o ,...._......_ FIG. io. - Maxim Gun Mechanism.
piston when it has been driven back by the gases. As already stated, a lug on the under surface just in rear of the cam (f) engages with the front of the mainspring.
I the object of the arrangement being to enable the under surface of the breech-block to clear the clips which hold the cartridges in the 1 feed-strips. The cartridge therefore, being extracted in the line of the axis of the block, is ejected through an opening above its plane of entry in the feed-strip.
Returning to the position shown in fig. 16, if the trigger be pulled, the compressed spring M reacts and drives the piston forwards, carrying the breechblock with it, the latter in turn driving a cartridge in front of it out of the feed-strip. When the block - and cartridge are home, and not till then, the piston completes its travel, the upper cam (f') locking the dog (h), and the firing-pin protrudes and fires the cartridge. Anything, therefore, which prevents the breech-block from being home against the breech, or the locking-dog from falling in front of the recoil blocks Z, renders firing of the cartridge impossible. Clearly if the trigger be kept depressed the action becomes automatic.
A special feature of this gun is the absence of a separate spring to actuate the firing-pin; the recoil spring M performing this function, in addition to that of driving the piston forwards.
The feed-strips have holes in them in which the teeth of the smaller feed-wheel U engage. The engagement of this feed with the piston F can be released by pulling out the feed arbor W, so that the strips can be removed at any time.
When the last shot in a feed-strip has been fired a stop (V) holds the piston and block ready for a fresh feed-strip to be inserted. As the stop V acts quite independently of the trigger, this action takes place even if the trigger be still depressed after the last cartridge in a strip has been fired.
To cock the gun, when in the locked position, a cocking handle G is provided. This has a long arm projecting to the front with a catch which takes against the front of the lug on the under side of the piston. To prepare the gun for action the gun is cocked, and a feed-strip is pushed into the feed-block.
The pressure of the gas on the piston is regulated by the regulator screw D, by means of which the space in the cylinder C in front of the piston F can be reduced or increased.
A safety lock R is furnished, which is a " half round " pin which can be turned so as to enter the semicircular slot just in front of the sear (f), and so hold back the piston when in the cocked position.
Radiation of the heat, generated in the barrel by rapid fire, is facilitated by the radiator (a), which consists of rings on the barrel close to the breech, which offer an increased surface to the air.
Longitudinal Section Breech 4 .?.
? - ?-r'?
-i'.1,-- ' .?, ?^?::-? ? ?y:.. '. a..::v ..a. ,?, ?. ? ? ?
. .
? ..:d ....
?: / - ??r ? ? i;??,?i ?l ".ti???r ??
.: -? i?'i?
iolgai{vismecelt"m' - = ..w._....4.4!.!.. '"N FIGS. 14, 15, 16. - Hotchkiss Gun Mechanism.
From the head or nose-piece I of the breech-block projects the claw K of a spring extractor which, as the cartridge is pushed home by the breech-block, seizes it, extracting the fired case when the breech-block is withdrawn. Ejection of the fired case is effected by means of the ejector L (fig. 16) which catches against the base of the case, on the opposite side to the extractor claw, and so throws it sideways through the oblong-pointed opening in the receiver just in rear of the breech (see fig. 14).
The platform on the top of the feed-box through which the teeth of the smaller feed-wheel U project, and on which the feed-strips rest, lies below the axial line of the breech-block H, so that the face or nose-piece I of the latter only engages a portion of the base of the cartridge in the feed-strip as it pushes the cartridge into the breech, the bullet of the cartridge being guided into the breech by the incline at the opening of the latter. This point should be specially noted, The gun is sighted to 2000 yds., with the ordinary flap backsight, weighs about 53 lb, and can fire from 500 to 600 rounds per minute.
[The diagrams have been made from drawings, by permission of the Hotchkiss Ordnance Company.] The Colt automatic gun, which has been adopted by the American army and navy, and was used by the British in S. Africa, depends for its action, similarly to the Hotchkiss, on the escape of a small portion of the gases of explosion through a port in the barrel a short distance from the muzzle. Figs. 17 and 18 give a plan, and side elevation with the left side plate removed, respectively. Into the recess in the barrel (92) just below the port fits the piston (35), capable of slight motion round the pivot (36), by which it is attached to the gas lever (29). The latter is a bell-crank lever pivoted at (34), its short arm being attached FIG. 12. - Maxim Gun Mechanism.
Taking first the position sh and locked and the cartridge FIG.13. - Maxim Feed-block.
ment of the sear (f) with the is that shown in fig. 14.
own in fig. 15 with the breech closed fired, it will be seen that the breech is locked by the upper cam (f'), on the end of the piston, F, having caused the movable locking-dog (h) to fall and bear against the recoil blocks Z (see fig. 14 also) on the walls of the receiver or frame B. Consequently the breech is not unlocked until the piston has moved sufficiently to the rear for the lower cam (f') to lift the locking-dog (h) clear of the recoil blocks Z. As the piston F is not actuated by the gases until the bullet has passed the port (c), and then has to move a short distance before the locking-dog is raised, the bullet is clear of the muzzle before the breech is unlocked.
As the piston continues to recoil it draws back the striker J and then the breech-block H, and is then caught and retained by the engagetrigger N, and the position assumed ? N ? ` o ' ®?? 1 1? ?.w??.... ?+t _Q . ?iL???u?ttih ¦?..??.??
,:;?.
at (46) by a pivot to a long link with a cross head, termed the retracting connexion (45). This link extends from a point close to the figures (44), where the arms of the cross head bear against the ends of two long spiral retracting springs, (37) and (38), contained in two tubes, (39) and (40), which are slotted for a few inches of their length to allow the cross head to follow up and compress the springs. (Only (38) and (40) are shown, (37) and (39) lying in the same plane of projection.) When the gun fires, and the bullet has passed the port, the gases drive the piston (35) and gas lever (29) downwards, and the momentum imparted causes them to swing back round the pivot (36), as shown by the dotted circle. The gas lever is brought up now by the bottom plate (91); and the retracting springs, compressed by the cross head of the long link (45) owing to the forward motion of the short arm of the gas lever, react and drive the gas lever into its forward position again.
The rotary movement of the gas lever is converted into a reciprocating movement of the slide (86) by means of the gas lever connexion rod (31) pivoted at (32) to the gas lever, and at (87) to the slide. The slide (86) is a nearly flat bar, travelling in guides in the receiver, extending from (14) to (87). It is slotted completely through longitudinally for nearly the whole of its length, this slot affording an opening through which work the cartridge extractor (82) and carrier (21). At its rear end it engages by means of a pin (14) in a cam slot (97) in the bottom rib of the bolt (13), and at (83) it bears the pivot of the cartridge extractor (82). Its rear end is enlarged below to form a cam lug (98), and on its right side are two projections (95) and (96), which work the feed lever (66).
FIG. 19. - Colt Gun mounted.
The feed wheel (61), over which passes the belt containing the cartridges, is actuated by a pawl " step-by-step " gear by means of the feed lever (66).
The carrier (21) is a long trip lever pivoted at (22), and provided with a spring dog (23) pivoted at (24).
The bolt (13) is a cylinder with a guide rib extending from its under surface. It is actuated by the slide by means of the pin (14) and cam slot (97) as already stated, and is bored through to take the striker or firing pin (18). The rear end of the latter projects slightly beyond the rear face of the bolt, being retained in this position by the spring (19). When this projecting end is pushed into the bolt, the point protrudes from the front of the bolt and fires the cartridge. The bolt, when the breech is locked, is held firm by two recoil blocks on the receiver (not shown), as is explained later. At the front of the bolt is an extractor (15) with a spring claw for extracting the fired case. (This is of course quite distinct from the cartridge extractor (82).) Ejection is effected by means of an ejector projecting into the path of the fired case.
The firing of the gun is performed by the cylindrical hammer (6) hollowed out in rear to contain the mainspring (7). When pushed back and cocked as shown in fig. 18, it is held during a portion of the operations of the mechanism by two detents working independently of each other - the sear (10) and the nose of the trigger (8). The former is automatically released by a trip lever (not shown) as soon as the breech is locked, leaving the hammer held by the trigger only. This is the position shown in fig. 18. The necessity for the two detents is explained later.
The hammer, when cocked, can also be permanently locked by the handle lock (2) actuated by a thumb-piece on the outside of the receiver. The air compressed in rear of the hammer, as the latter is driven back, passes through the tube (99) to the breech; and a puff of air is therefore blown through the barrel after every shot, clearing out fouling and unconsumed powder, and assisting to an appreciable extent to keep down the temperature of the barrel.
Taking the position shown in fig. 18, the hammer is only held back by the trigger nose, the sear (to) having been released as stated above. A belt of cartridges (not shown) has been placed on the feedwheel, and the cartridge next to be used after the one (not shown) now in the breech has its rim (or base with rimless cartridges) just above the hook on the extractor (82). If now the trigger be pulled, the hammer flies forwards, strikes the protruding end of the firing pin, and the cartridge fires; the gases cause the gas lever to swing round and drive back the slide. The pin (14) working in the cam groove (97) causes the rear of the bolt to rise and clear itself from the recoil blocks (not shown) on the receiver, and then to move rearwards horizontally, driving the hammer back until the latter is caught and held by the sear and trigger. In the meantime the extractor (82) has pulled a cartridge from the belt, and, assisted by two spring cartridge guides (80 and 81), of which only (80) is shown, deposits it on the carrier (21); the projection (95) strikes the feed-lever (66), and moves the feed mechanism so as to prepare to revolve the feedwheel and place a fresh cartridge ready for the next round; and as the slide completes its travel backwards, the cam (98) strikes the dog (23) and slightly depresses it (the spring (25) yielding), the _ H carrier and cartridge on it consequently rising a little and falling again (this latter action is incidental only to the form of the parts, and is not a necessity).
The retracting springs now react and pull the slide forwards; the cam (98) strikes the dog (23), which, as the spring arrangement is of the " non-return " class, does not yield but is depressed, and the FIG. 20. - Hotchkiss Gun mounted.
front of the carrier and the cartridge on it are therefore raised sharply, and the latter placed in the path of the bolt. The bolt being now pulled forwards, the cartridge is driven off the carrier into the breech, and the bolt locked by the pin (14), causing the bolt to drop in front of the recoil blocks; the carrier is pushed down flat by the advance of the cam lug (98), the trip releases the sear (to), and the projection (96) pushes back the feed lever, completing the action of feeding a fresh cartridge forward. The position shown in fig. 17 is now resumed.
It is clear that were the trigger kept permanently pulled the gun would fire immediately the bolt was locked and the sear (to) depressed, and the action would become automatic.
The object of two detents, though now probably obvious, may here be explained. The whole action of the gun depends upon the hammer after it is pushed back by the bolt being held back until the bolt has gone completely forwards and locked the breech. If only the trigger detent existed, and that were kept pressed down, the hammer, after being pushed back by the bolt, would immediately follow up the latter, and might fire the cartridge prematurely, or fail to fire it at all; hence the use of the sear in addition to the trigger.
To cock the lock, or work the mechanism by hand, the gas lever is pulled round by the pin (30) provided for the purpose, and by this means the gun is prepared for firing. A brass tongue on the end of the belt is pushed through the opening above the feed-wheel and then pulled from the other side of the gun as far as it will go. This places a cartridge in front of the extractor, and if the gas lever be now pulled right back and let go, this cartridge is placed in the breech as already described, and the gun is ready for firing. If it be desired to remove a belt from the feed, a button (68) is pressed and the feed-wheel is then free to revolve backwards.
The gun is sighted with the ordinary rifle-pattern sights, up to 2000 yds. or more if required. It weighs about 40 lb, and can fire about 400 rounds per minute as usually adjusted, though this rate can be increased. There is no means of altering the gas pressure in the field as with the Hotchkiss.
[The diagrams have been made from drawings, by permission of the Colt Arms Company.] Comparing the principle of employing a recoiling barrel with that of using a portion of the gas, the advantages of the former are that the recoil is made to do useful work instead of straining the gun and mounting in its absorption; the latter system, however, has undoubtedly the advantage in simplicity of mechanism (the Hotchkiss is extraordinarily simple in construction for an automatic gun), and in the large margin of power for working the mechanism with certainty in all conditions of exposure to climate, dust, and dirt. While inferior in this respect, it is nevertheless the fact that the Maxim has proved itself in the field even in savage warfare in the roughest country to be a very efficient and powerful weapon.
The great difficulty which has to be met in all single-barrel machine guns is the heating of the barrel. The 71 pints of water in the water-jacket of the Maxim gun are raised to boiling point by 600 rounds of rapid fire - i.e. in about i 2 minutes - and if firing be continued, about i i pints of water are evaporated for every r000 rounds. Assuming that the operation is continuous, the rate of waste of energy due to heat expended on the water alone is equivalent to about 20 horse-power (294 foot tons per minute). The water-jacket acts well in keeping down the temperature of the barrel; but apart from the complications L ??
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_? -...._.-.-' -? - ? ??` ` FIG. 21. - Tripod mounting (Mark IV.), for British Maxim.
entailed by its use, the provision of water for this purpose is at times exceedingly troublesome on service. In the Hotchkiss and Colt guns, which have no water-jacket, an attempt is made to meet the heating, in the one by the radiator, and in the other by a very heavy barrel.
One of the most modern types of gun is the Schwarzlose, which is manufactured at Steyr in Austria, and was adopted by the Austrian army in 1907. This weapon is remarkable for its simplicity. There are only 10 main working parts, and any of these can be replaced in a few seconds. It is operated by the gases of the explosion, has a water-jacket that allows 3000 rounds to be fired without refilling. The " life " of the gunbarrel is stated to be 35,000 rounds without serious loss of accuracy. The weight of the gun is 37.9 lb. It is a belt loader.
The Italian Perino gun, adopted in 1907, is a recoil-operated weapon, and is loaded by a metal clip. The Skoda gun, some of which type are used in Japan and China, is loaded by a hopper feed, and is gas-operated. The Bergmann gun is a belt loader, but the belt passes down a " gravity feed " an arrangement which saves a number of working parts.
One defect common to all is that it is by no means easy to proportion the fire to the target, as there are only two rates of fire, viz. rapid automatic and slow single shots. To fire a single shot requires practice, since the gun will fire some 7 shots in one second, and to press the trigger and remove the finger or thumb instantly, and at the same time be ready to traverse to a fresh target, requires considerable skill. The result of these difficulties is that the target when struck is often riddled with bullets when one would have sufficed. The aiming of the gun, when rapid fire is taking place, may also be difficult even on firmly fixed mountings, owing to vibration. The greater delicacy of the modern machine gun has been alluded to above.' Nevertheless the advantages of safety, steadiness and lightness which the automatic weapon possesses, have ensured its victory over the older type of weapon, and although the simple strong and well-tried Gatling still has its advocates, every civilized army has adopted one or more of the automatic types.
Organization And Tactical Employment 2 Although machine-gun tactics are still somewhat indefinite, at least there are well-marked tendencies which have a close relation to the general tactical scheme or doctrine adopted by each of the various armies as suited to its own purposes and conditions. For many years before the South African and Manchurian wars, the machine-gun had been freely spoken of as " a diabolical weapon before which nothing could live," but this did not contribute much to the science of handling it. Most military powers, indeed, distrusted it - actuated perhaps by the remembrance of the vain hopes excited by the canon d balles. It was not until the second half of the war of 1904-05 that the Japanese, taught by the effective handling of the Russian machine-guns at Liao-Yang, introduced it into their field armies, and although Great Britain had provided every regular battalion with a Maxim-gun section some years before the Boer War,' and a Volunteer corps, the Central London Rangers (now 12th bn. London Regiment) had maintained a (Nordenfeldt) gun section since 1882, instruction in the tactics of the weapon was confined practically to the simple phrase " the machine-gun is a weapon of opportunity." More than this, at any rate, is attempted in the drill-books of to-day.
One important point is that, whether the guns are used as an arm, in numbers, or as auxiliaries, in sections, they should be free to move without having to maintain their exact position relatively to some other unit. It was in following the infantry firing lines of their own battalion over the open that the British Maxims suffered most heavily in South Africa. Another of equal importance is that the machine guns must co-operate with other troops of their side in the closest possible way; more, in this regard, is demanded of them than of artillery, owing to their mobility and the relative ease of obtaining cover. A third factor, which has been the subject of numerous experiments, is the precise value of a machine-gun, stated in terms of infantry, i.e. how many rifles would be required to produce the fire-effect of a machine-gun. A fourth - and on this the teaching of military history is quite definite - is the need of concealment and of evading the enemy's shrapnel. These points, once the datum of efficiency of fire has been settled, resolve themselves into two conclusions - the necessity for combining independence and co-operation, and the desirability of Mercury's winged feet and cap of darkness for the weapon itself. It is on the former that opinions in Europe vary most. Some armies ensure co-operation by making the machine-gun section an integral part of the infantry regimental organization, but in this case the officer commanding it must be taught and allowed to shake himself free from his comrades and immediate superiors when necessary. Others ensure co-operation of the machineguns as an arm by using them, absolutely free of infantry control, on batteries; but this brings them face to face with the risks of showing, not one or two low-lying gun-barrels, but a number of carriages, limbers and gun teams, within range of the enemy's artillery.
' At San-de-pu 1905 the Japanese machine-guns (Hotchkiss) sustained damage averaging, 1 extractor broken per gun, I jam in every 300 rounds. It should be mentioned, however, that the machine-gun companies were only formed shortly before the battle. 2 In field operations only. For siege warfare see Fortification And Siegecraft.
French experiments are said to show that the fire-power of a machine-gun is equal to that of 150-200 rifles at exactly known range, and to 60-80 rifles at ranges judged by the French " instantaneous range-finder." The German drill-book gives it as equal approximately to that of 80 rifles on an average. The distinction of known and unknown ranges is due to the fact that the " cone of dispersion " of a large number of bullets in collective infantry fire is deeper than that of machine-gun fire. The latter therefore groups its bullets much more closely about the target if the latter is in the centre of the cone - viz. at known ranges - but if the distance be misjudged not only the close central group of 50% of the shots, but even the outlying rounds may fall well away from the target. At soo yards range the " 50 per cent. zone " with the Maxim gun is only 34 yards deep as compared with the 60 yards of a half-company of rifles. 3 The accuracy of the gun is more marked when the breadth of the cone of dispersion is taken into account. The " 75 per cent." zone is in the case of the machine-gun about as broad at 2000 yards as that of collective rifle fire at 500. At the School of Musketry, South Africa, a trial between 42 picked marksmen and a Maxim at an unknown range at service targets resulted in 408 rounds from the rifles inflicting a loss of 54% on the enemy's firing line represented by the targets, and 228 rounds from the Maxim inflicting one of 64%. Another factor is rapidity of fire. It is doubtful if infantry can keep up a rate of 12 rounds a minute for more than two or three minutes at a time without exhaustion and consequent wild shooting. The machine-gun, with all its limitations in this respect, can probably, taking a period of twenty or thirty minutes, deliver a greater volume of fire than fifty rifles, and assuming that, by one device or another (ranging by observing the strike of the bullets, the use of a telemeter, or the employment of " combined sights ") the 75% cone of bullets has been brought on to the target, that fire will be more effective. The serious limiting condition is the need of accurate ranging. If this is unsatisfactory the whole (and not, as with infantry, a part) of the fire effect may be lost, and if the safe expedient of " combined sights " 4 be too freely resorted to, the consumption of ammunition may be out of all proportion.
The vulnerability of machine-guns is quite as important as is their accuracy. At a minimum, that is when painted a " service " colour, manoeuvred with skill, and mounted. on a low tripod - in several armies even the shield has been bility. rejected as tending to make guns more conspicuous - the vulnerability of one gun should be that of one skirmisher lying down. At a maximum, vulnerability is that of a small battery of guns and wagons limbered up.
At | 500 yds. | 1,000 yds. | 1,500 yds. | 2,000 yds. |
S.L.E. Rifle | 220 yds. | 120 yds. | loo yds. | - |
Maxim Gun | 150 yds. | 70 yds. | 60 yds. | 50 yds. |
Mobility comes next. The older patterns of hand-operated guns weighed about 90 lb at least, without carriage, the earlier patterns of Maxims (such as that described in detail above) about 60 lb. But the most modern Maxims Mobility. weigh no more than 35 lb. Now, such weapons with tripods can be easily carried to and fro by one or two men over ground that is impracticable for wheeled carriages. Nevertheless, 3 For practical purposes in the field, the " effective " beaten zone, containing 75% of the bullets, is the basis of fire direction both for the machine-gun and the rifle. The depths of these " effective " zones are on an average: - 4 " Combined sights " implies firing with the sights set for two different ranges, the usual difference being 50 yds. With grouped machine guns, " progressive fire " with elevations increasing by 25 yds. is used. This artificially disperses the fire, and therefore lessens the chance of losing the target through ranging errors. One ingenious inventor has produced a two-barrelled automatic, in which the barrels are permanently set to give combined elevations. The British memorandum of August 1909 seems to regard the facility of employing combined sights as the principal advantage of the battery over the section.
wheeled carriages are often used for the ordinary transport of the gun and its equipment, especially with the heavier models. The simplest machine-gun has a number of accessories - tools, spare parts, &c. - that must be conveyed with it, and at the least a pack-animal is indispensable.
Reducing these conditions to a phrase - the fire effect that can be reasonably expected of machine-guns is that of fifty or sixty rifles, the space it takes up in the line can be made to equal that occupied by two men, and it possesses by turns the speed of a mounted man and the freedom of movement of an infantryman.
The use of the machine-gun (apart from savage warfare) that first commended itself in Europe was its use as a mobile reserve Machineof fire. Now, the greatest difficulty attending the Guns as a employment of a reserve of any sort is the selection Reserve of of the right moment for its intervention in the Fire. struggle, and experience of manoeuvres of all arms in Germany, where " machine-gun detachments " began to be formed in 1902, appears to have been that the machine-guns always came into action too late. On the other hand, the conditions of the cavalry versus cavalry combat were more favourable. Here there was every inducement to augment firepower without dismounting whole regiments for the purpose. Moreover, vulnerability was not a fatal defect as against a battery or two of the enemy's horse artillery, whose main task is to fire with effect into the closed squadrons of mounted men on the verge of their charge, and above all to avoid a meaningless duel of projectiles. The use of wheeled carriages was therefore quite admissible (although in fact the equipment was detachable from the carriage) and, given the rapidity and sudden changes of cavalry fighting, both desirable and necessary. Thus, thanks Machine- to the machine-gun, the eternal problem of increasing Guns with the fire-power of mounted troops is at last partially Cavalry. solved, and the solution has appealed strongly both to armies exceptionally strong in cavalry, as for example the German, and to those exceptionally weak in that arm - Denmark, for instance, having two or three light machine-guns per squadron. The object of the weaker cavalry may be to cause the onset of the stronger to dwindle away into a dismounted skirmish, and this is most effectually brought about by a fire concentrated enough and heavy enough to discourage mounted manoeuvres; on the other hand, the stronger party desires to avoid dismounting a single squadron that can be kept mounted; and this too may be effected by the machine-guns. What the result of such a policy on both sides may be, it would be hard to prophesy, but it is clear at any rate that, whether on the offensive or on the defensive, skilfully handled machine-guns may enable a cavalry commander to achieve the difficult and longed-for result - to give the law to his opponent. The principal difference between the tactics of the stronger and those of the weaker cavalry in this matter is, that it is generally advantageous for the former to act by batteries and for the latter to disperse his machine guns irregularly in pairs.
It is not merely in cavalry tactics that the question of " section or battery " arises. It deeply affects the machine-gun tactics in the battle of all arms, and it is therefore decided in each service by the use to which the guns are intended to be put. One powerful current of opinion is in favour of employing them as a mobile reserve of fire. This opinion was responsible for the creation of the German machine-gun batteries or " detachments "; and in the drill regulations issued in 1902 for their guidance it was stated that the proper use of machine-guns required a comprehensive and accurate knowledge of the general situation, and that therefore only the superior leaders could employ them to advantage. Manoeuvre experience, as mentioned above, has caused considerable modification in this matter, and while the large machine-gun " detachments " are now definitely told off to the cavalry, new and smaller units have been formed, with the title " companies " to indicate their attachment to the infantry arm. A recent official pronouncement as to the role of the " companies " (Amendments to Exerzierreglement fib' die Infanterie, 1909) is to the effect that the companies are an integral part of the infantry, that their mission is to augment directly the fire of the infantry, and that their employment is in the hands of the infantry regimental commander, who keeps the guns at his own disposition or distributes them to the battalions as he sees fit. It must be remembered that the regiment is a large unit, 3000 strong, and the idea of a " mobile reserve of fire " is tacitly maintained, although it has been found necessary to depart from the extreme measure of massing the guns and holding them at the disposal of a general officer. The Japanese regulations state that in principle the machine-gun battery fights as a unit; that although it may be advantageously employed with the ad- Machine- vanced guard to assure the possession of support- Guns in ing points, its true function is to intervene with full Combined effect in the decisive attack, its use in the delaying tactics. action being " a serious error." In France, on the other hand, the system of independent sections is most rigidly maintained; when in barracks, the three sections belonging to an infantry regiment are combined for drill, but in the field they seem to be used exclusively as sections. They are not, however, restricted to the positions of their own battalions; taught probably by the experiences of the British in South Africa, they co-operate with instead of following the infantry. In Great Britain, Field Service Regulations, part i., 1909, lay down that " machineguns are best used in pairs' in support of the particular body of troops to which they belong " (i.e. battalions). " The guns of two or more units may, if required,' be placed under a specially selected officer and employed as a special reserve of fire in the hands of a brigade commander " (corresponding to German regimental commander), but " if an overwhelming fire on a particular point is required, it can be obtained by concentrating the fire of dispersed pairs of guns." More explicitly still, " the movements and fire action of these weapons should be regulated so as to enable them to open fire immediately a favour- able opportunity arises." Contrasting the German system with the French and English, we may observe that it is German tactics as a whole that impose a method of using machine-guns which the Germans themselves recognize as being in many respects disadvantageous. A German force in action possesses little depth, i.e. reserves, except on the flanks where the enveloping attack is intended to be made. Consequently, a German commander needs a reserve of fire in a mechanical, concentrated form more than a British or a French commander, and, further, as regards the decisive attack on the flanks, it is intended not merely to be sudden but even more to be powerful and overwhelming. These considerations tend to impose both the massing and the holding in reserve of machine-guns. The French and British doctrine (see Tactics) is fundamentally different. Here, whether the guns be massed or not, there is rarely any question of using the machine-guns as a special reserve. In the decisive attack, and especially at the culmination of the decisive attack, when concealment has ceased and power is everything, the machine-guns can render the greatest services when grouped and boldly handled. Above all, they must reach the captured crest in a few minutes, so as to crush the inevitable offensive return of the enemy's reserves. The decisive attack, moreover, is not a prearranged affair, as in Germany, but the culmination, " at a selected point, of gradually increasing pressure relentlessly applied to the enemy at all points " (F. S. Regulations). The holding attack, as this " pressure " is called, is not a mere feint. It is launched and developed as a decisive attack, though not completed as such, as it lacks the necessary reserve strength. Here, then, the machine 1 The use of single guns facilitates concealment, but this is outweighed by the objection that when a jam or other breakdown occurs the fire ceases altogether. The use of guns in pairs not only obviates this, but admits of each gun in turn ceasing fire to economize ammunition, to cool down, &c. This is the old artillery principle- " one gun is no gun." 2 In the instructions issued in August 1909 one of the principal advantages of grouped sections is stated to be the neutralization of ranging errors at ranges over woo yards. At a less range, it is laid down, grouped guns form too visible a target, unless the ground is very favourable.
gun is best employed in enabling relatively small forces to advance - not to assault - without undue loss, that is, in economizing rifles along the non-decisive front.' Withal, there are certain principles, or rather details of principle, that find general acceptance. One of these is the employment of machine-guns with the advanced guard. In this case the value of the weapon lies in its enabling the advanced guard both to seize favourable ground and points of support without undue effort and to hold the positions gained against the enemy's counter-attack. This applies, further, to the preliminary stages of an action. 2 Another point is that as a rule the most favourable range for the machine-gun is " effective infantry," i.e. 600-1400 yards (which is, mutatis ntutandis, the principle of Reffye's mitrailleuse). Its employment at close infantry range depends entirely on conditions of ground and circumstances - even supposing that the handiest and most inconspicuous type of weapon is employed. Thirdly - and this has a considerable bearing on the other points - the machine-gun both concentrates many rifles on a narrow front, and concentrates the bullets of many rifles on a narrow front. The first clause implies that it can be used where there is no room (physically or tactically) for the fifty or eighty riflemen it represents (as, for instance, in some slight patch of cover whence the gun can give effective cross-fire in support of the infantry attack, or in front of an advanced post, or can watch an exposed flank), and, further, that it can be swung round laterally on to a fresh target far more easily than a line of excited and extended infantry can be made to change front. The second means that the exit of a defile, an exposed turn in a lane or on a bridge, can be beaten by closely grouped fire at greater distances and with greater accuracy than is attainable with riflemen.
Further, the waste of ammunition and the strain on the weapon caused by unnecessarily prolonged firing at the rate for which its mechanism is set - varying between 350 and 700 rounds a minute - have caused it to be laid down as an axiom in all armies that machine-guns shall deliver their fire by " bursts " and only on favourable targets.
Lastly, the reports, both of observers and combatants, are unanimous as to the immense moral effect produced on the combatants by the unmistakable drumming sound of the machine-guns, an effect comparable even at certain stages of the fight to the boom of the artillery itself.
Equipments in Use. - Practically all nations have abandoned the simple wheeled carriage for machine-guns, or rather have adopted the tripod or table mounting, reserving the wheeled vehicle for the mere transport of the equipment. Since the Russo-Japanese War the tendency has been to sacrifice the slight protection afforded by the shield in order to reduce visibility. The Japanese, who had unprotected field guns and protected machine-guns in the war, found it advisable to reverse this procedure, for reasons that can easily be guessed in the cases of both weapons.
The service machine-gun is the Maxim 303 in., adjusted to a rate of 450 rounds per minute and sighted (except in a few weapons) to 2900 yards. The original patterns weighed 60 lb, and were mounted on wheeled carriages. In the latest pattern, however, the weight of the gun has been reduced to 36 lb. The old Mark I. cavalry Maxim carriage, complete with gun, ammunition, &c., weighed 13 cwt. behind the traces, and the gun was 5 ft. above the ground. It had no limber. The Mark III. cavalry carriage is much lower (3' 6" from the ground to the gun), and the gun carriage and limber together only weigh 13 cwt. Of infantry carriages there were various marks, one of which is shown in fig. 6. Now, however, all mountings for infantry are of the tripod type, transported on wheels or on pack animals, but entirely detachable from the travelling mounting, and in action practically never used except on the tripod. The Mark IV. tripod mounting, of which a The British instructions of August 1909 direct the grouping of guns in the decisive attack (if circumstances and ground favour this course) and their use by sections " if the brigade is deployed on a wide front," i.e. on the non-decisive front; further, that it is often advisable to disperse the sections of the leading battalions and to group those of units in reserve. In any case, while the 2, 4 or 8 guns must be ready to act independently as a special " arm," their normal work is to give the closest support to the neighbouring infantry (battalion in the holding, brigade in the decisive, attack).
2 In Germany, however, the tendency is not to make holding attacks but to keep the troops out of harm's way (i.e. too far away for the enemy to counter-attack) until they can strike effectively.
sketch is given in fig. 21, weighs 48 lb. The total weight of the fighting equipment is thus 84 lb only - an important consideration now that in action the gun is man-carried. The gun can be adjusted to fire at heights varying from 2' 6" to I' 22" only from the ground; in its lowest position, then, it is a little lower than the head of a man firing lying. All the later infantry machine-gun equipments are for pack transport and have no shields.
The organization of the machine-gun arm is regimental. Each cavalry regiment and each infantry battalion has a section of 2 guns under an officer.
The guns in use are the Puteaux and the Hotchkiss. The unit is the regimental 2-gun section. Four-horsed carriages with limbers are used with cavalry, tripods with the infantry sections. No shields. Weight of the Hotchkiss in use, 50 lb; of the tripod, 70 lb. The Puteaux was lightened and improved in 1909.
As already mentioned the German machine-gun units are classed as cavalry " detachments " and infantry " companies." The " detachment " or battery consists of 6 guns and 4 wagons, the vehicles being of a light artillery pattern and drawn by four horses. The gun (Maxim) weighs 61 lb, and its fighting carriage 110 lb. The " companies " have also 6 guns and 4 wagons, but the equipment is lighter (two-horse), and is not constructed on artillery principles, nor are the guns fired from their carriages as are those of the " detachments." The weight of the gun is 38 lb, and that of the fighting carriage 75 (some accounts give 53 for the latter), the difference between these weights and those of the mounted equipments, affording a good illustration of the difference in the tactical requirements of the cavalry and of the infantry types of gun. The fighting carriage is a sort of sledge, which is provided with four legs for fire in the highest position, but can of course be placed on the ground; the height of the gun, therefore, can be varied from 3' 6" to 6". The sledges can be dragged across country or carried by men stretcher fashion, and sometimes several sledges are coupled and drawn by a horse.
The Japanese Hotchkiss, as modified since the war with Russia, is said to weigh 70 lb, and its tripod mounting 40. Each regiment of infantry has a six-gun battery and each cavalry brigade one of eight guns. Pack transport is used.
Since the war eight-gun companies have been foamed in the infantry regiments, and each cavalry regiment has been provided with two guns. The var organization is, however, unknown. Both wheel and pack transport are employed for travelling, but the guns are fought from tripods. Early and somewhat heavy patterns of Maxim (with shield) are chiefly used, but. a great number of very light guns of the Madsen type have been issued.
The Austrian gun is the Schwarzlose, of which some details are given above. Pack transport is used, one mule taking the whole equipment with moo rounds. Weight of the gun 37.9 lb, of the tripod 41 lb. The height of the tripod can be varied from 94 in. to 2 ft. above the ground. It is proposed that each cavalry regiment should have four guns, and each infantry regiment two. Switzerland adopted the Maxim in 1902. It is used principally as a substitute for horse artillery. Denmark and other small states have adopted the Madsen or Rexer light-type guns in relatively large numbers, especially for cavalry. In the United States the British organization was after many trials adopted, and each infantry and cavalry' regiment has a two-gun section of Maxims, with tripod mounting and pack transport.
See P. Azan, Les premieres mitrailleuses (" Revue d'Histoire de l'Armee," July 1907); Le Canon a balles,1870-1871(" Revue d'Hist. de l'Armee, 1909); Lieut-Colonel E. Rogers in ' Journal R. United Service Institution " of 1905; Capt. R. V. K. Applin, Machine-gun Tactics (London, 1910) and paper in " J. R. United Service Inst." (1910); War Office Handbook to the Maxim gun (1907); Capt. Cesbron Lavau, Mitrailleuses de cavalerie; Lieut. Buttin, L'emploi des mitrailleuses d'infanterie; Major J. Goots, Les Mitrailleuses (Brussels, 1908); and Merkatz, Unterrichtsbuch fiir die Masch.- Gewehrabteilungen (Berlin, 1906); Korzen & Kiihn, Waffenlehre, &c.
(C. F. A.) '[[Macias' [0 Namorodo]]] (ft. 1360-1390), Galician trovador, held some position in the household of Enrique de Villena. He is represented by five poems in the Cancionero de Baena, and is the reputed author of sixteen others. Macias lives by virtue of the romantic legends which have accumulated round his name. The most popular version of his story is related by Hernan Nunez. According to this tradition, Macias was enamoured of a great lady, was imprisoned at Arjonilla, and was murdered by the jealous husband while singing the lady's praises. There may be some basis of fact for this narrative, which became a favourite subject with contemporary Spanish poets and later writers. Macias is mentioned in Rocaberti's Gloria de amor as the Castilian equivalent of Cabestanh; he afforded a theme to Lope de Vega in Porfiar hasta morir; in the 10th century, at the outset of the romantic movement in Spain, he inspired Larra (q.v.) in the play Macias and in the historical novel entitled El doncel de Don Enrique el doliente. See H. A. Rennert, Macias, o namorado; a Galician trobador (Philadelphia, 1900); Theodore J. de Puymaigre, Les vieux auteurs castillans (1889-1890), i. 54-74; Cancioneiro Gallego-Castelhano (New York and London, 1902), ed. H. R. Lang; Christian F. Bellermann, Die alten Liederbiicher der Portugiesen (Berlin, 1840).
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