JP4687128B2 - Dry cell storage device and electronic device equipped with the dry cell storage device - Google Patents

Description

The present invention relates to a dry cell storage device capable of selectively storing a plurality of dry batteries of different sizes. More specifically, the present invention facilitates the mounting of a dry cell, secures the dry cell and secures the dry cell storage space. The present invention relates to a structure that enables downsizing.
Moreover, this invention relates to the electronic device provided with the said dry cell storage apparatus.

  In recent years, some dry cell storage devices used in electronic devices such as fire fighting / disaster prevention radios, door-to-door receivers, small radio receivers, and the like can be attached to any of a plurality of types of dry cells.

  This type of conventional dry cell storage device has a configuration in which a case main body, a rotating terminal plate, and a pressing plate are provided (see, for example, Patent Document 1).

  As shown in FIG. 1 of Patent Document 1, the case main body includes a battery seat and an adjustment column on the bottom surface of the case main body, and stores three types of dry batteries from single-type batteries to AA batteries. It is the composition to do.

  The rotating terminal plate is provided on the bottom surface of the case body in order to fix the AA dry batteries or AA dry batteries from the electrode axis direction.

  And the said holding | suppressing board becomes a structure which provided the hole corresponding to the said adjustment support | pillar in order to fix any one of a single form dry cell to an AA dry battery from the side surface.

  As described above, a plurality of types of dry batteries can be used in a single dry battery storage device by attaching the dry batteries to the case body and appropriately operating the rotary terminal plate and the pressing plate.

  In addition, other conventional dry cell storage devices have a configuration in which a case main body, a slide member, a battery mounting member, and a terminal holding member are provided (see, for example, Patent Document 2).

  In this dry cell storage device, as shown in FIG. 3 of Patent Document 2, the case main body has a guide groove on its side surface, and is configured to store three types of dry cells from single-type dry cells to AA dry cells. ing.

  The slide member includes a cam groove on a side surface thereof, and is configured to move the battery mounting member and the terminal holding member in cooperation with each other, and a protrusion is provided on each of the battery mounting member and the terminal holding member. And is engaged through the guide groove from the cam groove.

  And the said battery mounting member becomes a structure which fixes any of an AA dry battery from a single form dry battery from the side surface.

  Furthermore, the terminal holding member has a structure for fixing any one of a single dry battery to an AA dry battery from the electrode axis direction.

  In this manner, by attaching the dry battery to the case body and moving the slide member, the battery mounting member and the terminal holding member move in cooperation, and the size (diameter, length) of the attached dry battery is adjusted. A corresponding space is formed in the case body.

Japanese Patent Laid-Open No. 11-219690 (page 3, FIG. 1) JP 57-25668 (pages 2 to 3 and FIG. 3)

  According to the dry cell storage device according to Patent Document 1, it is necessary to operate the two members of the rotary terminal plate and the pressing plate to form a dry cell storage space, and it takes time for an unfamiliar person to perform the mounting work. There was a problem.

  In addition, it may be possible to facilitate the mounting work by pressing the rotating terminal plate and the holding plate against the dry battery with an elastic member or the like. Cannot be secured.

  Therefore, it has been desired that the battery can be securely fixed without taking time and labor for mounting the battery.

  Further, according to the dry cell storage device according to the cited document 2, since the dry cell storage space can be formed by moving one slide member provided with a knob, it does not take time to install the dry cell. In addition, the case main body becomes large, and accordingly, the electronic device itself using the dry cell storage device becomes large.

  This is because the slide member is a mechanism for moving the slide member in the direction of the electrode axis of the single battery, so that the space occupied by the case body is about twice that of the single battery.

  Furthermore, the slide member requires a multi-member cooperation mechanism of the battery mounting member and the terminal holding member, which is complicated in structure.

  Accordingly, it has been desired to simplify the structure of the dry cell storage device so that the dry cell storage space does not increase and the electronic device has excellent portability.

  In view of the above-described problems, the present invention provides a dry cell storage device capable of selectively storing a plurality of dry batteries of different sizes, facilitating the mounting of the dry cell, reliable fixing of the dry cell, and downsizing of the dry cell storage space. It is an object of the present invention to provide a structure that enables the electronic device including the dry battery storage device.

In order to solve the above-mentioned problems, the invention described in claim 1 is directed to a dry battery storage case provided with an opening through which a dry battery is inserted and removed. In a dry cell storage device comprising a battery cover that covers the opening, and a dry cell storage case and a partition member that forms a dry cell storage space together with the battery cover, the partition member is at least when the dry cell is stored, A first surface member opposed to the electrode surface of the dry cell and a second surface member abutting on the side surface of the dry cell, the second surface member engaging the partition member with the dry cell storage case. comprising a coupling portion, the battery storage case is provided with a guide portion comprising a guide hole or guide groove formed respectively on the two opposing surfaces, the guide hole or the guide of the guide portion Grooves, a first moving unit that the engagement portion formed in a direction parallel to the electrode surface of the batteries for moving engage and are connected to the first moving portion, the electrode surface of the batteries A plurality of second moving parts formed in a vertical direction, and the engaging member moves from the first moving part to any one of the second moving parts, thereby the partition member Is moved in a direction perpendicular to a direction parallel to the electrode surface of the dry cell, and the dry cell storage space corresponding to a plurality of different sized dry cells can be formed.

  According to a second aspect of the present invention, in the first aspect of the invention, the plurality of second moving portions correspond to the diameters of the respective dry batteries when the plurality of different sized dry batteries are stored in the dry battery storage case. And it has the structure characterized by being provided continuously from the position of said 1st moving part.

According to a third aspect of the present invention, in the first or second aspect of the present invention, the lengths of the plurality of guide holes or the guide grooves constituting the second moving part are the plurality of different sizes accommodated. The length of the battery corresponds to the length of the dry battery.

The invention according to claim 4 is the invention according to any one of claims 1 to 3 , wherein the dry cell storage device is provided in an electronic device.

  According to the first aspect of the present invention, in the dry cell storage device capable of selectively storing a plurality of dry batteries of different sizes, the first moving unit and the plurality of the plurality of dry cell storage cases as the guide unit. Since the second moving portion is provided, the first surface member and the second surface member are provided on the partition member, and the engaging portion is provided on the second surface member, the operation is merely to move the partition member. Thus, the dry battery storage space can be formed, and it is possible to realize a structure that facilitates the mounting of the dry battery, enables reliable fixing of the dry battery, and downsizing of the dry battery storage space.

  According to a second aspect of the present invention, when the plurality of different size batteries are stored in the dry battery storage case, the plurality of second moving parts correspond to the diameters of the respective dry batteries. Since it is continuously provided from the position of the part, it can contribute to the reliable fixation of each dry cell and the miniaturization of the dry cell storage space.

  According to the invention of claim 3, since the length of the plurality of second moving parts is a length corresponding to the length of the plurality of dry batteries of different sizes to be stored, This can contribute to downsizing of the fixed and dry battery storage space.

According to the fourth aspect of the present invention, since the dry cell storage device is provided in an electronic device, the size of the largest dry battery that can store the dry cell storage case can be made slightly larger. This can contribute to miniaturization of the device itself.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail as examples based on the attached drawings. 1A and 1B are views for explaining the external appearance of an electronic apparatus main body using a dry cell storage device according to the present invention. FIG. 1A is a perspective view of a first example, FIG. 1B is a perspective view of a second example, and FIG. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining each structure of Example 1 of a dry cell storage apparatus, (A) is the assembly perspective view seen from the back diagonal, (B) is the assembly perspective view seen from the front diagonal, (C) is the battery lid. FIG. 3D is a perspective view illustrating the configuration of the partition member, FIG. 3E is a side view illustrating the configuration of the guide portion, and FIG. 3 illustrates each of the first embodiment of the dry cell storage device according to the present invention. FIG. 6A is a schematic top perspective view of a state in which a single battery is accommodated, FIG. 5B is a schematic cross-sectional view in the arrow direction of the AA cross section in FIG. ) Is a schematic top perspective view of a state in which a single battery is accommodated, and (D) is a schematic cross-sectional view in the arrow direction of the BB cross section of (C). (E) is a schematic top perspective view of a state in which an AA battery is stored, (F) is a schematic cross-sectional view in the direction of the arrow of the CC section of (E), and FIG. 4 is a guide portion of the dry battery storage device according to the present invention. (A) is a first side view, (B) is a second side view, (C) is a third side view, and (D) is a fourth side view. .

  FIGS. 5A and 5B are diagrams illustrating each configuration of the embodiment 2 of the dry cell storage device according to the present invention. FIG. 5A is an assembled perspective view seen from the rear oblique direction, and FIG. 5B is an assembled perspective view seen from the front oblique direction. C) is a perspective view for explaining the structure of the battery lid, (D) is a perspective view for explaining the structure of the partition member, (E) is a side view for explaining the structure of the guide part, and FIG. 6 is a dry battery storage device according to the present invention. FIGS. 7A and 7B are diagrams illustrating a state in which an AAA battery is housed in Example 2 of FIG. 7A. FIG. 7A is a schematic top perspective view, FIG. 7B is a schematic cross-sectional view in the arrow direction of the AA cross section in FIG. FIG. 8 is an exploded perspective view for explaining each configuration of the embodiment 3 of the dry cell storage device according to the present invention, FIG. 8 is a side view for explaining the configuration of the guide portion of the embodiment 3 of the dry cell storage device according to the present invention, and FIG. It is a figure explaining the state which accommodated each dry battery in Example 3 of a dry cell storage apparatus, (A) is single form dry. (B) is a schematic cross-sectional view in the arrow direction of the AA cross section of (A), (C) is a schematic top perspective view of a state in which the AA batteries are stored, (D) is a schematic cross-sectional view in the arrow direction of the BB cross section of (C), (E) is a schematic top perspective view of a state in which an AA dry battery is accommodated, and (F) is a cross-sectional view of the CC cross section of (E) It is a schematic sectional drawing of the arrow direction.

  The dry cell storage device according to the present invention forms a dry cell storage space by combining a dry cell storage case provided with an opening for inserting and removing a dry cell, a battery lid covering the opening, the dry cell storage case and the battery lid. In the dry cell storage device including the partition member, the partition member includes at least a first surface member that faces the electrode surface of the dry battery and a second surface member that contacts the side surface of the dry battery when the dry cell is stored. The second surface member includes an engaging portion for engaging the partition member with the dry cell storage case, the dry cell storage case includes a guide portion on two opposing surfaces, and the guide portion is the engagement member. A first moving part provided in a direction parallel to the electrode surface of the dry cell for engaging and moving the joint, and connected to the first moving unit and perpendicular to the electrode surface of the dry cell A plurality of second moving parts provided in a direction, and the engaging part moves to any one of the second moving parts via the first moving part to move the partition member, The dry battery storage space corresponding to a plurality of dry batteries of different sizes can be formed.

  The dry battery storage device according to the present invention, for example, is provided in the electronic device main body, and selectively stores any two of three types of single-type dry batteries, single-size dry batteries, and single-size dry batteries having different diameters and lengths. Is configured to do.

  The diameter and the length of each of the single battery, the single battery, and the single three battery are R1 and L1 respectively, and the diameter of the single battery is L1. Is R2, length is L2, the diameter of the AA battery is R3, and the length is L3, the relation of R1> R2> R3, L1> L2, L1> L3 is satisfied under the condition of L2≈L3. .

  First, as shown in FIGS. 1A and 1B, the electronic device main body 1 is, for example, a main body of a door-to-door receiver installed in each home in a municipal disaster prevention radio system, and includes a front case 1a and a back case 1b. It is configured in a box shape that is combined.

  The electronic device main body 1 shown in FIG. 1 (A) has a dry cell storage device 2 attached to the lower portions of the side surfaces of the front case 1a and the back case 1b, and the electronic device main body 1 shown in FIG. The dry cell storage device 2 is attached to the lower right of the surface of the back case 1b. The dry cell storage device 2 is configured to be attached to the front case 1a and the rear case 1b in a cartridge manner by screw tightening or engaging means, although not shown.

  When the dry cell storage device 2 is disassembled into components, as shown in FIGS. 2A to 2D, the dry cell storage device 2 is provided with an open portion 4d for taking in and out the dry cells. A case 4, a battery lid 3 that covers the opening 4 d, and a partition member 5 that together with the dry battery storage case 4 and the battery lid 3 form a dry battery storage space 4 g. The battery lid 3 is provided with a first connection terminal 3d at a position facing one electrode surface (not shown) of the dry battery when the dry battery is stored.

  The dry cell storage case 4 is formed in a box shape that can selectively store any one of the single type dry cell, the single AA type dry cell, and the AA type dry cell two by two. 4f is provided with a guide portion 4a for engaging and moving the partition member 5.

  2 (A) and 2 (B), the single unit in the dry cell storage case 4 so as to form the dry cell storage space 4g together with the dry cell storage case 4 and the battery lid 3. The partition member 5 is arranged in a state where two battery cells are accommodated.

  The opening 4d is formed on the upper surface of the dry cell storage case 4 so that two single batteries can be taken in and out, and the battery lid 3 is fixed to the center of the front end of the opening 4d. The fixing part 4c in which the screw hole for doing is formed is provided.

  The battery cover 3 is used in common for the single battery, the AA battery, and the AA battery, and is used to store the single battery, the AA battery, and the AA battery when the battery is stored. The first connection terminal 3d facing one of the electrode surfaces, that is, the surface with the + electrode or the-electrode is provided in front of the back surface, and the single dry battery is accommodated at both ends of the battery cover 3 at the back of the back surface. When it does, the projection part 3c contact | abutted with the said partition member 5 is provided.

  Further, an insertion portion 3a for inserting a screw for covering and fixing the opening 4d of the dry cell storage case 4 is provided at the center of the front end of the battery lid 3, and the battery lid is tightened by a fixing screw 3b. 3 is fixed to the dry cell storage case 4.

  The partition member 5 faces at least the other electrode surface of the single dry cell, the single-type dry cell, or the single AA-type dry cell, that is, the surface with the + electrode or the-electrode when the dry cell is stored. It comprises a first surface member 5f and a second surface member 5g that comes into contact with any side surface of the single dry battery, the single AA dry battery, or the AA dry battery. Is provided with a second connection terminal 5b, and the second surface member 5g is provided with an engaging portion 5a for engaging with the guide portion 4a.

  The second connection terminal 5b is provided on the upper surface of the first surface member 5f, for example, and is a connection terminal corresponding to the single battery, the single battery, and the single battery. ing. Further, the engaging portion 5a is provided, for example, on the left and right end surfaces of the second surface member 5g, and is formed at two locations so as to protrude from the left and right end surfaces of the second surface member 5g. ing.

  Furthermore, in addition to the engaging portion 5a, the second surface member 5g includes a positioning portion 5e that contacts the battery lid 3 on the upper end surface of the second surface member 5g, and a central surface of the second surface member 5g. And a pressing part 5d for pressing any one side of the single battery, the single battery, or the AA battery, and the positioning part 5e is the second surface member of the engaging part 5a. It is formed so as to protrude upward from the left and right upper end surfaces of 5 g.

  For example, the partition member 5 integrally forms the first surface member 5f and the second surface member 5g, and the engaging portion 5a and the pressing portion 5d provided on the second surface member 5g. The positioning portion 5e is integrally formed, and the second connection terminal 5b provided on the first surface member 5f is fixed thereto.

  The pressing portion 5d is configured to hold the second surface so as to press the side surfaces of the single dry cell, single AA dry cell, and single AA dry cell toward the corner of the dry cell storage case 4 when the dry cell is stored. The member 5g is formed in a convex shape having a curved surface on the central surface.

  The second connection terminal 5b is made of a metal material, and is provided on the first surface member 5f at the lower part of both end surfaces of the pressing portion 5d formed in a convex shape. Projections having conductivity corresponding to the respective electrodes of the two-type dry battery and the AA dry battery are formed, and as shown in FIG. 2A, the rear end of the second connection terminal 5b Are connected to the electronic circuit board in the electronic device main body 1 by a connection cable (not shown).

  The partition member 5 is provided with a knob 5c for moving the guide part 4a at the upper part of the pressing part 5d, and the knob 5c is formed integrally with the pressing part 5d.

  The partition member 5 configured as described above is one of the single battery, the single battery, and the single three battery by moving the engaging portion 5a along the guide portion 4a. The dry cell storage space 4g is formed so as to correspond to the diameter and length of the battery.

  The guide portion 4a faces the electrode surface of the dry cell and is parallel to the electrode surface of the dry cell for engaging and moving the engaging portion 5a of the partition member 5 that contacts the side surface of the dry cell. A first moving part 4ad provided in a direction and a plurality of second moving parts 4aa, 4ab, 4ac connected to the first moving part 4ad and provided in a direction perpendicular to the electrode surface of the dry battery.

  The plurality of second moving parts 4aa, 4ab, and 4ac correspond to the positions of the first moving parts 4ad corresponding to the diameters of the respective dry batteries when the dry battery storage cases 4 contain the plurality of dry batteries of different sizes. Further, the plurality of second moving portions 4aa, 4ab, and 4ac have lengths corresponding to the lengths of the plurality of dry batteries that are accommodated.

  For example, as shown in FIG. 2 (E), the guide portion 4a includes a guide hole connecting the first moving portion 4ad and one end of the second moving portions 4aa, 4ab, 4ac, and The second moving part 4aa for a single dry battery is positioned at a position corresponding to the diameter and length of the single battery, and the second moving part 4ab for a single battery is set at a position corresponding to the diameter and length of the single battery. Are respectively formed at positions corresponding to the diameter and length of the AA batteries.

  Further, the guide portion 4a is formed at two locations in the vertical direction so as to correspond to the engagement portion 5a.

  As shown in FIG. 2B, a terminal insertion hole 4b for allowing the front end of the second connection terminal 5b of the partition member 5 to pass through is formed in the front surface of the dry cell storage case 4. .

  According to each configuration of the dry cell storage device 2 of the present invention described above, the partition member 5 mounted in the dry cell storage case 4 via the guide portion 4a, that is, the partition member 5 is configured as described above. The engaging part 5a is connected to the second moving part 4aa for the single battery, the second moving part 4ab for the AA battery, and the AA battery via the first moving part 4ad of the guide part 4a. By moving to any one of the second moving parts 4ac, the partition member 5 is moved to correspond to a plurality of different sizes of the single battery, the single battery, and the single battery. The dry cell storage space 4g can be formed.

  Next, in the dry cell storage case 4 of the dry cell storage device 2 according to the present invention described above, any one of the single dry cell, single AA dry cell, or single AA dry cell is stored in two Will be described with reference to FIGS. 3 (A) to 3 (F).

  As shown in FIGS. 3 (A) and 3 (B), when storing the single battery, the fixing screw 3b is loosened and the battery cover 3 is removed, and then the engagement of the partition member 5 is performed. The joint portion 5a is moved to the second moving portion 4aa for the single dry battery through the first moving portion 4ad of the guide portion 4a of the dry cell storage case 4 using the knob 5c.

  By the movement of the partition member 5, the dry cell storage space 4g (shaded portion) corresponding to the diameter and length of the single battery is formed in the dry cell storage case 4.

  Two single-type dry batteries are mounted from the opening 4d of the dry battery storage case 4, and the battery cover 3 is fastened with the fixing screw 3b to be fixed to the dry battery storage case 4.

  Thus, the state in which the single battery is stored in the dry battery storage case 4 is that the curved surface of the pressing portion 5d provided on the second surface member 5g of the partition member 5 and the dry battery storage case 4 are. The inner surface of each of the corners of the battery and the side surface of the single battery are brought into contact with each other, and the second connection terminal 5b of the partition member 5 and the first connection terminal 3d of the battery lid 3 are connected to the single battery. It will be in the state where the electrode of a form dry battery is connected, respectively.

  Further, since the protrusion 3c of the battery cover 3 and the positioning portion 5e of the partition member 5 come into contact with each other, the guide portion 4a and the partition member 5 are firmly fixed in the left, right, up and down directions. It becomes a state.

  Further, as shown in FIGS. 3C and 3D, when storing the AA battery, the fixing screw 3b is loosened and the battery cover 3 is removed, and then the partition member 5 is removed. Using the knob 5c, the engaging part 5a is moved to the single moving battery second moving part 4ab via the first moving part 4ad of the guide part 4a of the dry battery storage case 4.

  By the movement of the partition member 5, the dry cell storage space 4g (shaded portion) corresponding to the diameter and length of the AA dry cell is formed in the dry cell storage case 4.

  Two AA batteries are mounted from the opening 4d of the dry battery storage case 4, and the battery cover 3 is fastened by the fixing screw 3b to be fixed to the dry battery storage case 4.

  Thus, the state in which the AA batteries are stored in the dry battery storage case 4 is that the curved surface of the pressing portion 5d provided on the second surface member 5g of the partition member 5 and the dry battery storage case 4 are. Each of the inner surfaces continuous to the corners of the battery and the side surface of the AA dry battery are in contact with each other, and the second connection terminal 5b of the partition member 5 and the first connection terminal 3d of the battery lid 3 are connected to the single battery. It will be in the state where the electrode of a form dry battery is connected, respectively.

  Furthermore, since the back surface of the battery lid 3 and the positioning portion 5e of the partition member 5 are in contact with each other, the guide portion 4a and the partition member 5 are firmly fixed in the left, right, upper and lower directions. Become.

  Further, as shown in FIGS. 3E and 3F, when storing the AA battery, the fixing screw 3b is loosened and the battery cover 3 is removed, and then the partition member 5 is removed. The engaging part 5a is moved to the second moving part 4ac for AA batteries using the knob 5c via the first moving part 4ad of the guide part 4a of the dry cell storage case 4.

  By the movement of the partition member 5, the dry cell storage space 4g (shaded portion) corresponding to the diameter and length of the AA dry cell is formed in the dry cell storage case 4.

  Two AA batteries are mounted from the opening 4d of the dry battery storage case 4, and the battery cover 3 is fastened by the fixing screw 3b to be fixed to the dry battery storage case 4.

  As described above, the state in which the AA dry batteries are stored in the dry battery storage case 4 is that the curved surface of the pressing portion 5d provided on the second surface member 5g of the partition member 5 and the dry battery storage case 4 are. Each of the inner surfaces continuous to the corners of the AA battery and the side surface of the AA battery are in contact with each other, and the second connection terminal 5b of the partition member 5 and the first connection terminal 3d of the battery lid 3 are in contact with the AA. It will be in the state where the electrode of a form dry battery is connected, respectively.

  Furthermore, since the back surface of the battery lid 3 and the positioning portion 5e of the partition member 5 are in contact with each other, the guide portion 4a and the partition member 5 are firmly fixed in the left, right, upper and lower directions. Become.

  When the AA batteries are stored, the front end of the second connection terminal 5b of the partition member 5 protrudes from the terminal insertion hole 4b of the dry battery storage case 4 to the outside.

  As described so far, according to the dry cell storage device 2 of the present invention, the dry cell storage device that can selectively store the single dry cell, the single type 2 dry cell, and the single 3 type dry cell. 2, the dry cell storage case 4 is provided with the first moving part 4ad and the second moving parts 4aa, 4ab, 4ac as the guide part 4a, and the partition member 5 has the first surface member 5f and the second moving part 4f. Since the surface member 5g is provided and the engaging portion 5a is provided on the second surface member 5f, the dry cell storage space 4g can be formed by simply moving the partition member 5, and the dry cell can be mounted. This makes it possible to realize a structure that facilitates the secure fixing of the dry battery and the miniaturization of the dry battery storage space.

  The guide portion 4 a is provided at two upper and lower positions on the two surfaces 4 e and 4 f facing the dry cell storage case 4, and the engagement portion 5 a is provided at two upper and lower positions on the second surface member 5 g of the partition member 5. Therefore, the partition member 5 and the dry battery storage case 4 can be held in a more stable state, and the dry battery can be more reliably fixed.

  Further, since the pressing portion 5d is formed in a convex shape so as to press the dry battery against the corner of the dry battery storage case 4, it is possible to realize more reliable fixing of the dry battery.

  Furthermore, since the dry cell storage device 2 is provided in the electronic device main body 1, the size can be made slightly larger than the largest single dry cell that can store the dry cell storage case 4. This can contribute to downsizing of the electronic device main body 1.

  In the first embodiment described above, the dry battery storage case 4 that stores two of each of the three types of the single battery, the single battery, and the AA battery is provided. However, the present invention is not limited to this, and any battery storage case that selectively stores a plurality of sizes of batteries can be used. Any one of three types of AA, AA, and AAA batteries can be used. A battery storage case for storing books one by one may be used, and in this case, each configuration of the guide part and the partition member of the battery storage case corresponds to three types of AA batteries, AA batteries, and AAA batteries. It is realizable by forming in.

  Moreover, you may make it accommodate any one of three types, the said single form dry cell, the said single type dry battery, and the said single 3 form dry battery, in this case, in this case, the 1st connection terminal of a battery cover, Each configuration of the guide part and partition member of the dry cell storage case is formed so as to correspond to one of three types of single battery, single type dry battery, and single size AA battery, and the shape of the holding part is especially designed for each dry battery. This can be realized by using a predetermined shape.

  Furthermore, it may be a dry battery storage case for storing any one of four types of single-type dry batteries, single-size dry batteries, single-size dry batteries, and single-size dry batteries, and will be described in detail in Example 2 described later. .

  In the first embodiment, in order to hold the partition member 5 and the dry cell storage case 4 in a more stable state and realize more secure fixing of the dry cell, the guide portion 4a is attached to the dry cell storage case 4. The two upper and lower surfaces 4e and 4f that are opposed to each other are provided at two locations on the upper and lower sides, and the engaging portion 5a is provided on the second surface member 5g of the partition member 5 at two upper and lower locations. However, the present invention is not limited to this. When the guide part 4a is provided at one place on the two surfaces 4e and 4f facing the dry battery storage case 4, the engagement part 5a is provided at one place on the second surface member 5g of the partition member 5. Is also applicable.

  Furthermore, although the guide hole is formed in the guide portion 4a, the present invention is not limited to this, and the guide groove is closed so that it cannot be seen from the outside of the dry cell storage case 4 like the guide hole. This can also be applied in the case of forming. Moreover, although the said 1st connection terminal 3d was provided in the said battery cover 3, this invention is not limited to this, The said dry battery storage case 4 facing the said 2nd connection terminal 5b of the said partition member 5 is provided. It can also be applied when it is provided on one side.

  Next, a description will be given of an application example of the first embodiment. A light emitter is formed on the periphery of each of the knob portion 5c, the guide portion 4a, and the opening portion 4d by coating, bonding, or the like. Even when the dry battery is replaced in a situation where there is no battery, the dry battery can be mounted smoothly. In addition, the said light-emitting body is comprised by LED etc. which light-emit using the fluorescent member, the light storage member, the button-type small battery which is not shown in figure as a power supply, and should just emit light.

  Next, some examples of formation of the guide part 4a will be described. In FIG. 2 (E), the guide part 4a is provided at two locations in the vertical direction, the first moving part 4ad and the second battery for the single battery. In order to prevent the moving parts 4aa from being connected to each other up and down, a step G (network) is formed on the first moving part 4ad between the second moving part 4aa for the single dry batteries and the second moving part 4ab for the single dry batteries. 4A, the guide portion 6a is a first portion between the single moving battery second moving portion 6aa and the single dry cell second moving portion 6ab. The moving part 6ad is linear, and the second moving part 6aa for single dry batteries is connected vertically.

  Thereby, the shape of the guide portion 6a can be simplified while maintaining the engagement relationship between the engagement portion 5a and the second moving portion 6aa for single battery.

  Further, as shown in FIG. 4 (B), the guide portion 7a has a first moving portion 7ad between the second moving portion 7aa for the single dry battery and the second moving portion 7ab for the single dry battery, as shown in FIG. (E) In addition to the shape as shown in (E), the second moving part 7ab for single batteries is extended upward in parallel, bent at a right angle in the middle and extended downward again, and the second moving for single batteries The first moving part 7ad is provided with a step A (shaded part) so as to be connected to the part 7aa.

  Thereby, compared with the shape as shown in FIG. 2E, the engaging part 5a is moved from the second moving part 7aa for single battery or the second moving part 7ac for AA battery to the single battery. When moving to the second moving part 7ab for use, since it once stops against the side surface B of the step A, it can be easily guided to the second moving part 7ab for single-cell dry batteries.

  Further, as shown in FIG. 4 (C), the guide portion 8a includes a first moving portion 8ad between the second moving portion 8ab for AA batteries and the second moving portion 8ac for AA batteries. In addition to the shape as shown in (E), the second moving part for AA batteries is extended in parallel upward from the second moving part 8ab for AA batteries, bent at a right angle in the middle, and extended downward again. A step C (shaded part) is provided in the first moving part 8ad so as to be connected to the part 8ac.

  Accordingly, compared with the shape as shown in FIG. 2E, the engaging portion 5a is moved from the second moving portion 8aa for a single dry cell or the second moving portion 8ac for an AA dry cell to the single type dry battery. When moving to the second moving part 8ab for use, since it once stops against the side surface D of the step C, it can be easily guided to the second moving part 8ab for single battery.

  Further, as shown in FIG. 4 (D), in addition to the shape as shown in FIG. 2 (E), FIG. 4 (A) and FIG. A hanging part) is provided.

  Accordingly, compared with the shape as shown in FIG. 2E, the engaging portion 5a is moved from the second moving portion 8aa for a single dry cell or the second moving portion 8ac for an AA dry cell to the single type dry battery. When moving to the second moving part 8ab for use, since it once stops against the side surface F of the step E, it is easy to guide to the second moving part 8ab for single battery and the shape thereof can be simplified. can do.

  Therefore, as shown in FIGS. 4B to 4D, the steps A, C, and E are provided in the first moving portions 7ad, 8ad, and 9ad of the guide portions 7a, 8a, and 9a. When the battery is replaced with a dry battery having a different diameter and length from those of the dry batteries that have been mounted so far, it can be smoothly moved to the respective second moving parts.

  Next, a second embodiment of the dry cell storage device according to the present invention will be described with reference to FIGS. The second embodiment is configured to selectively store any two of four types of single-type batteries, single-size batteries, single-size batteries, and single-size batteries having different diameters and lengths. ing.

  The diameter and length of each of the single battery, the single battery, the AA battery, and the single battery are R1 and L1 respectively. When the diameter of the AA battery is R2, the length is L2, the diameter of the AA battery is R3, the length is L3, the diameter of the AAA battery is R4, and the length is L4, L2≈ Under the condition of L3, the relationship is R1> R2> R3> R4, L1> L2> L4, and L1> L3> L4.

  First, the dry cell storage device 10 will be described by disassembling into each component. As shown in FIGS. 5 (A) to 5 (D), the dry cell storage device 10 includes a dry cell having an opening 12d for taking in and out the dry cell. The storage case 12, the battery lid 11 covering the opening 12 d, and the partition member 13 that together with the dry battery storage case 12 and the battery lid 11 form a dry battery storage space 12 g. The battery lid 11 is provided with a first connection terminal 11d at a position facing one electrode surface (not shown) of the dry battery when the dry battery is stored.

  The dry cell storage case 12 is formed in a box shape that can selectively store any one of the single dry cell, the single type dry cell, the single size AA dry cell, and the single size dry cell, Guide portions 12a that engage and move the partition member 13 are provided on the opposing two surfaces 12e and 12f.

  5 (A) and 5 (B), the single battery is placed in the dry cell storage case 12 so as to form the dry cell storage space 12g together with the dry cell storage case and the battery lid. The partition member 13 is arranged in a state where two are stored.

  The opening 12d is formed on the upper surface of the dry cell storage case 12 so that two single batteries can be taken in and out, and the battery lid 11 is fixed to the center of the front end of the opening 12d. The fixing part 12c in which a screw hole is formed is provided.

  The battery cover 11 is used in common for the single battery, the single battery, the AA battery, and the single battery, and when the dry battery is stored, the single battery, the single battery, A first connection terminal 11d facing one electrode surface of the AA dry cell or the AAA dry cell, that is, a surface having a + electrode or a − electrode is provided on the front side of the back surface, and Protrusions 11c that come into contact with the partition member 13 when the single battery, single-size battery, and single-size battery are accommodated are provided at both ends on the rear side of the back surface.

The protrusion 11c has a first protrusion 11ca that comes into contact with the partition member 13 when the single dry battery is stored, and the partition 11 when the single type AA battery and the AA dry battery are stored. It is comprised from the 2nd projection part 11cb contact | abutted with the member 13, and respond | corresponds to the relationship of the length of the said dry cell.

  Furthermore, an insertion portion 11a through which a screw is inserted to cover and fix the opening 12d of the dry cell storage case 12 is provided at the center of the front end of the battery lid 11, and the battery lid is tightened by a fixing screw 11b. 11 is fixed to the dry cell storage case 12.

  The partition member 13 is at least the other electrode surface of the single dry cell, the single type dry cell, the single AA type dry cell, or the single type dry cell when the dry cell is stored, that is, a positive electrode or a negative electrode. A first surface member 13f that faces a certain surface, and a second surface member 13g that abuts on any side surface of the single dry battery, the single type AAA battery, the single AA size battery, or the single size dry battery; The first surface member 13f is provided with a second connection terminal 13b, and the second surface member 13g is provided with an engaging portion 13a for engaging with the guide portion 12a. Yes.

  The second connection terminal 13b is, for example, provided on the upper surface of the first surface member 13f, and is common to the single battery, the single battery, the AA battery, and the single battery. The corresponding connection terminal. Further, the engaging portion 13a is provided, for example, on the left and right end surfaces of the second surface member 13g, and is formed at two locations so as to protrude left and right from the end surfaces extending vertically of the second surface member 13g. ing.

  Furthermore, in addition to the engaging portion 13a, the second surface member 13g includes a positioning portion 13e that contacts the battery lid 3 on the upper end surface of the second surface member 13g, and a central surface of the second surface member 13g. And a pressing part 13d for pressing any one side of the single battery, the single battery, the AA battery, and the AAA battery, and the positioning part 13e is the engaging part 13a. The second surface member 13g is formed so as to protrude upward from the left and right upper end surfaces.

  For example, the partition member 13 integrally forms the first surface member 13f and the second surface member 13g, and the engaging portion 13a and the pressing portion 13d provided on the second surface member 13g. The positioning portion 13e is integrally formed, and the second connection terminal 13b provided on the first surface member 5f is fixed thereto.

  The holding portion 13d presses the side surfaces of the single-type dry cell, the single-type dry cell, the single-size dry cell, and the single-size dry cell toward the corner of the dry-cell storage case 12 when the dry cell is stored. In addition, the second surface member 13g is formed in a convex shape having a curved surface on the central surface.

  The second connection terminal 13b is made of a metal material, and is provided on the first surface member 13f below the both end surfaces of the pressing portion 13d formed in a convex shape. Projections having conductivity corresponding to the respective electrodes of the two-type dry battery, the AA dry battery, and the AAA dry battery are formed. As shown in FIG. 5 (A), the second connection A connection cable (not shown) is connected to the electronic circuit board in the electronic device main body 1 from the rear end of the terminal 13b.

  Further, the partition member 13 is provided with a knob 13c for moving the guide portion 12a at the upper portion of the pressing portion 13d, and the knob 13c is formed integrally with the pressing portion 13d.

  In order to accommodate the single dry batteries or the single dry batteries, the height of the partition member 13 is set lower and the width of the second connection terminal 13b is set wider than in the first embodiment. ing. Further, the convex curved surface of the pressing portion 13d is also deformed.

  The partition member 13 configured in this manner moves the engaging portion 13a along the guide portion 12a, thereby allowing the single dry battery, the single type dry battery, the single size AA dry battery, the single size battery, and the like. The dry cell storage space 12g is formed so as to correspond to any diameter and length of the quadrilateral dry cell.

  The guide portion 12a faces the electrode surface of the dry cell and is parallel to the electrode surface of the dry cell for engaging and moving the engaging portion 13a of the partition member 13 that contacts the side surface of the dry cell. A first moving part 12ae provided in a direction, and a plurality of second moving parts 12aa, 12ab, 12ac, 12ad connected to the first moving part 12ae and provided in a direction perpendicular to the electrode surface of the dry cell. Yes.

  The plurality of second moving parts 12aa, 12ab, 12ac, 12ad correspond to the diameters of the respective dry batteries when the dry batteries of the different sizes are stored in the dry battery storage case 12, respectively. Further, the lengths of the plurality of second moving parts 12aa, 12ab, 12ac, 12ad are lengths corresponding to the lengths of the plurality of dry batteries of different sizes accommodated. ing.

  For example, as shown in FIG. 5 (E), the guide portion 12a includes a guide hole that connects the first moving portion 12ae and one end of the second moving portions 12aa, 12ab, 12ac, 12ad, The second moving part 12aa for a single battery at a position corresponding to the diameter and length of the single battery, and the second moving part for a single battery at a position corresponding to the diameter and length of the single battery. In the same manner, the second moving unit 12ac for the AA dry battery 12ac and the second moving unit 12ad for the AA dry battery are placed at positions corresponding to the diameter and length of the AA dry battery and the AAA dry battery. Each is formed.

  Further, the guide portion 12a is formed at two locations in the vertical direction so as to correspond to the engaging portion 13a.

  As shown in FIG. 5B, a terminal insertion hole 12b for allowing the front end of the second connection terminal 13b of the partition member 13 to pass through is formed in the front surface of the dry cell storage case 12. .

  According to each configuration of the dry cell storage device 10 of the present invention described above, the partition member 13 mounted in the dry cell storage case 12 via the guide portion 12a as in the first embodiment, That is, the engaging portion 13a of the partition member 13 is connected to the second moving portion 12aa for the single dry battery and the second moving portion for the single dry battery through the first moving portion 12ae of the guide portion 12a. 12ab, by moving to any one of the second moving part 12ac for the AA dry batteries and the second moving part 12ad for the AAA dry batteries, the partition member 13 is moved, and the single dry battery, The dry cell storage space 12g corresponding to a plurality of different sizes of the AA battery, the AA battery, and the AAA battery can be formed.

  Next, a state where two single AAA batteries are stored in the dry battery storage case 12 of the dry battery storage device 10 according to the present invention described above is shown in FIGS. 6 (A) and 6 (B). explain. In addition, about the state which accommodated any one of the said single form dry battery, the said single 2 form dry battery, and the said single 3 form dry battery, since it becomes substantially the same as the content demonstrated in the said Example 1, it is a different structure. Will be explained mainly.

  6 (A) and 6 (B), after loosening the fixing screw 11b and removing the battery cover 11, the engaging portion 13a of the partition member 13 is used with the knob 13c. Then, the battery cell storage case 12 is moved to the single mover battery second moving part 12ad via the first moving part 12ae of the guide part 12a.

  By the movement of the partition member 13, the dry cell storage space 12g (shaded portion) corresponding to the diameter and length of the AAA dry cell is formed in the dry cell storage case 12.

  Two AAA batteries are mounted from the opening 12d of the dry battery storage case 12, and the battery cover 11 is fastened to the dry battery storage case 12 with the fixing screw 11b.

  As described above, the state in which the AAA dry batteries are stored in the dry battery storage case 12 is that the curved surface of the pressing portion 13d provided on the second surface member 13g of the partition member 13 and the dry battery storage case 12 are. Each of the inner surfaces continuous to the corners of the battery and the side surface of the AAA dry battery are brought into contact with each other, and the AAA connection is made to the second connection terminal 13b of the partition member 13 and the first connection terminal 11d of the battery lid 11. It will be in the state where the electrode of a form dry battery is connected, respectively.

  Furthermore, since the back surface of the battery lid 11 and the positioning portion 13e of the partition member 13 are in contact with each other, the guide portion 12a and the partition member 13 are firmly fixed in the left, right, upper and lower directions. Become.

  When the AAA dry cell is stored, the front end of the second connection terminal 13b of the partition member 13 protrudes from the terminal insertion hole 12b of the dry cell storage case 12 to the outside.

  Further, when the single dry battery is housed, the first protrusion 11ca which is the protrusion 11c of the battery lid 13 and the positioning part 13e of the partition member 13 come into contact with each other. The guide portion 12a and the partition member 13 are firmly fixed at the left, right, top and bottom.

  Furthermore, when the AA or Batteries are stored, the second protrusion 11cb, which is the protrusion 11c of the battery lid 13, and the positioning part 13e of the partition member 13 come into contact with each other. Thus, the guide portion 12a and the partition member 13 are firmly fixed on the left, right, top and bottom.

  As described above, according to the dry cell storage device 10 according to the present invention, as in the first embodiment, the single dry cell, the single type dry cell, the single AA type dry cell, and the single type dry cell. In the dry cell storage device 10 configured to selectively store dry cells, the dry cell storage case 12 is provided with the first moving unit 12ae and the second moving units 12aa, 12ab, 12ac, 12ad as the guide unit 12a. The partition member 13 is provided with the first surface member 13f and the second surface member 13g, and the second surface member 13g is provided with the engaging portion 13a. Therefore, the partition member 13 can be operated only by moving the partition member 13. The dry battery storage space 12g can be formed, facilitates the mounting of the dry battery, enables reliable fixing of the dry battery and downsizing of the dry battery storage space. It is possible to realize an elephant.

  Similarly to the first embodiment, the guide portion 12a is provided at two upper and lower portions on the two surfaces 12e and 12f facing the dry cell storage case 12, and the engagement portion 13a is the second surface of the partition member 13. Since the upper and lower portions are provided on the member 13g, the partition member 13 and the dry battery storage case 12 can be held in a more stable state, and the battery can be more reliably fixed.

  Further, similarly to the first embodiment, the pressing portion 13d is formed in a convex shape so as to press the dry battery against the corner of the dry battery storage case 12, so that the dry battery can be more securely fixed. it can.

  Further, similarly to the first embodiment, by providing the electronic battery main body 1 with the dry cell storage device 10, it is possible to contribute to the miniaturization of the electronic equipment main body 1.

  Similarly to the first embodiment, the guide portion 12a is provided at one location on the two surfaces 12e and 12f facing the dry cell storage case 12, and the engaging portion 13a is the second surface member of the partition member 13. The present invention can also be applied to a case where one place is provided in 13 g.

  Furthermore, as in the first embodiment, the present invention can also be applied to a case where a guide groove that is closed from the outside of the dry cell storage case 12 like the guide hole is formed. Further, similarly to the first embodiment, the first connection terminal 11 d can be applied to the one surface of the dry cell storage case 12 facing the second connection terminal 13 b of the partition member 13.

  Further, as in the first embodiment, a light emitter is formed on the periphery of each of the knob portion 13c, the guide portion 12a, and the opening portion 12d by coating, bonding, or the like. Even when the dry battery is replaced, the dry battery can be mounted smoothly.

  Next, a third embodiment of the dry cell storage device according to the present invention will be described with reference to FIGS. In the third embodiment, similarly to the first embodiment, any two of three types of single-type dry batteries, single-type dry batteries, and single-size dry batteries having different diameters and lengths are selectively stored. It is configured. In addition, about the structure equivalent to the content demonstrated in the said Example 1, description is abbreviate | omitted as much as possible, and it demonstrates centering around a different structure.

  When the dry cell storage device 14 is disassembled into components, as shown in FIG. 7, the dry cell storage device 14 includes a dry cell storage case 16, an opening 16e, a battery lid 15, a partition member 17, and a guide. Part 16a.

  A fixed portion 16c is provided at the center of the front end of the opening 16e, the battery lid 15 is provided with a first connection terminal 15d and a protrusion 15c, and an insertion portion 15a is provided at the center of the front end of the battery lid 15. The fixing screw 15b is inserted through the insertion portion 15a.

  The partition member 17 is provided with an engaging portion 17a and a positioning portion 17e on both end surfaces, a pressing portion 17d on the center surface, and a second connection terminal 17b on the bottom surface, respectively, and the second connection terminal 17b. Is different from the first embodiment, and is a connection terminal common to the AA dry batteries and the AA dry batteries, and the second connection terminal 17b is provided below the both end surfaces of the pressing portion 17d. In addition, conductive protrusions corresponding to the respective electrodes of the AA dry battery and the AA dry battery are formed. Further, the partition member 17 is provided with a knob 17c above the pressing portion 17d.

  Further, as a configuration different from that of the first embodiment, a conductive third connection terminal 16d serving as a connection terminal of the single battery is provided in the lower part of the front surface of the dry battery storage case 16. Furthermore, it connects with the electronic circuit board in the said electronic device main body 1 with the connection cable which abbreviate | omitted illustration from the front-end part of the said 3rd connection terminal 16d of FIG.

  As shown in FIG. 8, the guide portion 16a is provided with a first moving portion 16ad and a plurality of second moving portions, and each of the second moving portion 16aa for a single dry battery and a single dry battery. The second moving part 16ab for use and the second moving part 16ac for AA dry batteries are configured.

  As shown in FIG. 7, a terminal insertion hole 16 b for allowing the front end of the second connection terminal 17 b of the partition member 17 to pass through is formed in the front surface of the dry cell storage case 16.

  Next, in the dry cell storage case 16 of the dry cell storage device 14 according to the present invention described above, any one of the single dry cell, single AA dry cell, or single AA dry cell is stored two by two Will be explained.

  As shown in FIGS. 9 (A) and 9 (B), when storing the single battery, as in the first embodiment, the fixing screw 15b is loosened and the battery cover 15 is removed. By moving the engaging portion 17a of the partition member 17 to the second moving portion 16aa for the single dry battery via the first moving portion 16ad of the dry cell storing case 16, the dry cell storing case 16 is moved. A dry cell storage space 16h (shaded portion) corresponding to the diameter and length of the single dry cell is formed therein.

  Two single dry batteries are mounted from the opening 16 e of the dry battery storage case 16, and the battery lid 15 is fixed to the dry battery storage case 16.

  Thus, the state in which the single battery is stored in the dry battery storage case 16 is that the curved surface of the pressing portion 17d provided on the second surface member 17g of the partition member 17 and the corner of the dry battery storage case 16 Are connected to the third connection terminal 16d of the dry battery storage case 16 and the first connection terminal 15d of the battery cover 15 respectively. The electrodes of the dry battery are connected to each other.

  Furthermore, since the protrusion 15c of the battery cover 15 and the positioning portion 17e of the partition member 17 are in contact with each other, the partition member 17 is firmly fixed in the left, right, up and down directions.

  Further, as shown in FIGS. 9 (C) and 9 (D), when storing the AA batteries, the battery cover 15 was removed by loosening the fixing screw 15b as in the first embodiment. In the above, the engaging part 17a of the partition member 17 is moved to the second moving part 16ab for single-cell dry batteries via the first moving part 16ad of the dry battery storing case 16 to thereby store the dry battery. In the case 16, the dry cell storage space 16 h (shaded portion) corresponding to the diameter and length of the AA dry cell is formed.

  Two AA batteries are mounted from the opening 16 e of the dry battery storage case 16, and the battery cover 15 is fixed to the dry battery storage case 16.

  As described above, the state in which the AA batteries are stored in the dry battery storage case 16 is the same as that in the first embodiment, and a description thereof will be omitted.

  Further, as shown in FIGS. 9 (E) and 9 (F), when storing the AA batteries, the fixing screw 15b was loosened and the battery cover 15 was removed as in the first embodiment. On the basis of the above, the engaging part 17a of the partition member 17 is moved to the second moving part 16ac for AA dry batteries through the first moving part 16ad of the dry battery storing case 16 to thereby store the dry battery. The battery storage space 16h (shaded portion) corresponding to the diameter and length of the AA battery is formed in the case 16.

  Two AA batteries are mounted from the opening 16 e of the dry battery storage case 16, and the battery cover 15 is fixed to the dry battery storage case 16.

  Thus, since the state in which the AA dry batteries are stored in the dry battery storage case 16 is the same as that in the first embodiment, the description thereof is omitted.

  According to the dry cell storage device 14 according to the present invention described above, the second connection terminal 17b of the AA dry battery, the AA dry battery and the third connection terminal 16d of the single battery are separately provided. When the single battery is stored in the dry battery storage case 16, the electrode of the single battery contacts the second connection terminal 17b or the third connection terminal 16d. The third connection terminal 16d is fixed so as to be positioned above the second connection terminal 17b so as not to contact the second connection terminal 17b and cause a short circuit.

  Therefore, although the volume of the dry cell storage case 16 is slightly larger than that of the first embodiment, the same effect as described in the first embodiment can be obtained. Further, similarly to the first and second embodiments, the first connection terminal 11d is also applied to the one surface of the dry cell storage case 12 facing the second connection terminal 13b of the partition member 13. it can.

  In Examples 1 to 3 described so far, a terminal insertion hole for allowing the front end of the second connection terminal of the partition member to pass through is formed in the front surface of the dry cell storage case. However, the present invention is not limited to this, and the design may be designed with an emphasis on the appearance of the dry cell storage case. In this case, the volume of the dry cell storage case is slightly increased. This can be realized by making the front part of the case a two-layer structure in accordance with the surface of the fixed part.

  In the first to third embodiments described so far, the battery lid is fixed to the dry battery storage case with the fixing screw. However, the present invention is not limited to this, and the dry battery A locking means may be formed on each of the storage case and the battery lid so that the fixing screw is not required, and a rotating means such as a hinge is provided on one side of the dry battery storage case and the battery cover. It is good also as a structure which prevented the loss of the said battery cover by forming.

  Moreover, in the said Example 1 thru | or Example 3 demonstrated so far, it was set as the structure which attaches the said dry cell storage apparatus with respect to the said electronic device main body in the cartridge type, However, This invention is not limited to this, The dry battery storage case of the dry battery storage device may be formed integrally with the electronic device main body.

  Moreover, in the said Example 1 thru | or Example 3 demonstrated so far, it was made to be connected to the electronic circuit board in the said electronic device main body by the said connection cable from said 2nd connection terminal and said 3rd connection terminal. However, on the electronic device main body side, the second connection terminal, the fourth connection terminal is provided at a position corresponding to the third connection terminal, the fifth connection terminal, from the fourth connection terminal, the fifth connection terminal to the above When the dry cell storage device is of a cartridge type, the dry cell storage device can be attached to the electronic device main body with a single touch.

  Further, in the first embodiment described so far, as shown in FIG. 4, some examples of formation of the guide portion in the dry battery storage case have been described, but also in the second embodiment and the third embodiment. Can be applied. In this case, in the second embodiment, in addition to the shape shown in FIG. 4, the first movement between the second moving part 12ac for the AA dry batteries and the second moving part 12ad for the AA dry batteries. The portion 12ae is extended in parallel upward from the second moving part 12ac for AA batteries, bent at a right angle in the middle, extended downward again, and connected to the second moving part 12ad for AAA batteries. Furthermore, it can be adopted by providing a step in the first moving part 12ae, and can be applied as it is in the third embodiment.

  Moreover, in the said Example 1 thru | or Example 3 demonstrated until now, although the said press part was integrally formed in the said 2nd surface member of the said partition member, the said press part and the said partition member are used. You may comprise separately.

  Further, in the first to third embodiments described so far, two dry batteries are mounted from the opening of the dry battery storage case, but the two dry batteries are connected in series or in parallel. Either one may be used, and each of the first connection terminal, the second connection terminal, and the third connection terminal is configured to correspond to the series connection or the parallel connection.

It is a figure explaining the external appearance of the electronic device main body using the dry cell storage apparatus by this invention, (A) is a perspective view of a 1st example, (B) is a perspective view of a 2nd example. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining each structure of Example 1 of the dry battery storage apparatus by this invention, (A) is the assembled perspective view seen from back diagonally, (B) is the assembled perspective view seen from the front diagonal, (C). The perspective view explaining the structure of a battery cover, (D) is a perspective view explaining the structure of a partition member, (E) is a side view explaining the structure of a guide part. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining the state which accommodated each dry battery in Example 1 of the dry cell storage apparatus by this invention, (A) is a schematic upper surface perspective view of the state which accommodated the single form dry battery, (B) is A- of (A). (C) is a schematic top perspective view of a state in which a single battery is accommodated, (D) is a schematic cross-sectional view in the arrow direction of the BB cross-section of (C), (E ) Is a schematic top perspective view of a state in which an AA battery is housed, and FIG. 5F is a schematic cross-sectional view in the arrow direction of the CC section of (E). 4A and 4B are diagrams for explaining another example of the guide portion of the dry cell storage device according to the present invention. FIG. 4A is a first side view, FIG. 4B is a second side view, and FIG. 4C is a third side view. (D) is a fourth side view. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining each structure of Example 2 of the dry cell storage apparatus by this invention, (A) is the assembly perspective view seen from back diagonally, (B) is the assembly perspective view seen from front diagonal, (C) is The perspective view explaining the structure of a battery cover, (D) is a perspective view explaining the structure of a partition member, (E) is a side view explaining the structure of a guide part. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure explaining the state which accommodated the AAA dry cell in Example 2 of the dry cell storage apparatus by this invention, (A) is a schematic top perspective view, (B) is the schematic of the arrow direction of the AA cross section of (A). It is sectional drawing. It is a disassembled perspective view explaining each structure of Example 3 of the dry cell storage apparatus by this invention. It is a side view explaining the structure of the guide part of Example 3 of the dry cell storage apparatus by this invention. FIG. 6 is a diagram for explaining a state in which each dry battery is housed in Embodiment 3 of the dry battery housing device according to the present invention, in which (A) is a schematic top perspective view of a state in which a single battery is housed, and (B) is an A- (C) is a schematic top perspective view of a state in which a single battery is accommodated, (D) is a schematic cross-sectional view in the arrow direction of the BB cross-section of (C), (E ) Is a schematic top perspective view of a state in which an AA battery is housed, and FIG. 5F is a schematic cross-sectional view in the arrow direction of the CC section of (E).

DESCRIPTION OF SYMBOLS 1 Electronic device main body 1a Front case 1b Back case 2 Dry cell storage apparatus 3 Battery cover 3a Insertion part 3b Fixing screw 3c Projection part 3d First connection terminal 4 Dry cell storage case 4a Guide part 4aa Single moving battery second moving part 4ab 2nd moving part 4ac for 2 form dry batteries 2nd moving part 4ad for AA dry batteries 1st moving part G Step (shaded part)
4b Terminal insertion hole 4c Fixed portion 4d Opening portion 4e Surface 4f Surface 4g Dry cell storage space (shaded portion)
5 Partition member 5a Engaging portion 5b Second connection terminal 5c Knob 5d Holding portion 5e Positioning portion 5f First surface member 5g Second surface member 6 Dry cell storage case 6a Guide portion 6aa Single moving battery second moving portion 6ab Single 2nd moving part 6ac for AA batteries 2nd moving part 6ad for AA batteries 1st moving part 6c Fixed part 6e Surface 7 Dry cell storage case 7a Guide part 7aa 2nd moving part 7ab for single batteries Batteries for AA batteries 2nd moving part 7ac 2nd moving part 7ad for AA dry batteries 1st moving part A Level difference (shaded part)
B Side surface 7c Fixed portion 7e Surface 8 Dry cell storage case 8a Guide portion 8aa Single battery dry cell second moving unit 8ab Single battery dry cell second moving unit 8ac AA dry cell second moving unit 8ad First moving unit C Step (shaded area)
D side 8c fixed part 8e surface 9 dry cell storage case 9a guide part 9aa second moving part 9ab for single type dry battery second moving part 9ac for single type dry battery 9ac second moving part 9a for single AA type dry battery first moving part E Step (shaded area)
F Side surface 9c Fixed portion 9e Surface 10 Battery storage device 11 Battery cover 11a Insertion portion 11b Fixing screw 11c Projection portion 11ca First projection portion 11cb Second projection portion 11d First connection terminal 12 Dry cell storage case 12a Guide portion 12aa Single battery Second moving part 12ab second moving part 12ac for single and dry cell batteries second moving part 12ad for AA dry batteries 12ad second moving part for AAA dry batteries 12ae first moving part 12b terminal insertion hole 12c fixing part 12d opening Part 12e Surface 12f Surface 12g Dry cell storage space (shaded part)
13 Partition member 13a Engaging portion 13b Second connection terminal 13c Knob 13d Holding portion 13e Positioning portion 13f First surface member 13g Second surface member 14 Dry cell storage device 15 Battery cover 15a Insertion portion 15b Fixing screw 15c Protrusion portion 15d First connection Terminal 16 Dry cell storage case 16a Guide portion 16aa Single-cell dry cell second moving portion 16ab Single-size dry cell second moving portion 16ac AA-size dry cell second moving portion 16ad First moving portion 16b Terminal insertion hole 16c Fixed Part 16d Third connection terminal 16e Opening part 16f Surface 16g Surface 16h Dry cell storage space (shaded part)
17 Partition member 17a Engagement portion 17b Second connection terminal 17c Knob 17d Holding portion 17e Positioning portion 17f First surface member 17g Second surface member

Claims (4)

A dry battery storage device comprising a dry battery storage case provided with an opening for inserting and removing the dry battery, a battery lid covering the opening, and a partition member forming a dry battery storage space together with the dry battery storage case and the battery cover The partition member comprises at least a first surface member that faces the electrode surface of the dry battery and a second surface member that contacts the side surface of the dry battery when the dry battery is housed. An engaging portion for engaging a partition member with the dry cell storage case;
The dry cell storage case includes guide portions each formed of a guide hole or a guide groove formed on two opposing surfaces, and the guide hole or the guide groove of the guide portion engages and moves the engaging portion. A first moving part formed in a direction parallel to the electrode surface of the dry battery, and a plurality of second moving parts connected to the first moving part and formed in a direction perpendicular to the electrode surface of the dry battery; configuration to become, said engagement by the engagement portion moves any one of the second mobile unit from said first mobile unit, the direction perpendicular directions parallel to the partition member to the electrode surface of the batteries The dry battery storage device is characterized in that the dry battery storage space corresponding to a plurality of dry batteries of different sizes can be formed.   The plurality of second moving parts are continuously provided from the position of the first moving part corresponding to the diameter of each dry battery when the plurality of different sized dry batteries are stored in the dry battery storage case. The dry cell storage device according to claim 1. 2. The length of the plurality of guide holes or the guide grooves constituting the second moving part is a length corresponding to the length of the plurality of dry batteries of different sizes accommodated. Or the dry cell storage apparatus of Claim 2. The electronic device provided with the dry cell storage apparatus of any one of Claims 1 thru | or 3 .

Images