US2086548A - Electric initiator - Google Patents

Electric initiator Download PDF

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US2086548A
US2086548A US47388A US4738835A US2086548A US 2086548 A US2086548 A US 2086548A US 47388 A US47388 A US 47388A US 4738835 A US4738835 A US 4738835A US 2086548 A US2086548 A US 2086548A
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plug
resistance
ignition
cap
electric
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US47388A
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Stanley L Handforth
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EIDP Inc
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EI Du Pont de Nemours and Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F42AMMUNITION; BLASTING
    • F42BEXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
    • F42B3/00Blasting cartridges, i.e. case and explosive
    • F42B3/10Initiators therefor
    • F42B3/18Safety initiators resistant to premature firing by static electricity or stray currents
    • F42B3/185Safety initiators resistant to premature firing by static electricity or stray currents having semi-conductive means, e.g. sealing plugs

Definitions

  • This invention relates to electric blasting initiators and in particular to a means of reducing the electrostatic susceptibility of such initiators.
  • electricv blasting caps consist essentially of a cylindrical metal shell containing a detonating base charge, anignition composition, and an electrical firing means in contact with, or embedded in, the ignition composition.
  • the firing means generally employed comprises an electric wire of high resistance between the two leg wires of the firing circuit. When the current is applied in the firing circuit, the high resistance or bridge wire is heated to incandescence,
  • Electric blasting caps may be classified as relatively fast, or slow, according to the time required for the cap to detonate after the firing current has been applied.
  • the length of this lag is known to be dependent upon the nature of the particular ignition composition used, when the cap is fired at a given amperage.
  • caps are fast which contain an ignition charge comprising lead styphnate, lead pic-. rate, basic lead picrate, silver azide, mercury or silver salts of chlorinated azodicarbonamidine, copper acetylide, or similar compounds.
  • the object of my invention is to provide a means of overcoming-this electrostatic suscep-.
  • a further object is an electric blasting cap which is substantially safe from electrostatic discharge.
  • Other objects will be apparent in the more complete description which follows. I have found that these objects may be accomplished by providing the firing circuit of the electric blasting initiator with a discharging means which oifers a low electrical resistance at high voltages, and which causes static electricity to pass harmlessly to the shell wall at a 5 point outside the locus of the static susceptible ignition.
  • the anti-static means comprises a material, the resistance of which is an inverse function of the voltage applied, v for example, a material having a high resistance to a low voltage and a low resistance to a high voltage.
  • a material having a high resistance to a low voltage and a low resistance to a high voltage.
  • Such a material will effectively ground the firing circuit against static discharge, but at the same time will not cause a short circuit at low voltages.
  • the ideal material will exhibit a high resistance at a voltage of the order of magnitude to be used for intentionally firing the cap, yet will exhibit a low resistance to voltages caused by electrostatic discharges which would otherwise bring about premature firing.
  • I may employ, according to my invention, any material having the above mentioned properties, but the following are particularly suitable; zincite, carborundum, psilomelane, yellow crystallineiron pyrites, and metallic sulfides exhibiting variable resistance, such as .stibnite, galena and the like.
  • I may introduce the variably resistant material into the cap in any mannersuitable to permit the function described, I prefer to incorporate the necessary amount in a plug or layer surrounding the leg wires and contacting the shell. By this means, currents of low voltages will pass through the bridge wire and ignite the .caps, whereas currents of .high voltage will be by-passed to the shell wall and thereby be efiectively grounded.
  • FIGS 1 to 4 represent vertical sectional views taken in the plane of the-electrodes of various types of electric blasting caps embodying my invention.
  • Figure 1 represents a vertical section of an the concave plug '5.
  • the electric blasting cap provided with a base charge 2 of tetryl, a priming charge 3 of lead azide, and an ignition composition 4 comprising lead styphnate.
  • the base and primer charges are pressed into the headed and beaded shell I of suitable electrically conducting material such as a metal; for example, copper, aluminum, or the like.
  • the bridge wire 8 is surrounded by, or embedded in, the ignition composition 4.
  • the leg wires 6 and l are held in fixed space-relationship by the plug which engages the shell wall in water-impervious relation by means of the crimps.
  • 'Ihis rubber plug 5 comprises soft rubber in which is incorporated 86 per cent by weight of galena crystals H ground fine enough to pass a 100-mesh screen.
  • the plug exhibits a low resistance to high-voltage electrostatic charges which might otherwise are from the, firing circuits 6, I and 8 to the shell I in the vicinity of the ignition composition 4-,. and instead allows such charges to pass along the particles of galena ona path of least resistance within the plug from the leg wires 8, 1 to the shell, at a safe distance from the ignition composition.
  • this plug exhibits a high resistance, preventing a short circuit in the firing circuit between the leg wires. This renders unnecessary-the insulation of the leg wires from each other, as would be necessary in the use of a plug which was a conduotor at all voltages.
  • the base charge 2 consists oftetryl, the priming charge 3 of lead azide, and the ignition composition 4 comprises basic lead picrate gelatinized with nitrostarch. This is cemented around the bridge wire 8 in The upper part of the plug comprises the anti-static means. This consists of a one-quarter inch layer of a composition containing about 24 per cent galena made from 150- meshed galena crystals II in molten sulfur. The resistance of this means is an inverse function of the voltage applied. The cap is closed with waterproof layer 9 and sulfur seal i0.
  • Figure 3 shows the match head type of elec-- tric blasting cap in which the firing circuit comprises a fiat strip of insulating material It, the two faces of which are covered with metallic foil t3.
  • the cap has a pressed base charge 2 comprising 40 per cent trinitrotoluene and 60 per cent picric acid and a priming charge 3 of lead azide.
  • the cap contains an anti-static means consisting of a layer of IOO-meshed yellow
  • Figure 4 illustrates an electric blasting cap comprising a metal shelli; a pressed base charge 2 of tetryl, a priming charge 3, an ignition composition i ofthe mercury salt of chlorinated azodicarbonamidine, a bridge plug 5 surrounding the leg wires 6 and '3, connected by a bridge wire means ii, a water-proof layer
  • the electrostat c con 8 an anti-static means Ii comprises a layer of 80-meshed carborundum crystals engaging the leg wires and the shell wall in electrically conducting relation with respect to static electricity. This furnishes a safe path for static electricity, well removed from the locus of the ignition composition.
  • my invention provides a simple, permanent, easily manufactured, and efiective means for substantially completely eliminating the hazards involved in the use of ignition compounds which are susceptible to static electricity. In this way, the invention permits the safe use of many ignition compounds which were heretofore regarded as dangerous for commercial application, and the safe manufacture and use of very rapid electric blasting caps.
  • While my invention is particularly useful-for fast" electric blasting initiators having an 1gnition composition comprising lead styphnate, lead picrate, basic lead picrate, silver azide, or
  • An electric blasting initiator 'the firing circuit of which is provided with a discharging means having a resistance variable in accordance with the voltage applied whereby the susceptibility of the initiator to static electricity is substantially reduced.
  • An electric blasting initiator the firing circuit of which is provided with a discharging means, the resistance of which is an inverse function of the voltage applied thereto, whereby the susceptibility of said initiator to static electricity is substantially reduced.
  • An electric blasting initiator including a plug comprising a material of variable resistance, displaying a high resistance to low voltages and a low resistance to high voltages, whereby the susceptibility of the initiator to static electricity is substantially reduced.
  • An electric blasting cap comprising a firing circuit and an ignition composition which is susceptible to static electricity, said firing circuit being provided with a means having a resistance variable in accordance with the voltage applied, whereby the susceptibility of the cap to static electricity is substantially reduced.
  • An electric blasting initiator substantially free from susceptibility to static electricity, said initiator containing a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages,
  • said material serving to maintain the firing circuit of the initiator in electrically-conducting relation with the shell wall at a point outside the locus of the ignition composition.
  • An electric blasting cap containing lead styphnate as an ingredient of its ignition composition, and containing a layer of galena crystals,'said layer of crystals serving to connect the leg wires of the firing circuit with the shell wall at a point outside the locus of the ignition composition.
  • An electric blasting cap containing lead 'styphnate as an ingredient of its ignition composition and containing also a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages, said material engaging the firing circuit and the shell wall in electrically-conducting relation at a point outside the locus oi! the ignition composition.
  • An electric blasting cap containing an electrostatic susceptibleignition composition and a resilient plug of a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages.
  • said plug engaging the shell wall at a point outside the locus of said ignition composition, whereby the electrostatic susceptibility is substantially reduced.
  • An electric blasting cap containing an ignition composition which is susceptible to static electricity and a bridge plug comprising sulfur and a material of variable resistance, such that the plug displays a high resistance to low voltages and a low resistance to high voltages, said plug of variable resistance being maintained in electrically-conducting relation with the shell wall at a point outside the locus of said ignition composition.
  • An electric blasting cap containing an ignition composition which is susceptible to static electricity and a bridge plug containing carborundum, said plug being maintained in electrically conducting relation with the shell wall at a point outside the locus of the ignition composition.
  • An electric blasting cap containing an ignition composition which is susceptible to static electricity and galena crystals, said galena crystals surrounding the leg wires and extending to the shell wall to eflfect an electrically-conducting relation between said leg wires and said shell wall at a point outside the locus of said ignition composition.

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Description

July 13, 1937. s. HANDFOTH ELECTRIC INITIATOR Filed Oct. 50, 1935 FIG. 5
Ff i
S'zazz/ey LHancz or/r'z INVENTOR.
A T TORNE Y meted July 13, 1937 UNITED STATES PATENT OFFICE ELECTRIC INITIATOR Stanley L. Handforth,
signor to E. I.
du Pont de Nemours Gordon fieights, Del., as-
& Company,
11 Claims.
. v This invention relates to electric blasting initiators and in particular to a means of reducing the electrostatic susceptibility of such initiators.
As is well known, electricv blasting caps consist essentially of a cylindrical metal shell containing a detonating base charge, anignition composition, and an electrical firing means in contact with, or embedded in, the ignition composition. The firing means generally employed comprises an electric wire of high resistance between the two leg wires of the firing circuit. When the current is applied in the firing circuit, the high resistance or bridge wire is heated to incandescence,
thereby firing the ignition composition which in turn initiates the detonating base charge.
Electric blasting caps may be classified as relatively fast, or slow, according to the time required for the cap to detonate after the firing current has been applied. The length of this lag is known to be dependent upon the nature of the particular ignition composition used, when the cap is fired at a given amperage. Thus, for example, caps are fast which contain an ignition charge comprising lead styphnate, lead pic-. rate, basic lead picrate, silver azide, mercury or silver salts of chlorinated azodicarbonamidine, copper acetylide, or similar compounds.
It has been found that these rapid ignition compounds, and the electric blasting caps made therefrom, are dangerously susceptible to static electricity. In general, it appears to be true that the faster the cap, the more sensitive it is to electrostatic influences. The electrostatic trouble is so acute in such caps that they are generally regarded as too dangerous for manufacture, since electrostatic charges of low voltage, which are well within the range of that which may be ac- I cumulated by a man of ordinary electrical capacity, are capable of initiating these blasting caps. 40 This imperfection is common to all the varied structural types known to the art, including the bridge plug, the concave plug, and the match head types. Inasmuch as these fast caps are very desirable for use in certain fields such as in seismographic work and elsewhere, it is important to eliminate such a danger which renders hazardous the manufacture and the use of such caps.
The object of my invention is to provide a means of overcoming-this electrostatic suscep-.
tibility of electric blasting initiators. A further object is an electric blasting cap which is substantially safe from electrostatic discharge. Other objects will be apparent in the more complete description which follows. I have found that these objects may be accomplished by providing the firing circuit of the electric blasting initiator with a discharging means which oifers a low electrical resistance at high voltages, and which causes static electricity to pass harmlessly to the shell wall at a 5 point outside the locus of the static susceptible ignition.
The same objects are accomplished in a different way in the co-pending application of Aughey, Burrows, and Lawson, Serial No. 47,385, filed October 30, 1935. The present invention, however, employs an entirely distinct and novel concept.
The anti-static means according to my invention comprises a material, the resistance of which is an inverse function of the voltage applied, v for example, a material having a high resistance to a low voltage and a low resistance to a high voltage. Such a material will effectively ground the firing circuit against static discharge, but at the same time will not cause a short circuit at low voltages. Thus, the ideal material will exhibit a high resistance at a voltage of the order of magnitude to be used for intentionally firing the cap, yet will exhibit a low resistance to voltages caused by electrostatic discharges which would otherwise bring about premature firing.
I may employ, according to my invention, any material having the above mentioned properties, but the following are particularly suitable; zincite, carborundum, psilomelane, yellow crystallineiron pyrites, and metallic sulfides exhibiting variable resistance, such as .stibnite, galena and the like. a
Although I may introduce the variably resistant material into the cap in any mannersuitable to permit the function described, I prefer to incorporate the necessary amount in a plug or layer surrounding the leg wires and contacting the shell. By this means, currents of low voltages will pass through the bridge wire and ignite the .caps, whereas currents of .high voltage will be by-passed to the shell wall and thereby be efiectively grounded.
In order to describe my invention more clearly, I shall refer to the accompanying drawing, representing preferred embodiments thereof. It is to be understood, however, that this is done solely by way of example, and is not to be regarded as a limitation upon the scope of my invention.
Figures 1 to 4 represent vertical sectional views taken in the plane of the-electrodes of various types of electric blasting caps embodying my invention.
Figure 1 represents a vertical section of an the concave plug '5.
"9, and sulfur seal it.
electric blasting cap provided with a base charge 2 of tetryl, a priming charge 3 of lead azide, and an ignition composition 4 comprising lead styphnate. The base and primer charges are pressed into the headed and beaded shell I of suitable electrically conducting material such as a metal; for example, copper, aluminum, or the like. The bridge wire 8 is surrounded by, or embedded in, the ignition composition 4. The leg wires 6 and l are held in fixed space-relationship by the plug which engages the shell wall in water-impervious relation by means of the crimps. 'Ihis rubber plug 5 comprises soft rubber in which is incorporated 86 per cent by weight of galena crystals H ground fine enough to pass a 100-mesh screen. The plug exhibits a low resistance to high-voltage electrostatic charges which might otherwise are from the, firing circuits 6, I and 8 to the shell I in the vicinity of the ignition composition 4-,. and instead allows such charges to pass along the particles of galena ona path of least resistance within the plug from the leg wires 8, 1 to the shell, at a safe distance from the ignition composition. To a low voltage such as those used in intentionally firing the cap, this plug exhibits a high resistance, preventing a short circuit in the firing circuit between the leg wires. This renders unnecessary-the insulation of the leg wires from each other, as would be necessary in the use of a plug which was a conduotor at all voltages.
Referring now to Figure 2, the base charge 2 consists oftetryl, the priming charge 3 of lead azide, and the ignition composition 4 comprises basic lead picrate gelatinized with nitrostarch. This is cemented around the bridge wire 8 in The upper part of the plug comprises the anti-static means. This consists of a one-quarter inch layer of a composition containing about 24 per cent galena made from 150- meshed galena crystals II in molten sulfur. The resistance of this means is an inverse function of the voltage applied. The cap is closed with waterproof layer 9 and sulfur seal i0.
Figure 3 shows the match head type of elec-- tric blasting cap in which the firing circuit comprises a fiat strip of insulating material It, the two faces of which are covered with metallic foil t3. A bridge wire 8, passing around the end of the strip, connects the two pieces of foil which paper cylinder l5 by means of the sulfur composition lt. The cap has a pressed base charge 2 comprising 40 per cent trinitrotoluene and 60 per cent picric acid and a priming charge 3 of lead azide. The cap contains an anti-static means consisting of a layer of IOO-meshed yellow Figure 4 illustrates an electric blasting cap comprising a metal shelli; a pressed base charge 2 of tetryl, a priming charge 3, an ignition composition i ofthe mercury salt of chlorinated azodicarbonamidine, a bridge plug 5 surrounding the leg wires 6 and '3, connected by a bridge wire means ii, a water-proof layer The electrostat c con 8, an anti-static means Ii comprises a layer of 80-meshed carborundum crystals engaging the leg wires and the shell wall in electrically conducting relation with respect to static electricity. This furnishes a safe path for static electricity, well removed from the locus of the ignition composition.
The advantages of my invention are very important to the art. It provides a simple, permanent, easily manufactured, and efiective means for substantially completely eliminating the hazards involved in the use of ignition compounds which are susceptible to static electricity. In this way, the invention permits the safe use of many ignition compounds which were heretofore regarded as dangerous for commercial application, and the safe manufacture and use of very rapid electric blasting caps.
While my invention is particularly useful-for fast" electric blasting initiators having an 1gnition composition comprising lead styphnate, lead picrate, basic lead picrate, silver azide, or
. mercury, or silver salts of chlorinated azodicarbonamidine, and other fast" ignition compounds such as copper acetylide and the like, it is applicable to electric blasting initiators generally, regardless of the ignition composition employed. Thus, it may be employed with electric squibs, electric detonators, or delay electric detonators. Again, the invention is equally applicable to the concave plug type, the bridge plug type, and the match head type of electric blasting initiator. Furthermore, it may be employed in any blasting composition employed, all electric initiators are to some extent susceptible to static electricity.
In the foregoing embodiments of my invention, it is apparent that many variations in detail may be made without departing from the spirit or the scope of my invention. Thus, it is possible to change the base charge, the priming charge, or the ignition charge,.or to change the structural details in any of the examples given without circumventing the scope of this invention. Other changes in detail and other mechanical or electrical equivalents of the means shown will be apparent to those skilled in the art. I therefore intend to be limited only in accordance with the following patent claims.
I claim:
1. An electric blasting initiator, 'the firing circuit of which is provided with a discharging means having a resistance variable in accordance with the voltage applied whereby the susceptibility of the initiator to static electricity is substantially reduced.
2. An electric blasting initiator, the firing circuit of which is provided with a discharging means, the resistance of which is an inverse function of the voltage applied thereto, whereby the susceptibility of said initiator to static electricity is substantially reduced.
3. An electric blasting initiator including a plug comprising a material of variable resistance, displaying a high resistance to low voltages and a low resistance to high voltages, whereby the susceptibility of the initiator to static electricity is substantially reduced.
4. An electric blasting cap comprising a firing circuit and an ignition composition which is susceptible to static electricity, said firing circuit being provided with a means having a resistance variable in accordance with the voltage applied, whereby the susceptibility of the cap to static electricity is substantially reduced.
5. An electric blasting initiator substantially free from susceptibility to static electricity, said initiator containing a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages,
said material serving to maintain the firing circuit of the initiator in electrically-conducting relation with the shell wall at a point outside the locus of the ignition composition.
6. An electric blasting cap containing lead styphnate as an ingredient of its ignition composition, and containing a layer of galena crystals,'said layer of crystals serving to connect the leg wires of the firing circuit with the shell wall at a point outside the locus of the ignition composition.
7. An electric blasting cap containing lead 'styphnate as an ingredient of its ignition composition and containing also a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages, said material engaging the firing circuit and the shell wall in electrically-conducting relation at a point outside the locus oi! the ignition composition.
8. An electric blasting cap containing an electrostatic susceptibleignition composition and a resilient plug of a material of variable resistance, such that it displays a high resistance to low voltages and a low resistance to high voltages.
said plug engaging the shell wall at a point outside the locus of said ignition composition, whereby the electrostatic susceptibility is substantially reduced.
9. An electric blasting cap containing an ignition composition which is susceptible to static electricity and a bridge plug comprising sulfur and a material of variable resistance, such that the plug displays a high resistance to low voltages and a low resistance to high voltages, said plug of variable resistance being maintained in electrically-conducting relation with the shell wall at a point outside the locus of said ignition composition.
10. An electric blasting cap containing an ignition composition which is susceptible to static electricity and a bridge plug containing carborundum, said plug being maintained in electrically conducting relation with the shell wall at a point outside the locus of the ignition composition.
11. An electric blasting cap containing an ignition composition which is susceptible to static electricity and galena crystals, said galena crystals surrounding the leg wires and extending to the shell wall to eflfect an electrically-conducting relation between said leg wires and said shell wall at a point outside the locus of said ignition composition.
STANLEY L. HANDFORTH.
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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2478838A (en) * 1945-03-03 1949-08-09 Atlas Powder Co Electric explosion initiator
US2685835A (en) * 1952-07-29 1954-08-10 Du Pont Blasting initiator
US2776623A (en) * 1949-08-06 1957-01-08 Hercules Powder Co Ltd Closure device
US2802421A (en) * 1953-11-09 1957-08-13 Hercules Powder Co Ltd Static resistant electric initiator
US2918871A (en) * 1953-08-04 1959-12-29 Beckman Instruments Inc Electrical detonator
US2963970A (en) * 1956-09-11 1960-12-13 Wasag Chemie A G Fa Electric detonator
US2974590A (en) * 1957-10-02 1961-03-14 Hercules Powder Co Ltd Static resistant electric initiator
US2987997A (en) * 1958-11-06 1961-06-13 Du Pont Blasting cap
US3182277A (en) * 1962-04-18 1965-05-04 Atlantic Res Corp Shorting plug
US3318243A (en) * 1963-10-03 1967-05-09 Atlas Chem Ind Static protected detonator
US4061088A (en) * 1975-11-13 1977-12-06 Toyota Jidosha Kogyo Kabushiki Kaisha Electric detonating fuse assembly
US4252091A (en) * 1978-08-11 1981-02-24 Robert Bosch Gmbh Glow plug construction
US5672841A (en) * 1995-12-15 1997-09-30 Morton International, Inc. Inflator initiator with zener diode electrostatic discharge protection
US6651563B2 (en) * 1994-09-13 2003-11-25 Dynamit Nobel Artiengesellschaft Ignition elements and finely graduatable ignition components

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2478838A (en) * 1945-03-03 1949-08-09 Atlas Powder Co Electric explosion initiator
US2776623A (en) * 1949-08-06 1957-01-08 Hercules Powder Co Ltd Closure device
US2685835A (en) * 1952-07-29 1954-08-10 Du Pont Blasting initiator
US2918871A (en) * 1953-08-04 1959-12-29 Beckman Instruments Inc Electrical detonator
US2802421A (en) * 1953-11-09 1957-08-13 Hercules Powder Co Ltd Static resistant electric initiator
US2963970A (en) * 1956-09-11 1960-12-13 Wasag Chemie A G Fa Electric detonator
US2974590A (en) * 1957-10-02 1961-03-14 Hercules Powder Co Ltd Static resistant electric initiator
US2987997A (en) * 1958-11-06 1961-06-13 Du Pont Blasting cap
US3182277A (en) * 1962-04-18 1965-05-04 Atlantic Res Corp Shorting plug
US3318243A (en) * 1963-10-03 1967-05-09 Atlas Chem Ind Static protected detonator
US4061088A (en) * 1975-11-13 1977-12-06 Toyota Jidosha Kogyo Kabushiki Kaisha Electric detonating fuse assembly
US4252091A (en) * 1978-08-11 1981-02-24 Robert Bosch Gmbh Glow plug construction
US6651563B2 (en) * 1994-09-13 2003-11-25 Dynamit Nobel Artiengesellschaft Ignition elements and finely graduatable ignition components
US5672841A (en) * 1995-12-15 1997-09-30 Morton International, Inc. Inflator initiator with zener diode electrostatic discharge protection

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