TWI474040B - Lens system of capsule endoscope with dual-view - Google Patents

Description

Double-view capsule endoscope lens system

The invention relates to a lens of a capsule endoscope, in particular to a lens system of a double-view capsule endoscope.

Press, a traditional endoscope is connected to the machine by a long black tube. This machine is a cold light source that produces luminescence. The tube contains fiber that transmits luminescence through the fiber to the other end of the tube. During the inspection, the tube is deeped into the organ to be inspected. The cold light from the cold light source can illuminate the inside of the organ, and then the photosensitive element (CCD or CMOS) embedded in the end of the tube can clearly transmit the image signal back. The machine converts the signal into an image, so that you can see the inside of the organ as you watch TV, and adjust the angle of the endoscope as the doctor controls the direction of the tube, and view all parts of the organ in all directions.

However, some parts are difficult to check with traditional endoscopes, such as the small intestine, which requires the use of a capsule endoscope. The capsule endoscope refers to reducing the photosensitive element for photography and the cold light source to a size similar to that of a capsule drug. The traditional capsule endoscope is a non-telecentric system, and the effect of the other four-throat of the string will cause the contrast of the edge of the imaging plane to decrease, and the lens of the conventional capsule endoscope has only a single field of view structure, so that the field of view is not wide enough, if you want to increase The large single field of view maintains image quality, and the number of lenses needs to be increased and a large number of aspherical coefficients can be used to achieve. Because the capsule endoscope is an observation method for non-doctors to actively collect images, the capsule endoscope is placed in the examiner's body, and will be taken out after a complete examination is completed. The image of one area will only be collected once, if the doctor finds the inspection. In some cases of image disease, it is impossible to re-examine it again, and it is impossible to increase the number of images in the problem area.

In view of the above, the present invention proposes a double-angle capsule in view of the above-mentioned shortcomings of the prior art. The lens system of the endoscope to effectively overcome the above problems.

The main object of the present invention is to provide a lens system for a dual-view capsule endoscope, which uses three sets of lens sets to provide an optical system of a front field and a rear field, and two images can be collected in the same inspection area to enable inspection. More image information is available for reference upon completion.

Another object of the present invention is to provide a lens system for a dual-view capsule endoscope, which is smaller than a conventional endoscope designed for a front field of view and a rear field of view, and has improved imaging quality due to a small single field of view. There is no need to use a large number of lenses with aspherical coefficients.

To achieve the above object, the present invention provides a lens system for a dual-view capsule endoscope including a front field optical system and a rear field optical system, and includes a first lens in the front field optical system. And the second lens group, the image of the front field of view sequentially transmits the image signal to the back end through the first lens group, the second lens group and the third lens group; the second field lens is included in the rear field optical system And the third lens group, and the image of the rear field of view sequentially transmits the image signal to the rear end through the second lens group and the third lens group, and the rear end is a photosensitive element that receives the image signal.

The purpose, technical content, features and effects achieved by the present invention will be more readily understood by the detailed description of the embodiments.

The invention relates to a lens system of a double-view capsule endoscope, comprising two front and back fields of view, which can enlarge the field of view of the capsule endoscope, and can obtain two images in the same inspection area during the inspection, providing more The video information is for the doctor's reference.

1 is a schematic view of a lens system of a dual-view capsule endoscope provided by the present invention. The first lens group 10, the second lens group 12 and the third lens group 14 are formed. The first lens group 10 and the third lens group 14 form a front field optical system, and can obtain a front field of view image signal. The second lens group 12 and the third lens group 14 form a rear field optical system to obtain a rear view field image signal, and the third lens group 14 is shared by the front field optical system and the rear field optical system. The lens group.

The first lens group 10 includes three lenses, which are a first lens 102, a second lens 104 and a third lens 122, wherein the first lens 102 is a concave lens, the second lens 104 is a concave lens, and the third lens 122 is a lens inside and outside. The first lens group 10 is used for the inner lens of the third lens 122; the second lens group 12 includes a third lens 122 and a fourth lens 124, wherein the third lens 122 belongs to the first The lens group 10 and the second lens group 12, for the second lens group 12, an annular mirror of the outer ring of the third lens 122 is used, the surface is silver plated, and the fourth lens 124 is a planar annular mirror; The third lens group 14 includes four lenses, which are sequentially arranged from left to right into a fifth lens 142, a sixth lens 144, a seventh lens 146 and an eighth lens 148. The diameter of the seventh lens 146 is larger than the diameter of the sixth lens 144. The diameter of the sixth lens 144 is greater than the diameter of the fifth lens 142, and the diameter of the seventh lens 148 is slightly the same as that of the first lens 102 and the sixth lens 146, wherein the fifth lens 142, the sixth lens 144, and the seventh lens 146 is a convex mirror with different curvature, and the eighth lens 148 is a To protect the glass lens of the mirror.

The lens system of the present invention is a telecentric system, that is, the front field optical system and the rear field optical system are telecentric systems, so that the contrast of the imaging surface is greater than 65%, so that the image seen is less edged. The dark situation occurs; in addition, both the front field optical system and the rear field optical system are inverted telephoto systems, and the front field optical system and the rear field optical system use the same optical column (optical stop) ).

2 is a schematic view showing an embodiment of a lens system for a double-view capsule endoscope according to the present invention. The left side of the figure is the front side of the detecting object, and the right side is the rear side of the detecting object. Please refer to FIG. 1 for the front field of view. The signals are sequentially transmitted through the first lens 102, the second lens 104, and the third lens 122 of the first lens group 10, and the fifth lens 142, the sixth lens 144, and the seventh lens 146, the eighth lens 148 of the third lens group 14. Transmitting to a rear photosensitive element (not shown), the photosensitive element may be a complementary metal oxide semiconductor (CMOS) or a charge coupled device (CCD); meanwhile, the rear field of view signal of the detected object is controlled by the second lens group 12 The third lens 122 is reflected and sequentially transmitted to the photosensitive element through the fifth lens 142, the sixth lens 144, the seventh lens 146, and the eighth lens 148 of the third lens group 14.

In the present invention, it is assumed that the focal length of the front field optical system is F _forward , the focal length of the rear field optical system is F _backward , the focal length of the first lens group is F ₁ , and the focal length of the second lens group is F ₂ , third The focal length of the lens group is F ₃ , then -50<F ₁ /F _forward <-40,1<F ₃ /F _forward <2, -30<F ₂ /F _backward <-20,1<F ₃ /F _backward <2, if the length of the lens system of the present invention is L, then 15 < L / F _forward < 16, 8 < L / F _backward < 9. In addition, the angle of view of the forward field of view and the field of view of the rear field of view are greater than 120 degrees.

3 is a schematic view of only the front field optical system of the present invention, including the first lens 102, the second lens 104, the third lens 122, the fifth lens 142, the sixth lens 144, and the seventh lens 146 eighth lens. 148, wherein the third lens does not use the peripheral reflective portion. The left side of the figure is the front side of the detecting object, and the signal is transmitted to the rear through the first lens 102, the second lens 104, the third lens 122, the fifth lens 142, the sixth lens 144, the seventh lens 146 and the eighth lens 148. Photosensitive element (not shown).

Figure 4 is a schematic view of the rear view field optical system of the present invention, including a third lens 122, The fourth lens 124, the fifth lens 142, the sixth lens 144, and the seventh lens 146 are the eighth lens 148, wherein the third lens 122 only uses the peripheral reflective portion. After being reflected by the third lens 122, the signal is sequentially transmitted to the photosensitive element through the fifth lens 142, the sixth lens 144, the seventh lens 146, and the eighth lens 148.

In the prior art, in order to enlarge the field of view and maintain the image quality, it is necessary to increase the number of lenses, and at the same time, a large amount of aspherical coefficients can be used to achieve, and in the present invention, it is divided into two fields of view, which can be larger than the conventional capsule. The field of view of the mirror is less dead angle at the time of inspection, and since the two fields of view are added instead of expanding the size of the single field of view, in the present invention, it is not necessary to increase the number of lenses or the single field of view. A large number of lenses with aspherical coefficients are required to maintain image quality and expand the field of view.

Table 1 below shows the values of the radius of curvature of each face of the front field optical system, the thickness between each face, the distance between the lenses, and the material. The following Table 2 is the rear field optical system of the present invention. The radius of curvature of the face, the thickness between each face, the distance between the lenses, and the material. Table 3 below shows the entire capsule endoscope lens system with three aspherical surface values. The sixth surface of Table 1 and the third surface of Table 2 are the same surface and have the same aspherical coefficient.

Among them, COC is a plastic lens, POLYCARB is a medical material, and BK7 is a glass. The properties of these materials can be obtained from domestic and foreign manufacturers' websites.

Among them, the sixth surface of Table 1 and the third surface of Table 2 are the same surface and have the same aspherical coefficient.

In summary, the lens system of the dual-view capsule endoscope provided by the present invention utilizes three mirrors. The film group constitutes a front field optical system and a rear field optical system. When an inspection item is performed, in addition to simultaneously acquiring images of the front field of view and the rear field of view, and expanding the field of view, two images can be collected in the same inspection area. Compared with the prior art, only one image is obtained in one inspection area. Obviously, the present invention can provide more image information to the doctor for reference.

The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. Therefore, any changes or modifications of the features and spirits of the present invention should be included in the scope of the present invention.

10‧‧‧First lens group

102‧‧‧ first lens

104‧‧‧second lens

122‧‧‧ third lens

12‧‧‧second lens group

122‧‧‧ third lens

124‧‧‧fourth mirror

14‧‧‧ Third lens group

142‧‧‧ fifth lens

144‧‧‧ sixth lens

146‧‧‧ seventh lens

148‧‧‧ eighth lens

1 is a schematic view of a lens system of a dual-view capsule endoscope according to the present invention.

2 is a schematic view of an embodiment of a lens system for a dual-view capsule endoscope according to the present invention.

Figure 3 is a schematic illustration of only the front field optical system of the present invention.

Figure 4 is a schematic illustration of only the rear field optical system of the present invention.

10‧‧‧First lens group

102‧‧‧ first lens

104‧‧‧second lens

12‧‧‧second lens group

122‧‧‧ third lens

124‧‧‧fourth mirror

14‧‧‧ Third lens group

142‧‧‧Fourth lens

144‧‧‧ fifth lens

146‧‧‧ sixth lens

148‧‧‧ seventh lens

Claims (14)

A lens system for a dual-view capsule endoscope includes a front field optical system including a first lens group and a third lens group, and obtains a first lens group and the third lens group. An image signal of the front field of view; and a rear field optical system comprising a second lens group and the third lens group, wherein the image signal of the rear field of view is obtained through the second lens group and the third lens group; The first lens group and the second lens group share a third lens, and the third lens is composed of a convex lens of the inner ring and an annular mirror of the outer ring, and the front field optical system uses the first lens The convex lens of the inner circumference of the third lens in a lens group, the rear field optical system uses the annular mirror of the outer circumference of the third lens in the second lens group. The lens system of the dual-view capsule endoscope according to claim 1, wherein the front field optical system and the rear field optical system use the same optical stop. The lens system of the dual-view capsule endoscope according to claim 1, wherein the front field optical system and the rear field optical system are both telecentric systems. The lens system of the dual-view capsule endoscope according to claim 1, wherein the second lens group is located between the first lens group and the third lens group. The lens system of the dual-view capsule endoscope according to claim 1, wherein the third lens group is shared by the front field optical system and the rear field optical system. The lens system of the dual-view capsule endoscope according to claim 1, wherein the front field optical system and the rear field optical system are both an inverted telephoto system. The lens system of the dual-view capsule endoscope according to claim 1, wherein a focal length of the first lens group and a focal length ratio of the front field optical system are greater than -50 and less than -40. The lens system of the dual-view capsule endoscope according to claim 1, wherein a focal length of the third lens group and a focal length ratio of the front field optical system are greater than one and less than two. The lens system of the dual-view capsule endoscope according to claim 1, wherein the focal length of the second lens group and the focal length of the rear field optical system are greater than -30 and less than -20. The lens system of the dual-view capsule endoscope according to claim 1, wherein a focal length of the third lens group and a focal length ratio of the rear field optical system are greater than one and less than two. The lens system of the dual-view capsule endoscope according to claim 1, wherein the ratio of the length of the lens to the focal length of the front field optical system is greater than 15 and less than 16. The lens system of the dual-view capsule endoscope according to claim 1, wherein the ratio of the length of the lens to the focal length of the rear field optical system is greater than 8 and less than 9. The lens system of the dual-view capsule endoscope according to claim 1, wherein one of the front field of view and one of the rear field of view of the front field of view is greater than 120 degrees. The lens system of the dual-view capsule endoscope according to claim 1, wherein a photosensitive element is disposed behind the third lens group to receive the image signals of the front field of view and the rear field of view.