BODY-INSERTABLE APPARATUS | Patent Publication Number 20090112058
US 20090112058 A1A body-insertable apparatus includes a plurality of function executing units each of which executes a predetermined function; a power source that supplies an electric power to each of the function executing units; an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; and an electric power discharging switch that supplies the electric power stored during a temporal period by the electric power storing unit to a high-power function executing unit being one of the function executing units. The high-power function executing unit operates intermittently among the function executing units and temporarily consumes a large electric quantity compared to the other function executing units. The high-power function executing unit consumes the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
- 1. A body-insertable apparatus comprising:na plurality of function executing units each of which executes a predetermined function;a power source that supplies an electric power to each of the function executing units;an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; andan electric power discharging switch that supplies the electric power stored during a temporal period by the electric power storing unit to a high-power function executing unit being one of the function executing units, the high-power function executing unit operating intermittently among the function executing units and temporarily consuming a large electric quantity compared to the other function executing units, the high-power function executing unit consuming the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
- 11. A body-insertable apparatus comprising:na plurality of function executing units each of which executes a predetermined function;a power source that supplies an electric power to each of the function executing units;an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; andan electric power discharging switch that supplies the electric power stored by the electric power storing unit to a high-power function executing unit being one of the function executing units, the high-power function executing unit consuming an electric quantity exceeding a threshold value arbitrarily set, the high-power function executing unit consuming the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
- 12. A body-insertable apparatus comprising:na plurality of function executing units each of which executes a predetermined function;a power source that supplies an electric power to each of the function executing units;an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; andan electric power discharging switch that supplies the electric power stored by the electric power storing unit to a high-power function executing unit being one of the function executing units, the high-power function executing unit consuming an electric quantity not less than an average electric power value, the high-power function executing unit consuming the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
This application is a continuation of PCT international application Ser. No. PCT/JP2007/062788 filed on Jun. 26, 2007 which designates the United States, incorporated herein by reference, and which claims the benefit of priority from Japanese Patent Application No. 2006-175559, filed on Jun. 26, 2006, incorporated herein by reference.
1. Field of the Invention
The present invention relates to a body-insertable apparatus such as a capsule endoscope which performs various types of medical practices in a body of a subject, including an examination and a treatment in a body cavity.
2. Description of the Related Art
In recent years, a swallowing capsule endoscope as a body-insertable apparatus to be inserted into a body of a subject such as a patient has appeared in the field of an endoscope. The capsule endoscope is provided with an imaging function and a radio communication function. The capsule endoscope has functions of traveling, after it is swallowed from a mouth of a patient for the purpose of an observation (examination) and until it is naturally excreted from a human body, an inside of a body cavity, for example, an inside of organs such as the stomach and the small intestine according to their peristalsis, and of sequentially capturing their images.
Image data captured in the body by the capsule endoscope, while the capsule endoscope travels the inside of the body cavity, is sequentially transmitted to an outside through a radio communication, and stored in a memory provided in an external receiver. The patient carrying the receiver provided with the radio communication function and the memory function can move freely even during the period which starts when the capsule endoscope is swallowed and ends when the capsule endoscope is excreted. Thereafter, doctors or nurses make a display device display images of organs based on the image data stored in the memory to make a diagnosis (see Japanese Patent Application Laid-Open Nos. 2002-204781 and 2005-143670).
A body-insertable apparatus according to an aspect of the present invention includes a plurality of function executing units each of which executes a predetermined function; a power source that supplies an electric power to each of the function executing units; an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; and an electric power discharging switch that supplies the electric power stored during a temporal period by the electric power storing unit to a high-power function executing unit being one of the function executing units. The high-power function executing unit operates intermittently among the function executing units and temporarily consumes a large electric quantity compared to the other function executing units. The high-power function executing unit also consumes the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
A body-insertable apparatus according to another aspect of the present invention includes a plurality of function executing units each of which executes a predetermined function; a power source that supplies an electric power to each of the function executing units; an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; and an electric power discharging switch that supplies the electric power stored by the electric power storing unit to a high-power function executing unit being one of the function executing units. The high-power function executing unit consumes an electric quantity exceeding a threshold value arbitrarily set. The high-power function executing unit also consumes the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
A body-insertable apparatus according to still another aspect of the present invention includes a plurality of function executing units each of which executes a predetermined function; a power source that supplies an electric power to each of the function executing units; an electric power storing unit that is connected to the power source and temporarily stores a redundancy of the electric power supplied from the power source; and an electric power discharging switch that supplies the electric power stored by the electric power storing unit to a high-power function executing unit being one of the function executing units. The high-power function executing unit consumes an electric quantity not less than an average electric power value. The high-power function executing unit also consumes the electric power supplied from the electric power storing unit together with the electric power directly supplied from the power source.
The above and other features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
A body-insertable apparatus as best mode(s) for carrying out the invention will be explained below with reference to the accompanying drawings. It should be noted that though exemplary embodiments of the present invention will be explained below by taking, as one example, a capsule endoscope which exemplifies the body-insertable apparatus to be inserted into a body of a subject such as a patient, the present invention is not limited to the specific embodiments.
The receiving device 2 includes an antenna unit 2a which has a plurality of receiving antennas A1 to An attached on an outside surface of the subject 1, and a receiving main body unit 2b which performs a processing on a radio signal received via the plurality of receiving antennas A1 to An, the units being detachably connected to each other via a connector and the like. The receiving antennas A1 to An may be arranged on a jacket which can be worn by the subject 1 for example, and the subject 1 by wearing the jacket may put on the receiving antennas A1 to An. In this case, the receiving antennas A1 to An may be detachable with respect to the jacket. Besides, the receiving antennas A1 to An may be configured such that an antenna main body part at a head part of each of the receiving antennas A1 to An is housed in an antenna pad which can be attached to the body of the subject 1.
The display device 4 is for displaying the images in the body cavity captured by the capsule endoscope 3, and has a configuration of a work station or the like for displaying the images based on data obtained by the portable recording medium 5. Specifically, the display device 4 may have a configuration of displaying the images directly on a CRT display, a liquid crystal display or the like, or a configuration of outputting the images to another medium such as a printer.
The portable recording medium 5 is detachable with respect to the receiving main body unit 2b and the display device 4, and has a configuration such that when inserted to be attached to both of them, information can be output or recorded. In the first embodiment, the portable recording medium 5 is inserted to be attached to the receiving main body unit 2b and records data transmitted from the capsule endoscope 3 therein while the capsule endoscope 3 is moving in the body cavity of the subject 1. After the capsule endoscope 3 is discharged from the subject 1, namely, after the imaging of the inside of the subject 1 is completed, the portable recording medium 5 is taken out of the receiving main body unit 2b and is inserted to be attached to the display device 4, and the display device 4 reads out the data recorded in the portable recording medium 5. For example, by using the portable recording medium 5 such as CompactFlash (registered trademark) for the data transfer between the receiving main body unit 2b and the display device 4, the subject 1 can move freely during the imaging of the inside of the body cavity compared to the case where the receiving main body unit 2b and the display device 4 are connected to each other by a wire. Here, though the portable recording medium 5 is used for the data transfer between the receiving main body unit 2b and the display device 4, the present invention is not necessarily limited to this configuration. For example, another recording device built into the receiving main body unit 2b such as a hard disc drive may be used and the receiving main body unit 2b and the display device 4 may be connected with or without a wire for the data transfer therebetween.
The CCD 32 is provided on an imaging substrate 61 and captures images of an area illuminated by an illumination light from the LED 11, and the imaging lens 33 forms images of a subject onto the CCD 32. The LED 11 is mounted on an illuminating substrate 62 and arranged at six points around an optical axis of the imaging lens 33. Besides, the signal processor/controller 50 is mounted on a rear surface side of the imaging substrate 61.
The power source 20 is, for example, constituted by two button batteries 21 whose diameter corresponds to an inner diameter of a body chassis. The batteries 21 can be silver oxide batteries, rechargeable batteries, generating batteries, and the like, for example. The batteries 21 are sandwiched by a power source circuit substrate 63 and a radio substrate 65, and an electric power storing unit 23 which temporarily stores a redundancy of the electric power of the power source circuit 22 and the batteries 21 is mounted on the power source circuit substrate 63 provided at a positive pole side of the batteries 21.
The radio unit 40 is formed by providing a radio electric power amplifier 42 such as an RF transmitter on radio substrates 64 and 65, and an antenna 41 on an outer side of the radio substrates 64. The illuminating substrate 62, the imaging substrate 61, the power source circuit substrate 63, and the radio substrates 64 and 65 are electrically connected suitably via a flexible substrate 68, and sequentially folded to be arranged in the capsule-shaped casing 16.
The capsule-shaped casing 16 has a transparent head cover chassis which has a semispherical shape and covers the illuminating unit 10 and the imaging unit 30, and the body chassis which, having a cylindrical shape, is in engagement with the head cover chassis and kept in a watertight condition, the body chassis being formed by a colored material through which a visual light cannot be transmitted and formed in a size which is small enough to be swallowed from a mouth of the subject 1. The other side where the radio unit 40 is provided of the capsule-shaped casing 16 is connected to the body chassis and has a semispherical shape to cover the antenna 41 therein.
Here, the first embodiment is characterized in that the electric power storing unit 23 shown in
As shown in
The electric power storing unit 23 is, for example, realized by a capacitor and the like, and constantly stores, at a constant voltage for the illuminating unit 10, a redundancy of the electric power which is, within the electric power supply limit Pth, supplied from the batteries 21 or the power source circuit 22. This electric power storage is performed within the electric power supply limit Pth. Then, when an electric power discharging switch 24 and a driving switch 25 are switched from OFF state to ON state according to an instruction from the signal processor/controller 50 at the time of the LED light emission, the electric power temporarily stored in the electric power storing unit 23, namely, an electric charge is discharged and supplied to the illuminating unit 10. On this occasion, an electric power corresponding to the electric power supply limit Pth is supplied also from the power source circuit 22 to the illuminating unit 10. Thus, a total electric power of the electric power corresponding to the electric power supply limit Pth and the additional electric power supplied from the electric power storing unit 23 becomes available in the LED light emission. After this LED light emission, an operation can be performed based on the quantity of the electric power within the electric power supply limit Pth which can be fed by the power source circuit 22, and a redundant electric power is stored in the electric power storing unit 23. Here, the driving switch 25 drives the LED driver 12, and the LED driver 12 turns on an electricity to drive each LED 11. The driving switch 25 and the electric power discharging switch 24 become ON state only in the LED light emission (the period t1), and stay OFF state in other points of time.
Besides, an electric power charging switch 26 which controls the electric power storage into the electric power storing unit 23 may further be provided as shown in
In the first embodiment, the electric power storing unit 23 stores a redundant electric power within the electric power supply limit Pth fed by the power source 20, and when an operation such as the operation for the LED light emission which requires an electric power over the electric power supply limit Pth is performed, the stored redundant electric power is added to the electric power for the electric power supply limit Pth to enable such an operation involving the electric power over the electric power supply limit Pth. As a result, the power capacity of the power source can be made small. Specifically, the capacity or the number of the batteries 21 can be reduced, which enables increasing a volume available for function executing units in the capsule endoscope 3 or promoting downsizing the capsule.
Next, a second embodiment of the present invention will be explained. In the first embodiment described above, the total electric power of the electric power supplied from the power source circuit 22 and the electric power supplied from the electric power storing unit 23 is equally distributed to each LED 11. However, in the second embodiment, the electric power is distributed separately to an LED 11 which performs a light emission by using the electric power supplied from the power source circuit 22 and to another LED 11 which performs a light emission by using the electric power supplied from the electric power storing unit 23.
In other words, as shown in
Though the first and the second embodiments are explained on the assumption that the plurality of LEDs 11 perform the light emission at all times, the present invention is not limited to this and the number of LEDs 11 to emit a light may vary depending on a required amount of light to be emitted. For example, when this is applied to the LED arrangement shown in
Besides, though the electric power temporarily stored in the electric power storing unit 23 is additionally supplied to a high-power function executing unit (the illuminating unit 10, for example) which requires an electric quantity over the electric power supply limit Pth in the first and the second embodiments described above, the present invention is not limited to this and the stored electric power in the electric power storing unit 23 may be supplied, by the electric power discharging switch 24, to the high-power function executing unit as a function executing unit which, among function executing units in the capsule endoscope, consumes an electric power not less than an average value of the electric power usage (an average electric power value) in the capsule endoscope. In this case, the high-power function executing unit may be any one of the illuminating unit 10, the imaging unit 30, the radio unit 40, and the signal processor/controller 50 of the capsule endoscope.
Furthermore, though the electric power temporarily stored in the electric power storing unit 23 is additionally supplied to the illuminating unit 10 which is one example of the high-power function executing unit requiring an electric quantity over the electric power supply limit Pth in the first and the second embodiments described above, the present invention is not limited to this and may be configured such that the signal processor/controller 50 is provided with a compressor which performs a compression processing on data of images captured by the imaging unit 30 and the electric power discharging switch 24 causes the stored electric power in the electric power storing unit 23 to be additionally supplied to the compressor. Or otherwise, the present invention may be configured such that the signal processor/controller 50 is provided with a signal processing circuit such as an analogue front-end circuit (AFE circuit) which transforms analogue image data captured by the imaging unit 30 into digital image data and the electric power discharging switch 24 causes the stored electric power in the electric power storing unit 23 to be additionally supplied to the signal processing circuit. Namely, the high-power function executing unit described above may be any one of the compressor and the signal processing circuit.
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details and representative embodiments shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents.