JP2009259666A - Removal structure of button battery, electronic device, and jig for removal of button battery - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology capable of removing a plurality of button batteries easily and promptly from a case body. <P>SOLUTION: A battery cover 21 fitted to a case body 20 functions as a removal jig for taking out a button battery 10 from the case body 20. The battery cover 21 has a case body 20 for housing a plurality of button batteries 10 and a plurality of engaging pawls 211 which are inserted into a gap between the side face of the plurality of button batteries 10, and by utilizing the plurality of engaging pawls, the plurality of button batteries 10 can be taken out simultaneously from the case body 20. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a button battery removal structure, an electronic device including the removal structure, and a button battery removal jig.

  As described in Patent Document 1, a method for removing a battery from an electronic device has been proposed. Patent Document 2 discloses a technique related to a battery storage structure.

JP 2003-31195 A JP-A-9-115496

  A plurality of button batteries may be used depending on an electronic device driven by a battery. When the battery is exchanged for such an electronic device, it is necessary to remove the plurality of button batteries from the case main body, which is troublesome.

  Therefore, the present invention has been made in view of the above points, and an object thereof is to provide a technique capable of easily and immediately removing a plurality of button batteries from a case body.

  In order to solve the above problems, the invention of claim 1 is a button battery detachment structure, a case main body for storing a plurality of button batteries, a side surface of at least two button batteries among the plurality of button batteries, and the A removal jig that has a portion that is inserted into a gap with the case body and that can be used to simultaneously remove the at least two button batteries from the case body.

  The invention of claim 2 is the button battery detaching structure of claim 1, wherein the detaching jig also serves as a battery cover attached to the case body.

  The invention of claim 3 is an electronic device, wherein the button battery removal structure according to claim 1 and the plurality of button batteries housed in the case body are provided. Is provided.

  The invention of claim 4 is a button battery removing jig, which is inserted into a gap between a case main body for storing a plurality of button batteries and a side surface of at least two button batteries among the plurality of button batteries. It is possible to simultaneously remove the at least two button batteries from the case body using the portion.

  The button battery of the present invention includes not only a narrowly defined button battery having a relatively small thickness but also a coin battery having a relatively large thickness.

  According to invention of Claim 1 and Claim 4, the jig | tool for removal has a part inserted in the clearance gap between the case main body and at least 2 button battery of the several button batteries accommodated in it. And at least two button batteries can be simultaneously removed from the case body by using the portion. Therefore, a plurality of button batteries can be easily and immediately removed from the case body.

  According to the invention of claim 2, since the removal jig also serves as the battery cover, it is not necessary to provide the removal jig separately from the battery cover. Therefore, the button battery removal structure according to the present invention can be simplified.

  According to the invention of claim 3, it is possible to easily and immediately replace the battery of an electronic device that operates with a plurality of button batteries.

  FIG. 1 is a perspective view showing an electronic apparatus 1 according to an embodiment of the present invention from the front side. The electronic apparatus 1 according to the present embodiment is a display device used in, for example, a manufacturing factory for articles such as food, and displays work instructions and the like in the manufacture of articles. Electronic device 1 according to the present embodiment can rewrite the display content by communicating with an external device.

  The X-axis direction and the Y-axis direction shown in FIG. 1 indicate directions along the horizontal direction and the vertical direction of the display screen 3a of the electronic device 1, respectively. Further, the direction toward the positive side of the Y axis is a direction approaching the upper side of the display screen 3a of the electronic device 1, and the direction toward the negative side of the Y axis is the lower side of the display screen 3a of the electronic device 1. It is a direction approaching. Hereinafter, the positive side and the negative side of the Y axis are referred to as “+ Y side” and “−Y side”, respectively.

  As shown in FIG. 1, the electronic device 1 according to the present embodiment includes a case 2 and a display 3 accommodated in the case 2. The case 2 has a case body 20 configured by combining a first case body 20a on the front side and a second case body 20b on the back side.

  The display 3 is housed in the case body 20 so that the display screen 3a is exposed from an opening provided in the first case body 20a on the front side. The display 3 is a non-volatile display unit of a dot matrix system, and is composed of, for example, electronic paper. In a non-volatile display unit such as electronic paper, display contents can be held without applying driving power. Since the display 3 is a dot matrix display unit, it can display various information such as characters, symbols, and figures.

  Further, an input device 4 for an operator to input an instruction to the electronic device 1 is provided on the front surface of the electronic device 1. The input device 4 has two operation buttons 4a and 4b arranged along the Y-axis direction. The operator inputs an instruction to the electronic device 1 by operating the operation buttons 4a and 4b.

  Furthermore, the electronic device 1 according to the present embodiment includes a control device and a communication device (not shown). The control device includes a CPU, a memory, and the like, and is provided inside the case body 20. When the operation buttons 4a and 4b are operated, the operation information is input to the control device. The control device rewrites the content of the display screen 3a of the display 3, for example, according to the input operation information. The communication device performs radio communication using, for example, radio waves and is housed in the case body 20. The communication device is controlled by the control device. When the communication device receives data from the outside, the data is input to the control device. The control device rewrites the content of the display screen 3a of the display 3, for example, according to the input data. Further, the data generated by the control device is transmitted to the external device via the communication device.

  A plurality of button batteries 10 to be described later are provided in the case main body 20 of the electronic apparatus 1, and the display 3, the communication device, and the control device are operated by power supplied from these button batteries 10. Can do. In the present embodiment, the plurality of button batteries 10 can be taken out from the case 2, and the electronic apparatus 1 is configured so that the plurality of button batteries 10 can be replaced. Here, the button battery of the present invention includes not only a button battery in a narrow sense having a relatively small and large thickness but also a coin battery having a relatively large and small thickness. The button battery 10 according to the present embodiment is, for example, a lithium coin battery.

  FIG. 2 is a rear view showing the electronic apparatus 1 according to the present embodiment. FIG. 3 is a rear view showing the electronic apparatus 1 with the battery cover 21 shown in FIG. 2 removed from the case body 20. As shown in FIGS. 2 and 3, two protrusions are provided on the back surface of the case body 20, which are provided with two protrusions 200 that protrude slightly outward from the periphery and extend along the X-axis direction. 200 is integrally formed with the second case body 20b on the back side, and is provided at both ends of the back surface of the case body 20 in the Y-axis direction. In each protrusion 200, a plurality of screw holes 200a for attaching the electronic apparatus 1 to a predetermined location are provided so as to open outward. In each protrusion 200, a plurality of screw holes 200a are arranged at predetermined intervals along the X-axis direction.

  In addition, on the back surface of the case body 20, as shown in FIG. 3, an area 201 covered by the battery cover 21 (hereinafter referred to as “cover attachment area 201”) is equal to the thickness of the battery cover 21 rather than the periphery. It is slightly recessed. Therefore, when the battery cover 21 is attached to the second case main body 20b on the back side, it is possible to suppress the occurrence of a step between the battery cover 21 and the periphery thereof.

  In the present embodiment, for example, four button batteries 10 are accommodated in the case body 20. The battery cover 21 includes a cover main body 210 that covers the four button batteries 10 and a lock portion 220 for fixing the battery cover 21 to the case main body 20. A first locking engagement hole 202 into which the lock portion 220 of the battery cover 21 is inserted is provided on the back surface of the case body 20 adjacent to the + Y side end portion in the cover attachment region 201. A second locking engagement hole 205 communicating with the first locking engagement hole 202 is provided on the inner surface of the case body 20 exposed by the first locking engagement hole 202. A protrusion 225 (described later) provided in the lock portion 220 is inserted into the second lock engagement hole 205. The depth direction of the first locking engagement hole 205 is the thickness direction of the case body 20, and the depth direction of the second locking engagement hole 205 is the depth direction of the first locking engagement hole 205. The direction is perpendicular to the depth direction and is along the Y-axis direction.

  Further, on the back surface of the case body 20, the peripheral region 203 of the first locking engagement hole 202 except the cover attachment region 201 is slightly recessed. The lock portion 220 is provided with an operation piece 221 that is operated when the battery cover 21 is removed from the case body 20. When the battery cover 21 is attached to the second case body 20 b, the operation piece 221 is It is located on the peripheral area 203 that is slightly recessed. As a result, the operation piece 221 does not protrude from the surface of the case body 20.

  In the case body 20, four battery storage portions 15 that open toward the cover attachment region 201 and store the four button batteries 10 are provided. These battery storage portions 15 are arranged along the X-axis direction. The button battery 10 has a flat and substantially cylindrical shape, and includes a first main surface 11 and a second main surface 12 (illustrated in FIG. 6 described later) opposite to the first main surface 11. As shown in FIG. 3, the button battery 10 is stored in the battery storage unit 15 such that the first main surface 11 is exposed from the case body 20. In the 2nd main surface 12 of the button battery 10, the part except a peripheral edge part has risen a little, and the said part becomes a minus electrode. And in the button battery 10, the 1st main surface 11, the side surface 13, and the peripheral edge part of the 2nd main surface 12 are plus electrodes. At the end of the cover attachment area 201 on the −Y side, an attachment engagement hole 206 into which an engagement claw 211 described later provided in the battery cover 21 is inserted is provided in the vicinity of each battery storage portion 15. Yes.

  Further, in the case body 20, there are provided four insertion portions 16 that open toward the cover attachment region 201 and into which four projections 214 described later provided on the battery cover 21 are respectively inserted. The four insertion portions 16 have a one-to-one correspondence with the four battery storage portions 15, and each insertion portion 16 is positioned on the + Y side with respect to the corresponding battery storage portion 15. 15 is connected. Due to the presence of the insertion portion 16, a gap is generated between the side surface 13 of the button battery 10 inserted into the battery storage portion 15 and the case body 20.

<Case body and detailed structure inside>
Next, the case main body 20 and its internal structure will be described in detail. 4 and 5 are a perspective view and a plan view, respectively, showing the electronic apparatus 1 in an enlarged manner from the back side. 6 is a view showing a cross section taken along the line AA of the structure shown in FIG. 4 and 5 show the electronic apparatus 1 with the battery cover 21 removed so that the internal structure of the case body 20 can be easily understood. FIG. 4 shows the electronic apparatus 1 in a state where the button battery 10 is not housed. In FIG. 6, the cross-sectional structures of the positive electrode terminal 31 and the button battery 10 should be originally shown. However, these elements are shown as side views so that the positional relationship between the positive electrode terminal 31 and the button battery 10 is clear. Show.

  As shown in FIG. 6, a printed circuit board 30 on which various electronic components constituting a control unit and the like are mounted is disposed in the first case body 20a on the front side. On the printed circuit board 30, a plus electrode terminal 31 that contacts the side surface 13 (plus electrode) of the button battery 10 and a portion 12 a (minus electrode) excluding the peripheral end portion 12 b of the second main surface 12 of the button battery 10 are brought into contact. A negative electrode terminal 32 is mounted. On the second main surface 12 of the button battery 10, the portion 12a excluding the peripheral end portion 12b is slightly raised from the peripheral end portion 12b, and a step is generated at the boundary between the portion 12a and the peripheral end portion 12b.

  A substantially circular opening 28 is formed on the back surface of the case body 20 by the battery housing portion 15 opening toward the back surface. When viewed from the back side of the case main body 20, the negative electrode terminal 32 is located substantially at the center of the opening 28, and the positive electrode terminal 31 is formed between the opening 28 adjacent to each other in the Y-axis direction and the mounting engagement hole 206. Located between. A partition wall 35 that extends perpendicularly to the printed circuit board 30 from the periphery of the opening 28 is formed integrally with the second case body 20 b on the back side. The partition wall 35 is formed along the periphery of the opening 28 as shown in FIG. 5 when viewed from the back side of the case body 20. The partition wall 35 is configured by partition walls 350 and 351 arranged to face each other in the X-axis direction with the negative electrode terminal 32 interposed therebetween in plan view. The partition wall 350 extends along one half of the periphery of the opening 28 in plan view, and the partition wall 351 extends along the other half of the periphery of the opening 28 in plan view. Yes.

  Further, an opening 29 is formed on the back surface of the case body 20 by the insertion portion 16 opening toward the back surface. The opening 29 is connected to the opening 28 adjacent to the opening 29 in the Y-axis direction, and the periphery of the opening 29 is an arc projecting from the periphery of the opening 28 to the + Y side. A partition wall 36 that extends from the periphery of the opening 29 toward the printed circuit board 30 is integrally formed with the second case body 20 b on the back side. The partition wall 36 is formed along the periphery of the opening 29 when viewed from the back side of the case body 20, and is connected to the partition wall 35 along the periphery of the opening 28 connected to the opening 29. Thereby, the battery accommodating part 15 and the insertion part 16 connected to it are enclosed by the partition walls 35 and 36. The partition wall 35 defines the periphery of the battery storage unit 15, and the partition wall 36 defines the periphery of the insertion unit 16.

  The side wall 360 on the insertion portion 16 side of the partition wall 36 includes three curved surfaces 361 to 363 on the entrance side of the insertion portion 16, and three vertical surfaces 364 to the back side of the insertion portion 16 that are perpendicular to the printed circuit board 30. 366. The vertical surfaces 364 to 366 are arranged in a U shape in plan view. The vertical surface 364 extends toward the + Y side from the side surface of the partition wall 350 on the battery storage unit 15 side, the vertical surface 365 extends along the X-axis direction from the tip, and the vertical surface 366 extends from the tip toward the −Y side. The tip of the partition wall 351 is connected to the side surface of the battery storage unit 15 side.

  The vertical surfaces 364 to 366 are located inside the arc 290 formed by the peripheral edge of the opening 29 in plan view. The vertical surface 365 extends vertically from the bottom of the insertion portion 16 toward the entrance of the insertion portion 16, and from the tip of the vertical surface 365, the curved surface 362 extends so as to be recessed toward the central portion of the outer arc 290. The tip is connected to the part. The curved surface 361 is a portion of about 1/3 including the end portion on the partition wall 350 side in the outer arc 290 from the corner portion 400 formed by the side surface of the partition wall 350 on the battery storage unit 15 side and the vertical surface 364 connected thereto. It extends so as to be recessed toward the end, and its tip is connected to the part. The curved surface 363 is a portion of about 含 む including the end portion on the partition wall 351 side in the outer arc 290 from the corner portion 401 formed by the side surface of the partition wall 351 on the battery storage unit 15 side and the vertical surface 366 connected thereto. It extends so as to be recessed toward the end, and its tip is connected to the part.

  As described above, the side surface 360 of the partition wall 36 that defines the peripheral edge of the insertion portion 16 is perpendicular to the printed circuit board 30 on the back side of the insertion portion 16, and outwards from the vertical surface toward the entrance of the insertion portion 16. Curved to spread. Therefore, in the insertion part 16, the entrance side is wider than the back side.

  A plate-like pedestal portion 410 on which the button battery 10 is partially placed is provided in the entire area of the bottom portion of the insertion portion 16 and the + Y side end portion of the bottom portion of the battery storage portion 15. The pedestal portion 410 is integrally formed with the partition walls 35 and 36 and is disposed on the printed circuit board 30.

  The case body 20 has a wall portion 204 that is located on the −Y side end portion of the first main surface 11 of the button battery 10 stored in the battery storage portion 15 and abuts against the end portion. The positive electrode terminal 31 is disposed below the wall portion 204. In the case body 20, a square columnar column portion 37 extending from the inner surface of the second case body 20 b toward the printed circuit board 30 is provided. The column portion 37 is integrally formed with the second case main body 20b, reaches the portion of the positive electrode terminal 31 soldered to the printed circuit board 30, and presses the portion against the printed circuit board 30 side. .

  In the present embodiment, the portion surrounded by the printed circuit board 30, the pedestal portion 410, the partition wall 35, and the positive electrode terminal 31 is the battery housing portion 15, and is surrounded by the partition wall 36 and the pedestal portion 410. This portion is the insertion portion 16.

  Next, the structure of the plus electrode terminal 31 and the minus electrode terminal 32 will be described in detail. FIG. 7 is a perspective view showing the structure of the negative electrode terminal 32. As shown in FIG. 7, the negative electrode terminal 32 includes a fixing portion 320 that is fixed to the printed circuit board 30 and a pair of support portions 321 and 322 that support the button battery 10 from the second main surface 12 side. ing. The fixing portion 320 is a substantially rectangular plate-shaped portion, and both end portions in the longitudinal direction are soldered to the printed circuit board 30.

  The support part 321 extends from the central part of one long side of the fixed part 320 toward the outer side obliquely upward, and the tip part 321a is horizontal. The support portion 321 is bifurcated from the center portion to the tip. A protrusion 321 b that contacts the second main surface 12 of the button battery 10 is provided on the upper surface of each of the two divided tip portions 321 a in the support portion 321.

  Similarly, the support portion 322 extends from the center portion of the other long side of the fixing portion 320 toward the outer side obliquely upward, and the tip portion 322a is horizontal. The support portion 322 is bifurcated from the central portion to the tip. A protrusion 322 b that contacts the second main surface 12 of the button battery 10 is provided on the upper surface of each of the two end portions 322 a of the support portion 322.

  In the negative electrode terminal 32 having such a structure, the pair of support portions 321 and 322 are provided such that the protruding portions 321b and 322b are in contact with the portion 12a excluding the peripheral end portion 12b of the second main surface 12 of the button battery 10. The button battery 10 is supported from the second main surface 12 side. When the battery cover 21 is attached to the case body 20, as will be described later, since the pressing portion 212 provided on the battery cover 21 presses the button battery 10 toward the printed circuit board 30, the button battery 10 The negative electrode terminal 32 is pressed against the printed circuit board 30 side. As a result, in the negative electrode terminal 32, the bent portion at the boundary between the support portion 321 and the fixed portion 320 and the bent portion at the boundary between the support portion 322 and the fixed portion 320 are elastically deformed, and the horizontal portion of the support portion 321 is horizontal. The bent portion at the boundary between the leading end portion 321a and the inclined portion connected to it and the bent portion at the boundary between the horizontal leading end portion 322a and the inclined portion connected to the support portion 322 are elastically deformed, so that the negative electrode terminal 32 The shape of the entire top surface approaches the plane.

  FIG. 8 is a perspective view showing the structure of the plus electrode terminal 31, and FIG. 9 is a side view showing a state in which the plus electrode terminal 31 is mounted on the printed circuit board 30. As shown in FIGS. 8 and 9, the positive electrode terminal 31 includes a fixing portion 310 fixed to the printed circuit board 30 and a pair of arm portions 311 and 312 connected to the fixing portion 310.

  The fixing portion 310 is a plate-like portion bent into an L shape, and includes a horizontal portion 310a and a rising portion 310b that rises from an end of the horizontal portion 310a. In the fixing part 310, the horizontal part 310 a is soldered to the printed circuit board 30. Further, the column portion 37 provided in the case body 20 is in contact with the horizontal portion 310 a of the fixing portion 310.

  The plate-like arm portion 311 extends at an obtuse angle with the rising portion 310b from one horizontal end portion of the rising portion 310b of the fixing portion 310 in an obliquely outward direction away from the horizontal portion 310a. . An L-shaped leg portion 313 that supports the arm portion 311 is connected to the distal end portion of the arm portion 311. On the inner surface of the arm portion 311, a protruding portion 311 a that comes into contact with the side surface 13 of the button battery 10 is provided slightly from the tip than the center portion.

  Similarly, the plate-like arm portion 312 forms an obtuse angle with the rising portion 310b obliquely outward from the other horizontal end portion of the rising portion 310b of the fixing portion 310 toward the outer side. It extends. An L-shaped leg 314 that supports the arm 312 is connected to the tip of the arm 312. On the inner surface of the arm portion 312, a protruding portion 312 a that comes into contact with the side surface 13 of the button battery 10 is provided slightly from the tip than the center portion.

  As shown in FIG. 9, in the fixing portion 310, the angle θ formed by the horizontal portion 310a and the rising portion 310b is set to be slightly larger than 90 °. Therefore, in the plus electrode terminal 31, when the horizontal portion 310a is soldered to the printed board 30, the arm portions 311 and 312 and the leg portions 313 and 314 are slightly inclined toward the minus electrode terminal 32 side. When the plus electrode terminal 31 is placed on the printed circuit board 30, not only the bottom surface of the horizontal portion 310 a but also the corner portions of the L-shaped leg portions 313 and 314 come into contact with the printed circuit board 30. Therefore, when the plus electrode terminal 31 is automatically mounted on the printed board 30, the arm portions 311 and 312 can be supported by the leg portions 313 and 314, respectively. As a result, the positive electrode terminal 31 can be prevented from falling during automatic mounting.

  When the button battery 10 is stored in the battery storage portion 15, the side surface 13 of the button battery 10 comes into contact with the protruding portions 311a and 312a, and the pair of arm portions 311 and 312 are pushed backward. Then, the bent portion at the boundary between the rising portion 310b and the arm portions 311 and 312 is elastically deformed, and the angle formed by the rising portion 310b and the arm portions 311 and 312 increases, and the horizontal portion 310a and the rising portion 310b The bent portion at the boundary is elastically deformed, and the angle θ formed by the horizontal portion 310a and the rising portion 310b is about 90 °. As a result, the pair of arm portions 311 and 312 sandwich the side surface 13 of the button battery 10 and press the button battery 10 against the partition wall 35, so that the contact between the positive electrode terminal 31 and the button battery 10 is achieved. Can be secured sufficiently.

  When the side surface 13 of the button battery 10 comes into contact with the protruding portions 311 a and 312 a, the inclined arm portions 311 and 312 rise so that the leg portions 313 and 314 are lifted from the printed circuit board 30. Therefore, the leg portions 313 and 314 do not damage the printed circuit board 30 when the button battery 10 is stored in the battery storage portion 15.

  FIG. 10 is a diagram illustrating a state in which the button battery 10 is stored in the battery storage unit 15. As shown in FIG. 10, when the button battery 10 is stored in the battery storage unit 15, the button battery 10 is inserted into the battery storage unit 15 toward the lower side of the wall portion 204 while being inclined. Then, the front peripheral edge portion of the button battery 10 is inserted under the wall portion 204, the side surface 13 of the button battery 10 is pressed against the arm portions 311 and 312 of the positive electrode terminal 31, and the rising portion 310 b is raised while the button is raised. The rear peripheral end portion of the battery 10 is also put in the battery housing portion 15, and the rear peripheral end portion is placed on the pedestal portion 410. Thereby, the storage of the button battery 10 in the battery storage unit 15 is completed.

  Thereafter, when the external force applied to the button battery 10 is released, the raised portion 310b is slightly returned to the original state so that the arm portions 311 and 312 of the positive electrode terminal 31 press the button battery 10 against the partition wall 35. become. As a result, the side surface 13 of the button battery 10 comes into contact with a portion of the partition wall 35 close to the insertion portion 16. On the other hand, at the peripheral end portion of the first main surface 11 of the button battery 10, a portion close to the plus electrode terminal 31 is in contact with the wall portion 204 thereabove. Thereby, even if the case main body 20 to which the battery cover 21 is not attached is turned over, the button batteries 10 do not come off the case main body 20 and jump out.

<Detailed structure of battery cover>
Next, the structure of the battery cover 21 will be described in detail. FIG. 11 is a plan view showing the structure of the battery cover 21, and FIG. 12 is a side view showing the structure of the battery cover 21 when viewed from the arrow B of FIG. As shown in FIGS. 11 and 12, the cover main body 210 that is a horizontally long plate-shaped portion has a first main surface 22 and a second main surface 23 opposite to the first main surface 22. . When the battery cover 21 is attached to the case main body 20, the four main surfaces 23 of the cover main body 210 press the first main surfaces 11 of the four button batteries 10 accommodated in the case main body 20. A pressing part 212 is provided. The four pressing portions 212 are arranged along the longitudinal direction LD of the cover main body 210 at the center portion in the short direction SD on the second main surface 23 of the cover main body 210. Each pressing portion 212 includes four protrusions 213 that protrude from the second main surface 23 of the cover body 210 in a direction perpendicular thereto. In each pressing portion 212, four projecting portions 213 are arranged in a circle.

  In addition, on the second main surface 23 of the cover main body 210, four engagement claws 211 that are respectively inserted into four attachment engagement holes 206 provided on the back surface of the case main body 20 are provided. The four engaging claws 211 are arranged along the longitudinal direction LD of the cover main body 210. Each engagement claw 211 protrudes from the cover main body 210 along the short direction SD from one end 210a in the short main direction SD of the second main surface 23 of the cover main body 210 to the periphery of the cover main body 210. Beyond the cover body 210.

  Further, on the second main surface 23 of the cover main body 210, four protrusions 214 that are respectively inserted into the four insertion portions 16 provided in the case main body 20 are provided. These protrusions 214 are arranged along the longitudinal direction LD of the cover main body 210 at the other end portion 210 b in the short direction SD on the second main surface 23 of the cover main body 210.

  The lock part 220 for fixing the battery cover 21 to the case main body 20 has a plate-like portion 222 connected to the cover main body 210 and a plate-like portion 223 that forms a V-shape with the plate-like portion 222. . These plate-like portions 222 and 223 constitute a V-shaped spring 224. In the V-shaped spring 224, one end in the V-shaped direction is an end portion 210 b of the second main surface 23 of the cover main body 210 so that the V-shaped peak portion protrudes outside the second main surface 23 of the cover main body 210. And the other end in the V-shaped direction is located outside the peripheral edge of the cover body 210 on the end 210b side. A plate-like operation piece 221 is connected to the other end of the V-shaped spring 224 in the V-shaped direction so that the main surface is arranged along the short direction SD of the cover main body 210. Three projections 225 are provided on the outer main surface of the plate-like portion 223 including the other end of the V-shaped spring 224 in the V-shape direction. These protrusions 225 are disposed along the longitudinal direction LD of the cover main body 210 and are inserted into the second locking engagement holes 205 provided on the inner side surface of the case main body 20. The surface of each protrusion 225 has an inclined surface 226 that abuts against the periphery of the first locking engagement hole 202 when the locking part 220 is inserted into the first locking engagement hole 202. . The inclined surface 226 is connected to the V-shaped peak portion of the V-shaped spring 224 and is inclined with respect to the insertion direction (entry direction) of the lock portion 220 with respect to the first locking engagement hole 202.

  When the battery cover 21 having the above structure is attached to the case body 20, first, the four engagement claws 211 of the battery cover 21 are set so that the first main surface 22 of the cover body 210 faces outward. Are respectively inserted into the four mounting engagement holes 206 provided on the back surface of the case body 20. Then, the V-shaped spring 224 of the lock portion 220 in the battery cover 21 is inserted into the first locking engagement hole 202 provided on the back surface of the case body 20 from the V-shaped peak portion. At this time, the protrusion 225 provided on the V-shaped spring 224 comes into contact with the peripheral edge of the first locking engagement hole 202. The V-shaped spring 224 has an inclined surface 226 provided on the projection 225 that slides with respect to the peripheral edge of the first locking engagement hole 202, thereby reducing the angle of the V-shape. The first locking engagement hole 202 is entered. Thereafter, when the protrusion 225 is inserted into the second locking engagement hole 205 communicating with the first locking engagement hole 202, the V-shaped angle of the V-shaped spring 224 returns to the original state. . At this time, the operation piece 221 of the lock unit 220 is positioned on the peripheral region 203 of the first lock engagement hole 202. As a result, the lock part 220 cannot be removed from the first locking engagement hole 202, and the battery cover 21 is fixed to the case body 20.

  In a state where the battery cover 21 is attached to the case body 20, the pressing portion 212 of the battery cover 21 presses the first main surface 11 of the button battery 10 toward the printed circuit board 30. It is possible to ensure sufficient contact with the negative electrode terminal 32 that is supported from the outside.

  On the other hand, when the battery cover 21 is removed from the case body 20, first, the operation piece 221 of the lock portion 220 of the battery cover 21 is pushed toward the -Y side. As a result, the V-shaped angle of the V-shaped spring 244 decreases, and the protrusion 225 of the V-shaped spring 244 retracts from the second locking engagement hole 205. As a result, the battery cover 21 is unlocked. When a force is applied to the battery cover 21 in a state in which the operation piece 221 is pressed, the battery cover 21 is rotated about the engagement point between the attachment engagement hole 206 and the engagement claw 211 as a fulcrum. The lock part 220 is withdrawn from the first locking engagement hole 202. Thereafter, when the engagement claw 211 of the battery cover 21 is taken out from the attachment engagement hole 206 of the case body 20, the battery cover 21 is removed from the case body 20.

<How to remove the button battery>
Next, a method for removing the button battery 10 from the case body 20 will be described. In the electronic apparatus 1 according to the present embodiment, it is possible to remove the plurality of button batteries 10 from the case body 20 at the same time using the battery cover 21. That is, the battery cover 21 functions as a removal jig for removing the button battery 10 from the case body 20.

  13-17 is a figure which shows a mode that the button battery 10 is removed from the case main body 20 in order. In the electronic device 1 according to the present embodiment, the four insertion portions 16 provided in the case main body 20 include not only the four protrusions 214 provided on the second main surface of the cover main body 210 but also the cover main body 210. The four engaging claws 211 protruding from each can be inserted. And the four button batteries 10 can be removed simultaneously using these engaging claws 211.

  First, as shown in FIG. 13, the battery cover 21 is removed from the case body 20. Then, as shown in FIG. 14, four engagement claws 211 provided on the cover body 210 are provided on the case body 20 so that the first main surface 22 of the cover body 210 faces the button battery 10 side. The four inserted portions 16 are inserted almost vertically. Thereby, each engagement claw 211 is inserted into the gap between the side surface 13 of the button battery 10 and the case body 20. As described above, the side surface 360 of the partition wall 36 that defines the peripheral edge of the insertion portion 16 has a vertical surface on the back side of the insertion portion 16 and extends outward from the vertical surface toward the entrance of the insertion portion 16. Since it is curved, the engaging claw 211 of the battery cover 21 is easily inserted into the insertion portion 16.

  Next, a force is applied to the end of the cover main body 210 on the lock portion 220 side (the end far from the engaging claw 211) so that the cover main body 210 falls to the second main surface 23 side. As shown in FIG. 15, the tip of the engaging claw 211 contacts the peripheral end 12 b of the second main surface 12 of the button battery 10 and is opposite to the button battery 10 in the engaging claw 211. The main surface on the side comes into contact with a corner formed by the vertical surface 365 and the curved surface 362 of the partition wall 36. When the cover main body 210 is further tilted to the second main surface 23 side, a part of the peripheral end portion of the button battery 10 is lifted by the lever principle with the corner portion formed by the vertical surface 365 and the curved surface 362 as a fulcrum. It becomes like this. Then, as shown in FIG. 16, a part of the peripheral end portion of the button battery 10 lifted by the engaging claw 211 jumps out of the battery storage portion 15, and a part of the peripheral end portion is 1 is placed on the main surface 22. Accordingly, the four button batteries 10 are removed from the case body 20 at the same time. Thereafter, by turning the case body 20 upside down, the four button batteries 10 can be completely removed from the case body 20 as shown in FIG.

  In electronic device 1 according to the present embodiment, it is possible to insert a worker's fingertip into the space surrounded by curved surfaces 361 to 363 in insertion portion 16. Using the fingertip inserted into the insertion portion 16, the worker lifts a portion near the insertion portion 16 in the peripheral end portion of the button battery 10 in the battery storage portion 15 and removes the button battery 10 from the case body 20. be able to.

  As described above, the electronic device 1 according to the present embodiment is provided with a removal structure for removing the plurality of button batteries 10 from the case body 20. In this detaching structure, a detaching jig (battery cover 21) for detaching the button battery 10 from the case body 20 is provided. The removal jig has a portion (a plurality of engaging claws 211) inserted into a gap between the case main body 20 and the plurality of button batteries 10 accommodated therein, and a plurality of the removal jigs are used by using the portion. The button battery 10 can be removed from the case body 20 at the same time. Therefore, the plurality of button batteries 10 can be easily and immediately removed from the case body 20 by using the removal jig. Therefore, the battery replacement of the electronic device 1 operating with the plurality of button batteries 10 can be performed easily and immediately.

  In the present embodiment, the battery cover 21 covering the plurality of button batteries 10 functions as a detaching jig for removing the button battery 10 from the case main body 20. Although the removal jig for removing the battery 10 also serves as the battery cover, a dedicated removal jig may be provided separately from the battery cover. For example, the shape of the button battery 10 removal jig is the same as that of the battery cover 21 according to the present embodiment, and the shape of the battery cover attached to the case body 20 is the same as that of the battery cover 21 according to the present embodiment. May have different shapes. In the case where the jig for removing the button battery 10 also serves as the battery cover as in the present embodiment, there is no need to provide a jig for removal separately from the battery cover. The removal structure can be simplified.

  Further, in the present embodiment, the removal jig that can remove all the four button batteries 10 housed in the case body 20 from the case body 20 at the same time is provided. Instead, a detaching jig capable of simultaneously removing at least two of the four button batteries 10 may be provided. For example, the battery cover 21 in which only two or three engagement claws 211 are provided on the cover main body 210 may be employed. Even in such a case, the plurality of button batteries 10 in the case body 20 can be easily and immediately removed as compared with the case where the button batteries 10 are removed one by one with the fingertips of the workers.

It is a perspective view which shows the electronic device which concerns on embodiment of this invention from the front side. It is a top view which shows the electronic device which concerns on embodiment of this invention from the back side. It is a top view which shows the electronic device which concerns on embodiment of this invention from the back side. It is a perspective view which expands and shows the electronic device which concerns on embodiment of this invention. It is a top view which expands and shows the electronic device which concerns on embodiment of this invention. It is sectional drawing which expands and shows the electronic device which concerns on embodiment of this invention. It is a perspective view which shows the structure of the negative electrode terminal which concerns on embodiment of this invention. It is a perspective view which shows the structure of the plus electrode terminal which concerns on embodiment of this invention. It is a side view which shows a mode that the plus electrode terminal which concerns on embodiment of this invention was mounted in the printed circuit board. It is sectional drawing which shows a mode that a button battery is accommodated in a battery accommodating part. It is a top view which shows the structure of the battery cover which concerns on embodiment of this invention. It is a side view which shows the structure of the battery cover which concerns on embodiment of this invention. It is a figure which shows a mode that a button battery is removed from a case main body. It is a figure which shows a mode that a button battery is removed from a case main body. It is a figure which shows a mode that a button battery is removed from a case main body. It is a figure which shows a mode that a button battery is removed from a case main body. It is a figure which shows a mode that a button battery is removed from a case main body.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electronic device 10 Button battery 16 Insertion part 20 Case main body 21 Battery cover 221 Engagement claw

Claims (4)

A case body for storing a plurality of button batteries;
Of the plurality of button batteries, there is a portion that is inserted into a gap between a side surface of at least two button batteries and the case body, and the at least two button batteries are simultaneously removed from the case body using the portions. A button battery detachment structure comprising a detachable jig. The button battery removal structure according to claim 1,
The detaching jig is a button battery detaching structure that also serves as a battery cover attached to the case body. The button battery removal structure according to any one of claims 1 and 2,
An electronic device comprising the plurality of button batteries housed in the case body.   It has a portion inserted into a gap between a case main body for storing a plurality of button batteries and a side surface of at least two button batteries among the plurality of button batteries, and the at least two button batteries are used by using the portions. A jig for removing a button battery that can be simultaneously removed from the case body.

Images