WO2018184508A1 - Power socket with independent usb charging port - Google Patents

Abstract

Disclosed is a power socket with an independent USB charging port. The power socket comprises a socket panel (1) and an independent USB charging port (2). At least one installation cavity (3) with a set depth is disposed at the back of the socket panel (1). The top surface of the installation cavity (3) opens through a front surface of the socket panel (1) to form an insertion opening. The USB charging port (2) is inserted into the installation cavity (3) through the insertion opening. Conductive plug pins (20) of the USB charging port (2) are electrically connected to corresponding power pole pieces (31). The top surface of the USB charging port (2) forms an integrated part of the socket panel (1). The power socket of the present invention is suitable for installation of an existing bottom case and for retrofitting of an existing power socket. In addition, the power socket has a USB charging port (2) independent of the power socket, such that in case of damage to the USB charging port (2) or a USB charging interface, the USB charging port (2) can be pulled out from the power socket and replaced by a new USB charging port (2) without changing the whole power socket, thereby avoiding waste.

Description

Power outlet with separate USB charging head Technical field

The present invention relates to the field of power sockets, and more particularly to power sockets having a separate USB charging head.

Background technique

Electronic devices such as mobile phones need to be charged using the USB charging interface. In order to solve the problem that the user often does not carry the USB charger with them, the USB charging port is added to the power socket, and the power socket includes various power sockets that are mounted and concealed on the wall. And plug-in power outlets / power strips.

The USB charging interface on the current power socket is fixed in the socket, the USB charging interface is fixed on the circuit board, the circuit board is fixed inside the socket, and the socket panel is provided with an opening, so that the USB charging interface is exposed under the opening, so that The USB interface can be inserted.

During use, the USB charging interface and the electronic components on the circuit board are easily broken, and the service life is extremely short. Especially during the plugging and unplugging process, the push-pull force and impact force generated on the USB interface will further shorten the USB charging interface and The life of its board. Once the USB charging part is broken, in order to restore the USB charging function, it is necessary to replace the entire socket panel, which is too wasteful for other components or intact sockets.

Even under normal use or when the frequency of use is extremely low, the life of the USB charging port on the power socket is usually about one year. Because the USB charging interface may be in contact due to aging and the elastic terminal loses its elasticity, the USB is made. The charging interface cannot be used. If the frequency of use is high, or if the USB charging interface is in poor cooperation with different USB cables, it will generate more pushing force and impact force on the USB charging interface during use. The life of the USB charging interface, the life of the USB charging interface is shortened by a few months.

In the general market, the number of plugging and unplugging of brand outlets ranges from 5 to 120,000 times, that is, the life of normal use is 5 to 10 years. However, the service life of the USB charging interface is generally about 1 year, which is 1 for the power socket. /10, the life of the USB charging interface is much shorter than the life of the power outlet. This means that during the long service life of the power outlet, the USB charging interface on the power outlet can only be used for a very short period of time, and the USB charging interface can no longer be used. The USB charging interface cannot be replaced separately, and only the entire power supply can be replaced. Sockets are wasteful. In addition, replacing sockets is also a very cumbersome and dangerous thing.

Furthermore, the update speed of electronic products is very fast, and the upgrade and change of interfaces are relatively fast. With the upgrade and change of the charging interface, the old USB charging interface may not be used because it is not suitable for new technical requirements, so It is necessary to improve.

Summary of the invention

In view of the deficiencies of the prior art, it is an object of the present invention to provide a power outlet having a separate USB charging head that can replace or upgrade its USB charging head.

In order to achieve the above object, the technical solution adopted by the present invention is: a power socket with a separate USB charging head, including a socket panel and a separate USB charging head, the top surface of the USB charging head is provided with at least one USB charging interface, USB charging The side surface and/or the bottom surface of the head are provided with conductive pins; the back of the socket panel is provided with at least one mounting chamber having a set depth, and the top surface of the mounting chamber penetrates the front surface of the socket panel and forms an insertion opening for mounting the chamber The power supply pole piece for providing power is disposed on the side and/or the bottom surface; the USB charging head is inserted into the installation chamber through the insertion port, and the conductive pin of the USB charging head is electrically connected with the corresponding power pole piece; the top surface of the USB charging head Forming an integral part of the socket panel.

In a further technical solution, the front surface of the socket panel is provided with at least one storage cavity, and the storage cavity is pivotally connected with at least one mobile phone support plate that can be opened or removed. The mobile phone support plate is provided with a baffle plate for carrying the mobile phone.

In a further technical solution, the ejecting mechanism includes a self-locking switch, a self-locking switch or a touch switch as a power access end of the power socket, and the USB charging head is pulled out/inserted or popped/pressed as a control power socket. Switching action of power on/off.

Compared with the prior art, the present invention has the advantages that the present invention is suitable for the installation of the existing bottom box of the power socket, can replace the socket panel of the existing power socket, and enables the existing power socket to have a USB charging function, which can be used for Upgrade existing power outlets.

The invention has a USB charging head independent of the power socket. After the USB charging head or the USB charging interface is damaged, the USB charging head can be removed from the power socket, replacing the new USB charging head, and the entire power socket is not required to be replaced, thereby avoiding waste. .

The USB charging head of the present invention has an extraction/insertion action or an ejection/pressing action as a switching action for controlling the power supply socket to be powered on/off. The USB charging head has a switching function for controlling the power socket to be energized and de-energized, so that the power socket can be Then set the control switch separately.

The power socket to which the present invention is applicable includes various power sockets that are mounted or concealed on walls/boards, various power strips or power strips, various vertical jacks, and converter jacks.

The invention can place the mobile phone on the open mobile phone support board during charging, and provides convenience for charging the mobile phone, has a simple structure and is convenient to use.

DRAWINGS

The invention will now be further described with reference to the drawings and embodiments.

1 is a schematic structural view of a power socket according to Embodiment 1 of the present invention.

Figure 2 is a cross-sectional view showing a power outlet of the first embodiment of the present invention.

3 is a schematic structural view of a USB charging head that is pressed against a self-locking switch according to Embodiment 1 of the present invention.

4 is a schematic structural view of the hidden USB charging head of FIG. 3.

FIG. 5 is a schematic structural view of the USB charging head of the first embodiment of the present invention after being pulled out from the mounting chamber.

FIG. 6 is a schematic structural view of an electrode protection cover enclosing a power pole piece according to Embodiment 1 of the present invention.

FIG. 7 is a schematic structural view of a socket panel according to Embodiment 1 of the present invention.

FIG. 8 is a schematic diagram of a first wiring manner of a power socket according to Embodiment 1 of the present invention.

FIG. 9 is a schematic view showing a second wiring manner of a power socket according to Embodiment 1 of the present invention.

FIG. 10 is a schematic structural diagram of a power socket according to Embodiment 2 of the present invention.

FIG. 11 is a schematic structural view of the power socket of the second embodiment of the present invention after the handle is opened.

FIG. 12 is a schematic structural view of a socket panel according to Embodiment 2 of the present invention.

FIG. 13 is a schematic structural view of a socket panel in which a mobile phone is placed according to Embodiment 2 of the present invention.

FIG. 14 is a schematic diagram showing the internal structure of a power socket according to Embodiment 2 of the present invention.

Figure 15 is a schematic view showing the structure of the USB charging head of the second embodiment of the present invention after being taken out from the mounting chamber.

Figure 16 is a cross-sectional view showing a socket panel of a second embodiment of the present invention.

Figure 17 is a schematic view showing the structure of a contact switch disposed under the spacer of the second embodiment of the present invention.

FIG. 18 is a schematic structural view of a USB charging head and a touch switch according to Embodiment 2 of the present invention.

Fig. 19 is a schematic view showing the structure of a socket panel provided with a recess in the second embodiment of the present invention.

20 is a schematic structural view of a mounting chamber in which a touch switch is disposed in a second embodiment of the present invention.

Figure 21 is a schematic view showing the first wiring mode of the power socket of the second embodiment of the present invention.

Figure 22 is a schematic view showing the second wiring mode of the power socket of the second embodiment of the present invention.

Figure 23 is a schematic structural view of a power socket according to a third embodiment of the present invention.

FIG. 24 is a schematic structural view of the mobile phone support board after the third embodiment of the present invention is opened.

Figure 25 is a block diagram showing the structure of a power socket according to a fourth embodiment of the present invention.

FIG. 26 is a schematic structural view of the mobile phone support board of the fourth embodiment of the present invention after moving outward.

In the picture:

1. The socket panel 10, the storage cavity 11, the mobile phone support plate 111, the handle portion 112, the rotating shaft 113, the positioning block 114, the baffle 115, the first magnetic sheet 116, the protruding strip 117, the pressing portion 12, the inclined surface 13, USB charging interface 14, second magnetic sheet 15, power jack 16, switch storage slot 17, electrode;

2, the USB charging head 20, the conductive pin 21, the handle 22, the buckle portion 23, the accommodating chamber 24, the recess 25, the top post 26, the power indicator light 27, the flap 28, the touch switch;

3. The mounting chamber, 31, the power pole piece 32, the bottom cover 33, the partition plate 331, the through hole 332, the groove body 333, the slot 34, the electrode protection cover 341, the pushing portion 342, the spring 35, and the contact switch 351 are elastic The movable contact piece 352 fixes the contact piece;

4, the bottom box;

5, self-locking switch 50, pressure bar.

detailed description

The following are only preferred embodiments of the invention and are not intended to limit the scope of the invention.

Embodiment 1

The power socket with the USB charging head automatically popping up, as shown in Figures 1 to 9, includes the socket panel 1 and a separate USB charging head 2, the top surface of the USB charging head 2 is provided with at least one USB charging interface 13, a USB charging head The side pins and/or the bottom surface of the 2 are provided with conductive pins 20. The back surface of the socket panel 1 is provided with at least one mounting chamber 3 having a set depth. The top surface of the mounting chamber 3 penetrates the front surface of the socket panel 1 and forms an insertion opening. The USB charging head 2 is partially or completely inserted through the insertion opening. In the mounting chamber 3, and the USB charging head 2 forms a component of the socket panel 1, the USB charging head 2 has a USB charging function.

A side wall or a plurality of side walls of the mounting chamber 3 are provided with a plurality of heat dissipation holes, and the heat dissipation holes serve to dissipate heat, and the heat generated when the USB charging head 2 is charged is conducted out to prevent the temperature of the USB charging head 2 from being excessive. The louvers may be of various shapes, such as circular, elliptical, square, polygonal or profiled, or may be in the shape of various patterns.

After the USB charging head 2 is popped up by the eject mechanism or after the USB charging head 2 is unplugged, the power pole piece 31 of the USB charging head 2 is disconnected at least by the ejecting mechanism, so that the corresponding power pole piece 31 is not charged. At the same time, the power of the power socket can be disconnected by the eject mechanism, and the USB charging head 2 has the power switch function.

The USB charging head 2 can also be provided with a control switch (not shown in the figure). The control switch protrudes from the top surface of the USB charging head 2. The control switch is used to control the power of the USB charging head 2. The control switch can also be used. Control the total power supply of the power outlet.

The front panel of the outlet panel 1 may be provided with a power indicator light 26 for indicating the power-on state of the power socket and/or a power indicator light 26 for indicating the power-on state of the USB charging head 2. The top surface of the USB charging head 2 may also be provided with a power indicator light 26 for indicating the power-on state of the power outlet and/or a power indicator light 26 for indicating the power-on state of the USB charging head 2. The USB charging head 2 is provided with a control switch for controlling the total power of the power socket or controlling the power of the USB charging head 2, and the control switch is electrically connected to the circuit board, and the control switch protrudes from the top surface of the USB charging head 2.

The USB charging head 2 includes a casing, the USB charging interface 13 is exposed from the surface of the casing, a circuit board is fixed in the casing, the USB charging interface 13 is fixed to the circuit board, and the circuit board is electrically connected to the USB charging interface 13 and the The conductive pin 20 is electrically connected to the low voltage DC voltage output end of the circuit board. The conductive pin 20 is electrically connected to the power access end of the circuit board, and the conductive pin 20 extends from the bottom surface of the housing. A buckle portion 22 is outwardly extended on both sides of the top surface of the USB charging head 2 to facilitate the outward pulling out of the USB charging head 2. The power socket is provided with a bottom box 4, and the socket panel 1 is mounted on the bottom box 4. The bottom box 4 includes at least various socket bottom boxes that are mounted or concealed on the wall, such as a type 86 switch socket bottom box, and a 118 type switch. Socket bottom box and 120 type switch socket bottom box.

Wherein, the socket panel 1 has a front panel, the front panel is integrally formed with the mounting chamber 3, and the front panel extends to one side along the edge of the insertion opening to form a mounting chamber 3, and the depth of the mounting chamber 3 is slightly larger than the USB charging head. 2, the bottom surface of the mounting chamber 3 is fixed with a bottom cover 32 for closing the bottom surface of the mounting chamber 3, and the bottom surface of the mounting chamber 3 is provided with a power pole piece 31 for supplying power, an electrode mounting position and a power pole piece 31 is fixed on the bottom cover 32; or a power pole piece 31 for supplying power is disposed on the side of the USB charging head 2; the power pole piece 31 is U-shaped, and the upper part of the power pole piece 31 is provided with a plug for inserting the conductive pin 20 a nip for elastically clamping and electrically contacting the conductive pin 20, the USB charging head 2 is inserted into the mounting chamber 3 through the insertion port, and the conductive pin 20 of the USB charging head 2 is electrically connected to the corresponding power pole piece 31; USB charging The top surface of the head 2 forms an integral part of the socket panel 1; the top surface or the side surface of the USB charging head 2 is provided with at least one handle 21 or a buckle portion 22, and the USB charging head 2 can be easily removed from the handle 21 or the buckle portion 22. The mounting chamber 3 is pulled out.

The socket panel 1 has a front panel, and the front panel is provided with at least one set of power jacks 15. The bottom of the power jack 15 is provided with electrodes 17, which are inserted into the top surface of the USB charging head 2 and the surface of the front panel in the mounting chamber 3. Flush, the top surface of the USB charging head 2 is spliced into a plane with the surface of the front panel and constitutes a complete socket panel 1. The depth of the mounting chamber 3 is slightly larger than the height of the USB charging head 2. In other possible embodiments, the top surface of the USB charging head 2 is close to the surface of the front panel, that is, the top surface of the USB charging head 2 is slightly higher or lower than the surface of the front panel.

The back of the socket panel 1 is provided with at least one ejecting mechanism, and the USB charging head 2 is pressed against the ejecting mechanism for popping up the distance set by the USB charging head 2 after pressing the USB charging head 2; being inserted into the mounting chamber 3 The USB charging head 2 has an initial state and a pop-up state.

In an initial state, the conductive pin 20 of the USB charging head 2 inserted in the mounting chamber 3 is electrically connected to the corresponding power electrode, the USB charging head 2 is in an initial state, and the USB charging head 2 is in a state of being powered on and providing a USB charging function. The depth of the mounting chamber 3 is equal to or close to the height of the USB charging head 2; in the initial state, the top surface of the USB charging head 2 inserted in the mounting chamber 3 is flush or close to the socket panel 1 surface.

In the pop-up state, after the USB charging head 2 is bounced outward or the USB charging head 2 is pulled out by an external force, the USB charging head 2 is in a pop-up state, and the conductive pin 20 of the USB charging head 2 moves outward and The USB charging head 2 is in a state of being disconnected from the power supply when the corresponding power supply electrode is disconnected.

The eject mechanism includes a self-locking switch 5, and an upper portion of the self-locking switch 5 has an on-off state for controlling the self-locking switch 5 and a lever 50 that bounces up the USB charging head 2; at least one side of the USB charging head 2 A flap 27 is extended outwardly. The back of the socket panel 1 is provided with a switch receiving slot 16 corresponding to the position of the flap 27; the ejecting mechanism is received in the corresponding switch receiving slot 16, and the flap 27 is pressed against the corresponding self. Above the pressure bar 50 of the lock switch 5.

The adjacent sides or opposite sides of the USB charging head 2 respectively extend outwardly to form a bone position, and respectively form a wing plate 27, and the wing plate 27 extends along a height direction of the USB charging head 2 by a set height; An upper portion of the switch housing groove 16 communicates with the mounting chamber 3. When the USB charging head 2 is in the initial state, the two flaps 27 of the USB charging head 2 are partially or completely embedded in the upper portion of the corresponding switch housing groove 16, respectively, and the bottom of the flap 27 abuts against the corresponding switch housing groove 16 The top of the pressing rod 50 of the self-locking switch 5 in the middle.

The self-locking switch 5 has a self-locking initial state, an unlocked state, and a self-locking pop-up state, and the pressing lever 50 has a pop-up position, an initial position, and an unlocked position, respectively, from top to bottom according to the stroke position.

When the self-locking switch 5 is in the self-locking initial state, the pressing rod 50 is self-locked to the initial position.

When the self-locking switch 5 is in the self-locking up state, the pressing rod 50 is self-locked in the pop-up position.

In the unlocked state, the self-locking switch 5 is in an unlocked state during the process of switching from the self-locking initial state to the self-locking pop-up state, and the unlocking state is released when the pressing lever 50 moves from the initial position to the unlocked position, and the unlocking state is performed in the unlocked state. 50 is lifted up from the unlocked position to the pop-up position and self-locked to the pop-up position.

The USB charging head 2 in the initial state is pressed down, during which the USB charging head 2 pushes the pressing rod 50 downward from the initial position to the unlocking position by the flap 27, and after the unlocking state is released, the pressing rod 50 is pushed upward from the unlocked position. Move to the pop-up position and self-lock in the pop-up position, during which the pressure bar 50 pushes the flap 27 upward and pops up the USB charging head 2, the USB charging head 2 is in the pop-up state; when pressed down again After pressing the USB charging head 2, during this process, the USB charging head 2 pushes the pressing rod 50 downward from the pop-up position to the initial position by the flap 27, and the pressing rod 50 reaches the initial position and then locks to the initial position, so that the USB is charged. Head 2 returns to its original state. The USB charging head 2 can reverse its state multiple times.

The self-locking switch 5 is used as a power input end of the power socket, or the self-locking switch 5 is connected in series with the power electrode, or the self-locking switch 5 is electrically connected in series with the power supply electrode and the electrode; the self-locking switch 5 is self-locking in the self-locking initial state. The switch 5 is electrically turned on; the self-locking switch 5 is electrically disconnected when the self-locking switch 5 is in the self-locking state. The bottom of the mounting chamber 3 is provided with two electrode mounting positions, and each of the electrode mounting positions is provided with a power pole piece 31, and the bottom surface of the USB charging head 2 is provided with two of the conductive pins 20; in the USB charging head 2 Inserted in the state of the mounting chamber 3,

When the self-locking switch 5 is in the self-locking initial state, the two conductive pins 20 of the USB charging head 2 are respectively inserted into the two electrode mounting positions, and the two power pole pieces 31 are elastically contacted with the corresponding conductive pins 20 respectively. When the self-locking switch 5 is in the self-locking up state, the two conductive pins 20 of the USB charging head 2 bounced by the pressing rod 50 are respectively separated from the corresponding electrode mounting positions, and the two conductive pins 20 respectively The two power pole pieces 31 are separated from each other.

A spacer 33 is fixed on the upper surface of the electrode mounting position. The partition 33 defines a slot 332 corresponding to the positions of the two mounting positions, and at least one electrode protection cover 34 is slidably mounted in each slot 332. When the conductive pin 20 of the USB charging head 2 is inserted into the corresponding electrode mounting position, the conductive pin 20 squeezes or pushes the corresponding electrode protection cover 34 and is inserted into the power pole piece 31 below it; When the mounting chamber 3 is pulled out, after the conductive pins 20 are separated from the corresponding electrode mounting positions, the electrode protection cover 34 automatically resets and closes the corresponding electrode mounting positions. The slot body 332 is slidably mounted with two left and right electrode protection covers 34. A spring 342 is disposed between the outer end of the electrode protection cover 34 and the wall of the mounting chamber 3, and the inner end of the electrode protection cover 34 is disposed. The side is provided with a guiding slope; in the preferred embodiment, the two electrode protection covers 34 on one side of the electrode mounting position are integrally connected, and the connecting portion between the two electrode protection covers 34 integrally formed to form a pushing portion 341 A spring 342 is disposed between the pushing portion 341 and the wall body on the side opposite to the mounting chamber 3, respectively. When the conductive pin 20 of the USB charging head 2 is inserted into the corresponding electrode mounting position, the conductive pin 20 pushes or pushes the corresponding electrode protection cover 34 and is inserted into the power pole piece 31 below it; the USB charging head 2 is installed When the chamber 3 is pulled out, after the conductive pin 20 is separated from the corresponding electrode mounting position, the electrode protection cover 34 automatically resets and closes the corresponding electrode mounting position to protect the power supply pole piece 31 from leaking directly. .

In another embodiment of the safety hazard caused by the leakage of the power pole piece 31 after the USB charging head 2 is removed, the power supply pole piece 31 is disconnected from the power supply after the USB charging head 2 is pulled out, and the partition plate 33 corresponds to A slot 333 is defined in the position of the power pole piece 31, and at least one through hole 331 is defined in one side of the partition plate 33; at least one contact switch 35 is disposed under the partition plate 33, and the contact switch 35 is electrically connected in series with the corresponding power source. The pole piece 31 and/or the self-locking switch 5; with specific reference to the description and corresponding schematic diagram of the second embodiment of the present application, the touch switch 35 has at least one elastic movable contact piece 351 and a fixed contact piece 352, and the elastic touch The sheet 351 and the fixed contact piece 352 are in a snap fit; the bottom of the USB charging head 2 is provided with at least one top post; after the USB charging head 2 is inserted into the mounting chamber 3, the top post passes through the through hole of the partition 33 331 and pressed against the elastic movable contact piece 351 of the touch switch 35, the contact switch 35 is turned on; when the USB charging head 2 is pulled out from the mounting chamber 3, the top post is separated from the touch switch 35, the contact piece Switch 35 is open.

In the present invention, the self-locking switch 5 or the touch switch 35 is used as a power supply access terminal of the power socket, and the pull-out/insertion action or the pop-up/press-in action of the USB charging head 2 is used as a switching action for controlling the power supply base to be energized/de-energized.

The first type of wiring of the power socket is that the self-locking switch 5 is used as a control switch of the power socket 1, the power line access end of the power socket 1 is connected to the self-locking switch 5, the self-locking switch 5 is connected to the electrode 17, and the electrode 17 is connected to the power source pole. Sheet 31, shown in Figure 8.

The second wiring mode of the power socket is that the self-locking switch 5 is used as a control switch of the power pole piece 31, the power line access end of the power socket 1 is connected to the electrode 17, the electrode 17 is connected to the self-locking switch 5, and the self-locking switch 5 is connected. The power pole piece 31 is shown in FIG.

It is also possible to use one of the self-locking switches 5 as a control switch of the power outlet and the other self-locking switch 5 as a control switch of the power pole piece 31. Or the two self-locking switches 5 are used in series or in parallel for the power connection line of the power socket, and will not be enumerated here.

The present invention can also mount at least one touch switch 28 on the outer side wall of the mounting chamber 3, and the contact bar of the touch switch 28 extends into the mounting chamber 3, as shown in FIG. 20, the touch switch 28 serves as the power line of the power socket 1. As the control switch of the power socket, the touch switch 28 can also be used as the control switch of the power pole piece 31. The touch switch 28 can also be connected with the self-locking switch 5 or the touch switch 35 to form a switch branch and then connect to the power socket. In the power line.

Embodiment 2

A power socket having a separate USB charging head, as shown in FIGS. 10 to 22, includes a socket panel 1 including a separate USB charging head 2, and a top surface of the USB charging head 2 is provided with at least one USB charging interface 13, a USB charging head 2 The bottom surface of the USB charging head 2 is provided with two conductive pins 20, and the power socket is provided with a bottom box 4, and the bottom box 4 includes at least various sockets that are mounted or concealed on the wall. The bottom box, such as the 86 type switch socket bottom box, the 118 type switch socket bottom box and the 120 type switch socket bottom box, the socket panel 1 is mounted on the bottom box 4. The back of the socket panel 1 is provided with at least one mounting chamber 3 having a set depth. The top surface of the mounting chamber 3 penetrates the front surface of the socket panel 1 and forms an insertion opening. The bottom surface of the mounting chamber 3 is provided for supplying power. The power pole piece 31 or the power pole piece 31 for supplying power is disposed on the side of the USB charging head 2; the power pole piece is U-shaped, and the upper part of the power pole piece is provided with a plug slot for inserting the conductive pin 20 for the elastic clip Holding and electrically contacting the conductive pin 20, the USB charging head 2 is inserted into the mounting chamber 3 through the insertion port, and the conductive pin 20 of the USB charging head 2 is electrically connected to the corresponding power pole piece 31; the top surface of the USB charging head 2 is formed. An integral part of the socket panel 1; the top surface or the side surface of the USB charging head 2 is provided with at least one handle 21 or a buckle portion 22, and the USB charging head 2 can be easily pulled out from the mounting chamber 3 by the handle 21 or the buckle portion 22. Out.

The socket panel 1 has a front panel, and the front panel is provided with at least one set of power jacks 15. The bottom of the power jack 15 is provided with electrodes 17, which are inserted into the top surface of the USB charging head 2 and the surface of the front panel in the mounting chamber 3. Flush, the top surface of the USB charging head 2 is spliced into a plane with the surface of the front panel and constitutes a complete socket panel 1. The depth of the mounting chamber 3 is slightly larger than the height of the USB charging head 2. In other possible embodiments, the top surface of the USB charging head 2 is close to the surface of the front panel, that is, the top surface of the USB charging head 2 is slightly higher or lower than the surface of the front panel.

The top surface of the USB charging head 2 is hinged with a pull plate that can be rotated open or unfolded. The top surface of the USB charging head 2 or the socket panel 1 defines a receiving chamber 23. In the initial state, the lowering plate is hidden in the receiving chamber 23, and needs to be repaired. Or when the USB charging head 2 is replaced, the slider is opened or pulled open, and the USB charging head 2 is pulled out from the mounting chamber 3 through the pull tab.

In a preferred embodiment, at least one side of the top surface of the USB charging head 2 is provided with a buckle portion 22 corresponding to the recess 24 provided at the position of the buckle portion 22, the recess 24 is larger than the buckle portion 22, the recess A finger space for pulling the USB charging head 2 out of the mounting chamber 3 is formed between the 24 and the buckle portion 22, and the user's finger can be inserted into the finger space, and the button portion 22 applies force. The USB charging head 2 is pulled out from the mounting chamber 3.

The bottom of the mounting chamber 3 is provided with two electrode mounting positions, and each electrode mounting position is provided with a power pole piece 31. The front panel is integrally formed with the mounting chamber 3, and the front panel extends along one side of the insertion opening to form an installation. The bottom surface of the mounting chamber 3 is fixed with a bottom cover 32 for closing the bottom surface of the mounting chamber 3. The electrode mounting position and the power pole piece 31 are fixed on the bottom cover 32.

The bottom surface of the USB charging head 2 is provided with two conductive pins 20. After the USB charging head 2 is inserted into the mounting chamber 3, the two conductive pins 20 are respectively inserted into the two electrode mounting positions, and the two power pole pieces 31 are inserted. The corresponding conductive pins 20 are respectively elastically contacted. A spacer 33 is fixed on the upper surface of the electrode mounting position. The partition 33 defines a slot 332 corresponding to the position of the two electrode mounting positions. Each of the slots 332 is slidably mounted with at least one electrode protection cover 34. The slot body 332 is slidably mounted in each slot 332. Two left and right electrode protection covers 34 are slidably mounted, and a spring 342 is disposed between the outer end of the electrode protection cover 34 and the wall of the mounting chamber 3, and the upper side of the inner end of the electrode protection cover 34 is provided with a guide slope. .

In a preferred embodiment, the two electrode protection covers 34 on one side of the electrode mounting position are integrally connected, and the connecting portion between the two electrode protection covers 34 integrally formed to form a pushing portion 341, the pushing portion 341 and the mounting portion A spring 342 is disposed between the walls of the chamber 3 on one side.

When the conductive pin 20 of the USB charging head 2 is inserted into the corresponding electrode mounting position, the conductive pin 20 pushes or pushes the corresponding electrode protection cover 34 and is inserted into the power pole piece 31 below it; the USB charging head 2 is installed When the chamber 3 is pulled out, after the conductive pin 20 is separated from the corresponding electrode mounting position, the electrode protection cover 34 automatically resets and closes the corresponding electrode mounting position to protect the power supply pole piece 31 from leaking directly. .

In another embodiment of the safety hazard caused by the leakage of the power pole piece 31 after the USB charging head 2 is removed, the power supply pole piece 31 is disconnected from the power supply after the USB charging head 2 is pulled out, specifically, the electrode A partition plate 33 is fixed on the upper surface of the mounting position. The partition plate 33 defines a slot 333 corresponding to the position of the power pole piece 31. The partition plate 33 has at least one through hole 331 formed in one side thereof; at least one touch is disposed below the partition plate 33. The chip switch 35, the touch switch 35 is connected in series with the corresponding power pole piece 31; the bottom of the USB charging head 2 is provided with at least one top post 25; after the USB charging head 2 is inserted into the mounting chamber 3, the top post 25 passes through the partition The through hole 331 of the plate 33 is pressed against the contact switch 35, and the contact switch 35 is turned on; when the USB charging head 2 is pulled out from the mounting chamber 3, the top post 25 is separated from the touch switch 35, and the touch switch 35 is disconnect.

Two contact switches 35 are disposed below the partition 33, and two contact switches 35 are respectively disposed at outer positions of the two electrode mounting positions; wherein one of the contact switches 35 is connected in series with one power pole piece 31, and the other touch The chip switch 35 is connected in series with another power pole piece 31; a touch switch 35 has a fixing seat, a resilient moving contact piece 351 and a fixing contact piece 352, and the inner ends of the elastic movable contact piece 351 and the fixed contact piece 352 are respectively Fixed to the fixed seat, the elastic movable contact piece 351 is located above the fixed contact piece 352, and the outer end portion of the elastic movable contact piece 351 is located below the through hole 331; after the USB charging head 2 is inserted into the mounting chamber 3, the top post 25 At the outer end portion of the elastic movable contact piece 351, the outer end portion of the elastic movable contact piece 351 moves downward and contacts the fixed contact piece 352, and the contact switch 35 is turned on.

The front panel of the outlet panel 1 may be provided with a power indicator light 26 for indicating the power-on state of the power socket and/or a power indicator light 26 for indicating the power-on state of the USB charging head 2. The top surface of the USB charging head 2 may also be provided with a power indicator light 26 for indicating the power-on state of the power outlet and/or a power indicator light 26 for indicating the power-on state of the USB charging head 2.

The USB charging head 2 is provided with a control switch for controlling the total power of the power socket or controlling the power of the USB charging head 2, and the control switch is electrically connected to the circuit board, and the control switch protrudes from the top surface of the USB charging head 2.

One type of wiring of the power socket is that the touch switch 35 is used as a control switch of the power socket 1, the power line access end of the power socket 1 is connected to the electrode 17, the electrode 17 is connected to the touch switch 35, and the contact switch 35 is connected to the power source pole. Sheet 31, shown in Figure 21.

Another way of connecting the power socket is that the touch switch 35 is used as a control switch of the power pole piece 31. The power line access end of the power socket 1 is connected to the touch switch 35, the touch switch 35 is connected to the electrode 17, and the electrode 17 is connected to the power source. The pole piece 31 is shown in FIG.

The present invention can also mount at least one touch switch 28 on the outer side wall of the mounting chamber 3, and the contact bar of the touch switch 28 extends into the mounting chamber 3, as shown in FIG. 20, the touch switch 28 serves as the power line of the power socket 1. As the control switch of the power socket, the touch switch 28 can also be used as the control switch of the power pole piece 31. The touch switch 28 can also be connected in parallel with the touch switch 35 to form a switch branch and then connected to the power line of the power socket. Here, the specific connection method of the power transmission line is not listed here.

In addition, the front surface of the socket panel 1 is provided with at least one storage cavity 10, and the storage cavity 10 is pivotally connected with at least one mobile phone support plate 11 which can be opened. The front or side of the mobile phone support plate 11 is provided with a handle portion 111 for Pull the mobile phone support board 11 outside. The mobile phone support plate 11 can also be laterally inserted into the storage cavity 10. In use, the mobile phone support plate 11 is laterally removed, for example, vertically.

The mobile phone support board 11 has a stowed state and a use state. In the stowed state, the mobile phone support board 11 is hidden in the storage cavity 10, and does not affect the use of the power socket. In the state of use, the handset support plate 11 is turned outwardly or outwardly toward the front of the socket panel 1, and the handset support panel 11 is fixed at a set angle. The angle between the inner surface of the mobile phone support board 11 and the front surface of the socket panel 1 is equal to 90 degrees. In the preferred embodiment, the inner surface of the mobile phone support board 11 and the front surface of the socket panel 1 are slightly less than 90 degrees.

A pivoting portion is disposed on the left and right sides of the lower edge of the mobile phone support board 11. The outer side of the pivoting portion is provided with a rotating shaft 112. The rotating shafts 112 on the two sides of the mobile phone supporting board 11 are respectively pivotally connected to the back of the socket panel 1, and are pivotally connected. The upper side of the portion is provided with a positioning stopper 113. After the mobile phone support plate 11 is turned outwardly, the positioning stopper 113 abuts against the back of the socket panel 1 for fixing the mobile phone support plate 11 at a set angle.

The upper edge or the side edge of the receiving cavity 10 is provided with at least one second magnetic sheet 14 integrally formed on the back of the socket panel 1. After the mobile phone supporting plate 11 is hidden in the receiving cavity 10, the mobile phone supporting plate 11 The inner surface abuts against the second magnetic sheet 14. The first magnetic sheet 115 and the second magnetic sheet 14 are magnetically attracted to fix the mobile phone support board 11 to the socket panel 1. In the preferred embodiment, the mobile phone support board 11 is buckled to the socket panel 1 by a snap structure.

The upper edge of the mobile phone support plate 11 is provided with at least one baffle 114 or a stopper. The baffle 114 or the stopper protrudes from the inner surface of the mobile phone support plate 11 , and the mobile phone support plate 11 is hidden in the storage cavity 10 rear baffle 114 or The stopper is inserted into the housing chamber 10. In the preferred embodiment, the middle portion of the upper edge of the mobile phone support plate 11 is integrally formed with a baffle 114. The left and right sides of the upper edge of the storage cavity 10 are respectively provided with a second magnetic sheet 14 on the upper side of the mobile phone support plate 11. A first magnetic sheet 115 is fixed to each of the two sides of the edge, and one of the first magnetic sheet 115 and the second magnetic sheet 14 is a magnet and the other is a metal piece. In the preferred embodiment, the first magnetic material is used. The sheet 115 is selected from iron sheets, and the second magnetic sheet 14 is selected from magnets.

A notch for the insertion of the baffle 114 is left between the two second magnetic sheets 14. The inner surface of the mobile phone support plate 11 is formed with a plurality of longitudinally extending ribs 116. A groove body is formed between the adjacent two ribs 116. The ribs 116 have the function of increasing the structural strength of the mobile phone support plate 11, and the support And to protect the role of the phone, reduce the contact surface of the phone and the support surface, to avoid grinding the phone, while having anti-slip effect.

The upper edge of the front face of the socket panel 1 is provided with a bevel 12 for the phone to abut. After the mobile phone support board 11 is opened, the mobile phone can be placed on the mobile phone support board 11 during charging, and the lower part of the mobile phone is placed against the mobile phone support board 11 and the baffle 114. The back of the upper part of the mobile phone abuts against the inclined surface 12, so that the mobile phone is tilted. On the power socket and the mobile phone support board 11, the mobile phone is prevented from falling, and the mobile phone is conveniently charged.

In a preferred embodiment, a soft non-slip sheet may be provided on the inclined surface 12, and a laterally extending ridge may be formed on the inner surface of the mobile phone support plate 11, or a laterally extending ridge may be formed on the surface of the ridge 116.

Embodiment 3

In this embodiment, the mobile phone support board 11 and the baffle 114 are improved on the basis of the first or second embodiment, and the same points are not described herein. The difference is that, as shown in FIGS. 23 and 24, the front panel of the socket panel 1 is provided. The storage chamber 10, the lower portion of the storage chamber 10 is hinged to the lower portion of the mobile phone support plate 11, and the mobile phone support plate 11 is provided with a baffle 114, and the upper portion of the mobile phone support plate 11 is hinged to the upper portion of the baffle 114;

In the initial state, the baffle 114 rotates around the upper portion thereof and overlaps the inner surface of the mobile phone support plate 11, and the mobile phone support plate 11 rotates around the lower portion thereof and is received in the storage cavity 10;

In the state of use, after the handset support plate 11 is rotated about its lower portion and rotated outwardly relative to the socket panel 1, the inner surface of the handset support panel 11 faces upward and traverses the front side of the socket panel 1.

After the baffle 114 rotates around the upper portion thereof and is rotated outwardly relative to the mobile phone support plate 11, the baffle 114 forms an L-shaped support portion with the mobile phone support plate 11, and the baffle 114 is tilted after being turned outwardly. The baffle 114 forms an acute angle with the mobile phone support plate 11 for placing the mobile phone, and the baffle 114 adopts a heightening design. The height of the baffle 114 with the heightening design is equivalent to the height of the mobile phone support plate 11, and will not be pressed. The height of the baffle 114 calculated by the portion 117 is equal to or smaller than the height of the mobile phone support plate 11, which can effectively prevent the mobile phone from falling over the baffle 114.

The upper portion of the baffle 114 is provided with a rotating shaft, and the rotating shaft is hinged to the upper portion of the mobile phone supporting plate 11. The baffle 114 extends a pressing portion 117 above the rotating shaft, and the pressing portion 117 protrudes above the mobile phone supporting plate 11 by pressing the pressing portion. 117 can pop up the mobile phone support board 11, which is convenient to use.

The front surface of the mobile phone support plate 11 is formed with a hand-drawn portion 111. The hand-drawn portion 111 is formed with a protruding portion formed on the front surface of the mobile phone support plate 11 as an application portion for opening the mobile phone support plate 11, and the convex portion is convex. a point, a ridge, a protruding plate or a protruding column, the outer end portion of the protruding portion adopts a smooth design, and the corner portions of the outer end portion of the protruding portion are provided with a circular chamfer, that is, the mobile phone support plate 11 can be opened, and Prevent accidental bruises.

A second magnetic sheet 14 is fixed to one side or both sides of the accommodating cavity 10, and one side edge or both side edges of the accommodating cavity 10 protrudes toward the accommodating cavity 10, and a positioning seat is fixed in the accommodating cavity 10, and the second magnetic absorbing piece is fixed in the positioning seat. 14, for positioning and sucking the mobile phone support board 11, to position and attract the mobile phone support board 11.

Embodiment 4

In this embodiment, the mobile phone support board 11 and the baffle 114 are improved on the basis of the first or second embodiment, and the same points are not described herein. The difference is that, as shown in FIGS. 25 and 26, the outer side of the mobile phone support board 11 is disposed. A baffle 114 is fixedly or integrally formed, and the mobile phone support plate 11 is slidably mounted on the accommodating cavity 10 of the socket panel 1 , and a spring is mounted on the inner side of the mobile phone support plate 11 to provide a return to the accommodating cavity 10 of the mobile phone support plate 11 . Elasticity.

The above content is only a preferred embodiment of the present invention, and those skilled in the art will have a change in the specific embodiment and application scope according to the idea of the present invention. The content of the present specification should not be construed as the present invention. limits.

Claims (17)

1. A power socket with a separate USB charging head, including a socket panel (1), comprising: a separate USB charging head (2), the top surface of the USB charging head (2) is provided with at least one USB charging interface (13) The side of the USB charging head (2) and/or the bottom surface thereof are provided with conductive pins (20); the back of the socket panel (1) is provided with at least one mounting chamber (3) having a set depth, and the mounting chamber (3) The top surface penetrates the front surface of the socket panel (1) and forms an insertion opening, and the side and/or the bottom surface of the mounting chamber (3) is provided with a power pole piece (31) for supplying power; the USB charging head (2) is inserted through The port is inserted into the mounting chamber (3), and the conductive pin (20) of the USB charging head (2) is electrically connected to the corresponding power pole piece (31); the top surface of the USB charging head (2) forms a socket panel (1) )A part of.
2. The power socket with a separate USB charging head according to claim 1, wherein at least one receiving cavity (10) is opened in front of the socket panel (1), and the receiving cavity (10) is pivotally connected with at least one capable of The mobile phone support board (11) is turned over or removed, and the mobile phone support board (11) has a stowed state and a use state. In the stowed state, the mobile phone support board (11) is hidden in the storage cavity (10), and the mobile phone is in use. The support plate (11) is turned outwardly or outwardly toward the front of the socket panel (1), and the mobile phone support plate (11) is fixed at a set angle, and the mobile phone support plate (11) is fixedly attached to the socket panel by a magnet ( 1) or snap to the socket panel (1) through the snap structure.
3. The power socket with a separate USB charging head according to claim 1, wherein a front surface of the front panel of the socket panel (1) is provided with a slope (12) for abutting the mobile phone; a front portion or a side surface of the board (11) is provided with a handle portion (111); the top surface and/or the side surface of the USB charging head (2) is provided with at least one handle (21) or a buckle portion (22); The panel (1) has a front panel, the front panel is provided with at least one set of power sockets (15), and the top surface of the USB charging head (2) inserted in the mounting chamber (3) is flush or close to the front a surface of the panel; the power socket is provided with a bottom box (4), the socket panel (1) is mounted on the bottom box (4); at least one touch switch is mounted on the outer side wall of the mounting chamber (3) ), the contact bar of the touch switch (28) extends into the mounting chamber (3).
4. The power socket with a separate USB charging head according to claim 1, wherein the top surface of the USB charging head (2) is hinged with a pull-opening or unfolding pull plate, and the top of the USB charging head (2) The surface or socket panel (1) is provided with a receiving chamber (23). The initial state of the lowering plate is hidden in the receiving chamber (23); at least one side of the top surface of the USB charging head (2) is provided with a buckle portion (22) The insertion opening corresponds to a recess (24) provided at a position of the buckle portion (22), the recess (24) is larger than the buckle portion (22), and the recess (24) and the buckle portion (22) are formed. a pointing space for pulling the USB charging head (2) out of the mounting chamber (3); the bottom of the mounting chamber (3) is provided with two electrode mounting positions, each electrode A power pole piece (31) is disposed in the mounting position, and the bottom surface of the USB charging head (2) is provided with two of the conductive pins (20), and the USB charging head (2) is inserted in the mounting chamber (3) After the two conductive pins (20) are respectively inserted into the two electrode mounting positions, and the two power pole pieces (31) are respectively elastically contacted with the corresponding conductive pins (20); the USB charging head (2) Set to control the power supply The total power control switch or control USB charging socket head (2) of the power source, the USB charging control switch protruding head (2) of the top surface.
5. The power socket with a separate USB charging head according to claim 1, wherein a spacer (33) is fixed above the electrode mounting position, and the partition (33) corresponds to the position of the two electrode mounting positions. Each of the slots (332) is slidably mounted with at least one electrode protection cover (34), and the upper side of the inner end of the electrode protection cover (34) is provided with a guide slope; When the conductive pin (20) of the USB charging head (2) is inserted into the corresponding electrode mounting position, the conductive pin (20) squeezes or pushes the corresponding electrode protective cover (34) and is inserted into the power pole piece below it ( 31); when the USB charging head (2) is pulled out from the mounting chamber (3), after the conductive pins (20) are separated from the corresponding electrode mounting positions, the electrode protection cover (34) is automatically reset and closed accordingly. Electrode mounting position;
6. The power socket with a separate USB charging head according to claim 5, wherein the front panel is integrally formed with the mounting chamber (3), and the front panel extends to one side along the edge of the insertion opening to form a mounting cavity. a bottom cover (32) is fixed to the bottom surface of the mounting chamber (3) for closing the bottom surface of the mounting chamber (3), and the electrode mounting position and the power pole piece (31) are fixed to the bottom cover ( 32) above; the depth of the mounting chamber (3) is slightly larger than the height of the USB charging head (2); the USB charging head (2) includes a housing, and the USB charging interface (13) is from the surface of the housing Exposed, a circuit board is fixed in the housing, the circuit board is electrically connected to the USB charging interface (13) and the conductive pin (20), respectively, and the conductive pin (20) protrudes from the bottom surface of the housing; the power pole piece ( The upper part of 31) is provided with a pin slit for elastically clamping and electrically contacting the conductive pin (20); the two electrode protection covers (34) on one side of the electrode mounting position are integrally connected, and the two electrode protection covers are integrally connected The connecting portion between (34) forms a pushing portion (341), and the pushing portion (341) is respectively disposed between the wall on the side opposite to the mounting chamber (3) There is a spring (342).
7. The power socket with a separate USB charging head according to claim 5, wherein a spacer (33) is fixed above the electrode mounting position, and the partition (33) corresponds to the position of the power pole piece (31). a slot (333) is opened, and at least one through hole (331) is opened on one side of the partition plate (33); at least one contact switch (35) is disposed under the partition plate (33), and the contact switch (35) is Corresponding power pole pieces (31) are connected in series; the bottom of the USB charging head (2) is provided with at least one top post (25); after the USB charging head (2) is inserted in the mounting chamber (3), the top The post (25) passes through the through hole (331) of the partition plate (33) and is pressed against the contact switch (35), and the contact switch (35) is turned on; the USB charging head (2) is from the mounting chamber (3) When pulling out, the top post (25) is separated from the contact switch (35), and the contact switch (35) is turned off.
8. The power socket with a separate USB charging head according to claim 1, wherein: the back of the socket panel (1) is provided with at least one eject mechanism, and the USB charging head (2) is pressed against the eject mechanism for After pressing the USB charging head (2), the distance set by the USB charging head (2) is bounced outward; the USB charging head (2) inserted in the mounting chamber (3) has an initial state and a pop-up state, an initial state The conductive pin (20) of the USB charging head (2) inserted in the mounting chamber (3) is electrically connected to the corresponding power electrode, the USB charging head (2) is in an initial state, and the USB charging head (2) is turned on. The status of the power supply and the USB charging function; in the pop-up state, after the USB charging head (2) is popped outward in the eject mechanism or the USB charging head (2) is pulled out by an external force, the USB charging head (2) is in the state of being bounced. In the up state, the conductive pin (20) of the USB charging head (2) moves outward and disengages from the corresponding power electrode, and the USB charging head (2) is in a state of being disconnected from the power source.
9. The power socket with a separate USB charging head according to claim 7 or 8, wherein the ejecting mechanism comprises a self-locking switch (5), a self-locking switch (5) or a touch switch (35) as a power socket. The power access terminal, the USB charging head (2) pull-out/insert action or the pop-up/press-in action act as a switch action for controlling the power socket to be energized/de-energized.
10. The power socket with independent USB charging head according to claim 8, wherein the ejecting mechanism comprises a self-locking switch (5), and an upper portion of the self-locking switch (5) has a self-locking switch (5). And the on-off state and the upright (50) of the USB charging head (2); at least one side of the USB charging head (2) extends outwardly from a wing (27), the socket panel (1) The switch is provided with a switch receiving groove (16) corresponding to the position of the flap (27); the ejecting mechanism is received in the corresponding switch receiving groove (16), and the flap (27) is pressed against the corresponding self-locking switch (5) Above the pressure bar (50); the self-locking switch (5) has a self-locking initial state, an unlocked state, and a self-locking pop-up state.

    The pressing rod (50) has a pop-up position, an initial position and an unlocked position respectively from top to bottom according to the stroke position. When the self-locking switch (5) is in the self-locking initial state, the pressing rod (50) is self-locked to the initial position. ,

    When the self-locking switch (5) is in the self-locking state, the pressing rod (50) is self-locked in the pop-up position.

    In the unlocked state, the self-locking switch (5) is in an unlocked state during the process of switching from the self-locking initial state to the self-locking pop-up state, and the unlocking state is released when the pressing lever (50) moves from the initial position to the unlocked position.

    In the unlocked state, the pressing lever (50) is bounced upward from the unlocked position to the pop-up position, and is self-locked to the pop-up position.
11. The power socket with a separate USB charging head according to claim 10, wherein an adjacent side or opposite sides of the USB charging head (2) respectively extend outwardly to form a bone position to form a a wing (27), the wing (27) extends a set height along a height direction of the USB charging head (2); an upper portion of the switch housing groove (16) communicates with the mounting chamber (3); When the charging head (2) is in an initial state, the two wings (27) of the USB charging head (2) are partially or completely embedded in the upper portion of the corresponding switch housing groove (16), and the bottom of the wing plate (27) is abutted. Topping the top of the pressing rod (50) of the self-locking switch (5) in the corresponding switch housing groove (16); the self-locking switch (5) serving as a power inlet end of the power socket, or The lock switch (5) is connected in series with the power electrode, or the self-locking switch (5) is electrically connected in series with the power supply electrode and the electrode; the self-locking switch (5) is electrically turned on when the self-locking switch (5) is in the self-locking initial state; The self-locking switch (5) is electrically disconnected when the self-locking switch (5) is in the self-locking up state.
12. The power socket with a separate USB charging head according to claim 1, characterized in that: the front surface of the socket panel (1) is provided with a receiving cavity (10), and the lower part of the receiving cavity (10) is hinged to the mobile phone supporting plate (11). a lower portion of the mobile phone support plate (11) is provided with a baffle (114), and an upper portion of the mobile phone support plate (11) is hinged to an upper portion of the baffle (114);

    In the initial state, the baffle (114) rotates around the upper portion thereof and overlaps the inner surface of the mobile phone support plate (11), and the mobile phone support plate (11) rotates around the lower portion thereof and is received in the receiving cavity (10);

    In the state of use, after the mobile phone support plate (11) rotates around the lower portion thereof and is rotated outwardly relative to the socket panel (1), the inner surface of the mobile phone support plate (11) faces upward and traverses the socket panel (1). Front side,

    After the baffle (114) rotates around its upper portion and is rotated outwardly relative to the handset support plate (11), the baffle (114) forms an L-shaped support with the handset support plate (11) for placing the handset.
13. The power socket with a separate USB charging head according to claim 12, wherein in the state of use, the shutter (114) is tilted after being turned outwardly, and the shutter (114) Forming an acute angle with the mobile phone support plate (11), the height of the baffle (114) with the heightening design is equivalent to the height of the mobile phone support plate (11).
14. The power socket with a separate USB charging head according to claim 13, wherein an upper portion of the baffle (114) is provided with a rotating shaft hinged to an upper portion of the mobile phone supporting plate (11), and a baffle plate ( 114) A pressing portion (117) extends above the rotating shaft, and the pressing portion (117) protrudes above the mobile phone support plate (11).
15. The power socket with a separate USB charging head according to claim 14, wherein the front surface of the mobile phone support board (11) is formed with a handle portion (111), and the handle portion (111) is protruded at The front surface of the mobile phone support plate (11) is formed with a protruding portion as an application portion for opening the mobile phone support plate (11), and the protruding portion is a bump, a ridge, a protruding plate or a protruding column, and the outer end of the protruding portion Arc chamfers are set at each corner of the part.
16. The power socket with a separate USB charging head according to claim 15, wherein a second magnetic sheet (14) is fixed to one side or both sides of the receiving cavity (10), and the receiving cavity (10) is A positioning edge is protruded from the one side edge or the two side edges toward the receiving cavity (10), and a second magnetic sheet (14) is fixed in the positioning seat for positioning and sucking the mobile phone supporting plate (11).
17. The power socket with a separate USB charging head according to claim 1, wherein at least one side wall of the mounting chamber (3) is provided with a plurality of heat dissipation holes.

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