CN114825536B - Integrated charging stand - Google Patents

Abstract

The invention discloses an integrated charging seat, which comprises a main body, wherein the main body is arranged on a to-be-mounted surface, and comprises: the shell is provided with an inner cavity, the top of the shell is closed, the bottom of the shell is open, and the bottom of the shell is covered with a base; the wireless charging module is used for wirelessly charging the external equipment; the wired charging module is used for carrying out wired charging on the external equipment; the integrated bracket is arranged in the inner cavity and comprises a plurality of mounting grooves for mounting the wireless charging module and the wired charging module respectively; and the fixing assembly is used for detachably mounting the main body on the to-be-mounted surface. Compared with the prior art, the integrated level of the charging seat is improved, when the charging seat is assembled, only the integrated bracket and the charging module are directly arranged in the shell, and the base is covered on the shell, so that the internal structure is orderly arranged, the assembling sequence of the charging seat is simplified, and the internal space utilization rate is improved.

Description

Integrated charging stand

Technical Field

The invention relates to the field of charging, in particular to an integrated charging seat.

Background

Along with the continuous development of communication technology, the types of electronic equipment are more and more diversified, electronic equipment such as smart phones, smart watches, smart bracelets, bluetooth headsets and the like in the market are endless, and the mobile electronic equipment is charged to become a current difficult problem while the electronic equipment brings convenience to the life of people; in order to charge the mobile electronic devices, an integrated charging seat is formed in the market, most of charging structures at present are integrated in the integrated charging seat, and the integrated charging seat is arranged on a desktop to charge almost all the mobile electronic devices in the market, so that the integrated charging seat is internally required to be integrated with various circuit structures, the problems of messy inside the charging seat, low space utilization rate, difficult assembly and the like are caused, and the existing integrated charging seat is generally in a mode of being directly arranged on the desktop during fixing and mounting, so that the charging seat is easy to shift, even fall and the like; thus, there remains a need for continued optimization of existing integrated charging stations.

Disclosure of Invention

The invention provides a novel integrated charging seat, and aims to solve the technical problems of assembly and difficulty of the integrated charging seat in the prior art.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an integrated charging stand comprising a main body mounted on a surface to be mounted, the main body comprising: the shell is provided with an inner cavity, the top of the shell is closed, the bottom of the shell is open, and the bottom of the shell is covered with a base; the wireless charging module is used for wirelessly charging the external equipment; the wired charging module is used for carrying out wired charging on the external equipment; the integrated bracket is arranged in the inner cavity and comprises a plurality of mounting grooves for mounting the wireless charging module and the wired charging module respectively; and the fixing assembly is used for detachably mounting the main body on the to-be-mounted surface.

Further, the wired charging module comprises a wired charging module and a socket module; the integrated bracket includes: the first mounting groove is formed in the upper end of the integrated bracket and is used for mounting the wireless charging module; the second mounting groove is formed in the lower end of the integrated bracket and is used for mounting the wired charging module; and the third mounting groove is formed in the lower end of the integrated bracket and is used for mounting the socket module.

Further, the wired charging module comprises an AC circuit board and a DC circuit board, the second mounting groove comprises a first groove wall, the AC circuit board is mounted in the second mounting groove and is close to the first groove wall, the DC circuit board is mounted outside the first groove wall, a yielding port is formed in the first groove wall, and the AC circuit board and the DC circuit board are electrically connected through the yielding port.

Further, the second mounting groove further comprises a pair of oppositely arranged sliding grooves, the sliding grooves are provided with sockets positioned at the notch of the second mounting groove, and the AC circuit board is inserted into the sliding grooves from the sockets.

Further, the third mounting groove comprises a second groove wall, a mounting hole for mounting the socket module is formed in the second groove wall, the socket module comprises a body and a face cover, the body is arranged in the third mounting groove, the face cover is clamped on the outer side of the mounting hole, the face cover is provided with an ear, and the ear is detachably connected with the second groove wall.

Further, the bottom of second cell wall still sets up flutedly, integrated charging seat still includes power cord and clamp, the power cord is used for being connected with external power source electricity, the power cord is located in the recess, the clamp with the recess is connected in order to compress tightly the power cord.

Further, wireless module that charges includes control circuit board, wireless charging coil, first fin and second fin, first fin is located the tank bottom of first mounting groove, control circuit board laminating sets up on the first fin, the second fin is located the notch of first mounting groove, wireless charging coil laminating sets up on the second fin.

Further, the wired charging module and the socket module each comprise a power output interface, the shell is provided with a socket opposite to the power output interface, and the outside of one side of the shell provided with the socket is also provided with a decorative plate in a covering mode.

Further, the fixing assembly includes: the first magnetic component comprises a first magnet and a pressing plate, a first accommodating groove for installing the first magnet is formed in the inner side of the base, and the pressing plate is covered above the first accommodating groove; the second magnetic component comprises a 3M adhesive-backed patch, a supporting seat and a magnet guiding sheet, wherein the 3M adhesive-backed patch is fixedly adhered to the to-be-installed surface, one side of the supporting seat is adhered to the 3M adhesive-backed patch, a groove is formed in the other side of the supporting seat, the magnet guiding sheet is arranged in the groove, and the magnet guiding sheet is fixedly attracted to the first magnet.

Further, the top of integral type support still is equipped with the second accommodation groove, the second accommodation groove is equipped with and is used for magnetism to inhale the fixed second magnet of waiting to charge equipment, the shell top still is equipped with the spacing groove that is used for placing waiting to charge equipment.

The beneficial effects are that: compared with the prior art, this application is with wireless charging module and wired charging module direct integration install on integral type support, through carrying out the modularization setting to integral type support and charging module, improved the integrated level of charging seat, when the equipment charging seat, only need directly pack into the shell with integrated integral type support and charging module, again with the base lid on the shell can for inner structure is orderly arranged, and simplified the equipment order of charging seat, improved the space utilization of inside.

In addition, the integrated charging seat is provided with the capability of being detachably mounted on a to-be-mounted surface (a desktop, a wall surface and the like) through the configuration of the fixing assembly, so that the integrated charging seat is more flexible to mount and place, and the stability of the integrated charging seat after being mounted and fixed is improved.

Drawings

Fig. 1 is a schematic perspective view of an integrated charging stand according to the present invention.

Fig. 2 is a schematic diagram of a part of an exploded structure of the integrated charging stand according to the present invention.

Fig. 3 is an exploded view of a fixing assembly of an integrated charging stand according to the present invention.

Fig. 4 is an assembly schematic diagram of an integrated bracket, a wireless charging module and a wired charging module according to the present invention.

Fig. 5 is a schematic perspective view of the bottom direction of the integrated bracket in the present invention.

Fig. 6 is a schematic perspective view of the first slot wall of the integrated bracket according to the present invention.

Fig. 7 is a schematic perspective view of a second slot wall of the integrated bracket according to the present invention.

Fig. 8 is a schematic perspective view of a socket module according to the present invention.

Wherein, the main reference numerals in this application include:

1. a main body; 11. a base; 12. a housing; 121. a limit groove; 21. a wireless charging module; 211. a control circuit board; 212. a wireless charging coil; 3. a wired charging module; 31. a wired charging module; 311. an AC circuit board; 312. a DC circuit board; 33. a USB output interface; 34. type-c interface; 35. a socket module; 351. a bottom case; 352. a safety door; 3521. positioning columns; 3522. a middle shell; 3523. a plug; 3524. an elastic reset piece; 3525. a bevel portion; 353. a face cover; 3531. a jack; 354. a plug bush; 355. an ear; 4. an integral bracket; 43. a first mounting groove; 431. a thin wall; 44. a second mounting groove; 441. a first groove wall; 442. a slot; 443. a chute; 444. a yielding port; 45. a third mounting groove; 451. a second groove wall; 452. a mounting hole; 453. an embedding groove; 46. a second magnet; 5. a first heat sink; 6. a second heat sink; 7. a decorative plate; 8. a power line; 91. a first magnetic assembly; 911. a first magnet; 912. a first accommodating groove; 93. a pressing plate; 92. a second magnetic assembly; 921. a 3M adhesive-backed patch; 922. a magnet sheet is introduced; 923. a support base; 924. a concave-convex structure; 94. a gasket; 10. and a conductive sheet.

Detailed Description

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. The term "and/or" as used herein includes all or any element and all combination of one or more of the associated listed items.

It will be understood by those skilled in the art that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The invention provides an integrated charging seat, as shown in fig. 1 to 4, the integrated charging seat in the application mainly comprises a main body 1 and a fixing component, wherein the fixing component is arranged at the bottom of the main body 1, the fixing component is arranged on a to-be-mounted surface, and the charging seat main body 1 is arranged on the to-be-mounted surface through the fixing component, so that the mounting convenience of the charging seat is improved; wherein, main part 1 in this application mainly includes two component parts, be shell 12 and the integral type support 4 of setting inside shell 12 respectively, shell 12 includes the inner chamber, shell 12 top is sealed and the bottom opening, the opening part lid in shell 12 bottom is equipped with base 11, integral type support 4 locates in the inner chamber, integral type support 4 includes a plurality of mounting grooves that are used for installing wireless charging module 21 and wired charging module 3 respectively, install wireless charging module 21 and wired charging module 3 direct integration on integral type support 4, through carrying out the modularization setting to integral type support 4 and charging module, the integrated level of integration of charging seat has been improved, when the equipment charging seat, only need with integrated integral type support 4 and charging module direct packing into shell 12, cover base 11 again can on shell 12, make inner structure arrange in order, and simplified the equipment order of charging seat, the space utilization in-inside has been improved, make the integrated type charging seat possess the dismantlement and install the ability on waiting the installation face (desktop, wall etc.), and the integrated type of charging seat after fixing obtains the improvement.

Further, as shown in fig. 2 and 3, the fixing component includes a first magnetic component 91 and a second magnetic component 92, where the first magnetic component 91 is disposed on the base 11, and an installation position is further disposed at a bottom position of the base 11 of the main body 1, where the installation position is used to be installed in cooperation with the second magnetic component 92, the second magnetic component 92 is disposed on a bottom surface outside the base 11, and the second magnetic component 92 is detachably installed on any to-be-installed surface, then the main body 1 is placed on the second magnetic component 92, and the second magnetic component 92 is matched with the installation position, and is fixed by magnetic attraction between the first magnetic component 91 and the second magnetic component 92. The charging seat is not required to be embedded into and mounted on a mounting surface (such as a tabletop, a wall surface and the like), furniture is not required to be damaged, and the charging seat can be fixed at a specific position by adopting a mode of assembling the mounting position and the second magnetic component 92 and matching a mode of sucking the first magnetic component 91 and the second magnetic component 92, so that the mounting stability of the charging seat is greatly ensured; when the charging seat needs to be moved to other positions, the second magnetic component 92 is only required to be fixed and removed and fixed at other positions, or the second magnetic component 92 is respectively arranged on different mounting surfaces, so that the magnetic fixing position of the charging seat can be changed.

The first magnetic assembly 91 includes a first magnet 911, at least one first accommodating groove 912 is disposed above the base 11, the accommodating grooves are uniformly disposed above the base 11, a first magnet 911 is disposed in each accommodating groove, in addition, the first magnetic assembly 91 further includes a pressing plate 93, the pressing plate 93 covers the top of the base 11, specifically covers the opening of the first accommodating groove 912, for example, the first accommodating groove 912 in the embodiment is provided with three first accommodating grooves 912, three apexes of an equilateral triangle are distributed between the three first accommodating grooves 912, the pressing plate 93 adopts a T-shaped structure, the pressing plate 93 is directly disposed on the first accommodating grooves 912, and the pressing plate 93 and the base 11 are fixed by adopting a screw connection mode, after the pressing plate 93 is installed, the charging seat main body 1 is assembled, the base 11 and the housing 12 are fixed by adopting a combination mode of a buckle and a screw connection, and the integral bracket 4 is pressed above the pressing plate 93.

Further, the second magnetic component 92 in this application is fixed with the mode of gluing between the installation face that waits, in this embodiment the second magnetic component 92 mainly includes 3M gum paster 921, supporting seat 923 and draws magnet piece 922,3M gum paster 921 one side and installation face bonding are fixed, the supporting seat 923 sets up on 3M gum paster 921, and fix through the mode of gluing with 3M gum paster 921 directness, still be equipped with the cell body in the top of supporting seat 923, both can adopt the mode of gluing to fix between drawing magnet piece 922 and the cell body, still can adopt the mode of embedding to fix, and through setting up supporting seat 923, especially the cell body can play fine limiting displacement to drawing magnet piece 922, can be better will draw magnet piece 922 to fix. In addition, since the second magnetic component 92 in this embodiment is built in the installation position, the application is further provided with a group of concave-convex structures 924 on the periphery of the supporting seat 923, and the supporting seat 923 is in direct contact with the installation position through the concave-convex structures 924, the concave-convex structures 924 can effectively increase the friction between the supporting seat 923 and the supporting seat 923, and avoid the relative rotation between the charging seat main body 1 and the second magnetic component 92. Still further, the supporting seat 923 in the present application is in fit with the shape of the mounting position, and the area of the supporting seat 923 from top to bottom increases gradually, the area of the corresponding mounting position from top to bottom increases gradually correspondingly, the bottom of the mounting position passes through the top of the supporting seat 923 during mounting, and at this time, the gap between the mounting position and the supporting seat 923 is ensured to be relatively large, so that the main body 1 is placed on the supporting seat 923 from above.

Of course, the main body 1 in the application can also be separated from the second magnetic component 92 and placed independently, at this time, four silica gel gaskets 94 are further arranged on the bottom surface of the main body 1, four gaskets 94 are uniformly distributed at four corners of the bottom of the main body 1, friction between the charging seat main body 1 and the mounting surface can be effectively increased through the gaskets 94, and scratches between the mounting surfaces can be avoided. The other side of the 3M back adhesive patch 921 is adhered to and fixed with the magnet guiding sheet 922, the mounting position is concavely arranged on the bottom surface of the base 11, the second magnetic component 92 is embedded in the mounting position for assembly, and of course, the mounting position can also be set to be in a convex form, and the corresponding concave groove body is arranged on the second magnetic component 92, so that the achieved effect is the same as that of the embodiment.

It should be noted that, in the present application, the first magnetic component 91 and the second magnetic component 92 are fixed by magnetic attraction, and besides the above manner of setting magnets on the first magnetic component 91 and the second magnetic component 92, any one of the first magnet 911 and the magnet guiding sheet 922 may be replaced by an iron sheet, so that the magnetic attraction effect can be achieved as well, which is not described in detail in the present application. Through set up fixed subassembly in the bottom of main part 1, can be convenient for the charging seat with wait to install and link together detachably between the face, when promoting the convenient degree of charging seat installation, still improved the steadiness after the charging seat installation.

Specifically, as shown in fig. 4 to 7, the integral bracket 4 in the present application is of an integral structure, and a plurality of mounting grooves, namely a first mounting groove 43, a second mounting groove 44 and a third mounting groove 45, are specifically provided on the integral bracket 4, and are respectively used for being opened in different directions of the integral bracket 4, and are respectively used for installing and fixing the wired charging module 3 and the wireless charging module 21, the wireless charging module 21 is used for wirelessly charging external equipment, and the wired charging module 3 is used for wired charging of the external equipment, wherein the wired charging module 3 further comprises a wired charging module 31 and a socket module 35.

Specifically, the first mounting groove 43 is disposed above the integral bracket 4, the first mounting groove 43 and the top of the inner cavity of the housing 12 form a relatively airtight cabin, and the first mounting groove 43 is mainly used for mounting the wireless charging module 21; in one embodiment, the wireless charging module 21 includes a control circuit board 211, a wireless charging coil 212, a first heat dissipation sheet 5 and a second heat dissipation sheet 6, where the control circuit board 211, the wireless charging coil 212, the first heat dissipation sheet 5 and the second heat dissipation sheet 6 are stacked, in this embodiment, the first heat dissipation sheet 5 is disposed at a bottom of the first mounting groove 43, then the control circuit board 211 is disposed on the first heat dissipation sheet 5, and by using the high thermal conductivity of the first heat dissipation sheet 5, the first heat dissipation sheet 5 is attached to the control circuit board 211 to quickly absorb heat generated by the operation of the control circuit board 211 and conduct the heat to the bracket for dissipation; a circle of thin wall 431 is further arranged at the notch of the first mounting groove 43, the outside of the thin wall 431 is kept flat with the peripheral side of the first mounting groove 43, the thickness of the thin wall 431 is smaller than that of the groove wall of the first mounting groove 43, the notch of the first mounting groove 43 is provided with a clamping groove by the thin wall 431, the second radiating fin 6 is placed in the clamping groove and limited by the thin wall 431, then the wireless charging coil 212 is attached to the upper surface of the second radiating fin 6, heat generated during the operation of the wireless charging coil 212 can be conducted rapidly by the second radiating fin 6, the heat is conducted to the support to be dissipated, and the potential safety hazard caused by too serious heating at the first mounting groove 43 is avoided.

Specifically, the second mounting groove 44 is formed at the lower end of the integral bracket 4, and is mainly used for mounting the wire charging module 31, wherein the wire charging module 31 is composed of two circuit boards, namely an AC circuit board 311 and a DC circuit board 312, the AC circuit board 311 is electrically connected with the power wire 8, a power output unit (such as a USB output interface 33 and a type-c interface 34 are commonly used) is integrally arranged on the DC circuit board 312, and the DC circuit board 312 is electrically connected with the AC circuit board 311 so as to convert alternating current input by the power wire 8 into stable direct current and output the stable direct current to the equipment to be charged through the power output unit; the AC circuit board 311 is mounted in the second mounting groove 44, and the DC circuit board 312 is mounted outside the second mounting groove 44 in this embodiment because the DC circuit board 312 needs to be output to the outside, and the specific mounting structure is: the second mounting groove 44 includes a first groove wall 441, the first groove wall 441 is also used as the outer wall of the outermost side of the integrated bracket 4, the first groove wall 441 faces the side wall of the housing 12, the DC circuit board 312 is mounted on the first groove wall 441, one side of the DC circuit board 312 provided with the power output unit is opposite to the side wall of the housing 12, a socket corresponding to the power output unit is provided on the side wall of the housing 12, a slot 442 is further provided at the upper end of the first groove wall 441, the slot 442 is used for inserting the DC circuit board 312 into the slot 442, thereby defining the mounting position of the DC circuit board 312, enabling the mounted DC circuit board 312 to be exactly aligned with the slot 442, improving the assembly precision, and meanwhile, the slot 442 can also avoid the problem of shaking dislocation of the DC circuit board 312, and the slot 442 can also be provided at the left and right sides of the first groove wall 441, and the DC circuit board 312 can be directly inserted; a pair of sliding grooves 443 are provided in the second mounting groove 44, the sliding grooves 443 extend in a length direction of the second mounting groove 44 from the notch to the groove bottom, and the sliding grooves 443 are provided with sockets at the notches of the second mounting groove 44, the AC circuit board 311 is inserted into the sliding grooves 443 from the sockets, and the AC circuit board 311 is disposed close to the first groove wall 441 such that the positions of the AC circuit board 311 and the DC circuit board 312 are located only across one first groove wall 441, which allows the AC circuit board 311 and the DC circuit board 312 to be electrically connected through the relief ports 444 by providing the relief ports 444 on the first groove wall 441.

Quick assembly can be realized between the second mounting groove 44 and the wired charging module 31 through a sliding groove 443 or a clamping groove, and particularly the DC circuit board 312 can be quickly mounted in the second mounting groove 44, and the AC circuit board 311 is arranged outside the first groove wall 441, so that the power output unit on the AC circuit board 311 can be conveniently discharged to the outside; during assembly, the DC circuit board 312 may be inserted into the second mounting groove 44, then the AC circuit board 311 is mounted on the outer side of the first groove wall 441, and finally the AC circuit board 311 and the DC circuit board 312 are electrically connected through the abdication opening 444; it is also possible to arrange the relief opening 444 at the lowest end of the first groove wall 441, and the relief opening 444 is provided with an opening at the lowest end of the first groove wall 441, and firstly fix and electrically connect the relative positions of the AC circuit board 311 and the DC circuit board 312, and then insert the fixed AC circuit board 311 and the DC circuit board 312 into the second mounting groove 44 at one time. Regardless of the above manner, the wire charging module 31 and the integrated bracket 4 can be assembled fastest, and a good protection effect can be provided for the wire charging module 31.

Specifically, the third mounting groove 45 is also formed at the lower end of the integrated bracket 4, and the second mounting groove 44 and the third mounting groove 45 are adjacently arranged, and only one wall is separated between the second mounting groove 44 and the third mounting groove 45; the third mounting groove 45 comprises a second groove wall 451, the second groove wall 451 is arranged at one side opposite to the third mounting groove 45, a mounting hole 452 is formed in the second groove wall 451, the mounting hole 452 is used for mounting the socket module 35, the socket module 35 comprises a body and a face cover 353, the body of the socket module 35 is inserted into the third mounting groove 45 from the mounting hole 452 during mounting, the face cover 353 is slightly larger than the mounting hole 452, the face cover 353 can be clamped at the outer side of the mounting hole 452, an embedded groove 453 matched with the outline of the face cover 353 is further formed at the outer side of the second groove wall 451, the face cover 353 can be embedded in the embedded groove 453, an ear 355 can be further arranged on the face cover 353, a hole is formed in the ear 355, and the face cover 353 and the second groove wall 451 are connected by using a screw. This arrangement improves the integration and assembly stability of the socket module 35 on the integrated bracket 4, so as to be suitable for the situation that the socket module 35 needs to receive a large plugging force during operation.

Further, as shown in fig. 8, the body of the socket module 35 includes a safety door 352, a plug bush 354 and a bottom shell 351, wherein one side of the bottom shell 351 is provided with an opening, the plug bush 354 is structurally arranged inside the bottom shell 351, the plug bush 354 is provided with a conductive sheet 10, the conductive sheet 10 penetrates out of the lower end of the bottom shell 351 to be used for connecting a power line 8, the safety door 352 is arranged at the opening of the bottom shell 351, a jack 3531 corresponding to the plug bush 354 is arranged on the safety door 352, the safety door 352 is arranged at the opening of the bottom shell 351, the face cover 353 is then covered on the safety door 352, and the bottom shell 351, the safety door 352 and the face cover 353 are sequentially fastened and fixed together.

Further, the safety door 352 in the application comprises a middle shell 3522 and a protection mechanism arranged in the middle shell 3522, wherein the middle shell 3522 is matched with the opening shape of the bottom shell 351, the plug bush 354 is embedded in the middle shell 3522, a groove body is arranged on one side of the middle shell 3522 opposite to the face cover 353, the protection mechanism is arranged in the groove body, the face cover 353 is arranged at the notch of the groove body, and the face cover 353, the middle shell 3522 and the bottom shell 351 are buckled together to complete fixation; still be equipped with the locating hole on drain pan 351, be equipped with reference column 3521 on the well shell 3522 of emergency exit 352, locate reference column 3521 in the locating hole to guarantee the installation accuracy of emergency exit 352 and drain pan 351, avoid emergency exit 352 to rock simultaneously.

The protection mechanism includes a plug 3523 and an elastic reset piece 3524, in this embodiment, since the socket module 35 is a three-hole socket module 35, it is required to have a plug 3523, the plug 3523 corresponds to the socket 354, the plug 3523 includes two more inclined surface portions 3525, each inclined surface portion 3525 corresponds to one jack 3531, the inclined surface portions 3525 are opposite to the jack 3531 so as to plug the jack 3531, the inclined surface portions 3525 are inclined in the axial direction of the jack 3531, when the plug is inserted, the plug contacts with the inclined surface to enable the plug 3523 to be abutted to the jack 3531, and the elastic reset piece 3524 is directly abutted to the plug 3523, so that the plug 3531 is plugged after the plug 3523 is pushed to reset, and the effect of preventing foreign matters from being plugged into the jack 3531 and conducting electricity with the socket 354 is achieved.

The elastic reset piece 3524 in this embodiment is abutted between the plug 3523 and the safety door 352, so that when a plug is inserted, the plug 3523 moves towards a direction close to the upper end of the safety door 352, wherein the elastic reset piece 3524 is a spring, the elastic direction of the spring is a direction for pushing the plug 3523 to move downwards, a first abutting joint is arranged at the upper end of the plug 3523, a second abutting joint is arranged at the top of the inner portion of the middle shell 3522, and the spring is sleeved on the first abutting joint and the second abutting joint, so that dislocation of the spring is avoided. More specifically, two elastic reset pieces 3524 are arranged on the plug 3523, and the two elastic reset pieces 3524 are uniformly arranged inside the middle shell 3522, so that the stable operation of the safety door 352 can be ensured by arranging the two elastic reset pieces 3524, and the problem that the plug 3523 fails after multiple plugging is avoided.

In other embodiments, the plug 3523 may be rotatably disposed in the middle shell 3522, where the plug 3523 is connected to the middle shell through a rotating shaft, and the inclined surface portion of the plug 3523 is correspondingly disposed in the jack 3531, when the plug is inserted into the jack 3531, the plug contacts the inclined surface portion 3525, and the plug 3523 rotates along with the insertion of the plug, so as to avoid the jack 3531, and at this time, the elastic restoring member 3524 is a torsion spring, and after the plug is pulled out, the plug 3523 is restored under the action of the torsion spring, and the inclined surface portion 3525 is plugged at the jack.

Further, a groove and a clamp are further formed in the bottom of the second groove wall 451, the groove is used for penetrating a power line 8, the power line 8 is used for being electrically connected with an external power supply, the clamp and the groove are assembled to form a circular hole, the power line 8 is connected with the groove through the groove, the clamp surrounds the power line 8 and tightly presses the power line 8 in the groove, and therefore the rapid fixation of the power line 8 and an inner support can be achieved, assembly time is saved, and assembly efficiency is improved.

Since the socket opposite to the power output interface is required to be provided on the housing 12 after the wired charging module 31 and the socket module 35 are installed in the housing 12, the decorative plate 7 is further covered on the outside of the side of the housing 12 where the socket is provided, and the decorative plate 7 can modify the position of the housing 12 where the socket is provided on the housing 12, so that the appearance of the charging stand is smoother and more attractive.

Further, the application still is equipped with the second storage tank at the top of integral type support 4, and the second storage tank is equipped with and is used for magnetism to inhale fixed second magnet 46 of waiting the battery charging outfit, and second magnet 46 is fixed in the second storage tank through modes such as gluing, embedding, still is equipped with spacing groove 121 at the top of shell 12, and spacing groove 121 is used for placing waiting the battery charging outfit, waits to charge the fixed on the battery charging outfit formation equipment mode.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. An integrated charging stand comprising a body, the body comprising:

the shell is provided with an inner cavity, the top of the shell is closed, the bottom of the shell is open, and the bottom of the shell is covered with a base;

the wireless charging module is used for wirelessly charging the external equipment;

the wired charging module is used for carrying out wired charging on external equipment and comprises a wired charging module and a socket module, wherein the wired charging module comprises an AC circuit board and a DC circuit board;

the integral type support, the integral type support is located in the inner chamber, the integral type support includes a plurality of mounting grooves that are used for installing respectively wireless module and the wired module that charges, wherein the integral type support includes: the first mounting groove is formed in the upper end of the integrated bracket and is used for mounting the wireless charging module; the second mounting groove is formed in the lower end of the integral bracket and is used for mounting the wired charging module, the second mounting groove further comprises a pair of oppositely arranged sliding grooves, the sliding grooves are provided with jacks positioned at the notch of the second mounting groove, the AC circuit board is inserted into the sliding grooves from the jacks, the second mounting groove comprises a first groove wall, the AC circuit board is mounted in the second mounting groove and is close to the first groove wall, the DC circuit board is mounted outside the first groove wall, a yielding port is formed in the first groove wall, and the AC circuit board and the DC circuit board are electrically connected through the yielding port; the third mounting groove is formed in the lower end of the integrated bracket and is used for mounting the socket module, the third mounting groove comprises a second groove wall, a mounting hole for mounting the socket module is formed in the second groove wall, the socket module comprises a body and a face cover, the body is arranged in the third mounting groove, the face cover is clamped outside the mounting hole, the face cover is provided with an ear, the ear is detachably connected with the second groove wall, the bottom of the second groove wall is further provided with a groove, the integrated charging seat further comprises a power wire and a clamp, the power wire is used for being electrically connected with an external power supply, the power wire is arranged in the groove, and the clamp is connected with the groove to compress the power wire;

and the fixing assembly is used for detachably mounting the main body on the to-be-mounted surface.

2. The integrated charging stand of claim 1, wherein the wireless charging module comprises a control circuit board, a wireless charging coil, a first radiating fin and a second radiating fin, the first radiating fin is arranged at the bottom of the first mounting groove, the control circuit board is attached to the first radiating fin, the second radiating fin is arranged at the notch of the first mounting groove, and the wireless charging coil is attached to the second radiating fin.

3. The integrated charging stand of claim 1, wherein the wired charging module and the socket module each comprise a power output interface, the housing is provided with a socket opposite to the power output interface, and an exterior of a side of the housing provided with the socket is further covered with a decorative plate.

4. The integrated charging stand of claim 1, wherein the securing assembly comprises:

the first magnetic component comprises a first magnet and a pressing plate, a first accommodating groove for installing the first magnet is formed in the inner side of the base, and the pressing plate is covered above the first accommodating groove;

the second magnetic component comprises a 3M adhesive-backed patch, a supporting seat and a magnet guiding sheet, wherein the 3M adhesive-backed patch is fixedly adhered to the to-be-installed surface, one side of the supporting seat is adhered to the 3M adhesive-backed patch, a groove is formed in the other side of the supporting seat, the magnet guiding sheet is arranged in the groove, and the magnet guiding sheet is fixedly attracted to the first magnet.

5. The integrated charging stand of claim 1, wherein a second accommodating groove is further formed in the top of the integrated bracket, a second magnet for magnetically fixing the device to be charged is arranged in the second accommodating groove, and a limit groove for placing the device to be charged is further formed in the top of the housing.

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