Stereo multivision scope for sightseeing capable of controlling the rotation of both lens
Technical field
This invention relates to the stereo multivision scope for sightseeing capable of rotating the lenses , and specially to the multivision scope be possible to rotate the both lenses by the degree as desired while viewing throughout it, thereby obtaining varying viewing effects.
Background art
U.S. Patent 5,335,110 belonged to same inventor discloses the stereo multivision scope comprising two visual corn type tubes between which extension and shortening structure therebetween is provided to control their respective distance or width in a horizontal position for the purpose of being more suitable to user, each of one is therein provided with multi surfaces lens.
In the above-noted prior art, the two visual corn type tube is designed to control the distance therebetween throughout the extension and shortening means in consideration of various distance each person has for more convenient viewing, but still unsatisfactory to some degree due to the disadvantages that the multi image lenses are fixed in the corresponding object portion so that more various viewing cannot be obtained.
Furthermore, the exchange of the broken multi - surfaced lenses cannot be readily performed as far as the lenses are fixed.
Brief description of the Invention
This invention aims to provide the multivision scope
capable of viewing distant object with varying optical effects by adopting the rotary knob positioned at center enabling multi image lenses to rotate by the degree as desired. For attaining the purpose, this invention comprises the connection portion between two corn type tube containing rotary knob having the gear mountain on its peripheral circumstance, multi -image lenses housing rotatable upon manual manipulation, as engaging with the gear mountain of said rotary knob and upper and lower body member provided with guide rib for receiving the multi image lens housing, and particularly characterized by that two lenses can be rotated in such a structure.
In accordance with the principle of the invention, the rotation of central rotary knob accordingly enable the multi image lens to rotate by the degree as desired. In such a manner, user can enjoy the varying images such as the biased image or so like while rotating the rotary knob with finger .
Brief description of the drawings
Fig 1 is the dismantled perspective view of this invention. Fig 2 is the perspective view of this invention. Fig 3 is the front view of this invention Fig 4 is the plan view of this invention Fig 5 is the sectional view of this invention taken along line A-A in Fig 2 Fig 6 is the operating view of multi -surface lens being rotated, in which
(a) shows the multi image lenses being rotated leftward
(b) shows the multi image lenses being rotated rightward
Fig 7 is the dismantled perspective view showing another embodiment applying the principle of this invention.
Fig 8 is the assembled perspective view Fig 9 is the front view of the Fig 7
Fig 10 is the plan view of the Fig 7
Fig 11 is the sectional view taken along line of B-B in Fig 8
Fig 12 is the operating view of multi -surface lens being rotated, in which
(a) shows the multi image lenses being rotated leftward
(b) shows the multi image lenses being rotated rightward
Brief explanation of Numerals
1, la, 15, 15a: object portion
2, 2a, 16, 16a : ocular portion 3,4. : cone type tube
3a, 3b, 4a, 4b : both upper and lower taper type half -circular body member
5. connection portion
5a, 5b : upper and lower connectors 6,6a: upper and lower openings
7,7a : upper and lower rotary knob caps
8 : upper and lower contact surface
9. rotary guide rib
9a: protrusion 10, 10a, 10b, 10c : multi surfaces lenses
11,11a: gear mountain 12,12a: lens housing
13,13a : shaft 14: rotary knob
17,18 : both tubular body member
17a, 17b, 18a, 18b : both upper and lower tubular half- circular body member
19a, 19b : receiving groove 20: handle
Best mode for carrying out of this invention
Fig 1 to Fig 6 shows the first embodiment applying the principle of this invention.
This embodiment consists of two cone type tubes (3) (4) connected each other by connection portion(5), each of one has the object portion (l) (la) and ocular portion (2) (2a) as well as conventional binocular .
Both cone type tubes (3) (4) comprises the upper and lower semi-circular body membe (3a) (3b) (4a) (4b) and upper and lower connector (5a) (5b) in which is provided with the upper and lower rotary knob ca (7) (7a) having the opening at its top and below.
Upper and lower half -circular body member (3a) (3b) (4a) (4b) and upper and lower connector (5a) (5b) have the several grooves (9) and protrusions (9a) , for connecting or dissembling them. Inside of the object portion (1) (la) of the both cone type tubes (3) (4) is provided with multi surfaces lens (10) (10a) and the lens housing (12) (12a) having the gear mountain (11) (11a) formed along its peripheral circumstance.
Said upper and lower rotary knob cap (7) (7a) is provided with to contain the rotary knob (14) having the shafts (13) (13a) projected forwardly and rearwardly from its center position , in such a structure the rotary knob can be rotated as engaging with the gear mountain (11) (lla) of the said lens housing (12) (12a) , Accompanying Fig 7 to Fig 13 show the secondary embodiment applying the principal of this invention.
As shown in Fig 7, the embodiment consist of both tubular body member (17) (18) that is connected each other by connection portion(5), both of which also has the object portion(15) (15a) and ocular portion(l6) (16a) .
Both tubular body member (17 ) (18) comprise upper and lower half -circular body member (17a) (17b) (18a) (18b) and upper and lower connection portion (5a) (5b) wherein upper and lower rotary knob (7) (7a) having openings (6) (6a) at its top and below are provided with.
Above both upper and lower half -circular body members (17a) (17b) (18a) (18b) and upper and lower connector (5a) (5b) have the several protrusions (9) and grooves (9a) for easy separation and connection each other, and in the objection portion (15) (15a) , multi surface lenses (10) (10a) (10b) (10b) are mounted as two folded, having engaged with several grooves formed on the lens housing (12) (12a) along its peripheral circumstance, thus rotatable accordingly with the rotation of lens housing. Upper and lower rotary knob cap (7) (7a) contains the rotary knob(14) which is provided with shafts (13) (13a) projected forwardly and rearwardly, and which rotates as engaging with the gear mountain (11) (lla) of the said lens housing(12) (12a) . In the drawings, the member (19) (19a) is the shaft grooves for receiving projective shaft (13) (13a) projected from the center of rotary knob(14) and member (20) is the handle for easy portable.
For assembling the respective components, the lens housing (12) (12a) containing multi surface lenses and rotary knob (14) is firstly mounted on the lower rotary knob cap (7a) and then the protrusion and grooves respectively formed on the upper and lower half -circular body member (3b) (4b) (17b) (18b) are each other inserted. At that time when both upper and lower body member (3a) (3b) (4a) (4b) (17a) (17b) (18a) (18b) are each other jointed , the rotary knob is mounted therein as being engaged with the gear mountain (11) (lla) of lens housing (12) (12a) at its both side, the status of which is shown in the Fig 2 and Fig 8.
To use the present invention, user can rotate the rotary gear protruding upwardly from the openings (6) (6a) formed in the rotary knob caps (7) (7a) with finger.
The rotation of the rotary knob (14) enable the respective multiple surfaces lenses (10) (10a) (10b) (10c) mounted in the lens housing (12) (12a) to rotate so that various varying multiple image throughout it can be obtained.
Industrial Application
This invention provides user with various sightseeing circumstance to view distant object with the varying multiple images throughout its own function capable of rotating the multiple surface lenses by the degree as desired. Further, in such a structure this invention provides, user can readily exchange the multi image lenses by widening the gap between upper and lower body member by usage of driver or iron panel when the lenses is required to be changed.