The present disclosure relates to a support mount selectively coupled to a tripod, bipod, etc., and more particularly to a support mount selectively coupled to a tripod, bipod, etc. to support at least one of a firearm or an accessory on the tripod, bipod, etc.
In one aspect, a support mount is configured to couple a firearm and an accessory to a support stand. The support mount includes a base assembly including an attachment member configured to be selectively coupled to the support stand, a first base member coupled to the attachment member, a second base member coupled to the attachment member, and an adjustment subassembly coupled to the first base member and the second base member. The support mount includes a first platform moveably coupled to the first base member between a vertical orientation and a horizontal orientation relative to the first base member. The first platform is configured to support the accessory when the first platform is in the vertical orientation or the horizontal orientation. The support mount includes a second platform moveably coupled to the second base member between a vertical orientation and a horizontal orientation relative to the second base member. The second platform is configured to support the accessory when the second platform is in the vertical orientation or the horizontal orientation. The adjustment subassembly is operable to move the first platform and the second platform relative to each other. The adjustment subassembly is configured to clamp the firearm to the support mount.
In another aspect, a support mount is configured to couple a firearm to a support stand. The support mount includes an attachment member configured to be selectively coupled to the support stand, a first platform coupled relative to the attachment member in a first orientation relative to the attachment member, and a second platform coupled relative to the attachment member in a second orientation. The second orientation is oriented differently than the first orientation of the first platform. The support mount includes an adjustment subassembly operable to move the first platform and the second platform relative to each other. The adjustment subassembly is configured to clamp the firearm to the support mount.
In yet another aspect, a support mount is configured to couple an accessory to a support stand. The support mount includes an attachment member configured to be selectively coupled to the support stand, a first platform coupled relative to the attachment member in a first orientation relative to the attachment member, and a second platform coupled relative to the attachment member in a second orientation. The second orientation is oriented differently than the first orientation of the first platform. The second platform is configured to support the accessory when the second platform is in the second orientation. The support mount includes an adjustment subassembly operable to move the first platform and the second platform relative to each other.
Other aspects of the disclosure will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments of the disclosure are explained in detail, it is to be understood that the disclosure is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The disclosure is capable of supporting other embodiments and being practiced or being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. Terms of degree, such as “substantially,” “about,” “approximately,” etc. are understood by those of ordinary skill to refer to reasonable ranges outside of the given value, for example, general tolerances associated with manufacturing, assembly, and use of the described embodiments.
With reference to
With continued reference to
As best shown in
During assembly of the support mount 10, the first and second channels 140 of the slider 40 receive the guide rails 70 of the body 35 to align the threaded aperture 130 with the non-threaded aperture 195. The fastener 45 extends through the non-threaded aperture 195 of the slider 40 to engage the threaded aperture 130 of the body 35. The first wing support 196 is coupled to the base 30 such that the first shaft 220 is received within the first base slot 110 and the second shaft 230 is received within the second base slot 115. As a result, the first arm 215 is received within the first base cavity 100 and the second arm 225 is received within the second base cavity 105. In other embodiments, the protrusion 90 of the body 35 can be hollow such that a single shaft of the first wing support 196 is received within the first base slot 110, the protrusion 90, and the second base slot 115. The second wing support 198 is coupled to the slider 40 such that the shaft 260 is received within the first slider slot 170, the second slider slot 175, and a slot defined by the intermediate ring 155. As a result, the first arm 250 is received within the first slider cavity 160 and the second arm 255 is received within the second slider cavity 165. In other embodiments, the intermediate ring 155 of the slider 40 can be solid such that a portion of the shaft 260 does not extend between the first and second arms 250, 255.
With reference to
The first and second wing supports 196, 198 are both selectively moveable into a second configuration/orientation (e.g., an expanded configuration) as shown in
The first and second wing supports 196, 198 are both selectively moveable into a third configuration/orientation (e.g., a folded or retracted configuration) as shown in
The illustrated first and second wing supports 196, 198 can also move from the first configuration (
During operation (e.g., during a hunt), at least one accessory (e.g., the binoculars 25) can be coupled to the support mount 10 while at least one support wing 196, 198 is positioned in the first configuration (
At least one benefit of the illustrated support mount 10 is the ability to quickly be adjusted into the different configurations. For example, the firearm 20 can be quickly mounted on the support mount 10 once a target has been identified through the optics 25. The firearm 20 is supported on the tripod 15 via the support mount 10 (
In some embodiments, both the firearm 20 and an accessory 25 can be coupled to the support mount 10 at the same time. For example, while the support mount 10 is coupled to the firearm 20 (
To remove the firearm 20 from the support mount 10, the fastener 45 is rotated in a second direction to allow movement of the slider 40 away from the body 35 to ultimately move the support wings 196, 198 away from each other. Once the clamping force of the support mount 10 on the firearm 20 subsides, the firearm 20 can be removed from the support mount 10. In some embodiments, a mechanism (e.g., a pin, etc.) can couple the fastener 45 to the slider 40 such that the slider 40 axially moves with the fastener 45 along the longitudinal axis 50 as the fastener 45 rotates in either rotational direction. In other embodiments, the fastener 45 can abut the slider 40 to move the slider 40 toward the body 35 as the fastener 45 is rotated in the first direction, and can be spaced from the slider 40 as the fastener 45 is rotated in the second direction to allow manual movement of the slider 40 away from the body 35. In further embodiments, the slider 40 can be spring biased away from the body 35 such that the slider 40 automatically moves away from the body 35 when the fastener 45 is loosened.
The illustrated support mount 400 is selectively coupled to a support stand (e.g., the tripod 15;
The illustrated first base member 415 and the second base member 420 are constructed to be similar, and as such, features of the first base member 415 are discussed below but are equally applicable to the features of the second base member 420. With continued reference to
The base assembly 405 also includes an adjustment subassembly 485 that couples the stand attachment member 410, the first base member 415, and the second base member 420 together. In particular, the adjustment subassembly 485 includes guide rails 490 that are received through the alignment apertures 440, 460 of the stand attachment member 410, the first base member 415, and the second base member 420. In the illustrated embodiment, the adjustment subassembly 485 includes two guide rails 490 that are received through two of the alignment apertures 440, 460. The guide rails 490 are fixed to the second base member 420 and are slidably coupled to the first base member 415 and the stand attachment member 410. In other embodiments, the guide rails 490 can be fixed to the first base member 415 and slidably coupled to the second base member 420 and the stand attachment member 410. In further embodiments, the adjustment subassembly 485 can include one or more than two guide rails 490.
In addition, the adjustment subassembly 485 includes a threaded shaft 495 coupled to an adjustment knob 500 with the threaded shaft 495 received through the alignment apertures 440, 460 of the stand attachment member 410, the first base member 415, and the second base member 420. In the illustrated embodiment, the threaded shaft 495 is positioned between the two guide rails 490 and threadably engages an alignment aperture 460 of the second base member 420. The alignment apertures 460 of the first base member 415 and the stand attachment member 410 that receives the threaded shaft 495 are smooth bore alignment apertures 460. In addition, the threaded shaft 495 extends through biasing members (e.g., compression springs 505) with a first spring 505 positioned between the vertical wall 430 and the first base member 415 and a second spring 505 positioned between the vertical wall 430 and the second base member 420. The springs 505 bias the first base member 415 and the second base member 420 away from the stand attachment member 410 in directions along a longitudinal axis 510 of the threaded shaft 495. The illustrated adjustment knob 500 is operable to rotate the threaded shaft 495 to selectively adjust a distance, parallel to the longitudinal axis 510, between the first base member 415 and the second base member 420 discussed in more detail below.
With continued reference to
The first platform 515 includes a body 530 and two legs 535 extending from the body 530 such that the body 530 and the two legs 535 define a cavity that receives the first base member 415. Pivot hubs 540 are received through apertures extending through the legs 535 such that the pivot hubs 540 engage the pivot apertures 465 of the first base member 415. In the illustrated embodiment, the pivot apertures 465 are threaded to engage threads of the pivot hubs 540 to fix the pivot hubs 540 to the first base member 415, and the first platform 515 is pivotable about a portion of the pivot hubs 540 extending from the lateral sides of the first base member 415. As discussed above, the pivot apertures 465 can be one through aperture of the first base member 415, and in this embodiment, the support mount 400 can include one pivot hub that extends between the two legs 535. In addition, a platform locking member 545 (e.g., platform supporting member) is coupled to one leg 535 of the first platform 515 to be received within one of the locating apertures 470a, 470b of the first base member 415 to secure the first platform 515 in a desired position relative to the first base member 415. In particular, the platform locking member 545 is a partially threaded pin that threadably engages a lock aperture 550 formed through the leg 535. The pin is operable to selectively secure the first platform 515 in a first/vertical orientation (
The illustrated first platform 515 also includes a first side 555 and a second side 560 opposite the first side 555. The first side 555 includes a first mounting dovetail slot 565 having a longitudinal axis oriented perpendicular to the pivot axis 525 and a first locking dovetail slot 570 having a longitudinal axis oriented parallel to the pivot axis 525. The first locking dovetail slot 570 is in communication with the first mounting dovetail slot 565. The first side 555 also includes ribs 575 protruding from ends of the legs 535 and notches 580 formed adjacent an end portion of the body 530. The illustrated second side 560 includes a second mounting dovetail slot 585 having a longitudinal axis oriented perpendicular to the pivot axis 525 and a second locking dovetail slot 590 having a longitudinal axis oriented parallel to the pivot axis 525. The second locking dovetail slot 590 is in communication with the second mounting dovetail slot 585. In addition, the first and second mounting dovetail slots 565, 585 are positioned between the first locking dovetail slot 570 and the second locking dovetail slot 590 in a direction parallel to the pivot axis 525.
The first platform 515 also includes a first locking member 595 and a second locking member 600. Each locking member 595, 600 includes a dovetail protrusion 605. The dovetail protrusion 605 of the first locking member 595 is received within the first locking dovetail slot 570, and the dovetail protrusion 605 of the second locking member 600 is received within the second locking dovetail slot 590. The first locking member 595 and the second locking member 600 also include a fastener 610 that couples the first locking member 595 and the second locking member 600 to the first platform 515. In the illustrated embodiment, the fastener 610 is a threaded fastener that threadably engages the body 530 of the first platform 515 and includes a gripping portion that is operable to rotate the fastener 610.
As discussed above, the first platform 515 and the second platform 520 can be secured in either the vertical orientation or the horizontal orientation. In the illustrated embodiment, the vertical orientation of the first platform 515 and the second platform 520 is such that at least one of the first and second sides 555, 560 is oriented substantially perpendicular to the longitudinal axis 510, and the horizontal orientation of the first platform 515 and the second platform 520 is such that at least one of the first and side sides 555, 560 is oriented substantially parallel to the longitudinal axis 510. In other embodiments, the vertical orientation and the horizontal orientation of the first platform 515 and the second platform 520 can be oriented differently relative to the longitudinal axis 510. For example, the first platform 515 can be positioned in at least two positions, one of which is more vertical than the other position relative to the longitudinal axis 510. Likewise, the second platform 520 can be positioned in at least two positions, one of which is more vertical than the other position relative to the longitudinal axis 510.
Movement between the vertical and horizontal orientations is substantially the same between the first platform 515 and the second platform 520. As such, movement of the first platform 515 between the vertical and horizontal orientations is discussed in detail below but is also applicable to movement of the second platform 520 between the vertical and horizontal orientations. To secure the first platform 515 in the vertical orientation (
To move the first platform 515 from the vertical orientation (
In other embodiments, the platform locking member 545 can operate in a different manner to lock or unlocked the first platform 515 relative to the first base member 415. For example, the platform locking member 545 can be a biased pull pin that is biased in a direction for the pin to be received within the locating apertures 470a, 470b to secure the first platform 515 in either the vertical orientation or the horizontal orientation. Upon axially pulling the pin away from the first base member 415, the pin can be spaced from the locating apertures 470a, 470b allowing the first platform 515 to pivot about the pivot axis 525.
As also discussed above, the adjustment knob 500 is operable to adjust a distance between first base member 415 and the second base member 420 along the longitudinal axis 510 of the threaded shaft 495. Accordingly, the adjustment knob 500 is also operable to adjust a distance between the first platform 515 and the second platform 520 (in either the vertical orientation and/or the horizontal orientation) as the first platform 515 and the second platform 520 are pivotably coupled to the first base member 415 and the second base member 420, respectively, about the pivot axes 525. Upon rotation of the adjustment knob 500 in a first rotational direction, the adjustment knob 500 rotates the threaded shaft 495 to move the first base member 415 and the second base member 420 away from each other (e.g., the distance between the vertical clamping walls 475 of the first base member 415 and the second base member 420 increases). In other words, the threaded engagement between the threaded shaft 495 and the alignment aperture 460 of the second base member 420 moves the second base member 420 along the longitudinal axis 510 relative to the first base member 415 and the stand attachment member 410 upon rotation of the adjustment knob 500 in the first rotational direction. Conversely, the threaded shaft 495 moves the first base member 415 and the second base member 420 toward each other when the adjustment knob 500 is rotated in a second rotational direction (e.g., the distance between the vertical clamping walls 475 of the first base member 415 and the second base member 420 decreases). In other words, the threaded engagement between the threaded shaft 495 and the alignment aperture 460 of the second base member 420 moves the second base member 420 along the longitudinal axis 510 relative to the first base member 415 and the stand attachment member 410 upon rotation of the adjustment knob 500 in the second rotational direction. Moreover, the springs 505 are operable to bias the first base member 415 and the second base member 420 away from the stand attachment member 410 at equal distances such that the stand attachment member 410 (e.g., the horizontal support wall 435) remains centered between the first base member 415 and the second base member 420 during rotation of the adjustment knob 500.
During operation, the support mount 400 can support a firearm 20 on the stand 15 to stabilize the firearm 20 during a discharge of the firearm 20. The adjustment knob 500 is rotated to increase the distance between the first base member 415 and the second base member 420 to allow for the firearm 20 to be positioned between the vertical clamping walls 475 of the first base member 415 and the second base member 420. In particular, the firearm 20 is placed on the supporting wall 435 of the stand attachment member 410 for the firearm 20 to be vertically supported on the support mount 400. The adjustment knob 500 is then rotated to decrease the distance between the first base member 415 and the second base member 420 causing the vertical clamping walls 475 of the first base member 415 and the second base member 420 to clamp onto the firearm 20. The adjustment knob 500 is rotated a desired amount to provide a desired clamping force against the firearm 20. Accordingly, the firearm 20 is fixed to the support mount 400, and the firearm 20 and the support mount 400 can move together relative to the stand 15 to accurately aim and discharge the firearm 20.
In other embodiments, the adjustment subassembly 485 can be configured differently. For example, the adjustment knob 500 can be replaced with a lever including a cam surface coupled to an end of the threaded shaft 495, and a nut coupled to the opposite end of the threaded shaft 495. In one embodiment, the lever is positioned adjacent the first base member 415 and the nut is positioned adjacent the second base member 420. To clamp the firearm 20 between the vertical clamping walls 475, the nut is tightened onto the threaded shaft 495 (when the lever is in an unlocked position). Once the nut is relatively tight on the threaded shaft 495 against the second base member 420, the lever is pivoted into a locked position causing the cam surface to apply additional tension on the threaded shaft 495 to provide a desired clamping force of the vertical clamping walls 475 against the firearm 20.
The first platform 515 and the second platform 520 can be positioned in either the vertical orientation (
Moreover, the accessory 25 (
In addition, the attachment member 615 can be coupled to the support mount 400 when the firearm 20 is not coupled to the support mount 400. For example, the attachment member 615 can be coupled between the first platform 515 and the second platform 520. When both the first platform 515 and the second platform 520 are in the horizontal orientation (
With reference to
In other embodiments, the platform locking members 545 can be positioned at different locations on the support mount 400 to reduce the shearing forces on the platform locking members 545 when the attachment member 615 is clamped via the notches 580. For example, each platform locking member 545 can be positioned between the corresponding pivot axis 525 and the corresponding notch 580 (e.g., located above the corresponding pivot axis 525 when the first platform 515 and the second platform 520 are in the vertical orientation). Such a position of the platform locking members 545 is closer to the clamping forces against the attachment member 615 when clamped between the notches 580 to reduce the shear forces on the platform locking members 545.
In another embodiment of the support mount 400 (
With continued reference to
The first platform 515 and the second platform 520 are positioned in the vertical orientations when the platform supporting members 640 engage the second projections 630 of the first base member 415 and the second base member 420. As such, the first platform 515 and the second platform 520 are inhibited from moving into the horizontal orientations. As discussed above, this configuration of the support mount 400 can clamp the attachment member 615 between the notches 580 or clamp the firearm 20 between the first platform 515 and the second platform 520 using the adjustment knob 500. When the attachment member 615 or the firearm 20 is clamped between the first platform 515 and the second platform 520, the illustrated platform supporting members 640 are operable to counteract the moment loads about the pivot axes 525 to maintain the first platform 515 and the second platform 520 in the vertical orientations.
The first platform 515 and the second platform 520 are positioned in the horizontal orientations when the platform supporting members 640 engage the first projections 625 of the first base member 415 and the second base member 420. Movement of the first platform 515 from the vertical orientation to the horizontal orientation is discussed below, but is equally applicable to the movement of the second platform 520 from the vertical orientation to the horizontal orientation. In particular, by slightly rotating the first platform 515 about its pivot axis 525 toward the second platform 520, the engagement portion 650 of the platform supporting member 640 disengages the second projection 630 to provide enough clearance for the platform supporting member 640 to rotate upwardly relative to the body 530 of the first platform 515. With the platform supporting members 640 rotated upwardly, the first platform 515 can pivot about its pivot axis 525 away from the second platform 520. Upon movement of the first platform 515 into the horizontal orientation, the platform supporting members 640 can be moved relative to the body 530 of the first platform 515 for the engagement portions 650 to be received within the recesses 635 of the first projections 625. As a result, the first platform 515 is supported in the horizontal orientation. The first platform 515 can be again moved into the vertical orientation by simply moving the first platform 515 back toward the vertical orientation, which will move the engagement portions 650 out of engagement with the first projections 625. The platform supporting members 640 are moved relative to the first platform 515 to reengage the second projections 630 to position the first platform 515 in the vertical orientation.
Although the disclosure has been described in detail with reference to certain preferred embodiments, variations and modifications exist within the scope and spirit of one or more independent aspects of the disclosure as described. Various features and advantages of the disclosure are set forth in the following claims.
This application claims priority to U.S. Provisional Patent Application No. 63/106,095 filed Oct. 27, 2020, the entire contents of which are incorporated herein by reference.
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