KR101345413B1 - Apparatus to connect additional equipment for firearms - Google Patents

Abstract

The present invention discloses an additional device connecting device for a miniaturizer capable of easily connecting and detaching additional equipment such as aiming equipment to a miniaturizer such as a rifle, and maintaining constant fastening force even when the additional equipment is repeatedly attached and detached.
The attachment device for a miniaturizer of the present invention, the body is fitted to the Picatinny rail and provided with a fixed clamping portion, a plurality of fixing pins provided with a locking portion at one end and a hinge coupling hole, fitted to the fixing pins and move along the fixing pins. And a plurality of moving clamps disposed corresponding to the fixed clamping parts, a plurality of first elastic members for pressing the moving clamps away from the body, a plurality of tightening levers hinged to the fixing pins, and hinge coupling holes, respectively. A plurality of first hinge members hinged to the fixing pins,
The hinge coupling hole is made of a long hole, the fixing pin is provided in the axial direction from the hinge coupling groove to the tip end and is provided with a fastening force adjusting hole having a screw groove therein, and the fastening force adjusting hole is a fastening force contacting the outer circumferential surface of the first hinge member. The control stop member is made of a screwed structure.

Description

Apparatus to connect additional equipment for firearms}

The present invention relates to an accessory attachment device for a miniaturizer capable of easily connecting and detaching additional equipment, such as aiming equipment, to a miniaturizer such as a rifle, and capable of maintaining a constant fastening force even when the accessory equipment is repeatedly attached and detached.

In general, a small firearm such as a rifle used in the military or a firearm used for sports may be equipped with a Picatinny rail that can be equipped with a sighting device such as a telescope, an infrared sight, or a laser sight. A separate connector can be connected to this Picatinny rail to combine additional equipment such as aiming equipment. That is, the coupling device is coupled to the Picatinny rail provided to the compactor, and additional equipment such as aiming equipment is fixed to the coupling device.

Such a connecting device is disclosed in US Patent Publication No. US2010 / 0107467. The above publication discloses a structure in which the connecting device can be fixed to the Picatinny rail in a one-touch manner using a cam lever.

However, the technique disclosed in the above-described publication, when the user repeatedly couples or disconnects the connecting device to the Picatinny rail, even if the cam lever is used, the force for connecting the connecting device to the Picatinny rail is changed, so that the fastening force is coupled to another state.

As such, when the fastening force of the connecting device coupled to the Picatinny rail is changed, a coupling error occurs due to the difference in the fastening force between the Picatinny rail and the connecting device.

The coupling error between the Picatinny rail and the connecting device is that when the sight is installed in the connecting device, an error occurs between the barrel of the handgun and the sight, and the impact point after the sight is first installed and the sight is refitted. There is a problem that the accuracy of the miniaturizer is rather lowered.

In particular, when several people detach and attach the connecting device to the Picatinny rail using the same miniaturizer equipped with the Picatinny rail, the coupling error between the Picatinny rail and the connecting device becomes larger and the function of the miniaturizer may be further deteriorated. have.

Therefore, the present invention has been proposed to solve the above problems, an object of the present invention is to repeatedly attach or detach the connecting device to the Picatinny rail, or several users to connect to the Picatinny rail with different forces When installing, it is to provide a connection device for the miniaturizer that can always maintain a constant fastening force to maintain the best function of the miniaturizer.

In order to achieve the object of the present invention as described above, the present invention is provided with a fastening portion to which the additional equipment is coupled, the coupling groove is fitted on the bottom of the Picatinny rail is provided, the fixed clamping portion is provided on one side of the coupling groove portion Body; A plurality of fixing pins penetrated and coupled to the side of the body, one end of which is provided with a locking portion, and the other end of which is provided with a hinge coupling hole penetrating axially from an outer circumferential surface thereof and spaced apart from each other by a predetermined distance; A plurality of moving clamps inserted into the fixing pins and moving along the fixing pins and disposed to correspond to the fixing clamps; A plurality of first elastic members disposed on the body to press the moving clamp in a direction away from the body; A plurality of tightening levers hinged to the fixing pins to press the movable clamp toward the body; And a plurality of first hinge members which are respectively fitted into the hinge coupling holes to hinge the fastening lever to the fixing pin.

The hinge coupling hole is made of a long hole, the fixing pin is provided in the axial direction from the hinge coupling groove to the tip end is provided with a fastening force adjusting hole having a screw groove therein, the fastening force adjusting hole of the first hinge member Provided is an accessory connecting device for a miniaturizer in which a fastening force adjusting stop member in contact with an outer circumferential surface is screwed.

The movable clamp has an opening in an upward direction or a downward direction, a locking jaw is provided on one side of the opening, and a locking key for restricting movement of the tightening lever is coupled to the tightening lever by a second hinge member. Preferably, the locking key is provided with a locking groove fitted to the locking jaw, and the tightening lever and the locking key are provided with a second elastic member having an elastic force in a direction in which the locking groove is fitted into the locking jaw. .

The openings are provided at both ends of the movable clamp, and are preferably disposed opposite to each other in the up and down directions.

In the tightening lever, a surface in contact with the moving clamp is formed of a curved surface, and the curved surface is preferably formed of an involute curved surface.

The second elastic member is preferably made of a torsion spring.

The fastening force adjustment stop member is preferably made of one of the knob exposed to the outside of the hexagonal wrench hole or the cross groove or the outer peripheral surface has a flat surface.

Preferably, the locking key is provided with a lock release knob on the opposite side of the locking groove with respect to the second hinge member.

In the present invention, after the user couples the connecting device to the Picatinny rail, by rotating the fastening force adjustment stop member so that the connection device is maintained on the Picatinny rail with a constant fastening force to maintain a constant constant fastening force even in the repeated detachable. You can keep it. Therefore, the present invention has the effect of maintaining the function of the miniaturizer to the best by reducing the coupling error of the connection device by minimizing the change in the fastening force generated when the connection device is repeatedly attached and detached.

FIG. 1 is a view showing a state in which an accessory connecting device for a miniaturizer is coupled to a Picatinny rail to explain an embodiment of the present invention.
Figure 2 is a perspective view showing a locked state of the attachment device for miniaturizer to explain an embodiment of the present invention.
3 is an exploded perspective view illustrating an exploded view of FIG. 2.
4 is a front view of Fig.
5 is a cross-sectional view taken along the line VV of FIG. 4.
FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG. 4.
FIG. 7 is a perspective view illustrating a state in which an accessory connecting device for a miniaturizer is loosened to explain an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Figure 1 is a perspective view for explaining an embodiment of the present invention, showing a state in which the attachment device for the miniaturizer is coupled to the Picatinny rail (Picatinny rail) provided in the miniature weapon such as a rifle. In addition, Figure 2 is a perspective view for explaining an embodiment of the present invention, Figure 3 is an exploded perspective view of Figure 2, Figure 4 is a front view of Figure 2, showing a connecting device for the miniaturizer.

Attachment device connecting device (hereinafter, also referred to as 'connection device') for the miniaturizer of the embodiment of the present invention is a body (1), fixing pins (3, 5) coupled to the Picatinny rail (P), the moving clamp (7, 9) ), The first elastic member (11, 13), the tightening lever (15, 17), the first hinge member (19, 21), fastening force adjustment stop member (23, 25), and locking keys (27, 29) do.

Picatinny rail P is provided with dove tail groove parts Pa and Pb in the upper side both sides.

Body 1 may be disposed on the upper surface of the Picatinny rail (P) and fixed to both side portions of the Picatinny rail (P). The body 1 may be provided with a fastening portion 1a to which additional equipment such as a sight, a laser sight, and an infrared sight may be coupled to the upper side.

And the body 1 is provided with holes 1b and 1c penetrating the side (as shown in Fig. 3). The holes 1b and 1c penetrating the side surface of the body 1 are preferably disposed at a distance apart from each other. The above-described fixing pins 3 and 5 are inserted into the holes 1b and 1c penetrating the side surface of the body 1.

The body 1 is provided with fixing holes 1d penetrating to the upper side from the holes 1b and 1c penetrating the side of the body 1. Fixing hole (1d) is made of a screw groove bolt (B) can be coupled.

When the fixing pins 3 and 5 are fitted into the holes 1b and 1c penetrating the sides of the body 1, the fixing pins 3 and 5 are fixed to the body 1 using the bolts B. can do.

In addition, the bottom of the body (1) is provided with a coupling groove (1e) to be fitted to the Picatinny rail (P). Coupling groove 1e is preferably provided in the center portion of the bottom surface of the body 1 along the longitudinal direction of the body (1).

And a fixed clamping portion (1f) is provided on one side of the coupling groove (1e). The fixed clamping portion 1f is preferably made of a structure corresponding to the side surface of the Picatinny rail P. That is, the fixed clamping portion 1f may be coupled to the dove-k groove portions Pa and Pb provided on the side of the above-described Picatinny rail P, which is formed of the dovetail protrusion.

The portion facing the fixed clamping portion 1f is formed of a space, and the moving clamps 7 and 9 may be disposed at the portion facing the fixed clamping portion 1f.

The fixing pins 3 and 5 are fitted in the holes 1b and 1c provided in the side of the body 1, respectively. Fixing pin (3) is provided with engaging portions (3a, 5a) at one end. The catching portions 3a and 5a may have a larger diameter than other portions of the fixing pins 3 and 5, and may not pass through the holes 1b and 1c provided on the side of the body 1 and the movement thereof may be restricted. It is preferred to be in shape or size.

And the fixing pins (3, 5) are provided with hinge coupling holes (3b, 5b). Hinge coupling holes (3b, 5b) is preferably provided on the opposite side of the engaging portion (3a, 5a), it is provided through the axial direction from the outer peripheral surface of the fixing pins (3, 5). Hinge coupling holes (3b, 5b) is preferably made of long holes along the longitudinal direction of the fixing pins (3, 5).

In addition, the fixing pins 3 and 5 may have a portion of the outer circumferential surface of the flat surface to be fixed without being rotated when coupled to the body 1.

On the other hand, the fixing pins 3 and 5 are provided with fastening force adjusting holes 3c and 5c in the same direction as the axial direction of the fixing pins 3 and 5 on opposite sides of the engaging portions 3a and 5a. The fastening force adjusting holes 3c and 5c penetrate through the hinge coupling holes 3b and 5b to the ends of the fixing pins 3 and 5. These fastening force adjusting holes (3c, 5c) is provided with a screw groove therein can be screwed in the fastening force adjusting stop members (23, 25).

The moving clamps 7 and 9 are fitted to the fixing pins 3 and 5 in the center thereof and are arranged on the opposite side of the fixed clamping portion 1f. The moving clamps 7 and 9 may be coupled to the Picatinny rail P corresponding to the fixed clamping portion 1f. That is, the moving clamps 7 and 9 may be coupled to the side of the Picatinny rail P with a dovetail protrusion corresponding to the fixed clamping portion 1f. The moving clamps 7 and 9 can move along the axial direction of the fixing pins 3 and 5.

In addition, the movable clamps 7 and 9 are provided with openings on the side or in an upward direction or downward directions, and locking jaws 7a, 7b, 9a and 9b are provided on one side of the openings. The locking jaws 7a, 7b, 9a, and 9b of the movable clamps 7 and 9 serve to fix the locking keys 27 and 29.

It is preferable that the locking jaws 7a and 7b provided on the moving clamp 7 are arranged in opposite directions to each other. That is, as shown in Fig. 3, the locking step 7a provided in the moving clamp 7 is provided downward, and the other locking step 7b is disposed upward.

In addition, since it is made in the same shape as the engaging jaw (9a, 9b) of the movable clamp 9 will be replaced by the above description.

Therefore, the movable clamps 7 and 9 can use one component interchangeably, so that the number of components can be reduced. In addition, since the moving clamps 7 and 9 have the same structure even when they are assembled in a different direction, productivity can be improved since the operator does not have to consider the assembly direction during assembly work.

Meanwhile, the body 1 is provided with a groove into which the first elastic members 11 and 13 can be inserted. The first elastic members 11 and 13 may be formed of compression coil springs and are disposed on the side of the body 1 to elastically support the body 1 and the moving clamps 7 and 9. That is, the first elastic members 11 and 13 have elastic force for pushing the moving clamps 7 and 9 to the side outside of the body 1.

The tightening levers 15 and 17 are hinged to the fixing pins 3 and 5 and serve to press the moving clamps 7 and 9 in the body 1 direction. The tightening levers 15 and 17 are hinged to the hinge coupling holes 3b and 5b provided on the fixing pins 3 and 5 by the first hinge members 19 and 21, respectively.

The clamping levers 15 and 17 form a curved surface on the surface for pressing the moving clamps 7 and 9. The curved surfaces provided on the tightening levers 15 and 17 are composed of the involute curved surfaces 15a and 17a. The involute curved surfaces 15a and 17a provided on the tightening levers 15 and 17 can press the moving clamps 7 and 9 with a constant force.

The fastening force adjusting stop members 23 and 25 are screwed to the fastening force adjusting holes 3c and 5c of the body 1, and one side of the distal end portion may contact the outer circumferential surfaces of the first hinge members 19 and 21. That is, when the first hinge members 19 and 21 are fitted into the hinge coupling holes 3b and 5b provided in the fixing pins 3 and 5, the one side of the outer circumferential surface of the first hinge members 19 and 21 stops adjusting the tightening force. The members 23 and 25 may be supported to maintain a state where the first hinge members 19 and 21 are disposed at a predetermined position (see FIGS. 5 and 6).

Fastening force adjustment stop member (23, 25) may be made of one of the knob exposed to the outside portion of the hexagonal wrench hole or cross groove or the outer peripheral surface has a flat surface. Such a user can set the position of the first hinge members 19 and 21 by rotating the fastening force adjusting stop members 23 and 25 using an appropriate tool such as a hexagon wrench.

On the other hand, the lock lever (15, 17) is coupled to the lock key (27, 29). The locking keys 27 and 29 are hinged to the tightening levers 15 and 17 to prevent flow of the tightening levers 15 and 17 after the tightening levers 15 and 17 press the moving clamps 7 and 9. To make it possible.

The locking keys 27 and 29 are coupled to the tightening levers 15 and 17 by the second hinge members 31 and 33. Locking keys 27 and 29 are provided with locking grooves 27a and 29a. The locking grooves 27a and 29a provided in the locking keys 27 and 29 may be fitted to the locking jaws 7b and 9a provided in the moving clamps 7 and 9.

That is, the locking keys 27 and 29 are disposed in an inverted state in the opposite direction (up and down direction) so that the locking grooves 27a and 29a provided in the locking keys 27 and 29 are disposed one downward and the other One is disposed upward so that the locking grooves 27a and 29a can be fitted to the locking projections 7b and 9a provided in the moving clamps 7 and 9 (see FIG. 7).

The locking keys 27 and 29 are provided with unlocking knobs 27b and 29b on opposite sides of the locking grooves 27a and 29a with respect to the second hinge members 31 and 33. The unlocking knobs 27b and 29b may be used when the user releases the tightening levers 15 and 17.

On the other hand, the second elastic member (35, 37) in which the elastic force acts on the tightening lever (15, 17) and the locking key (27, 29) in the direction in which the locking groove (27a, 29a) is fitted to the locking jaw (7b, 9a) Are provided respectively. Preferably, the second elastic members 35 and 37 are made of torsion springs. The second elastic members 35 and 37 may maintain a state in which the locking keys 27 and 29 are fixed to the moving clamps 7 and 9 by the elastic force.

The operation of the embodiment of the present invention will be described in detail as follows.

In the embodiment of the present invention, the fixing pins 3 and 5, the moving clamps 7 and 9, the tightening levers 15 and 17, the fastening force adjusting stop members 23 and 25, and the locking keys 27 and 29 are paired. Since it is made of the same structure made only one example will be described.

7 is a view showing a state before mounting the connecting device of the embodiment of the present invention on the Picatinny rail (P). In this state, the user places the connecting device of the embodiment of the present invention on the upper part of the Picatinny rail P, and rotates the tightening lever 15 in the direction of the dashed-dotted arrow.

Then, as the tightening lever 15 rotates, the involute curved surface 15a provided to the tightening lever is in close contact with one surface of the moving clamp 7. At this time, the moving clamp 7 is moved to the body 1 side by a constant force by the involute curved surface 15a. As the moving clamp 7 moves toward the body 1 side, the fixed clamping portion 1f and the moving clamp 7 provided on the body 1 are pulled together and tighten the side of the Picatinny rail P while the moving clamp 7 ) Is coupled to the Picatinny rail (P).

At this time, since the second elastic member 35 elastically supports the locking key 27, the locking groove 27a of the locking key 27 is fitted to the locking jaw 7b of the movable clamp 7. Therefore, as shown in Figure 1, the connecting device of the embodiment of the present invention is coupled to the Picatinny rail (P).

And the user rotates the clamping force adjustment stop member 23 using a tool such as a hexagon wrench to adjust the tightening state of the optimal state. When the fastening force adjusting stop member 23 moves to the body 1 side, the fastening force adjusting stop member 23 presses one side of the outer circumferential surface of the first hinge member 13 so that the first hinge member 19 becomes the body 1. The movement to the opposite side of is limited to increase the tightening force of the moving clamp 7 (see FIGS. 5 and 6).

If the fastening force adjusting stop member 23 moves to the opposite side of the body 1, the tightening force of the moving clamp 7 can be reduced.

Therefore, since the connecting device of the embodiment of the present invention has set the tightening force of the tightening lever 15, even if the connecting device is repeatedly removed and attached from the Picatinny rail (P), the constant tightening force is always maintained to maintain the performance of the compactor. The fall can be prevented.

Subsequently, in the case of removing the connecting device of the embodiment of the present invention from the Picatinny rail P, when the locking knob 27b of the locking key 27 is slightly pressed, the second elastic member 35 is compressed and locked. The locking groove 27a of the key 27 is released from the locking step 7b of the moving clamp 7.

At this time, the user rotates the tightening lever 15 in the reverse direction described above to release the pressurized state of the moving clamp 7 (state shown in FIG. 7). Therefore, the user can disconnect the connecting device of the embodiment of the present invention from the Picatinny rail (P) in a simple operation.

As such, when the connecting device is coupled to the Picatinny rail, the coupling error can be reduced by maintaining a constant fastening force. Therefore, when the sight is installed in the connecting device, the error between the barrel and the sight of the small gun can be reduced, so that the accuracy of the small car can be prevented by matching the impact point when the sight is first installed and the sight after reattaching the sight. It is.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

Body, 1a. Fastening, 1b, 1c. Holes, 1d. Fixing hole, 1e. Coupling groove, 1f. Fixed clamping part,
3, 5. Push pins, 3a, 5a. Stops, 3b, 5b. Hinge coupling holes, 3c, 5c.
7, 9. movable clamp, 7a, 7b, 9a, 9b. Jaw,
11, 13. the first elastic member,
15, 17. Tightening levers, 15a, 17a. Involute Surface,
19, 21. first hinge member,
23, 25. fastening force adjustment stop member,
27, 29. Locking keys, 27a, 29a. Hanging groove, 27b, 29b. Unlocking knob,
31, 33. second hinge member,
35, 37. Second elastic member

Claims (7)

A coupling part to which additional equipment is coupled is provided, a coupling groove part fitted to the Picatinny rail is provided on a bottom surface, and a body in which a fixed clamping part is provided on one side of the coupling groove part;
A plurality of fixing pins penetrated and coupled to the side of the body, one end of which is provided with a locking portion, and the other end of which is provided with a hinge coupling hole penetrating axially from an outer circumferential surface thereof and spaced apart from each other by a predetermined distance;
A plurality of moving clamps inserted into the fixing pins and moving along the fixing pins and disposed to correspond to the fixing clamps;
A plurality of first elastic members disposed on the body to press the moving clamp in a direction away from the body;
A plurality of tightening levers hinged to the fixing pins to press the movable clamp toward the body; And
A plurality of first hinge members which are respectively fitted into the hinge coupling holes to hinge the fastening levers to the fixing pins;
The hinge coupling hole is made of a long hole,
The fixing pin is provided in the axial direction penetrating from the hinge coupling groove to the distal end is provided with a fastening force adjusting hole having a screw groove therein,
The fastening force adjusting hole is connected to the attachment device for a miniaturizer that is fastened to the fastening force adjustment stop member in contact with the outer peripheral surface of the first hinge member. The method according to claim 1,
The movable clamp has an opening in an upward direction or a downward direction, and a locking jaw is provided at one side of the opening,
The locking lever is coupled to the tightening lever by a second hinge member for limiting the movement of the tightening lever,
The locking key is provided with a locking groove that is fitted to the locking jaw,
And the tightening lever and the locking key are provided with a second elastic member having an elastic force in a direction in which the locking groove is fitted to the locking jaw. The method according to claim 2,
The opening
Provided at both ends of the movable clamp, the attachment device for the miniaturizer is arranged opposite to each other in the vertical direction. The method according to claim 1,
The tightening lever
Connection device for the miniaturizer made of a curved surface is in contact with the movable clamp, the curved surface is involute curved surface. The method according to claim 2,
The second elastic member is an additional device connecting device for a miniaturizer consisting of a torsion spring. The method according to claim 1,
The fastening force adjusting stop member
Connection device for an additional device for a miniaturizer, wherein the part exposed to the outside is one of a hexagonal wrench hole, a cross recess, or a knob having an outer peripheral surface. The method according to claim 2,
The lock key
Attachment device for a miniaturizer provided with a lock release knob on the opposite side of the engaging groove around the second hinge member.

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