CN217789329U - Spliced wireless charger - Google Patents

Abstract

The utility model discloses a technical scheme that wireless charger of concatenation type adopted does, the charger includes concatenation main part, concatenation components of a whole that can function independently and leads even subassembly. The concatenation main part includes blower device, integrated circuit board I and the wireless charging coil I that sets up in shell body I, the I cavity of shell body. The splicing split type wireless charging coil II and the integrated circuit board II are arranged in the cavity of the shell II and the cavity of the shell II. After concatenation main part and concatenation components of a whole that can function independently are spliced mutually, its two electric current or data message are connected through leading even subassembly and are switched on, the air current that the air-blast device produced is derived by vent II after leading into the concatenation components of a whole that can function independently through concatenation main part air outlet and concatenation components of a whole that can function independently vent I. The utility model discloses profitable effect does, its not only can the amalgamation use together between concatenation main part and the concatenation components of a whole that can function independently, also can the amalgamation use together between its a plurality of concatenation components of a whole that can function independently, its concatenation main part and concatenation components of a whole that can function independently still have.

Description

Spliced wireless charger

Technical Field

The utility model relates to a concatenation type wireless charger relates to the wireless technical field that charges of 3C electronic product, concretely relates to concatenation type multifunctional wireless charger.

Background

The wireless charger of present seal shell's monofunctional does not set up ventilation cooling function. Even if the existing conjoined wireless charger does not have a special heat dissipation module, the wireless charger with the electronic fan is simply additionally provided, because a blowing device blowing air in a lateral direction is not adopted, directional pressure air flow does not flow in a cavity, the heat dissipation effect is still not ideal, and a single electronic fan cannot provide long-distance air blowing heat dissipation for a product with a plurality of wireless charging wire transmitting coils conjoined.

The wireless charger with a single charging potential cannot provide wireless charging service for a plurality of mobile phones in a family or more than two mobile phones simultaneously, and cannot provide independent wireless charging potentials for the Bluetooth headset and the smart watch while charging the mobile phones.

The existing conjoined wireless charger cannot be separated to be used independently, or two or more wireless chargers cannot be connected in series or in parallel to be used in the same way, and the design of splicing the wireless charger and other electronic equipment for use is omitted, so that people have to be equipped with a plurality of charging power supplies and heat dissipation devices when using the wireless charger and other electronic equipment at the same time.

The existing docking station with single function in the market is poor in portability and not commonly used by a plurality of interfaces, so that a consumer can tolerate inconvenience for a while and cannot be sure to specially add a docking station, the docking station and a wireless charger are combined occasionally, and safety certification cannot be obtained due to heat accumulation in a cavity.

SUMMERY OF THE UTILITY MODEL

In order to solve a plurality of technical problems in the prior art, the utility model provides a concatenation type wireless charger, it comprises concatenation main part and concatenation components of a whole that can function independently, and concatenation main part and concatenation components of a whole that can function independently also can use the concatenation together, the air-blast device of concatenation main part can provide wind-force for concatenation main part and the heat dissipation of concatenation components of a whole that can function independently simultaneously. The splicing main body and the splicing split body are internally provided with a docking station module which can provide data transmission or data transfer for various electronic devices while wirelessly charging electronic products.

A technical scheme that concatenation type wireless charger adopted does, the charger includes concatenation main part, concatenation components of a whole that can function independently and leads even subassembly. The concatenation main part includes blower device, integrated circuit board I and the wireless charging coil I that sets up in shell body I, the I cavity of shell body, blower device bloies towards the direction in the I regional place of wireless charging coil.

It is provided with the air intake corresponding to the blower device region that shell body I is located, and it corresponds I regional and a side end face of keeping away from the blower device of wireless charging coil and is provided with the air outlet, integrated circuit board I is connected with the electrical socket module, and shell body I is provided with the electricity mouth with the corresponding position of electrical socket module.

The concatenation components of a whole that can function independently include wireless charging coil II and integrated circuit board II that set up in shell body II, the II cavitys of shell body, be provided with vent I and vent II on the face of shell body II front and back both sides.

The air outlet of the shell I is provided with a conducting body I, the inner end of the conducting body I is electrically connected with the integrated circuit board I, and the air outlet of the shell II is provided with a conducting body II, the inner end of the conducting body II is electrically connected with the integrated circuit board II.

After splicing main body and splicing components are spliced, current or data information of the splicing main body and the splicing components are connected and conducted through the connecting assembly, and air flow generated by the air blowing device is guided into the splicing components through the splicing main body air outlet and the splicing components-separated ventilation opening I and then is guided out through the ventilation opening II.

Further, the utility model relates to a concatenation type wireless charger, its II departments of the II vents of concatenation components of a whole that can function independently shell body are provided with the inner and lead disjunctor I of even subassembly with II electricity connection of integrated circuit board, and a plurality of concatenation components of a whole that can function independently 2 accessible are led even subassembly and are carried out electric current or data information and switch on.

Further, the utility model relates to a concatenation type wireless charger, its II departments of its vent of concatenation components of a whole that can function independently shell body are provided with the inner and lead disjunctor I of even subassembly with II electricity connections of integrated circuit board, and a plurality of concatenation components of a whole that can function independently 2 accessible are led even subassembly and are carried out electric current or data information and switch on.

As optional, the utility model relates to a wireless charger of concatenation Type, it leads disjunctor I to be the metal contact terminal to lead even the subassembly, or be Type-C plug or socket, or be USB plug or socket, or be Lighting plug or socket, it leads disjunctor II to set up to the metal contact terminal that is connected with leading the disjunctor I correspondence to lead even the subassembly, or Type-C plug or socket, or USB plug or socket, or Lighting plug or socket.

Further, the utility model relates to a wireless charger of concatenation type, its integrated circuit board sets up or is connected with docking station circuit module on I, is provided with a plurality of docking station interfaces on the docking station circuit module, be provided with the opening corresponding with the docking station interface on the non-air outlet terminal surface of shell body I.

Further, the utility model relates to a wireless charger of concatenation type, its integrated circuit board II is last to set up or to be connected with docking station circuit module, is provided with a plurality of docking station interfaces on the docking station circuit module, be provided with the opening corresponding with the docking station interface on the side end face of II non-vents I of shell body and non-vent II.

Optionally, in the spliced wireless charger of the present invention, the docking expansion functional interface may be set as an SD or TF slot; or set as HDMI, VGA, audio jack; or be arranged as a USB, type-C, lighting plug or socket.

Preferably, the utility model relates to a wireless charger of concatenation type, its be provided with the on & off switch on integrated circuit board I, the on & off switch outwards extends shell body I, the on & off switch that sets up on integrated circuit board I is used for control the break-make of air-blast device circuit.

Preferably, the utility model relates to a wireless charger of concatenation type, its integrated circuit board is provided with the on & off switch on II, and the on & off switch outwards extends shell body II, the on & off switch that sets up on integrated circuit board II is used for control the break-make of concatenation components of a whole that can function independently circuit.

Further, the utility model relates to a concatenation type wireless charger, its concatenation main part is connected end, concatenation components of a whole that can function independently and concatenation components of a whole that can function independently are connected the end and are provided with even solid structure with concatenation components of a whole that can function independently, even solid structure comprises even solid I and even solid II. And a connecting body I is arranged on the end face of the connecting body I of the outer shell I. And a connecting solid II is arranged on the end surface of the connecting body II of the outer shell II, and a connecting solid I is arranged on the end surface of the connecting body I of the outer shell II.

As optional, the utility model provides a wireless charger of concatenation type, its it links solid body I and sets up to magnetism and inhales N utmost point end or magnetism and inhales S utmost point end to even solid structure, or be dop or cassette, or be tenon strip or tongue-and-groove, or be ring card or trip. The connecting and fixing structure II is provided with a magnetic N-pole end or a magnetic S-pole end, or a clamping head or a clamping seat, or a tenon strip or a tenon groove, or a ring clamping piece or a clamping hook, which are correspondingly connected with the connecting and fixing structure I.

Further, the utility model relates to a concatenation type wireless charger, its I below of I wireless charging coil of concatenation main part shell body is equipped with the fin, the air-blast device is bloied towards wireless charging coil I and the direction in fin place region.

Furthermore, a radiating fin is arranged below the splicing split type II wireless charging coil of the shell body.

Further, the utility model relates to a wireless charger of concatenation type, its strong magnet that the upper wall set up in shell body I or shell body II.

Further, the utility model relates to a wireless charger of concatenation type, its I back of shell body or II backs of shell body have buried underground the nut that is used for connecting other devices.

As optional, the utility model provides a concatenation type wireless charger, its the concatenation components of a whole that can function independently is external to have data wire, data wire its outer end extends shell body II, its inner with integrated circuit board II is connected.

As optional, the utility model relates to a concatenation type wireless charger, its be provided with the groove of accomodating that is used for accomodating data wire on II arbitrary terminal surfaces in non-vent both sides of shell body.

The utility model has the advantages that:

1) The utility model relates to a wireless charger of concatenation type, for the wireless charger of the position that charges that comprises concatenation main part and concatenation components of a whole that can function independently, set up the air-blast device in the concatenation main part can provide the heat dissipation wind regime for concatenation main part and concatenation components of a whole that can function independently simultaneously. Under the effect of the wind source of the air blowing device, heat in the splicing main body and the cavity of the splicing split body is quickly dissipated, and the phenomenon that the wireless charger cannot pass safety certification due to heating and heat dissipation is avoided.

2) The utility model relates to a wireless charger of concatenation type, it not only can amalgamate and use together between concatenation main part and the concatenation components of a whole that can function independently, also can amalgamate and use together between its a plurality of concatenation components of a whole that can function independently, it concatenation main part and concatenation components of a whole that can function independently still have.

3) The utility model relates to a wireless charger of concatenation type, its inside docking station circuit module that is provided with a plurality of docking station interfaces on the docking station circuit module, and it is in for the wireless while of charging of 3C electronic product such as cell-phone, and the 3C electronic product heat dissipation such as cell-phone of also being convenient for carries out the data transfer exchange between docking station interface and other equipment.

The advantages of the invention are not limited to the description, but rather are described in greater detail in the detailed description for better understanding.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 shows a three-dimensional exploded view of the first, second and third embodiments of the whole structure of the wireless charger of the present invention

FIG. 2 shows a three-dimensional exploded view (II) of the first, second and third embodiments of the splicing wireless charger of the present invention

FIG. 3 is a schematic diagram of the assembled wireless charger with the fourth and fifth embodiments

FIG. 4 is the utility model discloses a three-dimensional schematic diagram of its auxiliary device of concatenation type wireless charger sets up position

FIG. 5 is a three-dimensional schematic view (A) of the guiding assembly and the connecting structure of the split wireless charger of the present invention

FIG. 6 is a three-dimensional schematic view (two) of the connection structure of the wireless charger of the present invention

FIG. 7 is a three-dimensional schematic view (III) of the connection structure of the split wireless charger of the present invention

FIG. 8 is a three-dimensional schematic diagram (I) of the external data line configuration structure of the split wireless charger of the present invention

FIG. 9 is a three-dimensional schematic diagram (II) of the external data line structure of the spliced wireless charger

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

The utility model relates to a wireless charger of concatenation type is elucidated with specific embodiments in the following.

A concatenation type wireless charger, its technical scheme sets up including the basic setting that only has wireless function of charging with the structure.

Specifically, please refer to fig. 1 and fig. 2 for a first embodiment of a spliced wireless charger. A spliced wireless charger comprises a spliced main body 1, a spliced split body 2 and a guide connecting assembly. Concatenation main part 1 includes air-blast device 1b, integrated circuit board I1 c and the wireless charging coil I1 d that sets up in I1 a of shell body, the I1 a cavity of shell body, air-blast device 1b bloies towards the direction in the wireless charging coil I1 d place region. The air inlet 1a1 is arranged in the area of the outer shell I1 a corresponding to the air blowing device 1b, and the air outlet 1a2 is arranged on the end face of one side of the outer shell I1 a corresponding to the area of the wireless charging coil 1d and far away from the air blowing device 1 a. The I1 a air outlet 1a2 department of shell body sets up the leading that inner and integrated circuit board I1C are connected is even the subassembly, leads even the subassembly and can set up to Type-C plug 3a or Type-C socket 3b. The integrated circuit board I1 c is connected with a power jack module aa, and a power jack port ab is arranged at the position, corresponding to the power jack module aa, of the outer shell I1 a.

Insert the external power of mouth ab and lead into integrated circuit board I1 c in the concatenation main part 1 behind power jack module aa, the electric current further conducts to wireless charging coil I1 d through integrated circuit board I1 c, and wireless charging coil I1 d after receiving the electricity can carry out wireless charging for the electronic product that has the wireless function of charging.

Concatenation components of a whole that can function independently 2 includes II 2a of shell body, the integrated circuit board II 2C wireless charging coil II 2d that sets up in the II 2a cavity of shell body, be provided with vent I2 a1 and vent II 2a2 on the face of shell body II 2a front and back both sides, shell body II 2a vent I2 a1 department sets up the interior and leads even subassembly with integrated circuit board II 2C electricity is connected, leads even subassembly and can set up to Type-C plug 3a or Type-C socket 3b.

After splicing main part 1 and splicing components of a whole that can function independently 2 splice mutually, its two electric current or data message are connected through leading even subassembly and are switched on, the air current that air-blast device Aa produced is led in through 1 air outlet 1a2 of splicing main part and 2 vent I2 a1 of splicing components of a whole that can function independently 2 and is derived by vent II 2a2 after leading into splicing components of a whole that can function independently 2. Splice main part 1 and concatenation components of a whole that can function independently 2 the lead and connect subassembly Type-C plug 3a or Type-C socket 3b should adopt corresponding setting.

The electric current of concatenation main part 1 leads even subassembly and switches on to the integrated circuit board II 2c of concatenation components of a whole that can function independently 2, and the electric current further conducts to wireless charging coil II 2d through integrated circuit board II 2c, and wireless charging coil II 2d after the electricity receives can carry out wireless charging for the electronic product that has wireless charging function.

A wireless charger of concatenation type, it has continuous amalgamation service function to splice components of a whole that can function independently.

Specifically, please refer to fig. 1 and fig. 2 for an embodiment of a spliced wireless charger. The technical scheme and the structure of the splicing split body 2 are based on the first embodiment, the vent hole II 2a2 of the outer shell II 2a is provided with a guide connecting component, the inner end of the guide connecting component is electrically connected with the integrated circuit board II 2C, the guide connecting component can be set to be a Type-C plug 3a or a Type-C socket 3b, and the Type-C plug 3a or the Type-C socket 3b is correspondingly arranged on the vent hole I2 a1Type-C plug 3a or the Type-C socket 3b of the outer shell II 2a. The splicing sub-bodies 2 are conducted with current or data information through the conducting components.

A concatenation type wireless charger, it has the exclusive use function to splice components of a whole that can function independently.

Specifically, please refer to fig. 1 and fig. 2 for a third embodiment of the spliced wireless charger. The technical scheme and structure of the split 2 further have a function of being connected with an external power source independently on the basis of the first embodiment, and the external power source can be connected in the following two modes.

1. Be connected with power jack module aa on integrated circuit board II 2C, external power is by leading-in integrated circuit board II 2C behind power jack module aa of even subassembly (Type-C plug 3a or Type-C socket 3 b) of leading-in, and the electric current further conducts to wireless charging coil II 2d through integrated circuit board II 2C, and wireless charging coil II 2d after receiving the electricity can carry out wireless charging for the electronic product that has wireless charging function.

2. Be connected with power jack module aa on integrated circuit board II 2c, shell body II is provided with inserts the mouth ab, and the integrated circuit board II 2c in the leading-in concatenation main part 1 after the outer power gets into power jack module aa by inserting the mouth ab, and the electric current further conducts to wireless charging coil II 2d through integrated circuit board II 2c, and wireless charging coil II 2d after receiving the electricity can carry out wireless charging for the electronic product that has the wireless function of charging.

Further, in the above embodiment of the spliced wireless charger of the present invention, please refer to fig. 5, wherein the conductive connecting component is a metal contact terminal 3c. The inner end of the metal contact terminal 3c is connected with the integrated circuit board I1 c or the integrated circuit board II 2c, and the outer end extends out of the outer shell I1 a or the outer shell II 2a. After the splicing main body 1 and the splicing split body 2 are spliced, the current or data information of the splicing main body and the splicing split body are connected and conducted through the metal contact terminal 3c.

Alternatively, as shown in fig. 1 and fig. 2, the conductive connection component may be configured as a Type-C plug or socket, a USB plug or socket, or a Lighting plug or socket.

A concatenation type wireless charger, its technical scheme sets up including having wireless multi-functional compound setting of charging with the docking station function with the structure.

Specifically, in the fourth embodiment, on the basis of the first embodiment, the splicing main body is further provided with a docking station circuit module and a functional interface corresponding to the docking station circuit module.

Referring to fig. 3, a docking station circuit module is disposed or connected on the integrated circuit board i 1c of the main body 1, a plurality of docking station interfaces are disposed on the docking station circuit module, and an opening 40 corresponding to the docking station interface is disposed on the end surface of the non-air outlet 1a2 of the outer housing i 1 a.

Specifically, in the fifth embodiment, on the basis of the first embodiment, the splicing split body is further provided with a docking station circuit module and a functional interface corresponding to the docking station circuit module.

Referring to fig. 3, a docking station circuit module is disposed or connected on the integrated circuit board ii 2c of the split 2, and a plurality of docking station interfaces are disposed on the docking station circuit module. And openings corresponding to the docking station interface are arranged on the end surfaces of the non-ventilation opening I2 a1 and the ventilation opening II 2a2 of the outer shell II 2a.

As an alternative, please refer to fig. 3-5, in the fourth and fifth embodiments of the splicing type wireless charger of the present invention, the docking interface of the splicing main body 1 and the splicing split body 2 can be set as an SD card or a TF card slot 4a; or set as HDMI or VGA or Audio jack 4b; or as a USB plug or socket 4c; or as a Type-C, lighting plug or socket 4d.

For further control the internal air-blast device of concatenation main part of concatenation type wireless charger open with the closure, avoid concatenation main part operating condition at night its air-blast device rotation under to produce the noise, be provided with the on & off switch in the concatenation main part. When the splicing main body is in an independent working state, the splicing split body does not need to be opened, and in order to reduce the power consumption of the splicing type wireless charger, an on-off key is arranged on the splicing split body.

Specifically, as shown in fig. 5, an on-off key 4e is arranged on an integrated circuit board i 1c of the splicing main body 1, the on-off key 4e extends outwards from the outer shell i 1a, and the on-off key 4e arranged on the integrated circuit board i 1c is used for controlling the on-off of the circuit of the blowing device 1 b.

Specifically, as shown in fig. 5, an on-off key 4e is disposed on the splicing split 2 integrated circuit board ii 2c, and the on-off key 4e extends outward to the outer casing ii 2a. And the on-off key 4e arranged on the integrated circuit board II 1c is used for controlling the on-off of the splicing split 2 circuit.

The utility model relates to a wireless charger of concatenation type in above-mentioned embodiment one to embodiment five, only pass through between the two after concatenation main part and concatenation components of a whole that can function independently are pieced together lead even subassembly and switch on and connect. The guide connecting component is prevented from being broken and other damages caused by unstable connection in use after the two are spliced.

Preferably, as shown in fig. 4 to 7, a connection end of the splicing main body 1 and the splicing split body 2 and a connection end of the splicing split body 2 and the splicing split body 2 are provided with a connection and fixation structure, and the connection and fixation structure is composed of a connection solid I and a connection solid II. And a connecting body I is arranged on the end face of the connecting body I of the outer shell I. And a connecting body II is arranged on the end surface of the conducting body II of the outer shell II, and a connecting body II is arranged on the end surface of the conducting body I.

As shown in fig. 5, the connecting member i is a magnetic-attraction N-pole end 5a or S-pole end 5b, and the connecting member ii is a magnetic-attraction N-pole end or magnetic-attraction S-pole end correspondingly connected to the connecting member i. The splicing main body 1 and the splicing split body 2, the splicing split body 2 and the splicing split body 2 are fixedly connected through magnetic force of mutual attraction of the magnetic N pole end head 5a and the magnetic S pole end head 5 b.

As shown in fig. 4, the solid i is a tenon strip 5c or a mortise 5d, and the solid ii is a tenon strip 5c or a mortise 5d correspondingly connected with the solid i. The splicing main body 1 and the splicing split body 2 as well as the splicing split body 2 and the splicing split body 2 are fixedly connected through inserting the tenon strip 5c into the tenon groove 5d.

As shown in fig. 6, the connecting solid body i is a clamping head 5e or a clamping seat 5f, and the connecting solid body ii is a clamping head 5e or a clamping seat 5f correspondingly connected with the connecting solid body i. The splicing main body 1 and the splicing split body 2, and the splicing split body 2 are fixedly connected through a clamping head 5e inserted into a clamping seat 5f.

As shown in fig. 7, the conductive connecting body i is a ring clip 5g or a hook 5h, the connecting body ii is a ring clip 5g or a hook 5h correspondingly connected with the connecting body i, the ring clip 5g is provided with a snap ring 5g1, and the hook 5h is composed of an elastic button piece 5h1 and a hook 5h2 arranged at the front end of the elastic button piece 5h 1. The splicing main body 1 and the splicing split body 2 as well as the splicing split body 2 and the splicing split body 2 are fixedly connected through a ring clamping piece 5g inserted into a clamping hook 5 h.

For further reinforcing the utility model relates to a concatenation type wireless charger the radiating effect of concatenation main part and concatenation components of a whole that can function independently makes integrated circuit board I and wireless charging coil I, II interior integrated circuit board II of shell body and the produced heat of wireless charging coil II dissipate rapidly in the shell body I.

Preferably, as shown in fig. 3, a cooling fin ac is arranged below a wireless charging coil 1c in an outer shell i 1a of the splicing main body 1, and the air blowing device 1b blows air towards the direction of an area where the wireless charging coil 1d and the cooling fin ac are located. And a radiating fin ac is arranged below the II 2c wireless charging coil of the II 2a shell body of the split 2 shell body. The heat radiating fins ac can rapidly absorb heat radiated by the wireless charging coil 1c and the wireless charging coil II 2c, and then the heat absorbed by the heat radiating fins ac is discharged through wind power generated by the blowing device 1 b.

The utility model relates to a concatenation type wireless charger it still is provided with multiple auxiliary device, and auxiliary device's setting can strengthen wireless charger and use convenience and travelling comfort.

As shown in fig. 4, the splicing body 1 includes a shell i 1a and the splicing split body 2 includes a strong magnet ad disposed on the inner upper wall of the shell ii 2a. The strong magnet ad is adsorbed on the upper surfaces of the outer shell I1 a and the outer shell II 2a through a wirelessly charged power receiver by magnetic force.

As shown in fig. 4, nuts ae are embedded in the back of the outer shell i 1a of the splicing main body 1 and the back of the outer shell ii 2a of the splicing split body 2. The splicing main body 1 and the splicing split body 2 can be connected and fixed with other devices through nuts ae.

Specifically, as shown in fig. 8, a data wire af is disposed outside the split body 2, an outer end of the data wire af extends out of the outer casing ii 2a, and an inner end of the data wire af is connected to the integrated circuit board ii 2 c.

Specifically, as shown in fig. 9, a storage groove ag for storing a data wire af is arranged on any side end face of the non-vent of the split-type 2 outer shell ii 2a

The embodiment of the present invention provides a detailed introduction of a spliced wireless charger, which is based on the idea of the embodiment of the present invention, to the general technical personnel in the field, and has a change part in the specific implementation and application range. In summary, the content of the present specification should not be understood as a limitation of the present invention, and any changes made according to the design concept of the present invention are all within the protection scope of the present invention.

Claims (14)

1. A spliced wireless charger is characterized by comprising a spliced main body, spliced split bodies and a guide connecting assembly;

the splicing main body comprises an outer shell I, an air blowing device arranged in a cavity of the outer shell I, an integrated circuit board I and a wireless charging coil I, wherein the air blowing device blows towards the direction of an area where the wireless charging coil I is located;

the splicing split body comprises an outer shell II, a wireless charging coil II and an integrated circuit board II, wherein the wireless charging coil II is arranged in a cavity of the outer shell II, and a ventilation opening I and a ventilation opening II are arranged on the front side surface and the rear side surface of the outer shell II;

the air outlet of the outer shell I is provided with a conductive connector I of which the inner end is electrically connected with the integrated circuit board I, and the air outlet of the outer shell II is provided with a conductive connector II of which the inner end is electrically connected with the integrated circuit board II;

after concatenation main part and concatenation components of a whole that can function independently are spliced mutually, its two electric current or data message are connected through leading even subassembly and are switched on, the air current that the air-blast device produced is derived by vent II after leading into the concatenation components of a whole that can function independently through concatenation main part air outlet and concatenation components of a whole that can function independently vent I.

2. The spliced wireless charger according to claim 1, wherein a conductive body I of a conductive connecting component with the inner end electrically connected with the integrated circuit board II is arranged at the ventilation opening II of the spliced split outer shell II, and the spliced split bodies 2 can conduct current or data information through the conductive connecting component.

3. The spliced wireless charger according to claim 1 or 2, wherein the connecting piece I of the connecting component is a metal contact terminal, or a Type-C plug or socket, or a USB plug or socket, or is set as a Lighting plug or socket;

the lead and connect subassembly lead disjunctor II set up to be connected with lead the corresponding metal contact terminal of disjunctor I, or Type-C plug or socket, or USB plug or socket, or Lighting plug or socket.

4. The spliced wireless charger according to claim 1, wherein a docking station circuit module is arranged on or connected to the integrated circuit board I, and a plurality of docking station interfaces are arranged on the docking station circuit module;

and an opening corresponding to the docking station interface is arranged on the non-air-outlet end face of the outer shell I.

5. The spliced wireless charger according to claim 1, wherein a docking station circuit module is arranged on or connected to the integrated circuit board ii, and a plurality of docking station interfaces are arranged on the docking station circuit module;

and openings corresponding to the docking station interface are arranged on the side end faces of the non-ventilation opening I and the non-ventilation opening II of the outer shell II.

6. The spliced wireless charger according to claim 4 or 5, wherein the docking station interface is configured as an SD or TF card slot; or set as HDMI, VGA, audio jack; or be set as a USB, type-C, lighting plug or socket.

7. The spliced wireless charger according to claim 1, wherein an on-off switch is arranged on the integrated circuit board I or the integrated circuit board II, and the on-off switch extends outwards to form the outer shell I or the outer shell II

The switch key arranged on the integrated circuit board I is used for controlling the on-off of the circuit of the air blowing device;

and the on-off key arranged on the integrated circuit board II is used for controlling the on-off of the split splicing circuit.

8. The spliced wireless charger according to claim 1 or 2, wherein a connection end of the spliced main body and the spliced split body or a connection end of the spliced split body and the spliced split body is provided with a connection structure, and the connection structure is composed of a connection solid I and a connection solid II;

a connecting body I is arranged on the end face of the conducting body I of the outer shell I;

and a connecting solid II is arranged on the end face of the connecting body II of the outer shell II, and a connecting solid I is arranged on the end face of the connecting body I of the outer shell II.

9. The spliced wireless charger according to claim 8, wherein the connecting body i is a magnetically-attracted N-pole end or a magnetically-attracted S-pole end, or a chuck or a clamping seat, or a tenon strip or a tenon groove, or a ring card or a hook;

the connecting solid body II is arranged to be a magnetic N-pole end or a magnetic S-pole end, a clamping head or a clamping seat, a tenon strip or a mortise, or a ring clamping piece or a clamping hook, which are correspondingly connected with the connecting solid body I.

10. The spliced wireless charger according to claim 1, wherein a heat sink is arranged below the wireless charging coil I of the outer shell I; or

A radiating fin is arranged below the wireless charging coil II of the outer shell II;

and the air blowing device blows air towards the direction of the area where the wireless charging coil I and the radiating fin are located.

11. The spliced wireless charger according to claim 1, wherein a strong magnet is disposed on the inner upper wall of the outer shell I or the outer shell II.

12. The spliced wireless charger according to claim 1, wherein a nut for connecting other devices is embedded in the back of the outer shell I or the back of the outer shell II.

13. The spliced wireless charger according to claim 1 or 2, wherein the spliced body is externally provided with a data wire,

and the outer end of the data wire extends out of the shell II, and the inner end of the data wire is connected with the integrated circuit board II.

14. The spliced wireless charger according to claim 1, wherein a receiving groove for receiving a data wire is provided on any end surface of two sides of the non-ventilation opening of the outer housing II.

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