CN113985969A

CN113985969A - Wireless charging bin for earphone of notebook computer with multi-form self-adaptive fitting

Info

Publication number: CN113985969A
Application number: CN202111606964.7A
Authority: CN
Inventors: 杜江
Original assignee: Shenzhen Saijin Technology Co ltd
Current assignee: Shenzhen Saijin Technology Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-01-28
Anticipated expiration: 2041-12-27
Also published as: CN113985969B

Abstract

The invention discloses a polymorphic self-adaptive laminating wireless charging bin for a notebook computer earphone, belonging to the field of earphones, wherein a wireless charging tray is popped out to pick and place earphones by poking a poking rod to push rightwards, the wireless charging tray can be restored and locked by slightly pushing forwards after being used, after the earphone is placed in the wireless charging tray, the earphone can be clamped by the self-adaptive clamping mechanism, and the self-adaptive clamping mechanism is deformed after the earphone is clamped, so that the main ash removing block and the auxiliary ash removing block are extruded and gas is sprayed out, on one hand, the wireless charging tray can be arranged on a notebook computer to ensure that the earphone can be carried along with the notebook computer, and the wireless charging tray ensures that the earphone can be charged by itself when the electric quantity is insufficient, thereby ensuring that the earphone is not easy to lose and can continuously keep high-efficiency usability, and on the other hand, after the earphone is put into the wireless charging tray, the self-adaptive clamping mechanism is used for extruding the main dust removing block and the auxiliary dust removing block to remove dust in the wireless charging tray.

Description

Wireless charging bin for earphone of notebook computer with multi-form self-adaptive fitting

Technical Field

The invention relates to the field of earphones, in particular to a wireless charging bin for an earphone of a notebook computer, which is in multi-form self-adaptive fit.

Background

A notebook computer, which is called a portable computer, a palm computer or a laptop computer for short, is characterized in that the body is small and is more portable than a desktop computer, is a small and portable personal computer, generally weighs 1-3 kg, the current trend is to make the notebook smaller and lighter, and to make the notebook more and more powerful, in order to reduce the size, the notebook computer uses a liquid crystal display (LCD screen), besides the keyboard, a touch pad or a touch point is installed as a positioning device, the earphone is a pair of conversion units, it receives the electric signal sent from the media player or receiver, and converts it into audible sound wave by a speaker near the ear, the earphone can be separated from the media player, and can be connected by only one plug, and can listen to the sound alone without affecting other people.

In the prior art, when a notebook computer is used, a sound box is generally used for better playing sound, but in order to adapt to the portability of the notebook computer, a wireless earphone is used for connection, but the wireless earphone may be lost or insufficient in electric quantity when being carried, and further the effect when being used is influenced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a wireless charging bin of a notebook computer earphone with multi-form self-adaptive attachment, the wireless charging tray is popped out by poking a poking rod to push rightwards to pick and place the earphone, the wireless charging tray can be restored and locked by pushing forwards lightly after the earphone is used up, the earphone can be clamped by a self-adaptive clamping mechanism after the earphone is placed in the wireless charging tray, the self-adaptive clamping mechanism is deformed after the earphone is clamped, so that a main dust cleaning block and an auxiliary dust cleaning block are extruded and gas is sprayed out, on one hand, the earphone can be carried along with the notebook computer by being arranged on the notebook computer through the wireless charging tray, and the earphone is automatically charged through the wireless charging tray when the electric quantity is insufficient, so that the earphone is not easy to lose and can be continuously kept in high-efficiency use, on the other hand, after the earphone is placed in the wireless charging tray, accessible self-adaptation fixture blocks it to this lets the earphone be difficult for taking place to rock in the wireless tray that charges, and clears away the dust in the wireless tray that charges through the extrusion of self-adaptation fixture to main deashing piece and vice deashing piece after blocking, and then makes the earphone be difficult for receiving the influence of dust after putting into.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A wireless charging bin of a notebook computer earphone with multi-form self-adaptive lamination comprises an ear bin cover plate plastic part, wherein a wireless charging tray is inserted into the ear bin cover plate plastic part, a left chute is formed in the lower end of the ear bin cover plate plastic part, a right chute is formed in the lower end of the ear bin cover plate plastic part, the left chute and the right chute are symmetrical, a driving lever is arranged at the outer end of the wireless charging tray, two symmetrical main ash cleaning blocks are arranged in the wireless charging tray, an auxiliary ash cleaning block is arranged in the wireless charging tray, a self-adaptive clamping mechanism is arranged in the wireless charging tray, a plurality of ball deformation mechanisms are arranged in the main ash cleaning block, the wireless charging tray is ejected out by stirring the driving lever to the right direction so as to pick and place the earphone, the wireless charging tray can be restored and locked by forward soft pushing after the earphone is used, and after the wireless charging tray is placed in the earphone, the earphone can be clamped by the self-adaptive clamping mechanism, the self-adaptive clamping mechanism deforms after the earphone is clamped, so that the main ash removal block and the auxiliary ash removal block are extruded and sprayed out of gas, on one hand, the earphone can be installed on a notebook computer through the wireless charging tray and can be carried along with the notebook computer, on the other hand, the earphone can be automatically charged when the electric quantity is insufficient through the wireless charging tray, the earphone is difficult to lose and can continuously keep efficient usability, on the other hand, after the earphone is placed into the wireless charging tray, the earphone can be clamped by the self-adaptive clamping mechanism, the earphone is difficult to shake in the wireless charging tray, dust in the wireless charging tray is removed through extrusion of the self-adaptive clamping mechanism on the main ash removal block and the auxiliary ash removal block after the earphone is clamped, and the earphone is difficult to be influenced by the dust after being placed.

Furthermore, the main ash removal block comprises an L-shaped block, a built-in cavity is formed in the L-shaped block, the L-shaped block is located on the outer side of the auxiliary ash removal block, an air outlet is formed in the outer end of the L-shaped block, an aerogel felt is fixedly connected to the inner wall of the built-in cavity and located on the right side of the ball-deforming mechanism, after the main ash removal block is extruded by the self-adaptive clamping mechanism to deform, air in the built-in cavity is released through the air outlet to remove dust in the wireless charging tray, the wireless charging tray is kept in a relatively clean state, heat generated by the operation of the computer is absorbed through the ball-deforming mechanism after the earphone is placed in the main ash removal block, the main ash removal block expands after being absorbed by the ball-deforming mechanism, the ball-deforming mechanism can extrude the left connecting plate, and the fastening performance of the left connecting plate to the earphone is enhanced, and the heat can be absorbed by the ball-deforming mechanism to the external heat so that the earphone is not easily affected, meanwhile, the heat insulation effect of the earphone can be enhanced through the aerogel felt.

Furthermore, the auxiliary dust removing block comprises a U-shaped frame, the inner wall of the U-shaped frame is fixedly connected with two symmetrical magnetism isolating blocks, two symmetrical air bags are arranged in the U-shaped frame and are positioned between the magnetic insulating block and the U-shaped frame, the outer end of the air bag is fixedly connected with two symmetrical main magnet blocks which correspond to the magnetism insulation block, after the auxiliary ash removing block is extruded by the self-adaptive clamping mechanism, the gas is sprayed out to correspond to the main ash removing block to remove the dust in the wireless charging tray, after the auxiliary ash removing block is extruded, the magnetic insulating block can apply pressure to the air bag and deform the air bag, so that the main magnet block can extend out of the magnetic insulating block to repel the magnet block on the right connecting plate after the air bag deforms, and then the right connecting plate enhances the fastening performance of the earphone and corresponds to the left connecting plate, thereby improving the fastening effect of the self-adaptive clamping mechanism on the earphone.

Further, the self-adaptive clamping mechanism comprises a rubber leather sleeve, an opening is drilled in the rubber leather sleeve, the left end of the rubber leather sheath is fixedly connected with a right connecting plate, the right end of the rubber leather sheath is fixedly connected with a left connecting plate, the right connecting plate corresponds to the left connecting plate, a compression spring is fixedly connected between the right connecting plate and the left connecting plate, the compression spring is positioned in the through hole, the rubber leather sleeve is positioned between the main ash removal block and the auxiliary ash removal block, when the self-adaptive clamping mechanism is clamped into the earphone, the compression spring can be automatically adjusted according to the size of the earphone, so that the right connecting plate and the left connecting plate clamp the earphones tightly, and the left connecting plate and the right connecting plate can be reversely pressed by the main ash removing block and the auxiliary ash removing block, therefore, the self-adaptive clamping mechanism, the main ash removal block and the auxiliary ash removal block form an interaction force, and the stability of the earphone after the earphone is placed into the wireless charging tray is improved.

Further, ball mechanism of deformation includes the sacculus, fixedly connected with deformation spring in the sacculus, the sacculus is located built-in intracavity, the one end fixedly connected with graphite alkene piece of aerogel felt is kept away from to the sacculus, graphite alkene piece and built-in chamber fixed connection, it is in the sacculus to heat absorption and conduction through graphite alkene piece at ball mechanism of deformation, take place the inflation to heat absorption by carbon dioxide, the inflation that can take place by the sacculus afterwards makes L type piece support the pressure to left connecting plate, and deformation spring can take place to deform after being heated, and then support pressing to left connecting plate after the supplementary sacculus inflation to this makes main deashing piece when improving self-adaptation fixture's clamping degree, still can absorb external heat, obtain higher safeguard effect after so making the earphone put into.

Further, built-in intracavity fixedly connected with drum, the drum is located deformation ball mechanism downside, the drum is hopper-shaped structure, can discharge through the gas outlet after the gas in built-in intracavity is extruded, and in order to strengthen the amount that gaseous got rid of, the accessible drum adopts leaks hopper-shaped and makes gaseous narrow the entering wide play, and the volume that can give vent to anger at certain degree makes the dust be difficult for remaining in the wireless tray that charges.

Furthermore, the magnetism insulation block is made of iron-nickel alloy material, the nickel content in the iron-nickel alloy is 80%, an exhaust port is formed in the outer end of the U-shaped frame and located between the two air bags, the magnetism on the main magnet block is isolated by the magnetism insulation block through the iron-nickel alloy, and the exhaust port exhausts gas in the U-shaped frame after the U-shaped frame is extruded.

Furthermore, the outer end of the right connecting plate is fixedly connected with two symmetrical auxiliary magnet blocks, the two auxiliary magnet blocks are located on the outer sides of the main magnet blocks, and the auxiliary magnet blocks at the outer end of the right connecting plate are far away from the main magnet blocks, so that the main magnet blocks are separated from the isolation of the magnetic insulating blocks to form repulsion with the right connecting plate after the U-shaped frame is extruded.

Further, the balloon is filled with carbon dioxide gas, the deformation spring is made of a memory alloy material, the deformation spring is in a compressed state and has a two-way memory effect, the balloon has a heat absorption effect by being filled with the carbon dioxide gas, and the deformation spring can deform after being heated by adopting the memory alloy material.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the scheme can ensure that the wireless charging tray is popped out by stirring the deflector rod to push rightwards to take and place the earphone, the wireless charging tray can be restored and locked by forward and light pushing after the earphone is used up, the earphone can be clamped by the self-adaptive clamping mechanism after being placed into the wireless charging tray, the self-adaptive clamping mechanism is deformed after the earphone is clamped to ensure that the main ash cleaning block and the auxiliary ash cleaning block are extruded and spray gas, on one hand, the earphone can be arranged on a notebook computer through the wireless charging tray to be carried along with the notebook computer, and the earphone can be automatically charged when the electric quantity is insufficient through the wireless charging tray, so that the earphone is not easy to lose and can continuously keep high-efficiency usability, on the other hand, the earphone can be clamped by the self-adaptive clamping mechanism after being placed into the wireless charging tray, so that the earphone is not easy to shake in the wireless charging tray, and the dust in the wireless charging tray is cleared away through the extrusion of the self-adaptive clamping mechanism on the main dust removing block and the auxiliary dust removing block after the earphones are clamped, so that the earphones are not easily influenced by the dust after being placed.

(2) The main dust removing block comprises an L-shaped block, a built-in cavity is formed in the L-shaped block, the L-shaped block is located on the outer side of the auxiliary dust removing block, an air outlet is formed in the outer end of the L-shaped block, an aerogel felt is fixedly connected to the inner wall of the built-in cavity and located on the right side of the ball deforming mechanism, after the main dust removing block is extruded by the self-adaptive clamping mechanism to deform, air in the built-in cavity is released through the air outlet to remove dust in the wireless charging tray, the wireless charging tray is kept in a relatively clean state, heat generated by operation of a computer is absorbed through the ball deforming mechanism after an earphone is placed in the main dust removing block, the main dust removing block expands after the ball deforming mechanism absorbs the dust, the ball deforming mechanism can extrude the left connecting plate, and further the left connecting plate can absorb external heat through the ball deforming mechanism while the tightness of the earphone is enhanced, so that the heat is not easily affected by the earphone, meanwhile, the heat insulation effect of the earphone can be enhanced through the aerogel felt.

(3) The auxiliary ash removing block comprises a U-shaped frame, the inner wall of the U-shaped frame is fixedly connected with two symmetrical magnetic insulation blocks, two symmetrical air bags are arranged in the U-shaped frame, the air bags are positioned between the magnetic insulation blocks and the U-shaped frame, the outer ends of the air bags are fixedly connected with two symmetrical main magnet blocks, the main magnet blocks correspond to the magnetic insulation blocks, after the auxiliary ash removing block is extruded by the self-adaptive clamping mechanism, the gas is sprayed out to correspond to the main ash removing block to remove the dust in the wireless charging tray, after the auxiliary ash removing block is extruded, the magnetic insulating block can apply pressure to the air bag and deform the air bag, so that the main magnet block can extend out of the magnetic insulating block to repel the magnet block on the right connecting plate after the air bag deforms, and then the right connecting plate enhances the fastening performance of the earphone and corresponds to the left connecting plate, thereby improving the fastening effect of the self-adaptive clamping mechanism on the earphone.

(4) The self-adaptive clamping mechanism comprises a rubber leather sleeve, an opening is drilled in the rubber leather sleeve, a right connecting plate is fixedly connected with the left end of the rubber leather sleeve, a left connecting plate is fixedly connected with the right end of the rubber leather sleeve, the right connecting plate corresponds to the left connecting plate, a compression spring is fixedly connected between the right connecting plate and the left connecting plate, the compression spring is positioned in the opening, the rubber leather sleeve is positioned between a main ash removal block and an auxiliary ash removal block, when the self-adaptive clamping mechanism is clamped into the earphone, the compression spring can be automatically adjusted according to the size of the earphone, so that the right connecting plate and the left connecting plate clamp the earphones tightly, and the left connecting plate and the right connecting plate can be reversely pressed by the main ash removing block and the auxiliary ash removing block, therefore, the self-adaptive clamping mechanism, the main ash removal block and the auxiliary ash removal block form an interaction force, and the stability of the earphone after the earphone is placed into the wireless charging tray is improved.

(5) Deformation ball mechanism includes the sacculus, fixedly connected with deformation spring in the sacculus, the sacculus is located built-in intracavity, the one end fixedly connected with graphite alkene piece that aerogel felt was kept away from to the sacculus, graphite alkene piece and built-in chamber fixed connection, pass through graphite alkene piece and conduct to the sacculus in deformation ball mechanism, take place the inflation to thermal absorption by carbon dioxide, the inflation that can take place by the sacculus afterwards makes L type piece support the pressure to left connecting plate, and deformation spring can take place deformation after being heated, and then support pressing of left connecting plate after the supplementary sacculus inflation, when this makes main deashing piece improve the degree of clamp to self-adaptation fixture, still can absorb external heat, obtain higher safeguard effect after putting into with this messenger's earphone.

(6) Built-in intracavity fixedly connected with drum, drum are located deformation ball mechanism downside, and the drum is hopper-shaped structure, can discharge through the gas outlet after the gas in built-in intracavity is extruded, and in order to strengthen the volume that gaseous got rid of, the accessible drum adopts leaks hopper-shaped and makes gaseous narrow advance wide out, and the volume that can give vent to anger at the improvement to a certain extent makes the dust be difficult for remaining in the wireless tray that charges.

(7) The magnetic insulating block is made of iron-nickel alloy, the nickel content in the iron-nickel alloy is 80%, the outer end of the U-shaped frame is provided with an exhaust port, the exhaust port is positioned between the two air bags, the magnetic insulating block is isolated from the magnetism on the main magnet block by adopting the iron-nickel alloy, and the exhaust port exhausts the gas in the U-shaped frame after the U-shaped frame is extruded.

(8) Two symmetrical auxiliary magnet blocks are fixedly connected to the outer end of the right connecting plate, the two auxiliary magnet blocks are located on the outer side of the main magnet block, the auxiliary magnet blocks are far away from the main magnet block through the outer end of the right connecting plate, and the main magnet block is separated from the isolation of the magnetic insulating block to form rejection with the right connecting plate after the U-shaped frame is extruded.

(9) The sacculus intussuseption is filled with carbon dioxide gas, and the deformation spring adopts memory alloy material to make, and initial condition is the compression state, has two journey memory effect, makes the sacculus have the heat absorption effect through filling carbon dioxide gas, and makes the deformation spring take place to deform after being heated through adopting memory alloy material.

Drawings

FIG. 1 is a schematic view of an embodiment of a plastic part of an ear bin cover according to the present invention;

fig. 2 is a schematic top sectional view of a wireless charging tray according to the present invention;

FIG. 3 is an enlarged schematic view taken at A in FIG. 2;

FIG. 4 is a schematic view of a partial structure of the main ash removal block of the present invention;

FIG. 5 is a schematic perspective view of the main ash removal block of the present invention;

fig. 6 is a schematic structural diagram of the adaptive clamping mechanism of the present invention.

The reference numbers in the figures illustrate:

100 ear storehouse apron plastic parts, 200 wireless charging tray, 300 left spout, 400 right spout, 500 driving levers, 600 main deashing piece, 601L type piece, 602 built-in chamber, 603 gas outlets, 604 aerogel felt, 700 vice deashing pieces, 701U type frame, 702 magnetic isolation piece, 703 gasbag, 704 main magnet piece, 800 self-adaptation fixture, 801 rubber sleeve, 802 opening, 803 compression spring, 804 right connecting plate, 805 left connecting plate, 900 deformation ball mechanism, sacculus, 902 deformation spring, 903 graphite alkene piece.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-2, a wireless charging bin for a notebook computer earphone with multi-form adaptive attachment comprises an ear bin cover plate plastic part 100, a wireless charging tray 200 inserted into the ear bin cover plate plastic part 100, a left chute 300 drilled at the lower end of the ear bin cover plate plastic part 100, a right chute 400 drilled at the lower end of the ear bin cover plate plastic part 100, the left chute 300 and the right chute 400 symmetrical, a deflector rod 500 arranged at the outer end of the wireless charging tray 200, two symmetrical main ash cleaning blocks 600 arranged in the wireless charging tray 200, an auxiliary ash cleaning block 700 arranged in the wireless charging tray 200, a self-adaptive clamping mechanism 800 arranged in the wireless charging tray 200, a plurality of deformable ball mechanisms 900 arranged in the main ash cleaning block 600, wherein the wireless charging tray 200 is ejected by the deflector rod 500 pushing to the right to pick and place the earphone, the wireless charging tray 200 can be restored and locked by pushing forward, after the earphone is placed in the wireless charging tray 200, the earphone is clamped by the adaptive clamping mechanism 800, and after the earphone is clamped, the adaptive clamping mechanism 800 deforms to cause the main dust removing block 600 and the auxiliary dust removing block 700 to be extruded and to spray gas, on one hand, the earphone can be mounted on a notebook computer through the wireless charging tray 200 to be carried along with the notebook computer, and the earphone is charged by itself when the electric quantity is insufficient through the wireless charging tray 200, so that the earphone is not easy to lose and can continuously keep high-efficiency usability, on the other hand, after the earphone is placed in the wireless charging tray 200, the earphone can be clamped by the adaptive clamping mechanism 800, so that the earphone is not easy to shake in the wireless charging tray 200, and after the earphone is clamped, the dust in the wireless charging tray 200 is removed through the extrusion of the main dust removing block 600 and the auxiliary dust removing block 700 by the adaptive clamping mechanism 800, and further, the earphone is not easily affected by dust after being placed.

Referring to fig. 2-5, the main ash removal block 600 includes an L-shaped block 601, a built-in cavity 602 is drilled in the L-shaped block 601, the L-shaped block 601 is located at the outer side of the auxiliary ash removal block 700, an air outlet 603 is drilled at the outer end of the L-shaped block 601, an aerogel felt 604 is fixedly connected to the inner wall of the built-in cavity 602, the aerogel felt 604 is located at the right side of the ball deforming mechanism 900, after the main ash removal block 600 is pressed by the adaptive clamping mechanism 800 to deform, air in the built-in cavity 602 is released through the air outlet 603 to remove dust in the wireless charging tray 200, so as to keep the inside of the wireless charging tray 200 in a relatively clean state, and after the earphone is placed, heat generated by the operation of the computer is absorbed by the ball deforming mechanism 900, and expands after the ball deforming mechanism 900 absorbs the heat, so that the ball deforming mechanism 900 can press the left connection board 805, and further, while the fastening performance of the left connection board 805 to the earphone is enhanced, heat can be absorbed by the ball deforming mechanism 900 to further enable the external heat to be further to be absorbed by the external heat, so as to enable the earphone to be fastened to be further enabled The earphone is not easily affected, and the heat insulation effect of the earphone can be enhanced through the aerogel felt 604.

Referring to fig. 3, the auxiliary ash removing block 700 includes a U-shaped frame 701, two symmetrical magnetic insulation blocks 702 are fixedly connected to the inner wall of the U-shaped frame 701, two symmetrical air bags 703 are disposed in the U-shaped frame 701, the air bags 703 are disposed between the magnetic insulation blocks 702 and the U-shaped frame 701, two symmetrical main magnet blocks 704 are fixedly connected to the outer ends of the air bags 703, the main magnet blocks 704 correspond to the magnetic insulation blocks 702, after the auxiliary ash removing block 700 is pressed by the adaptive clamping mechanism 800, air is ejected to correspond to the main ash removing block 600 to remove dust in the wireless charging tray 200, and after the auxiliary ash removing block 700 is pressed, the magnetic insulation blocks 702 press the air bags and deform the air bags 703, so that the main magnet blocks 704 can extend out of the magnetic insulation blocks 702 to repel the magnet blocks on the right connecting plate 804 after the air bags 703 are deformed, thereby enhancing the fastening performance of the earphone, and corresponds to the left connecting plate 805, thereby improving the fastening effect of the adaptive clamping mechanism 800 on the headset.

Referring to fig. 6, the adaptive clamping mechanism 800 includes a rubber sheath 801, a through hole 802 is drilled in the rubber sheath 801, a right connecting plate 804 is fixedly connected to the left end of the rubber sheath 801, a left connecting plate 805 is fixedly connected to the right end of the rubber sheath 801, the right connecting plate 804 corresponds to the left connecting plate 805, a compression spring 803 is fixedly connected between the right connecting plate 804 and the left connecting plate 805, the compression spring 803 is located in the through hole 802, the rubber sheath 801 is located between the main ash removal block 600 and the auxiliary ash removal block 700, after the earphone is clamped in the adaptive clamping mechanism 800, the compression spring 803 is automatically adjusted according to the size of the earphone, so that the right connecting plate 804 and the left connecting plate 805 clamp the earphone to achieve a relatively tight effect, and the left connecting plate 804 and the right connecting plate 804 can be reversely pressed by the main ash removal block 600 and the auxiliary ash removal block 700, so that the adaptive clamping mechanism 800, the main ash removal block 600 and the auxiliary ash removal block 700 form a mutual acting force to improve the effect of the earphone after the earphone is placed in the wireless charging tray 200 And (4) stability.

Referring to fig. 5, the ball-deforming mechanism 900 includes a balloon 901, a deforming spring 902 is fixedly connected in the balloon 901, the balloon 901 is located in the built-in cavity 602, a graphene block 903 is fixedly connected at one end of the balloon 901 far from the aerogel felt 604, the graphene block 903 is fixedly connected with the built-in cavity 602, the heat is absorbed and conducted into the balloon 901 by the ball-deforming mechanism 900 through the graphene block 903, the heat is absorbed and expanded by carbon dioxide, the L-shaped block 601 is pressed against the left connecting plate 805 by the expansion of the balloon 901, the deforming spring 902 deforms after being heated, and the pressing of the left connecting plate 805 by the expanded balloon 901 is further assisted, so that when the clamping degree of the main ash removal block 600 on the self-adaptive clamping mechanism 800 is improved, the external heat can be absorbed, and the earphone can obtain a higher protection effect after being put in.

Referring to fig. 3-6, a cylinder is fixedly connected to the interior of the built-in cavity 602, the cylinder is located at the lower side of the deformable ball mechanism 900, the cylinder is in a funnel-shaped structure, the gas in the built-in cavity 602 is discharged through the gas outlet 603 after being extruded, and in order to increase the gas discharge amount, the gas can be narrowed and widened through the funnel shape of the cylinder, the gas discharge amount can be increased to a certain extent so that dust is not easily left in the wireless charging tray 200, the magnetic insulating block 702 is made of iron-nickel alloy, the nickel content in the iron-nickel alloy is 80%, an exhaust port is drilled at the outer end of the U-shaped frame 701 and located between the two air bags 703, the magnetic insulating block 702 is isolated from the magnetic property of the main magnetic iron block 704 through the iron-nickel alloy, the exhaust port is used for discharging the gas in the U-shaped frame 701 after the U-shaped frame 701 is extruded, two symmetric auxiliary magnetic iron blocks are fixedly connected to the outer end of the right connecting plate 804, two vice magnet pieces all are located the outside of main magnet piece 704, keep away from main magnet piece 704 through the vice magnet piece of right connecting plate 804 outer end, make U type frame 701 let main magnet piece 704 break away from the isolated and right connecting plate 804 of magnetic insulation piece 702 form repulsion after receiving the extrusion, sacculus 901 intussuseption is filled with carbon dioxide gas, deformation spring 902 adopts memory alloy material to make, and initial condition is compression state, has two journey memory effect, make sacculus 901 have the heat absorption effect through filling carbon dioxide gas, and make deformation spring 902 can take place to deform after being heated through adopting memory alloy material.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides a wireless storehouse of charging of notebook computer earphone of polymorphic self-adaptation laminating, includes ear storehouse apron plastic part (100), its characterized in that: the wireless charging tray (200) is arranged in the lug bin cover plate plastic part (100) in an inserted mode, a left sliding groove (300) is formed in the lower end of the lug bin cover plate plastic part (100), a right sliding groove (400) is formed in the lower end of the lug bin cover plate plastic part (100), the left sliding groove (300) is symmetrical to the right sliding groove (400), a shifting rod (500) is arranged at the outer end of the wireless charging tray (200), two symmetrical main ash cleaning blocks (600) are arranged in the wireless charging tray (200), an auxiliary ash cleaning block (700) is arranged in the wireless charging tray (200), a self-adaptive clamping mechanism (800) is arranged in the wireless charging tray (200), and a plurality of deformation ball mechanisms (900) are arranged in the main ash cleaning block (600).

2. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 1, characterized in that: the main deashing piece (600) includes L type piece (601), it has built-in chamber (602) to open in L type piece (601), L type piece (601) are located the outside of vice deashing piece (700), air outlet (603) have been cut to L type piece (601) outer end, built-in chamber (602) inner wall fixedly connected with aerogel felt (604), aerogel felt (604) are located the right side of deformation ball mechanism (900).

3. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 1, characterized in that: the auxiliary dust removing block (700) comprises a U-shaped frame (701), two symmetrical magnetic insulating blocks (702) are fixedly connected to the inner wall of the U-shaped frame (701), two symmetrical air bags (703) are arranged in the U-shaped frame (701), the air bags (703) are located between the magnetic insulating blocks (702) and the U-shaped frame (701), two symmetrical main magnet blocks (704) are fixedly connected to the outer ends of the air bags (703), and the main magnet blocks (704) correspond to the magnetic insulating blocks (702).

4. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 1, characterized in that: self-adaptation fixture (800) are including rubber leather sheath (801), it has opening (802) to open in rubber leather sheath (801), rubber leather sheath (801) left end fixedly connected with right connecting plate (804), rubber leather sheath (801) right-hand member fixedly connected with left connecting plate (805), right side connecting plate (804) are corresponding with left connecting plate (805), fixedly connected with compression spring (803) between right side connecting plate (804) and left connecting plate (805), compression spring (803) are located opening (802), rubber leather sheath (801) are located between main deashing piece (600) and vice deashing piece (700).

5. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 1, characterized in that: the deformation ball mechanism (900) comprises a ball bag (901), a deformation spring (902) is fixedly connected in the ball bag (901), the ball bag (901) is located in the built-in cavity (602), one end, far away from the aerogel felt (604), of the ball bag (901) is fixedly connected with a graphene block (903), and the graphene block (903) is fixedly connected with the built-in cavity (602).

6. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 2, characterized in that: the built-in cavity (602) is internally and fixedly connected with a cylinder, the cylinder is positioned at the lower side of the deformation ball mechanism (900), and the cylinder is of a funnel-shaped structure.

7. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 3, characterized in that: the magnetic insulation block (702) is made of an iron-nickel alloy material, the nickel content in the iron-nickel alloy is 80%, an exhaust port is formed in the outer end of the U-shaped frame (701), and the exhaust port is located between the two air bags (703).

8. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 4, characterized in that: the outer end of the right connecting plate (804) is fixedly connected with two symmetrical auxiliary magnet blocks, and the two auxiliary magnet blocks are located on the outer side of the main magnet block (704).

9. The wireless charging bin of the polymorphic adaptive-fitting notebook computer earphone according to claim 5, characterized in that: the balloon (901) is filled with carbon dioxide gas, the deformation spring (902) is made of memory alloy materials, the initial state is a compression state, and the two-way memory effect is achieved.