BINOCULAR BRIDGE SYSTEM
The binocular bridge system is configured to couple two night vision monoculars together, effectively providing the user with a binocular night vision system. An example binocular bridge system comprising: a bridge; a first hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of a night vision monocular secured to the first hinged arm; and a second hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of a night vision monocular secured to the second hinged arm. The hinged arms in conjunction with the objective alignment rings are configured to mechanically collimate the night vision monoculars secured to the first hinged arm and the second hinged arm of the binocular bridge system.
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This is a continuation application claiming the benefit of U.S. patent application Ser. No. 16/039,242, filed on Jul. 18, 2018, which claims the benefit of U.S. Provisional Application Ser. No. 62/534,900, filed on Jul. 20, 2017, the entireties of both applications are incorporated herein by reference.
TECHNICAL FIELDThis disclosure relates to implementations of a binocular bridge system.
BACKGROUNDThe PVS-14 night vision monocular is in widespread use by warfighters, law enforcement personnel, and the civilian market. The PVS-14 uses a single image intensifier tube that only provides an image to one eye of the user. Cost, size, and weight are key factors that lead to the development and selection of the PVS-14.
Ocular dominance is the brains tendency to prefer receiving visual input from one eye to the other. Naturally, most people have a dominant eye regardless of light conditions. However, the non-dominant eye is still very important since it is used in conjunction with the dominant eye to send more visual input to the brain. Consequently, a person can see with one eye, but their field of vision will be restricted, depth perception compromised, and visual-motor abilities reduced.
When performing tasks that require sight, it is imperative that visual input provided to the brain not be diminished. When performing a task using a night vision monocular, the eye engaged therewith will be the dominant eye. This occurs because the eye viewing the image produced by the night vision monocular is the only eye providing significant visual input to the brain. When a task needs to be completed rapidly, particularly task being performed during a combat operation, speed can be a critical factor to success or failure. This is why special operations teams have been using dual-tube night vision binocular devices for decades. Through the use of two image intensifier tubes, a night vision binocular device provides an image to each eye of the user and facilitates binocular vision. Compared to the monocular vision facilitated by a night vision monocular, the binocular vision facilitated by a night vision binocular device provides for depth perception, increased visual-motor abilities, and a larger field of vision.
Unfortunately, the cost of purchasing purpose built dual-tube night vision binocular devices is prohibitively expensive for many military units, law enforcement agencies, and civilian end users. Therefore, a need exists for a device that can couple two night vision monoculars (e.g., PVS-14s) already in inventory together, effectively providing the user with a dual-tube night vision binocular system.
Accordingly, it can be seen that needs exist for the binocular bridge system disclosed herein. It is to the provision of a binocular bridge system configured to couple two night vision monoculars together, effectively providing the user with a dual-tube night vision binocular system, that the present invention is primary directed.
SUMMARY OF THE INVENTIONImplementations of a binocular bridge system are provided. The binocular bridge system is configured to couple two night vision monoculars together, effectively providing the user with a binocular night vision system. The binocular bridge system is configured to mechanically collimate the two night vision monoculars paired thereby. This may minimize, or eliminate, headaches and disorientation that can occur when using a night vision system comprising two non-aligned image intensifier tubes.
An example binocular bridge system comprising: a bridge; a first hinged arm that includes an objective alignment ring, the first hinged arm comprising a proximal end secured to a first side of the bridge and a distal end including an opening for a threaded fastener used to secure a first night vision monocular to the first hinged arm, the objective alignment ring is configured to fit around an objective lens locking ring of the first night vision monocular; and a second hinged arm that includes an objective alignment ring, the second hinged arm comprising a proximal end secured to the second side of the bridge and a distal end including an opening for a threaded fastener used to secure a second night vision monocular to the second hinged arm, the objective alignment ring is configured to fit around an objective lens locking ring of the second night vision monocular. The hinged arms in conjunction with the objective alignment rings are configured to mechanically collimate the first night vision monocular and the second night vision monocular secured to the first hinged arm and the second hinged arm, respectively, of the binocular bridge system.
Another example binocular bridge system comprising: a bridge; a first hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of the first night vision monocular, the first hinged arm comprising a proximal end secured to a first side of the bridge, a distal end including an opening for a threaded fastener used to secure the first night vision monocular to the first hinged arm, and a cantilever extending from a front side of the first hinged arm, the objective alignment ring comprising a cantilever secured to the cantilever of the first hinged arm; and a second hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of the second night vision monocular, the second hinged arm comprising a proximal end secured to a second side of the bridge, a distal end including an opening for a threaded fastener used to secure the second night vision monocular to the second hinged arm, and a cantilever extending from a front side of the second hinged arm, the objective alignment ring comprising a cantilever secured to the cantilever of the second hinged arm.
Like reference numerals refer to corresponding parts throughout the several views of the drawings.
DETAILED DESCRIPTIONAs shown in
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In some implementations, the washer 115 of the master control switch 111 may not be larger in diameter than the switch 114.
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In some implementations, the PCB 122 may comprise a voltage divider 124 configured to provide an output voltage to the conductively connected night vision monoculars 104a, 104b that is a fraction of the input voltage provided by the power source (e.g., one or more batteries) contained in the battery storage compartment 112. In some implementations, the PCB 122 may be conductively connected to the power source contained in the battery storage compartment 112 and the dummy battery inserts 150a, 150b. In this way, the PCB 122 is able to provide an output voltage (i.e., power) to the attached night vision monoculars 104a, 104b.
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In some implementations, the alignment washer 160 may be configured to centrally position a dummy battery insert 150a, 150b within the battery compartment of a night vision monocular 104a, 104b. In this way, the positive contact 162 of a dummy battery insert 150a, 150b remains in conductive contact with the positive contact of the battery compartment into which it has been positioned.
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In some implementations, once a first end of a conductive cable 180a, 180b has been positioned within the central bore 168 of the cylindrical shaft 158 and a conductive wire thereof secured (e.g., soldered) to both the positive contact 162 and the negative contact 156, the following steps may be used to assemble a dummy battery insert 150a, 150b:
Initially, insert the first end of the cylindrical shaft 158 into the opening 156c extending through the negative contact 156 so that the circular base 156a thereof comes to rest on the shoulder 164 of the cylindrical shaft 158.
Then, in some implementations, position the rotating cap 154 over the negative contact 156 so that the cylindrical boss 156b thereof extends through the opening 154a in the rotating cap 154.
Next, in some implementations, position the top cap 152 over the rotating cap 154 so that the two fastener channels 153a, 153b thereof are aligned with the threaded openings in the negative contact 156.
Then, in some implementations, insert one fastener into each fastener channel 153a, 153b extending through the top cap 152 and threadedly secured it within the aligned threaded opening in the negative contact 156. In some implementations, when assembled, the top cap 152 and the negative contact 156 do not impinge on the rotation of the rotating cap 154. In this way, the rotating cap 154 may be used to secure a dummy battery insert 150a, 150b within the battery compartment of a night vision monocular 104a, 104b without placing torque on the conductive cable 180a, 180b extending through the guide groove 152a in the top cap 152.
Next, in some implementations, insert the second end of the cylindrical shaft 158 into the central opening 160a extending through the alignment washer 160 (see, e.g.,
Then, in some implementations, insert the cylindrical shaft 162b of the positive contact 162 into the opening of the central bore 168 in the second end of the cylindrical shaft 158 of a dummy battery insert 150a, 150b. In this way, the positive contact 162 may be secured to the cylindrical shaft 158 (see, e.g.,
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In some implementations, the binocular bridge system 100 may not include a connector socket 170.
In some implementations, the connector socket 170 may be positioned within a bore extending through an extension 172 of the bridge 110. In some implementations, a portion of the connector socket 170 may extend from a first end of the bore and a cover 174 may be used to seal the second end of the bore (see, e.g.,
In some implementations, once the first night vision monocular 104a and the second night vision monocular 104b have been secured to the first hinged arm 130 and the second hinged arm 140, respectively, of the bridge 110 and the first dummy battery cell 150a and the second dummy battery cell 150b have been secured in position within the battery compartment of the first night vision monocular 104a and the second night vision monocular 104b, respectively, the power switch of each night vision monocular 104a, 104b should be turned to the “on” position. In this way, the master control switch 111 is able to selectively energize (i.e., power) both night vision monoculars 104a, 104b simultaneously. Succinctly put, placing the power switch of both night vision monoculars 104a, 104b in the “on” position closes their internal circuits thereby allowing the master control switch 111 to simultaneously remove or restore the conductive path between a power source (e.g., a battery stored in the bridge 110 or a remotely positioned battery pack) and both night vision monoculars 104a, 104b.
Although not shown in the drawings, it will be understood that suitable wiring connects the electrical components (e.g., the master control switch 111, the battery storage compartment 112, the PCB 122, the first dummy battery insert 150a, the second dummy battery insert 150b, and/or the connector socket 170) of the binocular bridge system 100 disclosed herein.
In some implementations, the bridge 110 and/or the interface shoe 113 may be fabricated from polyoxymethylene (POM). In some implementations, the bridge 110 and/or the interface shoe 113 may be fabricated from any material (e.g., aluminum), or combination of materials, suitable for use as part of a binocular bridge system 100.
In some implementations, the hinged arms 130, 140, the objective alignment rings 132, 142, and/or the pivot pins 131, 141 may be fabricated from aluminum. In some implementations, the hinged arms 130, 140, the objective alignment rings 132, 142, and/or the pivot pins 131, 141 may be fabricated from any material, or combination of materials, suitable for use as parts of a binocular bridge system 100.
It is important to note that, in some implementations, no permanent modification need be made to a night vision monocular 104a, 104b in order to use it in conjunction with a binocular bridge system 100 constructed in accordance with the present disclosure.
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Reference throughout this specification to “an embodiment” or “implementation” or words of similar import means that a particular described feature, structure, or characteristic is included in at least one embodiment of the present invention. Thus, the phrase “in some implementations” or a phrase of similar import in various places throughout this specification does not necessarily refer to the same embodiment.
Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings.
The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the above description, numerous specific details are provided for a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that embodiments of the invention can be practiced without one or more of the specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations may not be shown or described in detail.
While operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results.
Claims
1. A binocular bridge system configured to couple a first night vision monocular and a second night vision monocular together, the binocular bridge system comprising:
- a bridge;
- a first hinged arm that includes an objective alignment ring, the first hinged arm comprising a proximal end secured to a first side of the bridge and a distal end including an opening for a threaded fastener used to secure the first night vision monocular to the first hinged arm, the objective alignment ring is configured to fit around an objective lens locking ring of the first night vision monocular; and
- a second hinged arm that includes an objective alignment ring, the second hinged arm comprising a proximal end secured to the second side of the bridge and a distal end including an opening for a threaded fastener used to secure the second night vision monocular to the second hinged arm, the objective alignment ring is configured to fit around an objective lens locking ring of the second night vision monocular;
- wherein the hinged arms in conjunction with the objective alignment rings are configured to mechanically collimate the first night vision monocular and the second night vision monocular secured to the first hinged arm and the second hinged arm, respectively, of the binocular bridge system.
2. (canceled)
3. The binocular bridge system of claim 1, wherein the second hinged arm is configured to contour about the second night vision monocular.
4. (canceled)
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21. A binocular bridge system configured to couple a first night vision monocular and a second night vision monocular together, the binocular bridge system comprising:
- a bridge;
- a first hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of the first night vision monocular, the first hinged arm comprising a proximal end secured to a first side of the bridge, a distal end including an opening for a threaded fastener used to secure the first night vision monocular to the first hinged arm, and a cantilever extending from a front side of the first hinged arm, the objective alignment ring comprising a cantilever secured to the cantilever of the first hinged arm; and
- a second hinged arm that includes an objective alignment ring configured to fit around an objective lens locking ring of the second night vision monocular, the second hinged arm comprising a proximal end secured to a second side of the bridge, a distal end including an opening for a threaded fastener used to secure the second night vision monocular to the second hinged arm, and a cantilever extending from a front side of the second hinged arm, the objective alignment ring comprising a cantilever secured to the cantilever of the second hinged arm;
- wherein the hinged arms in conjunction with the objective alignment rings are configured to mechanically collimate the first night vision monocular and the second night vision monocular secured to the first hinged arm and the second hinged arm, respectively, of the binocular bridge system.
22. The binocular bridge system of claim 21, wherein the second hinged arm is configured to contour about the second night vision monocular.
Type: Application
Filed: Sep 28, 2021
Publication Date: Jan 20, 2022
Applicant: TNVC, Inc. (Redlands, CA)
Inventor: Charles Lasky (Port Washington, WI)
Application Number: 17/488,231