CN216257002U - Camera shooting assembly and capsule endoscope - Google Patents
Camera shooting assembly and capsule endoscope Download PDFInfo
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- CN216257002U CN216257002U CN202122225282.3U CN202122225282U CN216257002U CN 216257002 U CN216257002 U CN 216257002U CN 202122225282 U CN202122225282 U CN 202122225282U CN 216257002 U CN216257002 U CN 216257002U
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Abstract
The application provides a camera shooting assembly and a capsule endoscope. The camera shooting assembly of the application comprises: the lens base comprises a first mounting part and a second mounting part, the second mounting part is arranged around the first mounting part and is adjacent to the first mounting part, the first mounting part is provided with a through hole which penetrates through, one end of the first mounting part along the through hole is used for mounting a lens, the lens corresponds to the through hole, and the second mounting part comprises a first surface facing a shot object; and the light-emitting piece is arranged on the first surface and used for emitting light rays towards the shot object. According to the camera shooting assembly provided by the application, light emitted by the light emitting piece is not easy to directly enter the lens, the light emitted by the light emitting piece is reduced to cause the lens to generate dazzling light, and the imaging quality of the lens is improved.
Description
Technical Field
The application relates to the technical field of imaging, in particular to a camera shooting assembly and a capsule endoscope.
Background
In medical examination, it is often necessary to use an endoscope to examine the condition inside the patient's body, and in order to make examination more convenient, a capsule endoscope is used and swallowed to enter the patient's body for examination. When the lens in the existing capsule endoscope shoots images, the imaging quality is not good easily due to the glare problem, so that the judgment of a doctor on the state of an illness of a patient is influenced.
SUMMERY OF THE UTILITY MODEL
When shooting images for the camera lens among the solution capsule endoscope, because dazzle light problem easily for the not good problem of formation of image quality, this application provides a subassembly and capsule endoscope make a video recording.
In a first aspect, the present application provides a camera assembly, comprising:
the lens base comprises a first mounting part and a second mounting part, the second mounting part is arranged around the first mounting part and is adjacent to the first mounting part, the first mounting part is provided with a through hole which penetrates through, one end of the first mounting part along the through hole is used for mounting a lens, the lens corresponds to the through hole, and the second mounting part comprises a first surface facing a shot object; and
the light-emitting piece is arranged on the first surface and used for emitting light rays towards the shot object.
According to the camera shooting assembly provided by the application, the lens is installed on the first installation part of the lens base, the second installation part surrounds and is adjacent to the first installation part, so that the second installation part can surround the lens, the light emitting piece is arranged on the first surface, facing the shot object, of the second installation part, the light emitting piece can emit a light beam from the second installation part in the direction facing the shot object so as to illuminate the shot object, and the light reflected by the shot object is received and imaged by the lens, so that the light emitted by the light emitting piece cannot easily and directly enter the lens, the phenomenon that the lens generates glare due to the light emitted by the light emitting piece is reduced, and the imaging quality of the lens is improved; the illuminating part is arranged on the first surface of the second installation part, the structure is more integrated, and the camera shooting assembly is favorably miniaturized.
Furthermore, the second installation part is located at one end, far away from the lens, of the first installation part. Therefore, the distance between the light-emitting piece and the lens is further increased, and the phenomenon that light rays emitted by the light-emitting piece directly enter the lens to cause dazzling light is effectively reduced.
Furthermore, the camera shooting assembly also comprises a first conductive piece, and the first conductive piece is arranged on the second installation part; the first conductive piece is connected with the light-emitting piece and used for loading voltage or current to the light-emitting piece when the light-emitting piece is electrified so as to enable the light-emitting piece to be electrified and emit light. In this way, the light emitting component can obtain stable power supply from the first conductive component at the second mounting part, and the object to be shot is illuminated by stable light beams.
Further, the first conductive piece is arranged on the surface of the second installation part; or, the first conductive piece is arranged inside the second installation part. Therefore, when the first conductive piece is arranged on the surface of the second installation part, the connection process of the first conductive piece and the second installation part is simple, the production cost is low, and the production efficiency is high; when the first conductive piece is arranged in the second installation piece, the first conductive piece can be prevented from being oxidized to reduce the conductive efficiency due to the fact that water vapor and air contact the first conductive piece in a large area.
Furthermore, the second mounting part also comprises a second surface, and the second surface is connected with the first surface in a bending way; the first conductive part comprises a first conductive part and a second conductive part, the first conductive part is arranged on the first surface and connected with the luminous part, the first conductive part is used for loading voltage or current to the luminous part when the luminous part is electrified so that the luminous part is electrified to emit light, and the second conductive part is arranged on the second surface and used for loading voltage or current to the first conductive part. Therefore, the first conductive part and the second conductive part which are connected in a bending mode are respectively located on the first surface and the second surface which are connected in a bending mode, electric energy is supplied to the light-emitting part from the second surface to the first surface, stable transmission of electric power is achieved, the conductive structure is simplified, and miniaturization of the camera shooting assembly is facilitated.
Furthermore, the second installation part is provided with a first groove and a second groove, the first groove is located on the first surface, the first groove is located outside the projection of the first surface, the second groove is located on the second surface, the first groove is communicated with the second groove, the first groove is used for arranging the first conductive part and the luminous part, and the second groove is used for arranging the second conductive part. Therefore, the first conductive part and the second conductive part which are connected in a bending mode are located in the communicated first groove and second groove, the positions are fixed, the first groove and the second groove protect the first conductive part and the second conductive part, and stable transmission of electric power is achieved; the illuminating part is also located first recess, also form the protection to the electricity connection position of illuminating part and first conductive part, further pull open the distance that illuminating part and camera lens entered the unthreaded hole, reduce the light that the illuminating part sent effectively and get into the camera lens and arouse and dazzle light, can also improve space utilization, make the subassembly of making a video recording frivolous, first recess is located the camera lens and can prevent sheltering from of lens to first recess and illuminating part outside the projection of first surface, thereby can let more light reachs the object of being shot.
Furthermore, the number of the light-emitting pieces is one or more, and when the number of the light-emitting pieces is more than one, the light-emitting pieces are arranged on the first surface at intervals and surround the lens. Therefore, when one light-emitting piece is used, the cost is low, and the production efficiency of the camera shooting assembly is high; when the illuminating part is a plurality of, a plurality of illuminating parts encircle the camera lens setting at first recess, and the object of taking a photograph is polished for the equidirectional not around the camera lens, and the area that the increase object was covered by light for the light of object reflection is more even, and the camera lens formation of image is more clear.
Further, the second installation department is including being located two relative bosss on the first surface, two the boss connect respectively in the both sides of first installation department, first recess has towards two the both ends of boss, first conductive part is in court in the first recess the both ends of first recess extend out two branches, every connect one on the branch road of first conductive part the light emitting component. Therefore, the two bosses can support the first mounting part at two sides of the first mounting part, so that the structural strength of the first mounting part is enhanced, and the first mounting part can bear the lens more stably; two illuminating parts are connected with every branch road of first conductive part at first recess, can let the illuminating part distribute comparatively evenly, and the light that sends simultaneously also can be more even, and two illuminating parts share a first conductive part and connect, have improved material and space utilization efficiency.
In a second aspect, the present application provides a capsule endoscope comprising:
the camera assembly as described above;
a lens mounted to the first mounting portion;
the first circuit board is arranged on the image side of the lens and electrically connected with the light-emitting element and used for controlling the light-emitting element to emit light;
the photosensitive element is arranged on the surface of the lens facing the first circuit board and electrically connected with the first circuit board, the photosensitive element corresponds to the through hole, and the photosensitive element is used for converting optical signals entering the lens into electric signals under the control of the first circuit board.
According to the capsule endoscope that this application provided, because include as above the subassembly of making a video recording, the light that the light-emitting component sent is difficult to arouse the camera lens to dazzle light, and the imaging quality of camera lens is good, and capsule endoscope is more accurate in the detection of human inside, and detection efficiency is higher, and the doctor is more accurate to the judgement of the patient's state of an illness. First circuit board both electricity is connected the luminous piece of luminous piece control and is luminous, and the photosensitive element is connected to the electricity again, and control photosensitive element turns into light signal with the signal of telecommunication, and the device integrates the degree height, has saved capsule endoscope's inner space, is favorable to capsule endoscope to realize miniaturized design.
Further, the capsule endoscope further comprises: the power supply is positioned on one side of the first circuit board, which is far away from the lens; a second conductive member for electrically connecting the power supply to the first circuit board; the second circuit board is positioned on one side of the power supply, which is far away from the lens; the third conductive piece is electrically connected with the first circuit board, the power supply and the second circuit board respectively; the communication module is arranged on one side, far away from the lens, of the second circuit board and is electrically connected with the second circuit board, and the communication module is used for establishing communication connection with external electronic equipment; and the shell is used for accommodating the camera shooting assembly, the first circuit board, the photosensitive element, the power supply, the second conductive piece, the second circuit board, the third conductive piece and the communication module and is arranged in the shell. So, the power provides the electric energy source for the capsule endoscope, first circuit board and second circuit board pass through the electrically conductive piece of second and the electrically conductive piece of third and realize the electric property route with the power, can let the power supply for the first circuit board of both sides and second circuit board power supply, other electric appliances of control are realized to rethread first circuit board and second circuit board, power supply is stable, the device integration degree of capsule endoscope is high, the inner space of capsule endoscope has been saved, be favorable to the capsule endoscope to realize miniaturized design. The second circuit board controls the communication module to realize stable communication connection with the electronic equipment outside the human body, the control signal of the electronic equipment outside the human body is received or the image information inside the human body is transmitted to the electronic equipment outside the human body, the shell forms a stable accommodating space, the camera shooting assembly is used for shooting, the first circuit board is used for shooting, the photosensitive element is used for sensing the light, the power supply is used for supplying power, the second circuit board is used for supplying power, the third circuit board is used for supplying power, the communication module is contained in the shell, the mutual damage of the human body and the devices inside the shell is prevented, the safety and the health of the human body are protected, and the devices inside the shell can work stably.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic diagram of an exploded view of a camera assembly in some embodiments of the present application.
Fig. 2 is a schematic structural diagram of an assembled camera module in some embodiments of the present application.
FIG. 3 is a schematic diagram of an exploded configuration of a capsule endoscope in some embodiments of the present application.
FIG. 4 is an assembled schematic view of a capsule endoscope in some embodiments of the present application.
Description of reference numerals:
1-Capsule endoscope 14-first conductive Member
10-Camera Module 141-first conductive part
11-lens 142-second conductive part
111-light inlet 20-photosensitive element
12-mirror base 30-first circuit board
121-first mounting part 40-second conductive member
122-second mount 50-power supply
1221-first surface 60-third conductive member
1222-second surface 70-second circuit board
1223-Boss 80-communication Module
1228-first recess 90-housing
1229-second recess 91-first housing
123-Via 92-second housing
13-luminescent element
Detailed Description
In order to make the technical solutions of the present application better understood, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.
Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.
Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.
Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified. It should be noted that, for convenience of description, like reference numerals denote like parts in the embodiments of the present application, and a detailed description of the like parts is omitted in different embodiments for the sake of brevity.
In order to improve the imaging quality of the lens in the capsule endoscope, the light-emitting part with the illumination function can be independently arranged on one surface of the rigid circuit board, and then the rigid circuit board is sleeved on the lens through the flexible circuit board which is connected with the rigid circuit board in a bending mode, so that the light-emitting part is exposed near one end, close to a shot object, of the lens. In this case, the cost is increased by designing the circuit board for the light emitting element; the flexible circuit board is easy to damage by bending and unstable in electric connection; before the flexible circuit board is bent, the size and the direction of the required bending force are difficult to accurately predict, and the positions of the light-emitting piece and the lens after bending are difficult to control and uniformly distribute; moreover, the joint of the flexible circuit board and the rigid circuit board has certain rigidity, after the flexible circuit board is bent, the flexible circuit board can restore partial deformation, so that the rigid circuit board cannot be perpendicular to the optical axis of the lens, one end of the rigid circuit board, which is connected with the flexible circuit board, is easily bent towards the image side of the lens, one end of the rigid circuit board, which is far away from the flexible circuit board, is easily tilted towards the light inlet of the lens, the range of the light-emitting element for illuminating an object is inconsistent with the range of the lens for capturing the reflected light of the object, and therefore the problem that the light-emitting element is close to the light inlet of the lens to cause the glare of the lens and cause the problem of overlarge light intensity distribution difference of each field of the lens is caused; moreover, the degree and the bent position of each flexible circuit board are difficult to be consistent, the automatic production is difficult, and the bending yield is unstable. The emergent light of illuminating part is in order to make the object of shooing illuminated, let the object of shooing can reflect more light and get into the camera lens, so that the image luminance that the camera lens obtained is higher, it is more clear, when the light that the illuminating part is emergent directly gets into the camera lens, because the light intensity of illuminating part emergent is great usually, when the light of big light intensity passes through the camera lens, some light will be reflected by each surface of lens and go back and become miscellaneous light or interference light, this kind of reflection in the camera lens inside can arouse a unreal image, and appear forming spot etc. bad phenomenon on last picture like the image, this is exactly the dazzling light problem of camera lens.
In addition, in order to make the volume of the camera shooting component in the capsule endoscope smaller, the light-emitting part can be arranged at one end of the lens barrel of the lens close to the shot object, the light-emitting part is very close to the light inlet of the lens, and the light emitted by the light-emitting part easily and directly enters the lens, so that the lens generates a dazzling problem; in addition, the lens structure is generally compact, and it is difficult to have enough space for disposing the light emitting element on the lens barrel, which is difficult to produce and has low yield.
The technical solutions in the embodiments of the present application will be described below with reference to the accompanying drawings.
Referring to fig. 1 and 2, a camera module 10 provided by the present application includes a lens holder 12 and a light emitting element 13. The lens holder 12 includes a first mounting portion 121 and a second mounting portion 122, the second mounting portion 122 is disposed around the first mounting portion 121 and adjacent to the first mounting portion 121, the first mounting portion 121 has a through hole 123 therethrough, one end of the first mounting portion 121 along the through hole 123 is used for mounting the lens 11, and the lens 11 corresponds to the through hole 123, the second mounting portion 122 includes a first surface 1221 facing the object to be photographed; the light emitting member 13 is disposed on the first surface 1221 and configured to emit light toward the object.
According to the imaging assembly 10 provided by the present application, the first mounting portion 121 of the lens holder 12 has a through hole 123 therethrough, the first mounting portion 121 is used for mounting the lens 11 along one end of the through hole 123, and the lens 11 corresponds to the through hole 123, the second mounting portion 122 surrounds and abuts the first mounting portion 121, so that the second mounting portion 122 can surround the lens 11, the light emitting member 13 is disposed on the first surface 1221 of the second mounting portion 122 facing the object to be photographed, the light emitting member 13 can emit a light beam from the second mounting portion 122 toward the object to be photographed to illuminate the object to be photographed, so that the object to be photographed can reflect more light into the lens 11, thereby making the image obtained by the lens brighter and clearer, in addition, the light emitting member 13 is disposed on the second mounting portion 122 of the lens holder 12 and further separates the first mounting portion 121 of the lens 11 from the lens 11, and the light emitted by the light emitting member 13 is not easy to directly enter the lens 11, the glare generated by the lens 11 due to the light rays emitted by the light-emitting piece 13 is reduced, and the imaging quality of the lens 11 is improved; moreover, the light-emitting piece 13 is arranged on the mirror base 12, so that the range of the light-emitting piece 13 for illuminating an object is more consistent with the range of the lens 11 for shooting the reflected light of the object, and each imaging view field of the lens 11 can have more uniform imaging quality; in the camera module 10 of the present application, the light emitting member 13 is connected to the first surface 1221, which is relatively easy to assemble; the second mounting portion 122 of the lens holder 12 has a larger space for mounting the light emitting element 13 than the lens 11, so that the production is easier and the production yield is higher.
It should be noted that the lens 11 is an optical device for capturing light reflected or emitted by an object to generate an image, and includes a lens barrel and a lens, where the lens is installed in the lens barrel, and the lens may be an optical imaging system composed of one or more lenses. Optionally, the lens 11 further includes a light shielding sheet and a spacer ring, the light shielding sheet is generally a black flexible thin-layer structure, has a light-transmitting aperture, and is attached to the non-effective light-entering area of the lens to shield or absorb unnecessary light inside the lens 11; the spacer ring is generally a black rigid ring-like structure that is extruded over the inactive light entry area of the lens and has a clear aperture for bearing against the lens when a large gap exists between the lens and the optic. The incident end of the lens 11 for capturing light has a light inlet 111, and the emergent end of the lens 11 for emitting imaging light has a light outlet.
The lens holder 12 is a device for carrying, and the lens holder 12 has a through hole 123 for allowing light to pass through. The mirror base 12 includes a first mounting portion 121 and a second mounting portion 122 disposed around and adjacent to the first mounting portion 121, that is, the second mounting portion 122 is connected to an outer periphery of the first mounting portion 121. Further, it is understood that the through hole 123 of the mount 12 penetrates the first mount part 121, and that the through hole 123 of the mount 12 penetrates the first mount part 121 and the second mount part 122 along the optical axis direction of the lens 11 to ensure light passing therethrough. Optionally, the lens barrel of the lens 11 has an external thread, the first mounting portion 121 of the lens holder 12 has an internal thread, the lens 11 is fixedly connected with the lens holder 12 through the thread, and the lens holder 12 is sleeved outside the lens 11, so that the lens holder 12 can well protect the lens 11, and the structural strength and stability of the lens 11 are improved; the lens barrel of the lens 11 may have an internal thread, the first mounting portion 121 of the lens holder 12 has an external thread, the lens 11 is fixedly connected with the lens holder 12 through the thread, and the lens 11 is sleeved outside the lens holder 12, so that the lens 11 may be longer, and the lens 11 is further away from the light emitting element 13, thereby preventing glare; the lens 11 and the lens holder 12 can also be fixedly connected by gluing, hot riveting, screws, etc.
Referring to fig. 1 and 2, optionally, the second mounting portion 122 of the mirror base 12 further includes a second surface 1222, and the second surface 1222 is connected to the first surface 1221 in a bending manner. It is understood that the first surface 1221 is a surface of the second mounting portion 122 facing the subject, and the connection between the first surface 1221 and the second surface 1222 is bent toward the image side, that is, the second surface 1222 is an outer peripheral surface of the second mounting portion 122. Further, the second mounting portion 122 is provided with a first recess 1228 and a second recess 1229, the first recess 1228 is located on the first surface 1221, the first recess 1228 is located outside the projection of the lens 11 on the first surface 1221, the second recess 1229 is located on the second surface 1222, and the first recess 1228 is communicated with the second recess 1229. The first recess 1228 is located outside the projection of the lens 11 on the first surface 1221, so that the lens 11 can prevent the first recess 1228 and the light-emitting member 13 from being blocked, and more light of the light-emitting member can reach the object to be shot.
Optionally, the second mounting portion 122 disposed around and adjacent to the first mounting portion 121 includes: the second mount portion 122 may be disposed around and adjacent to the first mount portion 121 from an end of the first mount portion 121 near the subject, that is, an end of the first mount portion 121 near the light entrance hole of the lens 11; the second mounting portion 122 may also be disposed around and adjacent to the first mounting portion 121 from an end of the first mounting portion 121 close to the image, that is, an end of the first mounting portion 121 far from the light inlet of the lens 11; the second mounting portion 122 may also be circumferentially and adjacently disposed between the end of the first mounting portion 121 near the subject and the end near the image. When the second mounting portion 122 is located at the end of the first mounting portion 121 away from the light inlet of the lens 11, the distance between the light emitting element 13 and the light inlet of the lens 11 is further increased, so that the light beam emitted by the light emitting element 13 cannot directly enter the field angle range of the lens 11, and glare caused by the light emitted by the light emitting element 13 entering the lens 11 is effectively reduced. Therefore, the light-emitting piece 13 can be well matched with the lens 11 in a proper direction, and the imaging definition is improved.
The light emitting member 13 is a device capable of emitting illumination light to the subject, and serves as an active illumination module of the image pickup module 10. Optionally, the light emitting element 13 is an Organic Light Emitting Diode (OLED), an inorganic Light Emitting Diode (LED), an active matrix organic light emitting diode panel (AMOLED), a submillimeter light emitting diode (MiniLED), or the like. The luminous piece 13 is arranged on the first surface 1221, it can be understood that the luminous piece 13 can be directly connected to the first surface 1221 through gluing, hot riveting, screws and other modes, and also includes the first groove 1228 which can be located on the first surface 1221, when being arranged in the first groove 1228, the groove wall can protect the luminous piece 13, the distance between the luminous piece 13 and the light inlet of the lens 11 is further increased, so that the generation of glare is prevented, and the luminous piece 13 can also be indirectly arranged on the first surface 1221 through other components.
Optionally, the number of the light emitting members 13 is one or more, such as two, three, or four, and when the number of the light emitting members 13 is multiple, the light emitting members 13 are disposed in the first recess 1221 at intervals and surround the lens 11. Thus, when the light-emitting element 13 is one, the cost is low, and the production efficiency of the camera assembly 10 is high; when the illuminating part 13 is a plurality of, a plurality of illuminating parts 13 encircle camera lens 11 at first surface 1221 and set up, from camera lens 11 around the not equidirectional object of being shot polish, increase the area that the object was covered by light for the light that the object was reflected is more even, and camera lens 11 formation of image is more clear. Optionally, a plurality of light emitting members 13 may be distributed on the first surface 1221 in a scattered manner, so as to better install the light emitting members 13; the plurality of light-emitting members 13 may also be uniformly distributed around the lens 11 on the first surface 1221, that is, the distance between any two adjacent light-emitting members 13 is equal, the overall light distribution of the light-emitting members 13 is more uniform, and a dark image is not likely to appear on a photographed object, so that a uniform light intensity distribution can be obtained in the field angle range of the lens 11, which is similar to the effect of a shadowless lamp, that is, the consistency between the range of the light-emitting members 13 illuminating the object and the field angle range of the lens 11 is better. If there are 4 light-emitting members 13, the 4 light-emitting members 13 are uniformly distributed around the lens 11 around the optical axis of the lens 11.
In some embodiments, the camera assembly 10 further includes a first conductive member 14, the first conductive member 14 being disposed on the second mounting portion 122; the first conductive member 14 is connected to the light emitting member 13, and the first conductive member 14 is used for applying a voltage or a current to the light emitting member 13 when being electrified so as to electrify the light emitting member to emit light. In this way, the light emitting member 13 can receive a stable power supply from the first conductive member 14 at the second mounting portion 122 to illuminate the subject with a stable light beam.
Optionally, the first conductive member 14 is disposed on the surface of the second mounting portion 122; alternatively, the first conductive member 14 is disposed inside the second mounting portion 122. Thus, when the first conductive member 14 is disposed on the surface of the second mounting portion 122, the connection process between the first conductive member 14 and the second mounting portion 122 is relatively simple, the production cost is low, the production efficiency is high, and the light emitting member 13 can be located on the surface of the first conductive member 14 facing the object to be photographed and electrically connected to the first conductive member 14, or the light emitting member 13 is adjacent to the surface of the first conductive member 14 facing the object to be photographed and electrically connected to the first conductive member 14. When the first conductive member 14 is disposed inside the second mounting portion 122, most of the first conductive member 14 is embedded inside the second mounting portion 122, and only the first surface 1221 is exposed to the electrical contact point to be electrically connected to the light emitting member 14; or the first conductive member 14 is completely embedded in the second mounting portion 122, and the light emitting member 14 can extend into the second mounting portion 122 to be electrically connected with the first conductive member 14; the first conductive member 14 is disposed inside the second mounting portion 122 to prevent moisture and air from contacting the first conductive member 14 over a large area to cause oxidation of the first conductive member 14 and decrease the conductive efficiency, and the light emitting member 13 is disposed to electrically connect the electrical connection pin extending into the inside of the second mounting portion 122 to the first conductive member 14. It should be noted that the first conductive member 14 may be disposed on the surface of the second mounting portion 122 by using a Direct Laser Structuring (LDS) or a Printed Direct Structuring (PDS) technique to form a conductive trace. The Laser Direct Structuring (LDS) technology is a 3D-MID production technology of Molded interconnected Devices of laser processing, injection and electroplating processes, and its principle is that the common plastic component/circuit board is endowed with the functions of electric interconnection, supporting components and parts, supporting and protecting the plastic shell, and the functions of shielding and antenna, etc. produced by combining the mechanical entity and conductive pattern, the computer is used to control the laser operation track to directly engrave the conductive path on the composite material device, then the circuit pattern is quickly activated by chemical plating, the electronic components can be directly welded on the curved surface of the plastic component, and the stereo circuit is formed. The technology of the process of printing a direct structuring (PDS) is to coat conductive silver paste on the surface of a workpiece and then print the silver paste through multiple layers to form a conductive three-dimensional circuit. Optionally, the first conductive member 14 is made of gold, silver, copper, alloy, graphite, conductive rubber, or the like.
Referring to fig. 1 and fig. 2, in some embodiments, the first conductive member 14 includes a first conductive portion 141 and a second conductive portion 142 connected by bending, the first conductive portion 141 is disposed on the first surface 1221 and electrically connected to the light emitting element 13, the first conductive portion 141 is configured to apply a voltage or a current to the light emitting element 13 when the light emitting element 13 is powered on, and the second conductive portion 142 is disposed on the second surface 1222 and configured to apply a voltage or a current to the first conductive portion 141. In this way, the first conductive part 141 is disposed on the first surface 1221, the second conductive part 142 is disposed on the second surface 1222, and power is supplied to the light emitting part 13 from the second surface 1222 to the first surface 1221, so that stable power transmission is realized, the conductive structure is simplified, and miniaturization of the image pickup module 10 is facilitated. Optionally, the second mounting portion 122 includes two opposite bosses 1223 located on the first surface 1221, the two bosses 1223 are respectively connected to two sides of the first mounting portion 121, the first recess 1228 has two ends facing the two bosses 1223, the first conductive portion 141 extends towards two ends of the first recess 1228 in the first recess 1228 to form two branches, and one light emitting element 13 is connected to each branch of the first conductive portion 141. In this way, the two bosses 1223 can support the first mounting part 121 at two sides of the first mounting part 121, so that the structural strength of the first mounting part 121 is enhanced, and the first mounting part 121 can more stably carry the lens 11; each of the branches of the first conductive portion 141 is connected to one of the light emitting elements 13, so that the light emitting elements 13 are distributed uniformly, the emitted light is more uniform, and the two light emitting elements 13 share one first conductive portion 141 for connection, thereby improving the utilization efficiency of materials and space. Further, the two light emitting members 13 are connected to the first conductive portion 141 at both ends of the first recess 1228 facing the two bosses 1223. When the camera module 10 has a plurality of light emitting elements 13, two light emitting elements 13 may share a first conductive element 14 for power supply, the first conductive part 141 of the first conductive element 14 may be divided into two branches at two sides of the lens 11, one light emitting element 13 is electrically connected to one branch, the other light emitting element 13 is electrically connected to the other branch, and the first conductive part 141 and the second conductive part 142 divided into two branches substantially form a bent "Y" structure, so that two light emitting elements 13 may share a first conductive element 14, thereby reducing the electrical contact point of the camera module 10 and improving the electrical connection efficiency. Alternatively, a plurality of first conductive portions 141 may be connected to one second conductive portion 142, for example, two first conductive portions 141 are connected to one second conductive portion 142, so as to further increase the degree of integration of the components, and to miniaturize the imaging module 10.
Optionally, the first groove 1228 is used to dispose the first conductive portion 141 and the light emitting element 13, and the second groove 1229 is used to dispose the second conductive portion 142. In this way, the first conductive part 141 and the second conductive part 142 which are connected in a bent manner are located in the first groove 1228 and the second groove 1229 which are communicated with each other, the first groove 1228 and the second groove 1229 can limit the position of the first conductive part 14, the positions of the first conductive part 141 and the second conductive part 142 are more fixed, the first groove 1228 and the second groove 1229 protect the first conductive part 141 and the second conductive part 142, and stable power transmission is realized; the light-emitting member 13 is also located in the first groove 1228, so that the electrically connected portion of the light-emitting member 13 and the first conductive portion 141 is protected, the distance between the light-emitting member 13 and the light-entering hole of the lens 11 is further increased, the light emitted by the light-emitting member 13 is effectively reduced and enters the lens 11 to cause glare, the space utilization rate can be improved, and the camera assembly 10 is made to be light and thin. Alternatively, the first conductive member 14 is disposed in the first recess 1228 by a Laser Direct Structuring (LDS) process, and the second conductive member 40 is disposed in the second recess 1229 by a Laser Direct Structuring (LDS) process. When the first conductive portion 141 is disposed in the first groove 1228, the light emitting element 13 is disposed on the surface of the first conductive portion 141 facing the object and electrically connected to the first conductive portion 141; the second conductive portion 142 is disposed in the second recess 1229, and the first conductive portion 141 and the second conductive portion connected by bending are clamped in the first recess 1228 and the second recess 1229. Alternatively, the light emitting element 13 may be adhered to the surface of the first conductive part 141 facing the object by a conductive adhesive, such as a conductive silver adhesive. Thus, the camera shooting assembly 10 greatly reduces the installation and connection level through a Laser Direct Structuring (LDS) process and a conductive adhesive gluing process, simplifies the installation process, does not need to arrange a light-emitting part on an additional circuit board, increases the structural strength and improves the conductive reliability; while also allowing the construction of the camera module 10 to be highly integrated and compact.
Optionally, the second installation portion 122 includes two opposite bosses 1223 located on the first surface 1221, two bosses 1223 are connected to two sides of the first installation portion 121 respectively, the first groove 1228 has two ends facing the bosses, and the two light emitting members 13 are disposed at two ends of the first groove 1228 facing the two bosses 1223 and connected to the first conductive portion 141 respectively. In this way, the two bosses 1223 can support the first mounting part 121 at both sides of the first mounting part 121, so that the structural strength of the first mounting part 121 is enhanced, and the first mounting part 121 can more stably carry the lens 11; the two light-emitting parts 13 are connected with the first conductive part 141 at two ends of the first groove 1228 facing the two bosses 1223, so that the light-emitting parts 14 are distributed uniformly, light rays emitted simultaneously are more uniform, the two light-emitting parts 13 share one first conductive part 141 for connection, and the material and space utilization efficiency is improved.
Referring to fig. 3 and 4, the present application further provides a capsule endoscope 1, and the capsule endoscope 1 includes a camera assembly 10, a first circuit board 30 and a photosensitive element 20. The first circuit board 30 is arranged on the image side of the lens 11, and the first circuit board 30 is electrically connected with the light-emitting element 13 and is used for controlling the light-emitting element 13 to emit light; the light sensing element 20 is disposed on a surface of the first circuit board 30 facing the lens 11 and electrically connected to the first circuit board 30, the light sensing element 20 is disposed corresponding to the through hole 123, and the light sensing element 20 is configured to convert an optical signal entering the lens 11 into an electrical signal under the control of the first circuit board 30. Optionally, the mirror base 12 is mounted on the first circuit board 30, the first circuit board 30 supports the mirror base 12, the photosensitive element 20 is also mounted on the first circuit board 30, and the mirror base 12 surrounds the photosensitive element 20 at the mounting portion of the first circuit board 30, so that the first circuit board 30 and the mirror base 12 protect the photosensitive element 20 and prevent the photosensitive element 20 from being damaged.
According to the capsule endoscope 1 that this application provided, because including as above subassembly 10 of making a video recording, the position of camera lens 11 can be matchd well to light-emitting piece 13, and the light that light-emitting piece 13 sent is difficult to arouse that camera lens 11 dazzles, and camera lens 11's imaging quality is good, and capsule endoscope 1 is more accurate in the inside detection of human body, and detection efficiency is higher. First circuit board 30 both electricity is connected the luminous piece 13 and is controlled the luminous piece 13 and give out light, and electricity is connected light sensing element 20 again, and control light sensing element 20 turns into light signal with the signal of telecommunication, and the device integrates the degree height, has saved capsule endoscope 1's inner space, is favorable to capsule endoscope 1 to realize miniaturized design.
The first circuit board 30 is a member that provides mechanical support for fixing and mounting various electronic components such as an integrated circuit, and that provides required electrical characteristics by realizing wiring, electrical connection, and electrical insulation between the various electronic components such as the integrated circuit. Alternatively, the first circuit board 30 may be a single-sided board, a double-sided board, or a multi-layered board, such as a 4-layered board or a 6-layered board; it can also be a single-sided board, a double-sided board or a multi-layer board, such as a 4-layer board or a 6-layer board. Alternatively, the first circuit board 30 can be a rigid circuit board, a flexible circuit board or a rigid-flex circuit board, and when the mirror base 12 is mounted on the first circuit board 30, the first circuit board 30 should have sufficient rigidity to support the mirror base 12, and can be a rigid circuit board.
The photosensitive element 20 is a photoelectric conversion Device, sensitive to the sensing of light, and used to convert the imaging light signal into an electrical signal, such as a Charge Coupled Device (CCD) or a Complementary Metal-Oxide Semiconductor (CMOS) Sensor. The photosensitive element 20 is disposed corresponding to the through hole 123, and it is understood that the photosensitive element 20 is located on the side of the imaging surface of the lens 11, i.e. the side of the light beam exiting the lens 11 along the direction of the optical axis of the lens 11. Optionally, the photosensitive element 20 is located within the depth of focus of the lens 11. In one embodiment, the photosensitive surface of the photosensitive element 20 coincides with the imaging surface of the lens 11.
In some embodiments, capsule endoscope 1 further comprises a power source 50, a second electrically-conductive member 40, a second circuit board 70, and a third electrically-conductive member 60. The power supply 50 is located on a side of the first circuit board 30 away from the lens 11; the second conductive member 40 is used to electrically connect the power supply 50 with the first circuit board 30; the second circuit board 70 is located on the side of the power supply 50 away from the lens 11; the third conductive member 60 is electrically connected to the first circuit board 30, the power supply 50, and the second circuit board 70, respectively. So, power 50 provides the electric energy source for capsule endoscope 1, first circuit board 30 and second circuit board 70 realize the electric property route through second conductive piece 40 and third conductive piece 60 and power 50, can let power 50 be the first circuit board 30 of both sides and the power supply of second circuit board 70, other electric appliances of rethread first circuit board 30 and second circuit board 70 realization control, power supply is stable, the device integration degree of capsule endoscope 1 is high, the inner space of capsule endoscope 1 has been saved, be favorable to capsule endoscope 1 to realize miniaturized design.
The second circuit board 70 is a member that provides mechanical support for fixing and mounting various electronic components such as an integrated circuit, and that provides required electrical characteristics by realizing wiring, electrical connection, and electrical insulation between the various electronic components such as the integrated circuit. Alternatively, the second circuit board 70 may be a single-sided board, a double-sided board, or a multi-layered board, such as a 4-layered board or a 6-layered board; the second circuit board 70 may also be a single-sided board, a double-sided board, or a multi-layered board, such as a 4-layered board or a 6-layered board. Alternatively, the second circuit board 70 may be a rigid circuit board, a flexible circuit board, or a rigid-flex circuit board.
It is understood that the power source 50 is a device in the capsule endoscope 1 that provides a source of power to the capsule endoscope 1. Can be a switching power supply, an inverter power supply, an ac regulated power supply, a dc regulated power supply, a communications power supply, a modular power supply, a variable frequency power supply, a purification power supply, a rectification power supply, a customization power supply, a heating power supply, a network power supply, an electrical operating power supply, an adapter power supply, a linear power supply, a power supply controller/driver, a power supply, a parametric power supply, a regulated power supply, a transformer power supply, and the like. Optionally, the power supply 50 is a dc voltage-stabilizing battery, and can be more conveniently installed in the capsule endoscope 1 to provide a stable voltage for the electronic devices in the capsule endoscope 1. In some embodiments, the power source 50 is a button cell battery. Alternatively, the second conductive member 40 may be a conductive structure such as a conductive lead, a conductive metal sheet, and a flexible circuit board, and the third conductive member 60 may be a conductive structure such as a conductive lead, a conductive metal sheet, and a flexible circuit board.
In some embodiments, the capsule endoscope 1 further includes a communication module 80 and a housing 90, the communication module 80 is disposed on a side of the second circuit board 70 away from the lens 11 and electrically connected to the second circuit board 70, and the communication module 80 is used for establishing a communication connection with an external electronic device; the casing 90 is used for accommodating the camera module 10, the first circuit board 30, the photosensitive element 20, the power supply 50, the second conductive member 40, the second circuit board 70, the third conductive member 60 and the communication module 80, and is disposed in the casing 90. Thus, the second circuit board 70 controls the communication module 80 to realize stable communication connection with external electronic equipment, receives a control signal of the external electronic equipment or transmits image information shot by the capsule endoscope 1 to the external electronic equipment, the shell 90 forms a stable accommodating space, the camera assembly 10, the first circuit board 30, the photosensitive element 20, the power supply 50, the second conductive piece 40, the second circuit board 70, the third conductive piece 60 and the communication module 80 are accommodated in the shell 90, when the capsule endoscope 1 is applied to shooting images inside a human body, the shell 90 can prevent mutual damage of the human body and devices inside the shell 90, not only protects the safety and health of the human body, but also can prevent body fluid from entering the capsule endoscope 1 to cause short circuit and influence the normal work of the capsule endoscope 1. Optionally, including magnetic part and antenna in communication module 80, the magnetic part can be magnet, magnetite or circular telegram coil etc, the magnetic part relies on external magnetic field, accurate control gets into the internal capsule endoscope 1's of human motion, gesture and direction, the motion track of capsule endoscope 1 is changeed and is controlled, the antenna can pass through radio signal transmission with information such as the image that the capsule endoscope shot and give external equipment, also can receive external equipment's control command, it is more convenient to operate, can real-time detection. The communication module 80 may also be a wireless communication module such as a 2G/3G/4G/5G network, Bluetooth, Wi-Fi, etc.
Optionally, the housing 90 includes a first shell 91 and a second shell 92. The first housing 91 and the second housing 92 enclose a receiving cavity for receiving the camera module 10, the first circuit board 30, the photosensitive element 20, the power supply 50, the second conductive member 40, the second circuit board 70, the third conductive member 60, the communication module 80, and the like. The first casing 91 is disposed closer to the lens 11 than the second casing 92, and the first casing 91 needs to be transparent in a range where the light emitting member 13 emits light and in a range of an angle of view of the lens 11 so that light reflected by the subject can enter the lens 11. The first housing 91 is connected to the second housing 92, and together form a closed and stable receiving chamber for receiving the components inside the capsule endoscope 1 and preventing body fluid from entering the capsule endoscope 1, the first housing 91 can be fixed to the second housing 92 by welding, gluing, welding, screwing, etc.
Reference herein to "an embodiment" or "an implementation" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present application and not for limiting, and although the present application is described in detail with reference to the above preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.
Claims (10)
1. A camera assembly, comprising:
the lens base comprises a first mounting part and a second mounting part, the second mounting part is arranged around the first mounting part and is adjacent to the first mounting part, the first mounting part is provided with a through hole which penetrates through, one end of the first mounting part along the through hole is used for mounting a lens, the lens corresponds to the through hole, and the second mounting part comprises a first surface facing a shot object; and
the light-emitting piece is arranged on the first surface and used for emitting light rays towards the shot object.
2. The camera assembly of claim 1, wherein the second mount portion is located at an end of the first mount portion remote from the lens.
3. The camera assembly of claim 1, further comprising a first conductive member disposed on the second mounting portion; the first conductive piece is connected with the light-emitting piece and used for loading voltage or current to the light-emitting piece when the light-emitting piece is electrified so as to enable the light-emitting piece to be electrified and emit light.
4. The camera assembly of claim 3, wherein the first conductive member is disposed on a surface of the second mounting portion; or, the first conductive piece is arranged inside the second installation part.
5. The camera assembly of claim 3, wherein the second mounting portion further comprises a second surface, the second surface being connected to the first surface in a bent manner; the first conductive part comprises a first conductive part and a second conductive part, the first conductive part is arranged on the first surface and connected with the luminous part, the first conductive part is used for loading voltage or current to the luminous part when the luminous part is electrified so that the luminous part is electrified to emit light, and the second conductive part is arranged on the second surface and used for loading voltage or current to the first conductive part.
6. The camera assembly according to claim 5, wherein the second mounting portion has a first groove and a second groove, the first groove is located on the first surface and located outside an orthographic projection of the lens on the first surface, the second groove is located on the second surface, the first groove is communicated with the second groove, the first groove is used for disposing the first conductive portion and the light emitting element, and the second groove is used for disposing the second conductive portion.
7. The camera assembly according to claim 6, wherein the number of the light emitting members is one or more, and when the number of the light emitting members is more than one, the plurality of light emitting members are disposed at intervals in the first groove and around the lens.
8. The camera assembly of claim 6, wherein the second mounting portion includes two opposite bosses located on the first surface, the two bosses are respectively connected to two sides of the first mounting portion, the first groove has two ends facing the two bosses, the first conductive portion extends to two branches in the first groove toward two ends of the first groove, and one light emitting element is connected to each branch of the first conductive portion.
9. A capsule endoscope, comprising:
the camera assembly of any one of claims 1-8;
a lens mounted to the first mounting portion;
the first circuit board is arranged on the image side of the lens and electrically connected with the light-emitting element and used for controlling the light-emitting element to emit light;
the photosensitive element is arranged on the surface of the lens facing the first circuit board and electrically connected with the first circuit board, the photosensitive element corresponds to the through hole, and the photosensitive element is used for converting optical signals entering the lens into electric signals under the control of the first circuit board.
10. The capsule endoscope of claim 9, further comprising:
the power supply is positioned on one side of the first circuit board, which is far away from the lens;
a second conductive member for electrically connecting the power supply to the first circuit board;
the second circuit board is positioned on one side of the power supply, which is far away from the lens;
the third conductive piece is electrically connected with the first circuit board, the power supply and the second circuit board respectively;
the communication module is arranged on one side, far away from the lens, of the second circuit board and is electrically connected with the second circuit board, and the communication module is used for establishing communication connection with external electronic equipment; and
the casing is used for accommodating the camera shooting assembly, the first circuit board, the photosensitive element, the power supply, the second conductive piece, the second circuit board, the third conductive piece and the communication module, and the casing is arranged in the casing.
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CN202122225282.3U CN216257002U (en) | 2021-09-14 | 2021-09-14 | Camera shooting assembly and capsule endoscope |
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CN202122225282.3U CN216257002U (en) | 2021-09-14 | 2021-09-14 | Camera shooting assembly and capsule endoscope |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115607095A (en) * | 2022-11-01 | 2023-01-17 | 深圳科思明德医疗科技有限公司 | Head end part for endoscope and endoscope |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115607095A (en) * | 2022-11-01 | 2023-01-17 | 深圳科思明德医疗科技有限公司 | Head end part for endoscope and endoscope |
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