USRE23102E - Waterproof explosive cartridge - Google Patents

Description

April 26, 1949. A. w. BAKER WATERPROOF EXPLOSIVE QRITRIDGE original Filed Nov. 1o, 1942 Flai, l

z 3 47 h, H f

/ INVENTOR,

BY wd ,4U-aznar 5&4

Rescued Apr. 26, 1949 Re.I 23,102

WATERPROOF EXPLOSIVE CARTRIDGE Arthur W. Baker, Webster Groves, Mo., assigner to Hercules Powder -Company, Wilmington,

Del., a corporation o! Delaware Original No. 2,408,189, dated September 24, 1946,

Serial No. 465,105, November 10, 1942. Application ior reissue August 21, 1947, Serial No.

large amounts of water-soluble salts so that these explosives may -be used in wet holes and under reasonable heads of water,

For submarine and other blasting operations where it is necessary to use explosives under Water, the industry has made use of highly waterresistant gelatins and gelatinized dynamite instead of the cheaper, equally effective. ammonium nitrate dynamites which are easily destroyed by water. Attempts have been made to develop a waterproof cartridge but these efforts have failed to produce a container which would permit the economical use of water-soluble explosives under severe water conditions. There have been various methods employed to achieve this purpose, but, so far, they have not proven entirely satisfactory. f Cartridges have been made of various materials, such as, paper, rubber, metal, and combinations of waterproofed extensible paper and fibres. These icartridges have been closed With folded crimps, rolled crimpsand wire ties. They have been dipped in latex, waxes, asphalts, etc., in order to provide protection from Water penetration. However, none of these schemes have been truly effective because, generally, they were diilicult to manufacture and easily damaged either during the course of manufacture or during usage in the iield.

The greatest disadvantage of most of the previous practical waterproof cartridges is the fact that they are not strong enough to stand the handling incident to transportation and loading in the lield. Sealed containers of rubber, rubberized cloth, and metal, if they are made strong enough to be eiective, are too costly to be economically feasible. Containers made of creped paper laminated with asphalt, though composed of flexible waterproof materials, are subject to easy puncture by protecting rock, etc., because of their lack of actual mechanical strength.

The object of this invention is to provide a Waterproof explosive cartridge.

A further object of this invention is to provide a waterproof explosive cartridge of sumcient strength to withstand rough usage.

sclaims. '(01.1 02-24) A further object of this invention is to provide a means of sealing the ends of large sized exposive cartridges in a waterproof manner.

A further object of this invention is to provide a waterproof semiexible seal for the crimped end of large diameter explosive cartridges.

The specic object of this invention is to provide an inexpensive and effective, large diameter, waterproof explosive cartridge so that ammonium nitrate dynamites and other water-soluble explosives may be used under water in place more costly gelatin explosives.

Other objects will appear hereinafter.

To accomplish'these objects in accordance with this invention a waterproof cartridge has been produced which willl protect water-soluble explosives. The cartridge comprises in general a cylindrical body, made of manila and laminated waterproof paper, the ends of which are crimped and sealed with a suitable semiflexible compound to form a water-tight end closure.

More particularly, the objects in accordance with this invention are accomplished by preparing an explosive cartridge which includes a tube oi. paper either spirally or convolutely wrapped, a :covering on this tube consisting of a laminated asphalt paper Wrapped completely around the inner paper tube and sealed to itself so as to form a waterproof envelope surrounding the explosive. and superimposed on this laminated paper is another tube oi paper either spirally or convolutely wrapped. The ends of the tubular cartridge are crimped by known means such as a fluted crimp, a rolled crimp, or the like, and under this crimp is placed a disc of paper or cardboard which is snugly fitted and positioned to prevent a sealing compound which is subsequently added from contacting the explosive in the cartridge. The sealing compound which is a semiflexible solid at room temperatures may be a wax or resin-like material that is waterproof and adhesive to the cartridge. The water-impervious sealing compound has the property of .pouring at temperatures which are safe for explosive operations and has the further property of being a hard but semiflexible material at temperatures encountered under explosive storage conditions.

This waterproof dynamite cartridge of the present invention consists of a strong paper tube, having one or more of its central layers consisting of a laminated waterproof paper, closed at both ends by a crimp over a discjof paper or cardboard and sealed with a thick layer of wax or similar substance.

In order to more clearly indicate the structure` of the cartridge of the present invention, preferred embodiments are presented in the attached drawing in which:

Fig. l is a part elevational, part sectional view of a cartridge;

Figs. 2 and 3 are fragmentary sectional views of fluted and rolled crimps, respectively, sealed with a desirable sealing compound; and,

Fig. iris a fragmentary sectional view of the construction of the side wall of the cartridge.

Referring now to Fig. l, there is shown an ex plosive cartridge I made up of three layers of material designated as 2, 3, and l, respectively. Layer 2 is a manila paper wrapped on itself either spirally or convolutely. Layer 3 is-a laminated asphaltic paper wrapped on itself either spirally or convolutely and in either event sealed to itself to form a water-impervious tube. Layer l is a manila paper similar to layer 2 and is similarly wrapped. An explosive composition 1 is positioned in the cartridge and is sealed therein by crimps 9 and a water-impervious sealing compound lll. A paper or cardboard disc Il is disposed beneath the crimps 9 at each end of the cartridge l. This disc sustains the explosive composition during the sealing operation and prevents the sealing compound from contacting the explosive composition. The sealing compound I in liquid form is poured into place and solidies to form a seal of semiflexible material and this seal binds and waterproofs the cartridge. The movement encountered in normal handling, transportation and loading will not cause the semiilexible seal to crack.

In Figs. 2 and 3 are shown methods of crimping and sealing the ends of the cartridges. Thus, the crimp may be iluted (Fig. 2), or rolled (Fig. 3). In either instance, the water-impervious sealing compound forms a-layer Ill which waterprooily closes the cartridge. The sealing material is disposed on each side of the crimped end section forming upper and lower layers and having a contiguous central portion passing through the crimped end section thus joining the two layers to form a homogeneous mass orlayer Ill. In the rolled or shotgun crimp (Fig. 3) the cardboard disc Il is shown to bein cup form which gives better sealing but is not essential.

In Fig. 4, the construction of the side walls of the cartridge is shown and the inner layer 3 represents an asphalt laminated paper but any waterproof laminated paper may be used. The outer layers 2 and 4 are manila or kraft paper and may be either` of a single or plurality of layers of paper.

The following examples are illustrative of the present invention:

Example I A shell for packing a 5 x 16" cartridge of dynamite was prepared. 'I'he paperv tube for the body of the shell was a four-ply, spiral-wrapped container composed of three plies of manila paper and one ply of an asphaltic laminated kraft paper. This tube was manufactured by spirally wrapping two plies of the manila paper von a xed mandrel, then covering these with a ply of laminated paper which was wider than the manila so that it overlaps itself at the joint. Finally, the third ply was covered by a ply of crimper.

manila' paper which was the same width as the inner plies. The various plies were glued together with glue applied to the paper before wrapping the tube. The spiral tube was continuousiy formed and lengths suitable for the final shell were cut off. The manufacture of the tube was performed in the same manner as similar tubes for mailing, etc., and is not part of this invention. l

The -completed tube was closed at one end with a folded, uted crimp formed by a mechanical When 'the glue dried, the shell was passed through a paratlln spray to saturate the manila paper to prevent water and explosive oil penetration. A snug-fitting cardboard disc was inserted in the closed end of the shell which then was packed with dynamite. After this another disc was inserted and a second crimp was formed in the same manner as the first.

The loaded, crimped cartridge was then sealed by pouring a mixture of a micro-crystalline wax and paraiiin into the crimped ends. A suilicient 'quantity was added to form a. complete layer between the cardboard disc and the crimp and to cover the outside of the crimp, so that all of the folded paper was eifectlvely sealed. After sealing, the entire assembly was dipped in the usual manner in a parailln bath to vfurther protectl the outer ply from water penetration.

Example II In another example of this invention. a shell for packing a 5" x16" cartridge of dynamite was formed of a convolute tube rolled either manually or by a machine. In the case of this convolute shell the manila and laminated papers are so arranged that the laminated paper is glued to itself, forming a complete cylinder. 'I'he crimping and sealing were carried out in the manner of Example I.

- xample III In another example of this invention, one sei'l of 5" x 16" cartridges were prepared by spiral wrapping and gluing 5 plies of 90# manila paper. Another set of 5" x 16" cartridges were prepared by spiral wrapping and gluing 2 plies of 904i*- Gain in Per cent oi Plies No. oi weight explosive Y tests average good-average 5 plies 90# manila (none laminat Grams ed) 201 5lV 2 plies 90# manila, l ply laminated, i ply manila 8 24 100 Example IV In still another example of this invention, a set of 3" xy 16" cartridges were prepared by spiral wrapping and gluing 3 plies of 64# manila paper, then 1 ply of water proof laminated paper, and then 1 ply of 64# manila paper. These carnaxos It is readily seen that the waterproof cartridges of Examples III and IV as prepared in accordance with the present invention were far superior to the cartridges not prepared in accordance with the invention. This is shown by the differences in the percent of explosive which was good" after` the immersion tests. The percent of explosive good means that portion of the explosive which was unaiected by moisture penetration, thereby remaining readily detonatable and capable of propagation in its full strength. It has been found in packaging some explosives which have little or no water resistance that as low as .2% moisture content will deleteriously eilect the detonation and propagation properties of the explosive, therefore, the cartridges must be absolutely moisture im- Pervious. e

The paper tube used in the cartridges described in the examples is formed of several plies of manila paper and one or more plies of a waterproof laminated paper. The laminated paper is an essential part of they tube, if it is to be waterproof, and may be one of several types. For instance, the laminae may be creped or otherwise extensible paper or they may be ordinary kraft or manila paper. The laminant is `a waterproof adhesivebinder such as an asphalt, a resin, or a micro-crystalline wax.

To make the waterproof shell, a tube is formed containing one or more inner plies of manila paper, one or more plies of laminated paper, and finally, an outside ply of manila. The inner plies of manila paper provide rigidity, the laminated paper prevents water penetration, and the outside ply of manila protects the laminatedpaper from damage by abrasion. In order to obtain maximum waterproofness the laminated paper must form a complete cylinder about the inner plies.

The ends of the shell are closed with card* board discs and symmetrical iluted crimps. The iiuted crimps are formed so that the ends of the shell have a shallow cup-shape. These are sealed with a. quantity of wax suiilcient to form a complete layer across the disc and to cover the fiuted crimp. The purpose of the disc is to prevent the waxl from soaking into the explosive with which the shell is loaded and to prevent leakage of the explosive during the manufacturing operation.

The compound used for sealing the cartridge may be any material which will pour at a tem- 6 perature below the danger point for the explosive used in loading the cartridges and which will be adhesive, tough and hard at ordinary at,- mospheric temperatures and water-impervious.

Suitable compoundsV may be micro-crystalline waxes, resins, and asphalts-or mixtures of these and similar compounds. The sealing compound may be illustrated by a number of commercial resinous or wax-like products such as the Flexo resins. "Flexo Wax C, Ceroiiux, and Adheso Wax of Glyco Products Company and described in their booklet, Chemicals by Glyco, copyright 1941, and the microcrystalline (amorphous) petroleum wax produ-cts P. D. 300" and 2300 of Socony-Vacuurn Oil Company.

For cartridges of larger size the same general scheme, as outlined in the above examples, should be followed except, if desirable, more plies can be added to increase the strength of the shell.

While the waterproof explosive cartridge described in the above paragraphs is preferable for packaging any explosive, which in itself may have little or no water resistance, to protect said explosive from water penetration when used in or around water, it may also be used for the more water-resistant explosives, if desired.

What I claim and desire to protect by Letters Patent is:

1. A rigid blasting cartridge comprising a substantialiy cylindrical explosive charge of a watersoluble material and a substantially rigid Waterresistant tubular envelope therefor and having water-resistant crimped end closures; the tubular envelope comprising a tube of a water-proof laminated paper sealed to itself and overlapping itself atv opposed edges, a paper lining for said laminated tube and'sealed thereto, a paper covering for said laminated tube and sealed thereto; the tubular envelope having a cardboard disc at each end interiorly thereof and having an end section crimped over each disc, and a seal for each end section comprising an adhesive waxlike material disposed on each side of the crimped end section forming upper and lower layers and having a contiguous central portion passing through the crimped end section thus joining the two layers.

2. A rigid blasting cartridge comprising a substantially cylindrical explosive charge of a watersoluble material and a substantially rigid waterresistant tubular envelope therefor and having water-resistant crimped end closures; the tubular envelope comprising a tube of an asphaltic laminated paper sealed to itself and overlapping itself at opposed edges, a paper lining for said laminated tube and sealed thereto, a paper covering for said laminated tube and sealed thereto;

'the tubular envelope having a cardboard disc at each end interiorly thereof and having an end section crimped over each disc by means of tluted crimps, and a seal for each end section comprising an adhesively waxlike material disposed on each side of the crimped end section forming upper and lower layers and having a contiguous central portion passing through the crimped end section thus joining the two layers.

3. An end closure for a tubular envelope comprising a disc disposed interiorly of said envelope; an end section of said envelope crimped over said disc inwardly generally at right angles to the tubular axis and substantially closing the end of the tubular envelope; and a seal of an adhesive, waxlike material disposed on each side of the crimped end section forming upper and lower 7 layers, said layers being bonded to each other by said adhesive passing through the opening in the crimped end section thus joining the two layers. 4. A waterproof end closure for a tubular envelope comprising a cardboard disc disposed interiorly of said envelope; an end section o! said envelope crimped over said disc by means of fluted crimps folded inwardly generally at right angles to the tubular axis and substantially closof an adhesive, waxlike material disposed on each side of the crimped end section forming upper and lower layers, said layers being bonded to each other by said adhesive passing through the openother by said adhesive passing through the open- 10 ing the end of the tubular envelope; anda seal i 8 ing in the crimped end section thus joining the two layers.

ARTHUR W. BAKER.

REFERENCES CITED vUNITED STATES PATENTS Number Name Date 969,186 Peters Sept. 6, 1910 1,144,379 Pritham June 29, 1915 1,173,267 Harbeck Feb. 29, 1916A 1,230,121 Comstock June 19, 1917 1,234,683 Myerscough July 24, 1917 1,553,762 Fabrizio Sept. 15, 1925 1,687,929 Cimorosi Oct. 16, 1928 2,023,784 Farren et al. Dec. 10, 1935 2,066,635 Lux Jan. 5, 1937 2,087,209 Lahey et al. July 13, 1937 2,141,556 Reifsnyder Dec. 27, 1938 2,179,864 Scott Nov. 14, 1939 2,184,166 Rape Dec. 19, 1939 2,326,310

Johnson et al. Aug. 10, 1943

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