CN220190511U - Manual control integrated wireless charger, lifting table and multifunctional seat - Google Patents

Abstract

The utility model provides a manual control integrated wireless charger, a lifting table and a multifunctional seat, which comprises a main control circuit board, a wireless charging transmitting module, a first driving board, a second driving board, a first key set and a power supply assembly, wherein the wireless charging transmitting module, the first driving board, the second driving board, the first key set and the power supply assembly are connected with the main control circuit board; the first driving plate is also connected with the wireless charging and transmitting module to drive the wireless charging and transmitting module to set frequency and/or power to generate an alternating magnetic field so as to output electric energy to the outside; the second driving plate is also connected with the power supply assembly and is externally connected with the motor so as to drive the motor to rotate and do work; the first key group is used for manually inputting a control instruction for controlling the output mode of the second driving plate; the main control circuit board is used for carrying out comprehensive control and data processing on each functional module. So set up, not only have wireless function of charging, but also can regard as the external electromechanical device of connecting of drive-by-wire ware, the operation of manual control electromechanical device to make wireless charger's function more diversified, satisfy more crowds, the demand of more trades.

Description

Manual control integrated wireless charger, lifting table and multifunctional seat

Technical Field

The utility model relates to the technical field of wireless charging, in particular to a manual control integrated wireless charger, a lifting table and a multifunctional seat.

Background

With the richer physical life of people, the life style of people has changed greatly, various electronic equipment such as mobile phones, computers, loudspeaker boxes, desk lamps, fans, desk chairs, sofas, intelligent bedside equipment and the like with changeable forms are layered endlessly, so that the power supply, the power supply wires and the controllers which are matched with the electronic equipment are more, the traditional power supply, the power supply wires and the controllers are independent, in order to meet the requirements of charging and equipment control simultaneously, the charger and the controllers are required to be simultaneously provided, so that the electronic auxiliary accessories installed on the desk chairs, sofas, intelligent bedside equipment and the like are more, the electronic accessories are not concise enough, a plurality of electronic accessories are required to be connected with different power supply wires and are inserted into different power supply socket holes, the installation is complicated, a plurality of limited wall sockets are occupied for a long time, the limited living space of people is not beneficial to being matched with the electronic auxiliary equipment, and in order to solve the problem, but the power supply wires of the living space are exposed, unclean and unsafe, and the living cost is increased. In addition, many electronic components and circuit structures in electronic circuits of home and office equipment can be shared, such as a rectifying circuit, a voltage reducing circuit and the like, and the reasonable sharing of electronic resources cannot be realized by the traditional independent wireless charger and the controller/wire controller.

Disclosure of Invention

Based on the above, the utility model provides a manual control integrated wireless charger, a lifting table and a multifunctional seat, which not only have the function of wireless charging for a mobile phone, a tablet or a notebook, but also can be externally connected with electromechanical equipment or other electronic equipment, and can manually control the operation of the electromechanical equipment or other electronic equipment, and can integrate the purposes of electronic components or circuits, so that the overall manufacturing cost and the transportation cost are reduced.

A manual control integrated wireless charger comprises a main control circuit board, a wireless charging transmitting module, a first driving board, a second driving board, a first key set and a power supply assembly, wherein the wireless charging transmitting module, the first driving board, the second driving board, the first key set and the power supply assembly are connected with the main control circuit board; the first driving plate is also connected with the wireless charging and transmitting module to drive the wireless charging and transmitting module to generate an alternating magnetic field with set frequency and/or power so as to output electric energy to the outside; the second driving plate is also connected with the power supply assembly and is externally connected with a motor to drive the motor to rotate for doing work; the first key group is used for manually inputting a control instruction for controlling the output mode of the second driving plate; the main control circuit board is used for carrying out comprehensive control and data processing on each functional module. So set up, not only have the function for cell-phone, dull and stereotyped or notebook wireless charging, but also can regard as the external electromechanical device of connecting of drive-by-wire ware to carry out manual control to electromechanical device's operation, and develop new function based on this, thereby make the function of wireless charger more diversified, satisfy more crowds, the demand of more trade, widened wireless charger's application mode and application range.

In one embodiment, the main control circuit board is provided with a bluetooth module, and the bluetooth module is used for establishing bluetooth communication with the mobile phone to exchange data information; the second key set is connected with the main control circuit board; the second key set is used for manually inputting a control instruction for controlling the action of the Bluetooth module.

In one embodiment, the speaker is further coupled to the power supply assembly to draw power directly from the power supply assembly.

In one embodiment, the main control circuit board, the first driving board and the wireless charging and transmitting module are sequentially connected.

In one embodiment, the first driving board and/or the second driving board are integrally connected with the main control circuit board.

In one embodiment, the keys of the first key set are electronic touch keys.

In one embodiment, the keys of the first key set are mechanical keys.

In one embodiment, the keys of the second key set are electronic touch keys.

In one embodiment, the keys of the second key set are mechanical keys.

In one embodiment, the power supply assembly includes a rectifying circuit board for rectifying an input power.

In one embodiment, the device further comprises a shell and a control panel; the main control circuit board, the first driving board, the second driving board and the power supply component are arranged in the shell and fixedly connected with the shell; the wireless charging transmitting module is arranged on the control panel or in the shell and fixedly connected with the shell; the first key set is arranged on the control panel; the control panel is detachably connected with the shell, and forms an accommodating space for installing electronic components.

In one embodiment, the second key set is also disposed on the control panel.

In one embodiment, the second key set is disposed on the housing.

In one embodiment, the device further comprises a fixed mounting plate; the fixed mounting plate is arranged in the shell and is fixedly connected with the shell; the fixed mounting plate is provided with a first wiring seat, and the first wiring seat is provided with a first motor wiring port, a wireless charging wiring port and a power supply wiring port; the first motor wiring port is connected with the second driving plate and is used for externally connecting with a motor; the wireless charging wiring port is connected with the first driving plate and the wireless charging transmitting module; the power connection port is connected with the power component and is used for externally connecting a power supply.

In one embodiment, the device further comprises a second wire holder; the second wire holder is provided with a burning port so as to be convenient for connecting terminal equipment to record an operation program.

In one embodiment, the wall surface of the shell is provided with a plurality of clamping groove holes; the control panel is provided with a plurality of buckles, when the control panel is installed with the casing together, the buckle with the draw-in groove hole block is connected.

In one embodiment, the control panel is further provided with a display screen; the display screen is also connected with the main control circuit board.

In one embodiment, a plurality of spring plate mounting seats are arranged on the periphery of the shell; the elastic sheet is fixedly arranged on the elastic sheet mounting seat, so that when the manual control integrated wireless charger is in embedded mounting, the support on the periphery is increased, and the stopping effect is achieved.

In one embodiment, a plurality of elastic sheets are fixedly arranged around the fixed mounting plate; a plurality of spring sheet windows are arranged around the shell; when the fixed mounting plate is mounted in the shell, the elastic sheet extends out of the elastic sheet window to be used for contacting with an external object in the mounting environment of the shell, so that the supporting and retaining functions are achieved.

In one embodiment, the elastic sheet is in an L-shaped sheet structure.

In one embodiment, the housing is located at one end of the control panel, and an edge plate extends outwards along the periphery, so that the housing is used for blocking the mounting gap to enable the appearance to be attractive during mounting, and the relative position of the control panel and the mounting surface is kept fixed.

In one embodiment, the side surface of the shell is provided with a first heat dissipation hole for heat dissipation.

In one embodiment, the first heat dissipation holes are long holes in a vertical shape.

In one embodiment, the bottom surface of the shell is provided with a second heat dissipation hole for heat dissipation.

In one embodiment, the hole diameters of the second heat dissipation holes are sequentially increased from inside to outside from the middle of the bottom surface of the shell.

In one embodiment, the fixed mounting plate is provided with a third heat dissipation hole for dissipating heat.

In one embodiment, the third heat dissipation holes sequentially increase in diameter from inside to outside from the middle of the fixed mounting plate.

In one embodiment, the third heat dissipation holes correspond to the second heat dissipation holes and are communicated with each other.

In one embodiment, the first heat dissipation hole is communicated with a space enclosed by the shell and the control panel.

In one embodiment, the space enclosed by the housing, the control panel and the fixed mounting plate is sequentially communicated with the second heat dissipation hole and the third heat dissipation hole.

In one embodiment, the bottom surface of the housing is provided with a power cord hole for passing a power cord.

In one embodiment, the portable electronic device further comprises a shell, a control panel and a cover body; the control panel is positioned between the shell and the cover body, is detachably connected with the shell, and forms an accommodating space for installing electronic components; the cover body is rotatably connected with the shell so that the cover body can cover/expose the control panel through rotation; the main control circuit board, the first driving board, the second driving board and the power supply component are arranged in the shell and fixedly connected with the shell; the first key set is arranged on the control panel; the wireless charging transmitting module is arranged in the cover body.

In one embodiment, the device further comprises a power output port; the power output port is arranged on the cover body or the control panel; the power output port is connected with the main control circuit board to output electric energy in a wired mode.

In one embodiment, the cover body is rotatably connected with the housing at an edge, and penetrates through a power line at the rotational connection, so as to supply power to the wireless charging transmitting module and the power output port in the cover body.

In one embodiment, the cover body is connected with the shell through a rotating shaft, so that the cover body can rotate relative to the shell.

In one embodiment, a sliding guide rail/guide groove is arranged on one side of the cover body, which is close to the control panel, and a limit groove/limit boss is arranged on the cover body and is in sliding connection with the sliding guide rail/guide groove, the sliding guide rail/guide groove and the limit groove/limit boss form a second supporting structure of the cover body and the shell body except the rotating shaft, so that the cover body can rotate more stably, and meanwhile, the moment applied by the cover body on the rotating shaft to bend the rotating shaft is reduced.

In one embodiment, a fourth heat dissipation hole is formed in one surface of the cover body, which is close to the control panel; the fourth radiating hole is communicated with the space where the wireless charging and transmitting module is located.

The manual control integrated wireless charger provided by the utility model not only has the function of wireless charging for mobile phones, flat plates or notebooks, but also can be used as a wire controller to externally connect with electromechanical equipment, and manually control the operation of the electromechanical equipment, and expand new functions based on the manual control, so that the functions of the wireless charger are more diversified, the requirements of more crowds and more industries are met, and the use mode and the use range of the wireless charger are widened.

According to the above, the utility model further provides a lifting table.

A lifting table comprising a manual integrated wireless charger as described in any one of the embodiments above.

In one embodiment, the lifting table is provided with a lifting mechanism comprising a motor connected to the second drive plate.

In one embodiment, the device further comprises a speaker; the loudspeaker is connected with the main control circuit board.

In one embodiment, the speakers are disposed at two ends of the desktop plate, and ventilation holes for transmitting sound are formed in the desktop plate at positions where the speakers are mounted.

In one embodiment, the manual integrated wireless charger is mounted on the tabletop plate in an embedded mounting manner.

The lifting table provided by the utility model has the function of wirelessly charging electronic equipment such as a user mobile phone and the like, and also has the function of controlling the lifting of the table top, after the integrated design of the wireless charger and the hand controller/wire controller, the table top can be simplified, the function is more compact, the total volume of the integrated product is smaller compared with the traditional wireless charger and the hand controller/wire controller, and a plurality of electronic components can be shared, so that the manufacturing cost and the transportation cost can be greatly saved.

In addition, according to the above, the utility model also provides a multifunctional seat.

A multi-function seat comprising the manual integrated wireless charger of any one of the embodiments described above.

In one embodiment, the multifunctional seat comprises a massage mechanism, and/or a backrest automatic folding mechanism, and/or a height automatic adjusting mechanism, and a motor for applying power to do work; the motor is connected with the second driving plate.

In one embodiment, the device further comprises a speaker; the loudspeaker is connected with the main control circuit board.

The multifunctional seat provided by the above, the manual control integrated wireless charger in the above embodiment is arranged on the multifunctional seat to perform integrated design, so that the function of the seat can be enhanced and optimized, compared with the traditional mode, the seat product with the same function can be greatly simplified, the life of people can be more conveniently realized, after the wireless charger and the manual controller/line controller for controlling the mechanical function of the seat are integrally designed, the total volume of the integrated product is smaller compared with that of the traditional wireless charger and the manual controller/line controller, and a plurality of electronic components can be shared, so that the manufacturing cost and the transportation cost can be greatly saved. Furthermore, the manufacturing cost of the multifunctional seat which is integrated with manual control and wireless charging can be reduced.

Drawings

Fig. 1 is a schematic perspective view of a manual integrated wireless charger according to an embodiment;

fig. 2 is a schematic perspective view of a manual integrated wireless charger according to an embodiment;

FIG. 3 is a schematic view of a structure of a fixed mounting plate in a manual integrated wireless charger according to an embodiment;

FIG. 4 is a schematic diagram of a manual integrated wireless charger housing according to one embodiment;

FIG. 5 is a schematic view of a structure of a fixed mounting plate in a manual integrated wireless charger according to an embodiment;

FIG. 6 is a schematic diagram of a side structure of a manual integrated wireless charger according to an embodiment;

FIG. 7 is a schematic diagram of a manual integrated wireless charger deployment configuration according to one embodiment;

fig. 8 is a schematic perspective view of a manual integrated wireless charger according to an embodiment.

Reference numerals illustrate: 100. a housing; 110. a slot hole; 120. a spring plate mounting seat; 121. a spring piece window; 130. an edge plate; 140. a first heat radiation hole; 150. a second heat radiation hole; 160. a power line hole; 200. a control panel; 210. a first key set; 220. a second key set; 230. a display screen; 240. a buckle; 300. a wireless charging transmitting module; 400. a spring plate; 500. a fixed mounting plate; 510. a first wire holder; 511. a first motor wiring port; 512. a second motor wiring port; 513. a wireless charging wiring port; 514. a power supply wiring port; 520. a second wire holder; 521. a burning port; 530. a third heat radiation hole; 600. a cover body; 610. a power output port; 620. sliding guide rail/channel; 630. and a fourth heat radiation hole.

Detailed Description

In this patent document, FIGS. 1-8, discussed below, and the various embodiments used to describe the principles or methods of the present disclosure are by way of illustration only and should not be construed in any way to limit the scope of the disclosure. Preferred embodiments of the present disclosure will be described hereinafter with reference to the accompanying drawings. In the following description, detailed descriptions of well-known functions or configurations will be omitted so as not to obscure the subject matter of the present disclosure with unnecessary detail. Also, the terms used herein will be defined according to the function of the present utility model. Thus, the terms may differ according to the intention or usage of the user or operator. Accordingly, the terminology used herein must be understood based on the description presented herein.

A manual control integrated wireless charger comprises a main control circuit board, a wireless charging transmitting module 300 connected with the main control circuit board, a first driving board, a second driving board, a first key set 210 and a power supply assembly. The first driving board is further connected to the wireless charging and transmitting module 300, so as to drive the wireless charging and transmitting module 300 to generate an alternating magnetic field with a set frequency and/or power, and further output electric energy to the outside. The second driving plate is also connected with the power supply assembly and is externally connected with the motor to drive the motor to rotate and do work. The first key set 210 is used for manually inputting a control instruction for controlling the output mode of the second driving board. The main control circuit board is used for carrying out comprehensive control and data processing on each functional module. So set up, not only have the function for cell-phone, dull and stereotyped or notebook wireless charging, but also can regard as the external electromechanical device of connecting of drive-by-wire ware to carry out manual control to electromechanical device's operation, and develop new function based on this, thereby make the function of wireless charger more diversified, satisfy more crowds, the demand of more trade, widened wireless charger's application mode and application range.

In one embodiment, the main control circuit board is provided with a bluetooth module, and the bluetooth module is used for establishing bluetooth communication with the mobile phone to exchange data information. And also comprises a speaker and a second key set 220 connected with the main control circuit board. The second key set 220 is used for manually inputting a control command for controlling the bluetooth module to operate.

In one embodiment, the speaker is also coupled to the power supply assembly to draw power directly from the power supply assembly.

In one embodiment, the main control circuit board, the first driving board and the wireless charging and transmitting module 300 are sequentially connected.

In one embodiment, the first driving board and/or the second driving board are/is integrally connected with the main control circuit board.

In one embodiment, the keys of the first key set 210 are electronic touch keys.

In one embodiment, the keys of the first key set 210 are mechanical keys.

In one embodiment, the keys of the second key set 220 are electronic touch keys.

In one embodiment, the keys of the second key set 220 are mechanical keys.

In one embodiment, the power supply assembly includes a rectifying circuit board for rectifying an incoming power supply.

In one embodiment, as shown in fig. 1, the device further comprises a housing 100 and a control panel 200. The main control circuit board, the first driving board, the second driving board and the power supply assembly are arranged in the shell 100 and fixedly connected with the shell 100. The wireless charging transmitting module 300 is disposed on the control panel 200 or disposed in the housing 100 and fixedly connected with the housing 100. The first key set 210 is disposed on the control panel 200. The manipulation panel 200 is detachably connected with the case 100, and constitutes an accommodating space to mount electronic components.

In one embodiment, as shown in fig. 1, the second key set 220 is also disposed on the control panel 200.

In one embodiment, the second key set 220 is disposed on the housing 100.

In one embodiment, as shown in FIG. 3, a stationary mounting plate 500 is also included. The fixed mounting plate 500 is disposed in the housing 100 and fixedly coupled to the housing 100. The fixed mounting plate 500 is provided with a first wire holder 510, and the first wire holder 510 is provided with a first motor wire connection port 511, a wireless charging wire connection port 513, and a power supply wire connection port 514. The first motor connection port 511 is connected with the second driving board and is used for externally connecting the motor. The wireless charging connection port 513 is connected to the first driving board and the wireless charging transmitting module 300. The power connection port 514 is connected to the power module and is used to externally connect a power source.

In one embodiment, as shown in fig. 3, a second wire holder 520 is further included. The second wire holder 520 is provided with a burn port 521 for facilitating the entry of an operating program by the connection terminal device.

In one embodiment, as shown in fig. 3, the first wire holder 510 is further provided with a second motor wire port 512, and the second motor wire port 512 is connected to the second driving board and is used for externally connecting the motor.

In one embodiment, the motor driving device further comprises a third driving board connected with the main control circuit board and the power supply assembly, the first wire holder 510 is further provided with a second motor wire connection port 512, and the second motor wire connection port 512 is connected with the third driving board and externally connected with the motor. The third driving plate and the second driving plate have different output voltages and/or frequencies, and the third driving plate and the second driving plate are matched with each other to drive motors of different types and different purposes.

In one embodiment, as shown in fig. 1 or fig. 2, the wall surface of the housing 100 is provided with a plurality of slot holes 110. The control panel 200 is provided with a plurality of buckles 240, and when the control panel 200 is installed with the housing 100, the buckles 240 are connected with the slot holes 110 in a clamping manner.

In one embodiment, as shown in fig. 1, a display 230 is further disposed on the control panel 200. The display 230 is also connected to the main control circuit board.

In one embodiment, as shown in fig. 2, the housing 100 is provided with a plurality of spring 400 mounts 120 along the periphery. The elastic sheet 400 is fixedly arranged on the elastic sheet 400 mounting seat 120, so that when the manual integrated wireless charger is in embedded mounting, the four-side support is increased and the backstop effect is achieved.

In one embodiment, as shown in fig. 4 and 5, a plurality of elastic sheets 400 are fixedly installed around the fixed mounting plate 500. The casing 100 is provided with a plurality of spring 400 windows 121 along the periphery. When the fixed mounting plate 500 is mounted in the housing 100, the elastic sheet 400 extends from the window 121 of the elastic sheet 400 to contact with an external object in the mounting environment of the housing 100, thereby performing a supporting and retaining function.

In one embodiment, as shown in fig. 1, the spring 400 has an L-shaped sheet structure.

In one embodiment, as shown in fig. 1 and fig. 2 and fig. 4, the housing 100 is located at one end of the control panel 200, and an edge plate 130 extends outward along the periphery, so as to block the mounting gap for aesthetic appearance during mounting, and keep the relative positions of the control panel 200 and the mounting surface fixed.

In one embodiment, as shown in fig. 1 or 2, the housing 100 is provided at a side thereof with a first heat radiation hole 140 for radiating heat.

In one embodiment, as shown in fig. 1 or 2, the first heat dissipation holes 140 are elongated holes in a vertical shape.

In one embodiment, as shown in fig. 2 or 4, the bottom surface of the housing 100 is provided with a second heat radiation hole 150 for radiating heat.

In one embodiment, as shown in fig. 2 or fig. 4, the second heat dissipation holes 150 sequentially increase in diameter from inside to outside from the middle of the bottom surface of the housing 100.

In one embodiment, as shown in fig. 3 or 5, the fixed mounting plate 500 is provided with a third heat dissipation hole 530 for heat dissipation.

In one embodiment, as shown in fig. 3 or 5, the third heat dissipation holes 530 sequentially increase in diameter from inside to outside from the middle of the fixed mounting plate 500.

In one embodiment, the third heat dissipation holes 530 are in communication with each other in a corresponding position to the second heat dissipation holes 150.

In one embodiment, as shown in fig. 4, the first heat dissipation holes 140 communicate with a space enclosed by the case 100 and the manipulation panel 200.

In one embodiment, the space enclosed by the housing 100, the control panel 200 and the fixed mounting plate 500 is sequentially communicated with the second heat dissipation hole 150 and the third heat dissipation hole 530.

In one embodiment, as shown in fig. 2 or 4, the bottom surface of the case 100 is provided with a power cord hole 160 for passing a power cord.

In one embodiment, as shown in fig. 6 and 7, the device further includes a housing 100, a control panel 200, and a cover 600. The manipulation panel 200 is located between the case 100 and the cover 600, and the manipulation panel 200 is detachably connected with the case 100 and constitutes an accommodating space for mounting electronic components. The cover 600 is rotatably coupled with the housing 100 such that the cover 600 can cover/expose the manipulation panel 200 by rotation. The main control circuit board, the first driving board, the second driving board and the power supply assembly are arranged in the shell 100 and fixedly connected with the shell 100. The first key set 210 is disposed on the control panel 200. The wireless charging transmitting module 300 is disposed in the cover 600.

In one embodiment, as shown in FIG. 6, a power output port 610 is also included. The power output port 610 is provided on the cover 600 or the manipulation panel 200. The power output port 610 is connected with the main control circuit board to output electric energy through a wired mode to the outside.

In one embodiment, as shown in fig. 7 or 8, the cover 600 is rotatably connected to the housing 100 at an edge, and penetrates through a power line at the rotational connection, so as to supply power to the wireless charging and transmitting module 300 and the power output port 610 in the cover 600.

In one embodiment, the cover 600 is connected to the housing 100 through a rotation shaft (not shown), so that the cover 600 can rotate relative to the housing 100.

In one embodiment, as shown in fig. 8, a sliding guide rail/guide groove 620 is disposed on one side of the cover 600 near the control panel 200, a limit groove/limit boss (not shown) is disposed on the cover 600 and is in sliding connection with the sliding guide rail/guide groove 620, and the sliding guide rail/guide groove 620 and the limit groove/limit boss form a second supporting structure of the cover 600 and the housing 100 except for the rotation axis, so that the cover 600 can rotate more stably, and meanwhile, the moment applied by the cover 600 on the rotation axis to bend the rotation axis is reduced.

In one embodiment, as shown in fig. 8, a fourth heat dissipation hole 630 is formed on a surface of the cover 600 close to the control panel 200. The fourth heat dissipation hole 630 is in communication with the space where the wireless charging and transmitting module 300 is located.

The manual control integrated wireless charger provided by the utility model not only has the function of wireless charging for mobile phones, flat plates or notebooks, but also can be used as a wire controller to externally connect with electromechanical equipment, and manually control the operation of the electromechanical equipment, and expand new functions based on the manual control, so that the functions of the wireless charger are more diversified, the requirements of more crowds and more industries are met, and the use mode and the use range of the wireless charger are widened.

According to the above, the utility model further provides a lifting table.

A lifting table comprising a manual integrated wireless charger according to any one of the embodiments described above.

In one embodiment, the lifting table is provided with a lifting mechanism comprising a motor connected to the second drive plate.

In one embodiment, a speaker is also included. The loudspeaker is connected with the main control circuit board.

In one embodiment, the speakers are disposed at two ends of the table top, and the table top is provided with ventilation holes for transmitting sound.

In one embodiment, the manual integrated wireless charger is mounted to the tabletop plate in an embedded mounting manner.

The lifting table provided by the utility model has the function of wirelessly charging electronic equipment such as a user mobile phone and the like, and also has the function of controlling the lifting of the table top, after the integrated design of the wireless charger and the hand controller/wire controller, the table top can be simplified, the function is more compact, the total volume of the integrated product is smaller compared with the traditional wireless charger and the hand controller/wire controller, and a plurality of electronic components can be shared, so that the manufacturing cost and the transportation cost can be greatly saved.

In addition, according to the above, the utility model also provides a multifunctional seat.

A multi-function seat comprising a manual integrated wireless charger according to any one of the embodiments described above.

In one embodiment, the multifunctional chair comprises a massage mechanism, and/or an automatic back folding mechanism, and/or an automatic height adjusting mechanism, and a motor for applying power to do work. The motor is connected with the second driving plate.

In one embodiment, a speaker is also included. The loudspeaker is connected with the main control circuit board.

The multifunctional seat provided by the above, the manual control integrated wireless charger in the embodiment is arranged on the multifunctional seat to carry out integrated design, so that the function of the seat can be enhanced and optimized, compared with the traditional mode, the seat product with the same function can be greatly simplified, the life of people can be more convenient, after the wireless charger and the manual controller/wire controller for controlling the mechanical function of the seat are integrated, the total volume of the integrated product is smaller compared with that of the traditional wireless charger and the manual controller/wire controller, and a plurality of electronic components can be shared, so that the manufacturing cost and the transportation cost can be greatly saved. Furthermore, the manufacturing cost of the multifunctional seat which is integrated with manual control and wireless charging can be reduced.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The manual control integrated wireless charger is characterized by comprising a main control circuit board, a wireless charging transmitting module, a first driving board, a second driving board, a first key set and a power supply assembly, wherein the wireless charging transmitting module, the first driving board, the second driving board, the first key set and the power supply assembly are connected with the main control circuit board;

the first driving plate is also connected with the wireless charging and transmitting module to drive the wireless charging and transmitting module to generate an alternating magnetic field with set frequency and/or power so as to output electric energy to the outside;

the second driving plate is also connected with the power supply assembly and is externally connected with a motor to drive the motor to rotate for doing work;

the first key group is used for manually inputting a control instruction for controlling the output mode of the second driving plate;

the main control circuit board is used for carrying out comprehensive control and data processing on each functional module.

2. The manual integrated wireless charger of claim 1, wherein,

the main control circuit board is provided with a Bluetooth module which is used for establishing Bluetooth communication with the mobile phone to exchange data information;

the second key set is connected with the main control circuit board;

the second key set is used for manually inputting a control instruction for controlling the action of the Bluetooth module.

3. The manual integrated wireless charger of claim 1, further comprising a housing and a control panel;

the main control circuit board, the first driving board, the second driving board and the power supply component are arranged in the shell and fixedly connected with the shell;

the wireless charging transmitting module is arranged on the control panel or in the shell and fixedly connected with the shell;

the first key set is arranged on the control panel;

the control panel is detachably connected with the shell, and forms an accommodating space for installing electronic components.

4. The manual integrated wireless charger of claim 3, wherein,

the device also comprises a fixed mounting plate;

the fixed mounting plate is arranged in the shell and is fixedly connected with the shell;

the fixed mounting plate is provided with a first wiring seat, and the first wiring seat is provided with a first motor wiring port, a wireless charging wiring port and a power supply wiring port;

the first motor wiring port is connected with the second driving plate and is used for externally connecting with a motor;

the wireless charging wiring port is connected with the first driving plate and the wireless charging transmitting module;

the power connection port is connected with the power component and is used for externally connecting a power supply.

5. The manual integrated wireless charger of claim 4, wherein,

the second wire holder is also included;

the second wire holder is provided with a burning port so as to be convenient for connecting terminal equipment to record an operation program.

6. The manual integrated wireless charger of claim 3, wherein,

the wall surface of the shell is provided with a plurality of clamping slot holes;

the control panel is provided with a plurality of buckles, when the control panel is installed with the casing together, the buckle with the draw-in groove hole block is connected.

7. The manual integrated wireless charger of claim 1, further comprising a housing, a control panel, and a cover;

the control panel is positioned between the shell and the cover body, is detachably connected with the shell, and forms an accommodating space for installing electronic components;

the cover body is rotatably connected with the shell so that the cover body can cover/expose the control panel through rotation;

the main control circuit board, the first driving board, the second driving board and the power supply component are arranged in the shell and fixedly connected with the shell;

the first key set is arranged on the control panel;

the wireless charging transmitting module is arranged in the cover body.

8. The manual integrated wireless charger of claim 7, wherein,

the power supply also comprises a power supply output port;

the power output port is arranged on the cover body or the control panel;

the power output port is connected with the main control circuit board to output electric energy in a wired mode.

9. A lifting table comprising a manual integrated wireless charger as claimed in any one of claims 1 to 8.

10. A multi-function chair comprising a manual integrated wireless charger according to any one of claims 1-8.