JP3788319B2 - Electronic device, charging stand and charging system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a charging stand capable of charging a secondary battery built in an electronic device, an electronic device including a rechargeable secondary battery, and a charging system using them.
[0002]
[Prior art]
Conventionally, there are electronic devices such as portable music players using secondary batteries such as nickel cadmium storage batteries and nickel metal hydride rechargeable batteries. In such an electronic device, a charging circuit is provided in the device main body, and the secondary battery is incorporated in a charging device so that charging can be performed.
[0003]
This electronic device is provided with a charging jack into which a charging plug for supplying an external power source formed in the charging device is inserted, and the charging device is mounted by inserting the charging plug of the charging device into the charging jack.
[0004]
Such a charging device for an electronic device includes a stand type device that supports the electronic device in a standing manner. In this charging stand, a charging plug protrudes from the mounting portion of the electronic device, and when the electronic device is mounted on the mounting portion, the charging plug is inserted into a charging jack formed on the bottom portion of the electronic device. Supply power to electronic equipment.
[0005]
[Problems to be solved by the invention]
However, in an electronic device using a charging stand for charging a secondary battery, the urging force applied to the charging plug of the terminal member formed in the charging jack and sandwiching the charging plug is strong, and the mounting portion of the charging stand When the device main body is placed on the charging jack, the charging plug is not inserted to the mounting position of the charging jack, and the device main body may be lifted from the mounting portion of the charging stand.
[0006]
Further, when charging is finished and an electronic device is to be removed from the charging stand, the charging plug of the charging stand may be held between the terminal members of the charging jack, and the charging stand may not be removed.
[0007]
Furthermore, when the charging stand is lifted together with the electronic device, there is a risk that the charging plug will come off in the air and drop the charging stand.
[0008]
Therefore, the present invention is an electronic device that includes a switching mechanism between an internal power source and an external power source and can be charged while the secondary battery is built in the device body, and can be easily inserted into and removed from the charging device. It is an object of the present invention to provide an electronic device that can perform charging, a charging stand and a charging system used for the electronic device.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems, an electronic device according to the present invention includes a first jack into which a first plug for supplying power from an external power source is inserted into the device body, and the device body via a charger. A second jack into which a second plug protruding from the charger for supplying power is inserted, and a first attachment provided on the first jack for pressing the first plug. And a second urging unit that is provided in the second jack and presses the second plug with a urging force weaker than the first urging unit.
[0010]
In addition, a charging stand according to the present invention supports a base portion provided with a placement portion on which an electronic device is placed, and an electronic device that is formed upright from the base portion and placed on the placement portion. A support wall and a charging plug that protrudes from the mounting portion and is connected to a charging jack provided on a bottom surface portion of the electronic device to supply power to the electronic device, and the charging plug includes: The first biasing means formed in the charging jack of the electronic device is biased with a weaker force than the second biasing means formed in the external power supply jack provided on the bottom surface of the electronic device. It is a force.
[0011]
In addition, the charging system according to the present invention supplies power into the device main body via the first jack into which the first plug for supplying power from the external power source is inserted into the device main body and the charger. A second jack into which a second plug protruding from the charger is inserted, a first urging means provided on the first jack and pressing the first plug, and the second An electronic device provided with a second biasing means that presses the second plug, a base portion provided with a placement portion on which the electronic device is placed, and a base portion A support wall that stands up and supports the electronic device placed on the placement portion, and a second jack that protrudes from the placement portion and is provided on the bottom portion of the electronic device. By the second urging means, and And a second charging means provided with the second plug for supplying power to the device, wherein the second urging means provided in the second jack includes a second charging means inserted into the second jack. The plug is pressed with a biasing force weaker than that of the first biasing means.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an electronic device, a charging stand, and a charging system to which the present invention is applied will be described in detail with reference to the drawings. As shown in FIG. 1, the electronic device 1 is a portable recording / reproducing apparatus for recording / reproducing a recording medium on which music data or the like is recorded, and a disc-shaped recording is performed in a substantially rectangular chassis. A disk cartridge in which a medium is disposed is stored.
[0013]
As shown in FIG. 2, the electronic device 1 includes a pair of upper and lower chassis 3 and 4 constituting the device main body 2, and a mechanical deck unit 6 disposed in the chassis 3 and 4 for inserting and removing the disk cartridge 5. A cartridge holding member 7 that holds the disk cartridge 5 and guides insertion / removal from the device main body 2, a circuit board 8 on which a circuit is formed and electronic components such as connector terminals are mounted, a battery housing portion 9, And an opening / closing member 10 for restricting the opening and closing of the upper chassis 3.
[0014]
In the electronic device 1, an operation unit 12 of the electronic device 1 and a liquid crystal display unit 13 on which a song title and the like are displayed are formed on the main surface 1 a. In addition, the electronic device 1 has an insertion hole 15 for a connector terminal mounted on the circuit board 8 on one side surface portion 1b. In the electronic device 1, an external power supply jack 16 for taking in an external power supply and a charging jack 17 into which a charging plug provided at a charging stand described later is inserted are formed on the bottom surface portion 1c. Both the external power supply jack 16 and the charging jack 17 are mounted on the circuit board 8, and the opening into which the plug is inserted faces outward from the bottom surface portion 1 c of the electronic device 1.
[0015]
As shown in FIG. 2, the external power supply jack 16 into which the DC plug of the DC adapter that converts household AC power into DC is inserted has a substantially rectangular housing that is open at one end and into which the DC plug 20 of the DC adapter is inserted. A body 16a is formed. The casing 16a is mounted on the circuit board 8 with the opening 16b into which the DC plug 20 is inserted facing outward. The opening 16 b faces outward from the bottom surface portion 1 c of the electronic device 1 when the circuit board 8 is assembled to the lower chassis 4.
[0016]
As shown in FIG. 3, when the DC plug 20 is inserted into the housing 16 a, a substantially rod-shaped center electrode 21 that connects the DC adapter and the electronic device 1 and the housing 16 are provided so as to project. A switching terminal 23 for switching the electronic circuit is formed by disconnecting the connection terminal 22 and the connection terminal 22 when pressed by the DC plug 20. The central electrode 21, the connection terminal 22, and the switching terminal 23 extend inward from the housing 16 a and are connected to a wiring pattern formed on the circuit board 8.
[0017]
The center electrode 21 faces outward from the opening 16b of the casing 16a and is inserted into the hollow electrode 20a of the DC plug 20 inserted into the external power supply jack 16. The connection terminal 22 is connected to the switching terminal 23 when the DC plug 20 is not inserted into the housing 16a. The connection terminal 22 is disconnected from the switching terminal 23 when the DC plug 20 is connected to the housing 16a and the switching terminal 23 is pressed against the DC plug 20. Further, the switching terminal 23 pressed by the DC plug 20 is made of an elastic plate-like body and is pressed against the connecting portion 22 and the pressing portion 23a pressed against the hollow electrode 20a of the DC plug 20 by being bent. A connection end 23b to be contacted is formed. The switching terminal 23 is connected to the connection terminal 22 when the connection end 23b is biased toward the connection terminal 22 and the DC plug 20 is not inserted. When the DC plug 20 is inserted, the switching terminal 23 is pressed by the hollow electrode 20a of the DC plug, and the connection end 23b is elastically displaced in a direction away from the connection terminal 22. Thus, the switching terminal 23 connects the DC plug 20 and the electronic circuit of the electronic device 1 and switches the electronic circuit.
[0018]
In the external connection jack 16 as described above, when the DC plug 20 is inserted, the switching terminal 23 is pressed against the hollow electrode 20a of the DC plug and elastically displaced, so that the DC plug 20 is aligned with the axial direction of the DC plug 20. Press in a direction that is approximately orthogonal. Further, the center electrode 21 of the external electrode jack 16 is inserted into the hollow electrode 20a of the DC plug 20 to generate a holding force. Therefore, when the DC plug 20 is inserted into the external power supply jack 20 and pulled out, a predetermined urging force is applied by the switching terminal 23 and the center electrode 21. Specifically, the DC plug 20 is applied with an urging force of about 8.4 N (min) when inserted into the external power supply jack 20 and about 3.8 N (min) when pulled out.
[0019]
Next, the charging jack 17 that supplies power to the electronic device 1 will be described. The charging jack 17 is formed in the vicinity of the external power supply jack 16 described above, and supplies power to the electronic device 1 through the charging stand by inserting a charging plug of a charging stand to be described later. The secondary battery stored in the battery is charged. As shown in FIG. 2, the charging jack 17 is formed with a substantially rectangular casing 17a into which a charging plug described later is inserted. The casing 17a is mounted on the circuit board 8 with the opening 17b into which the charging plug is inserted facing outward. The opening 17 b is exposed outward from the bottom surface 1 c of the electronic device 1 when the circuit board 8 is assembled to the lower chassis 4.
[0020]
A changeover switch 29 for switching an electronic circuit formed on the circuit board 8 of the electronic device 1 is formed in the housing 17a by inserting a charging plug. As shown in FIG. 4, the changeover switch 29 includes a first negative terminal 30, a second negative terminal 31, and a terminal plate 32 that electrically connects the first and second negative terminals 30 and 31. And a positive terminal 33.
[0021]
The first minus side terminal 30 is formed on the one side surface portion 34 of the housing 17 a and is connected to the wiring pattern formed on the circuit board 8. The second negative terminal 31 is formed on the back surface portion 35 facing the opening 17b of the housing 17a, and is similarly connected to the wiring pattern formed on the circuit board 8. The terminal plate 32 for conducting the first and second minus side terminals 30 and 31 is made of a substantially plate-like body having elasticity, and one end portion 32 a is connected to one end portion of the first minus side terminal 30. The other end 32 b is brought into contact with one end of the second negative terminal 31 by being bent into a substantially U shape. The terminal plate 32 is pressed by the charging plug when a charging plug protruding from a charging stand described later is inserted into the charging jack 17, and the other end 32 b is connected to the second minus terminal 31. Spaced apart. Thereby, the terminal plate 32 cuts off the electrical connection between the first minus side terminal 31 and the second minus side terminal 31, and is connected to the minus side electrode portion of the charging plug, and further, the charging plug is given a predetermined urging force. Is pressed in a direction substantially orthogonal to the axial direction of the charging plug.
[0022]
Further, the plus side terminal 33 is formed on the other side surface portion 36 facing the one side surface portion 34 of the housing 17a in which the first minus side terminal 30 is formed. The plus side terminal 33 is bifurcated into the back surface 35 side of the housing 17a. The bifurcated one end portion 33a of the plus side terminal 33 has a biasing force toward the one side surface portion 34 of the housing 17a and is locked to a locking portion 38 formed in the housing 17a. The one end 33a of the plus side terminal 33 is pressed against the charging plug when a charging plug protruding from a charging stand, which will be described later, is inserted into the charging jack 17, and is connected to the plus side electrode portion of the charging plug. While connecting, the charging plug is pressed in a direction substantially orthogonal to the axial direction of the charging plug with a predetermined urging force. In addition, the forked other end portion 33 b of the plus side terminal 33 extends to the back surface portion 35 side of the housing 17 a and is electrically connected to the wiring pattern of the circuit board 8.
[0023]
The terminal plate 32 of the charging jack 17 that presses the charging plug as described above and the one end portion 33a of the positive terminal 33 are inserted into the charging plug in a direction substantially perpendicular to the axial direction of the charging plug. Apply pressing force. Specifically, an urging force of about 0.98 N is applied when the charging plug is inserted into the charging jack 17 and about 0.59 N is applied when the charging plug is pulled out.
[0024]
As shown in FIG. 4, the charging jack 17 as described above is connected to the first and second negative terminals 30 and 21 via the terminal plate 32 before the electronic device 1 is placed on the charging stand. Is conducted.
[0025]
As shown in FIG. 5A, when the electronic device 1 is placed on the charging stand and the charging plug is inserted, the charging jack 17 is pressed against the charging plug as shown in FIG. Thus, the terminal plate 32 is elastically displaced toward the side surface 34 of the housing 17a. Therefore, the terminal plate 32 has the other end 32b separated from the second minus terminal 31 and cuts off the electrical connection with the first and second minus terminals, and the first electrode part of the charging plug and the first electrode part. Are connected to the negative terminal 30. Thereafter, when the charging plug is further inserted into the housing 16a, the positive terminal 33 is connected to the positive electrode portion of the charging plug, as shown in FIG. 5C. Further, the terminal plate 32 and the one end portion 33a of the plus-side terminal 33 are pressed toward the one side surface portion 34 or the other side surface portion 36 side of the housing 17a as shown in FIG. Elastically displaced. Accordingly, the terminal plate 32 and the one end 33a press the charging plug with a predetermined urging force in a direction orthogonal to the axial direction of the charging plug.
[0026]
Note that the terminal plug 32 and the one end portion 33 a are brought into sliding contact with each other when the charging plug is inserted into the charging jack 17. Therefore, even if dust or the like adheres to the terminal plate 32 and the one end portion 33a, the dust or the like can be removed by the cleaning effect of the charging plug.
[0027]
The circuit board 8 accommodated in the device body 2 constitutes the following electric circuit network in accordance with the operation of the changeover switch 29 as described above. First, when the electronic device 1 is driven by a primary battery or a secondary battery stored in the battery storage unit 9, a DC adapter is not inserted into the external power supply jack 16, and a charging plug is inserted into the charging jack 17. Is not inserted, the electronic device 1 constitutes an electric circuit network as shown in FIG.
[0028]
That is, when the battery is used, power is not supplied to the center electrode 21 of the external power supply jack 16. Further, the switching terminal 23 is biased toward the connection terminal 22, and the connection portion 23 b is connected to the tip of the connection terminal 22. The terminal plate 32 of the charging jack 17 is biased toward the other side surface 36 of the housing 17a and connected to the second negative terminal 31, and the first and second negative terminals 30 and 31 are connected. ing. Further, no power is supplied to the plus terminal 33.
[0029]
Thereby, the switching terminal 23, the connection terminal 22, the 1st and 2nd minus side terminals 30 and 31, and a primary battery or a secondary battery are connected. Therefore, in the circuit network shown in FIG. 6A, the power of the primary battery or the secondary battery is supplied to each part in the device main body 2 through the power supply line.
[0030]
Next, when the DC plug 20 of the DC adapter is inserted into the external power supply jack 16 of the device body 2 and the electronic device 1 is driven by commercial power, as shown in the electric circuit network of FIG. The hollow electrode 20 a and the switching terminal 23 are connected, and the connection end 23 b of the switching terminal 23 is separated from the connection terminal 22. Further, the hollow electrode 20a of the DC plug 20 and the center electrode of the external power supply jack 16 are connected.
[0031]
As a result, the DC plug 20, the center electrode 21, and the switching terminal 23 are connected, the connection terminal 22 is separated from the connection terminal 23, and the ground of the primary battery or the secondary battery is cut. Therefore, in the electric network shown in FIG. 6B, the power source of the primary battery or the secondary battery is not supplied into the device main body 2. In the electronic device 1, the power supplied from the DC plug 20 of the DC adapter is supplied to each part in the device main body 2 through the power line.
[0032]
Next, when the charging plug of the charging stand is inserted into the charging jack 17 of the device main body 2 and the electronic device 1 is driven by the commercial power supplied from the DC adapter connected to the charging stand, the electricity shown in FIG. As shown in the circuit network, the negative side electrode portion of the charging plug and the first negative side terminal 30 provided in the charging jack 17 are connected, and the positive side electrode portion of the charging plug and the charging jack 17 The positive terminal 31 is connected.
[0033]
At this time, the terminal plate 32 is pressed by the charging plug and separated from the second negative terminal 31. As a result, the second negative terminal 31 is disconnected from the first negative terminal 30 and the primary battery or the secondary battery is disconnected from the ground. Therefore, in the electric network shown in FIG. 6C, the power source of the primary battery or the secondary battery is not supplied into the device main body 2. In the electronic device 1, the power supplied from the charging plug of the charging stand to which the DC adapter is connected is supplied to each part in the device main body 2 through the power line.
[0034]
Further, in the state where the above-described DC plug or charging plug is inserted into the device main body 2, when the secondary battery stored in the battery storage unit 9 is charged by the power supplied to the device main body 2, By pressing a charge button formed on the operation unit 12 of the device body 2, the minus side of the secondary battery and the switching terminal 23 are made conductive.
[0035]
At this time, the CPU in the electronic device 1 detects that it is placed on the charging stand based on the detected voltage value supplied from the charging plug. The CPU in the electronic device 1 detects that the secondary battery is stored in the battery storage unit 9. Thereafter, the electronic device 1 connects the switching terminal 23 connected to the ground and the negative terminal of the secondary battery by operating a charging button formed on the operation unit 12 of the device body 2. Accordingly, the secondary battery is connected to the DC plug or the charging plug, and is charged by being supplied with power from the DC adapter or the charging stand.
[0036]
The battery storage unit 9 of the electronic device 1 stored in the device main body 2 can store a primary battery such as a dry battery and a secondary battery such as a nickel cadmium storage battery or a nickel hydride rechargeable battery for supplying power. it can. And this secondary battery is charged from a charging stand in the state accommodated in the battery accommodating part 9, when the electronic device 1 is provided with the charging circuit.
[0037]
The electronic device 1 is driven by power supplied from a primary battery or a secondary battery stored in the battery storage unit 9. The electronic device 1 is driven using a commercial power supply by inserting a DC plug of a DC adapter into an external power supply jack 16 formed on the bottom surface portion 1c.
[0038]
In the electronic device 1 having the above-described configuration, the mechanical deck unit 6, the cartridge holding member 7, the circuit board 8, the battery storage unit 9, and the opening / closing member 10 are assembled in the upper and lower chassis 3 and 4. As shown in FIG. 7, the electronic device 1 is configured such that the side edge portion on the bottom surface side of the upper chassis 3 is rotated so that one end of the cartridge holding member 7 faces outward and the disk cartridge 5 is inserted. . Then, the electronic device 1 reproduces an information signal such as music data recorded on a disk-shaped recording medium disposed in the disk cartridge 5 by operating the operation unit 12, and the disk-shaped recording medium The information signal is recorded.
[0039]
Next, a charging stand that charges the secondary battery stored in the battery storage unit 9 of the electronic device 1 described above will be described. As shown in FIG. 8, the charging stand 50 includes a substantially rectangular base portion 51, a placement portion 52 that is formed on the base portion 51 and on which the electronic device 1 is placed, and is placed on the placement portion 52. By connecting to a support member 54 formed with a support wall 53 for supporting the placed electronic device 1 and a charging jack 17 protruding from the base portion 51 and formed on the bottom surface portion 1c of the electronic device 1 And a charging plug 55 for charging a secondary battery housed in the device 1.
[0040]
In the base portion 51, an upper surface portion 51a on which the support member 54 is disposed is inclined toward the back surface portion 51b. In addition, the base 51 is provided with a charging plug 55 projecting from the upper surface 51 a so as to be inserted into the charging jack 17 of the electronic device 1.
[0041]
Further, the base portion 51 is formed with a DC jack 56 to which commercial power is supplied by inserting a plug of a DC adapter into the back surface portion 51b. The charging stand 50 is supplied with power when a DC adapter is connected to the DC jack 56, and the charging plug 55 is inserted into the mounting portion 52 to charge the mounted electronic device 1.
[0042]
The support member 54 disposed from the upper surface portion 51a side of the base portion 51 is formed with a placement portion 52 that is inclined along the inclined surface of the base portion 51 and has a concave surface. The mounting portion 52 is formed to be approximately the same size as the bottom surface portion 1c of the electronic device, an opening portion 52a is formed in a substantially central portion, and a charging plug 55 protruding from the upper surface portion of the base portion 51 is provided. ing. The support member 54 is formed with a support wall 53 that supports the back surface portion 1 d of the electronic apparatus 1 from the back surface portion 51 b side of the base body portion 51. The support wall 53 is formed in a direction substantially orthogonal to the upper surface portion 51a inclined to the back surface portion 51b side of the base body portion 51, and supports the electronic device 1 placed on the placement portion 52 slightly inclined to the back surface portion 51b side. To do. In addition, the support wall 53 is formed with guide pieces 57 that guide placement on the placement portion 52 of the electronic device 1 at both side edges in the rising direction. Further, the support wall 53 is formed with a curved portion 58 corresponding to the bulging portion of the battery housing portion 9 that is formed to protrude from the back surface portion 1 d of the electronic device 1 at the upper edge portion in the rising direction.
[0043]
A charging plug 55 that protrudes from the base body 10 and supplies power to the electronic device 1 by being inserted into the charging jack 17 of the electronic device 1 has a substantially rectangular parallelepiped shape, as shown in FIGS. 4, 5, and 8. And is inserted into the charging jack 17, a negative electrode portion 55 a is formed on one side surface facing the terminal plate 32, and a positive electrode portion 55 b is formed on the other side surface facing the positive side terminal 31. Is formed.
[0044]
The minus side electrode portion 55a is formed to extend to the distal end side of the charging plug 55 from the plus side electrode portion 55b. Accordingly, when the charging plug 55 is inserted into the charging jack 17, the minus side electrode portion 55 a presses the terminal plate 32 and separates the one end portion 32 a of the terminal plate 32 from the second minus side terminal 31. The plus side electrode portion 55 b is connected to the plus side terminal 33.
[0045]
That is, as shown in FIGS. 5A to 5D, when the charging plug 55 of the charging stand 50 is inserted, the electronic device 1 first has the minus side electrode portion 55 a of the charging plug 55 and the first negative electrode portion 55 a. The side terminal 30 is connected, and then the plus side electrode portion 55 b of the charging plug 55 and the plus side terminal 33 are connected. Accordingly, the electronic device 1 is supplied with electric power from the charging stand 50 after making the ground common with the charging stand 50 side, and the electronic plug 1 is charged from the charging plug 55 to the electronic device 1 side where the electronic components and the like are charged. It is possible to prevent dielectric breakdown or the like due to power supply.
[0046]
When the electronic device 1 in which the DC adapter is connected to the DC jack 56 and the secondary battery is housed is placed on the placement unit 52, the charging stand 50 has the charging plug 55 as described above. The electronic device 1 is inserted into the charging jack 17 and biased with a predetermined biasing force by the terminal plate 32 formed in the housing 17 and the one end portion 33a of the plus-side terminal 33. The first negative terminal 30 and the positive terminal 33 are electrically connected.
[0047]
Next, the charging stand 50 charges the secondary battery of the electronic device placed on the placement unit 52. When the charging is completed, the charging stand 49 removes the electronic device 1 from the placement unit 52. At this time, the charging plug 55 inserted into the charging jack 17 and urged with a predetermined urging force by the terminal plate 32 formed in the charging jack 17 and the one end portion 33a of the plus side terminal 33 is pulled out, The electronic device 1 is removed from the charging stand 50.
[0048]
When the charging plug 55 of the charging stand 50 as described above is inserted into the charging jack 17, it is substantially orthogonal to the axial direction of the charging plug 55 by the terminal plate 32 of the charging jack 17 and the one end portion 33 a of the plus side terminal 33. An urging force that presses the charging plug 55 in the direction is applied. Specifically, the charging plug 55 is applied with an urging force of about 0.98 N when inserted into the charging jack 17 and about 0.59 N when pulled out.
[0049]
That is, according to the charging stand 50 to which the present invention is applied, the charging plug 55 inserted into the charging jack 17 of the electronic device 1 is added by the terminal plate 32 of the charging jack 17 and the one end 33 of the plus side terminal 33. The biasing force to be applied is smaller than the biasing force to which the DC plug 20 is applied by the external power supply jack 16 of the electronic device 1 described above. Therefore, according to the charging stand 50, the charging plug 55 is securely inserted all the way into the charging jack 17, and when the electronic device 1 is placed on the placement portion 52, the charging plug 55 is connected to the charging jack 17. It is possible to prevent the device main body 2 from being lifted from the placement portion 52 without being inserted deeply into the device. Further, when the electronic device 1 is removed from the mounting portion 52 after the charging is completed, the charging plug 55 is easily pulled out from the charging jack 17, so that the charging plug 55 is connected to the terminal plate 32 and the plus terminal 33. It is possible to prevent the charging stand 55 from being lifted together with the electronic device 1 by being held by the one end portion 33a.
[0050]
Moreover, the electronic device and the charging stand to which the present invention is applied may form an engaging recess or an engaging protrusion that engage with each other when the electronic device is placed on the charging stand. That is, as shown in FIGS. 8 and 9, in the electronic device 1, the engagement recess 71 having a substantially rectangular shape is formed on the back surface portion 1 d. Further, the charging stand 50 has a substantially rectangular engaging protrusion 72 at a position corresponding to the engaging recess of the support wall 53. In the engagement recess 71 formed in the electronic device 1, the device body 2 is placed on the placement portion 52 of the charging stand 50, and the charging plug 55 is connected by the terminal plate 32 and the plus side terminal 32 of the charging jack 17. By being pinched, the engagement protrusion 72 formed on the support wall 53 is engaged.
[0051]
As a result, the engagement protrusion 72 formed on the charging stand 50 is engaged with the engagement recess 71 formed on the electronic device 1, so that the electronic device 1 is securely attached to the mounting portion 52 of the charging stand 50. Can be attached. Therefore, when the electronic device 1 is attached to the charging stand 50, the device main body 2 can be prevented from being lifted from the mounting portion 52.
[0052]
In addition, the electronic device and the charging stand to which the present invention is applied are provided on the base 51 of the charging stand 50 in the same direction as the charging plug 55 and mounted on the mounting portion 52. An urging member 74 that urges in the direction of detaching may be formed. That is, as shown in FIG. 8, the base portion 51 of the charging stand 50 is provided with a biasing member 74 so as to protrude from the opening 52 a of the mounting portion 52 onto the mounting portion 52. The urging member 74 is supported by a compression spring (not shown) disposed in the base portion 51, protrudes on the base portion 51, and is pushed down into the base portion 51 when pressed.
[0053]
When the electronic device 1 is placed on the placement portion 52 of the charging stand 50, the urging member 74 is pressed by the bottom surface portion 1 c of the electronic device 1 and pushed down into the base portion 51. At this time, as described above, the engagement protrusion 71 provided on the support wall 53 of the charging stand 50 is engaged with the engagement recess 71 of the electronic device 1. Therefore, the electronic device 1 is prevented from being pushed up from the placement portion 52 by the urging force of the urging member 74. The urging member 74 is a compression spring disposed in the base portion 51 when the engagement between the engagement recess 71 and the engagement protrusion 72 is released and the electronic device 1 is lifted from the placement portion 52. It is urged | biased by etc. and it protrudes on the mounting part 52. FIG. Therefore, the urging member 74 urges the electronic device 1 in the direction of removing the bottom surface portion 1c. As a result, the electronic device 1 can release the engagement between the charging plug 55 of the charging stand 50 and the charging jack 17 formed on the bottom surface portion 1 c, and the charging stand 50 is connected to the charging jack 17 of the electronic device 1. And being lifted together with the device main body 2 can be prevented.
[0054]
In the electronic device and the charging stand to which the present invention is applied, as shown in FIG. 8, an adhesive member that improves the adhesion with the installation surface may be provided on the base portion 51 of the charging stand 50. That is, the adhesive member 75 that improves the adhesive force between the base portion 51 and the installation surface is attached to the corner portion on the bottom surface portion 51 c of the base portion 51. The pressure-sensitive adhesive member 75 is made of, for example, a support on which an adsorption structure using an acrylic polymer foam as a base material is formed on the installation surface, and is attached to the bottom surface portion 51c of the base portion 51 with an acrylic adhesive with the installation surface facing outward. It is stuck through the agent.
[0055]
Then, when the electronic device 1 is placed on the placement portion 52, the adhesive member 75 is pressed against the installation surface by the weight of the charging stand 50 and the device body 2. Thereby, the adhesive member 75 is firmly attached to the installation surface as compared with a normal rubber material or the like, and gives a virtual weight to the charging stand 50.
[0056]
Thereby, the charging stand 50 can improve the adhesive force with the installation surface. Therefore, even when the electronic device 1 is picked up from the mounting portion 52 of the charging stand 50, the charging stand 50 can be prevented from being brought into close contact with the installation surface and lifting the charging stand 50 together with the device main body 2. .
[0057]
As such an adhesive member 75, specifically, Legabond S (trade name) manufactured by Excel Trading Co., Ltd. is used.
[0058]
【The invention's effect】
As described above in detail, according to the electronic device, the charging stand, and the charging system according to the present invention, the plug of the charger is pressed with a weak biasing force by the biasing means provided in the jack. When the main body is placed on the charger, the plug can be reliably inserted into the jack, and the device main body can be prevented from floating above the charger.
[0059]
Further, when the device main body is removed from the charger, the plug of the charger is held by the urging means provided in the jack, and it is possible to prevent the charger from being lifted together with the electronic device.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an electronic device placed on a charging stand.
FIG. 2 is an exploded perspective view of the electronic device.
FIG. 3 is a cross-sectional view showing an external power supply jack of the electronic device.
FIG. 4 is a cross-sectional view showing a charging jack of the electronic device.
FIG. 5 is a cross-sectional view showing a charging jack with a charging plug inserted therein.
FIG. 6 is a diagram showing an electronic circuit network in the electronic device.
FIG. 7 is a perspective view showing an electronic device into which a disc cartridge is inserted.
FIG. 8 is a perspective view showing a charging stand.
FIG. 9 is a cross-sectional view showing a charging stand on which an electronic device is placed.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Electronic device, 2 apparatus main body, 8 circuit board, 9 battery accommodating part, 12 operation part, 16 external power supply jack, 17 charging jack, 20 DC plug, 21 center electrode, 22 connection terminal, 23 switching terminal, 30th 1 minus side terminal, 31 2nd minus side terminal, 32 terminal plate, 33 plus side terminal, 50 charging stand, 51 base portion, 52 mounting portion, 53 support wall, 54 support member, 55 charge plug, 56 DC Jack, 57 guide piece, 58 curved portion, 71 engaging recess, 72 engaging protrusion, 74 biasing member, 75 adhesive member

Claims (15)

A first jack into which a first plug for supplying power from an external power source is inserted into the device body;
A second jack into which a second plug protruding from the charger is inserted in order to supply power into the device body via the charger;
A first urging means provided on the first jack and pressing the first plug;
Second urging means provided on the second jack and pressing the second plug with an urging force weaker than the first urging means;
Electronic equipment comprising. The first urging means presses the first plug in a direction substantially orthogonal to the axial direction of the first plug,
2. The electronic apparatus according to claim 1, wherein the second urging means presses the second plug in a direction substantially orthogonal to the axial direction of the second plug.   2. The electronic apparatus according to claim 1, wherein a DC input plug is inserted into the first jack. The second jack is in sliding contact with first urging means for connecting the negative electrode of the second plug protruding from the charger and the negative terminal of the device body, and protruding from the charger. A second biasing means for connecting the positive electrode of the second plug to the positive terminal of the device body,
The second jack has the negative electrode and the positive electrode of the second plug projecting from the charger, and the negative terminal and the positive terminal in contact with each other in order to match the potential with the charger at the ground. 2. The electronic apparatus according to claim 1, wherein power is supplied later. A base portion provided with a placement portion on which an electronic device is placed;
A support wall that rises from the base portion and supports the electronic device placed on the placement portion;
A charging plug that protrudes from the placement unit and supplies power to the electronic device by connecting to a charging jack provided on a bottom surface of the electronic device;
The charging plug is driven by first urging means formed in the charging jack of the electronic device, and by second urging means formed on the external power supply jack provided on the bottom surface of the electronic device. A charging stand that is energized with weak force.   6. The charging stand according to claim 5, wherein the first urging means urges the charging plug in a direction substantially orthogonal to the axial direction of the charging plug. The negative electrode formed on the charging plug extends from the positive electrode to the tip of the charging plug,
6. The charging according to claim 5, wherein the charging plug is connected to the positive terminal in the charging jack and the positive electrode after the negative terminal in the charging jack is connected to the negative electrode. stand. The support wall is provided with an engaging portion that engages with a back surface portion of the electronic device main body.
The charging stand according to claim 5, wherein the charging plug is connected to a charging jack of the electronic device when the engaging portion and the electronic device main body are engaged.   6. The charging stand according to claim 5, wherein an adhesive member for fixing the base portion to the installation surface is formed on the bottom portion of the base portion. A first jack into which a first plug for supplying power from an external power source is inserted into the device body;
A second jack second plug projecting from the charger is inserted to supply power to the aforementioned apparatus main body via the charger,
A first urging means provided on the first jack and pressing the first plug;
An electronic device provided with the second biasing means provided on the second jack and pressing the second plug;
A base portion provided with a placement portion on which the electronic device is placed;
A support wall that rises from the base portion and supports the electronic device placed on the placement portion;
The second projecting from the placement unit and being pressed by the second urging means by being inserted into a second jack provided on the bottom surface of the electronic device and supplying power to the electronic device. And a charging stand with a plug of
A charging system in which the second biasing means provided in the second jack presses the second plug inserted into the second jack with a biasing force weaker than that of the first biasing means. The first urging means presses the first plug in a direction substantially orthogonal to the axial direction of the first plug,
11. The charging system according to claim 10, wherein the second urging means presses the second plug in a direction substantially orthogonal to the axial direction of the second plug. Either one of the engagement recess or the engagement protrusion is formed on the back side of the electronic device, and the other of the engagement recess or the engagement protrusion is formed on the support wall of the charging stand,
When the engaging recess and the engaging protrusion are engaged, the electronic device is mounted on the mounting portion on the charging stand with the second plug connected to the second jack of the electronic device. The charging system according to claim 10, wherein: The mounting portion of the charging stand is provided with a biasing member that protrudes in the same direction as the protruding direction of the second plug and biases the electronic device mounted on the mounting portion in a direction to be removed. And
The electronic device is placed on the mounting portion against the biasing force of the biasing member by engaging the engagement recess and the engagement protrusion, and the electronic recess is engaged with the engagement recess. The charging system according to claim 12, wherein the charging system is biased in a direction of being removed from the mounting portion by the biasing member when the engagement with the portion is released.   The charging system according to claim 10, wherein an adhesive member for fixing the base portion to the installation surface is formed on the bottom portion of the base portion. The negative electrode formed on the second plug extends from the positive electrode to the tip of the second plug,
The second plug is connected to the positive terminal in the second jack and the positive electrode after the negative terminal in the second jack is connected to the negative electrode. 10. The charging system according to 10.

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