Handgun and method of using a handgun

Abstract

There is provided a handgun for aiming at a target. The handgun comprises a handgun body, a slide arranged to move with respect to the handgun body, a lens removably mounted on the slide, and a light source associated with the slide and positioned at the focal point of the lens, such that when a user aims the handgun at the target, light from the light source reflects from the lens to the user's eye, providing an infinity image of an illuminated dot over the target. The lens is removable from both of the slide and the light source.

Claims

1. A handgun for aiming at a target, the handgun comprising: a handgun body; a slide arranged to move with respect to the handgun body; a lens removably and directly mounted on the slide; and a light source associated with the slide and positioned at a focal point of the lens, such that when a user aims the handgun at the target, light from the light source reflects from the lens to a user's eye, providing an infinity image of an illuminated reticle over the target, wherein the lens is removable from both of the slide and the light source.

2. The handgun according to claim 1, further comprising: a reflector associated with the slide, wherein the light source is positioned at the focal point of the reflector, and wherein the reflector is arranged to provide a continuous reflecting surface with the lens, such that when the user aims the handgun at the target, light from the light source reflects from the reflector and the lens to the user's eye, providing the infinity image of the illuminated reticle over the target.

3. The handgun according to claim 2, wherein the reflector is integrally formed with the slide.

4. The handgun according to claim 2, wherein the reflector comprises metal.

5. The handgun according to claim 2, wherein the lens surrounds a top and sides of the reflector in order to provide a protective bumper.

6. The handgun according to claim 2, wherein a height of the reflector is less than half a height of the lens.

7. The handgun according to claim 2, wherein a maximum width of the reflector is less than half a maximum width of the lens.

8. The handgun according to claim 1, wherein the slide comprises one or more lugs arranged to cooperate with one or more recesses in the slide to hold the lens in place.

9. The handgun according to claim 1, wherein the lens is frameless.

10. The handgun according to claim 1, wherein the light source comprises a red LED, and the illuminated reticle comprises a red-dot.

11. The handgun according to claim 1, wherein the light source is associated with a carrier in an adjustment assembly.

12. The handgun according to claim 1, further comprising a battery removably mounted on the slide.

13. A handgun, comprising: a handgun body; a slide arranged to move with respect to the handgun body; a lens removably mounted on the slide; a reflector protruding from the slide and surrounded by the lens, wherein the reflector is arranged to provide a continuous reflecting surface with the lens; and a red-dot generator integrated into the slide, the red-dot generator comprising a light source positioned at a common focal point of the lens and the reflector, such that when a user aims the handgun at a target, light from the light source of the red-dot generator reflects from the lens and the reflector to a user's eye, providing an infinity image of an illuminated dot over the target, wherein the lens is removable from the slide such that it can be replaced without removal of the reflector and/or the red-dot generator.

14. A handgun, comprising: a handgun body; a slide arranged to move with respect to the handgun body; a reflector formed with and protruding from the slide; and a red-dot generator integrated into the slide, the red-dot generator comprising a light source positioned at a focal point of the reflector, such that when a user aims the handgun at the target, light from the light source of the red-dot generator reflects from the reflector to a user's eye, providing an infinity image of an illuminated reticle over the target.

Description

DESCRIPTION OF THE DRAWINGS

(1) Embodiments of the present invention will now be described by way of example only with reference to the accompanying schematic drawings of which:

(2) FIG. 1 is a perspective view of a handgun according to a first example embodiment of the invention;

(3) FIG. 2 is a perspective view of the slide of the handgun of FIG. 1;

(4) FIG. 3 is a top view of the slide of FIG. 2;

(5) FIG. 4 is a side view of the slide of FIG. 2;

(6) FIG. 5 is a front view of the slide of FIG. 2;

(7) FIG. 6 is a perspective view of a handgun according to a second example embodiment of the invention;

(8) FIG. 7 is a perspective view of part of the slide of the handgun of FIG. 6 (with battery removed);

(9) FIG. 8 is a top view of the part of the slide of FIG. 7;

(10) FIG. 9 is a side view of the part of the slide of FIG. 7;

(11) FIG. 10 is a front view of the part of the slide of FIG. 7;

(12) FIG. 11 is an exploded perspective view of the part of the slide of FIG. 7; and

(13) FIG. 12 is a section across A-A of FIG. 8, shown at a 2:1 scale.

DETAILED DESCRIPTION

(14) In the first example embodiment of the invention, a handgun 1 includes a handgun body 3, and a spring-actuated slide 5 mounted for linear movement across the top of the handgun body 3 (FIG. 1). As is conventional, the handgun body 3 includes a grip 7, a trigger 9 for releasing ammunition and trigger guard 11, and a barrel 13 defining an inner bore 15 through which ammunition is fired.

(15) The slide 5 is of approximately square cross-section with a hollow interior, and encases cartridges (not shown) to be fired (FIGS. 2, 3 and 4). At the near end of the slide 5 (closest to the user when held ready to shoot) mounted on its upper surface 18, is an integrated reflector sight 17 formed of several components. In this embodiment, there are no front or rear iron sights present so that there is an unobstructed view across the sight 17. In other embodiments, the iron sights may still be provided.

(16) The integrated sight 17 includes a red LED 19 encased in a cylindrical housing 21 mounted transversely across the slide 5. The position of the housing 21 is adjustable via rotation and/or lateral translation with respect to the slide 5. This provides an adjustment mechanism for the LED 19. The LED 19 is powered by a 3V lithium battery 23 fitted on the slide 5 adjacent the cylindrical housing 21. The battery 23 can be accessed and replaced from above, or on either side of the slide 5. In other embodiments it may be mounted on the rear of the slide.

(17) Adjacent the battery 23 on the far side of the slide 5 is a reflector 25. The reflector 25 is an approximately wedge-shaped metal protrusion, formed together with the slide 5. It has a curved trapezium-shaped front surface 27 (i.e. a concave reflecting surface) which extends perpendicular to the upper surface 18 of the slide 5. Light from the LED 19 can reflect from the front surface 27 of the reflector 25 to the user's eye.

(18) Surrounding the reflector 25 is a clear polymer lens 29, with an arched rectangular shape. The lens 29 is mounted via lugs (not shown) which cooperate with complementary shaped recesses (not shown) in the slide 5, in a locating and locking mechanism. The lens 29 has no frame, which reduces weight and complexity of the assembly, and provides a clear, unobstructed, view of the target. The lens 29 is removable by disengaging the lugs from the recesses, for example to replace the lens 29 with a different kind of lens.

(19) When in position, the front surface 31 of the lens 29 provides a flush (i.e. substantially continuous) complete reflecting surface with the front surface 27 of the reflector 25. In this embodiment, the reflector front surface 27 contributes approximately 10% by area to the complete reflecting surface, the lens front surface 31 contributing the remaining 90%. The reflector front surface 27 is small relative to the size of the lens front surface 31 so that it does not obscure too much of the field of view. The lens 29 provides a protective bumper around the reflector 25, so that in the event that the handgun 1 is dropped, the reflector 25 would not be damaged.

(20) The red LED 19 is positioned at the focal point of the lens 29 and reflector 25, so as to provide an infinity image of a red-dot superimposed on the field of view.

(21) In a normal operating scenario, with the lens 29 in place and intact, light from the LED 19 is directed onto the complete reflecting surface, and reflects from both the lens front surface 31 the reflector front surface 27 to the user's eye. Since a red LED 19 is used, no red reflective filter is required on the lens 29, thus minimizing the visual signature. Additional circuitry controls the strength of the LED 19 output in response to the ambient light levels, giving optimal visibility of the red-dot against the target. If the lens 29 breaks or is otherwise damaged, the reflector continues to provide an infinity image of the red-dot.

(22) In the first example embodiment of the invention, the components of the integrated sight 17 are inset in the slide 5 so that no part protrudes above the top surface 18 of the slide 5, except for the lens 29 and reflector 25, thus providing an unobstructed view across the sight 17.

(23) In the second example embodiment of the invention, a handgun 1′ includes a handgun body 3′, and a spring-actuated slide 5′ mounted for linear movement across the top of the handgun body 3′ (FIG. 6). Parts which are substantially identical to corresponding parts of the handgun of the first example embodiment are indicated with like reference numerals.

(24) The handgun 1′ of the second example embodiment of the invention differs from the handgun 1 of the first example embodiment of the invention in that the LED 19′ is not encased in a cylindrical housing, but instead is mounted on a carrier (not shown) within an adjustment assembly 33′ (FIGS. 7-10). The position of the carrier with respect to the slide 5′ is adjustable via a barrel nut and screw thread arrangement in the adjustment assembly 33′, to adjust the position of the red dot reticle in the field of view. A user can access the barrel nuts from the outside of the adjustment assembly 33′.

(25) The locating and locking mechanism for the lens 29′ is the same as in the first example embodiment, and described in more detail herein (FIGS. 11-12). The lens 29′ is movable from a disengaged to an engaged position. When disengaged from the slide 5′, two lugs 30′ extending from the lens 29′ are visible. The lugs 30′ each comprise a narrower part adjacent the lens 29′ and a wider part further from the lens 29′. To locate the lens 29′ in the slide 5′, the user inserts the lugs 30′ into two suitably shaped openings 32′ in the top surface of the slide 5′ (see FIG. 11). The lugs 30′ are received in two complementary shaped holes, or recesses, 34′ in a locating bolt 36′ within a transverse channel in the slide 5′. The locating bolt 36′ is biased to one side of the slide 5′ by a coil spring 37′. Visible on the upper surface of the locating bolt 36′ in FIG. 11 are the two holes 34′, each shaped with a wider end distal from the coil spring 37′ and a narrower end closer to the coil spring 37′.

(26) Upon insertion of the lens 29′, the force of the lugs 30′ against the sides of the holes 34′ causes the locating bolt 36′ to move against the biasing force of the coil spring 37′, to bring the wider ends of the holes 34′ into line with the wider parts of the lugs 30′, so that the lugs 30′ can move into the holes 34′. As the lugs 30′ move into the holes 34′ the narrower parts of the lugs 30′ are brought into line with the top surface of the locating bolt 36′. The locating bolt 36′ can then move relative to the slide 5′ and the lugs 30′ under the biasing force of the coil spring 37′ so that the narrower parts of the lugs 30′ are retained in the narrower ends of the holes 34′. The lens 29′ is then locked in place.

(27) To remove the lens 29′, similar steps are undertaken. As the lens 29′ is pulled away from the upper surface of the slide 5′, the force exerted on the sides of the holes 34′ causes the locating bolt 36′ (due to the angled inner surfaces of the holes 34′) to move against the biasing force of the coil spring 37′, relative to the slide 5′ and lugs 30′, so that the lens 29′ can be disengaged from the holes 34′. As such the lens 29′ can be replaced with a different lens. The lens 29′ may be part of a set of interchangeable lenses.

(28) Aside from the mechanism for the adjustment of the reticle, the integrated sight 17′ of the second example embodiment of the invention functions in essentially the same way as the integrated sight 17 of the first example embodiment of the invention.

(29) Whilst the present invention has been described and illustrated with reference to particular embodiments, it will be appreciated by those of ordinary skill in the art that the invention lends itself to many different variations not specifically illustrated herein. By way of example only, certain possible variations will now be described.

(30) In an alternative embodiment, the reflector 25 may not be integral with the slide 5, but may be fixed to the slide 5 with a screw, or glue or alternate fastening means. In an alternative embodiment the lens 29 may not be unframed but may have a shroud, or other surround. In an alternative embodiment, the lens 29 may be fixed to the slide 5 by alternative fixing means (i.e. instead of a lug and recess arrangement).

(31) In another embodiment (not shown), the adjustment mechanism for the red-dot may have an alternative design. For example, the adjustment mechanism may be such that there is a small protrusion above the top surface of the slide to accommodate the adjustment mechanism.

(32) Where in the foregoing description, integers or elements are mentioned which have known, obvious or foreseeable equivalents, then such equivalents are herein incorporated as if individually set forth. Reference should be made to the claims for determining the true scope of the present invention, which should be construed so as to encompass any such equivalents. It will also be appreciated by the reader that integers or features of the invention that are described as preferable, advantageous, convenient or the like are optional and do not limit the scope of the independent claims. Moreover, it is to be understood that such optional integers or features, whilst of possible benefit in some embodiments of the invention, may not be desirable, and may therefore be absent, in other embodiments.