CN116647782B - Ventilating adjustable headphone - Google Patents

Abstract

The invention belongs to the technical field of headphones, in particular to a ventilation adjustable headphone, which comprises a headphone frame and an adjusting slide block, wherein the number of the headphones is two, the middle part of the inner cavity of the headphones is fixedly connected with the bottom end of the adjusting slide block, the headphones is provided with a headphone shell, one side of the inner cavity of the headphone shell, which is far away from the adjusting slide block, is fixedly connected with a sponge baffle, and one side of the surface of the sponge baffle is slidably connected with a bundling ring. The device is repacked to cup jointing the earphone, when using the device to carry out the during operation, cup jointing the earphone and can possess good sound insulation effect, when needing to dispel the heat work, cup jointing the earphone and can be under the extraction effect and the extrusion emission effect of earphone frame, through the flow of accelerating the air current, realize the heat transportation work to user's ear position, and then under the good circumstances of guaranteeing earphone sound insulation condition, increase the radiating effect of earphone.

Description

Ventilating adjustable headphone

Technical Field

The invention belongs to the technical field of headphones, and particularly relates to a ventilation-adjustable headphone.

Background

E-commerce, for short, e-commerce refers to carrying out transaction activities and related service activities in an electronic transaction mode on the Internet, an intranet and a value-added network, and is electronic and networked in each link of the traditional business activities, and in the process of the e-commerce, sellers and buyers are required to communicate on line, and the online communication is not separated from headphones.

In the continuous wearing process of the earphone, due to the sound insulation and sealing characteristics of the headset, heat of the ears and the head of a user is difficult to dissipate, and therefore a series of problems such as head temperature rise and sweating occur, improvement is needed, and the heat dissipation effect of the earphone is improved under the condition that sound insulation conditions of the headset are good.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the utility model provides a headphone with adjustable ventilation, includes earphone frame and adjustment slider, including cup jointing earphone, this cup jointing earphone's quantity is two, and cup jointing earphone cavity's middle part and adjustment slider's bottom fixed connection, cup jointing earphone has the earphone cover shell, one side fixedly connected with sponge baffle that the adjustment slider was kept away from to earphone cover shell inner chamber, one side sliding connection on sponge baffle surface has the bunching ring, one side that earphone cover shell inner chamber is close to adjustment slider is provided with the smooth arm that ventilates through the socket symmetry, earphone cover shell inner chamber is close to the axle center department fixedly connected with conductive slide arm of adjustment slider one side, earphone cover shell inner chamber is kept away from one end rotation of adjustment slider and is connected with hollow compression ring, the both sides symmetry of hollow compression ring inner chamber has been seted up and has been put through putting through the mouth fixedly connected with the butt joint shell, the inner chamber of butt joint shell extends to the outside of hollow compression ring through the rubber push rod; when the device is used, the earphone frame is directly worn on the head of a user, and then the adjusting sliding blocks on the two sides are pulled downwards, so that the sleeved earphone can completely cover the ears of the user, at the moment, the user rotates the two ends of the earphone frame, and the threaded push rods on the two sides of the adjusting sliding blocks are rotated, so that the sleeved earphone is fixed on the head of the user.

Preferably, the temperature control elements are used for carrying out temperature control detection on the inner cavity sleeved with the earphone on the surface of the adjusting slide block, the number of the temperature control elements is two, and the bottom of the surface of the temperature control elements is fixedly connected with the surface of the adjusting slide block; connect the original paper, the top on this connection original paper surface and the one end fixed connection of earphone frame inner chamber, and the other end of connecting the original paper and the top fixed connection of adjustment slider inner chamber, the quantity of connecting the original paper is two. The device is repacked to cup jointing the earphone, when using the device to carry out the during operation, cup jointing the earphone and can possess good sound insulation effect, when needing to dispel the heat work, cup jointing the earphone and can be under the extraction effect and the extrusion emission effect of earphone frame, through the flow of accelerating the air current, realize the heat transportation work to user's ear position, and then under the good circumstances of guaranteeing earphone sound insulation condition, increase the radiating effect of earphone.

Preferably, the bottom of adjustment slider inner chamber has evenly offered the slip grooving, the inner chamber of adjustment slider has the hollow shell of sliding connection through the slip grooving, the quantity of hollow shell of sliding is three, and the top of ventilation slide arm inner chamber and the inner chamber fixed connection of hollow shell of sliding, the bottom fixed connection of siphunculus and connecting original paper inner chamber is passed through at the top of hollow shell of sliding inner chamber, one side on hollow shell of sliding surface is through the inner chamber fixed connection of connecting spring and adjustment slider, the opposite side on hollow shell of sliding surface rotates and is connected with the screw thread push rod. When working, the inside of earphone cover shell is transported to through the receiver with the signal of telecommunication to the conductive arm, through the tuning effect of earphone cover shell sound effect back and sponge baffle, user's ear can hear sound, because cup joint the earphone and cover in user's ear completely, so this earphone's sound insulation effect is good, wear the device for a long time in order to avoid the user and lead to the problem that ear and head sweats, the arm that ventilates that is located earphone cover shell inner chamber both sides carries out the extraction of air current to the inner chamber of earphone cover shell through the ring tied in a bundle, make cup joint earphone outward breathe in from the position with user's ear clearance, through the guide effect of adjustment slider, the ring tied in a bundle of this moment possesses the radiating effect.

Preferably, both sides of the two sides of the inner cavity of the earphone frame are respectively connected with an external plug shell through a notch in an inserting mode, both sides of the inner cavity of the external plug shell are respectively connected with a turbine rotating rod in a rotating mode, both sides of the top of the inner cavity of the earphone frame are respectively connected with a plugging magnetic block in a sliding mode, both sides of the top of the inner wall of the earphone frame are respectively connected with a guiding sliding rail in a sliding mode, the inner cavity of the guiding sliding rail is connected with a massage pressing rod in a sliding mode, and both sides of the inner cavity of the earphone frame are respectively connected with an auxiliary massage set in a sliding mode. The utility model discloses a earphone, including earphone frame, the earphone frame is equipped with the device, only rely on cup joint earphone to inhale and gather outside impurity at user's head easily, and then lead to the problem that user's ear infects, so still need improve, the earphone frame of the device wears when user's head, the turbine bull stick of both sides is in the inside rotation of the external plug-in shell of independent each, in the adjustment slider of the both sides with outside gas suction, because the biggest two grooving air inlets in earphone frame inner chamber bottom are plugged up by the side of shutoff magnetic path, outside atmospheric pressure can push away the shutoff magnetic path of both sides this moment, and then open the air inlet of earphone frame both sides, the air current is through the drainage of earphone frame, pour into cup joint earphone through the arm that ventilates, cool off user's head.

Preferably, the bilateral symmetry at earphone frame inner chamber top has been seted up and has been run through the grooving, the quantity of shutoff magnetic path is two, and the inner chamber of shutoff magnetic path passes through connecting spring fixed connection, the surface of shutoff magnetic path is through running through the inner chamber sliding connection of grooving and earphone frame, the both ends of turbine bull stick all extend to the outside of external plug-in shell, the both ends of turbine bull stick all fixedly connected with rotor motor. When the whole earphone of cup jointing is extruded to user's head through the screw thread push rod, hollow compression ring can be compressed because the extrusion effect, and the gas of hollow compression ring inner chamber can add gas to the butt joint shell through the spout of both sides this moment, and rubber push rod can outwards extrude the blowout because of the pressure increase of butt joint shell inner chamber this moment, and then makes rubber push rod card at user's ear, prevents to wear the earphone because the existence of gas port leads to the earphone not hard up.

Preferably, the surface of the massage compression bar is in sliding connection with the inner cavity of the guide sliding rail through a metal sliding block, the earphone frame is made of plastics, cross flow ports are uniformly formed at two ends of the inner cavity of the external plug-in shell, and the top of the surface of the auxiliary massage group is fixedly connected with the bottom end of the external plug-in shell through an arc-shaped spring belt. Because the general environment of earphone is comparatively complicated, so the gas-supply effect can not keep the constant value, and because the shutoff magnetic path of atmospheric pressure separation can be because atmospheric pressure is unstable, slide along the inner chamber of earphone frame under the pulling force effect of atmospheric pressure and spring, the shutoff magnetic path is at the in-process of sliding, through the irregular slip of the inner chamber of guide slide rail of the corresponding massage depression bar of magnetic force control, massage the depression bar and relax user's head through sliding friction force this moment, the same reason, the vice massage group of cooperation both sides can make the earphone frame carry out whole massage to user's head at the during operation. The earphone frame of the device can clamp the head of a user when the earphone frame is adjusted, then the turbine rotating rods on two sides play a drainage role, and because the inner cavity of the earphone frame has directional airflow with constantly changing strength, the internal massage compression rod and the auxiliary massage set can slide along the head of the user under the action of the airflow, the earphone frame can integrally massage the head of the user during working, the tension emotion of the user is reduced, and the heat dissipation of the head of the user is reduced.

Preferably, the temperature control original piece comprises a counterweight shell, a compression sliding cover is slidably connected at the axis of the inner cavity of the counterweight shell, round-head temperature measuring rods are slidably connected at two sides of the middle of the inner cavity of the counterweight shell, a fixed motor is fixedly connected at the axis of the top of the surface of the compression sliding cover, a rotating strip is fixedly connected at the top end of an output shaft of the fixed motor, butt joint metal rods are fixedly connected at two sides of the bottom of the inner cavity of the counterweight shell, and a drainage tube is fixedly connected at the bottom of the inner cavity of the counterweight shell. When testing the inside actual temperature of cup jointing the earphone, the inside fixed motor of control by temperature change original paper can rotate rotatory strip and rotate, and the both ends of rotatory strip all extrude with the top of butt joint metal stick this moment, because the extrusion effect that rotatory strip received pulls the compression slide cover and upwards slides, makes the actual volume increase of compression slip cover inner chamber, and then in the inner chamber of compression slip cover with the inside gas suction compression slip cover of earphone cover shell through drainage tube and the arm that ventilates, and the in-process of compression slip cover is upwards slided, the button head temperature measuring stick also can get into in the inner chamber of compression slip cover because of extrusion shrink, and then directly survey the gaseous temperature of suction compression slip cover inner chamber.

Preferably, the bottom of the inner cavity of the counterweight shell is fixedly connected with the inner cavity of the ventilation sliding arm through a drainage tube, two ends of the surface of the rotating strip are in sliding connection with the top end of the round-head temperature measuring rod, the surface of the compression sliding cover is in sliding connection with the middle part of the inner cavity of the counterweight shell, and the front end and the rear end of the compression sliding cover are in sliding connection with the top end of the round-head temperature measuring rod. Because cup joint earphone when wearing, can not directly carry out temperature detection to the inside of earphone, the temperature that the user actually felt is measured, and the inside gas of direct cup joint earphone is taken out and can be led to gas to appear cooling problem when the transportation, so set up the control by temperature change original paper in the position nearer to cup joint earphone, guide into the inside of compression sliding closure simultaneously with gas and button head temperature measuring stick through the drainage tube, at the gas quick temperature measuring in the time of about to cool down, and then avoid above-mentioned problem.

Preferably, the bundling ring comprises an adherence ring shell, one side of the adherence ring shell inner cavity, which is far away from the adjusting slide block, is slidably connected with a sleeved sliding shell, an axle center of the sleeved sliding shell inner cavity is slidably connected with a filling insulating shell, one side of the sleeved sliding shell inner cavity, which is close to the sponge partition plate, is uniformly provided with a concave surface shell, the inner cavity of the adherence ring shell is slidably connected with a spring traction rod, and one end of the spring traction rod, which is far away from the adjusting slide block, is fixedly connected with the surface of the sleeved sliding shell. When the inner cavity of the sleeve joint earphone is inflated by the ventilation sliding arm, the sleeve joint sliding shell can slide to one side close to the sponge partition plate along the inner cavity of the wall-attached annular shell due to the blocking stress of the concave surface shell, the spring traction rod is stretched, but the sleeve joint sliding shell slides and misplaces with the surface of the filling insulation shell, so that the air inlet of the ventilation sliding arm is opened, the inner volume element can be cooled due to the heat absorption effect of the filling insulation shell during working due to the isolation effect of the filling insulation shell, and the outer surface of the filling insulation shell can be cooled due to circulated air.

Preferably, one end of the filling insulating shell, which is far away from the sponge partition board, is fixedly connected with the middle part of the inner cavity of the earphone casing, the surface of the sleeving sliding shell is in sliding connection with the inner cavity of the wall-attached annular shell through a spring traction rod, the bottom end of the ventilation sliding arm extends to the inside of the wall-attached annular shell, and one side of the surface of the wall-attached annular shell is fixedly connected with the middle part of the inner cavity of the earphone casing. The connecting element comprises symmetrical filling blocks, the two ends of the inner cavities of the symmetrical filling blocks are fixedly connected with hollow round shells, the top of the hollow round shells is fixedly connected with a penetrating slide cylinder in the inner cavities of the symmetrical filling blocks, the bottom of the inner cavities of the penetrating slide cylinder is slidably connected with a traction bottom cylinder, the bottom of the surface of the traction bottom cylinder is fixedly connected with the bottom of the symmetrical filling blocks through connecting springs, and the top of the inner cavities of the penetrating slide cylinder is fixedly connected with a compression filter plate. When earphone frame is to cup jointing the inner chamber of earphone and aerifing, need use the connection original paper to filter the gas of carrying, reduce the impact force that the air current produced simultaneously, so after the top of air current through symmetrical packing piece, the bottom section of thick bamboo that pulls of below is because the impact of air current is followed the bottom roll-off that runs through smooth section of thick bamboo inner chamber, and then pull the symmetrical packing piece of below and slide down along the top of adjustment slider inner chamber, because the unstable comparatively disorder of air current, so the symmetrical packing piece of below also can carry out the high frequency striking to the symmetrical packing piece of top through the hollow circle shell of both sides under the spring traction effect of pulling the bottom section of thick bamboo, make the compression filter produce the shake effect, reduce the possibility that the compression filter is blocked.

The beneficial effects of the invention are as follows:

the device is repacked to cup jointing the earphone, when using the device to carry out the during operation, cup jointing the earphone and can possess good sound insulation effect, when needing to dispel the heat work, cup jointing the earphone and can be under the extraction effect and the extrusion emission effect of earphone frame, through the flow of accelerating the air current, realize the heat transportation work to user's ear position, and then under the good circumstances of guaranteeing earphone sound insulation condition, increase the radiating effect of earphone.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the earphone frame of the present invention;

fig. 4 is a cross-sectional view of a cup-jointed earphone of the present invention;

FIG. 5 is a schematic view of the structure of the adjusting slider of the present invention;

FIG. 6 is a cross-sectional view of a temperature control element of the present invention;

FIG. 7 is a cross-sectional view of a cluster ring of the present invention;

fig. 8 is a cross-sectional view of a connecting element of the present invention.

In the figure: 1. a earphone frame; 11. externally connected plug-in shell; 12. a turbine turning rod; 13. plugging the magnetic block; 14. guiding the sliding rail; 15. a massage pressure bar; 16. an auxiliary massage group; 2. sleeving an earphone; 21. a sponge partition; 22. a hollow compression ring; 23. a butt-joint shell; 24. a rubber push rod; 25. earphone casing; 3. adjusting the sliding block; 31. a ventilation slide arm; 32. a conductive slider; 33. a hollow slide shell; 34. a threaded push rod; 4. a temperature control element; 41. a weight housing; 42. compressing the sliding cover; 43. a drainage tube; 44. butt joint the metal rod; 45. fixing a motor; 46. rotating the strip; 47. round-head temperature measuring rod; 6. a cluster ring; 61. wall-attached annular shell; 62. filling an insulating shell; 63. sleeving a sliding shell; 64. a concave shell; 65. a spring traction lever; 5. a connecting element; 51. symmetrically filling blocks; 52. a hollow round shell; 53. compressing the filter plate; 54. and (5) pulling the bottom cylinder.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a headset with adjustable ventilation, includes earphone frame 1 and adjustment slider 3, including cup jointing earphone 2, this cup jointing earphone 2's quantity is two, and cup jointing earphone 2's middle part and adjustment slider 3's bottom fixed connection, cup jointing earphone 2 has earphone cover shell 25, one side that earphone cover shell 25 inner chamber kept away from adjustment slider 3 fixedly connected with sponge baffle 21, one side sliding connection on sponge baffle 21 surface has bunching ring 6, one side that earphone cover shell 25 inner chamber is close to adjustment slider 3 is provided with through the socket symmetry and ventilates the arm 31, earphone cover shell 25 inner chamber is close to the axle center department fixedly connected with electrically conductive arm 32 of adjustment slider 3 one side, earphone cover shell 25 inner chamber is kept away from the one end rotation of adjustment slider 3 and is connected with hollow compression ring 22, the both sides symmetry of hollow compression ring 22 inner chamber has been seted up to the mouth that is put through putting on the mouth, the inner chamber of hollow compression ring 22 is through putting on the mouth fixedly connected with butt joint shell 23, the inner chamber of butt joint shell 23 extends to the outside of hollow compression ring 22 through rubber push rod 24;

the temperature control elements 4 are used for performing temperature control detection on the inner cavity sleeved with the earphone 2 on the surface of the adjusting slide block 3, the number of the temperature control elements 4 is two, and the bottom of the surface of the temperature control elements 4 is fixedly connected with the surface of the adjusting slide block 3;

the connecting element 5, the top on this connecting element 5 surface and the one end fixed connection in earphone frame 1 inner chamber, and the other end and the top fixed connection in adjustment slider 3 inner chamber of connecting element 5, the quantity of connecting element 5 is two.

The bottom of adjustment slider 3 inner chamber has evenly seted up the slip grooving, the inner chamber of adjustment slider 3 is through slip grooving sliding connection has hollow smooth shell 33, the quantity of hollow smooth shell 33 is three, and the top of the inner chamber of the smooth arm 31 of ventilating and the inner chamber fixed connection of hollow smooth shell 33, the bottom fixed connection of the bottom of the inner chamber of through-pipe and connection original paper 5 is passed through at the top of hollow smooth shell 33 inner chamber, one side on the hollow smooth shell 33 surface is through the inner chamber fixed connection of connecting spring and adjustment slider 3, the opposite side rotation on hollow smooth shell 33 surface is connected with screw thread push rod 34.

The utility model discloses a earphone frame, including earphone frame 1, turbine, plug and play, the both sides of earphone frame 1 inner chamber all peg graft through the incision and have external plug shell 11, the both sides of external plug shell 11 inner chamber all rotate and are connected with turbine bull stick 12, the both sides at earphone frame 1 inner chamber top all sliding connection has shutoff magnetic path 13, the both sides at earphone frame 1 inner wall top all fixedly connected with guide slide rail 14, the inner chamber sliding connection of guide slide rail 14 has massage depression bar 15, the both sides of earphone frame 1 inner chamber all fixedly connected with pair massage group 16.

The both sides symmetry at earphone frame 1 inner chamber top has been seted up and has been run through the grooving, the quantity of shutoff magnetic path 13 is two, and the inner chamber of shutoff magnetic path 13 passes through connecting spring fixed connection, the surface of shutoff magnetic path 13 is through running through the inner chamber sliding connection of grooving and earphone frame 1, the both ends of turbine bull stick 12 all extend to the outside of external plug 11, the both ends of turbine bull stick 12 all fixedly connected with rotor motor.

The surface of the massage compression bar 15 is in sliding connection with the inner cavity of the guide sliding rail 14 through a metal sliding block, the earphone frame 1 is made of plastic, cross flow ports are uniformly formed at two ends of the inner cavity of the external plug-in shell 11, and the top of the surface of the auxiliary massage set 16 is fixedly connected with the bottom end of the external plug-in shell 11 through an arc-shaped spring belt.

When the device is used, the earphone frame 1 is directly worn on the head of a user, then the adjusting sliding blocks 3 on the two sides are pulled downwards, so that the sleeved earphone 2 can completely cover the ears of the user, at the moment, the user rotates the two ends of the earphone frame 1, and the threaded push rods 34 on the two sides of the adjusting sliding blocks 3 are rotated, so that the sleeved earphone 2 is fixed on the head of the user.

When working, the electric signal is transported to the inside of the earphone shell 25 through the receiver by the conductive sliding arm 32, sound can be heard through the sound tuning effect of the sponge partition plate 21 after the sound amplifying effect of the earphone shell 25, and the ear of a user can be covered by the sleeved earphone 2 completely on the ear of the user, so that the sound insulation effect of the earphone is good, the problem that the ear and the head sweat are caused by wearing the device for a long time is avoided, the ventilation sliding arms 31 positioned at two sides of the inner cavity of the earphone shell 25 extract air flow from the inner cavity of the earphone shell 25 through the bundling ring 6, so that the sleeved earphone 2 sucks air outwards from the position of the ear gap of the user, and the bundling ring 6 has a heat dissipation effect after the guiding effect of the adjusting sliding block 3.

The earphone rack 1 of the device is worn on the head of a user, the turbine rotating rods 12 on two sides rotate in the independent external plug shells 11, external air is pumped into the adjusting sliding blocks 3 on two sides, and the air inlets of the two largest slots at the bottom of the inner cavity of the earphone rack 1 are blocked by the side surfaces of the blocking magnetic blocks 13, so that the blocking magnetic blocks 13 on two sides are pushed away by external air pressure at the moment, the air inlets on two sides of the earphone rack 1 are opened, air flows are guided by the earphone rack 1, and are injected into the sleeved earphone 2 through the ventilation sliding arms 31 to cool the head of the user.

Because the general environment of earphone is comparatively complicated, so the gas transmission effect of turbine bull stick 12 can not keep the fixed value, and because the shutoff magnetic path 13 of atmospheric pressure separation can be because atmospheric pressure is unstable, slide along the inner chamber of earphone frame 1 under the pulling force effect of atmospheric pressure and spring, shutoff magnetic path 13 is at the in-process of sliding, through the corresponding massage depression bar 15 of magnetic force control along the inner chamber irregular slip of guide slide rail 14, massage depression bar 15 is relaxed the user's head through sliding friction force this moment, the same reason, auxiliary massage group 16 of cooperation both sides can make earphone frame 1 carry out whole massage to the user's head at the during operation.

When the whole cup joint earphone 2 is extruded to user's head through screw push rod 34, hollow compression ring 22 can be compressed because of the extrusion effect, and the gas of hollow compression ring 22 inner chamber can add gas to butt joint shell 23 through the spout on both sides this moment, and rubber push rod 24 can outwards extrude the blowout because of the pressure increase of butt joint shell 23 inner chamber this moment, and then makes rubber push rod 24 card at user's ear, prevents to wear the earphone because of the existence of gas port leads to the earphone not hard up.

In embodiment 2, referring to fig. 1 to 8, the present invention provides a technical solution: on the basis of the first embodiment, the temperature control original 4 comprises a weight shell 41, a compression sliding cover 42 is slidably connected at the axis of the inner cavity of the weight shell 41, round-head temperature measuring rods 47 are slidably connected at two sides of the middle of the inner cavity of the weight shell 41, a fixed motor 45 is fixedly connected at the axis of the top of the surface of the compression sliding cover 42, a rotating bar 46 is fixedly connected at the top end of an output shaft of the fixed motor 45, butt joint metal rods 44 are fixedly connected at two sides of the bottom of the inner cavity of the weight shell 41, and a drainage tube 43 is fixedly connected at the bottom of the inner cavity of the weight shell 41.

The bottom of the inner cavity of the counterweight housing 41 is fixedly connected with the inner cavity of the ventilation sliding arm 31 through a drainage tube 43, two ends of the surface of the rotating bar 46 are both in sliding connection with the top end of the round-head temperature measuring rod 47, the surface of the compression sliding cover 42 is in sliding connection with the middle part of the inner cavity of the counterweight housing 41, and the front end and the rear end of the compression sliding cover 42 are both in sliding connection with the top end of the round-head temperature measuring rod 47.

The bundling ring 6 comprises an adherence ring shell 61, one side, far away from the adjusting sliding block 3, of the inner cavity of the adherence ring shell 61 is slidably connected with a sleeving sliding shell 63, an axle center of the inner cavity of the sleeving sliding shell 63 is slidably connected with a filling insulating shell 62, one side, close to the sponge partition plate 21, of the inner cavity of the sleeving sliding shell 63 is uniformly provided with a concave surface shell 64, the inner cavity of the adherence ring shell 61 is slidably connected with a spring traction rod 65, and one end, far away from the adjusting sliding block 3, of the spring traction rod 65 is fixedly connected with the surface of the sleeving sliding shell 63.

The one end that fills insulating shell 62 kept away from sponge baffle 21 is fixed connection with the middle part of earphone cover shell 25 inner chamber, cup joint smooth shell 63's surface and the inner chamber sliding connection of adherence ring shell 61 through spring drawbar 65, the bottom of ventilating smooth arm 31 extends to the inside of adherence ring shell 61, the middle part fixed connection of adherence ring shell 61 surface's one side and earphone cover shell 25 inner chamber.

When testing the internal actual temperature of the sleeve earphone 2, the fixed motor 45 in the temperature control original 4 rotates the rotating bar 46, at this time, both ends of the rotating bar 46 are extruded with the top end of the butt joint metal rod 44, and the compressing sliding cover 42 is pulled to slide upwards due to the extrusion action of the rotating bar 46, so that the actual volume of the inner cavity of the compressing sliding cover 42 is increased, and then the air in the earphone casing 25 is pumped into the inner cavity of the compressing sliding cover 42 through the drainage tube 43 and the ventilation sliding arm 31, and the round-head temperature measuring rod 47 also enters the inner cavity of the compressing sliding cover 42 due to extrusion shrinkage in the process of the upward sliding of the compressing sliding cover 42, so that the temperature of the air pumped into the inner cavity of the compressing sliding cover 42 is directly measured.

When the ventilation slide arm 31 inflates the inner cavity of the cup-joint earphone 2, the cup-joint slide shell 63 slides to one side close to the sponge partition plate 21 along the inner cavity of the wall-attached annular shell 61 due to the blocking stress of the concave shell 64, the spring traction rod 65 is elongated, but the cup-joint slide shell 63 slides and misplaces with the surface of the filling insulation shell 62, so that the air inlet of the ventilation slide arm 31 is opened, the internal volume element is cooled due to the heat absorption effect of the filling insulation shell 62 during operation due to the isolation effect of the filling insulation shell 62, and the outer surface of the filling insulation shell 62 is cooled due to the circulated air.

The connecting element 5 comprises a symmetrical filling block 51, two ends of an inner cavity of the symmetrical filling block 51 are fixedly connected with hollow round shells 52, the inner cavity of the symmetrical filling block 51 is fixedly connected with a penetrating slide cylinder, the bottom of the penetrating slide cylinder inner cavity is slidably connected with a traction bottom cylinder 54, the bottom of the surface of the traction bottom cylinder 54 is fixedly connected with the bottom of the symmetrical filling block 51 through a connecting spring, and the top of the penetrating slide cylinder inner cavity is fixedly connected with a compression filter plate 53.

When the earphone frame 1 inflates the inner cavity of the sleeve earphone 2, the connection element 5 is required to be used for filtering the conveyed gas, and meanwhile, the impact force generated by the gas flow is reduced, so after the gas flow passes through the top of the symmetrical filling block 51, the lower traction bottom cylinder 54 slides out from the bottom penetrating through the inner cavity of the sliding cylinder due to the impact of the gas flow, and then the symmetrical filling block 51 below is pulled to slide down along the top of the inner cavity of the adjusting sliding block 3, and the gas flow is unstable and disordered, so that the symmetrical filling block 51 below can also impact the symmetrical filling block 51 above under the action of the traction of the spring of the traction bottom cylinder 54 through the hollow round shells 52 at two sides.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (4)

1. A ventilation adjustable headset, characterized by: the earphone comprises an earphone frame, an adjusting slide block and a sleeved earphone, wherein an inner cavity of the sleeved earphone is connected with the adjusting slide block, the sleeved earphone comprises an earphone shell, a sponge baffle is arranged on one side of the earphone shell away from the adjusting slide block, a bundling ring is arranged on one side of the sponge baffle in a sliding manner, and a ventilation slide arm and a conductive slide arm are arranged on one side of the earphone shell close to the adjusting slide block; the earphone shell is provided with a hollow compression ring in a rotating way at one side far away from the adjusting slide block, the inner cavity of the hollow compression ring is provided with an opposite port, the hollow compression ring is provided with an opposite shell through the opposite port, and the inner cavity of the opposite shell extends to the outer part of the hollow compression ring through a rubber push rod;

the temperature control device comprises an adjusting slide block, and is characterized by further comprising two temperature control elements, wherein the temperature control elements are used for performing temperature control detection on the inner cavity sleeved with the earphone on the surface of the adjusting slide block, and the bottom of the surface of the temperature control elements is fixedly connected with the surface of the adjusting slide block;

the earphone comprises an earphone frame, an adjusting slide block and a connecting element, wherein the top of the surface of the connecting element is fixedly connected with one end of the inner cavity of the earphone frame, the other end of the connecting element is fixedly connected with the top of the inner cavity of the adjusting slide block, and the number of the connecting elements is two;

the bottom of the inner cavity of the adjusting slide block is uniformly provided with sliding slots, the inner cavity of the adjusting slide block is slidably connected with hollow slide shells through the sliding slots, the number of the hollow slide shells is three, the top of the inner cavity of the ventilation slide arm is fixedly connected with the inner cavity of the hollow slide shell, the top of the inner cavity of the hollow slide shell is fixedly connected with the bottom of the inner cavity of the connecting element through a through pipe, one side of the surface of the hollow slide shell is fixedly connected with the inner cavity of the adjusting slide block through a connecting spring, and the other side of the surface of the hollow slide shell is rotationally connected with a threaded push rod;

the temperature control original piece comprises a balance weight shell, wherein a compression sliding cover is slidably connected at the axis of the inner cavity of the balance weight shell, round-head temperature measuring rods are slidably connected at two sides of the middle part of the inner cavity of the balance weight shell, a fixed motor is fixedly connected at the axis of the top of the surface of the compression sliding cover, a rotating strip is fixedly connected at the top end of an output shaft of the fixed motor, butt joint metal rods are fixedly connected at two sides of the bottom of the inner cavity of the balance weight shell, and a drainage tube is fixedly connected at the bottom of the inner cavity of the balance weight shell;

the bottom of the inner cavity of the counterweight shell is fixedly connected with the inner cavity of the ventilation sliding arm through a drainage tube, two ends of the surface of the rotating strip are both in sliding connection with the top end of the round-head temperature measuring rod, the surface of the compression sliding cover is in sliding connection with the middle part of the inner cavity of the counterweight shell, and the front end and the rear end of the compression sliding cover are both in sliding connection with the top end of the round-head temperature measuring rod;

the bundling ring comprises an adherence ring shell, a sleeving sliding shell is slidably connected to one side, far away from the adjusting sliding block, of an inner cavity of the sleeving sliding shell, a filling insulating shell is slidably connected to an axle center of the inner cavity of the sleeving sliding shell, a concave surface shell is uniformly arranged on one side, close to the sponge partition plate, of the inner cavity of the sleeving sliding shell, a spring traction rod is slidably connected to the inner cavity of the adherence ring shell, and one end, far away from the adjusting sliding block, of the spring traction rod is fixedly connected with the surface of the sleeving sliding shell;

the one end that fills insulating shell and keep away from the sponge baffle is fixed connection with the middle part of earphone cover shell inner chamber, cup joint the inner chamber sliding connection of smooth shell's surface and wall pasting ring shell through the spring traction lever, the bottom of ventilating the smooth arm extends to the inside of wall pasting ring shell, the middle part fixed connection of one side and earphone cover shell inner chamber of wall pasting ring shell surface.

2. A ventilation adjustable headphone according to claim 1, wherein: the utility model discloses a earphone frame, including earphone frame inner chamber, turbine bull stick, stopper magnet, guide slide rail, massage depression bar, auxiliary massage group, earphone frame inner chamber, outer plug shell, turbine bull stick, earphone frame inner chamber, stopper magnet, earphone frame inner chamber's both sides all have external plug shell through the incision grafting, the both sides of external plug shell inner chamber all rotate and are connected with the turbine bull stick, the both sides of earphone frame inner chamber top all sliding connection has the shutoff magnet, the both sides of earphone frame inner wall top all fixedly connected with guide slide rail, the inner chamber sliding connection of guide slide rail has the massage depression bar, the both sides of earphone frame inner chamber all fixedly connected with auxiliary massage group.

3. A ventilation adjustable headphone according to claim 2, characterized in that: the utility model discloses a earphone frame, including earphone frame, plug magnetic path, turbine bull stick, connecting spring, cutting groove has been seted up to the bilateral symmetry at earphone frame inner chamber top, the quantity of shutoff magnetic path is two, and the inner chamber of shutoff magnetic path passes through connecting spring fixed connection, the surface of shutoff magnetic path is through the inner chamber sliding connection who runs through cutting groove and earphone frame, the outside of external plug shell is all extended to the both ends of turbine bull stick, the equal fixedly connected with rotor motor in both ends of turbine bull stick.

4. A ventilation adjustable headphone according to claim 3, characterized in that: the surface of the massage compression bar is in sliding connection with the inner cavity of the guide sliding rail through a metal sliding block, the earphone frame is made of plastics, intersecting ports are uniformly formed at two ends of the inner cavity of the external plug-in shell, and the top of the surface of the auxiliary massage group is fixedly connected with the bottom end of the external plug-in shell through an arc-shaped spring belt.