KR101900035B1 - Microscope for mobile terminal - Google Patents

Abstract

A microscope for a mobile terminal is disclosed. According to the present invention, the microscope for a mobile terminal comprises: a housing unit detachably attached to a mobile terminal having a camera provided therein; a stage unit installed inside the housing unit and having a specimen mounted thereon; an objective lens unit located between the camera and the stage unit and having an objective lens; and a light source unit generating light. The light is guided to the specimen so that an image of the specimen is provided to the camera.

Description

[0001] MICROSCOPE FOR MOBILE TERMINAL [0002]

The present invention relates to a microscope for a mobile terminal, and more particularly, to a microscope for a mobile terminal capable of observing a specimen through a mobile terminal.

In general, a microscope is a device that magnifies and observes microscopic objects and microorganisms, which are difficult to identify, from several tens to hundreds of times. Such a microscope includes a lens and a specimen plate. Therefore, the observer can enlarge and observe the specimen placed on the specimen plate through the lens.

On the other hand, a microscope attached to the mobile terminal generally includes a lens system mounted on the barrel section, an image processing section disposed on the upper side of the lens system for transmitting the image of the specimen to the mobile phone, .

However, in such a conventional mobile terminal microscope, since the light provided from the illumination means toward the specimen is provided only in one direction of the specimen, it is difficult to observe the specimen depending on the type and transparency of the specimen.

Furthermore, in the curriculum of high school and the like, various types of microscopes for experiments are required, such as fluorescence microscopes, general optical microscopes having various prices, and polarizing microscopes used for analyzing mineral slices. However, these special microscopes are expensive and occupy a lot of space, which makes it difficult to provide all kinds of microscopes in educational institutions.

Korean Unexamined Patent Publication No. 2007-0033613 (Published on Mar. 27, 2007)

The present invention provides a microscope for a mobile terminal which can be used in various applications by attaching to a mobile terminal having a camera.

According to an aspect of the present invention, there is provided a mobile terminal comprising: a housing unit detachably attached to a mobile terminal having a camera; A stay unit installed inside the housing unit and on which the specimen is seated; An objective lens unit disposed between the camera and the stay unit, the objective lens unit including an objective lens and a vertically movable spacing member; And a light source unit for generating light, wherein a light emitted from the light source unit is guided to the specimen, and an image of the specimen is provided to the camera.

Wherein the lifting unit includes a first lifting unit capable of rotating a rotating table to adjust a placement direction of the specimen, and a second lifting unit having a fixing plate, wherein the housing unit includes a first lifting unit or a second lifting unit May be selectively available by engaging one of them.

A lower filter member provided on the lower side of the lifting unit and an upper filter member provided on the upper side of the lifting unit.

The apparatus may further include a filter adjusting unit that includes the upper filter member and is rotatable about a side confined by the housing unit, and can select whether to use the upper filter member.

The filter regulating unit may include a rotation regulating member and a rotation filter unit regulated by the rotation regulating member and provided with the upper filter member.

The gap adjusting member includes a through hole and a coupling groove through which light passes, and the upper filter member having a shape corresponding to the coupling groove can be press-fitted into the coupling groove.

Wherein the upper filter member includes a first upper filter member having a fluorescence filter and a second upper filter member having a polarization filter, wherein the first upper filter member or the second upper filter member is selectively fastened .

The microscope for a mobile terminal according to the present invention can be used either selectively or both of a fluorescence microscope, an optical microscope, and a polarizing microscope capable of analyzing a thin piece of a mineral, which are relatively high in cost and used in special fields.

In addition, since it can be assembled by simple indentation or interference fit without requiring a fastening means such as bolting or gluing, it is easy to mass-produce at a low price.

In addition, the fluorescence, optical, and polarizing microscopes can be implemented with a single simple structure, so even in a budget-poor school, physics, biology, and earth science can be easily purchased and used as experimental equipment for integrated lesson classes.

In addition, it is possible to control the direction of light irradiation according to the type and transparency of the specimen, so that various specimens can be observed.

Further, since the mobile terminal is detachably attached to the mobile terminal, convenience of carrying and use is improved.

1 is a perspective view of a microscope for a mobile terminal according to a first embodiment of the present invention.
2 is a block diagram of a microscope for a mobile terminal according to a first embodiment of the present invention.
3 is a detailed view of an objective lens unit of a microscope for a mobile terminal according to the first embodiment of the present invention.
4 is a combined view of a first toilet unit of a microscope for a mobile terminal according to the first embodiment of the present invention.
5 is a rotation operation diagram of the first stay unit of the microscope for a mobile terminal according to the first embodiment of the present invention.
6 is an assembled view of the microscope for a mobile terminal according to the first embodiment of the present invention in which the second lifting unit and the second upper filter member are sandwiched.
7 is a circuit diagram of a light source unit according to the first embodiment of the present invention.
8 is a perspective view of a microscope for a mobile terminal according to a second embodiment of the present invention.
9 is a configuration diagram of a mobile terminal microscope according to a second embodiment of the present invention.
10 is a detailed view of an objective lens unit of a microscope for a mobile terminal according to a second embodiment of the present invention.
11 is an operation diagram of a lifting unit of a microscope for a mobile terminal according to a second embodiment of the present invention.
12 is an operational view of a filter control unit of a microscope for a mobile terminal according to a second embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1 is a perspective view of a microscope for a mobile terminal according to a first embodiment of the present invention, Fig. 2 is a configuration diagram, Fig. 3 is a detailed view of an objective lens unit, Fig. 4 is a coupling diagram of a first stay unit, FIG. 5 is a rotation operation diagram of the first lifting unit, FIG. 6 shows an assembled state of the second lifting unit and the second upper filtering member of the present invention, and FIG. A circuit diagram applied to the light source unit is shown.

Referring to the drawings, the microscope for a mobile terminal according to the first embodiment of the present invention can be removably attached to a mobile terminal 10 having a camera 11. For example, the mobile terminal 10 may be a mobile communication terminal having a display on one side and a camera 11 and a light source on the other side. Although not shown, the other side of the mobile terminal 10 can be wrapped by a cover. At this time, the cover may have an exposed portion for exposing the camera to the outside of the cover.

In the microscope 100, a specimen taken by the camera 11 is seated. The microscope 100 guides the incident light emitted from the light source to the upper side or the lower side of the specimen. Thus, the microscope (100) allows the image of the specimen to be provided to the camera (11) by the detection light passing through the specimen.

The housing unit 110 includes an upper housing 111 and a lower housing 112. The housing unit 110 is formed with a flooring insertion unit 110a which is disposed at a position where the upper housing 111 and the lower housing 112 are coupled with the flooring units 130 and 160 Makes space.

The upper housing 111 may be provided with an adjusting screw groove 111b to which the attachment surface 111a on which the mobile terminal 10 is attached and detached and the objective lens unit 120 are screwed together. At this time, Velcro or the like is adhered or pressed on the attachment surface 111a so that the mobile terminal 10 can be attached.

A fastening piece 112a is formed on the lower housing 112. This is a block protruding upward from the lower housing 112 to facilitate the coupling of the upper housing 111 and the lower housing 112. [ So that the upper housing 111 can be press-fitted into the lower housing 112 to be fitted therein.

The lower housing 112 is provided with an insertion opening 112b, a guide groove 112c and a fastening groove 121b. The lower filter member 140 is inserted into the insertion opening 112b, The unit 160 can be inserted and fitted and temporarily fixed. The first lifting unit 130 or the second lifting unit 160 can be selectively inserted into the lower housing 112 in the coupling groove 121b.

The objective lens unit 120 includes an up and down movable spacing member 121 provided with an objective lens. At this time, the gap adjusting member 121 is screwed into the adjusting screw groove 111b of the housing 110, and the gap adjusting member 121 is provided with the first upper filter member 122 or the second upper filter member 123 are selectively fastened.

The gap adjusting member 121 includes a through hole 121a through which the light passes and a coupling groove 121b through which the second upper filter member 123 having a shape corresponding to the coupling groove 121b Or the first upper filter member 122 having the polarization filter 122a and the adjustment projection 122b may be inserted into a part of the first filter member 122 so that the arrangement of the polarization filter 122a can be finely adjusted by the operation of the adjustment projection 122b have.

In other words, the upper filter member includes a first upper filter member 122 having a fluorescent filter 123a and a second upper filter member 123 having a polarizing filter 122a, and the interval adjusting member 121 The first upper filter member 122 or the second upper filter member 123 can be selectively fastened. And the second upper filter member 123 includes a polarization filter 122a and an adjustment projection 122b so as to be rotatable separately from the gap adjusting member 121. [

The lifting units 130 and 160 include a first lifting unit 130 capable of rotating the rotating plate 133a to adjust the placement direction of the specimen and a second lifting unit 160 having a fixing plate, 112 may selectively use any one of the first and second lifting units 130 and 160 by using the engaging grooves 112d as shown in FIG.

The first lifting unit 130 includes a rotating table 133 on which the specimen is seated and a rotation adjusting member 131 for rotating the rotating table 133.

The rotation regulating member 131 includes an adjusting screw 131a and a first gear 131b and the rotating gear 133 is connected to the rotating gear 133a and the first gear 131b directly or indirectly, (133b), so that the rotary plate (133a) can be rotated by the operation of the adjusting screw (131a). In other words, the rotation regulating member 131 can be directly connected to the revolving bed 133 or can be actuated in a gear-linked manner via the second gear 132. At this time, the rotation adjusting member 131 may be provided with a seating surface 133aa for facilitating the placement of the specimen.

Further, the first lifting unit 130 may further include a first support 134 and a second support 135 for supporting and restricting the upper and lower elements, respectively, included in the first lifting unit 130 .

The second lifting unit 160 includes a fixing plate 160a on which the specimen is seated, a vertical portion 160b extending downward from the fixing plate 160a, a ring on the end of the vertical portion 160b, And a support portion 160c fitted in the groove 112c.

The lower filter member 140 includes a polarizing filter and is disposed below the ground unit 130 so that the polarizing filter 122a of the first upper filter member 122 can form upper and lower Nicols to realize a polarizing microscope function. have. At this time, since the vibration direction of the lower polarizer and the vibration direction of the upper nicol must be adjusted to be perpendicular to each other, the first upper filter member 122 is rotatably provided with respect to the gap adjusting member 121.

The lower filter member 140 may include a lower filter 140a and a handle 140b to be inserted into or removed from the housing unit 110 so as to be detachable from the housing unit 110. [

The light source unit 150 includes a first light source unit 151a that provides light to the floor unit laterally and a second light source unit 153a that provides light to the floor below the floor unit.

The light source unit 150 includes a lower extension piece 151 extending downwardly of the stay unit, an upper extension piece 153 extending laterally of the stay unit, a lower extension piece 151 and an upper extension piece 153 And a vertical piece 152 which is connected to the housing unit 110 and is press-fitted into the housing unit 110. The light source unit 150 is provided with a wire insertion groove 150a for guiding the wire to be connected to the light sources 150a and 153a .

The light source unit 150 may be selectively available with the LED S11 or the laser diode S22, L.D. The light source unit 150 includes a first circuit S10 having an LED S11 and a power source S12 and a second circuit having a laser diode S22 and a capacitor S21 and a power source S12 in parallel S20), and any one of the circuits can be selectively used via the switch S23. At this time, the power source S12 can be supplied from the mobile terminal 10, which enables easy use of the microscope 100. [

For the microscopic observation, a light source is required. It is preferable to use an optical microscope and a polarization microscope for an LED, and a fluorescence microscope for a laser diode. For this purpose, the light source unit 150 may use an LED and a laser diode as a light source It is. At this time, since the laser diode is sensitive to the instantaneous voltage, the capacitors are connected in parallel.

Fig. 8 is a perspective view of a microscope for a mobile terminal according to a second embodiment of the present invention, Fig. 9 is a configuration diagram, Fig. 10 is a detailed view of an objective lens unit 220, Fig. 12 is an operational view of the filter control unit 270. Fig.

Referring to the drawings, a microscope 200 for a mobile terminal according to a second embodiment of the present invention includes a housing unit 210, an objective lens unit 220, a ground unit 230, a filter control unit 270).

The housing unit 210 includes an upper housing 211 and a lower housing 212. The upper housing 211 may be provided with an adjusting screw groove 211b to which the attachment surface 211a on which the mobile terminal 20 is attached and detached and the objective lens unit 220 are screwed together. At this time, Velcro or the like is adhered or pressed on the attachment surface 211a so that the mobile terminal 20 can be attached.

The lower housing 212 is formed with an opening 212a and a coupling groove 212b through which a light source and a lower filter member are inserted and fixed into the lower housing 212. In the coupling groove 212b, The rotation regulating member 231 of the rotating shaft 230 can be fitted.

The objective lens unit 220 includes an up and down movable spacing member 221 provided with an objective lens. At this time, the gap adjusting member 221 is screwed into the adjusting screw groove 211b of the housing 210, and the second upper filter member 222 is fastened to the gap adjusting member 221. Here, the gap adjusting member 221 has a through hole 221a through which light passes and a coupling groove 221b. In the coupling groove 221b, a second upper filter member 222 having a fluorescent filter 222a Can be seated. This second upper filter member 222 allows the microscope 200 to implement a fluorescence microscope function.

The second upper filter member 222 is provided with a fluorescent filter 222a and a magnet portion 222b so that one end of the fluorescent filter 222a is rotatably coupled to the gap adjusting member 221, May be selected. And the use of the fluorescent filter 222a is controlled by a rotation method by a hinge. Further, the second upper filter member 222 and the gap adjusting member 221 may each have a magnetic body to guide selection of whether to use the fluorescent filter 222a. The second upper filter member 222 can be accurately positioned at a desired position by the magnet portion 222b.

The lifting unit 230 can rotate the rotating plate 233a to adjust the placement direction of the specimen. The lifting unit 230 may include a rotating table 233 on which the specimen is seated and a rotation adjusting member 231 for rotating the rotating table 233.

The rotation regulating member 231 is provided with an adjusting screw 231a and a first gear 231b and the rotating gear 233 is connected to the rotating gear 233a and the first gear 231b, And the rotating plate 233a can be rotated by the operation of the adjusting screw 231a. In other words, the rotation regulating member 231 can be actuated in gear connection with the rotary gear 233 directly or via the second gear 232. At this time, the rotation adjusting member 231 may be provided with a guide protrusion 233aa for guiding the position where the specimen is placed.

Further, the lifting unit 230 may further include a first support 234 and a second support 235 for supporting and restricting the upper and lower elements, respectively, of the lifting unit 230.

The lower filter member (not shown) has a polarizing filter and is disposed below the ground unit 230 to constitute upper and lower Nicols together with a polarizing filter provided in the first upper filter member 273a of the filter adjusting unit 270 And a polarization microscope function can be implemented. At this time, since the vibration direction of the lower polarizer and the vibration direction of the upper nicol should be adjusted to be perpendicular to each other, the first upper filter member 273a is rotatable by the operation of the rotation regulating member 271. [

The filter control unit 270 includes a first upper filter member 273a and is rotatable about one end confined to the housing unit 110 so that the first upper filter member 273a can be selectively used do. The filter regulating unit 270 includes a rotation regulating member 271 and a rotation filter unit 273 adjusted by the rotation regulating member 271 and provided with a first upper filter member 273a.

The rotation regulating member 271 includes an adjusting screw 271a and a first gear 271b and the rotating filter portion 273 includes a second upper filter member 273a and a third gear 273b, The rotation of the rotating filter portion 273 can be realized through the gear connection via the second gear 272 by the operation of the adjusting member 271. [

Further, the filter control unit 270 includes a first support 274 and a second support 275 for supporting and restraining the elements included in the filter control unit 270 at the top and bottom, respectively, It is possible to secure restraint and stability.

The fastening member 276 is press-fitted into the housing unit 210 to fasten and rotate the filter adjusting unit 270 to the housing unit 210 and the hole provided in the fastening member 276 and the filter adjusting unit 270 May be connected to the filter control unit 270 so as not to position or position the filter control unit 270 on the route through which the light is irradiated.

As described above, the microscope for a mobile terminal according to an embodiment of the present invention has an advantage in that it can control the irradiation direction of light according to the type and transparency of a specimen, and various specimens can be observed. In addition, since the microscope for a mobile terminal is detachably attached to a mobile terminal, convenience of carrying and use can be improved, and an advantage that a conventional microscope can observe a specimen difficult to identify due to amplification of a ratio due to a camera and a microscope lens of the mobile terminal have. For example, if a microscope for a mobile terminal can be observed at a magnification of 100 at a magnification of 100, it is possible to observe a specimen up to 400 magnifications according to magnification amplification according to the interlocking of a microscope for a mobile terminal and a camera of a mobile terminal.

Further, the microscope for a mobile terminal according to an embodiment of the present invention can use a fluorescence microscope, an optical microscope, and a polarizing microscope capable of analyzing thin flakes of mineral, which are comparatively high in cost and used in special fields.

In addition, since it can be assembled by simple indentation or interference fit without requiring a fastening means such as bolting or gluing, it is easy to mass-produce at a low price.

In addition, the fluorescence, optical, and polarizing microscopes can be implemented with a single simple structure, so even in a budget-poor school, physics, biology, and earth science can be easily purchased and used as experimental equipment for integrated lesson classes.

In addition, it is possible to control the direction of light irradiation according to the type and transparency of the specimen, so that various specimens can be observed.

Further, since the mobile terminal is detachably attached to the mobile terminal, convenience of carrying and use is improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, You will understand. Accordingly, the true scope of the invention should be determined only by the appended claims.

100: Microscope for mobile terminal 110: Housing unit
110a: Depositing portion 111: Upper housing
111a: Mounting surface 111b: Adjusting screw groove
112: lower housing 112a: fastening piece
112b: insertion port 112c: guide groove
112d: fastening groove 120: objective lens unit
121: space adjusting member 121a: through hole
121b: fastening groove 122: first upper filter member
122a: polarizing filter 122b: adjusting projection
123: second upper filter member 123a: fluorescent filter
130: first lifting unit 131: rotation adjusting member
131a: Adjusting screw 131b: First gear
132: second gear 133: rotary material
133a: Rotating plate 133b: Third gear
133aa: seating surface 134: first support
135: second support member 140: lower filter member
140a: Lower filter 140b: Handle
150: Light source unit 150a: Wire insertion groove
151: lower extension 151a: first light source part
152: vertical piece 153: upper extension piece
153a: second light source unit 160: second lifting unit
160a: Fixing plate 160b:
160c: support portion S10: first circuit
S11: LED S12: Power
S20: Second Circuit S21: Capacitor
S22: Laser diode S23: Switch
200: microscope for mobile terminal 210: housing unit
211: upper housing 211a: mounting face
211b: adjusting screw groove 212: lower housing
212a: opening portion 212b: fastening groove
220: objective lens unit 221:
221a: through hole 221b: fastening groove
222: second upper filter member 222a: fluorescent filter
222b: magnet part 230: floor unit
231: rotation adjusting member 231a: adjusting screw
231b: first gear 232: second gear
233: Rotating table 233a:
233b: Third gear 233aa:
234: first support 235: second support
270: filter adjusting unit 271: rotation adjusting member
271a: adjusting screw 271b: first gear
272: second gear 273: rotation filter portion
273a: first upper filter member 273b: third gear
274: first support 275: second support
276: fastening member

Claims (7)

A housing unit attached to and detached from a mobile terminal provided with a camera;
A stay unit installed inside the housing unit and on which the specimen is seated;
An objective lens unit disposed between the camera and the stay unit, the objective lens unit including an objective lens and a vertically movable spacing member; And
And a light source unit for generating light,
Guiding the light emitted from the light source unit to the specimen so that an image of the specimen is provided to the camera,
Wherein the lifting unit includes a first lifting unit and a second lifting unit, the first lifting unit and the second lifting unit being capable of rotating the rotating table to adjust the placement direction of the specimen,
Wherein the housing unit is selectively usable by fastening any one of the first and second lifting units. delete The method according to claim 1,
A lower filter member provided below the lifting unit,
And an upper filter member provided above the lifting unit. The method of claim 3,
Further comprising a filter control unit rotatable about one side confined to the housing unit,
Wherein the upper filter member is installed in the filter control unit and can select whether to use the upper filter member. 5. The method of claim 4,
The filter control unit
A rotation regulating member, and a rotation filter unit adjusted by the rotation regulating member and provided with the upper filter member. The method of claim 3,
Wherein the gap adjusting member has a through hole and a coupling groove through which light passes, and the upper filter member is fastened to the coupling groove. The method according to claim 6,
Wherein the upper filter member comprises a first upper filter member having a fluorescence filter and a second upper filter member having a polarization filter,
Wherein the first upper filter member or the second upper filter member is selectively fastened to the gap adjusting member.

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