CN217935903U - Earcap and earphone - Google Patents

Abstract

The application discloses an ear cap and an earphone, wherein the ear cap is applied to the earphone, the earphone is provided with an earphone body, the earphone body is provided with a sound outlet pipe, the sound outlet pipe is provided with a sound channel, and the end part of the sound outlet pipe is provided with a sound outlet hole communicated with the sound channel; the earcap comprises a main body and a noise reduction part; the main body is provided with an accommodating cavity and a sound outlet channel communicated with the accommodating cavity, and the sound outlet channel is communicated with a sound outlet hole of the sound outlet pipe; at least part of the noise reduction part is positioned in the accommodating cavity, the outer diameter of the noise reduction part is in a reduction arrangement along the sound emitting direction, and a noise reduction cavity is constructed between the outer side wall of the noise reduction part and the inner side wall of the main body. The earcap adopts the main part to combine the double seal structure of the noise reduction part, the thickness of promotion earcap that can be very big for the earcap has good noise reduction performance, can prevent effectively that external noise from penetrating the earcap and getting into the duct.

Description

Earcap and earphone

Technical Field

The application relates to the technical field of earphones, in particular to an earcap and an earphone.

Background

Earphones are mainly divided into two types, one is an in-ear earphone, and the other is a shell earphone. An earphone body of an in-ear earphone is generally sleeved with an earcap. In-ear headphones generally use a sealing method to isolate the noise outside, and after the earcap of the in-ear headphone is inserted into the ear canal of a user, a closed cavity is formed between the earcap and the ear canal.

However, earcaps are generally thin and external noise can easily penetrate the earcap and enter the human ear.

SUMMERY OF THE UTILITY MODEL

The application provides an earcap and an earphone, which can effectively prevent external noise from penetrating the earcap to enter an auditory canal.

In a first aspect, the present application provides an earcap for an earphone, where the earphone has an earphone body, the earphone body has a sound outlet tube, the sound outlet tube has a sound channel, and a sound outlet hole communicated with the sound channel is formed in an end of the sound outlet tube; the ear cap comprises: the main body is provided with an accommodating cavity and a sound outlet channel communicated with the accommodating cavity, and the sound outlet channel is used for being communicated with the sound outlet hole of the sound outlet pipe; the noise reduction part is at least partially positioned in the accommodating cavity, the outer diameter of the noise reduction part is in a reducing arrangement along the sound emitting direction, and a noise reduction cavity is constructed between the outer side wall of the noise reduction part and the inner side wall of the main body.

In a second aspect, the present application further provides an earphone, including an earphone body and an earcap; the earphone body is provided with a sound outlet pipe, the sound outlet pipe is provided with a sound channel, and the end part of the sound outlet pipe is provided with a sound outlet hole communicated with the sound channel; the sound outlet pipe extends into the accommodating cavity, the sound outlet hole is communicated with the sound outlet channel, and the noise reduction part is arranged around the periphery of the sound outlet pipe.

The beneficial effect of this application does: the earcap adopts the main part to combine the dual seal structure of the portion of making an uproar of falling, the thickness of promotion earcap that can be very big, and fall the interval that the cavity of making an uproar can increase the main part and the portion of making an uproar of falling, further promote the thickness of earcap, outside noise need pass the portion of making an uproar of falling, it just can get into people's ear to fall the cavity and the main part of making an uproar, when the relative inclosed cavity of making an uproar of falling of noise entering simultaneously, the damping that can be fallen the cavity of making an uproar progressively absorbs, distortion and decay, make the earcap have good performance of making an uproar of falling, can prevent effectively that outside noise from penetrating the earcap from getting into the duct.

Drawings

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

Fig. 1 is a schematic view of an earcap mounted on a headset body according to an embodiment of the present application;

FIG. 2 is a schematic view of an embodiment of an earcap of the present application;

FIG. 3 is a schematic view of an embodiment of an earcap of the present application;

FIG. 4 is a schematic view of an embodiment of an earcap of the present application;

fig. 5 is a schematic structural diagram of an earphone according to an embodiment of the present application.

Reference numerals:

10. an earphone body; 11. a sound outlet pipe; 111. a sound channel; 112. a sound outlet hole; 113. a pressure relief vent; 114. a first card slot; 20. an ear cap; 21. a main body; 211. an accommodating chamber; 212. a sound outlet channel; 213. a contact portion; 214. a sound output part; 22. a noise reduction section; 221. a first noise reduction section; 222. a second noise reduction section; 23. an installation part; 30. a noise reduction cavity; 40. a pressure relief cavity; 41. a pressure relief port; 50. a support portion.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The application provides an earcap and an earphone, which aim to solve the problem that the earcap is generally thin and external noise easily penetrates through the earcap to enter human ears.

Specifically, as shown in fig. 1 and 2, the earcap 20 is applied to a headphone, the headphone has a headphone body 10, the headphone body 10 has a sound outlet pipe 11, the sound outlet pipe 11 has a sound passage 111, and an end of the sound outlet pipe 11 is provided with a sound outlet hole 112 communicating with the sound passage 111; the ear cap 20 comprises a body 21, the body 21 having a receiving cavity 211 and a sound outlet channel 212 communicating with the receiving cavity 211, the sound outlet channel 212 being adapted to communicate with the sound outlet opening 112 of the sound outlet tube 11.

It should be noted that the earphone can be an in-ear wired earphone or a wireless earphone, and the earphone body 10 can be in communication connection with a mobile phone, a notebook computer, a desktop computer, an MP3, a wearable audio device, and other playback devices. The sound outlet pipe 11 is used for being inserted into an ear canal of a user, when the sound outlet pipe 11 is inserted into the ear canal, the sound outlet hole 112 is located in the ear canal, and sound played by the playing device can be transmitted to the ear canal through the sound channel 111 and the sound outlet hole 112 in sequence. The specific working principle of the earphone is disclosed in the related art for a long time, and the application is not described in a detail. The earcap 20 can prevent the ear canal from being damaged due to direct contact with the sound outlet tube 11, and meanwhile, the earcap 20 can bring good wearing comfort to people. The sound outlet passage 212 of the main body 21 is used to communicate with the sound outlet hole 112 of the earphone body 10, when the sound outlet tube 11 is inserted into the ear canal, the outer side of the main body 21 contacts with the ear canal to form a closed cavity, and the sound coming out from the sound outlet hole 112 can be transmitted to the ear canal through the sound outlet passage 212.

More specifically, the earcap 20 further includes a noise reduction portion 22, at least a portion of the noise reduction portion 22 is located in the accommodating cavity 211, an outer diameter of the noise reduction portion 22 is reduced along the sound emitting direction, and a noise reduction cavity 30 is configured between an outer sidewall of the noise reduction portion 22 and an inner sidewall of the main body 21.

It should be noted that, in the present application, the earcap 20 adopts a double-sealing structure in which the main body 21 is combined with the noise reduction portion 22, the thickness of the earcap 20 can be greatly increased, and the noise reduction cavity 30 can further increase the thickness of the earcap 20, external noise needs to pass through the noise reduction portion 22, the noise reduction cavity 30 and the main body 21 can enter human ears, and meanwhile, when noise enters the relatively airtight noise reduction cavity 30, the noise can be gradually absorbed, distorted and attenuated by the damping of the noise reduction cavity 30, so that the earcap 20 has good noise reduction performance, and external noise can be effectively prevented from penetrating through the earcap 20 and entering the ear canal.

With continued reference to fig. 1 and 2, the main body 21 includes a contact portion 213 and a sound emitting portion 214; the contact portion 213 has a housing cavity 211; the sound emitting portion 214 is connected to the contact portion 213, and the sound emitting portion 214 has a sound emitting passage 212.

One end of the noise reduction part 22 close to the sound outlet channel is connected with the sound outlet part 214, and the noise reduction cavity 30 is formed by the noise reduction part 22, the contact part 213 and the sound outlet part 214 which are enclosed together, so that no air leakage gap exists between the noise reduction part 22 and the sound outlet part 214, and the sealing performance of the noise reduction cavity 30 can be improved.

With continued reference to fig. 1 and 2, in some embodiments of the present application, the noise reducer 22 includes a first noise reduction segment 221 and a second noise reduction segment 222; the first noise reduction section 221 is connected to the sound emitting portion 214, the second noise reduction section 222 is located on a side of the first noise reduction section 221 away from the sound emitting portion 214 and connected to the first noise reduction section 221, and the second noise reduction section 222 and the first noise reduction section 221 are arranged at an included angle. It should be noted that, the outer diameter of the noise reduction portion 22 is in the decreasing setting along the sound emitting direction, so that the second noise reduction segment 222 is outwards unfolded relative to the first noise reduction segment 221, and meanwhile, the second noise reduction segment 222 and the first noise reduction segment 221 are in the included angle setting, so that the joint of the second noise reduction segment 222 and the first noise reduction segment 221 can be inwards recessed, so as to increase the volume of the noise reduction cavity 30, improve the noise shielding effect, and make the diameter of the first noise reduction segment 221 smaller, so as to improve the ear comfort of the earphone, and meanwhile, when the second noise reduction segment 222 is far away from the end of the first noise reduction segment 221 and extends out of the accommodating cavity 211, the main body 21 can better support the second noise reduction segment 222, so that the second noise reduction segment 222 is not easy to deform.

Furthermore, the outer side surface of the second noise reduction section 222 and the outer side surface of the first noise reduction section 221 form an included angle of 150 degrees to 160 degrees. The outer side surface of the second noise reduction section 222 and the outer side surface of the first noise reduction section 221 form an included angle of 150 degrees, 155 degrees, 160 degrees, and the like. It can be understood that, the larger the included angle formed between the outer side surface of the second noise reduction section 222 and the outer side surface of the first noise reduction section 221 is, the larger the degree of outward expansion of the outer side surface of the second noise reduction section 222 relative to the outer side surface of the first noise reduction section 221 is, and when the included angle formed between the outer side surface of the second noise reduction section 222 and the outer side surface of the first noise reduction section 221 is too large, the main body 21 may be in too close contact with the ear canal to cause discomfort to the user, and when the included angle formed between the outer side surface of the second noise reduction section 222 and the outer side surface of the first noise reduction section 221 is too small, the connection between the second noise reduction section 222 and the main body 21 may be not tight, which may easily cause the sealing failure of the noise reduction cavity 30.

In an embodiment of the present application, the noise reducing portion 22 may be integrally formed with the main body 21 to enhance the connection strength between the noise reducing portion 22 and the main body 21, so as to prevent the noise reducing portion 22 from being separated from the main body 21.

With continued reference to fig. 1 and 2, in some embodiments of the present application, the junction of contact 213 and sound emitting portion 214 is inwardly concave; it should be noted that, referring to fig. 2, when the sound outlet tube 11 with the ear cap 20 mounted thereon is inserted into the ear canal, the sound outlet portion 214 is located at the front end of the ear cap 20, and therefore, the sound outlet portion 214 is located at a deeper position in the ear canal, in the present application, the contact portion 213 is used to ensure the sealing performance when the sound outlet tube 11 is inserted into the ear canal, and on the premise of not affecting the normal use of the ear cap 20, the connection portion between the contact portion 213 and the sound outlet portion 214 is designed to be a reduced mouth, so as to form a structure similar to a nipple shape, which can reduce the contact area and the extrusion amount between the sound outlet portion 214 and the ear canal, reduce the invasion feeling of the ear cap 20 to the ear canal, and improve the comfort of entering the ear.

It should be noted that, referring to fig. 2, the curvature of the outer contour of the longitudinal section of the contact portion 213 is greater than the curvature of the outer contour of the longitudinal section of the sound emitting portion 214, that is, the outer side surface of the sound emitting portion 214 is curved to a greater extent in the sound emitting direction than the outer side surface of the sound emitting portion 214, so that the outer diameter of the contact portion 213 is reduced to a greater extent in the sound emitting direction than the outer diameter of the sound emitting portion 214, and an inwardly concave structure can be formed at the connection between the contact portion 213 and the sound emitting portion 214.

Specifically, the outer diameter of the sound emitting portion 214 is arranged to decrease in the direction from the contact portion 213 to the sound emitting portion 214, and it can be understood that the smaller the outer diameter of the region of the sound emitting portion 214 that is farther from the contact portion 213, the smaller the outer diameter of the connection portion between the sound emitting portion 214 and the contact portion 213 is, the maximum outer diameter of the sound emitting portion 214, so that when the sound emitting tube 11 with the earcap 20 mounted thereon is inserted into the ear canal, the smaller the outer diameter of the sound emitting portion 214 that is inserted deeper into the ear canal is, which can further reduce the intrusion feeling of the earcap 20 into the ear canal, and improve the comfort of entering the ear.

It should be noted that, the outer side surface of the sound emitting portion 214 may be a curved surface or an inclined plane, when the outer side surface of the sound emitting portion 214 is an inclined plane, an included angle formed by the outer side surface of the sound emitting portion 214 and the sound emitting direction of the ear cap 20 may be 15 degrees to 20 degrees, and an included angle formed by the outer side surface of the sound emitting portion 214 and the sound emitting direction of the ear cap 20 may be 15 degrees, 17 degrees, 18 degrees, 20 degrees, or the like; when the included angle formed by the outer side surface of the sound emitting part 214 and the sound emitting direction of the ear cap 20 is too small, the maximum outer diameter of the sound emitting part 214 is larger, so that the ear canal is strongly extruded; when the angle formed by the outer surface of the sound emitting portion 214 and the sound emitting direction of the earcap 20 is too large, the maximum outer diameter of the sound emitting portion 214 is too small, which results in the size of the sound outlet 212 becoming small, and the sound outlet 212 is easily closed when the sound emitting portion 214 is squeezed.

In an embodiment of the present application, the outer diameter of the contact portion 213 decreases along the direction from the contact portion 213 to the sound emitting portion 214, that is, the outer diameter of the region of the contact portion 213 closer to the sound emitting portion 214 is smaller, so as to reduce the contact area and the amount of pressure between the contact portion 213 and the ear canal, reduce the intrusion feeling of the earcap 20 to the ear canal, and improve the comfort in the ear, at this time, the outer diameter of the connection portion of the contact portion 213 and the sound emitting portion 214 is the minimum outer diameter of the contact portion 213, and the outer side surface of the contact portion 213 may be a curved surface or an inclined plane.

Of course, the outer diameters of the contact portions 213 may be the same along the direction of the contact portions 213 towards the sound emitting portion 214, so as to improve the sealing performance of the earcap 20 in the ear canal.

With continued reference to fig. 2, in some embodiments of the present application, the outer diameter of the connection between the contact portion 213 and the sound emitting portion 214 is d1, and d1 is 6 mm to 7 mm. d1 may be 6 mm, 6.5 mm, 7 mm, or the like. d1 is too large, so that the auditory meatus is strongly extruded, and discomfort of a user is caused; when d1 is too small, the size of the sound outlet 212 becomes small, and the sound outlet 212 is easily closed when the sound outlet 214 is pressed.

With continued reference to fig. 2, in some embodiments of the present application, contact portion 213 is in smooth-transition connection with sound emitting portion 214.

With continued reference to fig. 2, in some embodiments of the present application, the earcap 20 further includes a mounting portion 23, the mounting portion 23 is located in the accommodating cavity 211, the mounting portion 23 is connected to an end of the sound emitting portion 214 close to the noise reducing portion 22, and the noise reducing portion 22 is disposed around a peripheral side of the mounting portion 23. The ear cap 20 may be attached to the sound outlet tube 11 by the attachment portion 23.

Further, the hardness of the material of the mounting portion 23 is greater than the hardness of the material of the main body 21. It should be noted that, when the sound outlet tube 11 with the ear cap 20 is inserted into the ear canal, the main body 21 is in contact with the ear canal, the material for preparing the main body 21 is soft, so that the discomfort of the ear canal can be reduced, the main body 21 can be prevented from damaging the ear canal, the comfort of entering the ear can be improved, and meanwhile, the hardness of the mounting part 23 is high, so that the connection strength between the mounting part 23 and the sound outlet tube 11 can be improved, so that the ear cap 20 is not easy to drop into the ear canal when the sound outlet tube 11 is inserted into the ear canal; the material for the mounting portion 23 and the material for the main body 21 may be both silica gel, the material for the mounting portion 23 has a hardness of 60A or more, and the material for the main body 21 has a hardness of 20A to 30A.

As shown in fig. 2, in an embodiment of the present application, an end of the noise reducing portion 22 away from the sound outlet channel 212 extends out of the accommodating cavity 211, and an end of the main body 21 away from the sound outlet channel 212 abuts against an outer sidewall of the noise reducing portion 22. The end of the main body 21 far away from the sound outlet channel 212 can be used for supporting the noise reduction part 22, so that the noise reduction part 22 is not easy to deform, meanwhile, the end of the main body 21 far away from the sound outlet channel 212 is in close contact with the outer side wall of the noise reduction part 22, so that the sealing performance of the noise reduction cavity 30 is ensured, and the noise reduction part 22 is convenient to assemble and disassemble when the noise reduction part 22 is detachable; the length of the noise reduction part 22 extending out of the accommodating cavity 211 at the end away from the sound outlet channel 212 can be selected according to actual requirements.

As shown in fig. 3, the noise reduction part 22 may also be located in the accommodating cavity 211, and one end of the noise reduction part 22 away from the sound outlet channel 212 abuts against an inner side wall of the main body 21, so that the ear cap 20 is prevented from being squeezed during the use of the earphone body 10, and the edge of the noise reduction part 22 is lifted to cause the sealing failure of the noise reduction cavity 30.

It should be noted that fig. 2 and 3 only illustrate the case where the connection between the contact portion 213 and the sound emitting portion 214 is designed as a reduced opening, and as shown in fig. 4, the connection between the contact portion 213 and the sound emitting portion 214 may be outwardly convex.

Based on the above ear cap 20, the present application further provides an earphone, as shown in fig. 5, the earphone includes an earphone body 10 and the ear cap 20 in any of the above embodiments, the earphone body 10 has a sound outlet pipe 11, the sound outlet pipe 11 has a sound channel 111, and an end of the sound outlet pipe 11 is provided with a sound outlet hole 112 communicating with the sound channel 111.

Wherein, the sound outlet pipe 11 extends into the accommodating cavity 211, the sound outlet hole 112 is communicated with the sound outlet channel 212, and the noise reduction part 22 is arranged around the periphery of the sound outlet pipe 11.

Specifically, as shown with continued reference to fig. 5, the side of the sound outlet tube 11 may be provided with a pressure relief hole 113 communicating with the sound passage 111. It can be understood that, when the sound outlet tube 11 is inserted into the ear canal, and the outside of the main body 21 contacts with the ear canal, a closed cavity is formed between the ear cap 20 and the ear canal to isolate the noise in a sealing manner, however, when the sound outlet tube 11 is inserted into the ear canal, the problem that the sound quality is damaged due to uneven sound pressure inside and outside the sound channel 111 is also generated when the hearing environment is sealed, and the pressure release hole 113 can communicate the sound channel 111 with the atmosphere, so that the sound pressure inside and outside the sound channel 111 can be kept consistent.

In an embodiment of the present application, a pressure relief cavity 40 is formed between the noise reduction part 22 and the sound outlet tube 11, the pressure relief cavity 40 is communicated with the sound channel 111 through a pressure relief hole 113, and the pressure relief cavity 40 has a pressure relief opening 41 (as shown in fig. 1). It should be noted that the pressure release cavity 40 is always communicated with the atmosphere through the pressure release opening 41, and when the sound outlet tube 11 is inserted into the ear canal, the sound channel 111 can be communicated with the atmosphere through the pressure release hole 113 and the pressure release cavity 40, so that the sound pressure inside and outside the sound channel 111 can be kept consistent.

Further, a support portion 50 may be disposed between the noise reduction portion 22 and the sound outlet tube 11, and the support portion 50 is located in the pressure relief cavity 40; by supporting the noise reducing part 22 and the sound outlet tube 11 with the supporting part 50 to maintain the existence of the pressure release chamber 40, it is possible to prevent the pressure release chamber 40 from being closed due to the main body 21 and the noise reducing part 22 being pressed when the sound outlet tube 11 is inserted into the ear canal.

A plurality of supporting portions 50 may be provided, the supporting portions 50 may be arranged around the circumference of the sound tube 11 at intervals, and a pressure relief opening 41 (as shown in fig. 1) is formed between two adjacent supporting portions 50; by providing the plurality of support portions 50 on the circumferential side of the sound outlet tube 11, it is possible to further avoid the pressure release chamber 40 from being closed due to the main body 21 and the noise reduction portion 22 being pressed when the sound outlet tube 11 is inserted into the ear canal; further, the plurality of supporting portions 50 may be evenly arranged around the peripheral side of the sound tube 11.

With continued reference to fig. 5, in some embodiments of the present application, the outer side of the sound outlet tube 11 has a first locking groove 114, and the mounting portion 23 is locked in the first locking groove 114. The ear cap 20 can be connected to the sound outlet tube 11 by the engagement of the mounting portion 23 and the first engaging groove 114, so that the ear cap 20 is prevented from being separated from the sound outlet tube 11.

Further, the hardness of the material of the mounting portion 23 is greater than the hardness of the material of the main body 21. It should be noted that, when the sound outlet tube 11 is inserted into the ear canal, the main body 21 is in contact with the ear canal, the preparation material of the main body 21 is soft, so that discomfort of the ear canal can be reduced, the main body 21 is prevented from damaging the ear canal, and the comfort of entering the ear is improved, meanwhile, the hardness of the mounting part 23 is high, so that the connection strength between the mounting part 23 and the sound outlet tube 11 can be improved, and the main body 21 is not easy to drop into the ear canal when the sound outlet tube 11 is inserted into the ear canal; the material for the mounting portion 23 and the material for the main body 21 may be both silica gel, the material for the mounting portion 23 has a hardness of 60A or more, and the material for the main body 21 has a hardness of 20A to 30A.

In an embodiment of the present application, the noise reduction portion 22 may be sleeved on the mounting portion 23 to maintain the existence of the pressure relief cavity 40 by using the mounting portion 23.

In some embodiments of the present application, one end of the noise reduction portion 22 close to the sound outlet channel 212 may also be disposed at an interval with the main body 21, and the noise reduction cavity 30 is defined by the noise reduction portion 22, the main body 21, and the sound outlet pipe 11.

The present application is intended to cover various modifications, equivalent arrangements, and adaptations of the present application without departing from the spirit and scope of the present application.

Claims (14)

1. An earcap is characterized by being applied to an earphone, wherein the earphone is provided with an earphone body, the earphone body is provided with a sound outlet pipe, the sound outlet pipe is provided with a sound channel, and the end part of the sound outlet pipe is provided with a sound outlet hole communicated with the sound channel; the ear cap comprises:

the main body is provided with an accommodating cavity and a sound outlet channel communicated with the accommodating cavity, and the sound outlet channel is communicated with the sound outlet hole of the sound outlet pipe;

the noise reduction part is at least partially positioned in the accommodating cavity, the outer diameter of the noise reduction part is in a reducing arrangement along the sound emitting direction, and a noise reduction cavity is constructed between the outer side wall of the noise reduction part and the inner side wall of the main body.

2. The earcap of claim 1, wherein an end of the noise reduction portion remote from the sound outlet channel abuts an inner sidewall of the main body; or the like, or, alternatively,

the noise reduction part is kept away from one end of the sound outlet channel extends out of the accommodating cavity, and the main body is kept away from one end of the sound outlet channel and abutted against the outer side wall of the noise reduction part.

3. The earcap of claim 1, wherein the body comprises:

a contact portion having the accommodation chamber;

a sound emitting portion connected to the contact portion, the sound emitting portion having the sound emitting channel;

one end of the noise reduction part close to the sound outlet channel is connected with the sound outlet part, and the noise reduction cavity is formed by the noise reduction part, the contact part and the sound outlet part in a surrounding mode.

4. The earcap of claim 3, wherein the noise reduction portion comprises:

a first noise reduction section connected to the sound emitting portion;

and the second noise reduction section is positioned on one side, away from the sound outlet part, of the first noise reduction section and is connected with the first noise reduction section, and the second noise reduction section and the first noise reduction section are arranged at an included angle.

5. The earcap of claim 4 wherein the outer side surface of the second noise reduction segment forms an angle of 150-160 degrees with the outer side surface of the first noise reduction segment.

6. The earcap according to claim 3, wherein the connection of said contact portion and said sound emitting portion is inwardly concave.

7. The earcap of claim 3 wherein said noise reduction portion is integrally formed with said body.

8. The ear cap according to claim 3, characterized in that it further comprises:

the installation department is located hold the intracavity, the installation department connect in sound production portion is close to the one end of noise reduction portion, noise reduction portion centers on the week side setting of installation department.

9. The earcap of claim 8 wherein the mounting portion is made of a material having a hardness greater than the material of the body.

10. An earphone, comprising an earphone body and an earcap according to any one of claims 1 to 7; the earphone body is provided with a sound outlet pipe, the sound outlet pipe is provided with a sound channel, and the end part of the sound outlet pipe is provided with a sound outlet hole communicated with the sound channel;

the sound outlet pipe extends into the accommodating cavity, the sound outlet hole is communicated with the sound outlet channel, and the noise reduction part is arranged around the periphery of the sound outlet pipe.

11. The earphone according to claim 10, wherein a pressure relief hole communicating with the sound channel is formed at a side portion of the sound outlet tube, a pressure relief cavity is formed between the noise reduction portion and the sound outlet tube, the pressure relief cavity communicates with the sound channel through the pressure relief hole, and the pressure relief cavity has a pressure relief opening.

12. The earphone according to claim 11, wherein a support portion is provided between the noise reduction portion and the sound outlet tube, the support portion being located in the pressure relief chamber.

13. The earphone according to claim 12, wherein the supporting portion is provided in plural, and the plural supporting portions are arranged at intervals around the circumference of the sound outlet tube, and the pressure relief port is formed between two adjacent supporting portions.

14. The headset of claim 10, wherein the earcap further comprises:

the mounting part is positioned in the accommodating cavity, the mounting part is connected to one end, close to the noise reduction part, of the sound emitting part, and the noise reduction part is arranged around the peripheral side of the mounting part;

the outer side of the sound outlet pipe is provided with a second clamping groove, and the mounting part is clamped in the second clamping groove.

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