US2339521A - Gun sight - Google Patents
Gun sight Download PDFInfo
- Publication number
- US2339521A US2339521A US2339521DA US2339521A US 2339521 A US2339521 A US 2339521A US 2339521D A US2339521D A US 2339521DA US 2339521 A US2339521 A US 2339521A
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- US
- United States
- Prior art keywords
- sight
- airplane
- gun
- target
- bore
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 238000010304 firing Methods 0.000 description 24
- 230000000875 corresponding Effects 0.000 description 8
- 230000001264 neutralization Effects 0.000 description 8
- 230000003111 delayed Effects 0.000 description 6
- 230000004048 modification Effects 0.000 description 6
- 238000006011 modification reaction Methods 0.000 description 6
- 239000003381 stabilizer Substances 0.000 description 6
- 238000006073 displacement reaction Methods 0.000 description 4
- 230000000994 depressed Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000003028 elevating Effects 0.000 description 2
- 239000007788 liquid Substances 0.000 description 2
- 230000003287 optical Effects 0.000 description 2
- 230000000087 stabilizing Effects 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41A—FUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
- F41A27/00—Gun mountings permitting traversing or elevating movement, e.g. gun carriages
- F41A27/06—Mechanical systems
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41G—WEAPON SIGHTS; AIMING
- F41G1/00—Sighting devices
- F41G1/06—Rearsights
- F41G1/08—Rearsights with aperture ; tubular or of ring form; Peep sights
Definitions
- This invention relates to gun'sights and particularly to sights for guns that are mounted in fixed positions on a firing ship such as, for example, an airplane.
- the problem is further complicated because I the rate of change of bearing of the target and the corresponding displacement of the sight is continually changing as a firing airplane closes in from one side of a target, such as a moving simple sight for a gun that is fixedly mounted on an airplane by providing a sight mounted on the airplane'ior rotation about an axis parallel to the horizontal plane of the airplane for elevation corrections and for rotation about an axis deflection corrections and motion transmitting connections between the maneuvering control levers of the airplane and the sight whereby the sight is positioned relative to the bore of the gun for deflection and elevation corrections.
- a target such as a moving simple sight for a gun that is fixedly mounted on an airplane by providing a sight mounted on the airplane'ior rotation about an axis parallel to the horizontal plane of the airplane for elevation corrections and for rotation about an axis deflection corrections and motion transmitting connections between the maneuvering control levers of the airplane and the sight whereby the sight is positioned relative to the bore of the gun for deflection and elevation corrections.
- Another object of the invention is to provide in such a sight mechanism an adjustment in the motion transmitting connections between the.
- maneuvering controls and the sight to vary the setting of the sight in accordance with the time of flight or range of the target.
- Another object of the invention is to provide in such a sight mechanism a delay action device in the said motion transmitting means to compensate for the inertia of the airplane against changes in direction and therefore to delay the means.
- the only efiect of the speed of the airplane is to increase the velocity of the projectile. As the speed is substantially constant it may be allowed for in applying the balhstic factors for the gun.
- the position of the stabilizers is a measure of the rate of change of vertical angular position of the airplane and is therefore a measure of the rate of change in elevation of the target with referenceto the firing plane when the sight is maintained on the target.
- Fig. 1 is an isometric view of the mechanisms of the invention as applied to an airplane;
- Fig. 2 is a plan view of an airplane in its consecutive positional relation to another airplane at which the first airplane is firing;
- Fig. 3 is an isometric view partly in section of a modification of the sight and mechanism associated therewith by which the sight is adjusted in position in accordance with the range of the target and includes a motion delay device in the sight adjusting means;
- Fig. 4 is -a cross section view of one form of a delay action device.
- the outline represents an airplane on which i fixedly mounted a gun represented generally as 2, with its bore parallel to the fore and aft centerline or axis of the airplane.
- the sighting mechanism is represented generally as 3.
- the outline 4 represents another airplane, which is the target.
- the direction of the line of sight is represented byline 5 and the direction of flight of the firing airplane and the path of the projectile is represented by line 6.
- the point of intercept of the projectile and the target 4 is represented as a cross 1.
- the angle between lines 5 and 6 is the deflection (Ds)
- Ds deflection
- Fig. 1 there is shown .a conventional maneuvering control system of an airplane.
- the vertical rudder 8 is moved by wires 9 and I0 fastened to foot-operated control ba'r H which is pivotally supported at l2.
- -Ailerons l3 are moved by wires l4 and I5 by lever I6 to which wire I5 is attached.
- Lever I6 is moved by shaft l1 to which it is pinned and shaft I1 is moved by lever l8 through bracket frame
- the horizontal stabilizers l9 are moved by wires and 2
- Levers I 24 and 25 are pinned to shaft 26 which is pinned to lever
- a conventional sight 21 is mounted on a yoke 28 and a downwardly extending shaft 29 which is free to rotate in bushing 30.
- the ends of which are connected to control bar II and lever It by a wire 32 which passes from one end of lever 3
- the bracket 35 of pulley 33 is connected by wire 36 to one end of control bar II and the bracket 31 of pulley 34 is connected by wire 38 to the other end of control bar II.
- the length of the wires mentioned herein are so adjusted that when all of the maneuvering control levers are in their mid or neutral positions, the optical axis of the sight 21 is parallel to the horizontal center line of the airplane and the bore of the gun 2 which is secured to the airplane by base 2a.
- the sight 2! is located on the airplane so that the pilot in his normal seated position at the maneuvering controls may conveniently look through the sight.
- Guide pulleys 43 are supplied as occasion demands.
- the arm 39 shown in Fig. 2 is replaced by a hollow arcuate frame 44 in which slides'arcuate rack 45.
- Rack 45 is in mesh with pinion 46 secured to the hollow shaft 41 which is connected to knob 48 by gears 49, shaft 5
- Knob 48 is settable in accordance with the time of flight as a function of range.
- Rack 45 is made arcuate and has a radius of curvature substantially equal to the distance from the point 53 where wire 4
- Rack 45 is made arcu'ate so that the raising and lowering of rack 45 with adjustments for changes in range will not move the sight about its horizontal axis when the horizontal stabilizers I9 are in their neutral or normal positions, except that the sight may be depressed relative to the gun as the range is increased by selecting the amount of curvature to rack 45. This shifting of the sight is desirable to allow for the curvature of the trajectory.
- a pair of springs 55 are inserted in wires 4
- Correcting the deflection imparted to the sight for range is accomplished by providing two racks 51 and 58 which are moved in guide block 59 by pinion 60 connected to shaft 6
- Shaft BI is connected to shaft 52 by gears 62.
- the yoke 28 is solidly connected with guide block 59 by tube 63 which is rotatably mounted in bushing 30. It will thus be seen that the angular movement of tube 63, yoke 28 and sight 21 per unit linear movement of wires 32 will be inversely proportional to the distances from the points of fastening of the wires 32 on the racks-51 and. to the axis of shaft 6
- a spring 64 is inserted in each of the wires 32 to compensate for the variations in the distances from pulleys 34 and 33 from the outer ends of racks 51 and 58, as the positions of racks 51 and 58 are changed relative to the axis of shaft 6i and in addition to provide for delayed action of the sight after the movement of the maneuvering controls.
- the sight may be offset from the bore of the gun to allow for drift, which is substantially proportional to the time of flight by assembling the mechanism with block 59 and bars 51 and 58 at a slight angle to the control bar ll.
- the sight will be ofiset from the bore of the gun an amount required to correct for the drift of the projectile in addition to the amount caused by the position of the maneuveringcontrols.
- the delay action device shown generally as III is pivotally mounted on arm ll secured to bracket 28.
- the stem 61 is pivotally connected to lug 12 on frame 44. Because of the delay action device I0 the'normally balanced condition of the springs 55 is disturbed by actuation of the stabilizing or elevating control, this unbalanced condition then acts on the piston of the delay action device to displace oil at a rate depending on .the opening I of the valve 68 until the springs have returned to their normal balanced condition and the position of the sight agrees with the position of the. control.
- the delay action device shown generally as 13 is pivotally mounted on lug 14 secured to the frame of the airplane.
- the stem 61 is pivotally connected to arm I5 extending from guide block 59.
- the sight moves angularly relative to the plane in a direction opposite to that in which the plane is anguthe target his'tendency is to greatly overcorrect the changein direction of the airplane for any change in conditions with the result that a hunting action of the gunand sight is set up relative to the target.
- a sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft comprising means positionable to control the angular rate of turning of the craft, a sight mounted for angular movement relative to the bore of the gun, and sight adjusting means actuated in accordance with the position of the control means to angularly position the sight relative to the bore of the the fore and aft axis of a dirigible craft comprls ing means positionable to control the angular rate'of turning of the craft about an axis perpendicular to the fore and aft axis, a sight corresponding to the position of the rudder conmounted for angular movement relative to the bore of the gun about an axis parallel to the said perpendicular axis, and sight adjusting means actuated in accordance with the position of the control means to angularly position the sight about its said axis relative to the'bore of the gun.
- a sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft comprising means positionable to control the angular rate of turning of the craft about an axis perpendicular to the fore and aft axis, a sight mounted for angular movement.
- sight adjusting means actuated in accordance with the position of the control means to angularly position the sight about its said axis relative to the bore of the gun
- said sight adjusting means including'an element settable inac- I the fore and aft axis of a dirigible craft, comprising means positionable to control the angular rate of turning of the craft, a sight mounted. for angular movement relative to the bore of the gun, sight adjusting means actuated in accordance with the -position of the control means to angularly position the sight relative to the bore of the gun, and means operably connected with the adjusting means for delaying the action of the said adjusting means.
- a sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft comprising means positionable to control the angular rate of turning of the craft, a sight mounted for angular movement relative to the bore of the gun, sight adjusting means actuated in accordance with the position of the control means to angularly position the sight relative to the bore of the gun, said sight adjusting means including an element settable in accordance with the range of the target for proportionally modifying the effect of the adjusting means in positioning the sight, and
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Toys (AREA)
Description
i E. P. ROSS Jan. 18, 1944.
GUN SIGHT Filed Feb 8, 1941 2 Sheets-Sheet 1 INVENTOR Eliiaw 1 3E055 ATTORNEY Jan. 18,1944.
E. P. Ross GUN SIGHT Filed Feb. 8. 194] 2 Sheets-Sheet 2 INVENTOR Patented Jan. 18, 1944 UNITE s'r 'rs PATENT Ford Instrument Company. Inc.,
Long Island City, N. Y., a corporation of New York Application February 8, 1941, Serial No 377,991
(on. Bil-37.5)
Claims.
This invention relates to gun'sights and particularly to sights for guns that are mounted in fixed positions on a firing ship such as, for example, an airplane.
When firing a gun fixedly mounted on an airplane at a stationary target the pilot merely has -moven i ent of the said motion transmitting to direct the plane, and thereby the gun, at the a target. When firing at a target which is moving across the line of flre the pointing of a gun fixedly mounted on an. airplane has been a diflicult problem because the gun has to be trained and elevated with reference to the target by adjusting the horizontal and azimuth position of the airplane relative to the line of sight and it is necessary for the pilot to approximate the angle that the airplane must lead or point ahead of the target so that the fired projectile will intercept the moving target.
The problem is further complicated because I the rate of change of bearing of the target and the corresponding displacement of the sight is continually changing as a firing airplane closes in from one side of a target, such as a moving simple sight for a gun that is fixedly mounted on an airplane by providing a sight mounted on the airplane'ior rotation about an axis parallel to the horizontal plane of the airplane for elevation corrections and for rotation about an axis deflection corrections and motion transmitting connections between the maneuvering control levers of the airplane and the sight whereby the sight is positioned relative to the bore of the gun for deflection and elevation corrections.
Another object of the invention is to provide in such a sight mechanism an adjustment in the motion transmitting connections between the.
maneuvering controls and the sight to vary the setting of the sight in accordance with the time of flight or range of the target.
Another object of the invention is to provide in such a sight mechanism a delay action device in the said motion transmitting means to compensate for the inertia of the airplane against changes in direction and therefore to delay the means.
It is well known in the art or maneuvering airplanes that in executing a turn or change of direction of flight in space, say to the rightthe rudder is moved to the right and the plane is banked with the right wing down by means of the ailerons. As the turning rate is substantially proportional to the extent of movement of the rudder and aileron surfaces from their mid or neutral positions, the positions of the rudder and the aileron controls from their mid or neutral positions may be taken as a measure of the rate of turning.
It is also well known in the fire control art that the horizontal displacement of the sight from the bore of the gun (deflection or Ds) is proportional to the rate of change of bearing (dB) of the target and the time of flight (t) of the projectile and that the time of flight of the projectile isa function of the range (R). This relation is taught in Patent 1,067,859 and may be expressed in the form of an equation:
. nsdB-t (1) or I It therefore iollows that if one airplane is flring at another and the pilot is changing its course parallel to the vertical axis of the airplane ior' progressively in order to keep the gun sight on the target as he closes in on the target from one of the movement of the airplane will intercept the target. It will be noted that the airplane serves as a gun mount and the steering of the airplane corresponds to training of the mount.
The only efiect of the speed of the airplane is to increase the velocity of the projectile. As the speed is substantially constant it may be allowed for in applying the balhstic factors for the gun.
Likewise, the position of the stabilizers (horizontal rudders) is a measure of the rate of change of vertical angular position of the airplane and is therefore a measure of the rate of change in elevation of the target with referenceto the firing plane when the sight is maintained on the target. The correction in elevation (Us) is proportional to the product of the rate oi-change oi elevation ME) and the time of flight (t) and may be expressed by the equation Us=dE'-t (3) Since the time of flight (t) is a function of the range (R), Equation 3 may be expressed as Us=dE IR (4) Therefore if an airplane is firing at another airplane and changing its angle of vertical position progressively as it closes in on the target and the sight is displaced from the gun in elevation in proportion to the instantaneous rate of change of elevation and the range, and if the the movement of the sight for the range of the target. This embodiment of the invention would be used when smaller caliber guns are fired. The ranges of these guns are naturally short-and the correction for range may be introduced for some selected average value. A modification of the mechanisms will .later be disclosed in which adjustments are made in the position of the sight with reference to the bore of the gun in accordance with the actual range of the target.
In the drawings:
Fig. 1 is an isometric view of the mechanisms of the invention as applied to an airplane;
Fig. 2 is a plan view of an airplane in its consecutive positional relation to another airplane at which the first airplane is firing;
Fig. 3 is an isometric view partly in section of a modification of the sight and mechanism associated therewith by which the sight is adjusted in position in accordance with the range of the target and includes a motion delay device in the sight adjusting means; and
Fig. 4 is -a cross section view of one form of a delay action device.
Referring to Fig. 2, the outline represents an airplane on which i fixedly mounted a gun represented generally as 2, with its bore parallel to the fore and aft centerline or axis of the airplane. The sighting mechanism is represented generally as 3. The outline 4 represents another airplane, which is the target. The direction of the line of sight is represented byline 5 and the direction of flight of the firing airplane and the path of the projectile is represented by line 6. -The point of intercept of the projectile and the target 4 is represented as a cross 1. The angle between lines 5 and 6 is the deflection (Ds) The corresponding positions of the firing airplane and the target, as the firing airplane closes in on the target, are indicated by the letters a, a to e, e inclusive.
' In Fig. 1 there is shown .a conventional maneuvering control system of an airplane. The vertical rudder 8 is moved by wires 9 and I0 fastened to foot-operated control ba'r H which is pivotally supported at l2. -Ailerons l3 are moved by wires l4 and I5 by lever I6 to which wire I5 is attached. Lever I6 is moved by shaft l1 to which it is pinned and shaft I1 is moved by lever l8 through bracket frame |8a which is pinned to shaft H. The horizontal stabilizers l9 are moved by wires and 2| and wires 22 and 23, which are connected to levers 24 and 25 respectively. Levers I 24 and 25 are pinned to shaft 26 which is pinned to lever |8 at a point in alignment with the center of shaft I1.
A conventional sight 21 is mounted on a yoke 28 and a downwardly extending shaft 29 which is free to rotate in bushing 30. At the lower end of shaft 29 is secured a lever 3| the ends of which are connected to control bar II and lever It by a wire 32 which passes from one end of lever 3| to and over pulley 33, to lever |6 to which it is secured, thence to and over pulley 34 and to the other end of lever 3 The bracket 35 of pulley 33 is connected by wire 36 to one end of control bar II and the bracket 31 of pulley 34 is connected by wire 38 to the other end of control bar II.
On the lower side of sight 21 issecured an arm 39 which is connected to lever 40 by wires 4| and 42. Lever 40 is pinned to shaft 26.
The length of the wires mentioned herein are so adjusted that when all of the maneuvering control levers are in their mid or neutral positions, the optical axis of the sight 21 is parallel to the horizontal center line of the airplane and the bore of the gun 2 which is secured to the airplane by base 2a. The sight 2! is located on the airplane so that the pilot in his normal seated position at the maneuvering controls may conveniently look through the sight.
In the modification disclosed in Fig. 3 the arm 39 shown in Fig. 2 is replaced by a hollow arcuate frame 44 in which slides'arcuate rack 45. Rack 45 is in mesh with pinion 46 secured to the hollow shaft 41 which is connected to knob 48 by gears 49, shaft 5|), gears 5| and shaft 52. Knob 48 is settable in accordance with the time of flight as a function of range. Rack 45 is made arcuate and has a radius of curvature substantially equal to the distance from the point 53 where wire 4| i fastened to rack 45 to the guide pulley 54. Rack 45 is made arcu'ate so that the raising and lowering of rack 45 with adjustments for changes in range will not move the sight about its horizontal axis when the horizontal stabilizers I9 are in their neutral or normal positions, except that the sight may be depressed relative to the gun as the range is increased by selecting the amount of curvature to rack 45. This shifting of the sight is desirable to allow for the curvature of the trajectory. A pair of springs 55 are inserted in wires 4| and 42 to allow for the longer path along wires 4| and 42 between pulleys 54 and 56 as point 53 is raised or lowered relative to the level of pulleys 54 and 56 and to Permit delayed movement of the sight from the time of operation of the controls as will be explained later. It will be seen that the angular movement of the sight in elevation per unit of linear movement of wires 4| and 42 is increased as the lever length of arcuate rack 45 is shortened with reference to the trunnion axis of the sight.
Correcting the deflection imparted to the sight for range is accomplished by providing two racks 51 and 58 which are moved in guide block 59 by pinion 60 connected to shaft 6|. Shaft BI is connected to shaft 52 by gears 62. The yoke 28 is solidly connected with guide block 59 by tube 63 which is rotatably mounted in bushing 30. It will thus be seen that the angular movement of tube 63, yoke 28 and sight 21 per unit linear movement of wires 32 will be inversely proportional to the distances from the points of fastening of the wires 32 on the racks-51 and. to the axis of shaft 6|, which distances are varied by the movement of knob- 46 in accordance with range of the target. A spring 64 is inserted in each of the wires 32 to compensate for the variations in the distances from pulleys 34 and 33 from the outer ends of racks 51 and 58, as the positions of racks 51 and 58 are changed relative to the axis of shaft 6i and in addition to provide for delayed action of the sight after the movement of the maneuvering controls.
The sight may be offset from the bore of the gun to allow for drift, which is substantially proportional to the time of flight by assembling the mechanism with block 59 and bars 51 and 58 at a slight angle to the control bar ll. Thusas the lengths of bars 51 and 58 are adjusted for range, the sight will be ofiset from the bore of the gun an amount required to correct for the drift of the projectile in addition to the amount caused by the position of the maneuveringcontrols.
It is well known in the maneuvering of airplanes that the airplanes do not respond instantaneously to the movement of the control surfaces due to the inertia of the airplane itself. It is therefore apparent, especially when firing at short ranges and at a target whose relative position is rapidly changing, that the sight would be moved to its new' deflection position before the airplane would be turning at a rate corresponding to the position of the controls. Also, when firing on a target requiring a change in the turning rate to follow the target, an increase in the rate of turning sets in a greater deflection, thus moving the sight in a direction further away from the target. To overcome these two characteristics there is provided a delay action device to its proper position inthe same time that the in the motion transmitting means between the 'der 65, filled with oil or other suitable liquid, in
which slides piston 65. The flow of oil from one side of piston 56 to the other side upon movement of stem 61 connected thereto, is controlled by a valve 68 in pipe 69 connecting the two ends of the cylinder 65.
To delay the action of the sight in elevation, the delay action device shown generally as III is pivotally mounted on arm ll secured to bracket 28. The stem 61 is pivotally connected to lug 12 on frame 44. Because of the delay action device I0 the'normally balanced condition of the springs 55 is disturbed by actuation of the stabilizing or elevating control, this unbalanced condition then acts on the piston of the delay action device to displace oil at a rate depending on .the opening I of the valve 68 until the springs have returned to their normal balanced condition and the position of the sight agrees with the position of the. control.
To delay the action'of the sight in deflection, the delay action device shown generally as 13 is pivotally mounted on lug 14 secured to the frame of the airplane. The stem 61 is pivotally connected to arm I5 extending from guide block 59. Thus the normally balanced tension of springs 64 is disturbed by movement of the rudder control but the balanced condition is restored by the yielding of the delay action device 13 and the sight is brought to the position in deflection aircraft takes to fully respond to the movement of the controls. This adjustment compensates for the delayed response of the airplane to the the response of the plane. Because of this further adjustment of the valves 68 the sight first follows the movement of the airplane in changing direction under the action of the maneuvering controls and the pilot sees that he has applied the change of control in the right direction. Without this increased delay action the sight moves angularly relative to the plane in a direction opposite to that in which the plane is anguthe target his'tendency is to greatly overcorrect the changein direction of the airplane for any change in conditions with the result that a hunting action of the gunand sight is set up relative to the target.
It is obvious that various changes may be made by those skilled in the art in the details of the embodiments of the invention as disclosed in the drawings and described above within the principle and scope of the invention as expressed in the appended claims.
I claim: a
1. A sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft, comprising means positionable to control the angular rate of turning of the craft, a sight mounted for angular movement relative to the bore of the gun, and sight adjusting means actuated in accordance with the position of the control means to angularly position the sight relative to the bore of the the fore and aft axis of a dirigible craft comprls ing means positionable to control the angular rate'of turning of the craft about an axis perpendicular to the fore and aft axis, a sight corresponding to the position of the rudder conmounted for angular movement relative to the bore of the gun about an axis parallel to the said perpendicular axis, and sight adjusting means actuated in accordance with the position of the control means to angularly position the sight about its said axis relative to the'bore of the gun. I
3. A sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft comprising means positionable to control the angular rate of turning of the craft about an axis perpendicular to the fore and aft axis, a sight mounted for angular movement. relative to the bore of the gun about an axis parallel to the said perpendicular axis, and sight adjusting means actuated in accordance with the position of the control means to angularly position the sight about its said axis relative to the bore of the gun, said sight adjusting means including'an element settable inac- I the fore and aft axis of a dirigible craft, comprising means positionable to control the angular rate of turning of the craft, a sight mounted. for angular movement relative to the bore of the gun, sight adjusting means actuated in accordance with the -position of the control means to angularly position the sight relative to the bore of the gun, and means operably connected with the adjusting means for delaying the action of the said adjusting means.
5. A sighting mechanism for a gun fixedly mounted with its bore substantially parallel to the fore and aft axis of a dirigible craft, comprising means positionable to control the angular rate of turning of the craft, a sight mounted for angular movement relative to the bore of the gun, sight adjusting means actuated in accordance with the position of the control means to angularly position the sight relative to the bore of the gun, said sight adjusting means including an element settable in accordance with the range of the target for proportionally modifying the effect of the adjusting means in positioning the sight, and
means operably connected with the adjusting means for delaying the action of the said adjusting means.
ELLIOTT P. ROSS.
Publications (1)
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US2339521A true US2339521A (en) | 1944-01-18 |
Family
ID=3433660
Family Applications (1)
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US2339521D Expired - Lifetime US2339521A (en) | Gun sight |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2418158A (en) * | 1943-09-16 | 1947-04-01 | Bell Telephone Labor Inc | Gunfire control |
US2433843A (en) * | 1942-10-17 | 1948-01-06 | Sperry Gyroscope Co Inc | Fixed gun interaircraft fire control system |
US2458448A (en) * | 1944-02-26 | 1949-01-04 | Eastman Kodak Co | Gun training by tracer fire spotting |
US2471278A (en) * | 1943-12-01 | 1949-05-24 | Bell Telephone Labor Inc | Gun sight control |
US2552554A (en) * | 1945-07-23 | 1951-05-15 | John H Holstein | Rate responsive gun sight computer |
US2704490A (en) * | 1955-03-22 | hammond | ||
US2724998A (en) * | 1943-07-20 | 1955-11-29 | Sperry Rand Corp | Positional control apparatus |
US3761041A (en) * | 1971-08-02 | 1973-09-25 | Aereon Corp | Lifting body aircraft |
-
0
- US US2339521D patent/US2339521A/en not_active Expired - Lifetime
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2704490A (en) * | 1955-03-22 | hammond | ||
US2433843A (en) * | 1942-10-17 | 1948-01-06 | Sperry Gyroscope Co Inc | Fixed gun interaircraft fire control system |
US2724998A (en) * | 1943-07-20 | 1955-11-29 | Sperry Rand Corp | Positional control apparatus |
US2418158A (en) * | 1943-09-16 | 1947-04-01 | Bell Telephone Labor Inc | Gunfire control |
US2471278A (en) * | 1943-12-01 | 1949-05-24 | Bell Telephone Labor Inc | Gun sight control |
US2458448A (en) * | 1944-02-26 | 1949-01-04 | Eastman Kodak Co | Gun training by tracer fire spotting |
US2552554A (en) * | 1945-07-23 | 1951-05-15 | John H Holstein | Rate responsive gun sight computer |
US3761041A (en) * | 1971-08-02 | 1973-09-25 | Aereon Corp | Lifting body aircraft |
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