium cavernous body attached chamber 4 parts and the sealing-in of tritium luminotron part are cut apart, get the red tritium luminotron of 3mm * 30mm; Room temperature is placed in attached chamber after cutting apart 4 reclaim finished product tritium luminotron test package.

Claims (7)

1, a kind of tritium luminotron, comprise glass tube (1), glass tube coated inner wall phosphor powder layer (2), fill the tritium gas in tritium luminotron inner chamber (3), it is characterized in that described tritium luminotron manufacture craft may further comprise the steps:
(a) scribble the selection of phosphor powder layer glass tube;
(b) the port sealing-in of the attached chamber of glass tube (4) side;
(c) the titanium rod or the titanium cavernous body (5) that will adsorb tritium gas inserted in the attached chamber of glass tube;
(d) vacuumize;
(e) the port vacuum seal of glass tube inner chamber (3) side;
(f) discharge tritium gas;
(g) sealing-in is cut apart, and gets tritium luminotron.
2, the manufacture method of tritium luminotron according to claim 1 is characterized in that: the fluorescent material of the phosphor powder layer that is coated with is to be the fluorescent material of matrix with ZnS in the described step (a); Scribbling the attached chamber (4) of phosphor powder layer glass tube and the size ratio of inner chamber (3) is 1: 1; The glass tube length that scribbles phosphor powder layer is greater than 2mm than the length sum of attached chamber of glass tube (4) and glass tube inner chamber (3).
3, the manufacture method of tritium luminotron according to claim 1 and 2 is characterized in that: be that the flame sealing machine that adopts the mist of natural gas, hydrogen, oxygen carries out sealing-in, sealing-in is cut apart among described step (b), (e), (g).
4, the manufacture method of tritium luminotron according to claim 3 is characterized in that: the equal in length of titanium rod of inserting in the described step (c) or titanium cavernous body (5) and glass tube inner chamber (3), diameter are less than the 0.2-0.4mm of glass tube internal diameter.
5, the manufacture method of tritium luminotron according to claim 4 is characterized in that described step (d) is 1 * 10 for being evacuated to vacuum degree -4Millimeter of mercury.
6, the manufacture method of tritium luminotron according to claim 5, it is characterized in that: described step (f) is placed with the glass pipe end of titanium rod or titanium cavernous body for using the high-frequency heating apparatus heating, 250 ℃-350 ℃ heating 1-2 minute, tritium gas is discharged fully.
7, the manufacture method of tritium luminotron according to claim 6 is characterized in that: described step (g) medium-high frequency firing equipment keeps the temperature in the step (f), continues the glass pipe end that heating is placed with titanium rod or titanium cavernous body.
CNB2005100633927A 2005-04-12 2005-04-12 Making process of tritium luminotron Expired - Fee Related CN100394534C (en)

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CNB2005100633927A CN100394534C (en) 2005-04-12 2005-04-12 Making process of tritium luminotron

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Application Number Priority Date Filing Date Title
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CN1670904A true CN1670904A (en) 2005-09-21
CN100394534C CN100394534C (en) 2008-06-11

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104278452A (en) * 2014-10-24 2015-01-14 吴筱枝 Noctilucent embroidered painting
CN106524029A (en) * 2015-09-11 2017-03-22 Zkw集团有限责任公司 Automatic lighting outline marking light for motor vehicle

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4990804A (en) * 1989-10-10 1991-02-05 Mcnair Rhett C Self-luminous light source
CN2218297Y (en) * 1994-03-26 1996-01-24 朱汉民 Long working life lamp
JP3573071B2 (en) * 2000-08-07 2004-10-06 ウシオ電機株式会社 Discharge lamp for magnetometer
CN2480689Y (en) * 2001-03-30 2002-03-06 朱汉民 Luminous long-life lamp

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104278452A (en) * 2014-10-24 2015-01-14 吴筱枝 Noctilucent embroidered painting
CN106524029A (en) * 2015-09-11 2017-03-22 Zkw集团有限责任公司 Automatic lighting outline marking light for motor vehicle

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