CN218850942U - Earphone ear wing and earphone assembly - Google Patents

Abstract

The utility model provides an earphone ear wing, which comprises a connecting part and an ear-in clamping part connected with the connecting part; the ear-in clamping part comprises a fixing part and a first supporting leg, the fixing part is positioned on one side of the connecting part and is spaced from the connecting part, one end of the first supporting leg is connected with the fixing part, and the other end of the first supporting leg is connected with the connecting part; the two ends of the fixing part are respectively a second end close to one end of the helix and a first end at the other end, and the distance from the joint position of the first supporting leg and the fixing part to the second end is not less than the distance from the first supporting leg to the first end. The earphone ear wing is high in wearing stability, good in universality and capable of adapting to the use of most users. The utility model also provides an earphone subassembly.

Description

Earphone ear wing and earphone assembly

Technical Field

The utility model belongs to the technical field of the earphone accessory technique and specifically relates to an earphone ear wing and earphone subassembly are related to.

Background

The traditional in-ear earphone is easy to fall off from the ear of a user in the use process, and in order to meet the use requirements of the user in the running, body-building and other sports processes or other occasions, the ear wings (ear supports) are arranged on a plurality of earphones at present so as to assist and fix the earphones on the ears of the user when the user wears the earphones.

Most of the ear wings on the market are similar to the ear wings disclosed in patent CN214675585U, and the ear wings comprise an annular body portion and a wing portion extending outwardly from the annular body portion, and the tail portions of the wing portions are engaged with the auricles of the human body, so as to fix the ear wings on the auricles of the human body.

However, since the wing-shaped portion extends and protrudes from the annular body portion, and one end of the wing-shaped portion is directly connected to the annular body portion, the wing-shaped portion can only be engaged with the auricle of the human body through the other end (tail) of the wing-shaped portion away from the annular body portion (while the end of the wing-shaped portion close to the annular body portion cannot be engaged with the auricle), and the stability is not high during use, and the situation that the ear wings fall off when a user is strenuously exercising still occurs; moreover, since the sizes of the ears of different users are different, and the size of the ear wings is fixed and the size adjusting function is lacked (the ear wings are generally made of hard plastic, silica gel and the like in order to prevent the ear wings from falling off due to deformation when being worn), the universality of the ear wings is poor, most sellers can configure the ear wings with different sizes for the users to select, and the users need to frequently try to find the ear wings suitable for the sizes of the users, so that the use experience of the users is reduced, and resources are wasted.

In view of this, it is necessary to design an earphone ear-wing and an earphone assembly with high stability and good versatility.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an earphone ear wing and earphone subassembly not only wears stability height, and the commonality is good moreover, can the use of most users of adaptation.

The utility model provides an earphone ear wing, which comprises a connecting part and an ear-in clamping part connected with the connecting part; the ear-in clamping part comprises a fixing part and a first supporting leg, the fixing part is positioned on one side of the connecting part and is spaced from the connecting part, one end of the first supporting leg is connected with the fixing part, and the other end of the first supporting leg is connected with the connecting part; the two ends of the fixing part are respectively a second end close to one end of the helix leg and a first end at the other end, and the distance from the connecting position of the first supporting leg and the fixing part to the second end is not less than the distance from the connecting position of the first supporting leg and the fixing part to the first end.

In an achievable form, the first end projects from the location of the junction of the first leg and the fixed portion towards a side remote from the second end.

In an achievable form, the first leg is located at a distance of 3mm to 10mm from the first end at the point where it meets the fixed part.

In an implementation manner, the ear insertion fastening portion further includes a second leg, one end of the second leg is connected to the fixing portion, the other end of the second leg is connected to the connecting portion, and the second leg is located on a side of the first leg close to the second end.

In an achievable form, the second end projects from the point of abutment of the second leg with the fixed part towards a side remote from the first end.

In an achievable form, the position of the second leg at the junction with the fixed portion is at a greater distance from the second end than from the first end; or the distance from the joint position of the second supporting leg and the fixing part to the second end is equal to the distance from the joint position of the second supporting leg and the fixing part to the first end.

In an achievable form, the location of the second leg at which it meets the fixed portion coincides with the second end.

In an achievable form, the location of the abutment of the first leg with the fixed part coincides with the first end.

In an implementation manner, the ear-engaging portion further includes a second leg, one end of the second leg is connected to the fixing portion, the other end of the second leg is connected to the connecting portion, the second leg is located on a side of the first leg close to the second end, and the second end is protruded from a connecting position of the second leg and the fixing portion toward a side away from the first end.

In an achievable form, the position of the second leg at the junction with the fixed portion is at a greater distance from the second end than from the first end; or the distance from the joint position of the second leg and the fixed part to the second end is equal to the distance from the second leg to the first end.

In an achievable form, the angle formed between the first leg and the second leg is in the range of 20 ° to 160 °.

In an implementation manner, the fixing portion is bent and extended in an arc shape along the left and right directions of the ear wing of the earphone, the fixing portion is also bent and extended in an arc shape along the front and rear directions of the ear wing of the earphone, and the first end of the fixing portion is located behind the second end.

In one realizable approach, the connecting portion is a cylindrical structure having first and second opposing end faces that are not parallel.

The utility model also provides an earphone component, including above earphone ear wing and earphone body, the connecting portion of earphone ear wing with the earphone body links to each other.

The utility model provides an earphone ear wing, because the fixed part is located one side of connecting portion and with connecting portion looks interval, and the fixed part links to each other with connecting portion through first landing leg, the tip of fixed part is not direct to link to each other with connecting portion promptly, when wearing, the relative both ends (first end and second end) homoenergetic of fixed part can with human auricle block, the fixed part forms the structure of both ends block restraint with human auricle promptly, structure in the restraint of the one end block of traditional ear wing has increased the stability when wearing relatively. Meanwhile, when the ear wing is worn, the two ends of the fixing part can deform the fixing part to form an arch structure after being extruded, so that the ear wing can adapt to the shape of the auricle, and the universality of the ear wing is improved. Moreover, the distance from the connecting position of the first leg and the fixing part to the second end is not less than that from the first end, namely the connecting position of the first leg and the fixing part is closer to the first end, so that the position of the first leg is more matched with the shape of the auricle of the human body, and a more stable supporting effect is provided when the support is worn.

Drawings

Fig. 1 is a schematic structural diagram of an earphone assembly according to an embodiment of the present invention.

Fig. 2 is a schematic view of an assembly structure of the ear wings, the earplugs and the earphone body of the embodiment of the present invention.

Fig. 3 is a schematic diagram of the exploded structure of fig. 2.

Fig. 4 is a schematic perspective view of an ear wing of an earphone according to an embodiment of the present invention.

Fig. 5 is a side view of fig. 4.

Fig. 6 is a front view of fig. 4.

Fig. 7 is a top view of fig. 4.

Fig. 8 is a schematic structural view of a human body auricle in an embodiment of the present invention.

Fig. 9 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 10 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 11 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 12 is a schematic structural diagram of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 13 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 14 is a schematic structural diagram of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 15 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Fig. 16 is a schematic structural view of an ear wing of an earphone according to another embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The terms of orientation of the upper, lower, left, right, front, back, top, bottom, etc. (if any) referred to in the specification and claims of the present invention are defined as the positions of the structures in the drawings and the positions of the structures relative to each other, and are only for the sake of clarity and convenience in describing the technical solutions. It is to be understood that the use of directional terms should not be taken to limit the scope of the invention as claimed.

As shown in fig. 3 to 5 and 8, an embodiment of the present invention provides an earphone ear wing 1, which includes a connecting portion 11 and an ear engaging portion 12 connected to the connecting portion 11, wherein the connecting portion 11 is used for being connected to an earphone body 2. The ear engaging portion 12 includes a first leg 122 and a fixing portion 121 having an arc-shaped structure, and the fixing portion 121 is located at one side of the connecting portion 11 and spaced apart from the connecting portion 11. One end of the first leg 122 is connected to the fixing portion 121, and the other end is connected to the connecting portion 11.

The two ends of the fixing portion 121 are respectively a second end 1212 near one end of the crus auricle 6A of the human body and a first end 1211 near the other end, the second end 1212 of the fixing portion 121 is located above the first end 1211 (Z represents the vertical direction in the figure), and the distance from the connecting position of the first leg 122 and the fixing portion 121 to the second end 1212 is not less than the distance from the first end 1211. The second end 1212 and the first end 1211 of the fixing portion 121 are respectively used for engaging with the crus 6A and the antitragus 6B of the human auricle 6, and the shape and the deformation of the fixing portion 121 can be adaptively adjusted according to the contour shape of the human auricle 6 after the fixing portion is attached to the human auricle 6.

It should be noted that the human body auricle 6 shown in fig. 8 is an auricle of a left ear of a human body, the ear wing 1 of the earphone shown in fig. 4 to 7 is also an ear wing adapted to the left ear, and the ear wing adapted to the right ear and the ear wing adapted to the left ear are arranged in bilateral symmetry.

Specifically, in the earphone ear-wing 1 provided by this embodiment, the fixing portion 121 is located on one side of the connecting portion 11 and spaced from the connecting portion 11, and the fixing portion 121 is connected to the connecting portion 11 through the first leg 122, that is, the end portion of the fixing portion 121 is not directly connected to the connecting portion 11, when the earphone is worn, both opposite ends (the first end 1211 and the second end 1212) of the fixing portion 121 can be engaged with the auricle 6 of the human body, that is, the fixing portion 121 and the auricle 6 of the human body form a structure with both ends engaged and constrained, which increases the stability when the earphone is worn compared with the structure with one end engaged and constrained of the conventional ear-wing. Meanwhile, when the ear wing is worn, the two ends of the fixing part 121 can deform the fixing part 121 to form an arch structure after being squeezed, so that the shape of the auricle can be self-adapted, and the universality of the ear wing is improved. Moreover, since the distance from the contact position of the first leg 122 and the fixing portion 121 to the second end 1212 is not smaller than the distance from the first end 1211, that is, the contact position of the first leg 122 and the fixing portion 121 is closer to the first end 1211, the position of the first leg 122 is more suitable for the shape of the pinna 6 of the human body (especially, when only one leg is provided in the in-ear engaging portion 12, the influence of interference of the one leg with the crus of the helix 6A on the wearing stability can be avoided), thereby providing a more stable supporting effect when wearing. This earphone ear wing 1 not only wears stability height, and the commonality is good moreover, can the use of most users of adaptation (through experimental, this earphone ear wing 1 can adapt to the user use more than 90%).

In one embodiment, the ear-engaging portion 12 is made of an elastic material (e.g., silicone, rubber, etc.).

In one embodiment, the material hardness of the ear insertion engagement portion 12 is 30HS to 55HS (shore hardness). When the hardness of the engaging portion 12 is too low (i.e., the engaging portion 12 is too soft), the engaging portion 12 is easily deformed and separated from the auricle after engaging with the auricle, and the stability is poor; if the hardness of the ear insertion engagement portion 12 is too high (i.e., if the ear insertion engagement portion 12 is too hard), the ear insertion engagement portion 12 is less likely to deform and engage with the auricle, and the wearing comfort is impaired.

In one embodiment, at least one of the first end 1211 and the second end 1212 of the fixing portion 121 is a free end (i.e., the first end 1211 or the second end 1212 is a free end, or both the first end 1211 and the second end 1212 are free ends; in other words, the legs are not connected to the first end 1211 and the second end 1212 at the same time). At least one end of the fixing part 121 is set to be a free end, and the bending deformation degree of the free end can be flexibly adjusted according to the shape of the auricle, so that the fixing part 121 has a large deformation adjusting range, and the universality of the ear wing is further increased.

It is easy to understand that when only one leg is disposed on the ear-engaging portion 12, at least one of the first end 1211 and the second end 1212 of the fixing portion 121 is necessarily a free end; when the ear engaging portion 12 is provided with two or more legs, the two or more legs cannot be connected to the two ends of the fixing portion 121 at the same time, so as to ensure that at least one end of the fixing portion 121 is a free end.

When only one leg is provided to the ear-engaging portion 12 (i.e., only the first leg 122 is provided), the connection position between the first leg 122 and the fixing portion 121 has the following embodiments:

as shown in fig. 9, as an embodiment, the first end 1211 extends and protrudes from the connection position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and in this case, the second end 1212 is also a free end; meanwhile, the contact position of the first leg 122 and the fixing portion 121 is equal to the distance from the second end 1212 to the first end 1211.

As shown in fig. 10, as another embodiment, the first end 1211 extends and protrudes from the connection position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and in this case, the second end 1212 is also necessarily a free end; meanwhile, the distance from the second end 1212 to the contact position of the first leg 122 and the fixing portion 121 is greater than the distance from the first end 1211 to the first end 1211.

As shown in fig. 11, in another embodiment, the connecting position of the first leg 122 and the fixing portion 121 is overlapped with the first end 1211, that is, the first leg 122 is connected to the first end 1211 of the fixing portion 121, the first end 1211 is a non-free end, and in this case, the second end 1212 is also a free end; meanwhile, the distance from the second end 1212 to the contact position of the first leg 122 and the fixing portion 121 is necessarily not smaller than the distance from the first end 1211.

In one embodiment, the first end 1211 is spaced from the contact position of the first leg 122 and the fixing portion 121 by a distance of 3mm to 10mm.

When the ear-in engaging portion 12 is provided with two legs, the ear-in engaging portion 12 further includes a second leg 123, one end of the second leg 123 is connected to the fixing portion 121, the other end is connected to the connecting portion 11, and the second leg 123 is located on one side of the first leg 122 close to the second end 1212. The connection positions of the first leg 122 and the second leg 123 to the fixing portion 121 have the following embodiments:

as shown in fig. 12, in an embodiment, the first end 1211 protrudes from the connecting position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and the distance from the connecting position of the first leg 122 and the fixing portion 121 to the second end 1212 is equal to the distance from the first end 1211. Meanwhile, the connecting position of the second leg 123 and the fixing portion 121 coincides with the second end 1212, that is, the second leg 123 is connected to the second end 1212 of the fixing portion 121, and the second end 1212 is a non-free end.

As shown in fig. 13, as another embodiment, the first end 1211 protrudes from the connection position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and the distance from the connection position of the first leg 122 and the fixing portion 121 to the second end 1212 is greater than the distance from the first end 1211. Meanwhile, the second end 1212 protrudes from the connecting position of the second leg 123 and the fixing portion 121 toward the side away from the first end 1211, i.e., the second end 1212 is also a free end, and the distance from the connecting position of the second leg 123 and the fixing portion 121 to the second end 1212 is greater than the distance from the first end 1211.

As shown in fig. 14, as another embodiment, the first end 1211 protrudes from the connection position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and the distance from the connection position of the first leg 122 and the fixing portion 121 to the second end 1212 is greater than the distance from the first end 1211. Meanwhile, the second end 1212 protrudes from the position where the second leg 123 meets the fixing portion 121 toward the side away from the first end 1211, i.e., the second end 1212 is also a free end, and the distance from the position where the second leg 123 meets the fixing portion 121 to the second end 1212 is equal to the distance from the first end 1211.

As shown in fig. 6, as another embodiment, the first end 1211 protrudes from the connecting position of the first leg 122 and the fixing portion 121 toward a side away from the second end 1212, that is, the first end 1211 is a free end, and the distance from the connecting position of the first leg 122 and the fixing portion 121 to the second end 1212 is greater than the distance from the first end 1211. Meanwhile, the connecting position of the second leg 123 and the fixing portion 121 coincides with the second end 1212, that is, the second leg 123 is connected to the second end 1212 of the fixing portion 121, and the second end 1212 is a non-free end.

As shown in fig. 15, in another embodiment, the position of the first leg 122 contacting the fixed portion 121 coincides with the first end 1211, that is, the first leg 122 is connected to the first end 1211 of the fixed portion 121, and the first end 1211 is a non-free end. Meanwhile, the second end 1212 protrudes from the connecting position of the second leg 123 and the fixing portion 121 toward the side away from the first end 1211, that is, the second end 1212 is a free end, and the distance from the connecting position of the second leg 123 and the fixing portion 121 to the second end 1212 is equal to the distance from the first end 1211.

As shown in fig. 16, in another embodiment, the position where the first leg 122 contacts the fixing portion 121 overlaps the first end 1211, that is, the first leg 122 contacts the first end 1211 of the fixing portion 121, and the first end 1211 is a non-free end. Meanwhile, the second end 1212 protrudes from the connecting position of the second leg 123 and the fixing portion 121 toward the side away from the first end 1211, that is, the second end 1212 is a free end, and the distance from the connecting position of the second leg 123 and the fixing portion 121 to the second end 1212 is greater than the distance from the first end 1211.

Specifically, through setting up second landing leg 123, not only can further increase the stability of being connected between fixed part 121 and connecting portion 11, first landing leg 122 can cooperate the deflection of retraining fixed part 121 jointly with second landing leg 123 moreover, make pleasant block portion 12 can continuously apply diversified extrusion force to the auricle, and then make pleasant block portion 12 more laminate in the auricle, thereby further improve and wear stability, and can also promote the gas tightness, thereby be favorable to promoting the noise reduction of earphone. Meanwhile, when both ends of the fixing portion 121 are free ends, the deformation adjustment range of the ear flap can be further increased to improve the versatility of the ear flap.

In one embodiment, the angle a formed between the first leg 122 and the second leg 123 is in the range of 20 ° to 160 °. Specifically, as shown in fig. 6, in the present embodiment, the included angle a formed between the first leg 122 and the second leg 123 is 110 °.

As an embodiment, the whole ear-wing 1 of the earphone is a unitary structure.

As shown in fig. 5 and fig. 6, as an embodiment, the fixing portion 121 is disposed to bend and extend in an arc shape along the left-right direction Y of the ear piece 1, the fixing portion 121 is also disposed to bend and extend in an arc shape along the front-back direction X of the ear piece 1 (this embodiment defines the axial direction of the connecting portion 11 as the front-back direction X of the ear piece 1, the side of the ear piece 1 facing the earplug 3 is the front, the side of the ear piece 1 away from the earplug 3 is the back), and the first end 1211 of the fixing portion 121 is located behind the second end 1212; that is, as shown in fig. 5, when viewed from the side, the positions of the fixing portion 121 are not on the same plane, and the entire fixing portion 121 is formed by bending and extending the second end 1212 toward the rear right side.

Specifically, as shown in fig. 5, in the present embodiment, the first leg 122 and the second leg 123 are respectively connected to different positions on the connecting portion 11, a position on the connecting portion 11 connected to the first leg 122 is a point a, a position on the connecting portion 11 connected to the second leg 123 is a point B, and a straight line passing through the points a and B is an extension line H; the upper position of the fixing portion 121 is located forward of the extension line H, and the lower position of the fixing portion 121 is located rearward of the extension line H. With such arrangement, a certain fall is formed between the top position and the bottom position of the in-ear engaging portion 12 in the front-back direction X, that is, the in-ear engaging portion 12 has an arch structure similar to the shape of the auricle, so that the attaching property between the in-ear engaging portion 12 and the auricle is increased; meanwhile, when wearing, the arch structure can help the in-ear clamping part 12 to contact with the auricle and then apply extrusion force to the auricle, so that the in-ear clamping part 12 can be more attached to the auricle, and the wearing stability and the attaching performance are further improved.

As shown in fig. 4 to 7, as an embodiment, the first leg 122 and the second leg 123 are both arc-shaped, and the bending center of the first leg 122 is located at the front thereof, and the bending center of the second leg 123 is located at the rear thereof (i.e., the first leg 122 is bent forward, and the second leg 123 is bent backward), and the length of the second leg 123 is greater than that of the first leg 122, so that the first leg 122 and the second leg 123 can be adapted to the shape of the fixing portion 121, and the ear-engaging portion 12 can be more closely fitted to the shape of the auricle.

As shown in fig. 4, as an embodiment, the connection position of the second leg 123 and the fixing portion 121 is rounded, so as to increase the comfort when wearing.

As shown in fig. 3 and 7, as an embodiment, the connection portion 11 has a cylindrical structure (specifically, a cylindrical shape), the connection portion 11 has a first end surface 111 and a second end surface 112 opposite to each other, the first end surface 111 and the second end surface 112 are not parallel, that is, the connection portion 11 is not in a regular cylindrical shape, so that the connection portion 11 cannot rotate after being sleeved on the earphone body 2, that is, the installation position of the earphone ear wing 1 on the earphone body 2 is unique, which not only improves the assembly convenience, but also can avoid the situation that the wearing is affected by the rotation of the earphone ear wing 1 when in use.

As shown in fig. 1 to fig. 3, the embodiment of the present invention further provides an earphone assembly, which includes the earphone ear wing 1 and the earphone body 2, wherein the connecting portion 11 of the earphone ear wing 1 is connected to the earphone body 2.

As shown in fig. 3, as an embodiment, the connection portion 11 of the ear-piece 1 of the earphone is a tubular structure, the connection portion 11 is sleeved on the earphone body 2, an ear-piece anti-falling back-off 21 is further disposed on the earphone body 2 at a position corresponding to the connection portion 11, and the ear-piece anti-falling back-off 21 is used for stopping the connection portion 11, so as to prevent the connection portion 11 from falling off from the earphone body 2.

As shown in fig. 2 and fig. 3, as an embodiment, the earphone assembly further includes an earplug 3, the earplug 3 includes a hollow connecting column 31 and a plurality of umbrella wings 32 disposed on the connecting column 31, and one end of the connecting column 31 is connected to the earphone body 2. Each umbrella wing 32 is of a hemispherical structure, and the opening of each umbrella wing 32 faces to one side close to the earphone body 2; the plurality of umbrella wings 32 are sequentially arranged along the axial direction of the connecting column 31, and the radius of the plurality of umbrella wings 32 is gradually reduced from one side close to the earphone body 2 to one side far away from the earphone body 2. So set up for earplug 3 can the size of self-adaptation people's ear after going into the ear, with the inseparable laminating of people's ear, thereby improve noise reduction effect.

As shown in fig. 3, as an embodiment, the connection column 31 is sleeved on the earphone body 2, and an earplug anti-falling reverse buckle 22 is further disposed on the earphone body 2 at a position corresponding to the connection column 31 for preventing the connection column 31 from falling off from the earphone body 2.

As shown in fig. 1, as an embodiment, the earphone assembly further includes a neck hanging piece 4 for wearing around the neck of a human body, and the neck hanging piece 4 is connected to the earphone body 2 through an earphone line 5.

The embodiment of the utility model provides an earphone ear wing 1, because fixed part 121 is located one side of connecting portion 11 and with connecting portion 11 looks interval, and fixed part 121 links to each other with connecting portion 11 through first landing leg 122, the tip of fixed part 121 is direct not to link to each other with connecting portion 11 promptly, when wearing, the relative both ends homoenergetic of fixed part 121 and human auricle 6 block, fixed part 121 forms the structure of both ends block restraint with human auricle 6 promptly, the structure of the one end block restraint in traditional ear wing has increased the stability when wearing relatively. Meanwhile, when the ear pad is worn, the two ends of the fixing part 121 can deform the fixing part 121 to form an arch structure after being squeezed, so that the shape of the auricle can be adapted, and the universality of the ear wing is improved. Moreover, since the distance from the contact position of the first leg 122 and the fixing portion 121 to the second end 1212 is not smaller than the distance from the first end 1211, that is, the contact position of the first leg 122 and the fixing portion 121 is closer to the first end 1211, the position of the first leg 122 is more suitable for the shape of the auricle 6 of the human body, thereby providing a more stable supporting effect when worn. This earphone ear wing 1 not only wears stability height, and the commonality is good moreover, can the use of most users of adaptation.

The above embodiments are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (14)

1. An earphone ear wing is characterized by comprising a connecting part (11) and an ear-in clamping part (12) connected with the connecting part (11); the ear-in clamping part (12) comprises a fixing part (121) and a first supporting leg (122), the fixing part (121) is positioned on one side of the connecting part (11) and is spaced from the connecting part (11), one end of the first supporting leg (122) is connected with the fixing part (121), and the other end of the first supporting leg is connected with the connecting part (11); the two ends of the fixing part (121) are respectively a second end (1212) close to one end of the crus of helix (6A) and a first end (1211) at the other end, and the distance from the connecting position of the first supporting leg (122) and the fixing part (121) to the second end (1212) is not less than the distance from the connecting position to the first end (1211).

2. The earphone ear wing according to claim 1, characterized in that the first end (1211) projects from the position of the connection of the first leg (122) with the fixing portion (121) towards a side remote from the second end (1212).

3. The ear-piece ear-wing according to claim 2, characterized in that the position of the abutment of the first leg (122) with the fixing portion (121) is at a distance of 3mm to 10mm from the first end (1211).

4. The earphone ear-wing according to claim 2, characterized in that the in-ear engaging portion (12) further comprises a second leg (123), one end of the second leg (123) is connected to the fixing portion (121) and the other end is connected to the connecting portion (11), and the second leg (123) is located on the side of the first leg (122) near the second end (1212).

5. The earphone ear-wing according to claim 4, characterized in that the second end (1212) projects from the position of the junction of the second leg (123) with the fixing portion (121) towards the side remote from the first end (1211).

6. The earphone ear-wing according to claim 5, characterized in that the position of the abutment of the second leg (123) with the fixed part (121) is at a greater distance from the second end (1212) than from the first end (1211); or the distance from the joint position of the second leg (123) and the fixing part (121) to the second end (1212) is equal to the distance from the second end (1211) to the first end (1211).

7. The earphone ear-wing according to claim 4, characterized in that the position of the connection of the second leg (123) to the fixing portion (121) coincides with the second end (1212).

8. The ear-piece ear-wing according to claim 1, characterized in that the position of the abutment of said first leg (122) with said fixed part (121) coincides with said first end (1211).

9. The ear-piece ear-wing according to claim 8, characterized in that said engaging portion (12) further comprises a second leg (123), one end of said second leg (123) is connected to said fixing portion (121) and the other end is connected to said connecting portion (11), said second leg (123) is located on the side of said first leg (122) near said second end (1212), and said second end (1212) is protruded from the position where said second leg (123) is connected to said fixing portion (121) toward the side away from said first end (1211).

10. The earphone ear-wing according to claim 9, characterized in that the position of the abutment of the second leg (123) with the fixed part (121) is at a greater distance from the second end (1212) than from the first end (1211); or, the distance from the connecting position of the second leg (123) and the fixing part (121) to the second end (1212) is equal to the distance from the second end (1211).

11. The ear-bud according to claim 4 or 9, characterised in that the angle (a) formed between the first leg (122) and the second leg (123) is in the range of 20 ° to 160 °.

12. The ear-piece ear-wing according to claim 1, characterized in that said fixing portion (121) extends in an arc-shaped bending manner in the left-right direction (Y) of said ear-piece (1), said fixing portion (121) also extends in an arc-shaped bending manner in the front-back direction (X) of said ear-piece (1), and said first end (1211) of said fixing portion (121) is located behind said second end (1212).

13. The ear-bud of claim 1, wherein the connecting portion (11) is a cylindrical structure, the connecting portion (11) having first and second opposing end faces (111, 112), the first and second end faces (111, 112) being non-parallel.

14. A headset assembly, characterized in that it comprises a headset ear-wing (1) according to any of claims 1-13 and a headset body (2), the connecting portion (11) of the headset ear-wing (1) being connected to the headset body (2).

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