JP2006116041A - Battery apparatus and endoscope apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily load a battery onto a battery apparatus without contaminating the sterilized apparatus when the battery in an unclean area is loaded onto the sterilized battery apparatus. <P>SOLUTION: When the battery 34 in the unclean area is loaded onto the battery apparatus 3 in a clean area after the autoclave sterilization of the battery apparatus 3 is executed, a battery guiding section 6 to guide the battery 34 is engaged with a pointed head of the battery storing section 33 of the battery apparatus 3 to separate the clean area and the unclean area, and the battery 34 in the unclean area is guided to the inside of the battery storing section 33 in the clean area through guiding rails 61 and 62 of the battery guiding section 6 to be loaded so that the sterilized battery apparatus 3 is prevented from being contaminated. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a battery housing apparatus and an endoscope apparatus that house battery means (hereinafter simply referred to as “battery”) used as a primary battery or a secondary battery.

  For example, a battery such as a conventional dry battery is housed in a battery housing case provided with a positive electrode and a negative electrode provided in a predetermined device, and is electrically connected via a conductive wire connected to the electrode and the electrode. The function execution means can be driven by supplying power to the load device as the function execution means for executing the predetermined function.

  However, in recent years, there may be a case where a battery having such a configuration is placed in an external environment in a pressurized steam state. As such a situation, there may be a case where sterilization is required when the battery is used, for example, for medical treatment on a subject. In such a case, in a configuration in which the battery is housed in a battery housing case that is generally used, such as a metal or plastic material such as stainless steel, steam from the outside has entered the battery, There is a possibility that rust is generated in the metal member, and the sliding force amount of the sliding portion is increased or the conduction resistance of the electrical contact portion is lowered. For example, in a medical endoscope apparatus shown in Patent Document 1 as a function execution apparatus, a battery is accommodated in a battery accommodation case, and a lamp as a load device is electrically connected to the battery so that power is supplied to the lamp. While being supplied, the connecting portion, for example, the connecting portion between the battery housing case and the lamp chamber case is sealed with an O-ring to form a watertight structure.

  In this endoscope apparatus, the emitted light from the lamp is guided to a light guide fiber or the like, and the guided illumination light is emitted from the illumination window on the front end side of the light unit, so that the test site of the subject is examined. By illuminating the inside of the organ such as the stomach and large intestine (inside the body cavity) and taking the reflected light into the endoscope device, observation by a doctor or a nurse was made possible.

JP-A-9-56672

  However, in the current medical treatment, for example, pressurized water vapor with high temperature and pressure is generated, and the endoscope apparatus is steam sterilized (autoclave sterilization) with this water vapor before being used for the subject. May occur. In this autoclave sterilization, for example, the endoscope apparatus is sterilized by heating with pressurized steam heated to 135 ° C. and pressurized to 2.2 atmospheres for 20 minutes. The heat generated by the heat is transmitted to the battery through the battery housing case, and the battery performance may be adversely affected to deteriorate the battery performance.

  Therefore, conventionally, when autoclaving the battery device of the endoscope device, the battery is removed from the endoscope device, and after the autoclave sterilization is finished, the battery that is an unclean area is loaded into the battery housing apparatus that is a clean area. However, there is a possibility that the battery, which is an unclean area, may touch the clean area when the battery is loaded, and the clean area may be contaminated.

  The present invention has been made in view of the above problems, and when a sterilized battery device is loaded with a dirty battery, the battery device is easily loaded without contaminating the sterilized device. An object of the present invention is to provide a battery housing device and an endoscope device that can be used.

  In order to solve the above-described problems and achieve the object, a battery storage device according to the present invention includes a storage unit for storing battery means, and function execution means that is operated by a power source supplied from the battery means, A battery device, and guiding means for guiding the battery means to the housing portion, and the battery means is guided into the housing portion by the guiding means when the battery means is loaded. A containment device is provided.

  According to a second aspect of the present invention, the battery storage device according to the second aspect further includes an engagement unit that engages the battery unit and the guide unit, and the engagement unit sets the battery unit when the battery unit is loaded. The battery device and the guide means are engaged, and the battery means is guided into the housing portion via the guide means.

  According to a third aspect of the present invention, there is provided the battery housing device according to the above invention, wherein the engaging means is provided in the battery means or the guiding means, and the guiding means or the battery device, And a groove portion with which the pin portion engages.

  The battery storage device according to a fourth aspect of the present invention is the battery storage device according to the above invention, wherein the guide means includes a sliding portion that slides inside the storage portion, and the sliding portion is stored when the battery means is filled. It protrudes outside the part, and after inserting the battery means, the battery means is guided into the housing part.

  According to a fifth aspect of the present invention, there is provided the battery storage device according to the above invention, wherein the guide means has a grip portion capable of gripping the battery means, and is fitted to the battery device to seal the storage portion. It is characterized by comprising a lid.

  According to a sixth aspect of the present invention, there is provided the battery accommodating device according to the above-mentioned invention, wherein the guide means includes a gripping tool capable of gripping the battery means.

  According to a seventh aspect of the present invention, there is provided the battery accommodating device according to the above-mentioned invention, wherein the guide means slides within the accommodating portion, and the sliding portion provided so that the battery means can be placed thereon; A sliding body is controlled to slide, and a lid that fits into the battery device and seals the housing portion is provided.

  The battery storage device according to an invention of claim 8 is the battery storage device according to the above invention, wherein the guide means includes a placement portion provided in the battery device so that the battery means can be placed; A battery member is moved in a manner that can be guided to the housing part, and a lid body that fits the battery device and seals the housing part, and a holder provided in the battery device that movably holds the lid body And means.

  According to a ninth aspect of the present invention, there is provided the battery housing device according to the above invention, wherein the battery means includes at least power storage means for storing electric power.

  According to a tenth aspect of the present invention, there is provided the battery accommodating device according to the above invention, wherein the battery means further includes power supply means for supplying power from the power storage means.

  An endoscope apparatus according to an eleventh aspect of the invention includes a battery unit having a storage unit that stores battery means, and a function execution unit that is operated by a power source supplied from the battery unit. A battery housing device having guidance means for guiding the battery means; and an endoscope operation unit to which the battery housing device is detachably mounted, and when the battery means is loaded, It guide | induces to the said accommodating part by a guidance means, It is characterized by the above-mentioned.

  The battery accommodating device according to the present invention is a clean area object between the battery means and the battery accommodating device when, for example, the unclean battery means not sterilized after the autoclave sterilization is loaded into the clean area battery accommodating device. A guiding means is provided, and the battery means is guided and loaded into the housing portion of the battery housing device by separating the clean area and the unclean area by this guiding means, so that the sterilized battery housing apparatus is loaded with the dirty battery. In this case, there is an effect that the battery can be easily loaded into the battery housing device without contaminating the sterilized device.

  An endoscope apparatus according to the present invention includes a clean area battery housing apparatus having guiding means for guiding battery means, and an endoscope operation unit to which the battery housing apparatus is detachably mounted, and an unclean area. When the battery means is loaded, the battery means is guided to the housing part of the battery housing device in the clean area through the guiding means, so that when the battery in the dirty area is loaded into the sterilized battery housing apparatus, sterilization is performed. There is an effect that the battery can be easily loaded into the battery housing device without contaminating the used device.

  Hereinafter, embodiments of a battery housing device and an endoscope device according to the present invention will be described in detail with reference to the drawings of FIGS. The present invention is not limited to these embodiments, and various modifications can be made without departing from the scope of the present invention.

(Embodiment 1)
FIG. 1 is a perspective view showing an example of the configuration of a portable endoscope apparatus using a battery device according to the present invention. In the figure, an endoscope apparatus 1 includes a watertight endoscope 2 that prevents leakage and permeation of liquid, and a battery device 3 that is detachably attached to the endoscope 2 and electrically connected thereto. Has been. Further, a light guide cable (not shown) can be detachably attached to the endoscope 2 instead of the battery device 3.

  The endoscope 2 is provided with an eyepiece unit 21 provided at one end, an operation unit 22 provided on an attachment side to which the eyepiece unit 21 is attached, and the other end of the operation unit 22. And an elongated cylindrical insertion portion 23 to be inserted therein. A light guide base 22a protrudes from the side surface of the operation portion 22 on the attachment side, and the connection portion 31 of the battery device 3 is detachably connected. In addition, a bending operation lever 22b for performing a bending operation of the distal end of the insertion portion 23 and a suction button 22c for performing a suction operation protrude from the side surface of the operation unit 22 at different positions. Yes. A suction base 22d communicating with a suction channel (not shown) provided in the endoscope 2 protrudes from the side surface of the suction button 22c. For example, a tube is attached to the suction base 22d, and the suction base 22d is connected to the suction button 22c via the tube. By connecting to a predetermined suction device and appropriately operating the above-described suction button 22c, the liquid in the body cavity can be sucked and discharged through the insertion portion 23, the suction channel, and the suction base 22d.

  In addition, the operation unit 22 is provided with a grip portion 22e that is held by a doctor or the like in order to hold and fix the endoscope 2. In the operation portion 22, a forceps insertion port 22f for inserting forceps protrudes from the attachment side to which the insertion portion 23 is attached. The forceps insertion port 22f is normally closed with a forceps plug 22g. . Further, on the opposite side of the forceps insertion opening 22f, for example, a vent hole 22h is provided, and a water leak inspection of the endoscope 2 is performed by sending air into the endoscope 2 from the vent hole 22h. Is possible.

  The insertion portion 23 to be inserted into the subject includes a hard distal end portion 23a provided at the distal end, a bending portion 23b that performs a bending operation by operating the operation portion 22, and a flexible tube 23c having flexibility. These parts are configured to be continuous in a line.

  A light guide fiber (not shown) for guiding illumination light emitted from the lamp of the battery device 3 is housed inside the insertion portion 23. One end of the light guide fiber is bent inside the operation unit 22 and is fixed in the light guide base 22a. The other end of the light guide fiber is fixed to an illumination window 23 d provided at the distal end of the insertion portion 23. Therefore, the endoscope apparatus 1 can irradiate the illumination light emitted from the battery device 3 from the light guide base 22a through the light guide fiber to the outside through the illumination window 23d, and thereby the body cavity of the subject inserted therein The interior can be illuminated. A male screw portion 22i for connection is provided on the outer peripheral surface of the light guide base 22a.

  FIG. 2 is a diagram for explaining the external appearance of the operation unit 22 and the connection unit 31 of the battery device 3 shown in FIG. 1, and FIG. 3 is an overall configuration of the battery housing device including the battery device shown in FIG. FIG. In these drawings, the battery accommodating device includes a battery device 3 and a battery guide portion 6. The connection portion 31 of the battery device 3 has a connection ring 31a provided on the outer peripheral surface, and the connection ring 31a covers the female screw portion 31b formed on the inner peripheral surface and the outer peripheral surface of the female screw portion 31b. Screw cover 31c. The connection ring 31a is provided so as to surround the outer peripheral surface of the cylindrical connection base 31d, and the connection ring 31a is connected to the connection base 31d in such a manner that the movement in the longitudinal direction of the connection base 31d is restricted within a certain range. It is attached to the base 31d. The female screw portion 31b is configured to be screwed with a male screw portion 22i provided on the outer peripheral surface of the light guide base 22a.

  A watertight ring 31e is provided around the outer peripheral surface of the connection base 31d. When the connection portion 31 is connected to the light guide base 22a, the watertight ring 31e is connected to the inner periphery of the connection tube 22j of the light guide base 22a. It is in close contact with the surface. That is, by rotating the connection ring 31a of the battery device 3 in a predetermined direction and screwing the male screw portion 22i of the light guide base 22a and the female screw portion of the connection ring 31a, the light guide base 22a of the endoscope 2 is engaged. The connection ring 31a is screwed and fixed, and the connection cylinder 22j and the connection base 31d are brought into close contact with each other by the watertight ring 31e, so that the endoscope 2 and the battery device 3 are combined together. With this configuration, watertightness at the connecting portion is ensured.

  In FIG. 3, the battery device 3 forms a lamp housing portion 32 that houses a lamp 50 made of a horizontally long rectangular frame, and a battery housing space that houses a battery 34 (power storage device) as battery means. The battery accommodating part 33 which consists of a vertically long rectangular frame which has the inner surface 33e, and the cover body 35 connected with the upper end part of the battery accommodating part 33 by the hinge type so that opening and closing is possible are provided.

  The lamp housing portion 32 includes a housing portion main body 32a, a watertight ring 32b having a watertight structure that holds the lamp 50 and is fitted to the housing portion main body 32a, and a lamp contact spring portion 32c attached to the watertight ring 32b. . The accommodating portion main body 32a is formed of, for example, an insulating resin material (not shown) having a thick hole portion having a large diameter hole at one end and a fine hole portion having a small diameter hole and communicating with the large hole portion. These holes communicate with the outside. The watertight ring 32b is formed so as to be fitted in the large hole portion of the housing portion main body 32a. The lamp contact spring portion 32c is formed of a contact spring that can be fitted to the small diameter portion of the housing portion main body 32a with a screw or the like and can be connected to the proximal end electrode 50a of the lamp 50 inserted and held in the pore portion. Has been.

  Inside the battery housing portion 33, a coil spring and a cylindrical connection terminal (not shown) that are electrically connected in contact with the electrode of the battery 34, and a coil spring and a connection terminal are disposed at the bottom of the battery housing portion 33. And a power supply circuit connected to each other. The coil spring and the connection terminal supply power of the battery 34 connected in series to the power supply circuit. The power supply circuit is provided with a transformer circuit (not shown) that converts the voltage of the battery 34 into the rated voltage of the lamp 50, for example, 4.8V.

  On the upper surface 33f of the battery housing portion 33 shown in FIG. 3, for example, grooves 33g for pin engagement are formed on four sides of the formed inner surface 33e. The battery guide unit 6 is a clean area guiding means that is disposed between the battery and the battery housing device when, for example, an unsterilized unclean battery 34 is loaded into the clean area battery device 3. The battery guide portion 6 as the guiding means is formed in an elliptical column shape, and guide rails 61 and 62 for the battery 34 are provided in the longitudinal direction inside the battery guide portion 6, and the lower surface 63 on the battery device 3 side in FIG. 3. The guide rails 61 and 62 are respectively provided with pins 63a that can be engaged with the grooves 33g. The guide rails 61 and 62 of the battery guide portion 6 have battery insertion openings 63 and 64, and are formed to be able to communicate with the inner surface 33e of the battery housing portion 33 when the plurality of grooves 33g and the pins 63a are engaged. Has been. Thereby, the battery 34 in the unclean area is accommodated in the inner surface 33e of the battery accommodating section 33 through the guide rails 61 and 62 of the battery guide section 6 in the clean area from the battery insertion openings 63 and 64 side.

  The lid body 35 is formed of a non-conductive member, and includes a conductive plate 35a connected to the battery 34 loaded in a closed state, and a fixed claw portion 35b provided at the edge. In this embodiment, the battery 34 is inserted and housed in the inner surface 33e of the battery housing portion 33 as shown by the arrow B, and when the lid 35 is closed, the battery 34 comes into contact with the conductive plate 35a in a series state. Connected.

  Further, the battery device 3 includes a lock mechanism portion 36 at an upper end portion opposed to an upper end portion where the lid body 35 is connected by a hinge (not shown). The lock mechanism portion 36 rotates with respect to the lock claw portion 36a engaged with the fixed claw portion 35b and the battery housing portion 33, and supports the lock claw portion 36a so as to be rotatable in response to the rotation. And an opening lever 36b. Therefore, the lock claw portion 36a can be in a fixed state or a released state with respect to the fixed claw portion 35b in conjunction with the operation of the release lever 36b. That is, the lid body 35 is integrally fixed to the battery housing portion 33 by a so-called buckle type locking mechanism that engages with the fixing claw portion 35b.

  Next, the accommodating operation of the battery 34 will be described. In FIG. 3, the battery device 3 and the battery guide unit 6 are sterilized in advance such as autoclave sterilization and belong to the clean area as clean areas. The battery 34 is removed from the endoscope apparatus 1 and placed in an unclean area when the battery apparatus 3 is sterilized by autoclave because of the adverse effects of heat and steam due to pressurized steam.

  When the battery 34 is loaded into the battery device 3 after the autoclave sterilization is completed, first, a clean area operator (for example, a nurse or the like) opens the lid 35 of the battery device 3, and the battery guide portion 6 is moved to the arrow A. The pin 63a is engaged with a groove 33g provided on the upper surface 33f of the battery device 3. Accordingly, the inner surface 33e of the battery device 3 and the guide rails 61 and 62 of the battery guide portion 6 are positioned and communicated with each other.

  Next, when an unclean worker inserts the battery 34 into the guide rails 61 and 62, the battery 34 passes through the guide rails 61 and 62 and is accommodated in the inner surface 33 e of the battery device 3. Next, the engagement between the groove 33g and the pin 63a is released. At this time, the battery guide 6, particularly the inner peripheral surfaces of the guide rails 61 and 62, are in an unclean area.

  Then, the worker in the clean area closes the lid 35 and engages and fixes the lock claw portion 36a of the lock mechanism 36 to the lid 35 to complete the loading of the battery 34 and the closure of the lid 35. To do.

  With this configuration, in this embodiment, when a sterilized battery device is loaded with an unclean battery, the sterilized battery guide portion is engaged with the battery device, and the positioned battery guide portion is interposed. Since the battery is loaded on the inner surface of the battery device, the unclean battery is stored in the clean battery housing, thereby contaminating the sterilized device when the sterilized battery device is loaded with the unclean battery. Therefore, the battery can be easily loaded into the battery device.

  In this embodiment, the lid is closed by the lock mechanism. However, the present invention is not limited to this. For example, the battery housing and the lid are connected by a spring, and the lid is biased by the biasing force of the spring. It is also possible to configure so as to block. In this case, for example, autoclave sterilization is performed in a state where the lid is opened, the battery guide is engaged with the battery device, and the spring is locked. If the battery guide portion is removed from the battery device after the battery is loaded, the spring is unlocked, and the lid body is automatically closed by the biasing force of the spring, so that the lid body can be closed. . In this case, since the lid is closed by the biasing force of the spring, the battery can be more easily loaded into the battery device without contaminating the sterilized device.

  Moreover, in this embodiment, since the battery insertion openings 63 and 64 of the battery device 3 and the battery guide portion 6 are separated to some extent, it is possible to prevent an unclean person from touching the battery device 3 inadvertently. You can also.

(Embodiment 2)
4 is a perspective view showing the configuration of Embodiment 2 of the battery accommodating device shown in FIG. 1, FIG. 5 is a cross-sectional view showing a BB cross section of FIG. 4, and FIG. It is a figure for demonstrating the slide mechanism part shown in FIG. In these drawings, this embodiment is different from the first embodiment in that a storage case 7 in which a battery 34 can be loaded is provided in the inner surface 33e of the battery storage portion 33, and this storage case 7 is The inner surface 33e is slid to protrude outward. In addition, the lid body 35 is formed in a rectangular box shape having an opening 35 c having an opening on one side, and the opening 35 c has a rectangular shape formed at the end of the battery accommodating portion 33. By fitting the protrusion 33h, the inner surface 33e of the battery housing part 33 is closed.

  In the second embodiment, the storage case 7 is formed in an elliptical column shape that can be stored in the inner surface 33e of the battery storage portion 33, and a battery storage hole 71 that can store the battery 34 in the longitudinal direction is formed therein. , 72 are formed. In these battery housing holes 71 and 72, the housing body 32a side of the lamp housing 32 is closed.

  The slide mechanism portion 8 as a sliding portion has a function as a guiding means. In FIG. 4, a long groove 73 formed in the longitudinal direction of the outer peripheral surface of the storage case 7 and an inner side of the long groove 73 are formed. A rack, a rotation lever 37 provided rotatably on the upper surface of the battery housing portion 33 in FIG. 4, and a pinion 38 provided in the inner surface 33e of the battery housing portion 33 and meshing with the rack. Has been. The pinion 38 is formed so as to be interlocked with the rotation of the rotation lever 37, and the rack 74 is repeatedly moved in the directions of arrows X1 and X2 in FIG. 6 by the rotation of the pinion 38. Among these movements, the storage case 7 moves to be inserted into the inner surface 33e with respect to the direction of the arrow X1 of the rack 74, and the storage case 7 with respect to the movement of the rack 74 in the direction of arrow X2. Moves to a state protruding from the inner surface 33e. Thereby, the storage case 7 is electrically connected to the position where the battery storage holes 71 and 72 of the storage case 7 protrude from the battery device 3, and the function execution means stored in the battery device 3 and the battery stored therein. It is provided so as to be movable between connecting positions.

  That is, in this embodiment, when the battery 34 is loaded into the battery device 3 after the autoclave sterilization is finished, first, an operator in a clean area turns the turning lever 37 to move the pinion 38 to the arrow X2 (external) in FIG. ) To move the storage case 7 to the outside. An unclean worker accommodates the battery 34 in the battery housing holes 71 and 72 of the housing case 7.

  Next, the worker in the clean area turns the rotation lever 37 in the opposite direction to move the pinion 38 in the direction of the arrow X1 (inner surface 33e) in FIG. 6 to store the storage case 7 in the battery device 3. Then, by fitting the lid 35 to the battery housing portion 33, the loading of the battery 34 and the closing of the lid 35 are completed. As shown in FIG. 5, the loaded battery 34 comes into contact with the connection terminal 33 b on the inner surface 33 e of the battery housing portion 33 via the connection terminal 75 provided in the storage case 7, and electrically connects to the power supply circuit 33 c. Is connected to the power supply circuit 33c. The power supply circuit 33c is provided with a transformer circuit (not shown) that converts the voltage of the battery 34 into the rated voltage of the lamp 50, for example, 4.8V. The transformer circuit supplies the boosted rated voltage to the lamp 50. Yes.

  With this configuration, in this embodiment, when a sterilized battery device is loaded with an unclean battery, a sterilized storage case is protruded from the battery device by the slide mechanism, and the battery is placed in the storage case. And the storage case is housed in the battery device by the slide mechanism portion, so that the battery is loaded on the inner surface of the battery device, so that the unclean battery is housed in the clean battery housing portion. When a sterilized battery device is loaded with an unclean battery, the battery device can be easily loaded without contaminating the sterilized device.

  The present invention is not limited to this embodiment. For example, a slide lever is used instead of the rotation lever 37, and the slide lever is directly attached to the storage case 7 through a groove provided in the battery storage portion 33. It is also possible to adopt a configuration in which the storage case 7 is advanced and retracted from the battery storage unit 33 by attaching and sliding this lever from the outside. Further, the storage case 7 may be formed of a magnetic material, and the storage case may be moved forward and backward from the battery storage portion 33 by using a magnetic material such as a magnet from the outside of the battery storage portion 33.

(Embodiment 3)
FIG. 7 is a perspective view showing a configuration of Embodiment 3 of the battery housing device shown in FIG. 1, and FIG. 8 is a cross-sectional view showing a CC cross section of FIG. In these drawings, the difference from the first embodiment is that a mounting plate 39 on which the battery 34 can be mounted is provided in the inner surface 33e of the battery accommodating portion 33, and this mounting plate 39 is interlocked with opening and closing of the lid 35, The inner surface 33e is slidable. The lid body 35 and the mounting plate 39 constitute guiding means.

  The mounting plate 39 as the sliding portion includes two curved members 39a and 39a that are curved in accordance with the outer shape of the battery 34 so that the battery 34 can be mounted, and a connecting member 39b that connects the curved members 39a and 39a. With. The bending members 39a and 39a are made of a substantially semi-cylindrical member extending in the longitudinal direction of the inner surface 33e. As shown in FIG. 8, a locking member 39c for locking the battery 34 is provided at the end of the bending members 39a, 39a on the power supply circuit 33c side, and an end on the lid 35 side is provided with a hinge 39d. It is connected to the lid body 35 by.

  The lid body 35 is connected to an end portion of the battery housing portion 33 by a hinge 35d, and is disposed so as to be rotatable about the hinge 35d. The hinge 39d is provided on the upper side (the lock mechanism portion side) in FIG. 8, which is separated from the hinge 35d by a predetermined length of the lid body 35. Therefore, the mounting plate 39 is configured to be capable of sliding the inner surface 33e by a predetermined distance in the longitudinal direction in accordance with the opening / closing operation of the lid 35 around the hinge 35d.

  That is, in this embodiment, when the battery 34 is loaded into the battery device 3 after the autoclave sterilization is completed, first, the worker in the clean area releases the lock mechanism 36 and opens the lid 35. At this time, the mounting plate 39 is moved in the direction of the arrow X3 in FIG. Then, the worker in the unclean area mounts the battery 34 on the mounting plate 39.

  Next, when the operator in the clean area closes the lid 35, the mounting plate 39 moves in the direction of the arrow X4 in FIG. 8, and the battery 34 is inserted into the inner surface 33e of the battery housing portion 33, thereby locking the mechanism. The lid 35 is locked by the unit 36, thereby completing the loading of the battery 34 and the closing of the lid 35. When the lid 35 is unlocked and the lid 35 is opened, the mounting plate 39 moves in the direction of the arrow X3 in FIG. 8, and accordingly, the engaging member 39c engages the mounting plate 39 on the mounting plate 39. The stopped battery 34 is pushed out from the inner surface 33e, and the battery can be replaced. That is, in this embodiment, the lid body 35 and the mounting plate 39 as guiding means function as the battery insertion / removal means 43 for inserting the battery 34 into the battery housing part 33 or pushing it out from the battery housing part 33. Have

  With such a configuration, in this embodiment, since the battery mounting plate that moves the inner surface of the battery housing portion in conjunction with the lid is provided, simply mounting the battery in the dirty region on this mounting plate, Batteries are easier to insert and remove from a sterilized battery device, making the battery easier to handle, and without contaminating the sterilized device when loading sterilized battery devices with dirty batteries The battery can be easily loaded into the battery device.

(Embodiment 4)
FIG. 9 is a perspective view showing the configuration of Embodiment 4 of the battery accommodating device shown in FIG. 1, and FIG. 10 is a cross-sectional view showing a DD cross section of FIG. In these drawings, the difference from the first embodiment is that an auxiliary plate 40 that receives the battery 34 is provided at the tip of the battery storage portion 33 that stores the battery 34, and the auxiliary plate 40 is stored inside. The lid 35 is provided to close the inner surface 33e of the battery housing portion 33. The lid body 35, the auxiliary plate 40, and the slide bar 42 constitute guiding means.

  The auxiliary plate 40 as the mounting portion includes two curved portions 40a and 40a having a predetermined length that are curved in accordance with the outer shape of the battery 34 so that the battery 34 can be mounted. The battery housing portion 33 protrudes from the tip, and the other end is provided in communication with the inner surface 33 e of the battery housing portion 33. Moreover, the battery accommodating part 33 is formed shorter than the length of the battery 34 so that a part of the battery 34 is exposed to the outside when the battery 34 is loaded on the inner surface 33e.

  The lid body 35 is formed in a rectangular box shape having an opening 35c whose one surface is open. The opening 35c is formed so that the auxiliary plate 40 can be accommodated therein, and the inserted battery 34 and the auxiliary plate 40 can be opened by opening the lid 35 abutting against the end of the battery accommodating portion 33. The inner surface 33e of the battery housing portion 33 is closed.

  A long hole 41 is provided in the longitudinal direction below the battery accommodating portion 33 in FIG. 10, and a slide bar 42 is slidably engaged with the long hole 41. The slide bar 42 has one end protruding from the elongated hole 41, and the one end is connected to the lid 35. Therefore, the lid body 35 is held by the slide bar 42 as a holding means, and moves in the longitudinal direction of the battery housing portion 33 so that the lid body 35 can be brought into contact with and separated from the battery housing portion 33.

  In this embodiment, after autoclave sterilization, an operator in a clean area opens the lid 35 and an operator in an unclean area places the battery 34 on the auxiliary plate 40. Next, the worker in the clean area moves the lid 35 to abut against the tip of the battery housing portion to close the battery. At this time, the battery is pushed by the opening 35c of the lid 35, inserted into the inner surface 33e, and locked in a state in which a part protrudes from the inner surface 33e. Complete the blockage. Further, when the battery 34 is taken out from the battery housing portion 33, if the lid 35 is opened, a part of the battery, particularly the side surface is exposed, so that the battery 34 can be easily taken out.

  With this configuration, in this embodiment, the battery is placed on the auxiliary plate provided at the front end of the battery housing portion, the lid body is moved, and the lid body is brought into contact with the front end of the battery housing portion. Batteries can be easily inserted and removed from the device, making the battery easier to handle, and without contaminating the sterilized device when the sterilized battery device is loaded with a dirty battery. The battery can be easily loaded.

  In the present invention, for example, a battery holding mechanism including an O-ring or a leaf spring may be provided on the inner wall of the inner surface of the battery housing portion to hold the battery inserted into the inner surface. In this case, the battery can be held more securely, and the battery can be prevented from dropping even when the lid is opened.

(Embodiment 5)
FIG. 11 is a cross-sectional view showing a cross section of the battery accommodating device, and is a cross section at the same position as in FIG. In this figure, the difference from the second embodiment is that the lid 35 is formed of a flexible member that can be gripped by the battery 34, for example, rubber or flexible plastic, and the opening 35c of the lid 35 as a gripping portion is used for the battery. 34 is configured to be held and accommodated in the inner surface 33 e of the battery accommodating portion 33. This lid 35 constitutes a guiding means.

  In this embodiment, a non-slip member 35e, which is a battery gripping portion, is provided on the inner peripheral surface of the opening 35c of the lid 35 to prevent the battery 34 from falling off when the battery 34 is gripped. By providing the fitting member 33i on the outer peripheral surface of the protrusion 33h formed at the end of 33, when the opening 35c of the lid 35 and the protrusion 33h of the battery housing part 33 are fitted together, the anti-slip member is fitted. The joint member 33i is fitted to prevent easy peeling of the lid 35.

  With this configuration, in this embodiment, the lid is formed of a flexible member capable of gripping the battery, and an operator in a clean area grips the battery with the lid and loads the battery into the battery housing. As a result, the unclean area battery is accommodated in the clean area battery accommodating portion, and thus when the unclean area battery is loaded into the sterilized battery apparatus, the sterilized apparatus is not contaminated. The battery can be easily loaded.

(Embodiment 6)
12 is a configuration diagram showing the configuration of the battery accommodating device shown in FIG. 1 according to the sixth embodiment, and FIG. 13 is a diagram showing the battery gripping tool shown in FIG. In this embodiment, instead of gripping the battery 34 with the lid 35 shown in the fifth embodiment, the battery 34 is gripped using the battery gripping tool 9, and the gripped battery 34 is placed in the battery housing portion 33. After the storage, the rectangular box-shaped lid 35 is fitted into the rectangular projection 33h to complete the loading of the battery 34 and the closure of the lid 35. This gripping tool 9 constitutes guiding means.

  As shown in FIG. 13, the battery gripping tool 9 as a gripping tool is composed of a pair of jigs including a handle portion 91 that is gripped by a worker with a finger and a jaw portion 92 that grips the battery 34. The center of the tool is engaged with a pin 93, and the handle portion 91 is opened around the pin 93 to open the jaw 92, and the battery 34 is connected to the curved tip formed at the tip of the jaw 92. It can be gripped.

  The battery gripping tool 9 is configured to be sterilized or sterilized. The battery gripping tool 9 once used is leaned against a clean beaker or the like with the tip of the jaw portion 92 that has become a dirty area facing down. When replacing the battery 34, it is possible to hold the handle portion 91 in a clean area and take it out of the beaker again for use. In addition, the battery gripping tool 9 can be disposable only once. In this case, the battery gripping tool 9 can be used by an operator in either an unclean area or a clean area. It becomes possible.

  With this configuration, in this embodiment, the battery is gripped by the clean area battery gripper and loaded into the battery device, so that the unclean area battery is accommodated in the clean area battery housing portion, thereby sterilizing. When the unclean battery is loaded into the battery device, the battery device can be easily loaded without contaminating the sterilized device.

(Embodiment 7)
FIG. 14 is a diagram illustrating a configuration in which the battery 34 and the circuit board 11 are stored in the unit storage unit 10 as one unit. In the figure, this unit storage unit 10 is a circuit in which a battery 34 as a power storage means and a power supply circuit 33c for supplying power of the battery 34 to a lamp in the battery device 3 shown in FIG. A substrate 11 is provided in one unit storage unit 10. In this embodiment, the unit storage unit 10 is accommodated in the battery storage unit 33, whereby the voltage of the battery 34 is converted into the rated voltage of the lamp and supplied to the lamp. This unit storage part 10 also has a function as a guiding means.

  With this configuration, in this embodiment, the circuit board as the power supply means is made into a unit configuration in an unclean area together with the battery, and is loaded into the battery device after autoclave sterilization, so that autoclave sterilization can be avoided. Thus, it is possible to prevent the circuit board from being damaged due to autoclave sterilization.

  Moreover, although the case where the battery apparatus concerning this invention was used for the endoscope apparatus was demonstrated in embodiment mentioned above, this invention is not limited to this, For example, an electric knife, an ultrasonic surgical instrument, a thermal knife, a drill It can also be used as a power source for surgical instruments or inspection instruments and observation instruments that require sterilization, such as shavers, staplers, oral mirrors, ultrasonic observation apparatuses, and capsule endoscopes. It can also be used as a power source for implantable devices that require sterilization, such as artificial organs and pacemakers. It can also be used as a power source for equipment used in the clean area of operating rooms such as monitors and laser pointers used for observation. Furthermore, it is used not only for medical equipment but also for industrial endoscopes and space stations used for observing high-temperature and low-temperature and high-humidity tanks and piping at fire sites and plants. It can also be used as a power source for equipment used in harsh space environments (for example, work manipulators and autonomously moving robots). These endoscope apparatuses, medical instruments, etc. constitute a part of the battery device according to the present invention.

It is a perspective view which shows an example of a structure of the portable endoscope apparatus using the battery apparatus concerning this invention. It is a figure for demonstrating the external appearance of the connection part of the operation part and battery apparatus which were shown in FIG. It is a perspective view which shows the whole structure of Embodiment 1 of the battery accommodating apparatus containing the battery apparatus shown in FIG. Similarly, it is a perspective view which shows the whole structure of Embodiment 2 of a battery accommodating apparatus. It is sectional drawing which shows the BB cross section of FIG. It is a figure for demonstrating the slide mechanism part shown in FIG. It is a perspective view which shows the structure of Embodiment 3 of the battery accommodating apparatus shown in FIG. It is sectional drawing which shows CC cross section of FIG. It is a perspective view which shows the structure of Embodiment 4 of the battery accommodating apparatus shown in FIG. It is sectional drawing which shows the DD cross section of FIG. It is sectional drawing which shows the cross section of Embodiment 5 of the battery accommodating apparatus shown in FIG. It is a block diagram which shows the structure of Embodiment 6 of the battery accommodating apparatus shown in FIG. It is a figure which shows the battery holding tool shown in FIG. It is a figure which shows the structure which accommodated the battery and the circuit board as one unit in the unit accommodating part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Endoscope apparatus 2 Endoscope 3 Battery apparatus 6 Battery guide part 7 Storage case 8 Slide mechanism part 9 Battery holding tool 10 Unit storage part 11 Circuit board 21 Eyepiece part 22 Operation part 22a Light guide base 22b Bending operation lever 22c Suction button 22d Suction cap 22e Grasping portion 22f Forceps insertion port 22g Forceps plug 22h Ventilation cap 22i Male screw portion 22j Connection tube 23 Insertion portion 23a Tip portion 23b Bending portion 23c Flexible tube 23d Illuminating window 31 Connection portion 31a Connection ring 31b Female screw Portion 31c Screw cover 31d Connection base 31e Watertight ring 32 Lamp housing portion 32a Housing portion main body 32b Watertight ring 32c Lamp contact spring portion 33 Battery housing portion 33c Power supply circuit 33e Inner surface 33f Upper end portion 33g Groove 33h Protruding portion 33i Fitting member 35 Cover 35a Conductive plate 35b Fixed claw portion 35c Opening portion 35d Hinge 35e Anti-slip member 36 Lock mechanism portion 36a Lock claw portion 36b Release lever 37 Rotating lever 38 Pinion 39 Mounting plate 39a, 39a Bending member 39b Connecting member 39c Locking member 39d Hinge 40 Auxiliary plate 40a, 40a Curved portion 41 Long hole 42 Slide rod 43 Battery insertion / removal means 50 Lamp 50a Base electrode 61, 62 Guide rail 63 Lower surface 63a, 93 Pin 64, 65 Battery insertion opening 71, 72 Battery accommodation hole 73 Long groove 74 Rack 75 Connection terminal 91 Handle part 92 Jaw part

Claims (11)

A battery device having an accommodating portion for accommodating the battery means, and a function executing means that is operated by a power source supplied from the battery means;
Guiding means for guiding the battery means to the housing portion;
And the battery means is guided into the accommodating portion by the guiding means when the battery means is loaded. The battery accommodating device is:
An engaging means for engaging the battery device and the guiding means;
The battery device and the guiding means are engaged by the engaging means when the battery means is loaded, and the battery means is guided into the accommodating portion via the guiding means. Item 2. The battery accommodating device according to Item 1. The engaging means includes
A pin portion provided on the battery means or the guiding means;
A groove portion provided in the guide means or the battery device and engaged with the pin portion;
The battery accommodating device according to claim 2, further comprising:   The guiding means includes a sliding portion that slides in the housing portion, and the sliding portion projects outside the housing portion when the battery means is filled, and the battery means is accommodated after the battery means is inserted. The battery accommodating device according to claim 1, wherein the battery accommodating device is guided into the unit.   2. The battery accommodating device according to claim 1, wherein the guiding unit has a grip portion that can grip the battery unit, and includes a lid that fits into the battery device and seals the housing portion. .   The battery accommodating device according to claim 1, wherein the guiding unit includes a gripping tool capable of gripping the battery unit. The guiding means includes
A sliding portion provided so as to be able to place the battery means while sliding in the housing portion;
A sliding body that controls sliding of the sliding portion and that fits into the battery device and seals the housing portion;
The battery accommodating device according to claim 1, comprising: The guiding means includes
A mounting portion provided in the battery device so that the battery means can be mounted;
The battery unit on the placement unit moves in a manner that can be guided to the housing unit, and a lid that fits into the battery device and seals the housing unit;
Holding means provided in the battery device for holding the lid movably;
The battery accommodating device according to claim 1, comprising: The battery means includes
An electric storage means for storing electric power,
The battery accommodating device according to claim 1, comprising at least. The battery means includes
Power supply means for supplying power from the power storage means,
The battery accommodating device according to claim 9, further comprising: A battery device comprising: a housing portion that houses battery means; and function execution means that is operated by a power source supplied from the battery means;
Guiding means for guiding the battery means to the housing portion;
A battery housing device having
An endoscope operation unit to which the battery accommodating device is detachably attached;
An endoscope apparatus, wherein the battery means is guided to the housing portion by the guiding means when the battery means is loaded.

Images