CN114301185A - Avoid overheated wireless charger of laminating panel - Google Patents

Abstract

The invention relates to the technical field of wireless charging, and discloses a wireless charger capable of avoiding overheating of a laminating panel, which comprises a base, wherein the base is provided with a top shell, a vertical air duct capable of outputting airflow is arranged between the base and the top shell, the top shell can be provided with an electromagnetic charging module with an adjustable angle in a lifting manner, the electromagnetic charging module is connected with a power line, the power line is arranged in the base in an adjustable length manner, the electromagnetic charging module is provided with the laminating panel, and the laminating panel is provided with ventilation grooves in an array manner; according to the wireless charger capable of preventing the laminating panel from being overheated, due to the arrangement of the angle-adjustable radiating system, the electromagnetic charging module and the laminating panel in the wireless charger are in a lifting and rotating carrying mode, and the lifting function of the electromagnetic charging module and the laminating panel on the top of the electromagnetic charging module can be realized through the internal structure of the top shell.

Description

Avoid overheated wireless charger of laminating panel

Technical Field

The invention relates to the technical field of wireless charging, in particular to a wireless charger capable of avoiding overheating of a joint panel.

Background

Along with the development of science and technology, the present cell-phone charges and is not being restricted to traditional line transmission, wireless charger is based on electromagnetic induction technique, through placing the cell-phone on wireless charger, make the interior coil of cell-phone and the interior coil of wireless charger be close to and realize the electricity transmission, wireless charging technique uses ten minutes in order just can solve many charging wire relevant problems, but wireless charger use can produce more heat, the inside cooling system of conventional wireless charger can only realize supplementary heat dissipation to charger coil structure, and cell-phone and charger binding face are owing to laminating each other, coil heat and cell-phone are in the user state in addition, the laminating panel of wireless charger possesses a large amount of heats equally, influence charging work efficiency and have the influence to the cell-phone body.

Disclosure of Invention

The invention aims to provide a wireless charger capable of preventing an attaching panel from being overheated, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme.

The wireless charger capable of avoiding overheating of the attaching panel comprises a base, wherein a top shell is mounted on the base, a vertical air channel capable of outputting air flow is arranged between the base and the top shell, an angle-adjustable electromagnetic charging module is mounted on the top shell in a lifting mode and is connected with a power line, the length of the power line is adjustable and is arranged in the base, the attaching panel is mounted on the electromagnetic charging module, ventilating grooves are formed in the attaching panel array, pushing clamping rods are symmetrically and slidably mounted on the attaching panel, fixed rubber rods are slidably mounted on the pushing clamping rods, air inlet groove plates are symmetrically mounted on the attaching panel, each air inlet groove plate is provided with a flaring end, the flaring ends are communicated with a necking end, and the necking ends are horizontally butted with the ventilating grooves.

According to the further technical scheme, an airflow cavity is arranged on the lower side of the vertical air duct, a fan motor is installed in the airflow cavity, and the fan motor is in power connection with a cooling fan.

According to the further technical scheme, the airflow cavity is provided with a metal wire plate, and a semiconductor refrigerating piece is arranged in the metal wire plate.

Further technical scheme, the symmetry is equipped with the lift spout in the epitheca, slidable mounting has the lifter in the lift spout, the lift spring is installed to the lifter, the switching piece is installed to the lifter end, the switching piece rotates installs the switching pole, the switching pole end is installed the laminating panel.

According to the technical scheme, a transmission groove is formed in the base, a wire fixing ring is slidably mounted in the transmission groove, the power wire is fixedly mounted on the wire fixing ring, a reset spring is mounted on the wire fixing ring, a wire connecting block is mounted on the wire fixing ring, the wire connecting block is connected with a transmission wire, the tail end of the transmission wire is connected to the lifting rod, and a pushing electromagnet is mounted in the transmission groove.

Further technical scheme, the laminating panel symmetry is equipped with two and passes the spout, it has to pass in the spout slidable mounting pass the clamping bar, pass the clamping bar bottom and install the lapse spring, it is equipped with the centre gripping spout to pass the clamping bar inner wall, centre gripping spout slidable mounting has fixed rubber pole, install the centre gripping spring in the centre gripping spout, soft pad is installed to fixed rubber pole.

According to the further technical scheme, the supporting pads are arranged at the bottom of the base in an array mode.

The invention has the beneficial effects that:

the wireless charger for preventing the laminating panel from overheating is provided with the angle-adjustable heat dissipation system, the electromagnetic charging module and the laminating panel in the wireless charger are in a lifting and rotating carrying mode, the electromagnetic charging module and the joint panel at the top of the electromagnetic charging module can be driven to realize the lifting function through the internal structure of the top shell, the internal heat dissipation system is arranged at the bottom of the vertical air duct, thereby driving the electromagnetic charging module and the attaching panel to lift together in the heat dissipation process through the heat dissipation structure, so that the heat dissipated by the electromagnetic charging module in the vertical air duct is directly discharged by the large-diameter air duct, and the synchronous control of the line body is realized through the lifting structure, thereby avoiding the problems that the internal wire rods influence the heat dissipation and reduce the service life of the wire rods in the using and lifting processes, after the mobile phone is lifted, the vertical air duct and the heat dissipation system can achieve the effect of dissipating heat between the mobile phone body and the gap between the mobile phone body and the binding panel through angle adjustment;

the wireless charger for avoiding the overheating of the attaching panel is provided with an angle-adjustable heat dissipation system, the attaching panel arranged on the upper side of the electromagnetic charging module is provided with a machine body fixing structure, mobile phones with different specifications and sizes are fixed through rubber friction rods arranged at two ends in an elastic sliding mode, meanwhile, when the fixing effect is achieved through the rubber friction rods, the central position of the mobile phone and the central position of the electromagnetic charging module are in the same horizontal line, the effect of ensuring the coil position of the mobile phone and the electromagnetic charging module to correspond is achieved through fine adjustment of the clamping position during fixing, the charging transmission efficiency is ensured, the phenomenon that the coil and the charging module deviate to influence the charging efficiency is avoided, meanwhile, after the mobile phone is clamped and fixed, the lifting adjusting structure is matched, so that the height and the orientation angle of the mobile phone can be driven in the charging process, and the problem that the use and the work are influenced by the fixed orientation of the mobile phone is avoided, after the angle is adjusted, the radiating structure and the air inlet groove plate can be matched to realize the radiating of the mobile phone during charging, so that the charging efficiency and the working state of the mobile phone are ensured;

the wireless charger for preventing the attaching panel from overheating is provided with the angle-adjustable heat dissipation system, the attaching panel is a non-smooth and flat thin plate with an array of ventilation grooves, so that the mobile phone is aligned by a fixed coil through the surface clamping structure of the attaching panel, meanwhile, the back of the mobile phone and the ventilation grooves on the surface of the attaching panel jointly form an airflow heat dissipation channel, and accordingly, after the mobile phone is lifted and lifted, airflow is blown upwards continuously through a vertical air channel, the joint high-efficiency heat dissipation of a mobile phone body and an electromagnetic charging module is realized through angle adjustment, meanwhile, the high-efficiency heat dissipation function of the attaching surface is realized through the air inlet groove plate arranged on the side, the air inlet groove plate is of a flaring air inlet and necking air outlet structure, an air outlet is butted with the ventilation grooves, so that after air blown out from the air channel enters air through a flaring end, wind power is introduced into the ventilation grooves through the necking end, and the flow rate of the air flow is improved, the high-efficient radiating effect to the binding face is realized to avoid among the charging process cell-phone and the overheated problem that influences both efficiency of wireless charger binding face.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings 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 only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1;

FIG. 3 is an enlarged view of the air intake duct panel 20 of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 5 is an enlarged schematic view of B in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

A wireless charger for avoiding overheating of a conformable panel as described in connection with fig. 1-5, comprising a base 11, the base 11 is provided with a top shell 12, a vertical air duct 22 capable of outputting air flow is arranged between the base 11 and the top shell 12, the top shell 12 can be installed with an angle-adjustable electromagnetic charging module 23 in a lifting way, the electromagnetic charging module 23 is connected with a power line 47, the power line 47 is arranged in the base 11 with adjustable length, the electromagnetic charging module 23 is provided with a joint panel 15, the array of the joint panel 15 is provided with ventilation slots 21, the joint panel 15 is symmetrically provided with pushing clamping rods 17 in a sliding way, the pushing clamping rod 17 is slidably provided with a fixed rubber rod 18, the joint panel 15 is symmetrically provided with air inlet groove plates 20, the air inlet groove plate 20 is provided with a flared end 29, the flared end 29 is communicated with a necking end 30, and the necking end 30 is horizontally butted with the ventilation groove 21.

When the mobile phone charger is used, the mobile phone is placed on the upper side of the laminating panel 15 and rebounded through the pushing clamping rods 17 by pulling and sliding the two pushing clamping rods 17 outwards, so that the mobile phone is placed at the center of the laminating panel 15, the mobile phone is fixed through the fixed rubber rod 18, the center of a charging coil of the mobile phone and the center of the electromagnetic charging module 23 are positioned at the same horizontal line, the charging coil and the electromagnetic charging module 23 are positioned at the same central state by adjusting the longitudinal position of the sliding mobile phone on the laminating panel 15, so that the problem that the charging efficiency is influenced by coil offset is solved, the laminating panel 15 can be driven to be lifted highly through the transmission structure in the charging process, so that the vertical air duct 22 is communicated with the outside in the lifting process, the vertical air duct 22 is upwards formed into a vertically blown air column, the air column realizes efficient heat dissipation of the suspended electromagnetic charging module 23 and collection, and angle adjustment is carried out through rotation of the electromagnetic charging module 23, the air inlet groove plate 20 is in a downward state capable of receiving air flow in the vertical air duct 22, so that air flow enters through the flared end 29 and is output to the ventilation groove 21 through the necking end 30, the binding face of the mobile phone and the binding panel 15 is subjected to efficient heat dissipation, and the problem that the working efficiency of the mobile phone and the charger is influenced by overheating temperature caused by heating of the mobile phone and the surface of the binding panel 15 in the charging process is solved.

Preferably, an airflow cavity 24 is formed at the lower side of the vertical air duct 22, a fan motor 25 is installed in the airflow cavity 24, and the fan motor 25 is in power connection with a heat dissipation fan 26.

The fan motor 25 is activated to rotate the heat dissipation fan 26 at a high speed, so that the upward blowing wind column is formed through the vertical wind path 22 to perform efficient heat dissipation.

Preferably, the airflow chamber 24 is provided with a wire plate 27, and the wire plate 27 is provided with a semiconductor cooling plate 28 therein.

The uniform output of the airflow is realized through the metal wire plate 27, and meanwhile, the refrigeration and the cooling of the metal wire plate 27 are realized through the semiconductor refrigeration piece 28, so that the heat dissipation efficiency is improved by outputting the low-temperature airflow.

Preferably, the symmetry is equipped with lift spout 37 in the top shell 12, slidable mounting has lifter 38 in the lift spout 37, lifter 38 installs lift spring 39, the switching piece 40 is installed to lifter 38 end, switching piece 40 rotates and installs switching pole 16, switching pole 16 end is installed laminating panel 15.

The lifting rod 38 is driven to lift through a transmission structure, so that the attaching panel 15 is lifted, and the angle adjusting function of the attaching panel 15 is realized by rotating the installation mode through the adapter rod 16.

Preferably, be equipped with drive groove 31 in the base 11, slidable mounting has solid wire loop 33 in drive groove 31, solid wire loop 33 fixed mounting has power cord 47, reset spring 32 is installed to solid wire loop 33, solid wire loop 33 installs line piece 35, line piece 35 is connected with drive line 36, drive line 36 end connect in lifter 38, install in the drive groove 31 and pass electro-magnet 34.

Through pushing away that electromagnet 34 controls solid line ring 33 outwards slides to make drive line 36 relax, thereby make lift spring 39 drive lifter 38 upwards to slide, make laminating panel 15 rise, solid line ring 33 slides simultaneously, makes power cord 47 outwards emit, thereby cooperation electromagnetism charging module 23 rises and realizes that power cord 47 exposes the effect that length follows the improvement.

Preferably, laminating panel 15 symmetry is equipped with two and passes spout 41, it has sliding installation in spout 41 to pass clamp bar 17, pass clamp bar 17 bottom and install and pass spring 42, it is equipped with centre gripping spout 43 to pass clamp bar 17 inner wall, centre gripping spout 43 sliding installation have fixed rubber pole 18, install centre gripping spring 44 in the centre gripping spout 43, soft pad 19 is installed to fixed rubber pole 18.

The mobile phone is fixed at the central position through the pushing spring 42 and the clamping spring 44, and the soft pad 19 achieves the effect of preventing scratching the screen.

Preferably, the bottom of the base 11 is provided with an array of support pads 13.

A smooth supporting effect is achieved by the supporting pad 13.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides an avoid overheated wireless charger of laminating panel, includes the base, the pedestal mounting has a top shell, its characterized in that: be equipped with the perpendicular wind channel that can output the air current between base and the epitheca, the epitheca can go up and down to install the electromagnetism module of charging of angularly adjustable, the electromagnetism module of charging is connected with the power cord, power cord length adjustable set up in the base, the electromagnetism module of charging installs the laminating panel, laminating panel array is equipped with the ventilation groove, laminating panel symmetry slidable mounting has the lapse clamping bar, lapse clamping bar slidable mounting has fixed rubber pole, laminating panel symmetry installs air inlet frid, air inlet frid is equipped with the flaring end, flaring end intercommunication has the throat end, the throat end with ventilation groove horizontal butt joint.

2. The wireless charger of claim 1, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: an airflow cavity is arranged on the lower side of the vertical air duct, a fan motor is installed in the airflow cavity, and the fan motor is in power connection with a cooling fan.

3. The wireless charger of claim 2, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: the airflow cavity is provided with a metal wire plate, and a semiconductor refrigerating sheet is arranged in the metal wire plate.

4. The wireless charger of claim 1, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: the symmetry is equipped with the lift spout in the epitheca, slidable mounting has the lifter in the lift spout, lifting spring is installed to the lifter, the switching piece is installed to the lifter end, the switching piece rotates installs the switching pole, the switching pole end is installed the laminating panel.

5. The wireless charger of claim 4, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: the base is internally provided with a transmission groove, a wire fixing ring is slidably arranged in the transmission groove, the wire fixing ring is fixedly provided with the power wire, the wire fixing ring is provided with a reset spring, the wire fixing ring is provided with a wire connecting block, the wire connecting block is connected with a transmission wire, the tail end of the transmission wire is connected with the lifting rod, and a pushing electromagnet is arranged in the transmission groove.

6. The wireless charger of claim 1, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: laminating panel symmetry is equipped with two and passes the spout, pass spout slidable mounting have pass the clamping bar, pass the clamping bar bottom and install the lapse spring, it is equipped with the centre gripping spout to pass the clamping bar inner wall, centre gripping spout slidable mounting have fixed rubber pole, install the centre gripping spring in the centre gripping spout, soft pad is installed to fixed rubber pole.

7. The wireless charger of claim 1, wherein the wireless charger is configured to prevent overheating of the conformable panel, and further comprising: and supporting pads are arranged at the bottom of the base in an array mode.

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