JP7174937B2 - power supply stand - Google Patents

Description

FIELD OF THE DISCLOSURE The present disclosure relates generally to power stations and, more particularly, to power stations for supplying power to power targets.

Patent Literature 1 discloses a body provided with a plurality of receptacles, a plurality of blade holders for receiving blades of an insertion plug housed in the receptacle and inserted into the receptacle, and a blade extending from the body. A power strip is described that includes a power cord that connects to an external power source.

The table tap disclosed in Patent Document 1 includes a switch for turning on and off electrical connection between a power cord and a plurality of blade rests. In Patent Literature 1, the operating portion of the switch is exposed on the bottom surface of the recess formed on the surface of the body, so when the body is placed on the floor, the body may be stepped on by foot. Also, erroneous operation of the switch is suppressed.

JP 2015-5367 A

For example, in an environment such as a living room in a house, when freely arranging a power supply source to a power supply target such as a mobile terminal, the table tap as described above is used while being placed on the floor or the like. There is In such a case, if the power supply part (body) of the power strip is stepped on by a person's foot, or if liquid is spilled on the floor, etc., the power supply part may be splashed with liquid, which may cause the power supply part to malfunction. It may cause trouble.

The present disclosure has been made in view of the above reasons, and an object thereof is to provide a power supply stand in which problems such as failures are unlikely to occur even when the source of power supply to a power supply target is freely arranged.

A power supply stand according to an aspect of the present disclosure includes a main body and a support. The body portion has a power supply portion for supplying power to a power supply target. The support portion supports the body portion so that the body portion stands on the installation surface. The power supply stand is a self-supporting power supply stand placed on the installation surface in a portable manner. The power supply stand further comprises a battery for supplying power to the power supply and a charging circuit . The battery is a secondary battery that is charged by the charging circuit.
A power supply stand according to another aspect of the present disclosure includes a main body and a support. The body portion has a power supply portion for supplying power to a power supply target. The support portion supports the body portion so as to allow the body portion to stand on the installation surface. The power supply stand is a self-supporting power supply stand placed on the installation surface in a portable manner. The power supply stand further includes a battery housing section to which a battery for supplying power to the power supply section can be attached and detached , and a charging circuit . The battery is a secondary battery that is charged by the charging circuit.

The present disclosure has the advantage that problems such as failures are less likely to occur even when the source of power supply to the power supply target is freely arranged.

1A is a perspective view of a power supply stand according to Embodiment 1 in a contracted state, and FIG. 1B is a perspective view of the power supply stand in an extended state. 2A is a front view of a power supply stand according to Embodiment 1, and FIG. 2B is a right side view of the same power supply stand. FIG. 3 is a schematic diagram showing a usage example of the power supply stand same as the above. 4A is an enlarged perspective view of a main part of the power supply stand before connecting the power supply cord, and FIG. 4B is an enlarged perspective view of a main part of the power supply stand after the power supply cord is connected. FIG. 5 is a block diagram showing a schematic configuration of a main body of the power supply stand; FIG. 6A is a perspective view before temporary fixation showing a main part of a power supply stand according to a first modification of Embodiment 1, and FIG. 6B is a perspective view after temporary fixation showing a main part of the same power supply stand. 7 is a perspective view of a power supply stand according to a second modification of the first embodiment; FIG. 8 is a perspective view of a power supply stand according to a third modification of the first embodiment; FIG. 9 is a perspective view of a power supply stand according to Embodiment 2. FIG. 10A is a schematic perspective view showing a usage example of the power supply stand, and FIG. 10B is a schematic perspective view showing a usage example of the power supply stand according to the modified example of the second embodiment. 11A is a right side view of the power supply stand according to Embodiment 2 with a pressure receiving portion having a small protrusion amount, and FIG. 11B is a right side view of the power supply stand having a pressure receiving portion with a large protrusion amount. 12A is a perspective view of a state in which a power supply stand according to Embodiment 3 is removed from a charging base, and FIG. 12B is a perspective view of a state in which the same power supply stand is placed on the charging base. 13A is an enlarged perspective view of a main part of a power supply stand according to a first modification of Embodiment 3, and FIG. 13B is an enlarged perspective view of a main part of a power supply stand according to a second modification of Embodiment 3. FIG. be. 14A is an enlarged perspective view of a main part showing a state in which the battery of the power supply stand according to the third modification of Embodiment 3 is removed, and FIG. 14B is a main part showing a state in which the battery of the power supply stand is installed; 1 is an enlarged perspective view of FIG.

(Embodiment 1)
(1) Outline A power supply stand 1 (see FIG. 1A) according to the present embodiment is a device for supplying power to a power supply target 92 (see FIG. 3). The “power supply target” in the present disclosure is, for example, various home appliances such as vacuum cleaners, air cleaners and personal computers, mobile terminals such as tablet terminals, smartphones and mobile phones, and chargers for mobile terminals. In other words, the power supply target 92 receives power supply from the power supply station 1 .

The power supply stand 1 is used while placed on an installation surface 91 (see FIG. 3) such as the floor surface of a living room of a house, for example. As shown in FIGS. 1A and 1B, the power supply stand 1 includes a portable body portion 3 having a power supply portion 2 for supplying power to a power supply target 92, and a support portion 4 for supporting the body portion 3. Prepare. The support portion 4 supports the main body portion 3 so that the main body portion 3 stands on the installation surface 91 in a state where it is placed on the installation surface 91 .

That is, the power supply stand 1 according to the present embodiment is a power supply device in which at least the main body portion 3 is a self-supporting and portable power supply device, and a user 93 (see FIG. 3) freely carries the power supply stand 1 to set it on the installation surface 91. Can be installed in any position. As a result, for example, in an environment such as a living room in a house, it is possible to freely arrange the power supply source for the power supply target 92 such as a mobile terminal. Moreover, the power supply stand 1 is installed so that the main body part 3 having the power supply part 2 is supported by the support part 4 and stands on the installation surface 91 . Therefore, in the power supply stand 1 , problems such as failure of the power supply unit 2 may occur due to the power supply unit 2 being stepped on by a person's foot or being splashed with liquid when the liquid is spilled on the installation surface 91 . It has the advantage of being difficult.

(2) Details Hereinafter, the configuration of the power supply stand 1 according to the present embodiment will be described in detail with reference to FIGS. 1A to 5. FIG.

The power supply stand 1 includes the portable body portion 3 and the support portion 4 as described above. The body portion 3 has a power supply portion 2 for supplying power to a power supply target 92 (see FIG. 3). The support portion 4 supports the main body portion 3 so that the main body portion 3 stands on the installation surface 91 in a state where it is placed on the installation surface 91 (see FIG. 3). The “stationary state” as used in the present disclosure means a state in which the device is positioned at a specific position such as a floor surface. That is, the support portion 4 is installed in a state where it should be placed at any position on the installation surface 91 rather than being movable on the installation surface 91 by casters or the like. Therefore, the power supply stand 1 according to the present embodiment is used in a state of being self-supporting on an installation surface 91 such as a floor surface of a living room of a house, for example, even though it is portable.

Hereinafter, the direction perpendicular to (perpendicular to) the horizontal surface when the power supply stand 1 is placed on the installation surface 91, which is the floor surface, will be referred to as the "vertical direction", and the downward direction (perpendicular) in the vertical direction will be referred to as the "downward direction". ”. Also, in the power supply stand 1, the surface on which the plurality of connection ports 21 to 24 (described later) of the power supply unit 2 are provided is the front surface, the right side as viewed from the front of the power supply stand 1 is the "right side", and the left side is the "right side". Described as "left". The arrows indicating "vertical direction", "front-rear direction", and "left-right direction" in the drawings are only shown for explanation and are not substantial. However, these directions are not meant to limit the direction of use (installation direction) of the power supply stand 1 . For example, the “front” defined here may be the right or left side as viewed from the user 93 in the actual usage of the power supply stand 1 .

The power supply unit 2 has a plurality of connection ports 21 to 24 for connecting power supply targets 92, respectively. The plurality of connection ports 21 to 24 are arranged so as to line up along the up-down direction (vertical direction). In this embodiment, as an example, the four connection ports 21 to 24 are arranged on the front surface 301 of the main body 3 so as to line up vertically.

In this embodiment, each of the upper two connection ports 21 and 22 of the four connection ports 21 to 24 is a USB receptacle into which a USB (Universal Serial Bus) plug can be inserted. Each of these two connection ports 21 and 22 is configured to output a DC voltage of 5 [V] to a power supply target 92 through a USB plug. Each of the two lower connection ports 23 and 24 among the four connection ports 21 to 24 is an outlet into which an A-type outlet plug having a pair of blades can be inserted and connected. Each of these two connection ports 23 and 24 is configured to output an AC voltage of 100 [V] to the power supply target 92 through an outlet plug. That is, the power supply unit 2 is configured to be able to output both DC power and AC power, and outputs DC power or AC power from any of the four connection ports 21 to 24 according to the power supply target 92. .

The “power supply unit” referred to in the present disclosure only needs to have a function of supplying at least one of AC power and DC power to the power supply target 92, and is similar to a USB receptacle and outlet (Outlet). is not limited to a configuration having a terminal for electrically connecting the . For example, the power supply unit 2 may be a power supply port or the like for non-contact power supply using a magnetic resonance method or an electromagnetic induction method.

The vertical (vertical) dimension of the body portion 3 is greater than both the front-rear dimension and the lateral dimension of the body portion 3 . That is, the body portion 3 is formed in a so-called vertically elongated shape that is elongated in the vertical direction. In this embodiment, the lower end portion of the main body portion 3 is fixed to the support portion 4 by a method such as adhesion or screws, for example.

Further, the body portion 3 has a fixed portion 31 and a movable portion 32 . The fixed portion 31 is fixed to the support portion 4 . The movable portion 32 is relatively movable in the vertical direction (vertical direction) with respect to the fixed portion 31 . That is, as shown in FIGS. 1A and 1B, the body portion 3 has a movable portion 32 that moves vertically.

Specifically, the fixed portion 31 has a base portion 311 and a pole portion 312 . The base portion 311 is fixed to the support portion 4 . The base portion 311 is a resin molded product having a triangular shape when viewed from the side. The pole portion 312 is a portion extending upward from the upper surface of the base portion 311 . The pole portion 312 is a rectangular parallelepiped resin molded product that is long in the vertical direction and flat in the front-rear direction. Here, the base portion 311 and the pole portion 312 are integrated.

The movable section 32 has a case 321 and a back panel 322 . The case 321 is a rectangular parallelepiped resin molded product that is long in the vertical direction and flat in the front-rear direction. As shown in FIGS. 2A and 2B, the case 321 is positioned directly above the pole portion 312 of the fixing portion 31 so as to give a sense of unity with the pole portion 312 in appearance, and is also located in a plan view together with the pole portion 312 . They are configured in the same shape. The back panel 322 is a plate-shaped resin molded product that is elongated in the vertical direction and curved so that the central portion in the horizontal direction is convex rearward. The case 321 is fixed on the front surface of the back panel 322 at a position above the center in the vertical direction. The back panel 322 is held by the fixed portion 31 via a slide mechanism so as to be vertically movable along the rear surface of the fixed portion 31 . The slide mechanism is realized, for example, by using a telescopic mechanism such as a telescopic structure in which a plurality of cylindrical bodies having different opening areas are superimposed, or by using a slide rail or the like.

With the above configuration, as the back panel 322 moves relative to the fixing portion 31 as indicated by arrow A1 in FIG. 1B, the case 321 moves up and down together with the back panel 322 . That is, when the back panel 322 moves upward, the case 321 moves away from the pole portion 312 , and when the back panel 322 moves downward, the case 321 moves toward the pole portion 312 . Therefore, when the movable portion 32 moves in the vertical direction, the main body portion 3 expands and contracts so that the vertical dimension of the main body portion 3 changes when the main body portion 3 as a whole is viewed.

FIG. 1A shows a state in which the movable portion 32 is positioned at the lower end of the movement range, that is, a "shortened state" in which the main body portion 3 is contracted, and FIG. In other words, it shows the “stretched state” in which the body portion 3 is stretched. In other words, the height of the power supply stand 1 is minimized when the body portion 3 is in the contracted state, and the height of the power supply stand 1 is maximized when the body portion 3 is in the extended state. In this embodiment, as an example, the height of the power supply stand 1 is 600 [mm] in the shortened state and 850 [mm] in the extended state. When the body portion 3 is in the shortened state, the back panel 322 covers the entire rear surface of the case 321 and the fixed portion 31 . Therefore, the front surface of the case 321 and the fixing portion 31 constitutes the front surface 301 of the main body 3 , and the rear surface of the back panel 322 constitutes the rear surface 302 of the main body 3 .

Here, the power feeding portion 2 is provided in the movable portion 32 of the fixed portion 31 and the movable portion 32 that constitute the main body portion 3 . Specifically, the power feeding section 2 is provided on the front surface of the case 321 of the movable section 32 (the front surface 301 of the main body section 3). In other words, the power supply portion 2 is arranged at a position above at least the fixing portion 31 in the main body portion 3 . The vertical movement of the movable portion 32 changes the height of the power supply portion 2 from the installation surface 91 . In this embodiment, the power supply unit 2 has a plurality of plug-in connection ports 21 to 24, so that the plurality of connection ports 21 to 24 provided on the front surface 301 of the main unit 3 are connected to the power supply target 92. plug is inserted from the front.

The support portion 4 is a plate-like member fixed to the lower surface of the fixing portion 31 (base portion 311). In other words, the base portion 311 is supported by the support portion 4 so as to protrude upward from the upper surface of the support portion 4 . In this embodiment, the lateral dimension of the front end portion of the support portion 4 is set larger than the lateral dimension of the rear end portion of the support portion 4, and the support portion 4 has a T shape in plan view. .

Here, the projection point of the center of gravity of the main body portion 3 onto the upper surface of the support portion 4 is positioned between the center portion and the rear end portion of the upper surface of the support portion 4 in the front-rear direction. That is, the projection point obtained by projecting the center of gravity of the body portion 3 in the vertical direction is set not at the center portion of the upper surface of the support portion 4 but at a position closer to the rear end portion. As a result, even if the power supply stand 1 overturns, the power supply stand 1 is less likely to overturn toward the front surface 301 side of the main body 3 on which the power supply unit 2 is provided, that is, toward the front.

The power supply stand 1 according to this embodiment further includes a power supply cord 5 (see FIG. 3) for supplying power to the power supply section 2 . The body portion 3 has a power receiving portion 6 for electrically connecting the power supply cord 5 . The power receiving portion 6 is provided on the movable portion 32 of the fixed portion 31 and the movable portion 32 that constitute the main body portion 3 , similarly to the power feeding portion 2 . In other words, the movable portion 32 has the power receiving portion 6 for electrically connecting the power supply cord 5 .

Here, like the power supply unit 2 , the power reception unit 6 is provided in the case 321 of the movable unit 32 . Further, the power receiving section 6 is arranged on the front surface 301 of the main body section 3 so as to be vertically aligned with the four connection ports 21 to 24 of the power feeding section 2 . The power receiving unit 6 is arranged below the lowermost connection port 24 among the four connection ports 21 to 24 . Specifically, a slightly recessed portion below the connection port 24 on the front surface of the case 321 constitutes the power receiving unit 6 . The power receiving unit 6 has a pair of power receiving terminals 61 .

A pair of terminals 51 (see FIG. 4A) of the power supply cord 5 to be described later are brought into contact (connected) to the pair of power reception terminals 61 , thereby electrically connecting the power supply cord 5 to the power reception unit 6 . Since the end of the power supply cord 5 opposite to the pair of terminals 51 is connected to an external power supply, power is supplied from the external power supply to the power receiving unit 6 via the power supply cord 5 . In this embodiment, an AC voltage of 100 [V] is applied to the power receiving unit 6 from an external power supply.

A pair of power receiving terminals 61 of the power receiving section 6 are electrically connected to the four connection ports 21 to 24 of the power feeding section 2 inside the case 321 . In this embodiment, each of the upper two connection ports 21 and 22 is a USB receptacle, so the power supply unit 2 has an AC/DC conversion unit 20 (see FIG. 5) that converts AC voltage into DC voltage. is doing. AC/DC converter 20 is connected between power receiver 6 and connection ports 21 and 22 . That is, the AC voltage of 100 [V] from the external power supply to the power receiving unit 6 is converted into the DC voltage of 5 [V] by the AC/DC converter 20 and supplied to the connection ports 21 and 22 .

For example, as shown in FIG. 3, the power supply stand 1 configured as described above is used in a self-supporting state on an installation surface 91, which is the floor surface of a room in a house. In the example of FIG. 3 , when a user 93 is sitting on a sofa 94 and using a tablet terminal that is a power supply target 92 , power is supplied to the power supply target 92 from the power supply stand 1 . In the example of FIG. 3, the uppermost connection port 21 among the four connection ports 21 to 24 is used, and DC power is supplied from the power supply unit 2 to the power supply object 92 .

That is, in FIG. 3 , the power supply stand 1 is installed near the sofa 94 on the installation surface 91 . That is, since at least the body portion 3 of the power supply stand 1 is portable, the power supply stand 1 can be installed at any position on the installation surface 91 according to the layout of the furniture, etc., as shown in the example of FIG. , it is easy to install the power supply stand 1 near the user 93 . As a result, the user 93 can freely arrange the source of power supply to the power supply target 92 in an environment such as a living room of a house. In addition, since the power supply stand 1 is self-supporting, the area occupied by the power supply stand 1 on the installation surface 91 can be kept small, and the power supply stand 1 is less likely to be an obstacle when the user 93 moves around the living room. . In addition, in the power supply stand 1 , problems such as failure of the power supply part 2 may occur due to the power supply part 2 being stepped on by a person's foot or being splashed with liquid when the liquid is spilled on the installation surface 91 . Hateful.

Here, in the example of FIG. 3, since the body portion 3 is in the shortened state, the height H1 of the power supply stand 1 is 600 [mm]. In this state, the lower end of the power supply unit 2 (connection port 24 at the bottom) may interfere with the armrests of the sofa 94 . In order to avoid interference between the power supply unit 2 and the armrests of the sofa 94, the movable unit 32 should be moved upward until the height H1 of the power supply stand 1 reaches about 700 mm. As a result, the lower end of the power supply unit 2 (connection port 24 at the bottom) is positioned above the armrests of the sofa 94, and interference between the power supply unit 2 and the armrests of the sofa 94 can be avoided. Further, in the present embodiment, as shown in FIG. 3, the power supply cord 5 is drawn out from the main body 3 downward. Therefore, the power supply cord 5 is pulled out from the main body 3 along the front surface 301 of the main body 3, and compared to the structure in which the power supply cord 5 is pulled out from the main body 3 to the front of the main body 3, the power supply cord 5 is Hard to get in the way.

Although FIG. 3 shows an example in which the power supply stand 1 is installed near the sofa 94, this is not intended to limit the manner in which the power supply stand 1 is used. For example, the power supply stand 1 may be installed near a bed, low table, kitchen counter, or the like, or at a position away from furniture.

By the way, the power supply cord 5 has a pair of terminals 51 and a connector housing 52, as shown in FIGS. 4A and 4B. A pair of terminals 51 are provided at one end of the power supply cord 5 . The connector housing 52 holds a pair of terminals 51 . In the present embodiment, the connector housing 52 is a rectangular parallelepiped resin molded product, and the pair of terminals 51 are provided on one surface of the connector housing 52 . An outlet plug is provided at the end of the power supply cord 5 opposite to the connector housing 52 . Therefore, for example, the outlet plug of the power supply cord 5 is connected to an external power source such as an outlet installed on the wall of a room or the like, and the pair of terminals 51 are connected to the pair of power receiving terminals 61 of the power receiving unit 6. As a result, power is supplied from the external power source to the power receiving unit 6 .

Further, as shown in FIGS. 4A and 4B, the power supply stand 1 mechanically couples the power supply cord 5 to the power reception unit 6 by magnetic force while the power supply cord 5 is electrically connected to the power reception unit 6. A coupling structure 7 is further provided. The joint structure 7 is composed of a pair of metal plates 71 and a pair of magnets 72 . A pair of metal plates 71 are embedded around the pair of terminals 51 in the connector housing 52 . The pair of magnets 72 are embedded around the pair of power receiving terminals 61 in the power receiving portion 6 . The pair of metal plates 71 are made of a ferromagnetic material such as iron, for example, and are attracted to the pair of magnets 72 by the magnetic force of the pair of magnets 72 when brought close to the pair of magnets 72 . When the connector housing 52 is attracted to the power receiving portion 6 , the pair of terminals 51 are electrically connected to the pair of power receiving terminals 61 .

Further, the power supply stand 1 according to the present embodiment further includes a detection section 11 and a stop section 12, as shown in FIG. The detector 11 detects the orientation of the main body 3 . The stopping unit 12 stops the power supply from the power supply unit 2 to the power supply target 92 based on the posture of the main body unit 3 detected by the detection unit 11 . In this embodiment, the detecting section 11 and the stopping section 12 are accommodated in the case 321 of the movable section 32 in the main body section 3 .

The detection unit 11 is, for example, an inclination sensor that detects the inclination of the main body 3 with respect to the vertical direction using an acceleration sensor, a gyro sensor, or the like. Stop unit 12 is, for example, a switch (including a semiconductor switch and a relay) connected between power receiving unit 6 (pair of power receiving terminals 61 ) and power supply unit 2 . When the detector 11 detects that the inclination of the main body 3 exceeds a predetermined value, the stopping part 12 is turned off, thereby disconnecting the power receiving part 6 (the pair of power receiving terminals 61 ) and the power feeding part 2 . In this configuration, when the main body 3 overturns or is about to overturn, the detector 11 detects the inclination of the main body 3 and actuates the stop 12 . As a result, it is possible to prevent the body portion 3 from overturning while the power supply portion 2 is being energized.

(3) Modifications The power supply stand 1 according to Embodiment 1 is merely one of various embodiments of the present disclosure. The power supply stand 1 according to Embodiment 1 can be modified in various ways according to design or the like as long as the object of the present disclosure can be achieved. Modifications of the first embodiment are listed below. Modifications described below can be applied in combination as appropriate.

(3.1) First Modification A power supply stand 1A according to a first modification of Embodiment 1, as shown in FIGS. different from 1. The fixing structure 41 is a structure for fixing the support portion 4 at a fixed position on the installation surface 91 . The “fixing structure” referred to in the present disclosure is a structure for fixing the support portion 4 to the installation surface 91 in a state in which the layout (arrangement) of the power supply stand 1A can be changed. That is, the fixing structure 41 temporarily fixes the main body 3 to the installation surface 91 instead of completely fixing the support portion 4 to the installation surface 91 by, for example, embedding or adhesion. By temporarily fixing the support portion 4 with the fixing structure 41, the power supply stand 1A is less likely to overturn.

In the example of FIG. 6A , the fixing structure 41 is composed of a pair of holes 411 and a pair of bolts 412 formed in the support portion 4 . Each of the pair of holes 411 is a hole that is formed at each end in the left-right direction of the front end of the support portion 4 and is opened outward in the left-right direction. As shown in FIG. 6B, the pair of bolts 412 are fitted into threaded holes (nuts) provided in the installation surface 91 while passing through the support portion 4 in the thickness direction (vertical direction) through the pair of holes 411. By (screwing), the support portion 4 is fixed at a fixed position on the installation surface 91 .

The fixing structure 41 is not limited to the examples shown in FIGS. 6A and 6B, as long as it temporarily fixes the power supply stand 1A. etc. In addition, as will be described in detail in the second embodiment, a fixing structure 41 for fixing the support portion 4 at a fixed position on the installation surface 91 by allowing the support portion 4 to be stepped on furniture such as a desk 95 (see FIG. 10A). is realized.

(3.2) Second Modification As shown in FIG. 7, a power supply stand 1B according to a second modification of Embodiment 1 is different from that of Embodiment 1 in that the main body portion 3 has a top plate portion 33. It differs from Stand 1.

The top plate portion 33 is provided at the upper end portion of the main body portion 3 . In the example of FIG. 7 , the top plate portion 33 is a disk-shaped resin molded product and is fixed to the upper end portion of the front surface of the back panel 322 so as to be positioned above the case 321 . Here, the top plate portion 33 protrudes further forward from the front surface 301 of the main body portion 3 on which at least the power supply portion 2 is provided.

With this configuration, even if the power supply stand 1B falls forward, i.e., on the front surface 301 side of the main body 3 where the power supply unit 2 is provided, the top plate part 33 serves as a support and the front surface of the main body 3 is supported. A gap is secured between 301 and installation surface 91 . Therefore, even if the power supply stand 1B falls forward, damage to the USB plug or outlet plug connected to the power supply unit 2 by hitting the installation surface 91 is reduced.

Furthermore, in the example of FIG. 7 , the top plate portion 33 also functions as a stand for mobile terminals such as a tablet terminal, a smart phone, and a mobile phone as power supply targets 92 electrically connected to the power supply portion 2 . In other words, for example, a portable terminal being charged can be placed on the top plate portion 33 .

(3.3) Third Modification As shown in FIG. 8, a power supply stand 1C according to a third modification of Embodiment 1 differs from the power supply stand 1 according to Embodiment 1 in that it further includes a battery 13. . Battery 13 supplies power to power supply unit 2 . The "battery" referred to in the present disclosure includes, for example, primary batteries, secondary batteries, solar batteries, and the like. That is, the power supply stand 1</b>C according to the third modification can supply power from the power supply unit 2 to the power supply target 92 without receiving power supply from an external power supply through the power supply cord 5 .

In the example of FIG. 8 , the battery 13 is housed in the base portion 311 of the fixed portion 31 . The battery 13 is, for example, a secondary battery, and is attached to the main body 3 (base part 311) in a detachable manner. Therefore, the battery 13 can be used repeatedly by charging the battery 13 that has been removed from the main body 3 . The power supply stand 1</b>C includes a discharge circuit that supplies the power output from the battery 13 to the power supply section 2 . The discharge circuit includes, for example, an inverter or the like that converts the DC voltage output from the battery 13 into an AC voltage. Further, in the example of FIG. 8, the power receiving unit 6 is omitted, and a connection port 25 similar to the connection ports 23 and 24 is provided at the position where the power receiving unit 6 was arranged in the power supply stand 1 according to the first embodiment. is provided.

However, the power supply stand 1C is not limited to the example described above, and may include the power receiving unit 6 for electrically connecting the power supply cord 5, like the power supply stand 1 according to the first embodiment. In this case, since the power supply stand 1</b>C includes a charging circuit, power for charging the battery 13 can be supplied from the external power supply via the power supply cord 5 .

(3.4) Other Modifications The power supply stand 1 may further include an operation switch for individually or collectively turning on/off the energization state of the plurality of connection ports 21 to 24 . In this case, when the connection ports 21 to 24 are not in use, the user 93 can operate the operation switch to stop power supply to the power supply unit 2 (connection ports 21 to 24). Furthermore, the power supply stand 1 may be provided with, for example, a human sensor or a timer. may be turned on/off at once or collectively.

In addition, the power supply stand 1 may further include a display section for individually or collectively displaying the energized states of the plurality of connection ports 21 to 24 . The display unit is implemented using, for example, an LED (Light Emitting Diode) or the like. For example, the display unit may be configured to always light while the power receiving unit 6 is energized, regardless of the state of energization of the plurality of connection ports 21 to 24 .

Further, in Embodiment 1, the lower end portion of the main body portion 3 and the support portion 4 are fixed to each other. Even in this case, the main body portion 3 is supported by the support portion 4 so that the power supply stand 1 can stand on its own on the installation surface 91 . Further, the lower end portion of the main body portion 3 may be formed integrally with the support portion 4 .

Moreover, the detection unit 11 and the stop unit 12 may be integrated. For example, the detection unit 11 and the stop unit 12 may be realized by a photo sensor or a turnover switch using a metal ball or the like. In this case, the overturn switch detects the posture (upright/overturned) of the main body 3 and stops the power supply from the power supply unit 2 when the overturn of the main body 3 is detected.

Moreover, the power supply stand 1 is not limited to residential use, and may be used in non-residential facilities such as shops, offices, and factories. Furthermore, the power supply stand 1 is not limited to being used indoors such as a living room, and may be used outdoors. When used outdoors, the installation surface 91 is, for example, a terrace, a wooden deck, or the ground. When used outdoors, the power supply stand 1 preferably adopts an appropriate waterproof structure.

In addition, the power supply unit 2 (connection ports 23 and 24) is not limited to an outlet for AC 100 [V] without a grounding electrode. Or it may be an outlet for direct current (Outlet). Furthermore, the power supply unit 2 (connection ports 23, 24) is not limited to the A type outlet (outlet), and for example, an outlet (e.g., B type or C type) to which a plug having a pin-shaped blade can be connected. Outlet).

Further, the power supply unit 2 is not limited to a configuration having four connection ports 21 to 24, and may have a configuration having one, two, or three connection ports, or a configuration having five or more connection ports. may be

Further, the end of the power supply cord 5 opposite to the connector housing 52 may be provided with, for example, a harness plug instead of an outlet plug that can be connected to an outlet. The harness plug is connected to an external power supply such as a joint box provided under the floor in a free access floor (double floor) or the like where wiring is laid under the floor. As a result, power is supplied to the power receiving unit 6 via the power supply cord 5 from an external power source such as a joint box.

Also, a plurality of power supply stands 1 may be provided. In this case, a plurality of power supply stands 1 connected to the installation surface 91 may be electrically connected by feed wiring.

Moreover, the power receiving unit 6 may be provided on the supporting unit 4 . The power supply cord 5 may not be included in the components of the power supply stand 1 . Furthermore, the power supply cord 5 may be pulled out from the body portion 3 or the support portion 4 in a state where it cannot be removed from the body portion 3 or the support portion 4 .

Further, the power supply portion 2 is not limited to the front surface 301 of the main body portion 3, and may be provided on the rear surface 302, upper surface, right side surface, or left side surface of the main body portion 3, for example. Furthermore, the power supply units 2 may be provided dispersedly on a plurality of surfaces of the main body 3 .

The power supply stand 1 may further include a cover that covers the power supply unit 2 when the power supply stand 1 is not in use. The cover may cover each of the plurality of connection ports 21-24 individually, or may cover the plurality of connection ports 21-24 collectively.

(Embodiment 2)
In the power supply stand 1D according to the present embodiment, as shown in FIG. 9, the body portion 3 does not include a fixed portion 31 (see FIG. 1A) and a movable portion 32 (see FIG. 1A) that are relatively movable. , is different from the power supply stand 1 according to the first embodiment. Hereinafter, the same reference numerals are used for the same configurations as in the first embodiment, and the description thereof is omitted as appropriate.

The body portion 3 of the power supply stand 1D has a first block 34, a second block 35, and a third block 36. As shown in FIG. The first block 34 corresponds to the fixed portion 31 in Embodiment 1 and is fixed to the support portion 4 . The first block 34 is a rectangular parallelepiped resin molded product that is long in the vertical direction and flat in the front-rear direction. The second block 35 corresponds to the case 321 in the first embodiment, and is a rectangular parallelepiped resin molded product that is long in the vertical direction and flat in the front-rear direction. The third block 36 corresponds to the back panel 322 in the first embodiment, and is a plate-shaped resin molded product that is elongated in the vertical direction and curved so that the central portion in the horizontal direction is convex rearward. . The first block 34 and the second block 35 are aligned vertically and fixed to the front surface of the third block 36 so that the second block 35 is positioned above the first block 34 .

In this embodiment, the power receiving unit 6 (see FIG. 11A) is provided in the first block 34 . More specifically, the power receiving unit 6 is provided on the right side surface of the lower end of the first block 34 . Therefore, the power supply cord 5 is pulled out from the lower end portion of the first block 34 as shown in FIG. On the other hand, the power feeding section 2 is provided in the second block 35 .

Here, the body portion 3 further has a constricted portion 37 at a portion in the vertical direction (vertical direction), the size of which is smaller than that of the other portion of the body portion 3 in the front-rear direction or the left-right direction. In this embodiment, a gap of a predetermined width is provided between the upper surface of the first block 34 and the lower surface of the second block 35, and the part of the third block 36 corresponding to this gap is the constricted portion 37. configure. That is, the main body portion 3 has a smaller front-to-rear dimension in the gap between the first block 34 and the second block 35 than other portions, and this portion constitutes the constricted portion 37 .

For example, as shown in FIG. 10A, the power supply stand 1D configured as described above is used in a self-supporting state on an installation surface 91, which is the floor surface of a room in a house. In the example of FIG. 10A, a power supply stand 1D is installed near a desk 95 that is furniture, and it is assumed that a user sitting on a chair 96 uses the power supply stand 1D. "Furniture" as used in the present disclosure is not limited to the desk 95, and includes, for example, a chair 96, a storage shelf, a partition, and the like. In the example of FIG. 10A, the desk 95 is installed near the wall 97, and the power supply stand 1D is placed between the desk 95 and the wall 97 with the rear surface 302 (see FIG. 11A) of the main body 3 facing the wall 97. installed in the gap.

Here, the support portion 4 of the power supply stand 1D is stepped on by the leg portion 952 of the desk 95 . As a result, the support portion 4 is fixed (temporarily fixed) at a fixed position on the installation surface 91, so that the power supply stand 1D is less likely to topple over. That is, the support portion 4 itself functions as a fixing structure for fixing the support portion 4 at a fixed position on the installation surface 91 . In this embodiment, the thickness of the support portion 4 is set to be smaller (thinner) than in the first embodiment so that furniture such as the desk 95 can step on the support portion 4 .

Moreover, as described above, the power receiving unit 6 (see FIG. 11A) is provided on the right side surface of the lower end portion of the first block 34 . However, the power receiving unit 6 may be provided on the front surface or the left side surface of the first block 34 . That is, the power receiving unit 6 is arranged on the front surface 301 of the main body 3 and at least one side surface (the right side surface in this embodiment) of both side surfaces in the left-right direction. Therefore, the power supply stand 1</b>D can be installed near the wall 97 with the rear surface 302 of the main body 3 facing the wall 97 while avoiding interference between the power supply cord 5 and the wall 97 . Moreover, since the power supply cord 5 is pulled out from the main body 3 along the wall 97, the power supply cord 5 is less likely to be an obstacle.

Here, the height H2 of the power supply stand 1D is 850 [mm] as an example. On the other hand, the height H11 of the upper surface 953 of the top plate 951 of the desk 95 is generally about 700 [mm]. Therefore, as shown in FIG. 10A , at least part of the main body 3 protrudes upward from the upper surface 953 of the top plate 951 of the desk 95 . In other words, the main body 3 has a protrusion that protrudes upward from a plane including the upper surface 953 of the furniture (desk 95 ) placed on the installation surface 91 . In this embodiment, the position of the top plate 951 coincides with the position of the constricted portion 37 of the main body portion 3 in the vertical direction, and the end portion of the top plate 951 is inserted between the first block 34 and the second block 35 . be That is, the constricted portion 37 is sandwiched between the top plate 951 and the wall 97 . Therefore, the second block 35 constitutes a protrusion. Here, the power feeding portion 2 is provided on the projecting portion (the second block 35). Therefore, interference between the power supply unit 2 and the furniture (desk 95) can be avoided, and the usability of the power supply unit 2 is improved.

Also, FIG. 10B shows a usage example of the power supply stand 1E according to the modification of the second embodiment. This power supply stand 1E is installed below the top plate 951 of the desk 95 . The height H12 of the lower surface of the top plate 951 of the desk 95 is generally 620 [mm] or more. Therefore, the height H3 of the power supply stand 1E is set to 600 [mm] as an example. As a result, the power supply stand 1E can be installed so as to fit under the top plate 951, as shown in FIG. 10B.

By the way, the power supply stand 1D according to the present embodiment is assumed to be installed near the wall 97 with the rear surface 302 of the main body 3 facing the wall 97 as described above. It uses one configuration.

As a first configuration, as shown in FIG. 11A , the power supply portion 2 is provided on the front surface 301 of the main body portion 3, and the rearward projection amount of the support portion 4 from the rear surface 302 of the main body portion 3 is It is smaller than the forward projection amount of the support portion 4 from the front surface 301 of the main body portion 3 . Specifically, the rearward protrusion amount of the support portion 4 from the rear surface 302 of the main body portion 3 is set to several centimeters or less. In the present embodiment, as shown in FIG. 11A, the rear surface 302 of the main body 3 and the rear surface of the support 4 are flush with each other, so the amount of rearward projection of the support 4 from the rear surface 302 of the main body 3 is 0 [cm]. Therefore, when the power supply stand 1D is installed near the wall 97, the gap between the rear surface 302 of the main body 3 and the wall 97 can be kept small, and the power supply stand 1D can be stably installed.

As a second configuration, as shown in FIG. It further has a pressure receiving portion 38 protruding rearward. That is, the pressure receiving portion 38 is provided on the back side of the power supply portion 2 in the body portion 3 and protrudes rearward from the rear surface 302 of the body portion 3 . Therefore, even if there is a gap corresponding to the thickness of the baseboard 98 between the rear surface 302 of the main body 3 and the wall 97, the pressure receiving portion 38 can fill the gap.

Here, in this embodiment, the amount of protrusion of the pressure receiving portion 38 from the rear surface 302 of the main body portion 3 is variable. As an example, the pressure receiving portion 38 is connected to the body portion 3 with a "screw" like an adjuster bolt. Therefore, by rotating the pressure receiving portion 38, the amount of protrusion of the pressure receiving portion 38 from the rear surface 302 of the main body portion 3 changes from "L1" shown in FIG. 11A to "L2" shown in FIG. 11B (L2>L1 ). The amount of protrusion of the pressure receiving portion 38 is adjusted according to the thickness of the baseboard 98, for example.

By the way, the height of the power supply stand 1D is 850 [mm] as an example as described above, but it is not limited to this configuration and can be changed as appropriate. However, considering that the power supply stand 1D is installed near a fixture such as a desk 95, the lower end of the power supply unit 2 is at a height of 720 mm or more from the installation surface 91, It is preferable that the upper end portion of the power supply portion 2 is at a height of 850 mm or less from the installation surface 91 . Similarly, in the case of the power supply stand 1E that fits under the top plate 951 of the desk 95, it is preferable that the upper end of the power supply unit 2 is at a height of 600 [mm] or less from the installation surface 91. In addition, when the power supply stand 1E is installed near the sofa 94 (see FIG. 3) as described in the first embodiment, the lower end of the power supply unit 2 is installed to avoid interference with the armrests. It is preferably at a height of 550 [mm] or more from the surface 91 .

The configuration (including modifications) of the second embodiment can be applied in appropriate combination with the configuration (including modifications) described in the first embodiment.

(Embodiment 3)
The power supply stand 1F according to the present embodiment differs from the power supply stand 1D according to the second embodiment in the arrangement of the battery 13, etc., as shown in FIGS. 12A and 12B. Hereinafter, the same reference numerals are used for the same configurations as in the second embodiment, and the description thereof is omitted as appropriate.

That is, the point that the power supply stand 1F includes the battery 13 is the same as the power supply stand 1C (see FIG. 8) according to the third modification of the first embodiment. Due to the configuration including the battery 13, the power supply stand 1F can supply power from the power supply unit 2 to the power supply target 92 without receiving power supply from an external power supply through the power supply cord 5 (see FIG. 9). . Further, the power receiving unit 6 is omitted from the power supply stand 1F.

The power supply stand 1F according to this embodiment further includes a charging circuit 101. As shown in FIG. The battery 13 is a secondary battery (storage battery) that is charged by the charging circuit 101 . That is, in this embodiment, the battery 13 can be used repeatedly by being charged by the charging circuit 101 of the power supply station 1F. The charging circuit 101 is built in the first block 34 of the main body 3, for example. The charging circuit 101 is electrically connected to at least the battery 13 and a contactless power receiving circuit 104, which will be described later.

The power supply stand 1F further includes a discharge circuit 102 that supplies power output from the battery 13 to the power supply unit 2 . The discharge circuit 102 includes, for example, an inverter or the like that converts the DC voltage output from the battery 13 into an AC voltage. The discharge circuit 102 is built in the first block 34 of the main body 3, for example. The discharge circuit 102 is electrically connected to at least the battery 13 and the power supply section 2 .

Incidentally, in the present embodiment, the power supply unit 2 can supply power to the power supply target 92 even while the battery 13 is being charged. Specifically, the discharging circuit 102 is also electrically connected to the charging circuit 101 and supplies the power output from the charging circuit 101 to the power supply unit 2 in addition to the power output from the battery 13 . is also possible. As a result, even when the battery 13 is being charged, the power output from the charging circuit 101 can be sent to the power supply unit 2 by the discharge circuit 102, and power can be supplied from the power supply unit 2 to the power supply target 92. Become. In this case, since the charging circuit 101 continues to operate even when the battery 13 is fully charged, the charging circuit 101 continuously supplies a minute current to the battery 13 by trickle charging, for example.

In addition, the power supply stand 1F according to this embodiment further includes a remaining amount display section 103 . The remaining capacity display unit 103 is realized using, for example, an LED (Light Emitting Diode) or the like, and displays the remaining capacity of the battery 13 . The remaining capacity of the battery 13 referred to in the present disclosure is the relative state of charge (RSOC) obtained by dividing the remaining capacity (RC: Remaining Capacity) of the battery 13 by the full charge capacity (FCC: Full Charge Capacity) of the battery 13. is. The relative remaining capacity (RSOC) referred to in the present disclosure is synonymous with the state of charge (SOC). As an example, the remaining capacity display unit 103 displays the remaining capacity of the battery 13 by changing the lighting state (lighting/unlit, flashing pattern, emission color, etc.) according to the remaining capacity of the battery 13 .

Such a remaining amount display unit 103 is preferably arranged around the power supply unit 2 , that is, near the power supply unit 2 so as to be easily visible to the user 93 who uses the power supply unit 2 . In the example of FIGS. 12A and 12B, the remaining amount display section 103 is arranged below the four connection ports 21 to 24 of the power supply section 2 in the second block 35. In the example of FIG. Further, the remaining amount display portion 103 is arranged on the same surface (the front surface 301 in this case) of the main body portion 3 as the power supply portion 2 . However, not limited to this configuration, for example, on the front surface 301 of the main body 3, each of the four connection ports 21 to 24 of the power supply unit 2, or a frame-shaped light emitting unit surrounding the entire power supply unit 2 is provided, The remaining amount display unit 103 may be realized by this frame-shaped light emitting unit. Further, the remaining amount display unit 103 is not limited to the same surface (here, the front surface 301) of the main body 3 as the power supply unit 2, and may be arranged, for example, on the upper surface, the right side, or the left side of the main body 3. .

In addition, the power supply station 1F according to this embodiment further includes a non-contact power receiving circuit 104 . The contactless power receiving circuit 104 is supplied with power in a contactless manner from the contactless power feeding circuit 204 . The charging circuit 101 charges the battery 13 with power supplied to the non-contact power receiving circuit 104 . That is, in the present embodiment, power is supplied to the power supply stand 1F in a non-contact manner from the charging base 200 having the non-contact power supply circuit 204 by the non-contact power supply method.

Specifically, the charging stand 200 has a contactless power supply circuit 204 for contactless power supply. The contactless power feeding circuit 204 includes a primary coil. In the present embodiment, the primary coil is, for example, a spiral coil in which a conductive wire is spirally wound in plan view.

As shown in FIG. 12A, the charging base 200 has a concave portion 201, an energization display portion 202, a power cord 203, and a contactless power feeding circuit 204. As shown in FIG. A concave portion 201 is formed on the upper surface of the charging stand 200 so as to match the shape of the support portion 4 . The energization display unit 202 is implemented using, for example, an LED (Light Emitting Diode) or the like, and displays the energization state of the contactless power supply circuit 204 . The power cord 203 is electrically connected to the contactless power feeding circuit 204 . An outlet plug is provided at the end of the power cord 203 opposite to the contactless power supply circuit 204 . Therefore, for example, by connecting the outlet plug of the power cord 203 to an external power source such as an outlet installed on the wall of a living room, power is supplied from the external power source to the contactless power supply circuit 204.

The contactless power receiving circuit 104 is arranged on the support portion 4 in this embodiment. The contactless power receiving circuit 104 includes a secondary side coil electromagnetically coupled (at least one of electric field coupling and magnetic field coupling) with the primary side coil. In the present embodiment, as an example, the secondary coil is a spiral coil in which a conductive wire is spirally wound in plan view, like the primary coil. The contactless power receiving circuit 104 is electrically connected to the charging circuit 101 .

The non-contact power receiving circuit 104 includes a rectifying/smoothing circuit, which rectifies and smoothes the AC voltage generated across the secondary coil by the rectifying/smoothing circuit. Then, the non-contact power receiving circuit 104 outputs a DC voltage obtained by rectification and smoothing to the charging circuit 101 .

With the above configuration, the power supply stand 1F is placed on the charging base 200 as shown in FIG. power is supplied (transmitted) to the non-contact power receiving circuit 104 in a non-contact manner. The power supply stand 1F according to the present embodiment employs a magnetic resonance method (magnetic resonance method) in which electric power is transmitted by causing a resonance circuit including a primary side coil and a resonance circuit including a secondary side coil to resonate. there is However, the method of transmitting electric power from the charging stand 200 to the power supply stand 1F is not limited to the magnetic resonance method, and may be, for example, an electromagnetic induction method or a microwave transmission method.

By the way, the battery 13 has a large capacity by including a plurality of cells electrically connected in series, in parallel, or in series and in parallel. These cells are integrated by being accommodated in one case. As shown in FIG. 12A, the battery 13 including a plurality of cells has a so-called vertically elongated shape that is long in the vertical direction. The battery 13 having such a shape is housed in a so-called vertically elongated body portion 3 that is similarly elongated in the vertical direction. That is, the battery 13 is arranged in the main body part 3 of the power supply stand 1F. As a result, there is no need to provide a space for housing the battery 13 in the support portion 4 , and for example, the thickness of the support portion 4 can be made smaller than the thickness of the battery 13 . As a result, as described in the second embodiment, it is possible to fix (temporarily fix) the support portion 4 at a fixed position on the installation surface 91 by stepping on the support portion 4 on furniture such as a desk. .

Here, the battery 13 is positioned below the center of gravity P<b>1 of the main body 3 . In other words, the battery 13 is arranged at a position lower than the center of gravity P1 of the main body 3, and the height H21 from the lower surface of the power supply stand 1F to the upper end of the battery 13 is (H21<H22). That is, the battery 13 is placed between the center of gravity P<b>1 of the main body 3 and the lower end of the main body 3 . Here, the power feeding section 2 is positioned above the center of gravity P<b>1 of the main body section 3 . In other words, the battery 13 is positioned below at least the power supply section 2 .

In particular, in this embodiment, the battery 13 is arranged at a position even lower than the center of gravity of the entire power supply stand 1F including the main body 3 and the support 4 (located lower than the center of gravity P1 of the main body 3). . Specifically, the battery 13 is located at the lowest position among the plurality of components of the main body 3 (the power supply unit 2, the charging circuit 101, the discharging circuit 102, and the battery 13). The battery 13 is arranged so that the height H22 of the center of gravity P1 of the main body 3 is not more than 1/2. In other words, the height H21 of the upper end of the battery 13 is less than half the height H22 of the center of gravity P1 of the main body 3 .

The battery 13 is relatively heavy among the plurality of constituent elements of the main body 3, so as described above, the battery 13 should be positioned below the main body 3 as much as possible to lower the center of gravity of the power supply stand 1F as a whole. , and the power supply stand 1F can be stably installed. That is, the lower the weight, the lower the center of gravity of the power supply stand 1F as a whole, and the more the power supply stand 1F is installed, the more stable it is.

However, the position of the battery 13 is not limited to the position described above. For example, the battery 13 may be arranged above the charging circuit 101 or at the same position (height) as the charging circuit 101 in the vertical direction. Moreover, the battery 13 may be arranged above the power supply unit 2 or at the same position (height) as the power supply unit 2 in the vertical direction.

According to the power supply stand 1</b>F according to the present embodiment described above, power can be supplied from the power supply unit 2 to the power supply target 92 without receiving power supply from an external power supply through the power supply cord 5 . Therefore, the user 93 can more freely arrange the source of power supply to the power supply target 92 in an environment such as a living room of a house, for example, regardless of the position of an outlet or the like. That is, the power supply stand 1F can be made cordless, and the degree of freedom in arranging the power supply source to the power supply target 92 is further increased. Moreover, since the power supply stand 1F does not need to be supplied with power from an external power supply through the power supply cord 5 when it is used, it is possible to avoid the user's 93 foot from being caught in the power supply cord 5 .

In particular, in the present embodiment, since the battery 13 is a secondary battery, for example, when the power supply stand 1F is not in use, the power supply stand 1F is installed on the charging base 200 arranged in the corner (by the wall, etc.) of the living room. By doing so, the battery 13 can be charged. Only when the power supply stand 1F is used, the user 93 can remove the power supply stand 1F from the charging base 200 and move the power supply stand 1F to an arbitrary position. As a result, the power supply stand 1F can usually be placed in a corner (eg, along the wall) of a living room where it is not likely to get in the way.

Next, a modification of Embodiment 3 will be described.

FIG. 13A shows main parts of a power supply stand 1G according to a first modification of the third embodiment. The power supply stand 1G is different from the power supply stand 1F according to the third embodiment in that electric power is supplied from the charging base 200G not by the contactless power supply system but by the contact power supply system. In the example of FIG. 13A , a pair of contact power receiving terminals 105 are provided on the front end surface of the support portion 4 . A pair of contact power receiving terminals 105 are electrically connected to the charging circuit 101 . On the other hand, a pair of contact power supply terminals 205 are provided on the inner side surface of the recess 201 in the charging base 200G. With the above configuration, the power supply stand 1G is placed on the charging base 200G, and in a state in which the support portion 4 is fitted into the recessed portion 201 of the charging base 200G, a pair of contact power supply terminals 205 of the charging base 200G are brought into contact with each other. The power receiving terminal 105 is brought into contact. In this state, power is supplied (transmitted) from the pair of contact power supply terminals 205 of the charging base 200G to the pair of contact power reception terminals 105 of the power supply stand 1F. In such a configuration, the charging circuit 101 for charging the battery 13 may be provided not only in the main body portion 3 but also in the support portion 4 or the charging base 200G.

FIG. 13B shows main parts of a power supply stand 1H according to a second modification of the third embodiment. The power supply stand 1H is different from the power supply stand 1F according to the third embodiment in that electric power is directly supplied from an external power source via the power supply cord 5 . In the example of FIG. 13B , the power receiving section 6 is arranged at the lower end portion of the front surface 301 of the main body section 3 . The configuration of the power receiving unit 6 is the same as the configuration of the power receiving unit 6 described in the first embodiment. That is, the power supply cord 5 is electrically connected to the power reception unit 6 by bringing the pair of terminals 51 of the power supply cord 5 into contact with (connecting to) the pair of power reception terminals 61 of the power reception unit 6 . A pair of power receiving terminals 61 are electrically connected to the charging circuit 101 . The configuration of the coupling structure 7 (the pair of metal plates 71 and the pair of magnets 72) is also the same as the configuration of the coupling structure 7 described in the first embodiment. With the above configuration, the power supply stand 1H supplies power directly from the external power supply to the power reception unit 6 of the power supply stand 1H through the power supply cord 5 in a state where the power supply cord 5 is electrically connected to the power reception unit 6 ( transmission).

FIGS. 14A and 14B show main parts of a power supply stand 1I according to a third modified example of the third embodiment. The power supply stand 1I differs from the power supply stand 1F according to the third embodiment in that the battery 13 is detachably attached to the main body 3 from the main body 3 . In the power supply stand 1I, as shown in FIG. 14A, the battery 13 has one battery case 131 containing a plurality of cells. A handle 132 is provided on the battery case 131 . Further, the body portion 3 is formed with a battery housing portion 106 having a size and a shape capable of housing the battery case 131 . The battery housing portion 106 is a recess opening in a rectangular shape in the front surface 301 of the main body portion 3 . Further, the body portion 3 has a battery connector 107 for electrically connecting the battery 13 . The battery connector 107 is arranged, for example, on the bottom surface of the battery housing portion 106 .

In the above configuration, when attaching the battery 13 to the main body 3 , the user 93 pushes the battery 13 into the battery housing 106 from the front of the main body 3 to house the battery 13 in the battery housing 106 . Thereby, as shown in FIG. 14B, the battery 13 is attached to the main body portion 3 . At this time, the battery 13 and the body portion 3 are electrically connected by connecting the connector of the battery 13 to the battery connector 107 on the bottom surface of the battery housing portion 106 . On the other hand, when removing the battery 13 from the main body portion 3 , the user 93 holds the handle 132 and pulls the battery 13 forward to take out the battery 13 from the battery housing portion 106 . In addition, in a state in which the battery 13 is attached to the main body 3, that is, attached to the main body 3, the battery accommodating part 106 holds the battery 13 so as to prevent the battery 13 from falling out of the main body 3. A locking mechanism may be provided for

Thus, according to the configuration in which the battery 13 can be removed from the main body 3, for example, when deterioration of the battery 13 occurs, the work of replacing only the battery 13 becomes easy. Also, if the battery 13 is a secondary battery, it can be used by charging the battery 13 with a dedicated charger or the like and attaching it to the main body 3 . Furthermore, as the battery 13, for example, by using a battery shared with other equipment such as an electric self-car or an electric tool, the battery 13 can be shared with other equipment, or the battery 13 charged at the power supply stand 1I can be used. It is also possible to use it with other devices. Also, the number, type, or the like of the batteries 13 attached to the main body 3 may be changeable. In this case, for example, by changing the number or type of batteries 13, it is possible to change the capacity, voltage, or the like of the batteries 13 attached to the main body 3. FIG.

As another modification of Embodiment 3, the battery 13 is not limited to a secondary battery, and may be a primary battery, a solar battery, or the like. Moreover, the battery 13 is not limited to being built in the body portion 3, and may be externally attached to the body portion 3 or the support portion 4, for example. Further, when the battery 13 is a secondary battery, the power supply unit 2 may not be able to supply power to the power supply target 92 while the battery 13 is being charged.

Also, the configuration (including modifications) of the third embodiment can be applied in appropriate combination with the configurations (including modifications) described in the first and second embodiments. For example, as described in the first embodiment, the configuration in which the main body portion 3 has the fixed portion 31 and the movable portion 32 can be combined with the configuration of the third embodiment.

(summary)
As described above, the power supply stand (1, 1A to 1I) according to the first aspect includes the portable body (3) and the support (4). The body (3) has a power supply (2) for supplying power to a power supply target (92). The support part (4) supports the main body part (3) so that the main body part (3) stands on the installation surface (91) in a state where the main body part (3) is placed on the installation surface (91).

According to this configuration, the power supply stand (1, 1A to 1I) can be freely carried by the user (93) and installed at any position on the installation surface (91). As a result, for example, in an environment such as a living room of a house, it is possible to freely arrange the source of power supply to the power supply target (92) such as a mobile terminal. Moreover, the main body (3) having the power supply section (2) is supported by the support section (4) and installed so as to stand on the installation surface (91). Therefore, in the power supply stand (1, 1A to 1I), the power supply part (2) may be stepped on by a person's foot, or the liquid may splash on the power supply part (2) when liquid spills on the installation surface (91). difficult to occur. Therefore, the power supply stand (1, 1A to 1I) has the advantage that problems such as failures are less likely to occur even when the source of power supply to the power supply target (92) is freely arranged.

In the power supply stand (1, 1A to 1I) according to the second aspect, in the first aspect, the vertical dimension of the main body (3) is the front-rear dimension and the left-right dimension of the main body (3). greater than either

According to this configuration, the main body (3) is long in the vertical direction, that is, in a vertically long shape, so that the area occupied by the main body (3) on the installation surface (91) can be reduced.

In the power supply stand (1, 1A to 1I) according to the third aspect, in the first or second aspect, the power supply unit (2) has a plurality of connection ports (21 to 25). A plurality of connection ports (21 to 25) are arranged so as to line up along the vertical direction.

According to this configuration, since the plurality of connection ports (21-25) are arranged at different heights, the user (93) can use one of the plurality of connection ports (21-25) depending on the situation. A connection port at a convenient height can be used.

In the power supply stand (1, 1A to 1I) according to the fourth aspect, in any one of the first to third aspects, the main body (3) includes a fixed part (31) and a movable part (32). have. The fixed part (31) is fixed to the support part (4). The movable part (32) is vertically movable relative to the fixed part (31). The power supply section (2) is provided on the movable section (32).

According to this configuration, since the height of the power supply section (2) changes as the movable section (32) moves, the user (93) can use the height of the power supply section (2) according to the situation. Adjustable height for ease of use.

The power supply stand (1, 1A to 1I) according to the fifth aspect, in the fourth aspect, further comprises a power supply cord (5) for supplying power to the power supply section (2). The movable part (32) has a power receiving part (6) for electrically connecting the power supply cord (5).

According to this configuration, by connecting the power supply cord (5) to the external power supply, power can be supplied to the power supply part (2) even from the external power supply located at a distance from the body part (3). In addition, since the power receiving section (6) is provided in the movable section (32), the power feeding section (2), which is also provided in the movable section (32), and the power receiving section (6) are electrically connected. configuration can be simplified.

A power supply stand (1, 1A to 1I) according to a sixth aspect, in any one of the first to fourth aspects, further comprises a power supply cord (5) for supplying power to the power supply section (2). The main body (3) has a power receiving part (6) for electrically connecting a power supply cord (5).

According to this configuration, by connecting the power supply cord (5) to the external power supply, power can be supplied to the power supply part (2) even from the external power supply located at a distance from the body part (3).

The feeding stand (1, 1A-1I) according to the seventh aspect, according to the fifth or sixth aspect, further comprises a coupling structure (7). The coupling structure (7) mechanically couples the power supply cord (5) to the power reception unit (6) by magnetic force while the power supply cord (5) is electrically connected to the power reception unit (6).

According to this configuration, for example, when the user's (93) foot is caught in the power supply cord (5) and tension acts on the power supply cord (5), the power receiving unit (6) and the power supply cord (5) are separated from each other. The mechanical connection with is easily released. Therefore, the power supply stands (1, 1A to 1I) are less likely to overturn.

The power supply stand (1, 1A to 1I) according to the eighth aspect is the power supply stand (1, 1A to 1I) according to any one of the fifth to seventh aspects, wherein the power supply part (2) is provided on the front surface (301) of the body part (3) . The power receiving section (6) is arranged on at least one of the front surface (301) and both side surfaces in the left-right direction of the body section (3).

According to this configuration, while avoiding interference between the power supply cord (5) and the wall (97), the power supply stand (1, 1A to 1I) can be installed near the wall (97).

A power supply stand (1, 1A to 1I) according to a ninth aspect, in any one of the first to eighth aspects, further includes a detection section (11) and a stopping section (12). A detector (11) detects the posture of the main body (3). A stopping unit (12) stops the supply of power from the power supply unit (2) to a power supply target (92) based on the posture of the main body (3) detected by the detection unit (11).

According to this configuration, the power supply from the power supply unit (2) to the power supply object (92) can be automatically stopped, for example, when the main body (3) falls over.

A power supply stand (1, 1A to 1I) according to a tenth aspect is the power supply stand (1, 1A to 1I) according to any one of the first to ninth aspects, wherein the power supply part (2) is provided on the front surface (301) of the body part (3). . The amount of rearward protrusion of the support section (4) from the rear surface (302) of the body section (3) is greater than the amount of forward protrusion of the support section (4) from the front surface (301) of the body section (3). small.

According to this configuration, with the rear surface (302) of the main body (3) facing the wall (97) and the power supply stands (1, 1A to 1I) installed near the wall (97), the main body (3) ) and the wall (97) can be kept small.

A power supply stand (1, 1A to 1I) according to an eleventh aspect is the power supply stand (1, 1A to 1I) according to any one of the first to tenth aspects, wherein the power supply part (2) is provided on the front surface (301) of the body part (3). . The body portion (3) further has a pressure receiving portion (38) projecting rearward from the rear surface (302) of the body portion (3) behind the power supply portion (2).

According to this configuration, with the rear surface (302) of the main body (3) facing the wall (97) and the power supply stands (1, 1A to 1I) installed near the wall (97), the main body (3) ) and the wall (97) can be reduced by the pressure receiving portion (38). For example, when a plug is inserted into the power supply unit (2), even if a force is applied to the power supply unit (2) in the direction of tilting the main body (3) toward the wall (97), the pressure receiving unit (38) Inclination of the main body (3) can be suppressed by receiving force.

The power supply stand (1, 1A to 1I) according to the twelfth aspect is, in any one of the first to eleventh aspects, a fixing structure ( 41).

According to this configuration, the power supply stands (1, 1A to 1I) are less likely to overturn.

In the power supply stand (1, 1A to 1I) according to the thirteenth aspect, in any one of the first to twelfth aspects, the main body (3) is provided on the top surface (953 ) projecting upwardly from the plane containing the . A power feeding portion (2) is provided on the projecting portion.

According to this configuration, when the power supply stand (1, 1A to 1I) is installed near the fixture, the power supply part (2) protrudes upward from the upper surface (953) of the fixture. The usability of the part (2) is improved.

A power supply stand (1, 1A to 1I) according to a fourteenth aspect is the power supply stand (1, 1A to 1I) according to any one of the first to thirteenth aspects, wherein the main body (3) has a longitudinal or lateral dimension in a part of the vertical direction. It further has a constriction (37) that is smaller than other parts of the body (3).

According to this configuration, for example, the power supply stand (1, 1A to 1I) is overturned by pinching the constricted portion (37) between the top plate (951) of the desk (95) and the wall (97). become difficult.

A power supply stand (1, 1A to 1I) according to a fifteenth aspect, in any one of the first to fourteenth aspects, further comprises a battery (13) for supplying power to the power supply section (2).

According to this configuration, the power supply stand (1, 1A to 1I) can be of cordless specification, and the degree of freedom in arranging the power supply source to the power supply object (92) is further increased.

In the power supply stand (1, 1A to 1I) according to the sixteenth aspect, in the fifteenth aspect, the battery (13) is positioned below the center of gravity (P1) of the main body (3).

According to this configuration, the relatively heavy battery (13) is located below the center of gravity (P1) of the main body (3), so the center of gravity of the power supply stand (1, 1A to 1I) as a whole can be lowered. This makes it easier to stably install the power supply stand (1, 1A to 1I).

In the power supply stand (1, 1A to 1I) according to the seventeenth aspect, in the fifteenth or sixteenth aspect, the battery (13) is positioned at least below the power supply section (2).

According to this configuration, the relatively heavy battery (13) is positioned below the power supply unit (2), so the center of gravity of the power supply stand (1, 1A to 1I) as a whole can be lowered. (1, 1A to 1I) can be stably and easily installed.

A power supply stand (1, 1A to 1I) according to an eighteenth aspect is the power supply stand (1, 1A to 1I) according to any one of the fifteenth to seventeenth aspects, wherein the battery (13) is arranged in the main body (3).

According to this configuration, since it is not necessary to provide the battery (13) in the support (4), the thickness of the support (4) can be reduced.

In the power supply stand (1, 1A to 1I) according to the nineteenth aspect, in the eighteenth aspect, the battery (13) is detachably attached to the main body (3) from the main body (3).

According to this configuration, for example, when the battery (13) deteriorates, it becomes easy to replace only the battery (13).

The power supply stand (1, 1A to 1I) according to the twentieth aspect, in any one of the fifteenth to nineteenth aspects, further comprises a remaining capacity display section (103) for displaying the remaining capacity of the battery (13).

According to this configuration, it is possible to easily check the remaining capacity of the battery (13) on the remaining capacity display section (103).

The power supply stand (1, 1A to 1I) according to the twenty-first aspect, in any one of the fifteenth to twentieth aspects, further comprises a charging circuit (101). A battery (13) is a secondary battery that is charged by a charging circuit (101).

According to this configuration, the battery (13) can be charged at the power supply stand (1, 1A-1I) itself and can be used repeatedly.

In the power supply stand (1, 1A to 1I) according to the twenty-second aspect, in the twenty-first aspect, the power supply unit (2) supplies power to the power supply target (92) even while the battery (13) is being charged. supply is possible.

According to this configuration, power can be supplied from the power supply unit (2) to the power supply target (92) without stopping charging of the battery (13), thereby improving usability.

The power supply stand (1, 1A to 1I) according to the 23rd aspect, in the 21st or 22nd aspect, further includes a contactless power receiving circuit (104) to which power is supplied contactlessly from the contactless power supply circuit (204) Prepare. A charging circuit (101) charges a battery (13) with power supplied to a contactless power receiving circuit (104).

With this configuration, there is no need to connect the power supply stand (1, 1A to 1I) to a charger or the like, and the battery (13) can be easily charged.

The second to twenty-third aspects are not essential components of the power supply stand (1, 1A to 1I), and can be omitted as appropriate.

1, 1A, 1B, 1C, 1D, 1E, 1F, 1G, 1H, 1I power supply stand 2 power supply part 3 body part 4 support part 5 power supply cord 6 power receiving part 11 detection part 12 stopping part 21 to 25 connection port 31 fixing part 32 movable part 35 second block (protruding part)
37 Constricted portion 38 Pressure receiving portion 41 Fixed structure 91 Installation surface 92 Power supply target 95 Desk (furniture)
101 charging circuit 103 remaining amount display unit 104 non-contact power receiving circuit 204 non-contact power feeding circuit 301 front surface 302 rear surface 953 top surface of desk (furniture) P1 center of gravity

Claims (10)

a main body having a power supply unit for supplying power to a power supply target;
a support part that supports the body part so that the body part stands on an installation surface;
A self-supporting power supply stand that is placed on the installation surface in a portable manner,
a battery for supplying power to the power supply ;
further comprising a charging circuit ,
The battery is a secondary battery that is charged by the charging circuit.
power supply stand. The power supply stand according to claim 1, wherein the battery is positioned below the center of gravity of the main body. The power supply stand according to claim 1 or 2, wherein the battery is positioned at least below the power supply unit. The power supply stand according to any one of claims 1 to 3, wherein the battery is arranged in the main body. The power supply stand according to claim 4, wherein the battery is attached to the main body so as to be removable from the main body. The power supply stand according to any one of claims 1 to 5, further comprising a remaining capacity display section for displaying the remaining capacity of the battery. The power supply unit can supply power to the power supply target even while the battery is being charged.
The power supply stand according to any one of claims 1-6. further comprising a contactless power receiving circuit to which power is supplied contactlessly from the contactless power feeding circuit;
The charging circuit charges the battery with power supplied to the contactless power receiving circuit.
The power supply stand according to any one of claims 1-7. Having a charging base on which the support is placed,
The battery is charged while the support is placed on the charging stand.
The power supply stand according to any one of claims 1-8. a main body having a power supply unit for supplying power to a power supply target;
a support part that supports the body part so that the body part stands on an installation surface;
A self-supporting power supply stand that is placed on the installation surface in a portable manner,
a battery housing unit to which a battery for supplying power to the power supply unit can be attached and detached;
further comprising a charging circuit,
The battery is a secondary battery that is charged by the charging circuit.
power supply stand.

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