Disclosure of utility model
The utility model mainly aims to provide an earphone, which aims to solve the technical problem that in the process of changing the length of a bracket, the earphone is easy to produce a scraping phenomenon due to abrasion.
The earphone comprises a wearing body, two sliding arms and two clamping pieces, wherein the wearing body is in an arc shape, the two sliding arms are respectively and slidably arranged on the wearing body, one sliding arm extends out of one end of the wearing body, the other sliding arm extends out of the other end of the wearing body, the sliding arms can slide relative to the wearing body to adjust the length of the sliding arms extending out of the wearing body, the two clamping pieces are respectively arranged on the wearing body and respectively correspond to the two sliding arms one by one, each clamping piece comprises two flexible arms arranged on two opposite sides of the corresponding sliding arm, each flexible arm is made of a flexible material, and the two flexible arms of the same clamping piece are respectively abutted against the corresponding sliding arm so as to enable the sliding arm to move in a preset sliding direction.
Optionally, each clamping piece comprises a connecting arm, the connecting arm is connected with the two corresponding flexible arms into a whole, and the connecting arm is fixedly connected with the wearing main body.
Optionally, each clamping piece includes a clamping cover, the clamping cover is located corresponding flexible arm is dorsad corresponding one side of linking arm, the material of clamping cover is flexible material, the clamping cover with corresponding sliding arm butt.
Optionally, each flexible arm is towards corresponding protruding being equipped with a plurality of butt strips on the lateral part of sliding arm, the flexible arm passes through butt strip with the sliding arm butt that corresponds, same a plurality of butt strips on the flexible arm set up in parallel, just the length direction of butt strip is perpendicular with the slip direction of corresponding sliding arm.
Optionally, a surface of each abutment bar is an arc-shaped surface.
Optionally, a surface of the sliding arm, which contacts the abutment bar, is an arc surface.
Optionally, the material of the sliding arm is flexible material, each sliding arm is formed with a groove body, the groove body extends in the length direction of the corresponding sliding arm, one of two opposite groove side walls of the groove body is abutted with one flexible arm, and the other of two opposite groove side walls of the groove body is abutted with the other flexible arm.
Optionally, the wearing body and the two sliding arms enclose together to form a wearing space for accommodating the head of the human body, and the notch of each groove body is formed on the side portion of the corresponding sliding arm close to the wearing space.
Optionally, each sliding arm includes a first end and a second end, each first end is disposed in the wearing body, each second end is exposed out of the wearing body, a wire inlet communicated with the corresponding groove is formed on the first end, a wire outlet communicated with the corresponding groove is formed on the second end, and the wire inlet, the groove and the wire outlet are used for routing.
Optionally, be equipped with the chucking subassembly on the cell wall of cell body, the chucking subassembly includes two chucking pieces, two chucking pieces set up relatively, and each the chucking piece all protrude in the cell wall of cell body, the electricity of earphone connect the wire joint in between two chucking pieces.
Optionally, the number of the clamping assemblies is at least two, and at least two clamping assemblies are distributed at intervals in the length direction of the groove body.
According to the earphone of the technical scheme, the slidable sliding arm is arranged on the wearing main body, so that the earphone can provide a more flexible adjusting function so as to adapt to the head sizes and shapes of different users. Meanwhile, the flexible arm made of soft materials can generate a moderate damping effect in the adjusting process of the sliding arm, so that the adjusting process is smoother, noise and abrasion caused by hard friction are effectively reduced, in addition, the deformation characteristic of the flexible materials is favorable for absorbing and dispersing pressure caused by adjustment, abrasion of the surface of the sliding arm in long-time use is further reduced, the service life of the earphone is prolonged, and the comprehensive effect of the design not only improves the practicability of the earphone, but also optimizes the use experience of a user.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
It should be noted that, if directional indications (such as up, down, left, right, front, and rear are referred to in the embodiments of the present utility model), the directional indications are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.
Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions between the embodiments can be mutually combined, and the technical solutions must be based on the realization that one of ordinary skill in the art can realize, when the combination of the technical solutions contradicts or cannot realize, the combination of the technical solutions is considered to be absent and is not within the protection scope required by the utility model.
The utility model provides an earphone.
In the embodiment of the utility model, as shown in fig. 1 to 5, the earphone comprises a wearing body 1, two sliding arms 2 and two clamping pieces 4, the wearing body 1 is in an arc shape, the two sliding arms 2 are respectively arranged on the wearing body 1 in a sliding manner, one of the two sliding arms 2 extends out of one end part of the wearing body 1, the other one extends out of the other end part of the wearing body 1, the sliding arms 2 can slide relative to the wearing body 1 to adjust the length of the sliding arms extending out of the wearing body 1, the two clamping pieces 4 are respectively arranged on the wearing body 1, the two clamping pieces 4 are respectively in one-to-one correspondence with the two sliding arms 2, the clamping pieces 4 comprise two flexible arms 41 arranged on two opposite sides of the corresponding sliding arms 2, each flexible arm 41 is made of flexible materials, and the two flexible arms 41 of the same clamping piece 4 are respectively abutted against the corresponding sliding arms 2 so as to enable the sliding arms 2 to move in a preset sliding direction.
Specifically, the sliding arm 2 is disposed in a space between the two flexible arms 41, and side portions on both sides of the sliding arm 2 are respectively abutted against the two flexible arms 41, and the sliding arm 2 moves in a preset sliding direction without being deviated by the restriction of the flexible arms 41.
It can be appreciated that the earphone according to the technical scheme of the present utility model, by providing the slidable sliding arm 2 on the wearing body 1, can provide a more flexible adjusting function to adapt to the head sizes and shapes of different users. Meanwhile, the flexible arm 41 made of soft materials can generate a moderate damping effect in the adjusting process of the sliding arm 2, so that the adjusting process is smoother, noise and abrasion caused by hard friction are effectively reduced, in addition, the deformation characteristic of the flexible materials is favorable for absorbing and dispersing pressure caused by adjustment, abrasion on the surface of the sliding arm 2 in long-time use is further reduced, the service life of the earphone is prolonged, and the comprehensive effect of the design not only improves the practicability of the earphone, but also optimizes the use experience of a user.
The flexible arm 41 may be made of a flexible material having good flexibility and durability such as rubber, silicone, thermoplastic elastomer (TPE), thermoplastic Polyurethane (TPU), or the like.
Each clamping member 4 comprises a connecting arm 42, the connecting arm 42 is connected with the corresponding two flexible arms 41 into a whole, and the connecting arm 42 is fixedly connected with the wearing body 1.
This integrated connection reduces the steps required to mount the two flexible arms 41 on the wearing body 1, improves the assembly efficiency, and reduces the possibility of assembly errors. Meanwhile, the integral structure enhances the integral mechanical strength and stability of the clamping piece 4, reduces the risk of loosening parts in long-term use, and ensures the durability of the earphone and the use experience of users.
Each clamping piece 4 comprises a clamping cover 44, the clamping cover 44 is arranged on one side of the corresponding flexible arm 41, which faces away from the corresponding connecting arm 42, the clamping cover 44 is made of flexible materials, and the clamping cover 44 is abutted with the corresponding sliding arm 2.
The clamping cover 44 made of soft material can generate a moderate damping effect in the adjustment process of the sliding arm 2, which not only makes the adjustment process smoother, but also effectively reduces noise and abrasion caused by hard friction, in addition, the deformation characteristic of the soft material helps to absorb and disperse pressure caused by adjustment, further reduces abrasion of the surface of the sliding arm 2 in long-time use, and prolongs the service life of the earphone.
The grip cover 44 may be made of a flexible material having good flexibility and durability such as rubber, silicone, thermoplastic elastomer (TPE), thermoplastic Polyurethane (TPU), etc.
The grip cover 44 may be fixed to the wearing body 1 or to one of the flexible arms 41.
Each flexible arm 41 is provided with a plurality of abutting strips 43 in a protruding mode on the side portion, facing the corresponding sliding arm 2, of each flexible arm 41, the flexible arms 41 are abutted to the corresponding sliding arm 2 through the abutting strips 43, the plurality of abutting strips 43 on the same flexible arm 41 are arranged in parallel, and the length direction of the abutting strips 43 is perpendicular to the sliding direction of the corresponding sliding arm 2.
By providing a plurality of abutment bars 43 on each flexible arm 41, the contact area between the flexible arm 41 and the slide arm 2 is effectively reduced. The design reduces the friction resistance when the sliding arm 2 is moved, so that a user can easily and smoothly slide when adjusting the length of the sliding arm 2, inconvenience in operation caused by overlarge resistance is avoided, the parallel arrangement of the abutting strips 43 and the layout perpendicular to the sliding direction are also conducive to stabilizing the movement of the sliding arm 2, the accuracy of adjustment is maintained, and meanwhile, the sliding arm 2 is prevented from being skewed or jammed in the use process, so that the overall experience when the user moves the sliding arm 2 is improved.
Furthermore, the space between two adjacent abutment bars 43 is arranged such that the abutment bars 43 are allowed to deform appropriately when subjected to pressure. This deformation can absorb and disperse the pressure from the adjustment of the slide arm 2, avoiding excessive compression of the slide arm 2, thereby reducing friction and wear.
The surface of each abutment bar 43 is arcuate.
The arc-shaped abutting strip 43 can be in smoother contact with the surface of the sliding arm 2, so that the local pressure during contact is reduced, the smoothness during sliding is enhanced, the frictional resistance during operation is effectively reduced, the process of adjusting the sliding arm 2 of the earphone by a user is smoother, the abrasion of the surface of the sliding arm 2 during long-term use is reduced, and the service life of the earphone is prolonged.
Similarly, the surface of the sliding arm 2 contacting the abutment bar 43 is an arc surface.
The sliding arms 2 are made of flexible materials, each sliding arm 2 is formed with a groove body 21, the groove body 21 extends in the length direction of the corresponding sliding arm 2, one of two opposite groove side walls of the groove body 21 is abutted with one flexible arm 41, and the other of the two opposite groove side walls of the groove body 21 is abutted with the other flexible arm 41.
The flexible sliding arm 2 can stretch out and draw back or crooked according to user's needs, ensures that the earphone can adapt to different users better, simultaneously, has set up cell body 21 on sliding arm 2, aims at providing sufficient space for the deformation of the inside material of sliding arm 2 to avoid direct contact and mutual extrusion between the material in the deformation process, specifically speaking, when sliding arm 2 carries out deformation according to user's regulation demand, cell body 21 has ensured that the region that deformation takes place has sufficient space to hold this kind of change, just so greatly reduced the noise that probably produces in the deformation process.
The wearing body 1 and the two sliding arms 2 are enclosed together to form a wearing space 3 for accommodating the head of a human body, and the notch of each groove body 21 is formed on the side part of the corresponding sliding arm 2 close to the wearing space 3.
Because the side of the sliding arm 2 near the wearing space 3 is usually the region with the largest deformation amount, the arrangement of the notch can furthest utilize the space required by the deformation provided by the groove body 21, ensure that the flexible deformation of the sliding arm 2 in the adjusting process is smoother, thereby reducing the internal friction and noise during the deformation and improving the comfort and quietness of the adjustment. In addition, this design also means that the notch and the portion of the channel 21 are facing the user when the headset is worn on the user's head, thereby visually concealing the channel 21 and enhancing the aesthetics and the feel of the headset when worn.
Each sliding arm 2 comprises a first end 22 and a second end 23, each first end 22 is arranged in the wearing body 1, each second end 23 is exposed out of the wearing body 1, a wire inlet 221 communicated with the corresponding groove 21 is formed on the first end 22, a wire outlet 231 communicated with the corresponding groove 21 is formed on the second end 23, and the wire inlet 221, the groove 21 and the wire outlet 231 are used for wiring.
The wiring path is integrated inside the sliding arm 2, so that the safety of an electric connecting wire and the neatness and attractiveness of the earphone are ensured, the problem of winding or damage possibly caused by external wiring is avoided, in addition, since the wire inlet 221 is positioned at the first end 22 of the sliding arm 2 (namely inside the wearing body 1), and the wire outlet 231 is positioned at the second end 23 (exposed outside the wearing body 1), the earphone can keep the stability of the electric connecting wire and the continuity of the wiring path when the earphone is adjusted to adapt to different head types of users due to the layout, and the normal use of the earphone cannot be influenced due to the deformation of the sliding arm 2.
The clamping assembly 24 is arranged on the groove wall of the groove body 21, the clamping assembly 24 comprises two clamping blocks 241, the two clamping blocks 241 are oppositely arranged, each clamping block 241 protrudes out of the groove wall of the groove body 21, and the electric connection wire of the earphone is clamped between the two clamping blocks 241.
Through set up the chucking subassembly 24 that has two chucking pieces 241 on the cell wall for the electric connection line of earphone can firmly joint between two chucking pieces 241, and the beneficial effect that this design brought lies in, it provides more stable fixed mode for the inside line of walking of earphone, has ensured that electric connection line is difficult not hard up or drops in the use, thereby ensured earphone circuit's stability and earphone's reliability, especially when earphone constantly adjusts the size or uses in activities such as motion, chucking subassembly 24 can effectively prevent that electric connection line from taking place the displacement because frequent removal or exogenic action, reduced the damage or the trouble that the circuit probably appears, improved durability and the security that earphone used.
The number of the clamping assemblies 24 is at least two, and the at least two clamping assemblies 24 are distributed at intervals in the length direction of the groove body 21.
This distribution strategy allows the electrical connection wires to be fixed at multiple points throughout the routing path, thereby distributing the wire stresses more evenly throughout use. Simultaneously, this also provides better adaptability and flexibility for the electric connecting wire when the sliding arm 2 is deformed or adjusted, has guaranteed that no matter how big or small the earphone is adjusted, the wiring route of electric connecting wire can both keep stable, can not lead to the fixed action of chucking subassembly 24 to electric connecting wire to weaken or fail because of the removal of sliding arm 2.
The outer surface of the clamping block 241 is an arc-shaped surface.
The design reduces the abrasion or damage to the electric connection wires which may be caused by the acute angle or the irregular surface, and simultaneously reduces the discomfort which may be felt by the user in the wearing process, especially when the earphone is clung to the skin or used in sports, in addition, the clamping block 241 of the arc-shaped surface provides smoother and harmonious experience in the aspects of vision and touch, and the aesthetic feeling and detail consideration of the whole earphone design are enhanced.
The groove wall surface of the groove body 21 is an arc surface.
The curved groove wall surface is more naturally matched with the form of an electric connecting wire, so that abrasion or damage of wires caused by right angles or sharp edges is reduced, the fluency of the internal structure of the earphone is improved, and the stability and safety of wiring are improved. In addition, the arc-shaped surface provides softer and more harmonious feeling in vision and touch sense, so that the touch experience of a user is improved, and meanwhile, the overall design sense of the product is also improved, so that the earphone not only functionally meets the requirements of the user, but also reaches higher standards in the aspects of attractiveness and comfort.
The depth of the slot 21 is greater than the diameter of the electrical connection line of the headset.
This design allows the electrical connection wires to be fully embedded inside the slot 21, which not only avoids physical damage, such as shearing, extrusion or damage caused by environmental factors, which may be caused by exposure of the wires to the outside, but also ensures that the electrical connection wires remain stable and are not easily displaced or loosened by external forces during use of the earphone, even in severe sports or frequent size adjustment. In addition, this design also helps to maintain the aesthetics and cleanliness of the headset, as the electrical connection wires are completely hidden within the housing 21, visually reducing the exposure of the unordered wires, enhancing the overall design feel of the product.
The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.