WO2020063025A1 - 一种共轴转动的智能手表 - Google Patents

一种共轴转动的智能手表 Download PDF

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Publication number
WO2020063025A1
WO2020063025A1 PCT/CN2019/095277 CN2019095277W WO2020063025A1 WO 2020063025 A1 WO2020063025 A1 WO 2020063025A1 CN 2019095277 W CN2019095277 W CN 2019095277W WO 2020063025 A1 WO2020063025 A1 WO 2020063025A1
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WO
WIPO (PCT)
Prior art keywords
smart
host
washer
smart host
connection portion
Prior art date
Application number
PCT/CN2019/095277
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English (en)
French (fr)
Inventor
陈超候
吴奎
Original Assignee
广东小天才科技有限公司
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Filing date
Publication date
Application filed by 广东小天才科技有限公司 filed Critical 广东小天才科技有限公司
Publication of WO2020063025A1 publication Critical patent/WO2020063025A1/zh

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    • GPHYSICS
    • G04HOROLOGY
    • G04GELECTRONIC TIME-PIECES
    • G04G17/00Structural details; Housings
    • G04G17/02Component assemblies

Definitions

  • the invention relates to the technical field of smart watches, in particular to a smart watch with coaxial rotation.
  • the embodiment of the invention discloses a smart watch with coaxial rotation, which can obtain different shooting directions without the user rotating the arm, and the user experience is high.
  • an embodiment of the present invention discloses a smart watch with coaxial rotation, including
  • a bottom bracket comprising two opposite ends, and the two opposite ends are respectively provided with a first connection portion and a second connection portion;
  • a smart host the smart host being pivotally connected to the first connecting portion so that the smart host can rotate relative to the bottom bracket and switch between a first state and a second state;
  • One end of the strap is connected to the first connection portion, the other end of the strap is connected to the second connection portion, and the one end of the strap, the smart host, and
  • the first connecting portion is coaxially connected;
  • the first state is a state in which the smart host is stacked on the bottom bracket
  • the second state is a state in which the smart host forms a certain angle with respect to the bottom bracket.
  • the smart host is provided with a host connection portion, the host connection portion is provided with a first groove, and the first connection portion is engaged with In the first groove, the host connection portion is axially connected to the first connection portion.
  • one end of the strap is provided with a strap connecting portion
  • a middle portion of the strap connecting portion is provided with a second groove
  • the host connecting portion Located in the second groove, the watch band connection portion is pivotally connected to the first connection portion and the host connection portion.
  • the smart watch further includes a first holding structure, and the first holding structure is configured to provide a mechanism for holding the smart host to rotate relative to the bottom bracket. Describe the force at a certain angle.
  • the smart host and the one end of the strap are pivotally connected to the first connecting portion through a first rotating shaft, and the first rotating shaft is
  • the stepped shaft includes a first shaft body and a second shaft body coaxially connected to both ends of the first shaft body, and the two second shaft bodies include a first step surface and a second step surface, respectively;
  • the first retaining structure includes an elastic member and a first washer, the first washer is threaded through the first shaft body, and a gap is provided between the first washer and the first step surface;
  • the elastic member passes through the first shaft body, one end of the elastic member is pressed against the first washer, and the other end of the elastic member is connected to the second step surface.
  • the first retaining structure further includes a second washer and a third washer penetrating the first shaft body, and the second washer is abutted. On the second step surface, the other end of the elastic member is pressed against the second washer;
  • the third gasket is located between the first gasket and the first step surface, and the third gasket includes a first end surface and a second end surface opposite to each other, the first end surface and the first step Surface-to-surface bonding, the gap between the second end surface and the first gasket;
  • the first washer is configured to be pressed in a direction toward the second end surface by the pressing action of the elastic member, so that the first washer is in contact with the second end surface and generates friction resistance, so that The smart host is maintained to form the certain angle with respect to the bottom bracket.
  • the second end surface is provided with a plurality of protrusions protruding toward the first gasket, and the plurality of protrusions are located in the gap, and A plurality of the protrusions abut against the first washer.
  • the bottom bracket includes a bottom plate and a baffle plate, and the baffle plate is integrally formed on the bottom plate.
  • the baffle plate is formed between the baffle plate and the bottom plate.
  • an arc-shaped surface is provided at a connection between the baffle and the base plate, and the arc at a connection between the baffle and the base plate is provided.
  • the shape surface fits with the edge surface of the smart host.
  • the bottom bracket is a closed ring structure formed by bending a bending rod.
  • the smart watch further includes a second holding structure, the second holding structure is connected to the smart host and / or the bottom bracket, and is used for Keeping the smart host in the first state.
  • the coaxial watch provided by the embodiment of the present invention uses a smart host to be pivotally connected to the bottom bracket, so that the rotation angle of the smart host relative to the bottom bracket can be adjusted.
  • the operation method is simple, and it is beneficial to improve the user experience.
  • the rotation of the strap and the bottom bracket and the rotation of the smart host and the bottom bracket are coaxial designs, so the structural design of the smart watch can be effectively simplified, and the assembly of components can be reduced. Improving the compactness of the smart watch's structure makes it more expressive.
  • FIG. 1 is a schematic structural diagram of a smart host of a coaxially rotating smart watch according to an embodiment of the present invention in a first state;
  • FIG. 2 is a schematic structural diagram of a smart host of a coaxially rotating smart watch according to an embodiment of the present invention in a second state;
  • FIG. 3 is an exploded view of FIG. 2;
  • FIG. 4 is a schematic structural diagram of a bottom bracket disclosed in an embodiment of the present invention.
  • FIG. 5 is another schematic structural diagram of a bottom bracket disclosed in an embodiment of the present invention.
  • FIG. 6 is a schematic structural diagram of a first holding structure disclosed in an embodiment of the present invention.
  • FIG. 7 is an exploded view of FIG. 6.
  • installation should be interpreted in a broad sense.
  • it can be a fixed connection, a detachable connection, or a monolithic structure; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, or it can be two devices, components, or components. Internal connectivity.
  • the specific meanings of the above terms in the present invention can be understood according to specific situations.
  • first means two or more.
  • a coaxial rotating smart watch includes a bottom bracket 10, a smart host 20, and a strap 30 connected to the bottom bracket 10.
  • the bottom bracket 10 includes two opposite ends 11, and the two opposite ends 11 are respectively provided with a first connection portion 11 a and a second connection portion 11 b.
  • the smart host 20 is pivotally connected to the first connecting portion 11 a through the first rotating shaft 21, so that the smart host 20 can rotate relative to the bottom bracket 10 and switch between the first state and the second state.
  • One end of the watch band 30 is pivotally connected to the first connecting portion 11a through the first rotating shaft 21, and the other end of the watch band 30 is connected to the second connecting portion 11b.
  • the smart host 20 is used as a host of a smart watch that rotates coaxially, and includes not only a main board provided inside, a touch screen / or display screen for implementing touch and display functions, a main board, A battery powered by a touch screen / display, a photographing device that realizes the shooting function of the smart host 20, a communication device (such as a wireless communication device, a Bluetooth communication device, an infrared communication device, etc.) that realizes the communication function of the smart host 20, and intelligent Sensors (such as gravity sensor, acceleration sensor, distance sensor, air pressure sensor, ultraviolet detector, water detection and recognition module) for the detection function of the host 20, a heart rate detector that detects the user's heart rate, and the timing of the smart host 20 A functional timer, components that identify the user, such as a fingerprint module, a facial recognition module, and a microphone, speaker, etc. that implement audio input and / or output. It should be known that each of the above devices and functional modules is located inside the smart host 20 and is electrically
  • the smart host 20 is different from a dial of a traditional watch that can only implement functions such as time display and timing.
  • the smart host 20 includes a display surface 20 a and a non-display surface 20 b opposite to each other.
  • the first state of the smart host 20 is that the smart host 20 is stacked on the bottom bracket 10. This state is a state in which the smart host 20 forms a certain angle with respect to the bottom bracket 10.
  • the state of being stacked on the bottom bracket 10 refers to a state in which the non-display surface 20 b of the smart host 20 is approximately in contact with the upper surface of the bottom bracket 10.
  • the state of forming a certain angle with respect to the bottom bracket 10 refers to a state in which both the display surface 20 a and the non-display surface 20 b of the smart host 20 form a certain angle with the upper surface of the bottom bracket 10.
  • the rotation angle of the smart host 20 and the bottom bracket 10 can be adjusted, so that the smart host 20 can switch between the first state and the second state.
  • the rotation angle between the smart host 20 and the bottom bracket 10 can be adjusted between 0-90 °.
  • the angle between the smart host 20 and the bottom bracket 10 may be 90 °.
  • the display surface 20a of the display screen on the smart host 20 is disposed upward with respect to the bottom bracket 10, and when the smart host 20 is rotated relative to the bottom bracket 10, an angle of 90 ° is formed. At this time, the display surface 20a of the display screen of the smart host 20 is also at an angle of 90 ° with respect to the bottom bracket 10. At this time, the user can conveniently view the screen.
  • the rotation angle of the host body 20 and the bracket body 10 can also be adjusted between 0-180 °.
  • the rotation angle may be 0 °, 30 °, 45 °, 60 °, 75 °, 90 °, 120 °, 130 °, 135 °, 140 °, 145 °, 150 °, 160 °, 170 ° or 180 ° and so on.
  • a certain angle formed by the host body 20 and the bracket body 10 is preferably 0 to 90 °.
  • a host connecting portion 22 is provided on the smart host 20, and the host connecting portion 22 is provided with a first groove 22a.
  • the first connection portion 11a is located in the first groove 22a.
  • the inside of the first connection portion 11a of the bottom bracket 10 should communicate with the first groove 22a.
  • the host connection portion 22 is connected to the first connection portion through the first rotation shaft 21 11a realizes the shaft connection, thereby realizing the shaft connection of the smart host 20 and the bottom bracket 10.
  • the host connecting portion 22 is a cylindrical boss provided on the smart host 20, and the cylindrical boss extends outward from the surface of the casing of the smart host 20.
  • the first groove 22 a is a circular groove formed on the connection portion 22 of the host, and in order to ensure the appearance decoration effect of the smart watch, the opening of the first groove 22 a should be provided toward the non-display surface 20 b of the smart host 20.
  • the first groove 22a may separate the end of the host connection portion 22 facing the smart host 20 into two parts, namely a first portion 22b and a second portion 22c.
  • the first connection portion 11a It is located in the first groove 22a, and two sides of the first connection portion 11a are respectively disposed toward the first portion 22b and the second portion 22c.
  • the first connecting portion 11a is a cylindrical boss provided on the bottom bracket 10, and when the smart host 20 is connected to the bottom bracket 10, the first connecting portion 11a should be completely located in the first groove 22a, so that The first rotating shaft 21 can pass through the host connecting portion 22 and the first connecting portion 11 a at the same time, so as to realize the connection between the smart host 20 and the bottom bracket 10. It can be understood that, in other embodiments, the host connection portion 22 and the first connection portion 11a may also be square bosses.
  • a watch band connection portion 31 is provided at one end of the watch band 30, and a second portion of the watch band connection portion 31 is provided with a second portion.
  • the host connecting portion 22 is partially located in the second groove 31 a, and the watch band connecting portion 31 is axially connected to the first connecting portion 11 a and the host connecting portion 22 through the first rotating shaft 21. That is, the second groove 31 a of the band connection portion 31 is in communication with the first groove 22 a of the host connection portion 22 and the inside of the first connection portion 11 a of the bottom bracket 10.
  • the axes of the three of them should be on the same straight line, so that the first rotating shaft 21 can be threaded through the band connecting portion 31, the host connecting portion 22, and the first The connection portion 11a is shaft-connected.
  • the second groove 31a separates the band connecting portion 31 into a first band connecting portion 31b and a second band connecting portion 31c.
  • Both sides of the host connecting portion 22 (the first portion 22b and the second portion 22c) ) are provided toward the first strap connecting portion 31b and the second strap connecting portion 31c, respectively, and the first portion 22b is similar to the first strap connecting portion 31b and the second portion 22c is similar to the second strap connecting portion 31c.
  • a first shaft hole 22d is provided in the connecting portion 22 of the host, and the first shaft hole 22d should be communicated with the first groove 22a.
  • a second shaft hole is provided in the first connection portion 11a. 111.
  • the strap connecting portion 31 is provided with a third shaft hole (not labeled) penetrating therethrough, and the third shaft hole is in communication with the second groove 31a.
  • the first shaft hole 22d, the second shaft hole 111, and the third shaft hole are arranged coaxially, and the first rotating shaft 21 is simultaneously penetrated through the first shaft hole 22d, the second shaft hole 111, and the third shaft hole to achieve
  • the host connection part 22 and the watch band connection part 31 are connected to the shaft of the first connection part 11 a at the same time, so that the smart host 20 and the watch band 30 are connected to the bottom bracket 10 at the same time. That is, for the host connection portion 22, the first shaft hole 22d penetrates both the first portion 22b and the second portion 22c at the same time.
  • the third axis hole penetrates the first band connecting portion 31b and the second band connecting portion 31c at the same time. It can be understood that the first shaft hole 22d, the second shaft hole 111, and the third shaft hole should be circular holes matching the first rotating shaft 21.
  • the first rotating shaft 21 is a stepped shaft, and includes a first shaft body 21a and second shaft bodies 21b, which are coaxially connected to both ends of the first shaft body 21a, 21c, and the two second shaft bodies include a first step surface 211 and a second step surface 212, that is, one of the second shaft bodies 21b includes a first step surface 211, and the other second shaft body 21c includes a second Step surface 212.
  • the diameter of the first shaft body 21a may be smaller than the diameter of the second shaft body, and one of the second shaft bodies 21b and the first shaft body 21a may be integrally formed, and the other second shaft body 21c may be connected to the first shaft body.
  • the body 21a is detachably connected, that is, one end of the first shaft body 21a can be integrally formed on the first step surface 211 of one of the second shaft bodies 21b, and the other end of the first shaft body 21a can be connected to the other second shaft body 21c.
  • the second step surface 212 is detachably connected. In this way, when the first rotating shaft 21 is penetrated through the first shaft hole 22d, the second shaft hole 111, and the third shaft hole, another second shaft body 21c may be separated from the first shaft body 21a, and then the first shaft body 21a may be separated.
  • One shaft body 21a passes through the third shaft hole, the second shaft hole 111, and the first shaft hole 22d in order, and then connects the other second shaft body 21c and the first shaft body 21a to complete the first rotating shaft 21 Connection to the band connection portion 31, the first connection portion 11 a and the host connection portion 22.
  • This connection method is quick and easy, and the user can check the condition of the first shaft body 21a and the other second shaft body 21c in real time by disassembling the other second shaft body 21c to ensure the normal use of the first shaft 21c.
  • the first shaft body 21a is located in the host connection portion 22 (ie, the first groove 22a) of the smart host 20, and one of the second shaft bodies 21b is located in the first watchband connection portion 31b of the watchband 30, and
  • the first stepped surface 211 of one of the second shaft bodies 21b is approximately flush with the surface of the first strap connection portion 31b of the strap 30;
  • the other second shaft body 21c is partially connected from the second strap of the strap 30
  • the portion 31 c extends into the host connection portion 22 of the smart host 20 and is connected to the first shaft body 21 a, and the second stepped surface 212 of the other second shaft body 21 c is located in the host connection portion 22.
  • the smart watch further includes a first holding structure provided in the first state.
  • the first holding structure can be used to provide a force that keeps the smart host 20 rotating relative to the bottom bracket 10 to form a certain angle (ie, keep the smart host 20 in the second state).
  • the first retaining structure includes an elastic member 21e and a first washer 21f. The first washer 21f is threaded through the first shaft body 21a, and the first washer 21f is connected to the first step surface 211.
  • the elastic member 21e passes through the first shaft body 21a, one end of the elastic member 21e is pressed against the first washer 21f, and the other end of the elastic member 21e is connected to the second stepped surface 212.
  • the elastic member 21e is always pressed between the first washer 21f and the second stepped surface 212.
  • the elastic member 21e presses the first washer 21f and the second step surface 212 under the rotation of the smart host 20, so that the first washer 21f is on the elastic member 21e.
  • the elastic member 21e may be a spring penetrating through the first shaft body 21a
  • the first washer 21f may be a hollow annular block structure penetrating through the first shaft body 21a.
  • the first holding mechanism further includes a second washer 21g and a third washer 21h passing through the first shaft body 21a.
  • the second washer 21g is attached to the second stepped surface 212, and the second washer 21g is located on the elasticity. Between the member 21e and the second stepped surface 212, the second washer 21g is connected to the other end of the elastic member 21e, so that the other end of the elastic member 21e is pressed against the second washer 21g.
  • the third washer 21h is located between the first washer 21f and the first stepped surface 211, and the third washer 21h includes a first end surface 213 and a second end surface 214 opposite to each other, and the first end surface 213 is attached to the first step surface 211 Then, the second end surface 214 is connected to the first washer 21f.
  • the elastic member 21e presses the first washer 21f and the second washer 21g, and the first washer 21f may be directed toward the third part by the pressing action of the elastic member 21e.
  • the state in which the bracket 10 forms the certain angle does not change.
  • a plurality of protrusions 214a protruding toward the first washer 21f may be provided on the second end surface 214, and the plurality of protrusions 214a abut the first washer 21f.
  • the first washer 21f is pressed by the pressing force of the elastic member 21e to press the plurality of protrusions 214a, and the plurality of protrusions 214a are under the pressing action of the first washer 21f.
  • a friction is generated with the first washer 21f, thereby generating a pressing frictional force.
  • protrusions 214a there may be two protrusions 214a, which are symmetrically disposed on the second end surface 214 with respect to the first washer 21f, and further increase the friction between the protrusions 214a and the first washer 21f.
  • the surface of the protrusions 214a or The surface of the first washer 21f may be provided with friction particles or friction bars.
  • the above-mentioned first washer 21f is worn.
  • the first washer 21f should be located inside the first connection portion 11a, and since the inside of the first connection portion 11a communicates with the first groove 22a of the host connection portion 22, the first The washer 21f may be disposed inside the first connection portion 11a adjacent to the first portion 22b of the host connection portion 22, and the third washer 21h may be disposed in the first portion 22b of the host connection portion 22 and disposed adjacent to the first watchband connection portion 31b, that is, The third washer 21h is defined in the first portion 22b of the host connection portion 22, and the second washer 21g is located in the second portion 22c of the host connection portion 22 and is disposed adjacent to the second band connection portion 31c.
  • the ends of the two second shaft bodies 21b and 21c may be provided with a nut 215 protruding from the outside of the watch band connecting portion 31.
  • the nut 215 may not only be used for Limiting the connection position of the strap connection portion 31 of the watch band 30 to the first rotating shaft 21 can also facilitate the disassembly and assembly of the watch band 30, so as to achieve rapid replacement of the watch band 30.
  • the bottom bracket 10 may include a bottom plate 10 a and a baffle plate 10 b.
  • the baffle plate 10 b is integrally formed on the bottom plate 10 a, and is formed between the baffle plate 10 b and the bottom plate 10 a.
  • the accommodating space of the smart host 20 is accommodated. That is, when the smart host 20 is in the first state, the smart host 20 is stacked on the bottom plate 10 a, and at this time, the baffle 10 b should partially cover the edge of the smart host 20 to protect the smart host 20.
  • the material of the bottom plate 10a may be a heat-insulating material, such as plastic.
  • the housing of the smart host 20 is made of metal, the above-mentioned devices and functional modules are provided inside the smart host 20, so this device emits a large amount of heat during operation, and this heat can be isolated exactly
  • the bottom plate 10a made of thermal material is separated, so that when the user wears the smart watch, the smart host 20 will not directly contact the wrist skin of the user, and the situation that the smart host 20 generates a large amount of heat and may cause burns to the wrist skin of the user can be avoided.
  • the bottom plate 10a can not only realize the function of bearing the rotation of the smart host 20, but also can achieve the effect of heat insulation of the smart host 20 and the skin of the wrist of the user.
  • the size of the bottom plate 10a should match the size of the smart host 20.
  • the baffle 10b can protect a part of the edge of the smart host 20
  • an arcuate surface 112 may be provided at the connection between the baffle 10b and the bottom plate 10a, and The curved surface 112 is in contact with the edge surface of the smart host 20.
  • the use of the curved surface 112 can protect the edge of the smart host 20, thereby preventing the smart host 20 from protruding outside of the bottom plate 10a, and also preventing external forces from hitting the edge of the smart host 20.
  • first connecting portion 11a and the second connecting portion 11b are both cylindrical bosses provided on two opposite ends 11 of the bottom plate 10a, and in order to avoid affecting the smart host 20 from being stacked on the bottom plate 10a, the first Both the connection portion 11a and the second connection portion 11b are disposed near the bottom of the bottom plate 10a.
  • the bottom bracket 10 may also be a closed ring structure formed by bending a bending rod member 101.
  • the first connecting portion 11a and the second connecting portion 11b may be disposed on the bending rod, and since the bottom bracket 10 is a closed ring structure, when the user wears the smart watch and the smart host 20 is located at the first In the state, the bottom of the smart host 20 directly fits the skin of the wrist of the user.
  • the bottom bracket 10 adopts the method of bending the rod member 101, which can effectively reduce the overall weight and thickness of the smart watch, so that the smart watch can maintain its thin and light design.
  • the bending member can be one or more.
  • the bottom bracket 10 when the bottom bracket 10 includes a bottom plate 10a and a bezel 10b, since the two opposite ends 11 of the bottom plate 10a are used for rotational connection with the watch band 30, it can be known that the rotation of the smart host 20 relative to the bottom plate 10a The direction should be the same as the connecting direction of the strap 30 on the two opposite ends 11 of the bottom bracket 10.
  • a third watch band connection portion 32 is provided on the other end of the watch band 30.
  • the third strap connecting portion 32 can be axially connected to the second connecting portion 11b through the second rotating shaft 33, so that the third strap connecting portion 32 can be rotated relative to the second connecting portion 11b, thereby realizing the other end of the strap 30 Rotating connection with the bottom plate 10a.
  • the second rotating shaft 33 may also be a stepped shaft, and the second rotating shaft 33 may be formed by detachably connecting two shafts.
  • the third band connecting portion 32 and the second connecting portion 11b one of the shafts of the second rotating shaft 33 may be first passed through the third band connecting portion 32 and the second connecting portion 11b, and then The other shaft of the second rotating shaft 33 is connected to one of the shafts, thereby completing the connection between the other end of the band 30 and the second connecting portion 11b.
  • the smart watch further includes a second holding structure, which is connected to the smart host 20 and / or the bottom bracket 10 for keeping the smart host 20 in the first state.
  • the second holding structure is a key structure and / or a magnetic attraction structure.
  • the second holding structure may be a magnetic element (for example, a magnet) provided on the smart host 20 and the bottom plate 10a at the same time, and the magnetism of the magnetic element provided on the smart host 20 should be the same as that of the magnetic element on the bottom plate 10a.
  • the smart host 20 when the smart host 20 is in the first state, the smart host 20 may remain in a state of being stacked on the bottom plate 10a due to the principle of attracting the opposite sex of magnetic components, that is, the smart host 20 is in the first state. constant.
  • a first magnetic element may be provided at a position of the smart host 20 adjacent to the second connection portion 11b, and at the same time, a second magnetic element may be provided in the second connection portion of the bottom plate, and the magnetic property of the second magnetic element is similar to that of the first magnetic element.
  • the magnetic properties of a magnetic element are opposite.
  • the second holding structure may also be a button provided on the smart host 20.
  • the smart host 20 When the smart host 20 is in the first state, if the user does not press the button, the smart The host 20 will maintain the first state and cannot rotate relative to the bottom plate 10a.
  • the user can press the button, so that the smart host 20 can be slightly opened relative to the bottom bracket 10, so that the smart host 20 no longer maintains the first state.
  • the rotation angle of the smart host 20 relative to the base plate 10a can be manually adjusted.
  • the smart host 20 rotates to the user's target angle, At this time, the user stops adjusting the smart host 20, and the smart host 20 can keep the current angle unchanged due to the holding effect of the first holding structure.
  • the smart host 20 can be manually adjusted again.
  • the user due to the force of the first holding structure, the user must adjust the force applied by the smart host 20 to be greater than The force of the first holding structure, so that the smart host 20 can be adjusted again and rotated relative to the bottom plate 10a until the smart host 20 is stacked on the bottom plate 10a.
  • the smart host 20 can be adjusted by The second holding structure keeps the current state (ie, the first state) unchanged.
  • a coaxial-rotation smart watch is designed as a coaxial rotation by designing the rotation of the strap and the bottom bracket and the rotation of the smart host and the bottom bracket, that is, the rotation is achieved through the first rotation shaft. Therefore, It can effectively simplify the structural design of the smart watch and reduce the assembly of parts. At the same time, it can also improve the compactness of the smart watch, making the smart watch more expressive.

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Abstract

一种共轴转动的智能手表,包括底部支架(10)、智能主机(20)及表带(30),底部支架(10)包括两相对端(11),两相对端(11)分设有第一连接部(11a)和第二连接部(11b),智能主机(20)通过第一转轴(21)轴接于第一连接部(11a),以使智能主机(20)可相对底部支架(10)转动并在第一状态和第二状态之间转换,表带(30)的一端通过第一转轴(21)轴接于第一连接部(11a),表带(30)的另一端连接于第二连接部(11b)。该共轴转动的智能手表通过将表带(30)与底部支架(10)的转动与智能主机(20)与底部支架(10)的转动设计为共轴转动,不仅可实现智能主机(20)相对底部支架(10)的角度调整,还可有效简化智能手表的结构设计,减少部件的组装,同时也可提高智能手表的结构紧凑性,使得智能手表的外观表现力更强。

Description

一种共轴转动的智能手表 技术领域
本发明涉及智能手表技术领域,尤其涉及一种共轴转动的智能手表。
背景技术
目前,市面上大部分的智能手表通常将摄像头设于智能手表内部,然后通过将摄像头对准智能手表的显示面进行拍摄,即,摄像头仅具有单一的拍摄方向。如果用户要使用摄像头进行其他方向的拍摄时,则需通过旋转手臂实现。然而,旋转手臂需进行拍照需手臂长时间保持同一姿势,这容易造成用户手臂乏累,用户使用体验性不佳。
发明内容
本发明实施例公开了一种共轴转动的智能手表,无需用户旋转手臂即可获得不同的拍摄方向,用户使用体验性高。
为了实现上述目的,本发明实施例公开了一种共轴转动的智能手表,包括
底部支架,所述底部支架包括两相对端,两所述相对端分设有第一连接部和第二连接部;
智能主机,所述智能主机轴接于所述第一连接部,以使所述智能主机可相对所述底部支架转动并在第一状态和第二状态之间转换;以及
表带,所述表带的一端轴接于所述第一连接部,所述表带的另一端连接于所述第二连接部,且所述表带的所述一端、所述智能主机与所述第一连接部共轴连接;
其中,所述第一状态为所述智能主机叠设于所述底部支架的状态,所述第二状态为所述智能主机相对所述底部支架形成一定角度的状态。
作为一种可选的实施方式,在本发明的实施例中,所述智能主机上设有主机连接部,所述主机连接部上开设有第一凹槽,所述第一连接部卡合于所述第一凹槽内,所述主机连接部与所述第一连接部轴接。
作为一种可选的实施方式,在本发明的实施例中,所述表带的一端设有表带连接部,所述表带连接部的中部设有第二凹槽,所述主机连接部位于所述第二凹槽内,所述表带连接部与所述第一连接部以及所述主机连接部轴接。
作为一种可选的实施方式,在本发明的实施例中,所述智能手表还包括第一 保持结构,所述第一保持结构用于提供保持所述智能主机相对所述底部支架转动形成所述一定角度的作用力。
作为一种可选的实施方式,在本发明的实施例中,所述智能主机、所述表带的所述一端通过第一转轴与所述第一连接部轴接,所述第一转轴为阶梯轴,包括第一轴体以及同轴连接于所述第一轴体两端的第二轴体,两所述第二轴体分别包括第一台阶面和第二台阶面;
所述第一保持结构包括弹性件以及第一垫圈,所述第一垫圈穿设于所述第一轴体,且所述第一垫圈至所述第一台阶面之间具有间隙;
所述弹性件穿设于所述第一轴体,且所述弹性件的一端挤压于所述第一垫圈,所述弹性件的另一端连接于所述第二台阶面。
作为一种可选的实施方式,在本发明的实施例中,所述第一保持结构还包括穿设于所述第一轴体的第二垫圈及第三垫圈,所述第二垫圈贴合于所述第二台阶面,所述弹性件的另一端挤压于所述第二垫圈;
所述第三垫圈位于所述第一垫圈及所述第一台阶面之间,且所述第三垫圈包括相对设置的第一端面和第二端面,所述第一端面与所述第一台阶面贴合,所述第二端面与所述第一垫圈之间具有所述间隙;
所述第一垫圈用于在所述弹性件的挤压作用下沿朝向所述第二端面的方向挤压,以使所述第一垫圈与所述第二端面抵接并产生摩擦阻力,以保持所述智能主机相对所述底部支架形成所述一定角度。
作为一种可选的实施方式,在本发明的实施例中,所述第二端面上设有朝向所述第一垫圈凸设的若干凸起,若干所述凸起位于所述间隙内,且若干所述凸起抵接于所述第一垫圈。
作为一种可选的实施方式,在本发明的实施例中,所述底部支架包括底板及挡板,所述挡板一体成型于所述底板,所述挡板与所述底板之间形成用于容置所述智能主机的容置空间。
作为一种可选的实施方式,在本发明的实施例中,所述挡板与所述底板的连接处设有弧形面,且所述挡板与所述底板的连接处的所述弧形面与所述智能主机的边缘面贴合。
作为一种可选的实施方式,在本发明的实施例中,所述底部支架为由折弯杆件弯折形成的闭合环状结构。
作为一种可选的实施方式,在本发明的实施例中,所述智能手表还包括第二 保持结构,所述第二保持结构连接于所述智能主机和/或所述底部支架,用于使所述智能主机保持所述第一状态。
与现有技术相比,本发明实施例具有以下有益效果:
本发明实施例提供的共轴转动的智能手表,采用智能主机与底部支架轴接,从而可实现智能主机相对底部支架的转动角度可调,在需要调整设于智能主机的拍摄装置的拍摄方向时,仅需调整智能主机相对于基座的转动角度即可,操作方式简单,且有利于提高用户的使用体验。
此外,本发明实施例提供的智能手表,表带与底部支架的转动与智能主机与底部支架的转动为共轴设计,因此,可有效简化智能手表的结构设计,减少部件的组装,同时也可提高智能手表的结构紧凑性,使得智能手表的外观表现力更强。
附图说明
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本发明实施例公开的共轴转动的智能手表的智能主机位于第一状态的结构示意图;
图2是本发明实施例公开的共轴转动的智能手表的智能主机位于第二状态的结构示意图;
图3是图2的分解示意图;
图4是本发明实施例公开的底部支架的一种结构示意图;
图5是本发明实施例公开的底部支架的另一种结构示意图;
图6是本发明实施例公开的第一保持结构的结构示意图;
图7是图6的分解示意图。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
在本发明中,术语“上”、“下”、“左”、“右”、“前”、“后”、“顶”、“底”、“内”、“外”、“中”、“竖直”、“水平”、“横向”、“纵向”等指示的方位或位置关系为基于附图所示的方位或位置关系。这些术语主要是为了更好地描述本发明及其实施例,并非用于限定所指示的装置、元件或组成部分必须具有特定方位,或以特定方位进行构造和操作。
并且,上述部分术语除了可以用于表示方位或位置关系以外,还可能用于表示其他含义,例如术语“上”在某些情况下也可能用于表示某种依附关系或连接关系。对于本领域普通技术人员而言,可以根据具体情况理解这些术语在本发明中的具体含义。
此外,术语“安装”、“设置”、“设有”、“连接”、“相连”应做广义理解。例如,可以是固定连接,可拆卸连接,或整体式构造;可以是机械连接,或电连接;可以是直接相连,或者是通过中间媒介间接相连,又或者是两个装置、元件或组成部分之间内部的连通。对于本领域普通技术人员而言,可以根据具体情况理解上述术语在本发明中的具体含义。
此外,术语“第一”、“第二”等主要是用于区分不同的装置、元件或组成部分(具体的种类和构造可能相同也可能不同),并非用于表明或暗示所指示装置、元件或组成部分的相对重要性和数量。除非另有说明,“多个”的含义为两个或两个以上。
下面将结合实施例和附图对本发明的技术方案作进一步的说明。
请一并参阅图1及图2,本发明实施例提供的一种共轴转动的智能手表,包括底部支架10、智能主机20以及连接于底部支架10的表带30。底部支架10包括两个相对端11,该两个相对端11分设有第一连接部11a和第二连接部11b。智能主机20通过第一转轴21轴接于第一连接部11a,以使智能主机20可相对底部支架10转动并可在第一状态和第二状态之间转换。表带30的一端通过第一转轴21轴接于该第一连接部11a,表带30的另一端连接该第二连接部11b。
由此可知,本发明实施例提供的智能手表,在实现智能主机20相对底部支架10转动时,与表带30相对智能主机20的转动为共轴转动(即均通过该第一转轴21实现转动),从而能够减少智能手表的部件设计,简化智能手表的部件组装流程,进而使得智能手表的结构更加紧凑。
在本实施例中,该智能主机20作为共轴转动的智能手表的主机使用,其不仅包括设于内部的主板、用于实现触控、显示功能的触控屏/或显示屏、对主板、 触控屏/显示屏进行供电的电池、实现智能主机20的拍摄功能的拍摄装置、实现智能主机20的通信功能的通信器件(例如无线通信器件、蓝牙通信器件、红外通信器件等)、实现智能主机20的检测功能的传感器(例如重力传感器、加速度传感器、距离传感器、气压传感器、紫外线检测器、玩水检测识别模块)、实现对用户的心率进行检测的心率检测器、实现智能主机20的定时功能的定时器、对用户的身份进行识别的元件,例如指纹模组、面部识别模组,以及实现音频输入和/或输出的麦克风、扬声器等。应该得知的是,上述各器件、功能模组均设于智能主机20内部,且与主板电连接,通过主板实现对这些器件、功能模组的控制,进而控制其实现对应的功能。
因此,本发明实施例的智能主机20是有别于传统的手表的仅能实现时间显示、定时等功能的表盘的。
结合图1至图3所示,在本实施例中,智能主机20包括相对设置的显示面20a和非显示面20b,该智能主机20的第一状态为智能主机20叠设于底部支架10的状态,该第二状态为智能主机20相对底部支架10形成一定角度的状态。其中,该叠设于底部支架10的状态是指:智能主机20的非显示面20b近似与底部支架10的上表面贴合的状态。而该相对底部支架10形成一定角度的状态是指:智能主机20的显示面20a以及非显示面20b均与底部支架10的上表面形成一定角度的状态。
进一步地,由于智能主机20与底部支架10为可转动连接,因此,可通过调整智能主机20与底部支架10的转动角度,从而使得智能主机20可在第一状态和第二状态之间转换。具体地,为了符合用户的佩戴习惯和使用习惯,该智能主机20与底部支架10之间的转动角度可在0~90°之间调整,例如,当智能主机20位于第一状态时,智能主机20与底部支架10之间的角度为0°;而当智能主机20位于第二状态时,该智能主机20与底部支架10之间的角度可优选为90°。这是由于:在智能主机20位于第一状态时,智能主机20上的显示屏的显示面20a相对底部支架10是朝上设置的,而当智能主机20相对底部支架10转动形成90°夹角时,智能主机20的显示屏的显示面20a也相对底部支架10成90°角,这时,用户可方便观看屏幕。
当然,主机本体20与支架本体10的转动角度也可在0~180°之间调整。优选地,该转动角度可为0°、30°、45°、60°、75°、90°、120°、130°、135°、140°、145°、150°、160°、170°或180°等。
应该得知的是,在主机本体20位于第二姿态时,该主机本体20与支架本体10形成的一定角度优选为0~90°。
在本实施例中,为了实现智能主机20与底部支架10的轴接,在智能主机20上设有主机连接部22,该主机连接部22上设有第一凹槽22a,该底部支架10的第一连接部11a位于第一凹槽22a内,该底部支架10的第一连接部11a的内部应与第一凹槽22a连通,该主机连接部22通过该第一转轴21与第一连接部11a实现轴接,从而实现智能主机20与底部支架10的轴接。具体地,该主机连接部22为设于智能主机20上的圆柱形凸台,该圆柱形凸台自智能主机20的壳体的表面向外延伸。该第一凹槽22a为开设于主机连接部22上的圆形槽,且为了确保智能手表的外观装饰效果,该第一凹槽22a的开口应朝向智能主机20的非显示面20b设置。此外,为了方便第一连接部11a的安装,第一凹槽22a可将主机连接部22朝向智能主机20一端分隔成两部分,分别为第一部分22b和第二部分22c,该第一连接部11a位于该第一凹槽22a内,且第一连接部11a的两侧分别朝向第一部分22b和第二部分22c设置。
进一步地,该第一连接部11a为设于底部支架10上的圆柱形凸台,且在智能主机20与底部支架10连接时,第一连接部11a应完全位于第一凹槽22a内,从而可使得第一转轴21可同时穿过主机连接部22和第一连接部11a,实现智能主机20与底部支架10的连接。可以理解的是,在其他实施例中,主机连接部22及第一连接部11a也可为方形凸台。
进一步地,为了实现表带30、智能主机20与底部支架10的轴接为共轴设计,在表带30的一端设有表带连接部31,该表带连接部31的中部设有第二凹槽31a,该主机连接部22部分位于第二凹槽31a,且该表带连接部31通过该第一转轴21与第一连接部11a以及主机连接部22轴接。也就是说,表带连接部31的第二凹槽31a与主机连接部22的第一凹槽22a以及底部支架10的第一连接部11a的内部均连通,且对于表带连接部31、主机连接部22以及第一连接部11a而言,其三者的轴心应在同一直线上,这样,才可实现第一转轴21同时穿设于表带连接部31、主机连接部22以及第一连接部11a实现轴接。具体地,该第二凹槽31a将表带连接部31分隔成第一表带连接部31b和第二表带连接部31c,该主机连接部22的两侧(第一部分22b和第二部分22c)分别朝向第一表带连接部31b和第二表带连接部31c设置,且第一部分22b近似于第一表带连接部31b贴合,第二部分22c近似于第二表带连接部31c贴合。
更进一步地,在主机连接部22上设有贯通的第一轴孔22d,且该第一轴孔22d应与第一凹槽22a连通;该第一连接部11a设有贯通的第二轴孔111,该表带连接部31设有贯通的第三轴孔(未标示),且第三轴孔与第二凹槽31a连通。该第一轴孔22d、第二轴孔111以及第三轴孔同轴心设置,且第一转轴21同时穿设于第一轴孔22d、第二轴孔111以及第三轴孔,以实现主机连接部22、表带连接部31同时与第一连接部11a的轴接,进而实现智能主机20、表带30同时与底部支架10的轴接。也就是说,对于主机连接部22而言,第一轴孔22d同时贯穿第一部分22b和第二部分22c。同理,对于表带连接部31而言,第三轴孔同时贯穿第一表带连接部31b和第二表带连接部31c。可以理解的是,该第一轴孔22d、第二轴孔111、第三轴孔应为与第一转轴21相匹配的圆形孔。
结合图3、图6和图7所示,在本实施例中,第一转轴21为阶梯轴,包括第一轴体21a以及同轴连接于第一轴体21a两端的第二轴体21b、21c,且该两个第二轴体分别包括第一台阶面211和第二台阶面212,即,其中一个第二轴体21b包括第一台阶面211,另一个第二轴体21c包括第二台阶面212。具体地,第一轴体21a的直径可小于该第二轴体的直径,且其中一个第二轴体21b与第一轴体21a可一体成型,另一个第二轴体21c可与第一轴体21a可拆卸连接,即,第一轴体21a的一端可一体成型于其中一个第二轴体21b的第一台阶面211,第一轴体21a的另一端可与另一个第二轴体21c的第二台阶面212可拆卸连接。这样,在使得第一转轴21穿设于第一轴孔22d、第二轴孔111及第三轴孔时,可先将另一个第二轴体21c与第一轴体21a分离,然后将第一轴体21a先依次穿过第三轴孔、第二轴孔111及第一轴孔22d,然后再将另一个第二轴体21c与第一轴体21a连接起来,从而完成第一转轴21与表带连接部31、第一连接部11a以及主机连接部22的连接。这种连接方式快捷简便,且用户可通过拆卸另一个第二轴体21c,而实现实时检查第一轴体21a和另一个第二轴体21c的情况,确保第一转轴21的正常使用。
优选地,第一轴体21a位于智能主机20的主机连接部22(即第一凹槽22a)内,其中一个第二轴体21b部分位于表带30的第一表带连接部31b内,且该其中一个第二轴体21b的第一台阶面211近似于表带30的第一表带连接部31b的表面齐平;另一个第二轴体21c部分自表带30的第二表带连接部31c向智能主机20的主机连接部22内延伸并与第一轴体21a连接,且该另一个第二轴体21c的第二台阶面212位于主机连接部22内。
进一步地,为了使得智能主机20相对底部支架10在转动至第二状态时,智能主机20能够保持该第二状态不变,智能手表还包括第一保持结构,该第一保持结构设于该第一转轴21上,该第一保持结构可用于提供保持智能主机20相对底部支架10转动形成该一定角度的作用力(即,保持智能主机20位于第二状态)。具体地,该第一保持结构包括弹性件21e及第一垫圈21f,该第一垫圈21f穿设于该第一轴体21a,且该第一垫圈21f与第一台阶面211连接,该弹性件21e穿设于第一轴体21a,且弹性件21e的一端挤压于第一垫圈21f,弹性件21e的另一端连接于第二台阶面212。在智能主机20相对底部支架10转动的过程中,该弹性件21e始终是挤压于第一垫圈21f和第二台阶面212之间的。当智能主机20相对底部支架10转动至处于第二状态时,弹性件21e在智能主机20的转动作用下挤压第一垫圈21f和第二台阶面212,使得第一垫圈21f在弹性件21e的作用下抵接第一台阶面211,从而使得第一垫圈21f与第一台阶面211之间产生挤压摩擦力,该挤压摩擦力即为提供智能主机20保持相对底部支架10形成该一定角度的作用力。
优选地,该弹性件21e可为穿设于第一轴体21a的弹簧,第一垫圈21f为穿设于第一轴体21a的中空环形块状结构。
更进一步地,第一保持机构还包括穿设于第一轴体21a的第二垫圈21g及第三垫圈21h,该第二垫圈21g贴合于第二台阶面212设置,第二垫圈21g位于弹性件21e和第二台阶面212之间,且第二垫圈21g与弹性件21e的另一端连接,从而使得弹性件21e的另一端挤压于该第二垫圈21g。该第三垫圈21h位于第一垫圈21f和第一台阶面211之间,且第三垫圈21h包括相对设置的第一端面213和第二端面214,该第一端面213与第一台阶面211贴合,第二端面214与第一垫圈21f连接。当智能主机20相对底部支架10转动至形成一定角度时,弹性件21e挤压第一垫圈21f和第二垫圈21g,该第一垫圈21f可在弹性件21e的挤压作用下沿朝向该第三垫圈21h的第二端面214的方向挤压该第二端面214,从而使得第一垫圈21f与第二端面214在抵接摩擦的过程中产生挤压摩擦力,进而保持该智能主机20相对该底部支架10形成该一定角度的状态不变。
更进一步地,为了有效提高该挤压摩擦力,在该第二端面214上可设有朝向第一垫圈21f凸设的若干凸起214a,该若干凸起214a抵接于该第一垫圈21f。在弹性件21e挤压第一垫圈21f的过程中,第一垫圈21f受弹性件21e的挤压力作用挤压该若干凸起214a,该若干凸起214a在第一垫圈21f的挤压作用下与第一 垫圈21f产生摩擦,从而产生挤压摩擦力。优选地,该若干凸起214a可为两个,相对第一垫圈21f对称设于第二端面214上,且了进一步增加该凸起214a与第一垫圈21f的摩擦,该凸起214a的表面或者是第一垫圈21f的表面可设置摩擦颗粒或者是摩擦条。
在本实施例中,为了使得智能手表的整体结构紧凑且提高第一转轴21与表带连接部31、主机连接部22以及第一连接部11a的连接可靠性,上述的第一垫圈21f在穿设于第一轴体21a上时,第一垫圈21f应位于第一连接部11a的内部,且由于第一连接部11a的内部与主机连接部22的第一凹槽22a连通,因此,第一垫圈21f可位于第一连接部11a内部临近主机连接部22的第一部分22b设置,而第三垫圈21h位于主机连接部22的第一部分22b内,且临近该第一表带连接部31b设置,即,第三垫圈21h限定于主机连接部22的第一部分22b内,而第二垫圈21g则位于主机连接部22的第二部分22c内,且临近第二表带连接部31c设置。
进一步地,为了便于拆装该表带30,该两个第二轴体21b、21c的端部上可设置有凸设于表带连接部31外部的螺帽215,该螺帽215不仅可用于限定表带30的表带连接部31与第一转轴21的连接位置,同时还可便于该表带30的拆装,从而实现对表带30的快速更换。
结合图2至图4所示,在本实施例中,该底部支架10可包括底板10a和挡板10b,该挡板10b一体成型于底板10a,且挡板10b与底板10a之间形成用于容置该智能主机20的容置空间。也就是说,在智能主机20处于第一状态时,智能主机20是叠设于底板10a上的,且此时,挡板10b应部分覆盖智能主机20的边缘,以保护智能主机20。具体地,底板10a的材质可优选为隔热材质,例如塑胶。这是因为:当智能主机20的外壳为金属材质时,由于智能主机20内部设置上述的器件以及功能模组,因此,该器件在运行时,会发出大量的热量,而这些热量恰好可被隔热材质的底板10a隔开,从而当用户佩戴智能手表时,智能主机20不会直接接触用户的手腕皮肤,进而能够避免智能主机20发热量大而可能对用户的手腕皮肤造成烫伤的情况。
因此,该底板10a不仅可实现承载智能主机20转动的功能,同时还可实现对智能主机20与用户的手腕皮肤进行隔热的效果。
进一步地,在智能主机20位于第一状态时,为了确保底板10a能够完全承载智能主机20,该底板10a的尺寸应与智能主机20的尺寸相匹配。
更进一步地,为了实现在智能主机20处于第一状态时,挡板10b能够对智能主机20的部分边缘起到保护作用,该挡板10b与底板10a的连接处可设置弧形面112,且该弧形面112与智能主机20的边缘面贴合。这样,利用弧形面112可起到保护智能主机20的边缘的作用,从而避免智能主机20外凸于底板10a外部,同时也可防止外力撞击到智能主机20的边缘。
更进一步地,该第一连接部11a和第二连接部11b均为设于底板10a的两相对端11的圆柱形凸台,且为了避免影响智能主机20叠设于底板10a上,该第一连接部11a和第二连接部11b均临近底板10a的底部设置。
可以理解的是,在其他实施例中,如图5所示,该底部支架10也可由折弯杆件弯101折形成的闭合环状结构。此时,第一连接部11a和第二连接部11b可设置在折弯杆件上,且由于底部支架10为闭合环状结构,因此,在用户佩戴该智能手表且智能主机20在位于第一状态时,智能主机20的底部是直接贴合用户的手腕皮肤的。
该底部支架10采用折弯杆件101的方式,可有效减轻智能手表的整体重量以及减小智能手表的整体厚度,从而使得智能手表可保持其轻薄化设计。
可以得知的是,该折弯杆件可为一根或多根。
在本实施例中,当底部支架10包括底板10a和挡板10b时,由于底板10a的两个相对端11是用于与表带30转动连接的,因此可知,智能主机20相对底板10a的转动方向应与表带30在底部支架10的两个相对端11上的连接方向相同。
结合图1和图3所示,在本实施例中,为了实现表带30的另一端与底板的第二连接部11b的连接,在表带30的另一端设有第三表带连接部32,该第三表带连接部32可通过第二转轴33与第二连接部11b轴接,从而使得第三表带连接部32可相对第二连接部11b转动,进而实现表带30的另一端相对底板10a的转动连接。
进一步地,为了便于表带30的另一端相对底板10a快速拆装,该第二转轴33同样可为阶梯轴,且第二转轴33可由两根轴可拆卸连接形成。在将第三表带连接部32与第二连接部11b连接时,可先将第二转轴33的其中一根轴先穿过第三表带连接部32和第二连接部11b,然后再将第二转轴33的另一根轴与该其中一根轴连接起来,从而完成表带30的另一端与第二连接部11b的连接。
在本实施例中,该智能手表还包括第二保持结构,该第二保持结构连接于智 能主机20和/或底部支架10,用于使智能主机20保持该第一状态。该第二保持结构为按键结构和/或磁吸结构。
具体地,该第二保持结构可为同时设于智能主机20和底板10a上的磁性元件(例如磁铁),且设于智能主机20上的磁性元件的磁性应与底板10a上的磁性元件的磁性相反,这样,当智能主机20位于第一状态时,可由于磁性元件的异性相吸的原理,使得智能主机20保持叠设于底板10a上的状态不变,即,智能主机20位于第一状态不变。优选地,在智能主机20临近第二连接部11b的位置可设有第一磁性元件,与此同时,在底板的第二连接部内可设置第二磁性元件,且第二磁性元件的磁性与第一磁性元件的磁性相反。当智能主机20相对底板位于第一状态时,该第一磁性元件可与第二磁性元件吸合,从而使得智能主机20保持其位于第一状态不变。可以理解的是,在其他实施例中,在智能主机20设置第一磁性元件时,若底板的第二连接部选用金属材料制成的话,那么此时,无需在第二连接部内部额外设置第二磁性元件,也可使得第一磁性元件与第二连接部实现吸合。
可以理解的是,在其他实施例中,该第二保持结构还可为设置在智能主机20上的按键,当智能主机20位于第一状态时,如若用户不按压该按键,则此时,智能主机20将保持该第一状态不变,而不能相对底板10a转动。而当用户需智能主机20相对底板10a转动时,可通过按压该按键,使得智能主机20相对底部支架10可以稍微弹开一点角度,从而使得智能主机20不再保持第一状态。
结合图1、图2所示,在用户需调整智能主机20相对底板10a的角度时,可通过手动调整智能主机20相对底板10a的转动角度,当智能主机20转动至用户的目标角度时,此时,用户停止调整智能主机20,智能主机20可由于该第一保持结构的保持作用而保持在当前角度不变。
而当用户想将智能主机20叠设于底板10a上时,则可再次通过手动调整智能主机20,此时,由于第一保持结构的作用力,则用户调整智能主机20所施加的力需大于第一保持结构的作用力,从而使得智能主机20可再次被调整而相对底板10a转动,直至智能主机20叠设于底板10a上,此时,用于停止调整智能主机20,智能主机20可由于该第二保持结构的保持作用而保持在当前状态(即第一状态)不变。
本发明实施例提供的一种共轴转动的智能手表,通过将表带与底部支架的转动与智能主机与底部支架的转动设计为共轴转动,即,都通过第一转轴实现转动, 因此,可有效简化智能手表的结构设计,减少部件的组装,同时也可提高智能手表的结构紧凑性,使得智能手表的外观表现力更强。
以上对本发明实施例公开的一种共轴转动的智能手表进行了详细介绍,本文中应用了具体个例对本发明的原理及实施方式进行了阐述,以上实施例的说明只是用于帮助理解本发明的一种共轴转动的智能手表的核心思想;同时,对于本领域的一般技术人员,依据本发明的思想,在具体实施方式及应用范围上均会有改变之处,综上所述,本说明书内容不应理解为对本发明的限制。

Claims (12)

  1. 一种共轴转动的智能手表,其特征在于,包括
    底部支架,所述底部支架包括两相对端,两所述相对端分设有第一连接部和第二连接部;
    智能主机,所述智能主机轴接于所述第一连接部,以使所述智能主机可相对所述底部支架转动并在第一状态和第二状态之间转换;以及
    表带,所述表带的一端轴接于所述第一连接部,所述表带的另一端连接于所述第二连接部,且所述表带的所述一端、所述智能主机与所述第一连接部共轴连接;
    其中,所述第一状态为所述智能主机叠设于所述底部支架的状态,所述第二状态为所述智能主机相对所述底部支架形成一定角度的状态。
  2. 根据权利要求1所述的共轴转动的智能手表,其特征在于,所述智能主机上设有主机连接部,所述主机连接部上开设有第一凹槽,所述第一连接部位于所述第一凹槽内,所述主机连接部与所述第一连接部轴接。
  3. 根据权利要求2所述的共轴转动的智能手表,其特征在于,所述表带的一端设有表带连接部,所述表带连接部设有第二凹槽,所述主机连接部部分位于所述第二凹槽,所述表带连接部与所述第一连接部以及所述主机连接部轴接。
  4. 根据权利要求1至3任一项所述的共轴转动的智能手表,其特征在于,所述智能手表还包括第一保持结构,所述第一保持结构用于提供保持所述智能主机相对所述底部支架转动形成所述一定角度的作用力。
  5. 根据权利要求4所述的共轴转动的智能手表,其特征在于,所述智能主机、所述表带的所述一端通过第一转轴与所述第一连接部轴接,所述第一转轴为阶梯轴,包括第一轴体以及同轴连接于所述第一轴体两端的第二轴体,两所述第二轴体分别包括第一台阶面和第二台阶面;
    所述第一保持结构包括弹性件以及第一垫圈,所述第一垫圈穿设于所述第一轴体,且所述第一垫圈连接于所述第一台阶面;
    所述弹性件穿设于所述第一轴体,且所述弹性件的一端挤压于所述第一垫圈,所述弹性件的另一端连接于所述第二台阶面。
  6. 根据权利要求5所述的共轴转动的智能手表,其特征在于,所述第一保持结构还包括穿设于所述第一轴体的第二垫圈及第三垫圈,所述第二垫圈贴合于所述第二台阶面,所述弹性件的另一端挤压于所述第二垫圈;
    所述第三垫圈位于所述第一垫圈及所述第一台阶面之间,且所述第三垫圈包括相对设置的第一端面和第二端面,所述第一端面与所述第一台阶面贴合,所述第二端面与所述第一垫圈连接;
    在所述智能主机相对所述底部支架转动至第二状态时,所述第一垫圈在所述弹性件的挤压作用下抵接所述第二端面并与所述第二端面产生挤压摩擦力,所述挤压摩擦力为提供所述智能主机相对所述底部支架形成所述一定角度的作用力。
  7. 根据权利要求6所述的共轴转动的智能手表,其特征在于,所述第二端面上设有朝向所述第一垫圈凸设的若干凸起,且若干所述凸起抵接于所述第一垫圈。
  8. 根据权利要求1至7任一项所述的共轴转动的智能手表,其特征在于,所述底部支架包括底板及挡板,所述挡板一体成型于所述底板,所述挡板与所述底板之间形成用于容置所述智能主机的容置空间。
  9. 根据权利要求8所述的共轴转动的智能手表,其特征在于,所述挡板与所述底板的连接处设有弧形面,且在所述智能主机位于所述第一状态时,所述弧形面与所述智能主机的边缘面贴合。
  10. 根据权利要求1至7任一项所述的共轴转动的智能手表,其特征在于,所述底部支架为由折弯杆件弯折形成的闭合环状结构。
  11. 根据权利要求1至7任一项所述的共轴转动的智能手表,其特征在于,所述智能手表还包括第二保持结构,所述第二保持结构连接于所述智能主机和/或所述底部支架,用于使所述智能主机保持所述第一状态。
  12. 根据权利要求11所述的共轴转动的智能手表,其特征在于,所述第二保持结构为按键结构和/或磁吸结构。
PCT/CN2019/095277 2018-09-29 2019-07-09 一种共轴转动的智能手表 WO2020063025A1 (zh)

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