CN220024325U - Watchband mechanism, detachable assembly and wearable equipment - Google Patents

Abstract

The application provides a watchband mechanism, a detachable assembly and wearable equipment, wherein the watchband mechanism comprises: watchband subassembly and detachable component, and detachable component includes: a sliding assembly and a pushing assembly; the sliding component is arranged in the watchband component in a sliding way and protrudes out of the watchband component; the pushing component is arranged on the watchband component in a sliding way, and the sliding component is positioned on the sliding path of the pushing component; when the pushing component slides from the first position to the second position, the pushing component pushes the sliding component to slide into the watchband component; the sliding assembly is configured to slide outward of the wristband assembly when the pushing assembly is reset to the first position. Through above-mentioned setting, can utilize the detachable component to realize the detachable connection of watchband subassembly and gauge outfit mechanism to promote the dismantlement convenience of both.

Description

Watchband mechanism, detachable assembly and wearable equipment

Technical Field

The application relates to the technical field of wearable equipment, in particular to a watchband mechanism, a detachable assembly and the wearable equipment.

Background

Currently, in order to facilitate the replacement or maintenance of the head and the wristband, most watches have heads and wristbands detachably connected by means of a raw ear pin. However, the existing thumb levers for the ear-generating hands are generally designed to be smaller, which is inconvenient for the user to operate and reduces the convenience for the user to detach the watch head and the watchband.

Disclosure of Invention

In one aspect, embodiments of the present utility model provide a watchband mechanism, including: watchband subassembly and detachable component, just detachable component includes: a sliding assembly and a pushing assembly;

the sliding component is arranged in the watchband component in a sliding manner and protrudes out of the watchband component; the pushing component is slidably arranged on the watchband component, and the sliding component is positioned on the sliding path of the pushing component; when the pushing component slides from the first position to the second position, the pushing component props against the sliding component to slide into the watchband component; the sliding assembly is configured to slide outward of the wristband assembly when the pushing assembly is reset to the first position.

Another aspect of the embodiments of the present utility model provides a detachable assembly for connecting a wristband mechanism and a header mechanism, the detachable assembly comprising: a housing assembly, a sliding assembly, and a pushing assembly; the shell component is connected with the watchband mechanism and is assembled on the watch head mechanism; the sliding component is arranged in the shell component in a sliding way and protrudes out of the shell component to be clamped into the gauge outfit mechanism; the pushing component is arranged on the shell component in a sliding way, and the sliding component is positioned on a sliding path of the pushing component; when the pushing component slides from the first position to the second position, the pushing component pushes the sliding component to slide into the shell component so as to withdraw from the gauge outfit mechanism; the sliding assembly is configured to slide outwardly of the housing assembly when the push assembly is reset to the first position.

The embodiment of the application also provides a wearable device, which comprises: a gauge outfit mechanism and a watchband mechanism; the gauge outfit mechanism is provided with an accommodating groove, and the inner wall of the accommodating groove is also provided with a connecting hole; the watchband mechanism includes: watchband component and detachable component; the watchband component is assembled in the accommodating groove; the detachable assembly includes: a sliding assembly and a pushing assembly; the sliding component is arranged in the watchband component in a sliding manner and protrudes out of the watchband component to be clamped into the connecting hole; the pushing component is slidably arranged on the watchband component, and the sliding component is positioned on the sliding path of the pushing component; when the pushing component slides from the first position to the second position, the pushing component props against the sliding component to slide into the watchband component so as to withdraw from the connecting hole; the sliding assembly is configured to slide outward of the wristband assembly when the pushing assembly is reset to the first position.

According to the watchband mechanism provided by the embodiment of the application, the sliding component and the pushing component are arranged on the watchband component in a sliding manner, and the sliding component is also arranged protruding out of the watchband component and is positioned on the sliding path of the pushing component, so that when the pushing component slides from the first position to the second position, the sliding component can slide into the watchband component under the pushing of the pushing component. Simultaneously, through setting up the promotion subassembly and reset to the first position after, the slip subassembly can also roll-off watchband subassembly for when watchband subassembly was assembled on the gauge outfit mechanism, the slip subassembly can be supported the push-off by the promotion subassembly and slide into in the watchband subassembly earlier, dodges the gauge outfit mechanism, and after watchband subassembly is assembled in place, the slip subassembly can roll-off watchband subassembly, in order to block into the gauge outfit mechanism. So set up, watchband mechanism and gauge outfit mechanism can realize detachably and connect, and promotes the subassembly accessible user's press and operate, are favorable to improving the dismantlement convenience of watchband mechanism and gauge outfit mechanism.

Drawings

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

Fig. 1 is a schematic view of a part of a structure of a wearable device 10 according to an embodiment of the present application;

FIG. 2 is a schematic diagram of the structure of the printhead mechanism 100 of FIG. 1;

FIG. 3 is an exploded view of the strap mechanism 200 of FIG. 1;

FIG. 4 is a schematic view of a portion of the wristband assembly 210 of FIG. 3;

fig. 5 is a schematic view of a partial cross-sectional structure of wristband assembly 210 along v-v in fig. 4;

FIG. 6 is a schematic view of a portion of the belt assembly 211 of FIG. 4;

FIG. 7 is a schematic diagram of the housing assembly 212 of FIG. 4;

FIG. 8 is an exploded view of the housing assembly 212 of FIG. 7;

FIG. 9 is a schematic cross-sectional view of the belt mechanism 200 of FIG. 1 taken along line VI-VI;

FIG. 10 is a schematic cross-sectional view of the belt mechanism 200 of FIG. 1 along the line IV-IV;

fig. 11 is a schematic view of a connection structure of the bottom chassis 2121 and the sliding assembly 221 of fig. 9;

Fig. 12 is a schematic view of the sliding assembly 221 of fig. 11;

FIG. 13 is a schematic view of the pushing assembly 222 of FIG. 9;

fig. 14 is a schematic structural view of the pusher 2221 in fig. 13.

Detailed Description

As used herein, "wearable device" refers to a device that has information processing capabilities and meets basic technical requirements of a wristwatch. In this embodiment, the wearable device should have one or more functions of reminding, navigation, calibration, monitoring, interaction, and the like, in addition to indicating the time. For example, the wearable device may be provided with a bluetooth data transmission standard, enabling collaborative interaction capabilities. It may also be provided with various monitoring sensors, such as sensors for monitoring data of ambient light, geomagnetism, temperature, air pressure, altitude, gyroscopes and accelerometers, and heart rate. In addition, the display mode of the wearable device may include a pointer, a number, an image, and the like.

The application is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustrating the present application, but do not limit the scope of the present application. Likewise, the following examples are only some, but not all, of the examples of the present application, and all other examples, which a person of ordinary skill in the art would obtain without making any inventive effort, are within the scope of the present application.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 2, fig. 1 is a schematic diagram of a part of a wearable device 10 according to an embodiment of the present application, and fig. 2 is a schematic diagram of a head mechanism 100 in fig. 1.

The wearable device 10 provided by the embodiment of the application may be a wearable device such as a mechanical watch, an electronic watch, a smart watch or a smart bracelet, and the wearable device 10 is only used as the smart watch for illustration. As shown in fig. 1, the wearable device 10 may include: a case band mechanism 100 and a wristband mechanism 200. The watchband mechanism 200 may be connected to opposite sides of the watchband mechanism 100, and may form a wearing space with the watchband mechanism 200. Meanwhile, the watch head mechanism 100 is also detachably connected with the watchband mechanism 200, so that a user can replace or repair the watch head mechanism 100 or the watchband mechanism 200 according to own needs. In the present embodiment, the header mechanism 100 and the band mechanism 200 have the advantage of low difficulty in the disassembly operation, which is advantageous in improving the convenience of the user in disassembling the header mechanism 100 and the band mechanism 200.

In order to be detachably connected in cooperation with the band mechanism 200, the case band mechanism 100 is provided with a receiving groove 101 for fitting the band mechanism 200. As shown in fig. 2, the gauge outfit 100 has a bottom surface 110 and a side surface 120 which are connected, and the receiving groove 101 is formed on the bottom surface 110 and penetrates through the side surface 120 to form two openings on the bottom surface 110 and the side surface 120, respectively. The watchband mechanism 200 can be assembled in the accommodating groove 101 from any one of the two openings, and is clamped with the inner side wall of the accommodating groove 101 in the direction of separating from the accommodating groove 101 from the two openings, so that the fixed assembly of the watchband mechanism 100 and the watchband mechanism 200 is realized. For example, the two inner side walls of the receiving slot 101 opposite to each other are provided with connecting holes 102, and when the watchband mechanism 200 is assembled in the receiving slot 101, the watchband mechanism 200 can be respectively clamped into the connecting holes 102 of the two inner side walls, so as to realize the clamping connection of the watchband mechanism 100 and the watchband mechanism 200. Accordingly, the band mechanism 200 can be withdrawn from the connection hole 102 to release the engaged state of the header mechanism 100 and the band mechanism 200, so that the band mechanism 200 can be removed from the housing groove 101, thereby removing the header mechanism 100 and the band mechanism 200.

Further, the gauge outfit 100 may further integrate various functional devices required by the wearable device 10, such as a display screen, a battery, a microphone, a speaker, a camera, an ECG module or a PPG module, so that the gauge outfit 100 may provide a user with a conventional calendar, time, weather, and other viewing services, a user with a communication service such as voice communication and video chat, and monitor a daily exercise condition, a physical condition, and other data indexes of the user. Of course, the function of the header mechanism 100 is not limited to this, and this embodiment is not limited to this.

All directional indications (such as up, down, left, right, front, back … …) in embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in the drawings), and if the particular gesture changes, the directional indication changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Referring to fig. 3 to 6, fig. 3 is an exploded view of the strap mechanism 200 in fig. 1, fig. 4 is a partial view of the wristband assembly 210 in fig. 3, fig. 5 is a partial sectional view of the wristband assembly 210 along v-v in fig. 4, and fig. 6 is a partial view of the strap assembly 211 in fig. 4.

The wristband mechanism 200 may be fitted into the receiving groove 101 and detachably attached to the case band mechanism 100. As shown in fig. 3, the wristband mechanism 200 may include: watchband assembly 210 and removable assembly 220. The watchband assembly 210 can be used to form a wearing space together with the watch head mechanism 100 for a user to wear. The detachable assembly 220 may be provided on an end of the wristband assembly 210, and when the end of the wristband assembly 210 is fitted into the receiving groove 101, the detachable assembly 220 can be caught in or withdrawn from the connection hole 102 under the operation of a user to achieve detachable connection of the wristband assembly 210 and the header mechanism 100. In this embodiment, the detachable assembly 220 may have the advantage of low operational difficulty, which may facilitate easy removal of the wristband assembly 210 and the case band mechanism 100.

The wristband assembly 210 may be coupled to the case band mechanism 100 and may enclose a wear space with the case band mechanism 100. As shown in fig. 3-4, wristband assembly 210 may include: a belt assembly 211 and a housing assembly 212. The band assembly 211 may be connected to the gauge outfit 100 and encloses the gauge outfit 100 together to form the wearing space. The housing assembly 212 may be connected to an end of the band assembly 211, and the housing assembly 212 may also be used to mount the detachable assembly 220 such that the band assembly 211 can be detachably connected to the gauge outfit 100 via the detachable assembly 220.

Specifically, the tape body assembly 211 may include: band 2111 and connector 2112. As shown in fig. 5-6, band 2111 may be used to form a wearing space with gauge outfit 100 for wearing by a user. The connector 2112 may be embedded in an end of the band 2111 and protruding from the band 2111 in a length direction of the band 2111, and the connector 2112 may be used to connect with the housing assembly 212 to enable assembly of the band assembly 211 and the housing assembly 212. For example, a portion of the connector 2112 protruding from the strap 2111 is provided with a clip 21121 connected to the housing assembly 212, and when the connector 2112 is assembled into the housing assembly 212, the clip 21121 can be inserted into the housing 212 and engaged with the housing assembly 212 to prevent the connector 2112 from being separated from the housing assembly 212, thereby achieving a fixed assembly of the strap 2111 and the housing assembly 212. In this embodiment, the number of the buckles 21121 may be two, and the two buckles 21121 may be distributed at intervals on a part of the area of the connector 2112 protruding from the belt body 2111 and symmetrically arranged with respect to the length direction of the belt body 2111.

Further, the band body 2111 may be made of a flexible material such as soft rubber, rubber or silicone, and the joint 2112 may be made of a rigid material such as hard plastic or metal, and the band body 2111 and the joint 2112 may be integrally made by a process such as two-shot molding or metal insert molding. Alternatively, besides soft rubber, rubber or silica gel, the band body 2111 may be made of a material such as a braid, a twine or nylon, and the band body 2111 and the connector 2112 may be integrally made by a process such as two-color injection molding or metal insert injection molding, and the specific processing process of the band body 2111 and the connector 2112 may be adaptively adjusted according to the materials selected for the two materials, which is not limited in this embodiment.

Referring to fig. 7 to 8 in conjunction with fig. 5, fig. 7 is a schematic structural view of the housing assembly 212 in fig. 4, and fig. 8 is an exploded structural view of the housing assembly 212 in fig. 7.

The housing assembly 212 may be used to mount the removable assembly 220, and the housing assembly 212 may also be connected to the end of the band 2111 by a connector 2112 and may fit into the receiving channel 101 so that the removable assembly 220 can mate with the connection aperture 102 to effect a removable connection of the band 2111 to the gauge outfit mechanism 100. As shown in fig. 5, 7, and 8, the housing assembly 212 may include: a bottom housing 2121 and a top housing 2122. The bottom case 2121 has an open structure, and the top case 2122 is covered on the bottom case 2121 and encloses the mounting space 201 with the bottom case 2121. Connector 2112 can be assembled in mounting space 201 and can be snapped into engagement with either of bottom shell 2121 and top shell 2122 by snap fit 21121 to complete the secure assembly of strap 2111 and housing assembly 212. The detachable component 220 is disposed in the installation space 201 and can slide out of or into the installation space 201 under the operation of a user, so that the detachable component 220 can be clamped into or withdrawn from the connection hole 102 to realize the detachable connection of the band 2111 and the gauge outfit mechanism 100.

The joint 2112 may be covered on one side of the bottom case 2121 from the top case 2122, that is, the side where the top case 2122 is located is assembled into the installation space 201, and the top case 2122 may be covered on the bottom case 2121 after the joint 2112 is assembled, so as to serve to limit the joint 2112 in the installation space 201. Meanwhile, the bottom shell 2121 may further be provided with a notch 202 that communicates with the installation space 201, and the notch 202 may communicate with one side of the bottom shell 2121 near the top shell 2122, so that when the strap 2111 is installed into the installation space 201 along with the connector 2112, the notch 202 can avoid the installation of the strap 2111. In addition, in order to prevent connector 2112 from coming out of installation space 201 from notch 202, connector 2112 may be engaged with any one of bottom shell 2121 and top shell 2122 by a buckle 21121, so as to fix connector 2112 in installation space 201.

Specifically, the bottom chassis 2121 may include: a bottom wall 21211 and side walls 21212. The bottom wall 21211 is opposite to the top case 2122 and spaced apart, and the side wall 21212 is connected to a peripheral side of the bottom wall 21211 and may form the aforementioned open structure together with the bottom wall 21211. The top case 2122 is disposed on a side of the side wall 21212 away from the bottom wall 21211, and may enclose the mounting space 201 together with the bottom wall 21211 and the side wall 21212. Meanwhile, a screw hole 203 is further formed in a side of the bottom wall 21211 facing the top shell 2122, a corresponding hole 204 may be formed in the top shell 2122, and a fastener 2123 penetrating through the screw hole 203 and the hole 204 may be further provided on the housing assembly 212, so that the top shell 2122 can be fixed on the bottom wall 21211 by using the fastener 2123, so as to achieve fixed assembly of the bottom shell 2121 and the top shell 2122. Alternatively, instead of screwing, the bottom case 2121 and the top case 2122 may be assembled by bonding, welding, or clamping, for example.

Further, a clamping groove 205 is further formed in a side of the bottom wall 21211 opposite to the top shell 2122, and when the connector 2112 is assembled in the installation space 201, the buckle 21121 is inserted into the clamping groove 205 and is clamped with an inner wall of the clamping groove 205 in a direction of separating from the installation space 201 from the notch 202, so that the connector 2112 and the housing assembly 212 are fixedly assembled. In this embodiment, the number of the clamping grooves 205 may be two, so as to cooperate with the two buckles 21121 to improve the assembling firmness of the connector 2112 and the housing assembly 212.

Alternatively, the slot 205 may not be limited to be formed on the bottom wall 21211, and the slot 205 may be formed on the side wall 21212. Accordingly, snaps 21121 may be provided on both sides of connector 2112 opposite side wall 21212, and clip groove 205 may also extend through side wall 21212 to the side of top shell 2122. So arranged. The buckle 21121 can be inserted into the card slot 205 simultaneously during the fitting of the connector 2112 into the installation space 201, so as to be engaged with the inner wall of the card slot 205 in a direction of coming out of the installation space 201 from the notch 202.

Alternatively, the slot 205 may be formed in the top case 2122. When the connector 2112 is assembled in the installation space 201, the buckle 21121 may be located at a side of the connector 2112 facing away from the bottom wall 21211, and when the top case 2122 is covered on a side of the side wall 21212 facing away from the bottom wall 21211, the buckle 21121 may be inserted into the slot 205 to be engaged with an inner wall of the slot 205 in a direction of being separated from the installation space 201 from the notch 202.

Optionally, the positions of the clasp 21121 and the catch 205 may also be interchanged. For example, a clip 21121 may be provided on a side of the bottom wall 21211 opposite to the top case 2122, and a portion of the connector 2112 protruding from the band 2111 may be provided with a clip groove 205. Alternatively, the side wall 21212 is provided with a buckle 21121 protruding from the installation space 201, and two sides of the connector 2112 opposite to the side wall 21212 may be provided with a slot 205. Alternatively, a clip 21121 may be provided on a side of the top case 2122 opposite to the bottom wall 21211, and a portion of the connector 2112 protruding from the band 2111 may be provided with a clip groove 205. With the above arrangement, when the connector 2112 is fitted into the installation space 201, the buckle 21121 can still be inserted into the locking groove 205 and locked with the locking groove 205 in a direction in which the connector is separated from the installation space 201 from the notch 202.

Further, a sliding groove 206 is further formed on a side of the bottom wall 21211 opposite to the top case 2122, and the sliding groove 206 may be used for installing the detachable component 220, so as to achieve sliding connection between the detachable component 220 and the bottom case 2121. Meanwhile, a positioning hole 207 is further formed on a side of the bottom wall 21211 opposite to the top case 2122, and the positioning hole 207 may also be used for installing the detachable component 220, so as to realize positioning assembly of the detachable component 220 and the bottom case 2121.

Further, the sidewall 21212 may include: the first and second side walls 21212a, 21212b, and the first and second side walls 21212a, 21212b may be located on opposite sides of the bottom wall 21211, respectively, with the notch 202 located between the first and second side walls 21212a, 21212 b. When the housing assembly 212 is assembled in the accommodating groove 101, the first side wall 21212a and the second side wall 21212b may be disposed opposite to two inner side walls of the accommodating groove 101 with the connecting hole 102. Meanwhile, the detachable component 220 may be disposed through the first and second side walls 21212a and 21212b, and may slide out of or into the installation space 201 through the first and second side walls 21212a and 21212b to be snapped into or out of the connection hole 102.

Referring to fig. 9 to 14, fig. 9 is a schematic cross-sectional view of the belt structure 200 along vi-vi in fig. 1, fig. 10 is a schematic cross-sectional view of the belt structure 200 along iv-iv in fig. 1, fig. 11 is a schematic connecting structure of the bottom chassis 2121 and the sliding assembly 221 in fig. 9, fig. 12 is a schematic structural view of the sliding assembly 221 in fig. 11, fig. 13 is a schematic structural view of the pushing assembly 222 in fig. 9, and fig. 14 is a schematic structural view of the pushing member 2221 in fig. 13.

The detachable assembly 220 may be provided in the installation space 201 and can be slid out of or into the installation space 201 by a user's operation to be caught in or withdrawn from the connection hole 102 after the case assembly 212 is assembled to the receiving slot 101, thereby achieving the detachable connection of the band assembly 210 and the case band mechanism 100. As shown in fig. 9 to 10, the detachable assembly 220 includes: a sliding assembly 221 and a pushing assembly 222. The sliding component 221 is disposed in the mounting space 201 and slidably connected to the bottom wall 21211, and the sliding component 221 further penetrates through the side wall 21212 to protrude out of the mounting space 201, so as to be clamped into the connecting hole 102. The pushing component 222 is disposed through the top case 2122 and slidably connected to the top case 2122, and the sliding component 221 is located on a sliding path of the pushing component 222. Meanwhile, the pushing component 222 slides from the first position to the second position, and pushes the sliding component 221 to slide into the installation space 201, so that the sliding component 221 can retract into the installation space 201 to withdraw from the connection hole 102. In the present embodiment, the pushing component 222 can slide from the first position to the second position under the operation of the user, and the pushing component 222 can also have the advantage of low operation difficulty, which is beneficial to the convenience of disassembling the watch head mechanism 100 and the watchband mechanism 200.

As shown in fig. 9 to 12, the number of the sliding members 221 may be two, and the two sliding members 221 are a first sliding member 221a and a second sliding member 221b, respectively. Wherein, the first sliding component 221a and the second sliding component 221b are both slidingly connected with the bottom wall 21211. Meanwhile, the first sliding component 221a may be disposed through the first side wall 21212a, and protrude from a side of the first side wall 21212a facing away from the second side wall 21212b, that is, protrude from the mounting space 201, so as to be clamped into the connecting hole 102 of an inner side wall of the accommodating groove 101. The second sliding component 221b may be disposed through the second side wall 21212a, and protrude from a side of the second side wall 21212b facing away from the first side wall 21212a, that is, protrude from the mounting space 201, so as to be snapped into the connecting hole 102 of the inner side wall on the other opposite side of the accommodating groove 101. In addition, the first sliding component 221a and the second sliding component 221b can be pushed down into the installation space 201 by the pushing component 222 to withdraw from the connection hole 102. In the present embodiment, the first sliding assembly 221a and the second sliding assembly 221b may be symmetrically disposed.

It will be understood that the foregoing terms "first sliding assembly" and "second sliding assembly" are only used to describe the number of "sliding assemblies", and thus, in the following description, the "sliding assembly" may also be referred to as "first sliding assembly" or "second sliding assembly", the "first sliding assembly" may also be referred to as "sliding assembly" or "second sliding assembly", and the "second sliding assembly" may also be referred to as "sliding assembly" or "first sliding assembly", and the following specific description will be given by taking only a single sliding assembly 221 as an example.

The sliding assembly 221 may include: a slider 2211 and an elastic member 2212. The sliding member 2211 may be located in the sliding groove 206 and slidably connected to the bottom wall 21211 through the sliding groove 206, and the sliding member 2211 further penetrates through the side wall 21212 to protrude out of the installation space 201. Meanwhile, when the pushing component 222 slides from the first position to the second position, the sliding member 2211 can be pushed by the pushing component 222 to slide into the installation space 201. The elastic member 2212 is also disposed in the installation space 201 and is located on the sliding path of the sliding member 2211, and when the sliding member 2211 is pushed by the pushing component 222 to slide, the elastic member 2212 can be elastically deformed by the pushing of the sliding member 2211, so as to provide elastic force to drive the sliding member 2211 to slide outside the installation space 201.

Specifically, the slider 2211 may include: slide bar 22111 and snap cap 22112. Wherein the slide bar 22111 may be disposed in the slide slot 206 and may slide within the slide slot 206 to achieve a sliding connection of the slide 2211 with the bottom wall 21211. At the same time, one end of the slide bar 22111 is also located in the sliding path of the pushing assembly 222, so that the slide bar 22111 can slide under the pushing of the pushing assembly 222. The locking cap 22112 is connected to the other opposite end of the slide bar 22111, and penetrates through the side wall 21212, and protrudes from the side wall 21212 facing away from the installation space 201, that is, is disposed outside the installation space 201, so as to be locked into the connection hole 102 when the housing assembly 212 is assembled into the receiving groove 101. Correspondingly, the locking cap 22112 can also slide towards the installation space 201 under the driving of the slide bar 22111 so as to withdraw from the connection hole 102.

Slide bar 22111 may include: a slide portion 22111a and a mating portion 22111b. The sliding portion 22111a is disposed in the sliding slot 206 and can slide in the sliding slot 206, and opposite ends of the sliding portion 22111a are respectively connected to the mating portion 22111b and the clip cap 22112. The engaging portion 22111b is located on the sliding path of the pushing component 222, and can push the pushing component 222 to drive the sliding portion 22111a to slide, so that the sliding portion 22111a drives the clip cap 22112 to slide into the installation space 201. For example, the sliding direction of the pushing member 222 may be perpendicular to the sliding direction of the sliding portion 22111a, and the mating portion 22111b has a first inclined surface 22111c. When the pushing component 222 slides from the first position to the second position, the pushing component 222 can contact the first inclined surface 22111c, and push the engaging portion 22111b to drive the clip cap 22112 to slide into the installation space 201 through the first inclined surface 22111c.

The cartridge 22112 may include: a limit portion 22112a and a clamping portion 22112b. The limiting portion 22112a may be connected to an end of the sliding portion 22111a away from the mating portion 22111b, and the limiting portion 22112a is also located in the sliding groove 206 and can slide under the driving of the sliding portion 22111 a. Meanwhile, the limiting portion 22112a may also be engaged with the side wall 21212 in a direction sliding out of the installation space 201, so as to limit a sliding distance of the sliding member 2211 out of the installation space 201. The clamping portion 22112b is located at a side of the limiting portion 22112a away from the sliding portion 22111a, and is disposed through the sidewall 21212 so as to protrude out of the installation space 201. In addition, the clamping portion 22112b can be clamped into the connecting hole 102 and can slide in the installation space 201 under the driving of the limiting portion 22112a so as to withdraw from the connecting hole 102, thereby realizing the detachable connection of the housing assembly 212 and the gauge outfit mechanism 100.

The elastic member 2212 is sleeved on the sliding portion 22111a, and the elastic member 2212 is further located in the chute 206 and located on the sliding path of the limiting portion 22112 a. The opposite ends of the elastic member 2212 are respectively connected with the limiting portion 22112a and the inner wall of the sliding groove 206, and when the sliding portion 22111a drives the clamping portion 22112b to slide into the installation space 201 through the limiting portion 22112a, the limiting portion 22112a can jointly press the elastic member 2212 with the inner wall of the sliding groove 206, so that the elastic member 2212 can be elastically deformed, and the elastic force is provided to the limiting portion 22112a, so that the clamping portion 22112b is driven to slide out of the installation space 201 through the limiting portion 22112 a. In this embodiment, the elastic member 2212 may be a spring. Of course, other elastic members 2212 may be other elastic members, such as elastic sheets or elastic pads, besides springs, and only the elastic members may be needed to generate elastic force to drive the engaging portion 22112b to slide out of the installation space 201, which is not limited in this embodiment.

As shown in fig. 10 and 13-14, the pushing assembly 222 may include: a pusher 2221 and a reset 2222. The pushing member 2221 may be disposed through the top case 2122 and slidably connected to the top case 2122, and the pushing member 2221 may slide toward the installation space 201 to slide from the first position to the second position. Meanwhile, the pushing member 2221 may further push the mating portion 22111b through the first inclined surface 22111c after sliding, so that the engaging portion 22112b can slide into the installation space 201. The reset element 2222 is disposed in the installation space 201 and is located on the sliding path of the push element 2221, and can be elastically deformed by the push element 2221 after the push element 2221 slides, so as to provide elastic force to drive the push element 2221 to reset to the first position, so that the limiting portion 22112a can drive the clamping portion 22112b to slide outside the installation space 201 under the elastic action of the elastic element 2212.

Specifically, the pusher 2221 may include: a pressing portion 22211, a pushing portion 22212, and a projecting portion 22213. The pressing portion 22211 may be disposed on a side of the top case 2122 away from the bottom wall 21211, and the user presses the pressing portion 22211 to enable the pushing member 2221 to slide from the first position to the second position toward the installation space 201. The pushing portion 22212 is connected to the pressing portion 22211 toward one side of the bottom wall 21211, and the pushing portion 22212 can push the engaging portion 22111b after the pressing portion 22211 slides, so that the engaging portion 22112b can slide into the mounting space 201. The projection 22213 may be connected to a side of the pressing portion 22211 toward the side wall 21212, and the projection 22213 may also be capable of being engaged with the top case 2122 in a direction sliding out of the mounting space 201 to avoid the pressing portion 22211 from coming out of the top case 2122. In this embodiment, the pressing portion 22211 may be similar to a side key structure of a mobile phone, so that a user can perform a pressing operation on the pressing portion 22211 to reduce the operation difficulty of the user.

Further, in order to mate with the first inclined surface 22111c, the pushing portion 22212 may be provided with a second inclined surface 22214. When the pressing portion 22211 slides from the first position to the second position, the second inclined surface 22214 of the pushing portion 22212 may contact the first inclined surface 22111c, and the first inclined surface 22111c and the second inclined surface 22214 may slide relatively, so that the pushing portion 22212 may be matched with the first inclined surface 22111c and the second inclined surface 22214 to push the mating portion 22111b to slide, and then the mating portion 22111b drives the clamping portion 22112b to slide into the installation space 201. Alternatively, one of the first and second inclined surfaces 22111c and 22214 may be omitted.

Further, in order to simultaneously push the first sliding unit 221a and the second sliding unit 221b to slide into the installation space 201, the number of pushing portions 22212 may be two, and the two pushing portions 22212 may be a first pushing portion 22212a and a second pushing portion 22212b, respectively. Here, the first and second pushing portions 22212a and 22212b may be symmetrically disposed about the sliding direction of the pressing portion 22211. Meanwhile, when the pressing portion 22211 slides from the first position to the second position, the first pushing portion 22212a may contact the first sliding component 221a and push the first sliding component 221a to slide into the installation space 201, and the second pushing portion 22212b may contact the second sliding component 221b and push the second sliding component 221b to slide into the installation space 201. In addition, the specific matching relationship between the first pushing portion 22212a and the first sliding component 221a, and the second pushing portion 22212b and the second sliding component 221b refer to the foregoing embodiments, and are not repeated herein.

It will be understood that the terms "first abutment" and "second abutment" are used only to describe the number of "abutments", and therefore, in the following description, the "abutment" may also be referred to as "first abutment" or "second abutment", the "first abutment" may also be referred to as "abutment" or "second abutment", and the "second abutment" may also be referred to as "abutment" or "first abutment".

The reset element 2222 is located on the sliding path of the projection 22213, and one end of the reset element 2222 may be connected to the projection 22213, and the other opposite end may be disposed in the positioning hole 207 of the bottom wall 21211. When the pressing portion 22211 slides from the first position to the second position, the protruding portion 22213 and the inner wall of the positioning hole 207 may jointly press the reset element 2222, so that the reset element 2222 can elastically deform to provide an elastic force to act on the protruding portion 22213, and further the protruding portion 22213 drives the pressing portion 22211 to reset to the first position. In this embodiment, the reset element 2222 may also be a spring. Of course, the restoring member 2222 may be other elastic members, such as a spring plate or an elastic pad, and the restoring member can generate an elastic force to drive the pressing portion 22211 to restore to the first position, which is not limited in this embodiment.

Further, the number of the reset elements 2222 may be two, and both opposite sides of the pressing portion 22211 facing the first side wall 21212a and the second side wall 21212b may be provided with the protruding portions 22213, so that the two protruding portions 22213 can be respectively matched with the two reset elements 2222 to improve the reset stability of the pressing portion 22211.

Optionally, the housing assembly 212 may also be part of the removable assembly 220. That is, the detachable assembly 220 may include, in addition to: in addition to the sliding assembly 221 and the pushing assembly 222, it may further include: a housing assembly 212. Accordingly, wristband assembly 210 may then include only: a belt assembly 211.

The following will briefly explain the process of attaching and detaching the case band mechanism 100 and the band mechanism 200 according to the present application with reference to the foregoing embodiments.

When the user needs to assemble the header mechanism 100 and the band mechanism 200, the user can press the pusher 2221 so that the pusher 2221 can slide from the first position to the second position to push the slider 2211. Accordingly, the slide 2211 can slide into the installation space 201 under the pushing of the pusher 2221, so that a partial region of the slide 2211 protruding outside the installation space 201 can be retracted into the installation space 201. At this time, the user can load the housing assembly 212 into the accommodating groove 101 and release the pressing of the pushing member 2221, so that the pushing member 2221 can be restored to the second position under the elastic force of the restoring member 2222, and the sliding member 2211 can also slide out of the installation space 201 under the elastic force of the elastic member 2212 and be clamped into the connecting hole 102, so as to realize the fixed assembly of the housing assembly 212 and the gauge outfit mechanism 100. Similarly, when the user needs to detach the gauge outfit mechanism 100 and the watchband mechanism 200, the user can press the pushing member 2221 to repeatedly utilize the pushing member 2221 to push the sliding member 2211 to slide in the installation space 201, so that the sliding member 2211 can exit the connection hole 102, and further detach the gauge outfit mechanism 100 and the watchband mechanism 200.

According to the watchband mechanism 200 provided by the embodiment of the application, the sliding component 221 and the pushing component 222 are slidably arranged on the watchband component 210, and the sliding component 221 is further arranged protruding out of the watchband component 210 and is positioned on the sliding path of the pushing component 222, so that when the pushing component 222 slides from the first position to the second position, the sliding component 221 can slide into the watchband component 210 under the pushing of the pushing component 222. Meanwhile, by setting the pushing component 222 to return to the first position, the sliding component 221 can also slide out of the watchband component 210, so that when the watchband component 210 is assembled on the watch head mechanism 100, the sliding component 221 can be pushed by the pushing component 222 to slide into the watchband component 210 first, so as to avoid the watch head mechanism 100, and when the watchband component 210 is assembled in place, the sliding component 221 can slide out of the watchband component 210 to be clamped into the watch head mechanism 100. With this arrangement, the band mechanism 200 and the header mechanism 100 can be detachably connected, and the pushing member 222 can be operated by the pressing of the user, which is advantageous in improving the convenience of the detachment of the band mechanism 200 and the header mechanism 100.

The foregoing description is only a partial embodiment of the present application, and is not intended to limit the scope of the present application, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present application or directly or indirectly applied to other related technical fields are included in the scope of the present application.

Claims (20)

1. A watchband mechanism, characterized in that it comprises: watchband subassembly and detachable component, just detachable component includes: a sliding assembly and a pushing assembly;

the sliding component is arranged in the watchband component in a sliding manner and protrudes out of the watchband component; the pushing component is slidably arranged on the watchband component, and the sliding component is positioned on the sliding path of the pushing component; wherein,

when the pushing component slides from the first position to the second position, the pushing component props against the sliding component to slide into the watchband component; the sliding assembly is configured to slide outward of the wristband assembly when the pushing assembly is reset to the first position.

2. The wristband mechanism of claim 1, wherein the wristband assembly comprises: the belt body assembly and the shell assembly are connected with the end part of the belt body assembly;

the sliding component is arranged in the shell component in a sliding manner and protrudes out of the shell component; the pushing component is arranged on the shell component in a sliding manner; wherein,

when the pushing component slides from the first position to the second position, the pushing component pushes the sliding component to slide into the shell component; the sliding assembly is configured to slide outwardly of the housing assembly when the push assembly is reset to the first position.

3. The wristband mechanism of claim 2, wherein the case assembly comprises: the bottom shell and the top shell are covered on the bottom shell, and an installation space is formed by surrounding the bottom shell and the top shell together; wherein,

the sliding component is positioned in the installation space and is in sliding connection with the bottom shell, and the sliding component also penetrates through the bottom shell to protrude out of the installation space; the pushing component penetrates through the top shell and is connected with the top shell in a sliding manner; wherein, the end of the belt body assembly is assembled in the installation space.

4. The watchband mechanism of claim 3, wherein the bottom case further has a notch that communicates with the mounting space, and the notch communicates with a side of the bottom case that is adjacent to the top case; wherein,

the end of the belt assembly is configured to be assembled in the installation space from the side where the top shell is located, and is clamped with one of the bottom shell and the top shell in a direction of being separated from the installation space from the notch, and the notch is further configured to avoid the assembly of the belt assembly.

5. The watchband mechanism of claim 4, wherein either one of the strap assembly and the bottom case is provided with a clasp, and the other is provided with a slot; wherein,

When the end part of the belt body assembly is assembled in the installation space from the side where the top shell is located, the buckle is inserted into the clamping groove and is clamped with the inner wall of the clamping groove in the direction of deviating from the installation space from the notch.

6. The wristband mechanism of claim 5, wherein the strap assembly comprises: a belt body and a connector;

the connecting head is embedded at the end part of the belt body, and also protrudes out of the belt body in the length direction of the belt body, and is provided with the buckle; the clamping groove is formed in one side of the bottom shell, which is opposite to the top shell; wherein,

the belt body is configured to be assembled in the installation space from the side where the top shell is located through the connector, and the notch is further configured to avoid the assembly of the belt body.

7. The wristband mechanism of claim 3, wherein the slide assembly comprises: a sliding member and an elastic member;

the sliding piece is positioned in the installation space and is in sliding connection with the bottom shell, and the sliding piece also penetrates through the bottom shell to protrude out of the installation space; the elastic piece is arranged in the installation space and is positioned on the sliding path of the sliding piece; wherein,

When the pushing component slides from the first position to the second position, the pushing component pushes the sliding piece to slide into the installation space, and the elastic piece is pushed by the sliding piece to elastically deform; when the pushing component is reset to the first position, the sliding piece slides out of the installation space under the action of the elastic force of the elastic piece.

8. The watchband mechanism of claim 7, wherein the bottom case has a bottom wall disposed opposite the top case and side walls connecting the bottom wall and the top case, respectively; wherein,

a sliding groove is formed in one side of the bottom wall, facing the top shell, of the bottom wall, and the sliding piece is slidably arranged in the sliding groove and penetrates through the side wall; the elastic piece is sleeved on the sliding piece, and when the sliding piece slides, the elastic piece is pressed by the sliding piece and the inner wall of the chute together to generate elastic deformation.

9. The wristband mechanism of claim 8, wherein the slide comprises: the slide bar and the clamping cap;

the sliding rod is arranged in the sliding groove in a sliding manner, and one end of the sliding rod is positioned on a sliding path of the pushing assembly; the clamping cap is connected with the other opposite end of the sliding rod, penetrates through the side wall and is arranged outside the installation space in a protruding mode; the elastic piece is sleeved on the sliding rod; wherein,

When the pushing component slides from the first position to the second position, the pushing component pushes the sliding rod to slide, the clamping cap is driven by the sliding rod to slide into the installation space, and the elastic piece is elastically deformed under the joint pushing of the clamping cap and the inner wall of the sliding groove; when the pushing component is reset to the first position, the clamping cap slides out of the installation space under the action of the elastic force of the elastic piece.

10. The wristband mechanism of claim 9, wherein the slide bar comprises: a sliding part and a matching part;

the sliding part is arranged in the chute in a sliding way, and the opposite ends of the sliding part are respectively connected with the matching part and the clamping cap; the matching part is positioned on the sliding path of the pushing component; the elastic piece is sleeved on the sliding part; wherein,

when the pushing component slides from the first position to the second position, the pushing component pushes the matching part to slide, and the sliding part drives the clamping cap to slide into the installation space.

11. The wristband mechanism of claim 10, wherein the sliding direction of the sliding portion is perpendicular to the sliding direction of the pushing assembly, and the mating portion has a first incline; the pushing component is configured to push the matching part to drive the sliding part to slide through the first inclined surface.

12. The wristband mechanism of claim 9, wherein the clasp comprises: a limit part and a clamping part;

the limiting part is connected with the other opposite end of the sliding rod and can be clamped with the side wall in the sliding direction of the sliding rod; the clamping part is positioned at one side of the limiting part, which is away from the sliding rod, and penetrates through the side wall to be arranged outside the installation space; wherein,

when the pushing component slides from the first position to the second position, the pushing component pushes against the sliding rod to drive the limiting part to slide, the clamping connection is driven by the limiting part to slide in the installation space, and the elastic piece is pressed by the limiting part and the inner wall of the sliding groove together to generate elastic deformation; when the pushing component is reset to the first position, the limiting part drives the clamping part to slide outside the installation space under the action of the elasticity of the elastic part.

13. The wristband mechanism of claim 8, wherein the push assembly comprises: a pushing piece and a resetting piece;

the pushing piece penetrates through the top shell and is connected with the top shell in a sliding mode, and the pushing piece is configured to slide from the first position to the second position in the installation space; the reset piece is arranged in the installation space and is positioned on the sliding path of the pushing piece; the sliding piece is positioned on the sliding path of the pushing piece; wherein,

When the pushing piece slides from the first position to the second position, the pushing piece pushes the sliding piece to slide into the installation space, the reset piece is pushed by the pushing piece to elastically deform, and the pushing piece is configured to reset to the first position under the action of the elastic force of the reset piece.

14. The wristband mechanism of claim 13, wherein the pusher comprises: the pressing part is penetrated through the top shell, the pushing part is connected with the pressing part towards the side of the bottom wall, and the protruding part is connected with the pressing part towards the side of the side wall, and the protruding part can be clamped with the top shell in the sliding direction of the pressing part; the reset piece is positioned on the sliding path of the protruding part; wherein,

when the pressing part slides from the first position to the second position, the pushing part pushes the sliding part to slide in the installation space; the reset piece is pressed by the protruding part to elastically deform, and the protruding part drives the pressing part to reset to the first position under the action of the elastic force of the reset piece.

15. The wristband mechanism of claim 14, wherein the number of slide assemblies is two and is a first slide assembly and a second slide assembly, respectively, in sliding connection with the bottom wall; the side wall includes: a first side wall and a second side wall which are oppositely arranged;

The first sliding component penetrates through the first side wall and protrudes out of one side, away from the second side wall, of the first side wall; the second sliding component penetrates through the second side wall, and one side of the second side wall, which is away from the first side wall, is provided with a sliding seat; wherein,

when the pressing part slides from the first position to the second position, the first sliding component and the second sliding component are pushed by the pushing part to slide into the installation space; when the pressing portion is reset to the first position, the first sliding assembly and the second sliding assembly are both configured to slide out of the installation space.

16. The watchband mechanism of claim 15, wherein the number of the pushing parts is two, and the pushing parts are a first pushing part and a second pushing part symmetrically arranged with respect to the sliding direction of the pressing part;

when the pressing part slides from the first position to the second position, the first pushing part pushes the first sliding assembly to slide into the installation space, and the second pushing part pushes the second sliding assembly to slide into the installation space.

17. The watchband mechanism of claim 14, wherein the sliding direction of the pushing portion is perpendicular to the sliding direction of the sliding member, and the pushing member is provided with a second inclined surface; wherein the pushing member is configured to push the sliding member to slide by the second inclined surface.

18. The watchband mechanism of claim 14, wherein a side of the bottom wall facing the top case is further provided with a locating hole; one end of the resetting piece is connected with the protruding part, and the other opposite end of the resetting piece is positioned in the positioning hole.

19. A detachable assembly for connecting a wristband mechanism and a header mechanism, the detachable assembly comprising: a housing assembly, a sliding assembly, and a pushing assembly;

the shell component is connected with the watchband mechanism and is assembled on the watch head mechanism; the sliding component is arranged in the shell component in a sliding way and protrudes out of the shell component to be clamped into the gauge outfit mechanism; the pushing component is arranged on the shell component in a sliding way, and the sliding component is positioned on a sliding path of the pushing component; wherein,

when the pushing component slides from the first position to the second position, the pushing component pushes the sliding component to slide into the shell component so as to withdraw the gauge head mechanism; the sliding assembly is configured to slide outwardly of the housing assembly when the push assembly is reset to the first position.

20. A wearable device, the wearable device comprising: a gauge outfit mechanism and a watchband mechanism;

The gauge outfit mechanism is provided with an accommodating groove, and two inner side walls of the accommodating groove which are oppositely arranged are also provided with connecting holes; the watchband mechanism includes: watchband component and detachable component; the watchband component is assembled in the accommodating groove; the detachable assembly includes: a sliding assembly and a pushing assembly;

the sliding component is arranged in the watchband component in a sliding manner and protrudes out of the watchband component to be clamped into the connecting hole; the pushing component is slidably arranged on the watchband component, and the sliding component is positioned on the sliding path of the pushing component; wherein,

when the pushing component slides from the first position to the second position, the pushing component props against the sliding component to slide into the watchband component so as to withdraw from the connecting hole; the sliding assembly is configured to slide outward of the wristband assembly when the pushing assembly is reset to the first position.