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US2343802A - Gun sight - Google Patents

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Publication number
US2343802A
US2343802A US418999A US41899941A US2343802A US 2343802 A US2343802 A US 2343802A US 418999 A US418999 A US 418999A US 41899941 A US41899941 A US 41899941A US 2343802 A US2343802 A US 2343802A
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Prior art keywords
cam
arm
pin
latch
knob
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US418999A
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Carl E Rodney
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G1/00Sighting devices
    • F41G1/06Rearsights
    • F41G1/16Adjusting mechanisms therefor; Mountings therefor
    • F41G1/28Adjusting mechanisms therefor; Mountings therefor wedge; cam; eccentric
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G1/00Sighting devices
    • F41G1/06Rearsights
    • F41G1/16Adjusting mechanisms therefor; Mountings therefor
    • F41G1/24Adjusting mechanisms therefor; Mountings therefor rack-and-pinion; lever; linkwork

Definitions

  • My invention relates to rifles, and has among its objects and advantages the provision of an improved sight embodying novel adjustments for elevation and windage.
  • Figure l is a side elevational view of a portion of a rifle illustrating my invention applied thereto;
  • Figure 2 is a top plan view
  • Figure 3 is a sectional view taken along the line 3-3 of Figure 2;
  • Figure 4 is a sectional view taken along the line 4 4 of Figure 2;
  • Figure 5 is a sectional View taken along the line 5-5 of Figure 1;
  • Figure 6 is a sectional View taken along the line 6--6 of Figure 1;
  • Figure 7 is a view taken along the line 1-1 of Figure 6;
  • Figure 8 is a top plan view of a portion of the sight structure
  • Figure 9 is a sectional view of a mo-died form of elevation latch.
  • Figure 10 is a sectional view illustrating a further modication in the elevation adjustment mechanism.
  • the rear sight I0 is mounted in the usual place on the rie I2.
  • the sight structure comprises a body or support I4 having upstanding wings I6 and I8 spaced to provide a channel-shaped groove 2l) extending longitudinally of the riiie.
  • a pin 22 extends through openings in the wings I6 and I8 transversely of the groove 20.
  • the sight member 24 Upon the pin 22 is pivotally mounted the sight member 24, which member has engagement with the wings I6 and I8, as at 26 in Figure 2, so as to be restrained from relative longitudinal movement on,
  • Sight member 24 carries the sighting element 28 and includes a body 30 provided with a slot 32 within which the right angular shank 34 of the sighting element 28 is loosely positioned to pivot about a pin 36 threadedly secured in the body 30, as at 38.
  • the sighting member 28 may be adjusted about the axis of the pin 36 for windage.
  • a slot 48 is provided in the shank 34 for the reception of a compression spring 42 having one end bearing against anv abutment 44 mounted loosely on the pin 36 and its other end abutting the shank 34.
  • the inner end of the shank 34 is provided with screw threads 46 meshing with screw threads 48 on the pin 22 intermediate its ends.
  • the screw threads 46 curve concentrically about the axis of the pin 36 when viewed according to Figure 2 so that pivotal motion may be imparted to the shank 34 through rotary motion yof the pin 22.
  • the screw threads 46 are held rmly in engagement with the screw threads 48 and provide compensation for any wear which may take place on the two sets of threads.
  • a slight space 50 is provided between the abutment 44 and the shank 34, see Figure 4, so that the screw threads 46 may be held in iirm engagement with the screw threads 48 by reason of the spring 42.
  • Means for imparting rotation to the pin 22 comprises a knob 52 rlxedly secured to the pin by a key 54, see Figure 6.
  • a series of grooves 56 is provided in the outer face of the wing I8 for selective reception of a latch ball 58 yieldingly pressed against the wing I8 by a compression spring 60 housed in a bore 62 in the knob 52, which bore also freely receives the latch ball 58.
  • the body 30 is provided with an end 64 curving concentrically about the axis of the pin 36 and substantially contacting a shoulder 66 on the sighting element 28 provided with a position indicating line 68.
  • a scale 'I0 is provided on the body 3U for coaction with the position indicating line 68, which scale is provided with a Zero line 'I2 with which the line 68 is registered with firing under normal conditions which require no adjustment for wndage.
  • the scale 'I6 is graduated in minutes of angle.
  • Rotation of the knob 52 causes the latch ball 58 to be depressed against the tension of the spring 60 and snaps into the next groove 56 upon predetermined ro-tation of the knob.
  • the latch ball 58 clicks into position so as to provide a yielding stop as an aid to the user in rotating a knob predetermined amounts.
  • Rotation of the knob pivots the setting element 28 to shift the line 68 relatively to the windage scale 10.
  • Member 30 is provided with an arm 'I4 operating freely in a groove 'I6 in the wing I6.
  • One end of the arm 'I4 is arranged in engagement with a cam 'I8 having a cam face 88 engaging the arm 14 and spirally arranged with respect to a pivot or post 82 on which the cam 18 is mounted.
  • the pivot 82 has a large bearing face engageable with the cam so as to provide a sturdy and good wearing pivot for the cam.
  • Cam face 88 is also a durable one.
  • the cam 18 is formed integrally with a knob 84 recessed at 86 for accommodating the head 88 of a screw 98 threaded into the post 82 for holding the cam against relative longitudinal movement on the pivot 82.
  • the wing I 8 is recessed at 92 to receive the cam 18 and a toothed ange 94 arranged concentrically of the axis of the pivot 82.
  • the pin 22 passes through the arm 14 intermediate the ends of the arm, with the arm end opposite the cam 18 provided with a concaved bearing face 96 engaged by a convexed head 98 on a pin extended into a coil spring
  • 04 is provided in the wing I6 for the reception of the greater length of the spring
  • the member 30 Since the member 30 has a pivot connection only with the pin 22, the member 30 may be pivoted about the axis of the pin 22 Without alteringthe normal or windage adjustment of the sighting element 28 with respect to the windage scale 10. This is also true of the windage adjustment. Rotation of the windage adjustment knob 52 imparts pivotal motion to the sighting element 28 independently of the elevation adjustment.
  • 06 in the nature of a bell crank pivotally connected to the wing at
  • 06 is provided with a blade
  • a compression spring I I6 which yieldingly holds the latch member in the position of Figure 3, the toothed flange 94 being illustrated therein in dotted lines to more clearly show the coacting relationship between the flange and the blade I I2.
  • the extreme end of the arm II4 is shaped to provide an extension
  • 06 may be moved to an unlatching position with respect to the toothed flange 94 by exerting pressure on the extension II8, after which the sight structure may be adjusted for elevation through rotation of the knob 84 for rotating the cam 18 in a clockwise direction when Viewing Figures 1 and 3.
  • the knob 84 is provided with a circumferential face
  • 24 is provided on the Wing I6 adjacent the face
  • 26 is also provided on the face
  • the ntches in the toothed flange 94 are arranged in accordance with the spacing relation between the numerals
  • the knob 84 is provided with a roughened surface
  • the wing I6 is also provided with lines
  • 30 may be spaced for indicating one hundred, two hundred, etc., yardage positions of the sight structure with respect to elevation.
  • Figure 9 illustrates a modification wherein an annular member
  • 36 is yieldingly pressed against the recessed face of the member
  • Figure 10 illustrates a furtherL modication wherein a latch arm
  • 50 is provided with a notched ange
  • 44 is provided with a blade
  • 56 bears against the arm
  • 56 is housed in an opening
  • corresponding to the arm 14 is loosely mounted on a pin
  • is, of course, a xed part with the sight structure (not shown).
  • 64 lies in engagement with a concaved face
  • 6I are located in the chamber
  • downward pivotal movement of the sight structure of the gun presses the arm I6I against the arm
  • the sight may be adjusted for elevation by depressing the gun sight with one hand and rotating the knob (not shown) attached to the cam
  • the slot 16 is closed by a cover plate
  • the wing I6 is cut out at
  • Figure 2 illustrates a projection
  • a gun sight the combination of a suplport, a rotary pin carried by said support transversely of the line of sight, a body pivoted on said pin, a sighting element pivoted on said body for movement about an axis at right angles to the axis of said
  • a gun sight comprising a body having spaced wings, a pin rotatably journaled in said wings transversely of the line of sight, a second body pivoted on said pin and engaging said wings to be restrained from relative movement longitudinally on said pin, a sighting element pivoted on said second body for movement about an axis at right angles to the axis of said pin, said pin being provided with screw threads, threads on said sighting element engaging said screw threads to impart pivotal movement to the sighting element for windage adjustment through rotation of said pin, means for rotating said pin, and a rotary cam acting on said second body to pivot the second body on said pin and adjust said sighting element for elevation.
  • one of said wings is provided with a chamber and in which said rotary cam is located in the chamber, an arm fixed to said second body engaging said camfsaid arm having an extension, spring means acting on said extension for pressing said arm against the cam, a notched flange fixed to said cam, and a latch having a blade selectively receivable in the notches in said flange for latching the cam against accidental rotation, said latch being in the nature of a piv- Search ilcom oted bell crank spring pressed against the notched flange and having an element thereof constituting a pressure means for pivoting the blade out of holding engagement with the iange, said latch being mounted in said chamber.
  • said cam is provided with a notched ange, a pivoted arm selectively receivable in the notches in said fiange, a spring pressing against said arm, an arm fixed to said second body engaging said cam to pivot the arm through rotary motion of the cam, and a spring pressing against said second arm for yieldingly pressing the latter against said cam, said second arm being arranged to piv ot in the path of said first arm to move said blade out of holding engagement with said ange upon predetermined pivotal movement of said second body.
  • said second body is provided with a scale graduated in minutes of angle, a rotation line on said sighting element movable relatively to said scale through rotation of said pin, said means comprising a knob, a yielding latch acting on said knob and one of said anges for releasably latching the knob in different positions, a notched flange on said cam, a latch acting on said notched ange to latch the cam against accidental rotation, an arm nxed to said second body engaging said cam, said arm having an extension, yielding means acting on said extension to press said arm against said cam, one of said flanges being provided with a pivot rotatably supporting said cam, a knob fixed to said cam, a scale on said knob graduated in minutes of angle, a mark on one of said anges coacting with said scale to indicate the sight elevating position of said cam, and a yardage scale on one of said iianges coacting with said scale.

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  • Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Telescopes (AREA)

Description

March 7, 1944. c. E. RODNEY 2,343,802
GUN SIGHT Filed Nov. 15, 1941 2 Sheets-Sheet 1 VYA 46 4042,55 50 IN1/EN TOR. l f f, B. j L 9 ATTE] R N EY 5 356111151 UUm March 7, 1,944. C. E. QDNEY 2,343,802
GUN SIGHT Filed Nov. 15, 1941 2 Sheets-Sheet 2 JN V EN TOR.
BY u Wyww ATTDRN EYE gigi i W148i III l muwinm wir Patented Mar. 7, 1944 w tra UNITED STATES PATENT OFFICE 10 Claims.
My invention relates to rifles, and has among its objects and advantages the provision of an improved sight embodying novel adjustments for elevation and windage.
In the accompanying drawings:
Figure l is a side elevational view of a portion of a rifle illustrating my invention applied thereto;
Figure 2 is a top plan view;
Figure 3 is a sectional view taken along the line 3-3 of Figure 2;
Figure 4 is a sectional view taken along the line 4 4 of Figure 2;
Figure 5 is a sectional View taken along the line 5-5 of Figure 1;
Figure 6 is a sectional View taken along the line 6--6 of Figure 1;
Figure 7 is a view taken along the line 1-1 of Figure 6;
Figure 8 is a top plan view of a portion of the sight structure;
Figure 9 is a sectional view of a mo-died form of elevation latch; and
Figure 10 is a sectional view illustrating a further modication in the elevation adjustment mechanism.
In the embodiment selected for illustration, the rear sight I0 is mounted in the usual place on the rie I2. The sight structure comprises a body or support I4 having upstanding wings I6 and I8 spaced to provide a channel-shaped groove 2l) extending longitudinally of the riiie. A pin 22 extends through openings in the wings I6 and I8 transversely of the groove 20. Upon the pin 22 is pivotally mounted the sight member 24, which member has engagement with the wings I6 and I8, as at 26 in Figure 2, so as to be restrained from relative longitudinal movement on,
the pin 22.
Sight member 24 carries the sighting element 28 and includes a body 30 provided with a slot 32 within which the right angular shank 34 of the sighting element 28 is loosely positioned to pivot about a pin 36 threadedly secured in the body 30, as at 38. Thus the sighting member 28 may be adjusted about the axis of the pin 36 for windage.
A slot 48 is provided in the shank 34 for the reception of a compression spring 42 having one end bearing against anv abutment 44 mounted loosely on the pin 36 and its other end abutting the shank 34. The inner end of the shank 34 is provided with screw threads 46 meshing with screw threads 48 on the pin 22 intermediate its ends. The screw threads 46 curve concentrically about the axis of the pin 36 when viewed according to Figure 2 so that pivotal motion may be imparted to the shank 34 through rotary motion yof the pin 22. In view of the spring 42, the screw threads 46 are held rmly in engagement with the screw threads 48 and provide compensation for any wear which may take place on the two sets of threads. A slight space 50 is provided between the abutment 44 and the shank 34, see Figure 4, so that the screw threads 46 may be held in iirm engagement with the screw threads 48 by reason of the spring 42.
Means for imparting rotation to the pin 22 comprises a knob 52 rlxedly secured to the pin by a key 54, see Figure 6. A series of grooves 56 is provided in the outer face of the wing I8 for selective reception of a latch ball 58 yieldingly pressed against the wing I8 by a compression spring 60 housed in a bore 62 in the knob 52, which bore also freely receives the latch ball 58.
In Figure 2, the body 30 is provided with an end 64 curving concentrically about the axis of the pin 36 and substantially contacting a shoulder 66 on the sighting element 28 provided with a position indicating line 68. A scale 'I0 is provided on the body 3U for coaction with the position indicating line 68, which scale is provided with a Zero line 'I2 with which the line 68 is registered with firing under normal conditions which require no adjustment for wndage. The scale 'I6 is graduated in minutes of angle.
Rotation of the knob 52 causes the latch ball 58 to be depressed against the tension of the spring 60 and snaps into the next groove 56 upon predetermined ro-tation of the knob. Thus the latch ball 58 clicks into position so as to provide a yielding stop as an aid to the user in rotating a knob predetermined amounts. Rotation of the knob pivots the setting element 28 to shift the line 68 relatively to the windage scale 10.
Member 30 is provided with an arm 'I4 operating freely in a groove 'I6 in the wing I6. One end of the arm 'I4 is arranged in engagement with a cam 'I8 having a cam face 88 engaging the arm 14 and spirally arranged with respect to a pivot or post 82 on which the cam 18 is mounted. The pivot 82 has a large bearing face engageable with the cam so as to provide a sturdy and good wearing pivot for the cam. Cam face 88 is also a durable one. The cam 18 is formed integrally with a knob 84 recessed at 86 for accommodating the head 88 of a screw 98 threaded into the post 82 for holding the cam against relative longitudinal movement on the pivot 82.
The wing I 8 is recessed at 92 to receive the cam 18 and a toothed ange 94 arranged concentrically of the axis of the pivot 82.
The pin 22 passes through the arm 14 intermediate the ends of the arm, with the arm end opposite the cam 18 provided with a concaved bearing face 96 engaged by a convexed head 98 on a pin extended into a coil spring |02 of the compression type. A bore |04 is provided in the wing I6 for the reception of the greater length of the spring |02. Thus the arm 14 is yieldingly pressed against the spiral cam face 80.
Since the member 30 has a pivot connection only with the pin 22, the member 30 may be pivoted about the axis of the pin 22 Without alteringthe normal or windage adjustment of the sighting element 28 with respect to the windage scale 10. This is also true of the windage adjustment. Rotation of the windage adjustment knob 52 imparts pivotal motion to the sighting element 28 independently of the elevation adjustment.
To the wing |6 and inside the slot 16 is arranged a latch member |06 in the nature of a bell crank pivotally connected to the wing at |08. The arm IIO of the latch member |06 is provided with a blade |I2 engageable in the notches in the toothed iiange 94 for positively latching the cam 18 against accidental rotation. Between the arm I I4 of the latch member |06 and the wing |6 is interposed a compression spring I I6 which yieldingly holds the latch member in the position of Figure 3, the toothed flange 94 being illustrated therein in dotted lines to more clearly show the coacting relationship between the flange and the blade I I2. The extreme end of the arm II4 is shaped to provide an extension |I8 projecting beyond the contour of the wing I6 to be accessible for manipulation of the latch member |06. Thus the latch member |06 may be moved to an unlatching position with respect to the toothed flange 94 by exerting pressure on the extension II8, after which the sight structure may be adjusted for elevation through rotation of the knob 84 for rotating the cam 18 in a clockwise direction when Viewing Figures 1 and 3.
The knob 84 is provided with a circumferential face |20 provided with numerals |22 spaced to indicate yardage adjustment or position of the sighting element. A zero line |24 is provided on the Wing I6 adjacent the face |20 so that the user may determine adjustment of the sight structure for elevation by noting the reading on the face |20 with respect to the line |24. For example, alignment of the numeral of the |22 series with the zero line |24 indicates the proper sight adjustment for a range of iive hundred yards. A zero line |26 is also provided on the face |20 Whichf-registers with the line |24 in the normal position of the sight structure 24 with respect to elevation. The ntches in the toothed flange 94 are arranged in accordance with the spacing relation between the numerals |22 so that the blade |I2 will accurately latch the cam 18 in the position to which the knob 84 is turned. The knob 84 is provided with a roughened surface |28 to facilitate an effective grip thereon.
The wing I6 is also provided with lines |30 coacting with the Zero line |26 on the knob 84 to indicate sight adjustment in minutes of angle. The lines |30 may be spaced for indicating one hundred, two hundred, etc., yardage positions of the sight structure with respect to elevation.
Figure 9 illustrates a modification wherein an annular member |32 is provided with depressions I 34 for selective reception of a latch ball |36 for latching the member against accidental rotation, the member |32 corresponding to the toothed flange 94. The ball |36 is yieldingly pressed against the recessed face of the member |32 by a compression spring |38 housed in a bore |40 in a wing |42 corresponding to the wing I6. Because of the latch ball I 36, the member 32 may be rotated by merely exerting predetermined rotary forces on the knob attached to the member to eliminate the necessity for a latching device which must be manipulated before the knob can be turned.
Figure 10 illustrates a furtherL modication wherein a latch arm |44 is pivoted at |46 to the wing |48 corresponding to the wing I6. The spiral cam |50 is provided with a notched ange |52 in the same manner as the cam 18, the greater part of the ange being broken away in Figure 10. The free end of the arm |44 is provided with a blade |54 selectively receivable in 'the notches in the ilange |52.
One end of a compression spring |56 bears against the arm |44 for pressing the blade |54 into selected notches in the flange |52. The spring |56 is housed in an opening |58 in an insert |59 slipped into the slot or chamber |60.
An arm |6| corresponding to the arm 14 is loosely mounted on a pin |62 corresponding to the pin 22. Arm |6| is, of course, a xed part with the sight structure (not shown). A convexed head |64 lies in engagement with a concaved face |66 on the arm |6I. Head |64 is carried by la, .pin |68 inserted in a coil spring |10 of the compression type positioned in a bore |12 in the insert |59. The cam |50 and the arms |44 and |6I are located in the chamber |60. In operating the latch structure of Figure 10, downward pivotal movement of the sight structure of the gun presses the arm I6I against the arm |44 for moving the blade |54 out of latching engagement with the notched flange 52. Thus the sight may be adjusted for elevation by depressing the gun sight with one hand and rotating the knob (not shown) attached to the cam |50.
In Figures 2 and 3, the slot 16 is closed by a cover plate |16 attached to the wing I6 by pins |18. The wing I6 is cut out at |80 for receiving .the sleeve-like part |82, see Figure 8, on the body 30 which xedly connects the arm |14 with the body. Figure 2 illustrates a projection |84 on the cover |16 which ts into the cutout or opening so as to provide a complete closure for Ithe slotl 16, which communica-tes with the slot 92.
With further elaboration, the foregoing will so fully illustrate my invention, that others may, by applying current knowledge, readily adapt the same for use under various conditions of service.
Iclaim:
1. In a gun sight, the combination of a suplport, a rotary pin carried by said support transversely of the line of sight, a body pivoted on said pin, a sighting element pivoted on said body for movement about an axis at right angles to the axis of said |pin, said pin being provided with screw threads, threads on said sighting element engaging said screw threads to impart pivota movement to the sighting element for windage adjustment through rotation of said pin, means for rotating said pin, and a rotary cam acting on said body to pivot the body on said pin and `adjust the sighting element for elevation.
2. A gun sight comprising a body having spaced wings, a pin rotatably journaled in said wings transversely of the line of sight, a second body pivoted on said pin and engaging said wings to be restrained from relative movement longitudinally on said pin, a sighting element pivoted on said second body for movement about an axis at right angles to the axis of said pin, said pin being provided with screw threads, threads on said sighting element engaging said screw threads to impart pivotal movement to the sighting element for windage adjustment through rotation of said pin, means for rotating said pin, and a rotary cam acting on said second body to pivot the second body on said pin and adjust said sighting element for elevation.
3. The invention described in claim 2 wherein said second body is provided with an arm yieldingly pressed against said cam, and a latch for releasably latching the cam in selected positions.
4. The invention described in claim 2 wherein said second body is provided with an arm yieldingly pressed against said cam, a latch for releasably latching the cam in selected positions, there being a chamber in one of said wings for housing said cam and said arm.
5. The invention described in claim 2 wherein said sighting element is slidably mounted on said second body, and resilient means acting on said sighting element for pressing the threads thereon against said screw threads.
6. The invention described in claim 2 wherein said cam is of spiral formation, an Iarm fixed to said second body, a spring yieldingly pressing said arm against said cam, a notched ange xed to said cam, and a latch selectively engageable in the notches in the flange fOr latching the cam against accidental rotation.
7. The invention described in claim 2 wherein one of said wings is provided with a chamber and in which said rotary cam is located in the chamber, an arm fixed to said second body engaging said camfsaid arm having an extension, spring means acting on said extension for pressing said arm against the cam, a notched flange fixed to said cam, and a latch having a blade selectively receivable in the notches in said flange for latching the cam against accidental rotation, said latch being in the nature of a piv- Search ilcom oted bell crank spring pressed against the notched flange and having an element thereof constituting a pressure means for pivoting the blade out of holding engagement with the iange, said latch being mounted in said chamber.
8. The invention described in claim 2 wherein said cam is provided with a notched ange, a pivoted arm selectively receivable in the notches in said fiange, a spring pressing against said arm, an arm fixed to said second body engaging said cam to pivot the arm through rotary motion of the cam, and a spring pressing against said second arm for yieldingly pressing the latter against said cam, said second arm being arranged to piv ot in the path of said first arm to move said blade out of holding engagement with said ange upon predetermined pivotal movement of said second body.
9. The invention described in claim 2 wherein said second body is provided with a scale graduated in minutes of angle, a rotation line on said sighting element movable relatively to said scale through rotation of said pin, said means comprising a knob, a yielding latch acting on said knob and one of said anges for releasably latching the knob in different positions, a notched flange on said cam, a latch acting on said notched ange to latch the cam against accidental rotation, an arm nxed to said second body engaging said cam, said arm having an extension, yielding means acting on said extension to press said arm against said cam, one of said flanges being provided with a pivot rotatably supporting said cam, a knob fixed to said cam, a scale on said knob graduated in minutes of angle, a mark on one of said anges coacting with said scale to indicate the sight elevating position of said cam, and a yardage scale on one of said iianges coacting with said scale.
10. The invention described in claim 1 wherein there is provided a pin secured to said body for pivotally connecting said sighting element thereto, an abutment on said pin, a spring interposed between said abutment and said sighting element for urging the threads thereon into engagement with said screw threads, said body being provided with a slot loosely receiving a portion of said sighting element, and said sighting element being provided with a recess for the reception of said spring.
CARL E. RODNEY.
US418999A 1941-11-13 1941-11-13 Gun sight Expired - Lifetime US2343802A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2636280A (en) * 1947-12-02 1953-04-28 Vasili S Drake Propeller template
US2774143A (en) * 1955-03-21 1956-12-18 Oswald O Sunderland Sight mechanism for firearms
US3925902A (en) * 1973-12-11 1975-12-16 Herstal Sa Adjustable sight for fire-arms
US6622415B1 (en) 2002-07-19 2003-09-23 The United States Of America As Represented By The Secretary Of The Navy Compact and self-contained adjustable sight assembly
US20120060401A1 (en) * 2010-09-09 2012-03-15 Howard Neufeld Adjustable Rear Iron Sight for a Fire Arm
US20140366425A1 (en) * 2013-06-18 2014-12-18 Asia Optical International Ltd. Sight
US10126098B2 (en) 2013-03-12 2018-11-13 I.P. Holding Group I, L.L.C. Rear sight for firearm

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2636280A (en) * 1947-12-02 1953-04-28 Vasili S Drake Propeller template
US2774143A (en) * 1955-03-21 1956-12-18 Oswald O Sunderland Sight mechanism for firearms
US3925902A (en) * 1973-12-11 1975-12-16 Herstal Sa Adjustable sight for fire-arms
US6622415B1 (en) 2002-07-19 2003-09-23 The United States Of America As Represented By The Secretary Of The Navy Compact and self-contained adjustable sight assembly
US20120060401A1 (en) * 2010-09-09 2012-03-15 Howard Neufeld Adjustable Rear Iron Sight for a Fire Arm
US10126098B2 (en) 2013-03-12 2018-11-13 I.P. Holding Group I, L.L.C. Rear sight for firearm
US20140366425A1 (en) * 2013-06-18 2014-12-18 Asia Optical International Ltd. Sight
US9151569B2 (en) * 2013-06-18 2015-10-06 Sintai Optical (Shenzhen) Co., Ltd. Sight with resilient member around frame screw

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