CN219919121U - Intelligent host and wearable device - Google Patents

Abstract

The utility model discloses an intelligent host and wearable equipment. The host computer subassembly has the battery, and the earphone support is protruding locates one side of host computer subassembly, and the earphone support is used for bearing the earphone, and the earphone support is equipped with first electric spare, and first electric spare electricity is connected in the battery, and first electric spare is used for electrically connecting in bearing the earphone on the earphone support to the earphone on the earphone support is charged through first electric spare to the battery. Through locating the earphone support protruding in one side of host computer subassembly, make the earphone support be used for bearing the earphone in one side of host computer subassembly, can avoid the host computer subassembly to need to reserve the condition of bearing space for the earphone inside to avoid the arrangement of other devices that the host computer subassembly includes to receive the influence, and make the design that the host computer subassembly is more easy to realize more miniaturized, thereby the design that the wearable equipment is more easy to realize more miniaturized.

Description

Intelligent host and wearable device

Technical Field

The utility model relates to the technical field of intelligent equipment, in particular to an intelligent host and wearable equipment.

Background

In the related art, in order to be convenient for the user carry wireless bluetooth headset when wearing wearable equipment, often through setting up accommodation space in the host computer inside of wearable equipment, this accommodation space is used for holding bluetooth headset, and is equipped with in this accommodation space to be used for electrically connecting in bluetooth headset's first conductive part to be used for supplying the battery of smart host to charge to bluetooth headset.

However, this accommodation space has occupied the great inner space of intelligent host, influences the arrangement of other devices that intelligent host includes, and can lead to the volume of intelligent host great, is difficult to realize more miniaturized design.

Disclosure of Invention

The embodiment of the utility model discloses an intelligent host and wearable equipment, wherein the intelligent host can be used for bearing headphones, a large internal space is not required to be reserved for accommodating the headphones, and the intelligent host can realize a more miniaturized design.

In order to achieve the above object, the present utility model discloses a smart host, which is characterized in that the smart host is applied to a wearable device, the smart host comprising:

the host assembly is internally provided with a battery; the method comprises the steps of,

the earphone support, earphone support is protruding to be located the periphery side of host computer subassembly, the earphone support is used for bearing earphone, the earphone support is equipped with first electric connection spare, first electric connection spare electricity connect in the battery, just first electric connection spare is used for the electricity connect in bear in earphone on the earphone support, so that the battery passes through first electric connection spare is right earphone on the earphone support charges.

As an alternative implementation, in an embodiment of the present utility model, the host assembly includes a host housing, the earphone bracket includes a bracket housing, the bracket housing is connected to one side of the host housing, and the bracket housing is at least partially formed as one body with the host housing.

As an alternative embodiment, in an embodiment of the present utility model, the earphone holder is detachably connected to an outer peripheral side of the host assembly;

the periphery side of host computer subassembly is equipped with the second and connects the electric piece, the second connect electric piece electricity connect in the battery, first connect electric piece detachable electricity connect in the second connects electric piece when first connect electric piece with second connect electric piece electricity, supply the battery through the second connect electric piece and first connect electric piece to earphone on the earphone support charges, perhaps, the earphone support still is equipped with the third connect electric piece, the third connect electric piece electricity connect in first connect electric piece, just the third connect electric piece detachable electricity connect in second connect electric piece when third connect electric piece with second connect electric piece electricity connect, supply the battery through second connect electric piece third connect electric piece and first connect electric piece to earphone on the earphone support charges.

As an alternative implementation manner, in an embodiment of the present utility model, the second power receiving member is further configured to be electrically connected to an external power source or circuit, so that the external power source or circuit charges the host component.

As an alternative implementation manner, in an embodiment of the present utility model, one of the second power receiving member and the third power receiving member includes a slot, and the other includes a plug, so that the earphone bracket is detachably connected to an outer peripheral side of the host assembly; and/or the number of the groups of groups,

one side of the host computer subassembly still is equipped with first magnetism spare, the earphone support can dismantle connect in one side of the host computer subassembly still is equipped with the second magnetism spare, the second magnetism spare with first magnetism spare can dismantle looks magnetism inhale and be connected, so that the earphone support can dismantle connect in the periphery side of host computer subassembly.

As an optional implementation manner, in an embodiment of the present utility model, the earphone bracket includes a connection component and a bearing component, the connection component is connected to an outer peripheral side of the host component, the bearing component is connected to a side of the connection component, which is away from the host component, and the bearing component is formed with a bearing groove, the bearing groove is used for accommodating at least part of the earphone, the bearing groove is provided with the first electric connector, and when the earphone is placed in the bearing groove, the first electric connector is used for electrically connecting to the earphone.

As an alternative implementation manner, in the embodiment of the utility model, the carrying groove has a depth d which is 3mm less than or equal to d less than or equal to 10mm, and/or the carrying groove has a depth d, when the earphone is placed in the carrying groove, the earphone has a dimension h which is 0mm less than d less than or equal to 2/3h along the depth direction of the carrying groove, wherein the units of the depth d and the dimension h are mm.

As an optional implementation manner, in an embodiment of the present utility model, the headphones include two, the carrying slots also include two, and the two carrying slots are used for carrying the two headphones respectively;

the two bearing grooves are respectively a first bearing groove and a second bearing groove, and the second bearing groove is spaced from the first bearing groove.

As an alternative embodiment, in an embodiment of the present utility model, the first carrying groove has a first opening, the second carrying groove has a second opening, a direction from the earphone support to the host component is a first direction, and the first opening and the second opening are respectively oriented in directions perpendicular to two opposite sides of the first direction.

As an alternative implementation manner, in an embodiment of the present utility model, the first carrying groove has a first opening, the second carrying groove has a second opening, the second opening and the first opening face the same direction, and the second opening and the first opening face directions away from the host component, or the directions from the earphone support to the host component are the first directions, and the second opening and the first opening face directions perpendicular to the first directions.

As an alternative embodiment, in an embodiment of the present utility model, the host assembly has opposite first and second sides for connecting to a wearable part of the wearable device, and a third side connected between the first and second sides, the earphone holder protruding from the third side.

As an alternative embodiment, in an embodiment of the present utility model, in a direction from the first side to the second side, the main unit assembly has a first central axis, the main unit assembly further includes a display screen, the display screen is symmetrical about the first central axis, and the wearing part has a second central axis, the second central axis being coaxial with the first central axis.

As an optional implementation manner, in an embodiment of the present utility model, the host assembly includes a host support and a host body, the host support is used for connecting the wearable component, the battery is disposed in the host body, the earphone support is convexly disposed on a third side of the host body, the host body is rotatably connected to a first side of the host support, so that the host body is switched between a first state and a second state, the first state is a state in which the intelligent host is stacked on the host support, and the second state is a state in which the intelligent host rotates around the first side and forms a certain angle relative to the host support.

As an alternative implementation manner, in an embodiment of the present utility model, when the host body is in the first state, the host body has a dimension b1 along a direction from the first side to the second side, and when the earphone is carried on the earphone support, the earphone support and the earphone have dimensions b2 and b2 less than or equal to b1 along a direction from the first side to the second side, where units of b1 and b2 are both mm.

The utility model also discloses wearable equipment, which comprises the wearable part and the intelligent host, wherein the wearable part is connected with the intelligent host.

Compared with the prior art, the utility model has the beneficial effects that:

according to the intelligent host and the wearable device, the earphone support is arranged on the second side of the host component in the protruding mode, so that the earphone support is used for bearing the earphone on the second side of the host component, the situation that the host component needs to reserve bearing space for the earphone inside is avoided, the arrangement of other devices included in the host component is prevented from being influenced, and the host component is easier to achieve a more miniaturized design.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a structural front view of a wearable device (a main body in a first state) of an embodiment of the present utility model;

fig. 2 is a schematic structural perspective view of a wearable device (with a main body in a second state) according to an embodiment of the present utility model;

fig. 3 is a schematic exploded view of the wearable device (the main body in the second state) according to the embodiment of the present utility model;

FIG. 4 is an exploded schematic view of the smart host shown in FIG. 1;

FIG. 5 is a side view of the smart host (the earphone holder is detachably connected to the host assembly) according to an embodiment of the present utility model;

FIG. 6 is an exploded schematic view of one configuration of the smart host shown in FIG. 5;

FIG. 7 is another exploded view of the smart host shown in FIG. 5;

FIG. 8 is a further exploded view of the smart host shown in FIG. 5;

fig. 9 is a cross-sectional view of the smart host shown in fig. 5 along the A-A direction.

Description of the main reference numerals

A wearable device 1; a wearing part 10; an intelligent host 2; a host assembly 20; a host bracket 20a; a host body 20b; a first side 201; a first side 201a; a second side 202; a second side 202a; a third side 203; a display screen 204; a main body case 205; a second power receiving element 205a; a first magnetic member 205b; a headphone holder 21; a first electrical connector 210; a first sub-piece 210a; a second sub-part 210b; a holder housing 211; a first housing 211a; a second housing 211b; a third electrical connector 212; a second magnetic member 213; a connection assembly 214; a carrier assembly 215; a carrying groove 2150; a first load-bearing groove 2150a; a second load-bearing groove 2150b; a first opening 2150c; a second opening 2150d; a third magnetic member 2151; a control circuit board 216; an earphone 3; a first electrical connection 31; a second electrical connection 32.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

In the present utility model, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present utility model and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present utility model will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different devices, elements, or components (the particular species and configurations may be the same or different), and are not used to indicate or imply the relative importance and number of devices, elements, or components indicated. Unless otherwise indicated, the meaning of "a plurality" is two or more.

The technical scheme of the utility model will be further described with reference to the examples and the accompanying drawings.

Referring to fig. 1 to 3 together, fig. 1 is a front view of a wearable device according to an embodiment of the present utility model, fig. 2 is a schematic perspective view of a wearable device (with a main body in a second state) according to an embodiment of the present utility model, and fig. 3 is a schematic perspective view of a wearable device (with a main body in a second state) according to another embodiment of the present utility model. The embodiment of the utility model discloses a wearable device 1, and the wearable device 1 can comprise, but is not limited to, a smart watch, a smart bracelet, a smart arm ring, a smart leg ring and the like. Specifically, the intelligent host 2 and the wearing part 10 are included, and the wearing part 10 is connected to at least one side of the intelligent host 2. For example, when the wearable device 1 is a smart watch, the smart host 2 may be a watch body of the smart watch, the wearing part 10 may be a watchband of the smart watch, when the wearable device 1 is a smart armband, the smart host 2 may be a body part of the smart armband, and the wearing part 10 may be an armband of the smart armband.

Specifically, the smart host 2 is applied to the wearable device 1, and the smart host 2 includes a host component 20 and a headset bracket 21. The host assembly 20 has a battery (not shown in the drawings), the earphone support 21 is protruding on the outer peripheral side of the host assembly 20, the earphone support 21 is used for bearing the earphone 3, the earphone support 21 is provided with a first electric connector 210, the first electric connector 210 is electrically connected to the battery, and the first electric connector 210 is used for electrically connecting to the earphone 3 borne on the earphone support 21, so as to charge the earphone 3 on the earphone support 21 by the battery through the first electric connector 210, wherein in fig. 1, the earphone 3 is shown to be placed on the earphone support 21.

This smart host 2 is through locating the periphery side of host computer subassembly 20 with earphone support 21 protruding, makes earphone support 21 be used for bearing the weight of earphone 3 in the periphery side of host computer subassembly 20, can avoid host computer subassembly 20 to need to reserve the condition of bearing the weight of space for earphone 3 inside to avoid the arranging of other devices that host computer subassembly 20 includes to receive the influence, and make host computer subassembly 20 more easily realize more miniaturized design, thereby wearable device 1 more easily realizes more miniaturized design.

In some embodiments, the host assembly 20 may have a first side 201 and a second side 202 opposite to each other for connecting to the wearing part 10 of the wearable device 1, and a third side 203 connected between the first side 201 and the second side 202, and the earphone support 21 may be convexly disposed on the third side 203, so that a position of the host assembly 20 for connecting to the wearing part 10 can be distinguished from a position connected to the earphone support 21, on one hand, interference between the earphone support 21 and the structure of the wearing part 10 can be avoided, and on the other hand, excessive complexity of a local structure of the host assembly 20 can be avoided.

In an exemplary embodiment, along the opposite direction of the first side 201 and the second side 202, the main unit 20 may have a central axis S, the wearing part 10 of the main unit 20 for connection is symmetrical about the central axis S, the main unit 20 further includes a display screen 204, the display screen 204 is disposed on one side connected to the first side 201, the second side 202 and the third side 203, and the display screen 204 is also symmetrical about the central axis S, in other words, the earphone bracket 21 is protruded on the third side 203 of the main unit 20, so that the main unit 20b and the earphone bracket 21 are not symmetrical about the central axis S, and the main unit 20b is symmetrical about the central axis S, i.e., the earphone bracket 21 is protruded on the periphery of the main unit 20, so that there is no need to reserve a space on the main unit 20 for disposing the earphone bracket 21, which not only can avoid the influence on the self-structure design of the main unit 20, i.e., the earphone bracket 21 does not occupy the internal space of the main unit 20, avoid the influence on other devices included in the main unit 20, but also avoid the influence on the self-size of the main unit 20.

In some embodiments, the host assembly 20 may include a host support 20a and a host body 20b, where the host support 20a has a first side 201 and a second side 202, the host body 20b has a third side 203 and a battery, and the host body 20b is rotatably connected to the first side 201, so that the host body 20b is switched between a first state and a second state, the first state is a state in which the smart host 2 is stacked on the host support 20a, and the second state is a state in which the smart host 2 rotates around the first side 201 and forms an angle with respect to the host support 20a, so that the host body 20b can obtain a plurality of different usage positions by moving with respect to the host support 20a on one hand, and can be connected to the wearing part 10 by the host support 20a on the other hand, in other words, the structure of the host body 20b for connecting to the wearing part 10 is not required, so that the structure of the host body 20b is simpler.

As shown in fig. 1, alternatively, when the host body 20b is in the first state, the host body 20b may have a dimension b1 along a direction opposite to the first side 201 and the second side 202, and when the earphone 3 is carried on the earphone support 21, the earphone support 21 and the earphone 3 may have dimensions b2, b2 being equal to or less than b1 along a direction opposite to the first side 201 and the second side 202, where b1 and b2 are each in mm, so that when the host body 20b is in the second state, the earphone support 21 may rotate along the host body 20b relative to the host support 20a around the first side 201, and since the dimension b2 of the earphone support 21 is smaller than or equal to the dimension b1 of the host body 20b, the earphone support 21 and the earphone 3 may not interfere with the host support 20a or a wearing part of a user, wherein fig. 1 shows that after the earphone 3 is placed on the earphone support 21, the earphone 3 and the earphone support 21 have dimensions b2 are smaller than the dimension b1 of the host body 20 b.

Illustratively, when the main body 20b is in the first state, a side of the main body 20b facing the first side 201 has a first side 201a and a side 202 facing the second side has a second side 202a, and when the headset 3 is placed on the headset holder 21, the headset 3 does not protrude from the first side 201a and the second side 202a, in other words, when the headset 3 is placed on the headset holder 21, the headset 3 is recessed in or flush with the first side 201a, and the headset 3 is recessed in or flush with the second side 202a, such that the headset holder 21 and the structure of the headset 3 do not interfere with the wearing part of the user or the main body 20a when the headset holder 21 follows the main body 20b to rotate around the first side 201 relative to the main body 20 a.

It will be appreciated that in other embodiments, the host assembly 20 may not include the host bracket 20a, and the headset bracket 21 may be further protruding from the first side 201, the second side 202, or other sides of the host assembly 20.

The earphone support 21 and the host assembly 20 can be fixed or detachable to meet different design and use requirements.

Referring to fig. 4, in an alternative embodiment, the host assembly 20 may include a host housing 205 (it may be understood that when the host assembly 20 includes a host body 20b and a host bracket 20a, the host body 20b may include the host housing 205), the earphone bracket 21 may include a bracket housing 211, the bracket housing 211 may be connected to an outer peripheral side of the host housing 205, and the bracket housing 211 may be at least partially formed with the host housing 205, so that an assembly process of the bracket housing 211 and the host housing 205 is not required, a manufacturing step of the smart host 2 may be simplified, and an assembly error of the bracket housing 211 and the host housing 205 may be eliminated, as shown in fig. 4, the bracket housing 211 is partially formed with the host housing 205 as a whole.

Note that, forming the main body housing 205 integrally with at least part of the holder housing 211 means that: the main body housing 205 and at least part of the bracket housing 211 are connected into a whole, so that the split is not easy. While the mainframe housing 205 is integrally connected to at least a portion of the rack housing 211, it may include, but is not limited to: during processing and manufacturing, the main machine shell 205 and at least part of the bracket shell 211 are respectively formed by injection molding, and then the main machine shell 205 and at least part of the bracket shell 211 are connected into a whole which is not easy to split by gluing or injection molding again; alternatively, the main housing 205 is integrally formed with at least a portion of the bracket housing 211 as a unitary structure.

Referring to fig. 5 to 7, in another alternative embodiment, the earphone holder 21 is detachably connected to the outer peripheral side of the host assembly 20, so that the earphone holder 21 can be removed from the host assembly 20 when the earphone 3 is not required to be charged, thereby reducing the total weight and volume of the parts to be worn by the user.

Further, a second electrical connector 205a may be disposed on one side of the host assembly 20, the second electrical connector 205a is electrically connected to the battery, the first electrical connector 210 is detachably electrically connected to the second electrical connector 205a, when the first electrical connector 210 is electrically connected to the second electrical connector 205a, the battery charges the earphone 3 on the earphone support 21 through the second electrical connector 205a and the first electrical connector 210, or the earphone support 21 may be further provided with a third electrical connector 212, the third electrical connector 212 is electrically connected to the first electrical connector 210, and the third electrical connector 212 is detachably electrically connected to the second electrical connector 205a, so that when the earphone support 21 is detachably connected to the host assembly 20, the third electrical connector 212 is detachably electrically connected to the second electrical connector 205a, so that the battery charges the earphone 3 on the earphone support 21 through the second electrical connector 205a, the third electrical connector 212 and the first electrical connector 210.

Optionally, the second electrical connector 205a may be further electrically connected to an external power source or circuit, so that the external power source or circuit charges the host assembly 20, and thus the charging interface of the host assembly 20 is used as the second electrical connector 205a, in other words, the charging interface of the host assembly 20 is structurally multiplexed, and the second electrical connector 205a is not required to be additionally arranged on the host assembly 20, so that the host assembly 20 is compact.

Alternatively, the detachable connection of the earphone holder 21 to the outer peripheral side of the host assembly 20 may be achieved by a variety of different means.

In an alternative example, one of the second electrical connector 205a and the third electrical connector 212 may include a slot, and the other of the two may include a plug, for example, the second electrical connector 205a includes a slot and the third electrical connector 212 includes a plug, or the second electrical connector 205a includes a plug and the third electrical connector 212 includes a slot, so that the earphone bracket 21 is detachably connected to the outer peripheral side of the host assembly 20, so that the second electrical connector 205a and the third electrical connector 212 can be structurally multiplexed to detachably plug-in with the second electrical connector 205a and the third electrical connector 212, so as to realize detachably connecting the earphone bracket 21 to the outer peripheral side of the host assembly 20.

Referring to fig. 7 to 9, in another alternative example, a first magnetic member 205b may be further disposed on one side of the host assembly 20, and a second magnetic member 213 may be further disposed on one side of the earphone bracket 21 detachably connected to the host assembly 20, where the second magnetic member 213 is detachably magnetically connected to the first magnetic member 205b, so that the earphone bracket 21 is detachably connected to the outer peripheral side of the host assembly 20.

Optionally, the first magnetic pieces 205b may be multiple, the first magnetic pieces 205b may be spaced apart from one side of the host assembly 20, the second magnetic pieces 213 may be multiple, the second magnetic pieces 213 may be spaced apart from the earphone support 21, and the second magnetic pieces 213 are respectively detachably magnetically connected with the first magnetic pieces 205b, so that the stability of the magnetic connection between the host assembly 20 and the earphone support 21 is improved by increasing the number of the first magnetic pieces 205b and the second magnetic pieces 213.

In yet another alternative example, one of the second electrical connector 205a and the third electrical connector 212 may include a slot, the other of the two may include a plug, and one side of the host assembly 20 may further be provided with a first magnetic member 205b, and one side of the headset bracket 21 detachably connected to the host assembly 20 may further be provided with a second magnetic member 213, where the second magnetic member 213 is detachably magnetically connected to the first magnetic member 205b, so that the second electrical connector 205a and the third electrical connector 212 can be structurally multiplexed, and the first magnetic member 205b can be detachably connected to the second magnetic member 213 to further enhance the stability of the detachable connection of the host assembly 20 to the headset bracket 21, as shown in fig. 7, and fig. 8 illustrates that the second magnetic member 213 is annularly disposed on the outer periphery of the third electrical connector 212, so as to magnetically connect from the outer periphery of the third electrical connector 212 to the corresponding first magnetic member 205b, thereby further enhancing the stability of the detachable connection of the host assembly 20 to the headset bracket 21.

Next, the specific structure of the headphone support 21 will be described in detail with reference to the drawings.

Referring to fig. 8 and 9 together, in some embodiments, the headset support 21 may include a connection component 214 and a bearing component 215, the connection component 214 is connected to an outer peripheral side of the host component 20, the bearing component 215 is connected to a side of the connection component 214 facing away from the host component 20, the bearing component 215 is formed with a bearing groove 2150, the bearing groove 2150 is used for accommodating at least a portion of the headset 3, a first power receiving member 210 is disposed in the bearing groove 2150, and when the headset 3 is placed in the bearing groove 2150, the first power receiving member 210 is used for electrically connecting to the headset 3, and by providing the bearing groove 2150, it is convenient to indicate to a user that the headset 3 is placed on the bearing component 215 of the headset 3, and on the other hand, at least a portion of the headset 3 placed in the bearing groove 2150 can be limited by a groove wall of the bearing groove 2150, so as to keep the headset 3 in a posture electrically connected with the first power receiving member 210.

As described above, the earphone holder 21 may include the holder housing 211, and in this case, alternatively, the holder housing 211 may include a first housing 211a and a second housing 211b which are separately provided, the first housing 211a is fastened to the second housing 211b, the connection assembly 214 includes the first housing 211a, the first housing 211a is connected to the outer peripheral side of the main assembly 20, the third power receiving member 212 is provided on the first housing 211a, the carrier assembly 215 includes the second housing 211b, the second housing 211b is formed with the carrier groove 2150, and the opening of the first housing 211a and the second housing 211b to expose the inner space of the first housing 211a and the second housing 211b is facilitated by providing the holder housing 211 with the first housing 211a and the second housing 211b separately, so that other components included in the earphone holder 21 are conveniently mounted or dismounted inside the first housing 211a and the second housing 211 b.

Alternatively, when the earphone holder 21 is fixed to the host assembly 20, the first housing 211a may be integrally formed with the host housing 205, and when the earphone holder 21 is detachably connected to the host assembly 20, the first housing 211a may be detachably connected to the host housing 205, and the third power connector 212 is disposed on the first housing 211a.

The inventors have further studied and found that, when the earphone 3 is placed in the carrying groove 2150 by reducing the depth of the carrying groove 2150, at least about one third of the earphone 3 is exposed to the external environment, so as to facilitate the taking and placing of the earphone 3, and in this alternative embodiment, when the earphone 3 is placed in the carrying groove 2150, the earphone 3 has a dimension h along the depth direction of the carrying groove 2150, where the depth d and the dimension h can satisfy:wherein the depth d and the dimension h are both in mm, for example, the depth d may be: />Etc. The size h of the earphone 3 may be selected according to the specific use and design requirements of the earphone 3, and in an exemplary embodiment, the size h of the earphone 3 may be 27mm, and then the depth d may satisfy: 0mm < d.ltoreq.18 mm, for example, the depth d may be: 1mm, 2mm, 5mm, 10mm, 12mm, 14mm, 15mm, 16mm, 17mm, 18mm, or the like.

It can be appreciated that by reducing the depth d of the carrying groove 2150, the volume of the second housing 211b can also be reduced, thereby reducing the volume of the earphone holder 21 as a whole.

In yet another alternative embodiment, when the size h of the earpiece 3 satisfies: when d is more than or equal to 4.5mm and less than or equal to 15mm, the depth d can satisfy the following conditions:when the size h of the earphone 3 satisfies: when 15mm < d, the depth d can satisfy: d is more than or equal to 3mm and less than or equal to 10mm, in other words, the depth d can be made to satisfy the following conditions: d is more than or equal to 3mm and less than or equal to 10mm, and the depth d and the dimension h also meet the requirement +.>Thereby can make the cell wall that bears the weight of groove 2150 to placing in the spacing, the guard action of the earphone 3 that bear in groove 2150 better, can also be convenient for the user one-hand operation realize taking of earphone 3 and put.

In some embodiments, the earphone holder 21 may further include a third magnetic member 2151, where the third magnetic member 2151 is disposed in the second housing 211b corresponding to the carrying groove 2150, and when the earphone 3 is placed in the carrying groove 2150, the third magnetic member 2151 is used for magnetically connecting to the earphone 3, so that stability of the carrying effect of the earphone holder 21 on the earphone 3 when the earphone 3 is placed in the carrying groove 2150 can be further improved.

In general, the number of the earphone 3 is two, and based on this, in some embodiments, the carrying grooves 2150 also include two, and the two carrying grooves 2150 are used for carrying the two earphone 3 respectively, so that the corresponding carrying grooves 2150 of the two earphone 3 are independent, and interference of the two earphone 3 during the process of placing the earphone 3 on the carrying component 215 is avoided.

Alternatively, the two carrying grooves 2150 may be a first carrying groove 2150a and a second carrying groove 2150b, respectively, the first carrying groove 2150a has a first opening 2150c, the second carrying groove 2150b has a second opening 2150d, the second carrying groove 2150b is spaced from the first carrying groove 2150a, and the second opening 2150d and the first opening 2150c may be oriented identically or inversely, or may be angled, so that the relative positional relationship between the first carrying groove 2150a and the second carrying groove 2150b is flexible, and a plurality of different designs may be implemented according to the usage requirement.

In an alternative example, taking the direction from the earphone support 21 to the host assembly 20 as the direction X, the first opening 2150c and the second opening 2150d may be respectively oriented towards two opposite sides perpendicular to the direction X, so that the relative positions of the two earphones 3 and the host assembly 20 are more compact, as shown in fig. 9, the first opening 2150c and the second opening 2150d are respectively oriented towards two opposite sides perpendicular to the direction X, as shown in fig. 9.

In another alternative example, the second opening 2150d and the first opening 2150c may face the same direction, and the second opening 2150d and the first opening 2150c may face the direction away from the host assembly 20, or the direction from the earphone holder 21 to the host assembly 20 may be the direction X, and the second opening 2150d and the first opening 2150c may face the direction perpendicular to the direction X, so that the user may take and put two earphones 3 from the same direction with one hand.

In some embodiments, the first electrical connector 210 may include a first sub-component 210a and a second sub-component 210b disposed at intervals, the earphone 3 may be provided with a first electrical connector 31 and a second electrical connector 32 at intervals, when the earphone 3 is placed in the carrying groove 2150, the first sub-component 210a abuts against and is electrically connected to the first electrical connector 31, the second sub-component 210b abuts against and is electrically connected to the second electrical connector 32, and the earphone 3 is rotatable around the first sub-component 210a relative to the second housing 211b, the second sub-component 210b is an annular structure disposed around the first sub-component 210a, or the second electrical connector 32 is an annular structure disposed around the first electrical connector 31, or the second sub-component 210b is an annular structure disposed around the first sub-component 210a, and the second electrical connector 32 is an annular structure disposed around the first electrical connector 31, so that when the earphone 3 is placed in the carrying groove 0 around the first sub-component 210a at a different relative angle relative to the second housing 211b, the earphone 3 can be stored in the carrying groove 210a more flexible manner than the first sub-component 210a and can be connected to the second electrical connector 2150.

Specific structures of the first sub-member 210a, the second sub-member 210b, the first electrical connector 31, and the second electrical connector 32 will be listed below.

In an alternative example, the first sub-member 210a may be a contact structure, the second sub-member 210b may be an annular contact structure spaced around the first sub-member 210a, the first electrical connector 31 and the second electrical connector 32 may be two contact structures spaced apart, and the spacing distance between the first electrical connector 31 and the second electrical connector 32 is substantially equal to the spacing distance between the first sub-member 210a and the second sub-member 210 b.

In another alternative example, the first electrical connector 31 may be a contact structure, the second electrical connector 32 may be an annular contact structure spaced around the first electrical connector 31, the first sub-member 210a and the second sub-member 210b may be two contact structures spaced apart, and the spacing distance between the first sub-member 210a and the second sub-member 210b is substantially equal to the spacing distance between the first electrical connector 31 and the second electrical connector 32.

In yet another alternative embodiment, the first electrical connector 31 may be a contact structure, the second electrical connector 32 may be an annular contact structure spaced around the first electrical connector 31, and the spacing distance between the first sub-member 210a and the second sub-member 210b is substantially equal to the spacing distance between the first electrical connector 31 and the second electrical connector 32.

In some embodiments, the earphone support 21 may further include a control circuit board 216, where the control circuit board 216 may be disposed inside the first housing 211a or inside the second housing 211b, or the control circuit board 216 may be disposed at a position where the first housing 211a is in communication with the second housing 211b, such that a portion of the control circuit board 216 is disposed inside the first housing 211a, another portion is disposed inside the second housing 211b, and the control circuit board 216 is electrically connected to the first power connector 210, or electrically connected between the first power connector 210 and the third power connector 212, and the control circuit board 216 is used to control and regulate the current supplied from the battery to the first power connector 210 so as to protect the internal circuit of the earphone 3 electrically connected to the first power connector 210. In addition, the control circuit board 216 may be further configured to receive a signal sent from the headset 3 to monitor the charging condition of the headset 3, so as to realize a function of knowing the power information of the headset 3. Further, the control circuit board 216 can also cut off the circuit between the first power receiving member 210 and the battery when the earphone 3 is fully charged, so as to avoid the overcharge of the earphone 3.

In some embodiments, the headset holder 21 may further include a holder battery (not shown in the drawings), so that the headset holder 21 further has a power storage function. Specifically, the stand battery may be disposed inside the first housing 211a or inside the second housing 211b, or the stand battery may be disposed at a communication place of the first housing 211a and the second housing 211b such that a portion of the stand battery is disposed inside the first housing 211a and another portion of the stand battery is disposed inside the second housing 211b, and the stand battery is electrically connected to the control circuit board 216 to be electrically connected to the third power connector 212 through the control circuit board 216, so that the host assembly 20 may charge the battery through the third power connector 212 when the third power connector 212 is electrically connected to the host assembly 20, and the battery may charge the earphone 3 through the first power connector 210 when the first power connector 210 is electrically connected to the earphone 3.

According to the wearable device 1 provided by the utility model, the earphone bracket 21 is arranged on the outer peripheral side of the host component 20 in a protruding manner, so that the earphone bracket 21 is used for bearing the earphone 3 on the outer peripheral side of the host component 20, the situation that the host component 20 needs to reserve a bearing space for the earphone 3 internally can be avoided, the arrangement of other devices included in the host component 20 is prevented from being influenced, the host component 20 is easier to realize a more miniaturized design, and the intelligent host 2 and the whole wearable device 1 are easier to realize a more reasonable and miniaturized design.

The smart host and the wearable device disclosed in the embodiments of the present utility model are described in detail, and specific examples are applied to illustrate the principles and the implementation of the present utility model, where the description of the above embodiments is only used to help understand the smart host and the wearable device of the present utility model and the core ideas thereof; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the idea of the present utility model, the present disclosure should not be construed as limiting the present utility model in summary.

Claims (14)

1. A smart host, the smart host being applied to a wearable device, the smart host comprising:

the host assembly is internally provided with a battery; the method comprises the steps of,

the earphone bracket is arranged on the outer peripheral side of the host component in a protruding mode, the earphone bracket is used for bearing an earphone, the earphone bracket is provided with a first electric connection piece, the first electric connection piece is electrically connected with the battery, and the first electric connection piece is used for being electrically connected with the earphone borne on the earphone bracket so as to charge the earphone on the earphone bracket through the first electric connection piece by the battery;

the outer peripheral side of the host assembly is provided with a second electric connector which is electrically connected with the battery, the earphone bracket is also provided with a third electric connector which is electrically connected with the first electric connector;

one of the second power receiving piece and the third power receiving piece comprises a slot, and the other one of the second power receiving piece and the third power receiving piece comprises a plug, so that the earphone bracket is detachably connected to the outer peripheral side of the host component; and/or the number of the groups of groups,

one side of the host computer subassembly still is equipped with first magnetism spare, the earphone support can dismantle connect in one side of the host computer subassembly still is equipped with the second magnetism spare, the second magnetism spare with first magnetism spare can dismantle looks magnetism inhale and be connected, so that the earphone support can dismantle connect in the periphery side of host computer subassembly.

2. The smart host of claim 1, wherein the host assembly comprises a host housing, the headset bracket comprises a bracket housing, the bracket housing is connected to one side of the host housing, and the bracket housing is at least partially formed as one piece with the host housing.

3. The smart host as recited in claim 1, wherein the earphone holder is detachably connected to an outer peripheral side of the host assembly;

the first electric connector is detachably and electrically connected to the second electric connector, when the first electric connector is electrically connected with the second electric connector, the battery is charged by the second electric connector and the first electric connector to the earphone on the earphone support, or the third electric connector is detachably and electrically connected to the second electric connector, and when the third electric connector is electrically connected with the second electric connector, the battery is charged by the second electric connector, the third electric connector and the first electric connector to the earphone on the earphone support.

4. The intelligent host of claim 3, wherein the second power connector is further configured to be electrically connected to an external power source or circuit for charging the host component by the external power source or circuit.

5. The intelligent host machine according to claim 1, wherein the earphone bracket comprises a connection component and a bearing component, the connection component is connected to the outer peripheral side of the host machine component, the bearing component is connected to the side, away from the host machine component, of the connection component, and is provided with a bearing groove for accommodating at least part of the earphone, the bearing groove is internally provided with the first electric connector, and when the earphone is placed in the bearing groove, the first electric connector is used for being electrically connected to the earphone.

6. The intelligent host according to claim 5, wherein the carrying groove has a depth d,3 mm.ltoreq.d.ltoreq.10 mm, and/or the carrying groove has a depth d, the earphone has a dimension h along the depth direction of the carrying groove when the earphone is placed in the carrying groove,wherein, the units of the depth d and the dimension h are mm.

7. The intelligent host of claim 5, wherein the headphones comprise two, the carrying slots also comprise two, and the two carrying slots are used for carrying the two headphones respectively;

the two bearing grooves are respectively a first bearing groove and a second bearing groove, and the second bearing groove is spaced from the first bearing groove.

8. The intelligent host of claim 7, wherein the first carrying slot has a first opening and the second carrying slot has a second opening, the direction from the earphone support to the host assembly being a first direction, the first opening and the second opening facing directions perpendicular to opposite sides of the first direction, respectively.

9. The smart host of claim 7, wherein the first carrying slot has a first opening and the second carrying slot has a second opening, the second opening being oriented the same as the first opening, the second opening and the first opening both being oriented away from the host assembly, or wherein the direction from the earphone support toward the host assembly is a first direction, the second opening and the first opening both being oriented perpendicular to the first direction.

10. The smart host of any one of claims 1-9, wherein the host assembly has opposing first and second sides for connection to a wearable component of the wearable device, and a third side connected between the first and second sides, the earphone support protruding from the third side.

11. The smart host of claim 10, wherein the host assembly has a first central axis in a direction from the first side to the second side, the host assembly further comprising a display screen, the display screen being symmetrical about the first central axis, the wearable component having a second central axis, the second central axis being coaxial with the first central axis.

12. The intelligent host of claim 10, wherein the host assembly comprises a host support and a host body, the host support is configured to connect to the wearable device, the battery is disposed in the host body, the earphone support is disposed on a third side of the host body in a protruding manner, the host body is rotatably connected to a first side of the host support, so that the host body is switched between a first state and a second state, the first state is a state in which the intelligent host is stacked on the host support, and the second state is a state in which the intelligent host rotates around the first side and forms an angle with respect to the host support.

13. The intelligent host of claim 12, wherein the host body has a dimension b1 along the direction from the first side to the second side when the host body is in the first state, and wherein the headset support has a dimension b2, b2 being less than or equal to b1, wherein b1 and b2 are each in mm, along the direction from the first side to the second side when the headset is carried on the headset support.

14. A wearable device comprising a wearable component and a smart host of any of claims 1-13, the wearable component being connected to the smart host.