JP6874384B2 - Power supply system - Google Patents

Description

The present invention relates to a power supply system capable of supplying power to an electric device such as a notebook personal computer housed in a carrying case.

When using a notebook personal computer (hereinafter referred to as a notebook computer) on the go, if the AC100V power supply cannot be secured on the go, the notebook computer needs to be driven by the built-in battery. When using the built-in battery, it is necessary to charge it, but in the past it was inconvenient because it could not be charged unless the laptop computer was taken out of the carrying case.
Patent Document 1 describes a personal computer case provided with a general-purpose outlet inside. The general-purpose outlet is connected to an external power supply terminal, and the power supply terminal can be connected to an AC100V power supply, so charging can be performed without removing the notebook computer from the computer case.

Japanese Patent Application Laid-Open No. 2005-342493

In order to connect the personal computer case described in Patent Document 1 to the AC100V power supply, it is necessary to connect the power cable to the power supply terminal and the power cable to the AC100V power supply, which is troublesome.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power supply system capable of supplying power to an electric device by a simple operation without taking out the electric device from a carrying case.

In order to solve the above problems, in the present invention, a carrying case having an equipment accommodating portion for accommodating an electric device and a power receiving unit for receiving electric power supplied to the electric device, and the power receiving unit are detachably attached. a power supply system and a power supply board that is, the power supply block, power supply terminals, before Symbol disconnects switches power to the power feeding terminal, and along the detachment direction of the carrying case to be connected to a power source The power receiving portion is provided with an extending guide portion , and the power receiving portion is formed so as to straddle the bottom surface and the side surface of the carrying case, and is formed in a connection recess for receiving the power supply stand and an inner surface surface of the connection recess. A guided portion guided by a guide portion, an operating means for operating the switch to energize the power supply terminal when mounted on the power supply stand, and a power receiving unit arranged in the connection recess and conducting power with the power supply terminal. It is provided with terminals and is made of a flexible material, and has a closing position that closes the connection recess across the bottom surface and the side surface of the carrying case, and the carrying of the bottom surface and the side surface. It is characterized by having a lid member that slides along the outer surface of the carrying case between the case's attachment / detachment direction and the open position where the connection recess is opened by retracting to the side extending in the intersecting direction. To do.

According to the present invention, simply by mounting the carrying case on the power supply stand, the power receiving terminal provided in the power receiving unit conducts with the power supply terminal provided on the power supply stand, so that a simple operation can be performed without removing the electric device from the carrying case. Can supply power to electrical equipment.

It is a perspective view which showed the schematic structure of the power supply system which concerns on 1st Embodiment of this invention. It is a partial perspective front view which shows the internal structure of a case body, and the relationship with a power supply stand. It is a partial cross-sectional view which showed the structural example of a power receiving part and a power feeding stand. It is a front view which showed the power supply system which concerns on the 2nd Embodiment of this invention. (A) is a perspective view showing a state in which the power receiving unit is closed, and (b) is a perspective view showing a state in which the power receiving unit is open. It is a perspective view which shows the power supply stand. It is a figure explaining the internal structure of a power feeding stand, (a) is a figure which shows the state which the actuating pin protrudes, and (b) is the figure which shows the state which the actuating pin is embedded.

[First Embodiment]
The power supply system according to the present invention includes a carrying case for accommodating and transporting electrical equipment and a power supply stand to which the carrying case can be electrically and mechanically connected, and the carrying case is mounted on the power supply base for carrying. It is characterized in that it enables charging of electrical equipment housed in the case.
Hereinafter, the present invention will be described in detail using the embodiments shown in the drawings. However, unless otherwise specified, the components, types, combinations, shapes, relative arrangements, etc. described in this embodiment are merely explanatory examples, not the purpose of limiting the scope of the present invention to that alone. ..

<Power supply system>
FIG. 1 is a perspective view showing a schematic configuration of a power supply system according to the first embodiment of the present invention. In the power supply system 1, a carrying case 100 for accommodating electronic devices such as a notebook personal computer (notebook personal computer) and a carrying case 100 are detachably attached (mounted), and the carrying case is mounted. A power supply stand 200 for supplying power to the electric equipment housed in the 100 is provided.
In the following, the side on which the handle 105 is formed will be described as the upper side based on the posture (standing posture) of the carrying case during transportation.

The carrying case 100 has a substantially rectangular parallelepiped shape, and includes a case main body 101 for accommodating a notebook computer or the like, a lid member 103 for opening and closing the case main body 101, and a carrying handle 105 attached to the upper surface of the case main body 101. Be prepared.
The carrying case 100 is divided into a case main body 101 and a lid member 103 by a dividing line extending along the extending direction of the handle 105. In the following description, the extending direction of the handle 105 will be described as the longitudinal direction of the carrying case 100. Further, the direction orthogonal to both the vertical direction and the longitudinal direction is defined as the depth direction (or thickness direction).
The case body 101 and the lid member 103 are integrated on the bottom surface (lower surface) that functions as a hinge portion, and the case body 101 is configured to be openable and closable by a wire fastener 107 arranged on the peripheral edge portion excluding the bottom surface.
The carrying case 100 may be a soft type case in which the case body 101 and the lid member 103 are made of nylon or the like, or a hard type case in which the case body 101 and the lid member 103 are made of reinforced plastic or the like.

<Case body>
FIG. 2 is a partially perspective front view showing the internal structure of the case body and the relationship with the power supply stand.
The case main body 101 has an equipment accommodating unit 111 for accommodating an electric device, and a power receiving unit 120 for receiving electric power to be supplied to the electric device.
The case body 101 includes movable partitions 113 and 113 that divide the device accommodating portion 111 into a plurality of spaces. In the device accommodating portion 111 shown in this example, the device main body accommodating portion 115 accommodating the notebook personal computer 300 and the adapter accommodating portion 117 accommodating the AC adapter 301 of the notebook personal computer 300 are formed by the movable partitions 113 and 113. Has been done.
The AC adapter 301 includes a transformer circuit, a rectifier circuit, a regulated power supply circuit, and the like. The AC adapter 301 is connected to an input cable 303 that supplies AC power to the AC adapter 301 and an output cable 305 that supplies DC power output from the AC adapter 301 to the notebook personal computer 300. The plug 307 provided at the tip of the input cable 303 is connected to the power receiving unit 120.

The power receiving unit 120 is a portion that receives power from a power supply stand 200 installed in a cabinet or the like that stores the carrying case 100. The power receiving unit 120 shown in this example is arranged at the bottom of the case main body 101, a part thereof is exposed to the outside, and a portion accommodating wirings is arranged in the adapter accommodating unit 117.
Further, on the upper surface of the case main body 101, an energizing lamp 109 indicating that power is being supplied to the power receiving unit 120 is arranged.

<Power receiving unit>
FIG. 3 is a partial cross-sectional view showing a configuration example of the power receiving unit and the power supply stand.
The power receiving unit 120 has a connection recess 121 formed so as to be recessed upward (toward the inside of the case body 101) from the bottom surface (outer peripheral surface) of the case body 101, and the innermost part of the connection recess 121. It is provided with male power receiving terminals 123 and 123 protruding downward (toward the opening side) from the portion. The connecting recess 121 is a rectangular parallelepiped space. Indentation holes 125 and 125 are formed through the two inner side surfaces 124 and 124 (opposing surfaces to the power supply stand) facing each other in the longitudinal direction of the connection recess 121.
The power receiving terminals 123, 123 and the inner side surfaces 124, 124 extend along the mounting direction (arrow A direction in the drawing) of the power receiving unit 120 with respect to the power supply base 200.
Further, the power receiving portion 120 is arranged inside the case main body 101 and is supported so that the tip portions 127a and 127a can freely appear and disappear from the infestation holes 125 and 125 (operating means, infestation protrusion). ), And elastic urging members 129 and 129 that elastically urge the locking pins 127 and 127 to the protruding posture.

The locking pins 127 and 127 are configured to advance and retreat in a direction intersecting the mounting direction of the carrying case 100 with respect to the power supply base 200. The locking pins 127a and 127 have a protruding posture in which the tip portions 127a and 127a protrude into the connection recess 121 from the indentation holes 125 and 125, and the tip portions 127a and 127a retract from the connection recess 121 and are inside the case body 101. Go back and forth between the immersive posture and the immersive posture. The locking pins 127 and 127 are always elastically urged in a protruding posture by elastic urging members 129 and 129 such as coil springs provided in the case body 101.
The tip portions 127a and 127a of the locking pins 127 and 127 are formed in a tapered pyramid shape, and the locking pins 127 and 127 are formed when an external force is applied to the tip portions 127a and 127a along the mounting direction. The immersive posture is immersive in the case body 101, and when the external force is removed, the immersive posture is projected into the connection recess 121.
The power receiving unit 120 includes an outlet 131 on the adapter accommodating unit 117 side. The plug 307 of the notebook personal computer 300 is connected to the outlet 131. The outlet 131 includes plug insertion ports 133 and 133 exposed in the adapter accommodating portion 117, and connection terminals 135 and 135 arranged in the power receiving portion 120. The plug insertion ports 133 and 133 receive the conductor blade of the plug 307 into the power receiving unit 120. The connection terminals 135 and 135 are conductive with the power receiving terminals 123 and 123, and come into contact with and conduct with the conductor blade of the plug 307 inserted in the power receiving unit 120.
The electric power supplied to the power receiving terminals 123 and 123 is also supplied to the energizing lamp 109 via the internal wiring 137 and the dedicated power supply circuit. The energizing lamp 109 lights up when power is supplied to the power receiving unit 120.

<Power supply stand>
The power supply stand 200 is a portion for detachably connecting the power receiving unit 120 of the carrying case 100. The power supply base 200 includes a base portion 201 containing wiring and a prismatic connecting base portion 203 protruding from the upper surface of the base portion 201. The connection base portion 203 has a shape that fits into the power receiving portion 120.
A pair of female power supply terminals 205 (205a, 205b) that supply AC power to the power receiving unit 120 by being connected to a commercial power source are housed in the connection base portion 203. Terminal insertion ports 207 and 207 are formed through the upper surface of the connection base portion 203 located directly above the power supply terminals 205a and 205b, respectively.
The terminal insertion ports 207 and 207 receive the power receiving terminals 123 and 123 provided in the power receiving unit 120 inside the connection base unit 203, respectively. Further, the power receiving terminals 123 and 123 inserted in the connection base 203 come into contact with and conduct with the power feeding terminals 205a and 205b, respectively.
Pin receiving holes 209 and 209 are formed through the two outer surfaces 208 and 208 (pressing portions) facing each other in the longitudinal direction of the connection base portion 203. The pin receiving holes 209 and 209 receive the locking pins 127 and 127 of the power receiving unit 120 in the connection base portion 203. The outer surfaces 208 and 208 extend along the attachment / detachment direction of the carrying case 100 (direction of arrow A in the drawing).

Inside the power supply stand 200, a switch 211 for connecting and disconnecting the supply of AC power to one power supply terminal 205a is housed. The switch 211 shown in this example includes a switch main body 213 having a contact for switching between energization and non-energization, and a swing piece 215 for operating the switch main body 213.
The switch body 213 has a contact that conducts the power supply terminal 205a and the voltage line 217a by being pressed.
One end of the swing piece 215 is arranged on the pin receiving hole 209 side, and the other end 215b is arranged on the switch body 213 side. In the swing piece 215, a shaft support portion 215c provided in the intermediate portion is rotatably supported by an appropriate position of the power supply base 200. The swing piece 215 swings around the shaft support portion 215c between the non-energized posture shown by the solid line and the energized posture shown by the broken line. The rocking piece 215 is always elastically urged in a non-energized posture by an elastic urging member such as a torsion spring provided on the shaft support 215c.
When in the non-energized posture, one end 215a of the swing piece 215 is in a state where the pin receiving hole 209 is closed (or close to the pin receiving hole 209 side), and the other end 215b of the swing piece 215 is the switch body 213. The contacts of the above are separated to make the power supply terminal 205a and the voltage line 217a non-energized. When in the energized posture, one end 215a of the swing piece 215 is in a state where the pin receiving hole 209 is opened (or separated from the pin receiving hole 209), and the other end 215b of the swing piece 215 is a contact of the switch body 213. Is brought into contact with each other to energize the power supply terminal 205a and the voltage line 217a.

The base portion 201 of the power supply base 200 accommodates a power supply cable 217 that supplies electric power to the power supply terminals 205a and 205b. At the tip of the power supply cable 217, a plug 219 connected to a general household outlet (power supply) is arranged. The power supply terminal 205a is a voltage side terminal connected to the voltage line 217a of the power supply cable 217, and the power supply terminal 205b is a ground side terminal connected to the ground wire 217b of the power supply cable 217. The switch 211 shown in the figure has a configuration in which only the voltage line 217a side of the AC power of the power supply cable 217 is connected and not connected to the ground wire 217b side (so-called one-sided switch), but the voltage line 217a and the ground wire 217b are connected. It may be configured to connect and disconnect both (so-called double-sided switch).

As shown in FIG. 1, the power supply stand 200 includes fall prevention fences 204 and 204 (fall prevention means) erected from both ends of the base portion 201 in the lateral direction. The fall prevention fences 204 and 204 are attached to both sides of the carrying case 100 in the lateral direction when the carrying case 100 is attached to the power supply stand 200, respectively. The fall prevention fences 204 and 204 support the two side surfaces of the carrying case 100 facing each other in the lateral direction (the carrying case 100 is sandwiched in the thickness direction) to prevent the carrying case 100 from falling.

<How to use>
A method of using the power supply system 1 will be described. As a premise, it is assumed that the notebook personal computer 300 is housed in the device accommodating unit 111 of the carrying case 100, and the notebook personal computer 300 is connected to the power receiving unit 120 via the AC adapter 301.
When the carrying case 100 is not mounted on the power supply stand 200, the swing piece 215 is in the non-energized posture. Therefore, the switch 211 of the power supply base 200 is turned off, and power is not supplied to the power supply terminal 205a. Therefore, when the carrying case 100 is not mounted on the power supply stand 200, the power consumption can be reduced and the electric shock can be prevented.
In the process of mounting the carrying case 100 on the power supply stand 200, the tip portions 127a and 127a of the locking pins 127 and 127 are cornered portions (outer surfaces) formed by the upper surface of the connection base portion 203 and the outer surfaces 208 and 208. The locking pins 127 and 127 are displaced in an immersive position by abutting the upper end edges of 208 and 208. The outer side surfaces 208 and 208 press the locking pins 127 and 127 provided on the carrying case 100 side in the process of attaching and detaching the carrying case 100 to and from the power supply stand 200 to maintain the immersive posture.
The indentation holes 125 and 125 and the pin receiving holes 209 and 209 are formed at positions facing each other when the carrying case 100 is placed on the power supply stand 200. Therefore, when the carrying case 100 is placed on the power supply stand 200 (when the mounting is completed), the locking pins 127 and 127 return to the protruding posture due to the elastic urging force of the elastic urging members 129 and 129 to receive the pins. Enter the connection base 203 through the holes 209 and 209.

One of the locking pins 127 that has entered the connection base 203 presses one end 215a of the swing piece 215. The other end 215b of the swing piece 215 contacts the contact of the switch body 213 to energize the power supply terminal 205a. That is, the locking pin 127 functions as an operating means for operating the switch 211.
When the carrying case 100 is placed on the power supply stand 200, the power receiving terminals 123 and 123 enter the connection base portion 203 from the terminal insertion ports 207 and 207 and conduct with the power supply terminals 205a and 205b. Since power is supplied to the outlet 131 via the power receiving terminals 123 and 123, the notebook personal computer 300 can be charged even when the notebook personal computer 300 is housed in the carrying case 100. Further, since the energizing lamp 109 to which power is supplied via the power receiving terminals 123 and 123 lights up, it is possible to visually confirm from the outside that charging is being performed.
When the carrying case 100 is detached from the feeding base 200, the locking pins 127 and 127 cannot be displaced to the immersive posture unless a predetermined external force is applied in the detaching direction. Therefore, the locking pins 127, 127 and the pin receiving holes 209, 209 function as disconnection preventing means for preventing the carrying case 100 from easily detaching from the feeding base 200.

<Effect>
As described above, according to the present embodiment, the notebook personal computer housed in the carrying case can be charged only by placing the carrying case on the power supply stand.
Even if locked storage is obligatory in the cabinet during non-business hours such as at night, if the power supply stand is installed in a lockable cabinet, the laptop computer can be charged without removing it from the carrying case. Can be continued.
In this example, the power receiving unit 120 is arranged on the bottom surface of the carrying case 100, but it may be arranged on the side surface. Further, the energizing lamp 109 may be arranged at a position other than the upper surface of the case main body 101 as long as it is easily visible when the carrying case 100 is placed on the power supply stand 200.
In this example, the locking pin 127 is also used as a switch operating means for operating the switch 211 and as a detachment preventing means for preventing the carrying case 100 from coming off the power supply stand 200 by being inserted into the pin receiving hole 209. However, the switch operating means and the detachment preventing means may not be used at the same time, and may be provided as separate configurations.

[Second Embodiment]
A second embodiment of the present invention will be described. The same components as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.
FIG. 4 is a front view showing a power supply system according to a second embodiment of the present invention.
The power supply system 2 includes a carrying case 100 and a power supply stand 400. The power receiving portion 140 provided in the carrying case 100 is arranged at the bottom of the case main body 101 and at one corner in the longitudinal direction. The power supply base 400 has a substantially rectangular parallelepiped shape, and the power receiving unit 140 provided in the carrying case 100 includes a connection recess 141 which is a space having a substantially rectangular parallelepiped shape corresponding to the outer shape of the power supply base 400.
In this example, the power supply base 400 can be fitted to the power receiving unit 140 by moving the carrying case 100 horizontally (in the direction of arrow B in the figure) along the longitudinal direction.

FIG. 5A is a perspective view showing a state in which the power receiving unit is closed, and FIG. 5B is a perspective view showing a state in which the power receiving unit is open.
As shown in FIG. 5B, the power receiving unit 140 is formed so as to straddle the bottom surface 101a and the side surface 101b located at one end in the longitudinal direction, and is connected to the connection recess 141 that receives the power supply stand 400. Guided portions 143 and 143 formed on the inner surface of the recess 141 and extending along the attachment / detachment direction (longitudinal direction) of the case body 101 with respect to the power supply stand, and the innermost portion (innermost surface) of the connection recess 141 in the attachment / detachment direction. It is provided with a pair of male power receiving terminals 147 and 147 protruding from 145) along the attachment / detachment direction.
The guided portions 143 and 143 shown in this example are formed of ridges extending along the attachment / detachment direction of the carrying case 100 and formed on two opposite inner surfaces, respectively.

As shown in FIGS. 5A and 5B, the case body 101 maintains the flap-shaped lid member 151 that freely opens and closes the connection recess 141, and the lid member 151 in a state where the connection recess 141 is closed. It is provided with a holding piece 157 that supports the hook-and-loop fasteners 153 and 155 and the lid member 151 along the outer surface of the case body 101 so as to be slidable and non-removable.
The lid member 151 is made of a flexible material such as nylon. The lid member 151 is located at a closing position for closing the connection recess 141 across the bottom surface 101a and the side surface 101b of the case body 101, and is located on the side surface 101b side of the case body 101 to open the connection recess 141. Slide to and from the position. The longitudinal direction of the lid member 151 is the sliding direction.
Wide portions 151a and 151a having a width (length in the lateral direction) larger than that of the intermediate portion are formed at each end of the lid member 151 in the longitudinal direction (movement direction). The holding piece 157 is arranged on the side surface of the case main body 101, and holds the intermediate portion of the lid member 151 in the longitudinal direction slidably between the holding piece 157 and the case main body 101. Further, the pressing piece 157 allows the lid member 151 to pass through the intermediate portion in the longitudinal direction, but prohibits the passage of the wide portions 151a and 151a to prevent the lid member 151 from falling off from the case body 101.
A hook-and-loop fastener 153 is arranged adjacent to the connection recess 141 on the bottom surface of the case body 101 and closer to the middle portion in the longitudinal direction than the connection recess 141. Further, a hook-and-loop fastener 155 that is freely attached to and detached from the hook-and-loop fastener 153 is arranged on the wide portion 151a of the lid member 151 that faces the hook-and-loop fastener 153 at the closing position.

FIG. 6 is a perspective view showing a power supply stand.
The power supply base 400 is formed on the outer surface of the guide portions 401 and 401 extending along the attachment / detachment direction of the carrying case 100 and the innermost surface 145 of the connection recess 141 shown in FIG. 5 (b). It is provided with terminal outlets 403 and 403 for receiving power receiving terminals 147 and 147, respectively.
The power supply base 400 has a substantially rectangular parallelepiped shape as in the first embodiment, but may have other shapes.
The guide portions 401 and 401 shown in this example are formed of recesses (groove-shaped guides) that extend along the attachment / detachment direction of the carrying case 100 and are formed on two opposite side surfaces. The guide portions 401 and 401 engage with the guided portions 143 and 143 when the carrying case 100 is attached to and detached from the power supply base 400, and guide the carrying case 100 along the guide portions 401 and 401.

7A and 7B are views for explaining the internal configuration of the power supply stand, FIG. 7A is a diagram showing a state in which the operating pin is projected, and FIG. 7B is a diagram showing a state in which the operating pin is immersed. Note that FIG. 7A shows a partial cross-sectional top view of the power supply stand and a partial cross-sectional top view of FIG. 4, and FIG. 7B shows a partial cross-sectional top view.
Inside the power supply stand 400, the supply of AC power to the female power supply terminals 405 and 405 that receive the power reception terminals 147 and 147 inserted from the terminal outlets 403 and 403 and the power supply terminals 405 and 405 is cut off. It includes a switch 411 that comes into contact with it.
The switch 411 shown in the figure is a double-sided switch that connects and disconnects both the voltage line and the ground wire of the power supply cable 217.
The switch 411 has a fixed electrode 413 and 413 conductively connected to the feeding terminals 405 and 405, a movable electrode 415 and 415 conductively connected to each line (voltage line and ground wire) of the feeding cable 217, and a tip portion 417a. 417a appears and disappears in the guide portions 401 and 401, and when the tip portions 417a and 417a immerse in the feeding base 400, the movable electrodes 415 and 415 come into contact with the fixed electrodes 413 and 413 with the operating pins 417 and 417. , Equipped with.

The operating pins 417a and 417 have a protruding posture in which the tip portions 417a and 417a protrude into the guide portions 401 and 401 (FIG. 7A), and the tip portions 417a and 417a are retracted from the guide portions 401 and 401 to provide a power supply stand. It advances and retreats from the immersive posture (FIG. 7 (b)) immersed in the inside of the 400. The operating pins 417 and 417 are always elastically urged in the protruding direction by elastic urging members 419 and 419 such as coil springs provided inside the power supply base 400.
The tip portions 417a and 417a of the operating pins 417 and 417 are formed in a tapered weight shape. The actuating pins 417 and 417 are pressed by the guided portions 143 and 143 in the process in which the guided portions 143 and 143 (see FIG. 5B) are guided along the guide portions 401 and 401 to take an immersive posture. Further, when the power receiving unit 140 is removed from the power feeding base 400, the external force for pressing the operating pins 417 and 417 is removed, so that the elastic urging members 419 and 419 are in a protruding posture.
The movable electrodes 415 and 415 are composed of conductive leaf springs, and when the operating pins 417 and 417 are in the protruding posture shown in FIG. 7A, they are separated from the fixed electrodes 413 and 413, and the operating pins 417 and 417 are separated from the fixed electrodes 413 and 413. When in the immersive posture shown in (b), it is pressed by the operating pins 417 and 417 to contact and conduct with the fixed electrodes 413 and 413.
Further, when the power receiving unit 140 is fitted to the power feeding base 400 and the power receiving terminals 147 and 147 conduct with the power feeding terminals 405 and 405, the movable electrodes 415 and 415 conduct with the fixed electrodes 413 and 413 to supply power. It is supplied from terminals 405 and 405 to power receiving terminals 147 and 147.

<Effect>
By providing a pair of guide unit 401 and guided unit 143 on the power supply stand and the power receiving unit as in the power supply system according to the present embodiment, the power receiving terminal 123 can be guided to the power supply terminal 205, and both terminals can be guided. Contact and continuity can be ensured. Further, since the guided portion 143 can be restrained by the guide portion 401, when the carrying case 100 is placed on the power supply stand 200, the guide portion 401 and the guided portion 143 are used as a fall prevention means for the carrying case 100. Can work.
In this example, the attachment / detachment direction of the power receiving unit 140 is a direction along the longitudinal direction of the bottom surface of the case body 101, but a direction orthogonal to the bottom surface or another direction may be the attachment / detachment direction. Further, the formation positions and the number of formations of the guide portion 401 and the guided portion 143 are not limited to the above.

[Summary of Examples of Embodiments of the Present Invention, Actions, and Effects]
<First embodiment>
In this embodiment, a carrying case 100 having an equipment accommodating unit 111 accommodating an electric device (notebook personal computer 300) and a power receiving unit 120 for receiving electric power supplied to the electric device, and the power receiving unit are detachably attached. A power supply system 1 including a power supply stand 200, wherein the power supply base includes a power supply terminal 205 connected to a power source and a switch 211 for connecting and disconnecting power to the power supply terminal, and a power receiving unit is attached to the power supply base. It is characterized in that it is provided with an operating means (locking pin 127) for operating a switch to energize the power supply terminal when the switch is turned on, and a power receiving terminal 123 that conducts with the power supply terminal.

When a notebook computer, which is an example of an electric device, is used on the go, it is necessary to drive it with a built-in battery if the AC100V power supply cannot be secured on the go. If you use the built-in battery, you need to charge it.
Conventionally, in order to charge a notebook personal computer, it is necessary to take out the notebook personal computer from the carrying case and connect it to an AC100V power supply, which causes a problem that it takes time and effort. Also, if the laptop is a company fixture and it is required to store it in a lockable cabinet during non-business hours due to security concerns, the time it takes to charge the laptop used on the go. Is the time from when the employee returns to the office to when the employee leaves the office, which means that sufficient charging time cannot be secured. If the built-in battery is insufficiently charged, there is a risk that the notebook computer cannot be driven on the go.
According to this aspect, simply by attaching the carrying case to the power supply stand, the power receiving terminal provided in the power receiving portion of the carrying case conducts with the power supply terminal provided in the power supply stand, so that the electric device does not need to be taken out from the carrying case. , It is possible to supply power to electrical equipment with a simple operation. In addition, if the power supply stand is installed in the cabinet, the notebook computer can be charged simply by storing the carrying case in the specified position in the cabinet, and it is possible to prevent problems caused by insufficient charging. it can.

<Second embodiment>
In the power supply system 1 according to this embodiment, the power supply terminals include a voltage side terminal (power supply terminal 205a) connected to the voltage line 217a of the power supply and a ground side terminal (power supply terminal 205b) connected to the ground wire 217b of the power supply. The switch 211 is characterized in that it connects and disconnects at least the voltage line side.
A switch is a means for connecting and disconnecting power to a power supply terminal. The switch shown in this embodiment energizes the power supply terminal when the carrying case is mounted on the power supply stand, and powers out the power supply terminal when the carrying case is detached from the power supply stand. In this embodiment, when power is supplied to an electric device, the power supply terminal is energized to prevent an electric shock accident.
Here, when the power supply is an AC power supply, one of the two power supply terminals conducts with the voltage line side, and the other conducts with the ground line side. There is a risk of electric shock if the switch is in contact with the terminal that is conductive to the voltage line side, but there is no risk of electric shock if the switch is in contact with the terminal that is conductive to the ground wire side. Can be prevented. However, when connecting to a commercial power source via a general household outlet and plug, the voltage line and the ground line are not always used properly. Therefore, it is desirable that the switch has a configuration in which not only the voltage line side but also the ground wire side is disconnected.

<Third embodiment>
In the power supply system 1 according to this embodiment, one of the power supply stand and the power receiving unit (power receiving unit 100) can freely move the tip portion 127a from the indentation holes 125 provided on the facing surfaces (inner side surfaces 124, 124) with the other. The projecting protrusion (locking pin 127) supported in the above manner and the elastic urging member 129 that elastically biases the projecting protrusion to the protruding posture are provided, and are arranged on the other side of the power supply stand and the power receiving unit (feeding stand 200). , Pressing portions (outer surfaces 208, 208) that press the protruding protrusions during the attachment / detachment process to displace them in the immersive posture, and receiving holes (pin receiving holes 209) that receive the tip portion and maintain the protruding posture when mounting is completed. It is characterized by having.

For example, by making the tip of the infestation protrusion into a tapered pyramid shape, when an external force is applied in a direction intersecting the axial direction of the infestation projection, the infestation projection appears and disappears against the elastic urging force of the elastic urging member. It becomes possible to immerse in the hole.
Therefore, the protruding protrusion in the protruding posture can be displaced to the immersive posture in the process of attaching / detaching, and the protruding protrusion can be displaced to the protruding posture by projecting the tip portion into the receiving hole when the mounting is completed. When the carrying case 100 is removed from the power supply stand, it is necessary to apply an external force that can displace the protruding protrusions in the immersion posture, so that the carrying case can be prevented from being easily detached from the power supply stand.

<Fourth Embodiment>
The power supply system 1 according to this aspect is characterized in that it includes a fall prevention means (fall prevention fence 204) that sandwiches the carrying case 100 in the thickness direction when the power receiving unit 120 is attached to the power supply stand 200.
By supporting the two opposing surfaces of the carrying case by the fall prevention means, the carrying case is prevented from tipping over when mounted on the power supply stand, and the power receiving terminal 125 is prevented from being separated from the power supply terminal 205.

<Fifth embodiment>
The power supply system 2 according to this embodiment includes a guide unit 401 arranged on the power supply base 400 and extending along the attachment / detachment direction of the carrying case 100, and a guided unit 143 arranged on the power receiving unit 140 and guided by the guide unit. It is characterized by having.
By providing the paired guide portion and the guided portion, the power receiving terminal 123 can be guided to the power feeding terminal 205, and the contact and continuity of both terminals can be ensured. Further, since the guided portion can be restrained by the guide portion, when the carrying case is connected to the power supply stand, the guide portion and the guided portion can function as a fall prevention means for the carrying case.

<Sixth Embodiment>
The power supply system 1 according to this embodiment is characterized in that the carrying case 100 is provided with an outlet 131 that conducts with the power receiving terminal 123 and is connected to a plug 307 of an electric device (notebook personal computer 300).
Since the power supply system according to this embodiment is provided with an outlet in the carrying case, it is possible to supply power to various electric devices equipped with the plug through the plug while being housed in the carrying case. In this embodiment, power is supplied to the electric device by the outlet and the plug corresponding thereto, but the electric device may be supplied by using a power supply terminal / power receiving terminal other than the above.

1, 2 ... Power supply system, 100 ... Carrying case, 101 ... Case body, 101a ... Bottom, 101b ... Side, 103 ... Lid member, 105 ... Handle, 107 ... Wire fastener, 109 ... Energizing lamp, 111 ... Equipment housing, 113 ... Movable partition, 115 ... Equipment main body accommodating part, 117 ... Adapter accommodating part, 120 ... Power receiving part, 121 ... Connection recess, 123 ... Power receiving terminal, 124 ... Inner surface, 125 ... Haunting hole, 127 ... Locking pin, 127a ... Tip, 129 ... Elastic urging member, 131 ... Outlet, 133 ... Plug outlet, 135 ... Connection terminal, 137 ... Internal wiring, 140 ... Power receiving part, 141 ... Connection recess, 143 ... Guided part, 145 ... innermost surface, 147 ... power receiving terminal, 151 ... lid member, 151a ... wide part, 153 ... surface fastener, 155 ... surface fastener, 157 ... holding piece, 200 ... power supply stand, 201 ... base part, 203 ... connection base Part, 204 ... Fall prevention fence, 205, 205a, 205b ... Power supply terminal, 207 ... Terminal outlet, 208 ... Outer surface, 209 ... Pin receiving hole, 211 ... Switch, 213 ... Switch body, 215 ... Swing piece, 215a ... one end, 215b ... the other end, 215c ... shaft branch, 217 ... power supply cable, 217a ... voltage line, 217b ... ground wire, 219 ... plug, 300 ... notebook computer, 301 ... AC adapter, 303 ... input cable , 305 ... Output cable, 307 ... Plug, 400 ... Power supply stand, 401 ... Guide part, 403 ... Terminal outlet, 405 ... Power supply terminal, 411 ... Switch, 413 ... Fixed electrode, 415 ... Movable electrode, 417 ... Acting pin 417a ... Tip, 419 ... Elastic urging member

Claims (5)

A carrying case having an equipment accommodating unit for accommodating electrical equipment and a power receiving unit for receiving electric power supplied to the electric equipment.
A power supply system including a power supply stand on which the power receiving unit is detachably mounted.
The feed platform is provided with power supply terminal connected to a power source, before Symbol disconnects switches power to the power feeding terminal, and a guide portion extending along the detaching direction of the carrying case,
The power receiving portion is formed so as to straddle the bottom surface and the side surface of the carrying case, and is formed in a connection recess for receiving the power supply stand and an inner side surface of the connection recess to be guided by the guide portion. It is provided with a guided portion, an operating means for operating the switch to energize the power supply terminal when mounted on the power supply stand, and a power receiving terminal arranged in the connection recess and conducting conduction with the power supply terminal .
It is made of a flexible material and intersects the closing position where the connection recess is closed across the bottom surface and the side surface of the carrying case and the attachment / detachment direction of the carrying case among the bottom surface and the side surface. A power supply system including a lid member that slides along the outer surface of the carrying case with an open position that retracts to the side extending in the direction of the surface to open the connection recess. The power supply terminal includes a voltage side terminal connected to the voltage line of the power supply and a ground side terminal connected to the ground wire of the power supply, and the switch is characterized in that at least the voltage line side is connected and disconnected. The power supply system according to claim 1. The guide portion is a recess, and the guided portion is a protrusion that engages with the recess.
The switch advances and retreats between a protruding posture in which the tip portion protrudes into the guide portion and an immersive posture in which the tip portion immerses in the inside of the power supply stand, and when the tip portion takes the protruding posture, power is supplied to the power supply terminal. An actuating pin that operates so that power is supplied to the power feeding terminal when taking the immersive posture, and an elastic urging member that elastically urges the actuating pin to the protruding posture.
The first or second aspect of the present invention, wherein the guided portion as the operating means presses the operating pin in a process of being guided along the guide portion to bring the operating pin into an immersive posture. Power supply system. The lid member has wide portions at both ends in the sliding direction.
The carrying case includes a holding piece that holds the intermediate portion in the sliding direction so that it can pass through and prohibits the passage of the wide portion.
A claim characterized in that the carrying case and the lid member are provided with a pair of hook-and-loop fasteners that keep the lid member in a closed state when the lid member is in the closed position. The power supply system according to any one of Items 1 to 3. The power supply system according to any one of claims 1 to 4 , wherein an outlet that conducts with the power receiving terminal and is connected to a plug of the electric device is provided inside the carrying case.

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