DigiLens Patent | Switchable high and low magnification lightweight microscope lens structure

Patent: Switchable high and low magnification lightweight microscope lens structure

Drawings: Click to check drawins

Publication Number: 20150116821

Publication Date: 20150430

Applicants: Digilens

Abstract

A switchable high and low magnification lightweight microscope lens structure has a first microscope unit, a second microscope unit and a hinge. The first microscope unit has a first microscope lens having a first adhesive piece adhesively attached to an inner side of the first microscope unit with a hole formed through the first adhesive piece. The second microscope unit has a second microscope lens with a magnification higher than that of the first microscope lens having a second adhesive piece adhesively attached to an inner side of the second microscope unit. The hinge has two fixed arms, a pivoting block and a pivoting pin. The fixed arms are formed on and protrude from one edge of the first microscope unit. The pivoting block are formed on and protrudes from one edge of the second microscope unit, and mounted between the fixed arms.

Claims

1. A switchable high and low magnification lightweight microscope lens structure, comprising: a first microscope unit having: a first microscope lens mounted through the first microscope unit in a front-to-rear direction; and a first adhesive piece adhesively attached to an inner side of the first microscope unit with a hole formed through the first adhesive piece; a second microscope unit having a second microscope lens mounted through the second microscope unit in the front-to-rear direction and having a magnification higher than a magnification of the first microscope lens; and a hinge having: two fixed arms formed on and protruding from one edge of the first microscope unit; a pivoting block formed on and protruding from one edge of the second microscope unit, and mounted between the fixed arms; and a pivoting pin mounted through the fixed arms and the pivoting block; wherein the first microscope unit is pivotable with respect to the second microscope unit, and the inner side of the first microscope unit is superimposable on the inner side of the second microscope unit when the microscope lens structure is in a closed state.

2. The microscope lens structure as claimed in claim 1, wherein the second microscope unit has a second adhesive piece adhesively attached to an inner side of the second microscope unit with a hole formed through the second adhesive piece.

3. The microscope lens structure as claimed in claim 2, wherein the first microscope lens has an inner end recessed outwards for the first adhesive piece to be mounted on the inner end of the first microscope lens, and the second microscope lens has an inner end recessed outwards for the second adhesive piece to be mounted on the inner end of the second microscope lens.

4. (canceled)

5. The microscope lens structure as claimed in claim 2, wherein the pivoting block is tilted outwards when the microscope lens structure is in a fully open state.

6. The microscope lens structure as claimed in claim 3, wherein when the microscope lens structure is in the closed state, a gap defined between the inner sides of the first microscope unit and the second microscope unit is greater than a height of the first adhesive piece.

7. The microscope lens structure as claimed in claim 6, wherein the first microscope unit is pivotable in a range between 270.degree. and 360.degree. with respect to the second microscope unit.

8. The microscope lens structure as claimed in claim 1, wherein the first microscope unit has an eye-shaped edge portion formed around a peripheral wall of an outer portion of the first microscope unit, and the second microscope unit has a sawtooth-shaped edge portion formed around a peripheral wall of an inner portion of the second microscope unit for the first microscope unit and the second microscope unit to exhibit an appearance of a human eye when the first microscope unit and the second microscope unit are superimposed on each other.

9. (canceled)

10. (canceled)

11. (canceled)

12. (canceled)

13. (canceled)

14. The microscope lens structure as claimed in claim 8, wherein the first microscope unit has a strap hole formed on a side edge thereof for a strap to pass through the strap hole, and two ends of the strap are tied to an earphone plug.

15. (canceled)

16. (canceled)

17. (canceled)

18. (canceled)

19. (canceled)

20. The microscope lens structure as claimed in claim 14, wherein the first microscope unit has a first corrugated surface formed around an edge surface thereof, the second microscope unit has a second corrugated surface formed around an edge thereof, and a recess is formed in the second corrugated surface.

21. (canceled)

22. (canceled)

23. (canceled)

24. (canceled)

25. (canceled)

26. The microscope lens structure as claimed in claim 1, wherein each fixed arm of the hinge has an indentation formed in an inner side thereof, and the pivoting block has two bosses respectively formed on two opposite sides thereof adjacent to the indentations and respectively engaging the indentations of the fixed arms of the hinge.

Description

BACKGROUND OF THE INVENTION

[0001] 1. Field of the Invention

[0002] The present invention is related to a switchable high and low magnifyication lightweight microscope lens structure, and more particularly to a microscope lens structure capable of being adhered to and combined with a cell phone, a tablet personal computer (PC) or a camera lens for taking and viewing high and low magnification images.

[0003] 2. Description of the Related Art

[0004] Rapid technological development makes progress and bring forth convenience into life of people. So far, regular people can easily own digital camera equipment, including simple autofocus camera and complicated single lens reflex camera. Besides, picture-taking function is available to almost all the cell phones and tablet computers. Therefore, picture taking become a commonplace skill to ordinary people everywhere. Above all, smart phones or tablet PCs can function as a camera, a phone and message-forwarding equipment and is portable so that images taken can be immediately transmitted to recipients through networks, thereby attaining instant upload of images just taken. Due to the shape, size and weight limits, current digital camera equipment, smartphones or tablet PCs can be only equipped with fixed focus lens, which is collaborated with an embedded image processing technique for zoom-in and zoom-out photography upon taking images. Also, a telescopic zoom lens can be mounted on a camera for wide-angle zoom-in and zoom-out photography.

[0005] However, the image processing technique and the telescopic zoom lens only allow cell phones, cameras or tablet computers to zoom in and zoom out for photography while photography of microscopic images is not available. In view of the foregoing drawback, related industry has aggressively put effort on development for solution. Disclosed by Taiwan Utility Model Patent No. M244478, an optional lens module can be easily assembled on a smartphone for a built-in camera lens to magnify, zoom in or zoom out a view of an object at the absence of the microscope function. To provide the microscope function, Taiwan Utility Model Patent No. M444520 discloses a conventional lightweight high magnification microscope lens structure. With reference to FIG. 1, the conventional high magnification microscope lens structure includes a body 51 and a rear cover 52. The body 51 has a high magnification lens mounted through the body 51 in a front-to-rear direction. A portion of the rear cover 52 is pivotally mounted on the body 51 such that the rear cover 52 can be folded back and superposed on a rear side of the body 51. Hence, the conventional high magnification microscope lens structure can be adhered to and assembled on the camera lens of a smartphone, a camera or a tablet PC for the purpose of the microscope function. As the conventional high magnification microscope lens structure only has a single microscope lens, under the circumstance of actual teaching or industrial application demanding for lower and higher magnification, the conventional high magnification microscope lens structure with a single microscope lens fails to meet such demand

SUMMARY OF THE INVENTION

[0006] An objective of the present invention is to provide a switchable high and low magnification lightweight microscope lens structure, which can adhesively attached to a lens of a cell phone, a tablet computer or a camera with a high-magnification lens and a low-magnification lens switchable for meeting the needs of taking high or low-magnification microscopic images and serving as teaching assistance in biological observation or enlargement of detailed portions of industrial and commercial products.

[0007] To achieve the foregoing objective, the switchable high and low magnification lightweight microscope lens structure has a first microscope unit, a second microscope unit and a hinge.

[0008] The first microscope lens is mounted through the first microscope unit in a front-to-rear direction.

[0009] The first adhesive piece is adhesively attached to an inner side of the first microscope unit with a hole formed through the first adhesive piece.

[0010] The second microscope unit having a second microscope lens is mounted through the second microscope unit in the front-to-rear direction and has a magnification higher than a magnification of the first microscope lens.

[0011] The hinge has two fixed arms, a pivoting block and a pivoting pin.

[0012] The fixed arms are formed on and protrude from one edge of the first microscope unit.

[0013] The pivoting block is formed on and protrude from one edge of the second microscope unit, and mounted between the fixed arms.

[0014] The pivoting pin is mounted through the fixed arms and the pivoting block.

[0015] The first microscope unit is pivotable with respect to the second microscope unit, and the inner side of the first microscope unit is superimposable on the inner side of the second microscope unit when the microscope lens structure is in a closed state.

[0016] Preferably, the second microscope unit has a second adhesive piece adhesively attached to an inner side of the second microscope unit with a hole formed through the second adhesive piece.

[0017] Preferably, the first microscope lens has an inner end recessed outwards for the first adhesive piece to be mounted on the inner end of the first microscope lens, and the second microscope lens has an inner end recessed outwards for the second adhesive piece to be mounted on the inner end of the second microscope lens.

[0018] Preferably, the pivoting block is tilted outwards when the microscope lens structure is in a fully open state.

[0019] Preferably, when the microscope lens structure is in the closed state, a gap defined between the inner sides of the first microscope unit and the second microscope unit is greater than a height of the first adhesive piece.

[0020] Preferably, the first microscope unit is pivotable in a range between 270 and 360.degree. with respect to the second microscope unit.

[0021] Preferably, the first microscope unit has an eye-shaped edge portion formed around a peripheral wall of an outer portion of the first microscope unit, and the second microscope unit has a sawtooth-shaped edge portion formed around a peripheral wall of an inner portion of the second microscope unit for the first microscope unit and the second microscope unit to exhibit an appearance of a human eye when the first microscope unit and the second microscope unit are superimposed on each other.

[0022] Preferably, the first microscope unit has a strap hole formed on a side edge thereof for a strap to pass through the strap hole, and two ends of the strap are tied to an earphone plug.

[0023] Preferably, the first microscope unit has a first corrugated surface formed around an edge surface thereof, the second microscope unit has a second corrugated surface formed around an edge thereof, and a recess is formed in the second corrugated surface.

[0024] Preferably, each fixed arm of the hinge has an indentation formed in an inner side thereof, and the pivoting block has two bosses respectively formed on two opposite sides thereof adjacent to the indentations and respectively engaging the indentations of the fixed arms of the hinge.

[0025] When used, the switchable high and low magnification lightweight microscope lens structure can be adhesively attached to a lens of a cell phone, a tablet computer or a camera and can be magnification-switchable as follows. After aligned with an optical axis of the lens of the cell phone, the tablet computer or the camera, the first adhesive piece on the inner side of the first microscope unit is adhesively attached to the cell phone, the tablet computer or the camera to observe or take microscopic images with low magnification. Alternatively, the first adhesive piece can be manually adjusted and adhesively attached to an appropriate location around the lens of the cell phone, the tablet computer or the camera. Then, the second microscope unit is pivoted and aligned with the optical axis of the lens and the focus of the second microscope unit is adjusted to make the picture seen through the lens and the microscope unit clear for the purpose of taking microscopic images with high magnification.

[0026] The microscope lens structure can serve as a teaching tool for biological observation or for the use of enlarging or taking microscopic images of detailed portions of industrial and commercial products. Cell phones, tablet computers, cameras can be used to further instantly transmit the images just taken to any recipient through the Internet by means of the wifi feature thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

[0027] FIG. 1 is a perspective view of a conventional high-magnification lightweight microscope lens structure in an unfolded state;

[0028] FIG. 2 is a perspective view of a switchable high and low magnification lightweight microscope lens structure in an unfolded state in accordance with the present invention;

[0029] FIG. 3 is a perspective view of another switchable high and low magnification lightweight microscope lens structure in an unfolded state in accordance with the present invention;

[0030] FIG. 4 is a cross-sectional view of the switchable high and low magnification lightweight microscope lens structure in a folded state in FIG. 1;

[0031] FIG. 5 is a perspective view of the switchable high and low magnification lightweight microscope lens structure in a folded state in FIG. 1;

[0032] FIG. 6 is a schematic view of the switchable high and low magnification lightweight microscope lens structure in FIG. 1 hung on a cell phone strap;

[0033] FIG. 7 is an operational side view of the switchable high and low magnification lightweight microscope lens structure in FIG. 1 mounted on a cell phone;

[0034] FIG. 8 is an operational perspective view of the switchable high and low magnification lightweight microscope lens structure in FIG. 1 mounted on a cell phone;

[0035] FIG. 9 is an operational front view of the switchable high and low magnification lightweight microscope lens structure in FIG. 1 mounted on a tablet computer;

[0036] FIG. 10 is an operational perspective view of the switchable high and low magnification lightweight microscope lens structure in FIG. 1 mounted on a camera;

[0037] FIG. 11 is a schematic view of a picture of a mosquito taken by the cell phone through the switchable high and low magnification lightweight microscope lens structure in FIG. 1; and

[0038] FIG. 12 is a partially exploded perspective view showing a hinge of the switchable high and low magnification lightweight microscope lens structure in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

[0039] With reference to FIGS. 2 and 3, a switchable high and low magnification lightweight microscope lens structure 100 in accordance with the present invention has a first microscope unit 1, a second microscope unit 2 and a hinge 4. The first microscope unit 1 has a first microscope lens 11 and a first adhesive piece 12. The first microscope lens 11 is mounted through the first microscope unit 1 in a front-to-rear direction with an inner end thereof recessed outwards. The first adhesive piece 12 is adhesively attached to an inner side of the first microscope unit 1 and is mounted around the inner end of the first microscope lens 11 with a hole centrally formed through the first adhesive piece 12 and a thickness of the first adhesive piece 12 is greater than a recessed depth of the inner end of the first microscope lens 11. The second microscope unit 2 has a second microscope lens 21 and a second adhesive piece 22. The second microscope lens 21 is mounted through the second microscope unit 2 in the front-to-rear direction with an inner end thereof recessed outwards, and has a magnification higher than that of the first microscope lens 11. The second adhesive piece 23 is securely attached to an inner side of the second microscope unit 2 and is mounted around the inner end of the second microscope lens 21 with a hole centrally formed through the second adhesive piece 23 and a thickness of the second adhesive piece 23 is greater than a recessed depth of the inner end of the second microscope lens 2. The hinge 4 has two fixed arms 41, a pivoting block 42 and a pivoting pin 43. The fixed arms 41 are formed on and protrudes from one edge of the first microscope unit 1. The pivoting block 42 is formed on and protrudes from one edge of the second microscope unit 2, and is mounted between the fixed arms 41. The pivoting pin 43 is mounted through the fixed arms and the pivoting block 42 such that the first microscope unit 1 is pivotable with respect to the second microscope unit 2 and the inner side of the first microscope unit 1 is superimposed on the inner side of the second microscope unit 2 to prevent dust from entering the microscope lens structure 100 and prevent the first adhesive piece 12 and the second adhesive piece 23 from losing stickiness. Furthermore, the pivoting block 42 is tilted outwards when the microscope lens structure 100 is in a fully open state, such that the first microscope unit 1 is pivotable in a range between 270 and 360.degree. with respect to the second microscope unit 2.

[0040] With respect to FIG. 4, when the microscope lens structure 100 is in a closed state, a gap defined between the inner sides of the first microscope unit 1 and the second microscope unit 2 is greater than a height of the first adhesive piece 12 mounted on the inner side of the first microscope unit 1 such that the first microscope unit 1 and the second microscope unit 2 will not contact the first adhesive piece 12 when both are superimposed on each other. An outer diameter of the first adhesive piece 12 is slightly less than an inner diameter of the second adhesive piece 23 mounted on the inner side of the second microscope unit 2 such that the first adhesive piece 12 and the second adhesive piece 23 will not contact each other when the first microscope unit 1 and the second microscope unit 2 are superimposed on each other.

[0041] With reference to FIGS. 5 and 6, the first microscope unit 1 has an eye-shaped edge portion 13 formed around a peripheral wall of an outer portion of the first microscope unit 1, and the second microscope unit 2 has a sawtooth-shaped edge portion 22 formed around a peripheral wall of an inner portion of the second microscope unit 2 for the first microscope unit 1 and the second microscope unit 2 to exhibit an appearance of a human eye when the first microscope unit 1 and the second microscope unit 2 are superimposed on each other. The first microscope unit 1 has a strap hole 14 for a strap 15 to be mounted through such that the microscope lens structure 100 can be hung on a cell phone 31.

[0042] With reference to FIG. 7, when the microscope lens structure 100 is mounted on a camera 31, to manually switch from the first microscope unit 1 to the second microscope unit 2, the first adhesive piece 12 of the first microscope unit is manually attached to an appropriate portion around a lens 30 of the camera 31 at user's discretion, the second microscope unit 2 is pivoted up and is aligned in a direction with an included angle between the second microscope unit 2 and the lens 30, and the focus of the second microscope lens 21 is adjusted and an optical axis of the second microscope lens 21 is aligned with that of the lens 30 to make an image seen through the lens 30 and the second microscope lens 21 clear. The second microscope unit 2 can be pivoted in a continuous stageless manner, which can be achieved by a ratchet mechanism 44.

[0043] When the second microscope unit 2 is not used, the second microscope unit 2 is pivoted down for the optical axis of the second microscope unit 2 to be misaligned with that of the lens 30 of the camera such that the lens 30 of the camera 31 restores original image-taking functions thereof.

[0044] With reference to FIGS. 8-11, the microscope lens structure 100 is respectively and adhesively combined with a lens 30 of a cell phone 31, a tablet computer 32 or a camera 31 through the use of the second adhesive piece 12. Then, the second microscope unit 2 is pivoted toward the lens 30 of the camera 31, the focus of the second microscope lens 21 is adjusted, and an optical axis of the second microscope lens 21 is aligned with that of the lens 30 to observe or take a microscopic image with a relatively higher magnification as shown in FIG. 8. Alternatively, the first adhesive piece 12 of the first microscope unit 1 is aligned with the lens 30 of the tablet computer 32 or the camera 33 as shown in FIGS. 9 and 10 to observe or take a microscopic image with a relatively lower magnification as shown in FIG. 11.

[0045] With further reference to FIGS. 8-10, the first microscope unit 1 has a strap hole 14 formed on a side edge thereof for a strap 15 to pass there through such that two ends of the strap 15 are tied to an earphone plug 6 that is directly inserted into the cell phone 31 or the tablet computer 32 as shown in FIGS. 8 and 9 or are tied to a housing of the camera 33 as shown in FIG. 10. Accordingly, the microscope lens structure 100 can be carried along and used, and has a structure good for the use in regular cell phones, tablet computers and cameras, thus increasing the fun of image taking without giving rise to additional cost and problems against original image-taking operation.

[0046] To facilitate opening and closing the microscope lens structure 100, the first microscope unit 1 has a first corrugated surface 16 formed around a circumferential edge thereof, and the second microscope unit 2 has a second corrugated surface 24 formed around a circumferential edge thereof and a recess 25 formed in the second corrugated surface 24. Given the abrasive touch of the first corrugated surface 16 and the second corrugated surface 24 and the point of force application on the recess 25, users can open and close the microscope lens structure 100 more easily and conveniently.

[0047] With reference to FIG. 12, each fixed arm 41 of the hinge 4 has an indentation 45 formed in an inner side thereof. The pivoting block 42 has two bosses 46 respectively formed on two opposite sides thereof adjacent to the indentations 45 and respectively engaging the indentations 45 on the fixed arms 41. When the first microscope unit 1 is pivoted up to 180.degree. with respect to the second microscope unit 2 to open the microscope lens structure 100, the indentations 45 and the bosses 46 position and limit further movement of the first microscope unit 1 and the second microscope unit 2.

[0048] Given the first microscope unit 1 and the second microscope unit 2 respectively having a low-magnification lens and a high-magnification lens for taking microscopic images, the microscope lens structure can serve as a teaching tool for biological observation or for the use of enlarging or taking microscopic images of detailed portions of industrial and commercial products. Cell phones, tablet computers, cameras can be used to further instantly transmit the images just taken to any recipient through the Internet by means of the WiFi feature thereof.

[0049] Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.