CN114947321A - Give birth to ear structure and wearing equipment - Google Patents

Abstract

The application discloses give birth to ear structure and wearing equipment belongs to wearing equipment technical field. The ear generating structure comprises an ear generating main body, a first elastic piece, a key and two ear generating thimbles. Give birth to the ear main part and have the mounting hole, the mounting hole runs through give birth to the ear main part along first direction, and two give birth to the movably setting in the mounting hole of ear thimble. The first elastic piece is arranged in the mounting hole and provided with an elastic part, and two sides of the elastic part in the first direction are respectively connected with the two lug-generating thimbles. The button is movably arranged on the ear generating body and is provided with a first pushing and abutting part and a second pushing and abutting part, and the first pushing and abutting part and the second pushing and abutting part are respectively abutted against two sides of the elastic part in the first direction. The key can drive the elastic part to switch between a first state and a second state and drive the two lug thimbles to move along the direction of extending out of or retracting into the mounting hole.

Description

Give birth to ear structure and wearing equipment

Technical Field

This application belongs to wearing equipment technical field, concretely relates to give birth to ear structure and wearing equipment.

Background

Along with the development of the trade is dressed to intelligence, more people choose to wear intelligent wrist-watch, and intelligent wrist-watch can not only realize more functions than traditional wrist-watch, also can be used for decorative effect to wear on hand. Therefore, people also put more demands on the aesthetic degree of the details of the watch.

Give birth to ear structure and give birth to the connection structure that the ear main part divides for connecting wearing area and wearing equipment. In the related art, the lug generating structure is mainly disassembled or assembled by poking the poking rod. Give birth to ear structure and put the wearing area and the wearing equipment under the condition that the ear main part divides, can stir the driving lever for the user, need offer on wearing the area and dodge the groove to make the driving lever show in wearing the area, not only influence the aesthetic property in wearing the area, still lead to easily filling in wearing the in-process dirt dodging of taking in the mouth easily, influence and wear the comfort level.

Disclosure of Invention

The utility model provides an aim at provides a give birth to ear structure and wearing equipment, can solve and give birth to the ear structure among the correlation technique and need set up in the wearing area and dodge the groove, lead to giving birth to the ear structure and can't hide in the problem of wearing the area.

In order to solve the technical problem, the present application is implemented as follows:

a raw ear structure, which comprises a raw ear main body, a first elastic piece, a key and two raw ear thimbles,

the raw ear main body is provided with a mounting hole, the mounting hole penetrates through the raw ear main body along a first direction, and the two raw ear thimbles are movably arranged in the mounting hole;

the first elastic piece is arranged in the mounting hole and provided with an elastic part, and two sides of the elastic part in the first direction are respectively connected with the two lug-generating thimbles;

the button is movably arranged on the ear generating main body and is provided with a first pushing part and a second pushing part which respectively abut against two sides of the elastic part in the first direction;

the key can drive the elastic part to switch between a first state and a second state;

under the condition that the elastic part is in the first state, a first raw lug ejector pin in the two raw lug ejector pins moves to the first position of the mounting hole, and a second raw lug ejector pin in the two raw lug ejector pins moves to the second position of the mounting hole;

under the condition that the elastic part is in the second state, the first lug growing ejector pin moves to the third position of the mounting hole, and the second lug growing ejector pin moves to the fourth position of the mounting hole.

Based on the raw ear structure, the embodiment of the invention also provides a wearable device. The wearing device comprises a device main body and a wearing belt, wherein the wearing belt is provided with the ear growing structure, and the wearing belt can be detachably connected with the device main body through two ear growing thimbles;

under the condition that the elastic part is in the first state, the two ear-growing thimbles are separated from the equipment main body, and the wearing belt is separated from the equipment main body;

under the condition that the elastic part is in the second state, the two ear-growing thimbles are connected with the equipment main body, and the wearing belt is in a connected state with the equipment main body.

The technical scheme adopted by the invention can achieve the following beneficial effects:

in the ear generating structure disclosed in the embodiment of the invention, the button moves relative to the ear generating body under the action of external force, so that the elastic part moves relative to the ear generating body along the first abutting part and the second abutting part, and the first abutting part and the second abutting part can drive the elastic part to switch between the first state and the second state. Specifically, during the process of switching the elastic part between the first state and the second state, the two raw ear thimbles can move along the mounting hole towards the direction of extending out of or retracting into the mounting hole. It should be noted that, during the process of moving the lug generating thimble along the mounting hole to the direction of retracting the mounting hole, the size of the lug generating structure in the first direction is reduced. In the process that the lug generating thimble moves along the direction of extending out of the mounting hole, the size of the lug generating structure in the first direction is prolonged. Therefore, the scheme can drive the lug generating thimbles at the two ends of the lug generating structure to relatively extend and retract along the mounting hole in a key pressing mode.

For example, in the case where the raw ear structure is applied to a wearable device, the snap-fit connection between the raw ear structure and the device body may be achieved by shortening or lengthening the size of the raw ear structure in the first direction.

This scheme give birth to ear structure can realize giving birth to the dismantlement or the installation of ear structure through the mode of pressing, and then under the condition that the ear structure is applied to wearing equipment giving birth to, can hide the ear structure in the wearing band. Specifically, in the process of mounting or dismounting the raw ear structure, the user can press the area opposite to the key in the wearing belt, and the wearing belt is used for transmitting the pressure to the key so as to mount or dismount the raw ear structure. Therefore, the ear growing structure is beneficial to being hidden in the wearing belt, so that an opening on the wearing belt can be avoided, and the attractiveness and wearing comfort of the wearing belt are improved.

Drawings

FIG. 1 is a schematic illustration of a raw ear structure disclosed in one embodiment of the present invention in a first state;

FIG. 2 is a schematic illustration of a disclosed raw ear structure in a second state in accordance with an embodiment of the present invention;

FIG. 3 is a first cross-sectional view of a disclosed raw ear structure in accordance with one embodiment of the present invention;

FIG. 4 is a second cross-sectional view of a disclosed raw ear structure in accordance with one embodiment of the present invention;

FIG. 5 is an assembly view of a first resilient element and a raw ear body from a first perspective as disclosed in one embodiment of the present invention;

FIG. 6 is an assembly view of the first elastic member and the raw ear body from a second perspective as disclosed in one embodiment of the present invention;

FIG. 7 is an assembly view of a first elastomeric element raw thimble according to one embodiment of the present disclosure;

fig. 8 is a schematic view of a wearable device disclosed in an embodiment of the present invention.

Description of the reference numerals: 100-a raw ear body; 110-mounting holes; 120-a spring support; 121-a first limiting groove; 130-key holder; 131-a first limiting part; 140-a first positioning member; 141-a pilot hole; 200-a first resilient member; 210-an elastic portion; 220-a connecting portion; 300-a raw lug thimble; 310-a second limit groove; 400-key press; 410-a first pushing part; 411-pushing surface; 420-a second pushing part; 430-a second positioning element; 500-a second elastic member; 600-a wearing belt; 700-a device body; 800-ear growing Structure.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The structure of the raw ear provided by the embodiment of the present application is described in detail with reference to fig. 1 to 8 through specific embodiments and application scenarios thereof.

Referring to fig. 1-4, in some alternative embodiments, a raw ear structure includes a raw ear body 100, a first elastic member 200, a key 400, and two raw ear thimbles 300. The raw ear main body 100 is a basic structure, and can provide an installation basis for the first elastic element 200, the button 400 and the two raw ear thimbles 300.

Referring to fig. 1 and 2, the raw ear body 100 has a mounting hole 110, and the mounting hole 110 penetrates the raw ear body 100 in a first direction. The raw ear thimble 300 is movably disposed in the mounting hole 110, so that the raw ear thimble 300 can extend out of the end of the raw ear main body 100 along the mounting hole 110. Optionally, both of the raw ear ejector pins 300 may at least partially protrude through the mounting hole 110.

Referring to fig. 1 and 2, the first elastic member 200 is disposed in the mounting hole 110. The first elastic element 200 has an elastic portion 210, and two sides of the elastic portion 210 in the first direction are respectively connected to the two ear-growing thimbles 300. In the process of extending and retracting the elastic portion 210, the elastic portion 210 drives the raw ear thimble 300 to slide along the mounting hole 110, so that the first elastic element 200 can drive the raw ear thimble 300 to move in the direction of extending or retracting the mounting hole 110.

Referring to fig. 3 and 4, the button 400 is movably disposed on the raw ear body 100, and the button 400 has a first abutting portion 410 and a second abutting portion 420. The first abutting portion 410 and the second abutting portion 420 abut against two sides of the elastic portion 210 in the first direction respectively. The key 400 can drive the elastic part 210 to switch between the first state and the second state.

Illustratively, in the process that the key 400 drives the elastic portion 210 to switch from the first state to the second state, the two raw ear thimbles 300 move along the mounting hole 110 into the mounting hole 110, so that the size of the raw ear structure in the first direction is reduced.

In the process that the key 400 drives the elastic part 210 to switch from the second state to the first state, the two lug generating thimbles 300 move along the mounting hole 110 to the outside of the mounting hole 110, so that the size of the lug generating structure in the first direction is increased.

In some alternative embodiments, referring to fig. 1, with the elastic portion in the first state, a first raw ear tip of the two raw ear tips moves to the first position of the mounting hole, and a second raw ear tip of the two raw ear tips moves to the second position of the mounting hole. Referring to fig. 2, in the case where the elastic portion is in the second state, the first green-lug ejector pin moves to the third position of the mounting hole, and the second green-lug ejector pin moves to the fourth position of the mounting hole.

Optionally, when the first lift tab pin is in the first position, the length of the portion of the first lift tab pin extending out of the mounting hole 110 in the first direction is a first length; when the first lift-tab pin is in the third position, the length of the portion of the first lift-tab pin extending out of the mounting hole 110 in the first direction is a second length, and the first length is greater than the second length.

Optionally, in a case where the second raw-lug thimble is in the second position, a length of a portion of the second raw-lug thimble protruding out of the mounting hole 110 in the first direction is a third length; when the second raw-lug ejector pin is in the fourth position, the length of the portion of the second raw-lug ejector pin extending out of the mounting hole 110 in the first direction is a fourth length, and the second length is greater than the fourth length.

The ear growth structure described in the above embodiments can realize the extension or retraction of the ear growth thimble 300 into the mounting hole 110 by pressing the button 400, so as to facilitate the assembly or disassembly of the ear growth structure with the device main body of the wearable device. In addition, the two raw ear thimbles 300 can be synchronously driven by the key 400 and the first elastic element 200, so that the assembly or disassembly difficulty between the raw ear structure and the equipment main body can be reduced.

In addition, under the condition that the ear structure is applied to wearing equipment, the ear structure can be hidden in the wearing band of wearing equipment, and then the avoiding opening for operating the ear structure is not required to be arranged on the wearing band. On the one hand, can improve the integrality of wearing the area outward appearance, improve the apparent planarization of wearing the area, be of value to the aesthetic property and the wearing comfort level that improve the wearing area. On the other hand, give birth to the ear structure and hide in wearing the area of wearing equipment, can avoid wearing the area to form the recess that holds the dirt easily, the clearance of wearing equipment surface dirt of being convenient for.

In some alternative embodiments, when the key 400 drives the elastic portion 210 to switch from the first state to the second state, a distance that the first thimble retracts into the mounting hole 110 is a first distance, and a distance that the second thimble retracts into the mounting hole 110 is a second distance, where the first distance is equal to the second distance. Of course the first distance and the second distance may not be equal. For this reason, the present embodiment does not limit the magnitude of the first distance and the second distance.

In some alternative embodiments, the resilient portion 210 is in a compressed state in both the first and second states. Specifically, the length of the elastic part 210 in the first direction in the first state is greater than the length of the elastic part 210 in the first direction in the second state. This embodiment is beneficial to keeping the two sides of the elastic portion 210 in the stopping state with the first abutting portion 410 and the second abutting portion 420, respectively, and improving the stability of the assembly of the key 400 and the first elastic member 200.

In some alternative embodiments, when the key 400 drives the elastic portion 210 to switch to the first state, the elastic portion 210 is located at a fifth position relative to the key 400. When the key 400 drives the elastic portion 210 to switch to the second state, the elastic portion 210 is located at a sixth position relative to the key 400. The first abutting portion 410 and the second abutting portion 420 are both provided with abutting surfaces 411. For example, two sides of the elastic portion 210 in the first direction respectively abut against the abutting surfaces 411 of the first abutting portion 410 and the second abutting portion 420.

Illustratively, the elastic portion 210 is switchable between a fifth position and a sixth position along the pushing surface 411. In the fifth position, the distance between the first abutting portion 410 and the second abutting portion 420 in the first direction is the first distance. In the sixth position, the distance between the first abutting portion 410 and the second abutting portion 420 in the first direction is the second distance; the first pitch is greater than the second pitch.

In the above embodiment, in the process that the key 400 moves relative to the main body 100, the first abutting portion 410 and the second abutting portion 420 in the key 400 move relative to the elastic portion 210, so that the elastic portion 210 can move between the fifth position and the sixth position along the abutting surfaces 411 of the first abutting portion 410 and the second abutting portion 420.

Referring to fig. 1 and 3, when the key 400 is pressed by an external force, the elastic portion 210 can move from the fifth position to the sixth position along the abutting surfaces 411 of the first abutting portion 410 and the second abutting portion 420 until the elastic portion 210 moves to the sixth position. Further, the first distance is greater than the second distance, so that the elastic portion 210 can be compressed by the first abutting portion 410 and the second abutting portion 420 in the process of moving the elastic portion 210 to the sixth position. The elastic portion 210 is connected to the two raw ear thimbles 300 at two sides of the first direction, so as to drive the two raw ear thimbles 300 to move towards the direction of retracting the mounting hole 110.

In some embodiments, the abutting surface 411 may be an inclined surface disposed on the first abutting portion 410 and the second abutting portion 420. Optionally, the direction of the key 400 moving relative to the main body 100 is a second direction, and the pushing surface 411 is disposed to be inclined relative to the second direction toward the first direction. In this embodiment, the pushing surface 411 is formed as an inclined surface, which is beneficial to improve the smoothness of the movement of the button 400 with respect to the main body 100, and to improve the tactile sensation of the user pressing the button 400.

In addition, in the above embodiment, the button 400 can move relative to the ear body 100 under the action of external pressure, so as to drive the elastic portion 210 to move from the first position to the second position relative to the first pushing portion 410, so that the ear-producing thimble 300 moves into the mounting hole 110. After the pressing force applied to the key 400 is removed, the elastic force generated by the elastic portion 210 due to its deformation drives the key 400 to move relative to the ear growth pin 300, so that the elastic portion 210 moves from the second position to the first position relative to the first abutting portion 410, and further drives the ear growth pin 300 to protrude from the end of the ear growth main body 100 in the first direction toward the mounting hole 110.

The ear generating structure in the related technology mainly comprises an ear generating rod, a driving lever, an ear generating head and a spring. The ear generating rod is of a hollow cylindrical structure, and the ear generating heads are arranged at two ends of the ear generating rod and are in sliding fit with the ear generating rod. The spring is arranged in the raw ear rod, and two ends of the spring respectively abut against the raw ear heads at two ends of the raw ear rod, so that the spring can push the raw ear heads to protrude out of the end surfaces at two ends of the raw ear rod. The ear generating rod is provided with a mounting hole which penetrates through the cylinder wall of the ear generating rod and is communicated with the inner space of the ear generating rod. The driving lever is connected with the lug generating head and penetrates through the mounting hole and protrudes out of the outer side wall of the lug generating rod. The structure of the lug is small, so that the volume of the deflector rod is small. In the process of poking the poking rod, the contact area between the poking rod and the fingers is small, so that the local pressure is large, the difficulty in mounting or dismounting the ear generating structure is increased, and the pain of the hand of a user is enhanced. Moreover, the deflector rod can only drive one of the lug heads, so that the difficulty in dismounting and mounting the lug structure and the equipment main body is increased.

The raw ear structure described in the above embodiments adopts the key 400 to drive the raw ear thimbles 300 at the two ends of the raw ear main body 100 to move synchronously, which is beneficial to hiding the raw ear structure, increasing the contact area between the raw ear structure and the fingers in the operation process, and reducing the difficulty of dismounting between the raw ear structure and the device main body. Thus, the green ear structures described in the above embodiments are beneficial for improving the comfort of a user in removing or installing the green ear structures.

Referring to fig. 5 and 6, in some alternative embodiments, the raw ear body 100 is provided with a spring holder 120, and the spring holder 120 has a first stopper groove 121 disposed in a first direction. At least part of the elastic part 210 is located in the first limiting groove 121, and the elastic part 210 is in sliding fit with the first limiting groove 121.

Illustratively, the elastic portion 210 is supported on the inner sidewall of the first limiting groove 121 at two sides perpendicular to the guiding direction of the first limiting groove 121.

In the above embodiment, the first position-limiting groove 121 is beneficial to limit the deformation direction of the elastic portion 210. The first position-limiting groove 121 is disposed along a first direction, that is, a guiding direction of the first position-limiting groove 121 is the first direction. In the deformation process of the elastic portion 210, two sides of the elastic portion 210 in the first direction respectively extend and retract along the first limiting groove 121 in the first direction. Therefore, the spring support 120 according to this embodiment can limit the elastic portion 210 to be deformed in a first direction only by the first limiting groove 121 under the action of the button 400.

Referring to fig. 5 and 6, in some alternative embodiments, the raw ear body 100 is provided with two spring supports 120, and the two spring supports 120 are spaced apart. Further, the notches of the first limiting grooves 121 of the two spring brackets 120 are opposite to each other, so that the two sides of the elastic part 210 in the first direction can be respectively embedded in the first limiting grooves 121 of the two spring brackets 120. During the installation of the first elastic member 200, the elastic portion 210 may be compressed by pressing the elastic portion 210, so as to facilitate the assembly of the first elastic member 200 with the spring supporter 120.

In some alternative embodiments, under the condition that the elastic portion 210 is located at the first position relative to the first abutting portion 410, two sides of the elastic portion 210 in the first direction are respectively lower than the groove bottoms of the first limiting grooves 121 of the two spring brackets 120. This embodiment is beneficial to define the relative position between the first elastic element 200 and the opposite ear main body 100 by using two spring supports 120, so as to avoid the first elastic element 200 from shaking relative to the opposite ear main body 100 under the condition that the elastic portion 210 is located at the first position relative to the first abutting portion 410.

Referring to fig. 4, in some alternative embodiments, the raw ear structure further includes a second elastic member 500, the second elastic member 500 is disposed between the button 400 and the raw ear body 100, and the second elastic member 500 can drive the button 400 to move from the seventh position to the eighth position relative to the raw ear body 100. When the button 400 is located at the seventh position with respect to the main body 100, the elastic part 210 is in the second state. When the button 400 is positioned at the eighth position with respect to the ear body 100, the elastic portion 210 is in the first state.

In the above embodiment, the elastic force generated by the second elastic member 500 can assist the button 400 to move to the eighth position relative to the ear generating body 100, so that the elastic portion 210 of the first elastic member 200 is in the first state. Specifically, under the condition that living ear structure is used for wearing equipment, second elastic component 500 is of value to improving the steadiness of assembling between living ear structure and the equipment main part of wearing equipment, and then improves the steadiness of being connected between wearing area and the wearing equipment main part.

In an alternative embodiment, the key 400 is slidably engaged with the raw ear body 100 such that the key 400 is movable in a second direction relative to the raw ear body 100. Optionally, the second direction is perpendicular to the first direction. In this embodiment, the moving direction of the key 400 relative to the raw ear body 100 is perpendicular to the raw ear body 100, which is beneficial to hide the key 400 in the wearing belt. Further optionally, the key 400 may be configured to be sheet-shaped, so that the stressed area of the key 400 may be increased when the user presses the key 400 with a finger, which is beneficial to reducing the pressure applied to the user to operate the key 400 with the finger, and further avoiding the pain generated in the process of operating the key 400 with the finger.

Referring to fig. 3 and 4, in some alternative embodiments, the raw ear body 100 is provided with a key holder 130. The key 400 is movably disposed on the key holder 130. In this embodiment, the key holder 130 may provide a mounting base for the key 400, which is beneficial to improve the mounting stability of the key 400.

Referring to fig. 3 and 4, in some alternative embodiments, the key holder 130 is provided with a first position-limiting portion 131, and when the key 400 is located at an eighth position relative to the raw ear main body 100, at least a portion of the key 400 abuts against the first position-limiting portion 131. In this embodiment, the first position-limiting part 131 not only can prevent the button 400 from being separated from the button holder 130, but also is beneficial to achieving the accuracy of the moving position of the button relative to the main body 100.

In some alternative embodiments, when the button 400 is located at the eighth position relative to the raw ear body 100, the second elastic element 500 is in a compressed state, and the button 400 can be supported by the first position-limiting part 131 under the action of the second elastic element 500. This embodiment is beneficial to prevent the key 400 from shaking relative to the ear main body 100, and can prevent the key 400 from colliding with the ear main body 100 to generate sound.

In some alternative embodiments, the raw ear body 100 is a cylindrical structure. Further, the side wall of the raw ear main body 100 is provided with an avoiding hole, so that the first elastic member 200 and the raw ear thimble 300 can be installed in the installation hole through the avoiding hole. Illustratively, the key support 130 is disposed adjacent to the escape opening. Optionally, at least a portion of the elastic portion 210 protrudes out of the avoiding opening, so that at least a portion of the elastic portion 210 can be located between the first abutting portion 410 and the second abutting portion 420 of the key 400.

In the above embodiment, it is beneficial to increase the area of the operation surface of the key 400, where the operation surface of the key 400 is the stressed surface of the key 400 during the process of pressing the key 400 by the user. Therefore, this embodiment is beneficial for reducing the pressure on the finger during the user's manipulation of the auricle-forming structure, so as to avoid the finger from producing pain.

Referring to fig. 4, in some alternative embodiments, the raw ear body 100 is further provided with a first positioning member 140, the button 400 is provided with a second positioning member 430, the first positioning member 140 and the second positioning member 430 are slidably engaged, and the second positioning member 430 slides along the first positioning member 140 during the movement of the button 400 relative to the raw ear body 100. For example, the number of the first positioning members 140 and the second positioning members 430 is multiple, and the first positioning members 140 and the second positioning members 430 correspond to each other one by one.

Referring to fig. 4, in some alternative embodiments, one of the first positioning member 140 and the second positioning member 430 is provided with a guide hole 141, and the other is a guide post, and the guide post is at least partially located in the guide hole 141 and slidably engaged with an inner sidewall of the guide hole 141.

In the above embodiment, the first positioning element 140 and the second positioning element 430 may not only limit the moving track of the key 400 relative to the key holder 130, but also be beneficial to prevent the key 400 from shaking relative to the key holder during the switching process between the seventh position and the eighth position, and be beneficial to ensure the two sides of the elastic portion 210 in the first direction are stressed in a balanced manner. Thereby facilitating the synchronous extension and retraction of the two raw ear thimbles 300 relative to the raw ear main body 100.

In some alternative embodiments, the second elastic member 500 is disposed in the guide hole 141, and one end of the second elastic member 500 abuts against the bottom of the guide hole 141, and the other end of the second elastic member 500 abuts against the first positioning member 140. This embodiment is of value to improving the compactness of giving birth to the ear structure, and then is of value to reducing the volume of giving birth to the ear structure to give birth to the ear structure and hide in the wearing band.

Referring to fig. 7, in some alternative embodiments, the first elastic member 200 has two connection parts 220, and the two connection parts 220 are located at both sides of the elastic part 210 in the first direction and connected to the elastic part 210. One ends of the two connecting portions 220 far away from the elastic portion 210 are connected to the two raw ear thimbles 300 in a one-to-one correspondence manner.

In the above embodiment, after the elastic portion 210 is compressed by a force, the two raw ear thimbles 300 can be respectively driven by the two connecting portions 220 to move along the mounting hole 110 toward the direction of retracting the mounting hole 110, so as to realize synchronous contraction of the two raw ear thimbles 300. In addition, in the process of the elastic portion 210 recovering to deform and stretch, the elastic portion 210 can drive the raw ear thimble 300 to move along the mounting hole 110 toward the direction extending out of the mounting hole 110 through the two connecting portions 220, so that the two raw ear thimbles 300 synchronously protrude from the two ends of the raw ear main body 100 in the first direction.

In some alternative embodiments, the raw-lug thimble 300 is provided with a second limiting groove 310, and the end of the connecting portion 220 connected to the raw-lug thimble 300 is provided with a second limiting portion. The second position-limiting portion is at least partially located in the second position-limiting groove 310, and the second position-limiting portion is in position-limiting fit with the second position-limiting groove 310 in the first direction. For example, the second limiting portion is lower than two inner sidewalls of the second limiting groove 310 in the first direction, so that the connecting portion 220 can drive the raw ear thimble 300 to extend along the mounting hole 110 relative to the raw ear main body 100.

In some alternative embodiments, the inner sidewalls of both ends of the mounting hole 110 have annular protrusions; the outer side wall of the raw lug thimble 300 is provided with an annular boss. For example, the annular protrusions on the inner side walls of the two ends of the mounting hole 110 may stop against the annular protrusions on the outer side walls of the raw ear thimble 300, so as to prevent the raw ear thimble 300 from moving out of the mounting hole 110 from the two ends of the mounting hole 110.

Based on the raw ear structure provided by the embodiment of the invention, the embodiment of the invention also provides wearing equipment. Referring to fig. 8, the wearable device includes a device body 700 and a wearable band 600. Illustratively, the wearing belt 600 includes the raw ear structure 800 according to the present invention, and the wearing belt 600 can be detachably connected to the apparatus main body 700 through two raw ear thimble 300. When the elastic portion is in the second state, the two ear generating thimble 300 is separated from the main body of the apparatus, and the wearing belt 600 is separated from the main body of the apparatus 700. When the elastic portion is in the first state, the two ear growth pins 300 are connected to the device body 700, and the wearing band 600 is connected to the device body 700.

Illustratively, the raw ear structure 800 is disposed in the wearing belt 600, and at least a portion of the raw ear thimble 300 in the raw ear structure 800 may protrude out of both sides of the wearing belt 600. Further, the apparatus body 700 has two raw ear connection portions. Illustratively, two raw ear connections are spaced apart, and the raw ear structure 800 is positioned between the two raw ear connections. Illustratively, the opposing surfaces of the two raw ear connection portions are both provided with a limiting hole, and the raw ear thimble 300 in the raw ear structure 800 is at least partially located in the limiting hole.

In the above embodiment, the ear connection structure can be hidden in the wearing belt 600, so that the opening on the wearing belt 600 can be avoided, which is beneficial to improving the continuity and integrity of the surface of the wearing belt 600, and further improving the aesthetic property of the wearing belt 600. Meanwhile, the wearing belt 600 can be prevented from containing dirt, and the wearing belt 600 is convenient to clean.

In some alternative embodiments, the belt 600 may be made of a soft material to enhance the comfort of the belt 600. Illustratively, there are many types of soft materials, such as silicone, viton, leather, braiding, etc. Therefore, the specific material of the wearing band 600 is not limited in this embodiment.

In the above, the wearing band 600 is made of soft material, which is beneficial to reduce the resistance to the operation of the raw ear structure 800, and is further beneficial to reduce the difficulty of operating the raw ear structure 800.

The wearable device can be a watch, a mobile phone, an earphone, a medical apparatus and the like. For this reason, the specific type of the wearable device is not limited in the present embodiment.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. A raw ear structure is characterized by comprising a raw ear main body (100), a first elastic piece (200), a key (400) and two raw ear thimbles (300),

the raw ear main body (100) is provided with a mounting hole (110), the mounting hole (110) penetrates through the raw ear main body (100) along a first direction, and the two raw ear thimbles (300) are movably arranged in the mounting hole (110);

the first elastic piece (200) is arranged in the mounting hole (110), the first elastic piece (200) is provided with an elastic part (210), and two sides of the elastic part (210) in the first direction are respectively connected with the two lug generating thimbles (300);

the button (400) is movably arranged on the ear generating body (100), the button (400) is provided with a first pushing part (410) and a second pushing part (420), and the first pushing part (410) and the second pushing part (420) are respectively abutted against two sides of the elastic part (210) in the first direction;

the key (400) can drive the elastic part (210) to switch between a first state and a second state;

under the condition that the elastic part is in a first state, a first raw lug thimble of the two raw lug thimbles moves to a first position of the mounting hole, and a second raw lug thimble of the two raw lug thimbles moves to a second position of the mounting hole;

under the condition that the elastic part is in the second state, the first lug producing ejector pin moves to the third position of the mounting hole, and the second lug producing ejector pin moves to the fourth position of the mounting hole.

2. A green ear structure according to claim 1, characterized in that, in case the key (400) actuates the resilient part (210) to switch to the first state, the resilient part (210) is in a fifth position with respect to the key (400);

when the key (400) drives the elastic part (210) to switch to the second state, the elastic part (210) is located at a sixth position relative to the key (400);

the first pushing and supporting part (410) and the second pushing and supporting part (420) are both provided with pushing and supporting surfaces (411), and the elastic part (210) can be switched between the fifth position and the sixth position along the pushing and supporting surfaces (411);

in the fifth position, the distance between the first abutting part (410) and the second abutting part (420) in the first direction is a first distance;

in the sixth position, the distance between the first abutting part (410) and the second abutting part (420) in the first direction is a second distance; the first pitch is greater than the second pitch.

3. Raw ear structure according to claim 1, characterized in that the raw ear body (100) is provided with a spring holder (120), the spring holder (120) having a first retaining groove (121) arranged in the first direction, at least part of the resilient part (210) being located in the first retaining groove (121), the resilient part (210) being in sliding engagement with the first retaining groove (121).

4. A green ear structure as claimed in claim 1, characterized in that it further comprises a second elastic member (500), said second elastic member (500) being arranged between said key (400) and said green ear body (100), said second elastic member (500) being capable of driving said key (400) to move from a seventh position to an eighth position relative to said green ear body (100);

the elastic part (210) is in the second state when the key (400) is located at the seventh position relative to the raw ear body (100);

the elastic part (210) is in the first state when the key (400) is in the eighth position relative to the raw ear body (100).

5. A green ear structure, as claimed in claim 4, characterized in that the green ear body (100) is provided with a key holder (130), the key (400) being movably arranged to the key holder (130).

6. A raw ear structure as claimed in claim 5, characterized in that the key-holder (130) is provided with a first stop portion (131), and in case the key (400) is in the eighth position with respect to the raw ear body (100), at least part of the key (400) abuts against the first stop portion (131).

7. A green ear structure as claimed in claim 4, characterized in that the green ear body (100) is further provided with a first positioning member (140), the key (400) is provided with a second positioning member (430), the first positioning member (140) and the second positioning member (430) are in sliding engagement, and the second positioning member (430) slides along the first positioning member (140) during movement of the key (400) relative to the green ear body (100).

8. A green ear structure according to claim 7, characterized in that one of the first positioning element (140) and the second positioning element (430) is provided with a guiding hole (141) and the other is a guiding stud which is at least partly located in the guiding hole (141) and which is in sliding fit with an inner side wall of the guiding hole (141).

9. A raw ear structure as claimed in claim 8, characterized in that the second elastic member (500) is arranged in the guiding hole (141), and one end of the second elastic member (500) abuts against the bottom of the guiding hole (141), and the other end of the second elastic member (500) abuts against the first positioning member (140).

10. A raw ear structure as claimed in claim 1, characterized in that the first elastic member (200) has two connecting portions (220), two connecting portions (220) being located on both sides of the elastic portion (210) in the first direction and being connected to the elastic portion (210);

one end of each of the two connecting parts (220) far away from the elastic part (210) is correspondingly connected with the two lug producing thimbles (300) one by one.

11. A wearing apparatus comprising an apparatus main body (700) and a wearing belt (600), the wearing belt (600) comprising the raw ear structure (800) according to any one of claims 1 to 10, the wearing belt (600) being detachably connectable with the apparatus main body (700) through the two raw ear needles (300);

wherein, under the condition that the elastic part is in the second state, the two ear-growing thimbles (300) are separated from the equipment main body, and the wearing belt (600) is separated from the equipment main body (700);

under the condition that the elastic part is in the first state, the two ear generating thimbles (300) are connected with the equipment main body (700), and the wearing belt (600) is connected with the equipment main body (700).

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