CN117666318A - Detachable host structure and intelligent watch - Google Patents

Abstract

The invention discloses a detachable host structure and an intelligent watch. The connecting component comprises a rotating component and two locking components. The end part of the supporting plate is provided with a containing part, and the two lock catch components are arranged in the containing part. The base shell is positioned in the accommodating part, and the contact block is used for butting the rotating piece. The turnover piece is arranged on the rotating piece and used for docking the host. In the first state, the two locking components are respectively clamped into the two locking grooves. Under the second state, the contact block extrudes the two lock catch components to the notch positions of the two lock catch grooves, and applies the acting force of the host computer in the direction away from the supporting plate, so that the base shell is separated from the two lock catch components, and the separation of the host computer and the supporting plate is realized. The invention can enable the user to change the orientation of the host computer at will without rotating the wrist. And the host computer can be used alone after being disassembled, and the application scene of the host computer can not be limited due to the constraint of the wrist, so that the use experience of a user can be improved.

Description

Detachable host structure and intelligent watch

Technical Field

The invention relates to the technical field of wearable equipment, in particular to a detachable host structure and an intelligent watch.

Background

Along with the rapid development of science and technology, various intelligent wearable devices are penetrating the aspects of life of people, and great transformation is brought to daily life and perception of people. The wearable device is not only a hardware device, but also can realize a powerful function through software support and data interaction and cloud interaction. The application fields of the medical device are very wide, such as medical treatment, body building, communication and the like. For example, a wristwatch is not limited to the functions of time checking, timing and the like, but can be connected to a network by implanting intelligent hardware into the wristwatch and carrying a smart phone system, so that various functions such as telephone, short message, mail, photo, music video and the like can be realized. The intelligent watch is an extension and expansion of the functions of the mobile phone, and brings great convenience to the daily life of people.

There is some intelligent watches on the market to possess upset and/or revolution mechanic, and the host computer can rotate for the layer board to change the orientation of host computer screen and camera, be convenient for the user to look over information, video conversation and make a video recording and take a picture etc.. In general, the host computer cannot be separated from the supporting plate, that is, the host computer always moves along with the wrist of the user, and cannot be detached for independent use. The defect brought by the method is that the wrist limits various application scenes of the host, and the wrist cannot meet the use requirements of users for multiple scenes like a mobile phone, for example, the host is used for photographing, shooting, video call and the like independently. And the rotation travel range of the host computer is limited, the screen can not be adjusted in any direction, and the application scene of the intelligent watch is greatly limited.

Therefore, how to improve the technical defects existing in the prior art is a problem to be solved by the person skilled in the art.

Disclosure of Invention

The invention aims to provide a detachable host structure and an intelligent watch, wherein a connecting component is used for butting a host and a supporting plate, so that the host can have any angle orientation relative to the supporting plate, a user can change the host orientation at will without rotating a wrist, and a screen can enter the sight range of the user. And make the contact block extrude two hasp subassemblies in order to remove spacing between host computer and the layer board through rotating the contact block, can make the host computer use alone after dismantling, can not restrict the application scenario of host computer because of receiving the constraint of wrist to can promote user's use experience greatly.

The technical scheme provided by the invention is as follows:

the present invention provides in a first aspect a removable host structure comprising:

the device comprises a supporting plate, a host machine and a connecting component for driving the host machine to turn over and rotate relative to the supporting plate;

the connecting component is characterized by comprising a rotating component and two locking components;

the end part of the supporting plate is provided with a containing part, and the two lock catch components are symmetrically arranged in the containing part;

the rotating assembly comprises a base shell, a contact block, a rotating piece and a turnover piece;

the two opposite sides of the base shell are respectively provided with a buckling groove used for being matched with the locking assembly;

the base shell is positioned in the accommodating part; the contact block is positioned in the base shell and used for butting the rotating piece;

the turnover piece is arranged on the rotating piece and is used for docking the host;

the host rotates and switches the touch block between a first state and a second state in the rotating process;

in the first state, the two lock catch components are respectively clamped into the two lock catch grooves so as to assemble the host on the supporting plate;

in the second state, the contact block extrudes the two lock catch components to the notch positions of the two lock catch grooves, and applies the acting force of the host machine in the direction away from the supporting plate, so that the base shell is separated from the two lock catch components, and the separation of the host machine and the supporting plate is realized.

In some embodiments, two opposite inner wall surfaces of the accommodating part are respectively provided with a chute;

when the base shell is positioned in the accommodating part, the two sliding grooves and the two buckling grooves are arranged in a one-to-one correspondence;

the lock catch assembly comprises an elastic piece and a lock catch tongue;

the elastic piece is used for fixing the buckling tongue to the sliding groove;

the elastic piece drives the buckling tongue to extend into the buckling groove in a natural state so as to lock the base shell in the accommodating part, and assembly of the host machine and the supporting plate is realized;

the touch block extrudes the buckling tongue in the rotating process, so that the buckling tongue rebounds towards the inside of the chute, limit between the buckling tongue and the buckling groove is relieved, and the host is separated from the supporting plate when the host is subjected to the action of external force.

In some embodiments, a lower end wall of the latch, which is far away from one side of the elastic piece, is provided with a first guiding inclined plane; and

The lower edge of the notch of the buckling groove is provided with an extrusion cambered surface;

the contact block extrudes the buckling tongue in the rotating process, so that the first guide inclined surface contacts the extrusion cambered surface, the acting force of the host machine in the direction far away from the supporting plate is applied, the extrusion cambered surface extrudes the first guide inclined surface in the moving process of the base shell, and the buckling tongue is separated from the buckling groove, so that the host machine is detached from the supporting plate.

In some embodiments, the upper end wall of the latch, which is far away from one side of the elastic piece, is provided with a second guiding inclined plane; and

The upper end wall of the buckling groove is provided with a matching inclined plane;

the second guiding inclined plane and the matching inclined plane are used for guiding the buckling tongue to be clamped into the buckling groove.

In some embodiments, the contact block has oppositely disposed first and second pressing ends;

the connecting line distance between the first extrusion end part and the second extrusion end part is larger than the connecting line distance between two ends of the contact block perpendicular to the first extrusion end part and the second extrusion end part;

the first extrusion end part and the second extrusion end part are respectively used for extruding the two lock catch components.

In some embodiments, the contact block is in a diamond-shaped block-shaped structure, and the first extrusion end part and the second extrusion end part are used for being in arc transition with the part of the lock catch assembly; and/or

The accommodating part is of a square groove body structure, the base shell is of a square shell structure matched with the outline of the accommodating part, and a station used for the rotation of the contact block is arranged inside the base shell.

In some embodiments, the rotating member includes a rotating shaft, and the contact block is disposed at a bottom end of the rotating shaft; and

The middle position of the upper end face of the base shell is provided with a rotating hole, and the rotating shaft extends to the upper side of the base shell through the rotating hole and is used for butt joint of the overturning piece so as to fix the contact block in the base shell.

In some embodiments, the turnover piece comprises a rotating plate and rotating connecting pieces which are respectively arranged at two opposite ends of the rotating plate;

the middle position of the rotating plate is provided with an inserting hole for inserting the rotating shaft;

the host machine is rotatably connected to the two rotary connecting pieces, and is operable to overturn relative to the rotating plate and drive the rotating shaft to rotate relative to the supporting plate, so that the host machine has different orientations.

In some embodiments, the rotating member further comprises a damping member disposed on the rotating shaft;

the bottom of the rotating plate is provided with a round groove which is coaxially arranged with the jack, and the bottom of the round groove is provided with two concave parts which are symmetrically arranged; and

The upper end of the base shell is provided with a round table which is coaxially arranged with the rotary hole, and the top of the round table is provided with two convex parts which are symmetrically arranged;

the damping piece is used for applying the force of rotating the board laminating in the basal shell makes the round platform with circular slot butt rotates the cooperation, the host computer drives the in-process of rotation axis rotation, when the rotating board rotates 0 or 180 for the layer board, two protruding portion respectively with two the concave part inlay card cooperates.

The present invention also provides, in a second aspect, a smart watch comprising:

watchband; and

The detachable host structure;

the supporting plate is provided with a first installation position and a second installation position which are oppositely arranged;

the first installation part is used for installing one end of the watchband, and the second installation part is used for installing the other end of the watchband.

The invention has the technical effects that:

in this patent, the rotation component can supply the host computer to overturn and rotate for the layer board, can realize that the host computer possesses the orientation of arbitrary angle for the layer board to can maintain this slope posture all the time, make the user can change the orientation of host computer wantonly under the condition that need not rotate the wrist, make the screen can get into user's sight within range, simplify the regulation step of screen and improve user's use experience greatly. Further, the limit between the host and the supporting plate can be relieved by extruding the two lock catch assemblies in the rotation process of the touch block, so that the host can be directly taken out from the supporting plate under the action of external force, and can be used in a plurality of independent scenes like a mobile phone, such as photographing, shooting, surfing and the like, and the application scene of the host can be greatly expanded.

Drawings

The invention is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a schematic diagram of a smart watch according to the present invention;

FIG. 2 is a schematic diagram of the host shown in FIG. 1;

FIG. 3 is a schematic view of the pallet and connecting member assembly shown in FIG. 1;

FIG. 4 is an exploded perspective view of FIG. 3;

FIG. 5 is a schematic view of the structure of the interior of the connecting member shown in FIG. 3;

FIG. 6 is a schematic view of the pallet shown in FIG. 3;

FIG. 7 is a schematic view of the rotating assembly of FIG. 5;

FIG. 8 is an exploded perspective view of the rotating assembly and two shackle assemblies shown in FIG. 5 in one state;

FIG. 9 is an exploded perspective view of the rotating assembly and the two shackle assemblies shown in FIG. 5 in another state;

FIG. 10 is a schematic view of the assembled contact block, base housing and two latch assemblies of FIG. 9;

FIG. 11 is a longitudinal cross-sectional view of FIG. 10;

FIG. 12 is a cut-away view of the base housing shown in FIG. 11;

FIG. 13 is a schematic view of the mating structure of the contact block and two latch assemblies shown in FIG. 10.

Reference numerals illustrate:

a host structure 100; a connecting member 1; a rotating assembly 11; a base case 111; a catching groove 1111; extrusion cambered surface 1112; mating ramp 1113; a rotary hole 1114; round table 1115; boss 11151; a station 1116; a touch pad 112; a first squeeze end 1121; a second squeeze end 1122; a rotary member 113; a rotation shaft 1131; a post 11311; damping member 1132; telescoping member 11321; a sleeve 11322; a fastener 11323; flip 114; a swivel plate 1141; a receptacle 11411; round slots 11412; recess 11413; a swivel connector 1142; shaft hole 11421; a connecting piece 11422; a first portion 114221; a second portion 114222; a roll-over shaft 11423; a stopper 11424; a protective cover 1143; a screw 1144; a latch assembly 12; an elastic member 121; latch 122; a first guide slope 1221; a second guide ramp 1222; a bottom plate 123; a pallet 2; a housing portion 21; a chute 211; a first mounting location 22; a second mounting location 23; a clasp 24; a host 3; an avoidance unit 31; a connection groove 32; a first sub-groove 321; a second sub-groove 322; a screen 33; an operation unit 34.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will explain the specific embodiments of the present invention with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the invention, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For simplicity of the drawing, only the parts relevant to the invention are schematically shown in each drawing, and they do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

In this context, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, unless explicitly stated or limited otherwise; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In addition, in the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

According to an embodiment of the present invention, as shown in fig. 1 to 13, the present invention provides a detachable host structure 100 in a first aspect, including a pallet 2, a host 3, and a connection member 1 for driving the host 3 to turn and rotate relative to the pallet 2. The connecting member 1 comprises a swivel assembly 11 and two latch assemblies 12. The end of the pallet 2 is provided with a containing part 21, and the two locking components 12 are symmetrically arranged in the containing part 21. The rotating assembly 11 includes a base housing 111, a contact block 112, a rotating member 113, and a flipping member 114. Opposite sides of the base housing 111 are provided with a locking groove 1111 for cooperating with the locking assembly 12. The base housing 111 is located in the accommodating portion 21, and the contact block 112 is located in the base housing 111 for abutting against the rotating member 113. The turning member 114 is mounted on the rotating member 113, and is used for interfacing with the host 3, and the host 3 rotates the contact block 112 between the first state and the second state during rotation. In the first state, the two locking components 12 are respectively locked into the two locking grooves 1111 to assemble the host 3 to the supporting plate 2. In the second state, the contact block 112 presses the two latch assemblies 12 to the notch positions of the two latch grooves 1111, and applies a force to the host 3 away from the direction of the supporting plate 2, so that the base shell 111 is separated from the two latch assemblies 12, so as to separate the host 3 from the supporting plate 2.

In this embodiment, the rotating assembly 11 can allow the host computer 3 to turn over and rotate relative to the supporting plate 2, so that the host computer 3 can have any angle orientation relative to the supporting plate 2, and can always maintain the inclined posture, so that the user can change the orientation of the host computer 3 at will without rotating the wrist, the screen 33 can enter the sight range of the user, the adjustment step of the screen 33 is greatly simplified, and the use experience of the user is improved. Further, the contact block 112 presses the two locking components 12 in the rotation process to release the limit between the host 3 and the supporting plate 2, so that the host 3 can be directly taken out from the supporting plate 2 under the action of external force, and can be used in multiple scenes like a mobile phone, such as photographing, shooting, surfing, etc., so that the application scene of the host 3 can be greatly expanded.

It should be noted that, in the present embodiment, the host 3 is stacked on the supporting plate 2 in the initial state. The screen 33 is disposed on the side of the host 3 opposite to the supporting plate 2, and the camera is disposed at a position adjacent to the host 3, and the camera may be preferably disposed at an intermediate position of the upper end of the screen 33, but is not limited thereto. When the user operates the host 3 to turn and rotate the host 3 relative to the pallet 2, the camera and the screen 33 can move along with the host 3, so that the user can seek an optimal video imaging angle, and the practical use requirement is met.

Of course, the present invention also provides a smart watch in the second aspect, and may specifically include a watchband and the detachable host structure 100 provided in the first aspect. Wherein, referring to fig. 1 to 5, the pallet 2 has a first mounting portion 22 and a second mounting portion 23 oppositely disposed, the first mounting portion 22 being disposed adjacent to the connecting member 1 for mounting one end of the wristband, the second mounting portion 23 being located at the opposite end of the pallet 2 for mounting the other end of the wristband.

When the user uses the intelligent watch, the inclination amplitude of the host computer 3 relative to the supporting plate 2 can be adjusted in real time according to the use habit of the user, so that the video and photographing angle can be changed, and better communication and photographing effects can be realized. Meanwhile, compared with the traditional intelligent watch with the unadjustable host computer 3, the intelligent watch with the adjustable tilt amplitude can effectively prevent the pain of the wrist caused by overlong video shooting time by adjusting the tilt amplitude of the host computer 3, and brings better use experience to a user in the process of using the intelligent watch.

It should be noted that the specific structure of the watchband in this embodiment may not be limited, for example, it may be an elastic band, and two ends of the elastic band are respectively used to butt against the first installation portion 22 and the second installation portion 23 of the supporting plate 2, and the host 3 may be automatically fixed on the wrist of the user by using the elastic function of the elastic band. Of course, the watchband can also be two branch bands which are buckled into a whole through the watch buckle. The two belt ends are respectively used for being installed and fixed with the first installation part 22 and the second installation part 23, and are all within the protection scope of the patent. The mounting modes of the watchband, the first mounting portion 22 and the second mounting portion 23 are not particularly limited, and can be fixedly connected through a rotating shaft, and of course, the watchband, the first mounting portion 22 and the second mounting portion 23 can be fixed through any mode such as welding or fastening, and the like, and are all within the protection scope of the present patent, and the watchband, the first mounting portion and the second mounting portion are not described in detail herein, and can be flexibly changed according to the preference of a user.

It should be noted that, when the main unit 3 rotates to be stacked on the supporting plate 2, or when the main unit 3 is in the initial non-rotated state, in order to ensure that the main unit 3 will not automatically turn up from the supporting plate 2 under the action of external force, for example, in the case of shaking a wrist during use of the smart watch, a buckle 24 may be preferably disposed at a position of the supporting plate 2 adjacent to the second mounting portion 23, that is, a position far away from one end of the connecting member 1, and correspondingly, a buckle groove 1111 adapted to the buckle 24 is disposed on a surface of the main unit 3 opposite to the screen 33. When the host 3 is folded on the supporting plate 2, the buckle 24 and the buckle groove 1111 are buckled and matched to limit the host 3 from being separated from the supporting plate 2. Of course, the supporting plate 2 may be further provided with a fastening slot 1111 and the host 3 may be provided with a fastener 24, or the host 3 and the supporting plate 2 may be magnetically engaged with each other through a magnetic element, that is, any structural manner capable of fixing the host 3 and the supporting plate 2 is within the protection scope of the present patent, and no limitation is made herein.

Further, an operation portion 34 is provided at an end of the main body 3 adjacent to the buckle groove 1111. In the present embodiment, the operation portion 34 may be formed directly by providing an anti-slip pattern at the end of the main body 3, or an anti-slip rubber may be provided at the end of the main body 3 to form the operation portion 34, which is not limited in any way. At this time, the user only needs to touch the operation part 34 and apply a force of the operation part 34 away from the pallet 2, and when the force is greater than the force of the snap 24 and the snap groove 1111, the host 3 can turn up from the pallet 2 under the action of the connection member 1 and form an angle with the pallet 2. The user can flexibly adjust the inclination amplitude of the host computer 3 relative to the supporting plate 2 according to the actual use requirement of the user so as to meet the actual use requirement.

In this embodiment, referring to fig. 3 to 6, the receiving portion 21 may be directly injection molded with the pallet 2, and preferably is molded at an intermediate position of one end of the pallet 2. The accommodating portion 21 may have a hollow convex configuration, and an upper end of the accommodating portion 21 has an opening for the base case 111 to enter into the accommodating portion 21 and be taken out from the accommodating portion 21.

It should be noted that, in the present embodiment, referring to fig. 3 to 6, the accommodating portion 21 may preferably have a square groove structure, and the base housing 111 may preferably have a square housing structure adapted to the contour of the accommodating portion 21. So, after base shell 111 is located accommodation portion 21, can effectively prevent under square structure's spacing effect that base shell 111 takes place horizontal drunkenness in accommodation portion 21 to can improve host computer 3 stability in the use greatly, and then promote user's use experience. Of course, the specific structures of the accommodating portion 21 and the base housing 111 are not limited to this, and can be flexibly set according to the actual use requirements, and are all within the protection scope of this patent, and will not be described in detail herein.

Further, referring to fig. 4 and 6, a sliding groove 211 may be preferably provided at a middle position of opposite inner wall surfaces of the receiving portion 21 for assembling the latch assembly 12. When the base housing 111 is located in the accommodating portion 21, the two sliding grooves 211 and the two fastening grooves 1111 are in one-to-one correspondence and are closely adjacent or are in close contact with each other, so that the latch assembly 12 can extend into the fastening grooves 1111 to assemble the host 3 to the supporting plate 2.

As a preferred aspect of this embodiment, referring to fig. 7 to 13, the latch assembly 12 may specifically include an elastic member 121 and a latch 122. The elastic member 121 is used for fixing the latch 122 to the sliding slot 211. The elastic member 121 drives the latch 122 to extend into the slot 1111 under a natural state, so as to assemble the host 3 to the supporting plate 2. Further, the contact block 112 presses the latch 122 during the rotation of the base housing 111, so that the latch 122 rebounds towards the inside of the sliding slot 211 to release the limit between the latch 122 and the latch slot 1111, and the host 3 is separated from the supporting plate 2 under the action of external force.

In this embodiment, the elastic member 121 may be a spring, and one end of the spring is fixed to the bottom of the chute 211, and the other end is used for abutting the latch 122. It should be noted that, in order to improve the stability of the latch 122 during the sliding process along the sliding slot 211, a bottom plate 123 may be disposed at the bottom of the latch 122, where the bottom plate 123 is used to drive the latch 122 to slide back and forth along the sliding slot 211 during the spring stretching process. It should be further noted that, in the natural state of the spring, the latch 122 extends at least partially to the outside of the notch of the sliding slot 211, so as to abut against the latch 1111 of the base housing 111, so as to lock the base housing 111 inside the latch 1111, thereby realizing the assembly between the host 3 and the supporting plate 2. Of course, the elastic member 121 may be any component having elastic expansion and contraction, such as a rubber column, and is not particularly limited herein, and is within the scope of protection of the present patent.

In this embodiment, when the two ends of the contact block 112 completely press the two buckling tongues 122, so that the two buckling tongues 122 rebound to a limit state, at least a portion of one end of the two buckling tongues 122 away from the elastic member 121 is still located inside the buckling groove 1111, so that when the host computer 3 is not subjected to an external force, that is, the user does not apply an acting force of the host computer 3 away from the direction of the supporting plate 2, the base shell 111 is still limited in the accommodating portion 21, that is, the host computer 3 is still connected to the supporting plate 2, and cannot be automatically separated from the supporting plate 2. At this time, the user only needs to apply the acting force of the host computer 3 in the direction away from the supporting plate 2, and the base shell 111 can squeeze the latch 122 under the action of the external force, so that the latch 122 is completely separated from the latch groove 1111, and finally the host computer 3 and the supporting plate 2 are separated.

As a preferred embodiment of the present embodiment, referring to fig. 11 to 13, a first guiding inclined surface 1221 is provided on a lower end wall of the latch 122 on a side far from the elastic member 121, and correspondingly, a pressing cambered surface 1112 is provided on a lower edge of a notch of the latch 1111. The contact block 112 presses the latch 122 during rotation, and when the two latches 122 rebound to a limit state, the first guiding inclined surface 1221 contacts the pressing cambered surface 1112, and at this time, the user only needs to apply a force of the host 3 away from the direction of the supporting plate 2, and the pressing cambered surface 1112 presses the first guiding inclined surface 1221 during movement of the base shell 111, so that the latch 122 is separated from the latch groove 1111, so as to detach the host 3 from the supporting plate 2.

Further, with continued reference to fig. 11 to 13, the upper end wall of the latch 122 on the side far from the elastic member 121 is provided with a second guiding slope 1222, and correspondingly, the upper end wall of the latch 1111 is provided with an engaging slope 1113 corresponding to the slope of the second guiding slope 1222. The second guiding inclined surface 1222 and the mating inclined surface 1113 cooperate to guide the latch 122 to snap into the slot 1111 quickly and smoothly, so as to ensure that the latch 122 is not obstructed during the process of entering the slot 1111.

In this embodiment, the contact block 112 has a first pressing end 1121 and a second pressing end 1122 that are disposed opposite to each other. The first pressing end 1121 and the second pressing end 1122 are respectively configured to press-fit with the two latch tabs 122. In this embodiment, in order to ensure that when the first pressing end portion 1121 and the second pressing end portion 1122 do not contact the two latch portions 122, the rest of the contact block 112 does not contact the two latch portions 122 to affect the limit fit of the latch portions 122 and the latch grooves 1111, the connecting line distance between the first pressing end portion 1121 and the second pressing end portion 1122 may be set to be greater than the connecting line distance between the two ends of the contact block 112 perpendicular to the first pressing end portion 1121 and the second pressing end portion 1122. In this way, the contact block 112 is ensured to be in the first state, and the two buckling tongues 122 are respectively clamped into the two buckling grooves 1111, so that the host computer 3 is assembled on the supporting plate 2. And ensuring that the contact block 112 presses the two buckling tongues 122 to the notch positions of the two buckling grooves 1111 respectively in the second state, so that the user can apply the acting force of the host computer 3 in the direction away from the supporting plate 2, and the base shell 111 is separated from the two buckling tongues 122, thereby realizing the separation of the host computer 3 and the supporting plate 2.

As a preferred scheme of the present embodiment, referring to fig. 9 to 13, the contact block 112 may have a diamond-shaped block structure, and the portions of the first pressing end 1121 and the second pressing end 1122 for abutting against the latch 122 are in an arc transition, so that the contact block 112 and the latch 122 can be conveniently and smoothly abutted against and separated from each other, and no jamming friction condition occurs, thereby greatly improving the practical use experience of the user. Of course, the structure of the contact block 112 is not limited thereto, and may be any regular or irregular structure, which is within the scope of protection of the present patent, and will not be described herein in detail.

Further, referring to fig. 9 to 11, a station 1116 for rotating the contact block 112 is provided inside the base case 111, and the specific configuration of the station 1116 may not be particularly limited herein. That is, the station 1116 is preferably a circular groove 11412 as long as it can ensure that the contact block 112 is not blocked during the rotation inside the base shell 111, but is not limited thereto.

In this embodiment, referring to fig. 4 and fig. 8 to fig. 13, the rotating member 113 may include a rotating shaft 1131, and the contact block 112 is disposed at the bottom end of the rotating shaft 1131. Further, a rotation hole 1114 is provided in the middle of the upper end surface of the base housing 111, and a rotation shaft 1131 extends to the upper side of the base housing 111 through the rotation hole 1114 for abutting against the overturning member 114 to fix the contact block 112 inside the base housing 111. Preferably, the contact block 112 and the rotating shaft 1131 may be integrally designed, so that the structural stability between the two may be greatly improved. Of course, a split assembly scheme can be used between the contact block 112 and the rotating shaft 1131, which is within the scope of this patent.

Further, the flipping element 114 may include a rotating plate 1141 and two rotating connectors 1142 disposed at opposite ends of the rotating plate 1141. The middle of the rotating plate 1141 is provided with a jack 11411 for inserting the rotating shaft 1131. The main unit 3 is rotatably connected to the two rotary connectors 1142, and the main unit 3 is operatively turned relative to the rotary plate 1141 and drives the rotary shaft 1131 to rotate relative to the supporting plate 2, so that the main unit 3 has different orientations.

Specifically, referring to fig. 8 to 11, when the upper end of the rotation shaft 1131 extends above the base housing 111 through the rotation hole 1114, the insertion hole 11411 of the rotation plate 1141 may be aligned with the rotation shaft 1131, so that the rotation plate 1141 moves along the axial direction of the rotation shaft 1131 and abuts against the upper end surface position of the base housing 111. It should be noted that, the transverse section of the rotation shaft 1131 may be D-shaped, and the insertion hole 11411 is a D-shaped hole adapted to the rotation shaft 1131, so, when the rotation plate 1141 is assembled on the rotation shaft 1131, the host 3 may drive the rotation plate 1141 to rotate during rotation, and further drive the rotation shaft 1131 and the contact block 112 to synchronously rotate.

Further, referring to fig. 4, 7, 8 and 9, the rotating member 113 further includes a damping member 1132 disposed on the rotating shaft 1131. Wherein, the bottom of the rotating plate 1141 is provided with a circular groove 11412 coaxially arranged with the insertion hole 11411, the bottom of the circular groove 11412 is provided with two concave parts 11413 symmetrically arranged, and the joint between the two concave parts 11413 and the rest areas of the bottom of the circular groove 11412 is smooth and excessive. Correspondingly, the upper end of the base shell 111 is provided with a round platform 1115 coaxially arranged with the rotary hole 1114, the top of the round platform 1115 is provided with two symmetrical protruding parts 11151, the joint between the two protruding parts 11151 and the rest areas at the top of the round platform 1115 is smooth and excessive, and the outlines of the two protruding parts 11151 and the two concave parts 11413 are matched. The damping member 1132 is configured to apply a force to the swivel plate 1141 to tightly fit the base housing 111, such that the boss 1115 and the circular slot 11412 abut and are rotationally engaged. In the process that the host computer 3 drives the rotating shaft 1131 to rotate, when the rotating plate 1141 rotates 0 ° or 180 ° relative to the supporting plate 2, the two protruding portions 11151 are respectively in snap fit with the two recessed portions 11413. Therefore, the rotating plate 1141 is insensitive in the rotating process, so that the user can know the rotating angle, that is, when the rotating plate 1141 rotates to the position where the two protruding portions 11151 and the two recessed portions 11413 are in snap fit, the rotating plate 1141 can stop rotating under the limiting action of the two protruding portions 11151 and the two recessed portions 11413, and the rotating plate 1141 is limited at the position of 0 ° or 180 ° relative to the supporting plate 2. When the user wants to rotate the host 3 again, the user can disengage the two protruding portions 11151 from the two recessed portions 11413 only by applying a force to overcome the clamping of the two protruding portions 11151 and the two recessed portions 11413, so that the hand feeling of the user in the process of rotating the host 3 can be improved.

Preferably, in this embodiment, the rotation of the host computer 3 is realized when the host computer 3 is turned to a state perpendicular to the pallet 2. When the host 3 rotates to a position parallel to the connecting line direction of the first mounting portion 22 and the second mounting portion 23 of the supporting plate 2, the first pressing end 1121 and the second pressing end 1122 of the contact block 112 just abut against the two buckling tongues 122, so that the two buckling tongues 122 are in the limit contracted position, and the position is convenient for the user to detach the host 3 from the bottom plate 123 quickly and smoothly.

Further, in the present embodiment, referring to fig. 4, the damping member 1132 may include a telescoping member 11321, a sleeve 11322, and a fastener 11323. The embodiment is specifically described using the telescoping member 11321 as an example, but is not limited thereto. Specifically, a protrusion 11311 is disposed at an upper end of the rotation shaft 1131, that is, at an end far from the contact block 112, and the protrusion 11311 and the rotation shaft 1131 are coaxially disposed, and have a diameter smaller than that of the rotation shaft 1131. The spring is sleeved on the rotating shaft 1131, one end of the spring is abutted against the rotating plate 1141, and the fastening piece 11323 is mounted on the convex column 11311 and is used for abutting against the other end of the spring. In this way, under the elastic action of the spring, the rotating plate 1141 can be closely attached to the upper end surface of the base shell 111, so that the round table 1115 and the round groove 11412 are abutted and rotationally matched.

Further, the sleeve 11322 is sleeved on the spring and is abutted to the rotating plate 1141, so that the sleeve 11322 can protect the spring to prolong the service life of the spring, and meanwhile, the host 3 can be effectively prevented from rotating along the supporting plate 2, and the stability of the host 3 in the current state is improved.

Further, the flipping component 114 further includes a protecting cover 1143, where the protecting cover 1143 is covered on the rotating plate 1141 to form an effective protection for the damping component 1132. In this embodiment, referring to fig. 2, the end of the host 3 is provided with a relief portion 31 that matches the contour of the protective cover 1143. Specifically, in the present embodiment, each rotary connecting member 1142 has a shaft hole 11421, and a flipping shaft 11423 is disposed in each shaft hole 11421. Further, a connector is mounted to an end of the roll-over shaft 11423 for docking the host computer 3. Specifically, the connecting piece 11422 can include a first portion 114221 and a second portion 114222 that are L-shaped, with the first portion 114221 secured to the end of the swivel connector 1142 by a swivel shaft 11423. Correspondingly, the opposite ends of the avoidance portion 31 are respectively provided with a connecting groove 32 matched with the outline of the connecting piece 11422, and specifically, the connecting groove 32 comprises a first sub groove 321 and a second sub groove 322 which are L-shaped. The first slot 321 is used for abutting the first portion 114221, the second slot 322 is used for abutting the second portion 114222, and the second portion 114222 and the second slot 322 are fixedly connected through a screw 1144. In this way, during the overturning process of the host 3, the overturning shaft 11423 can rotate along the rotating connecting piece 1142, so as to adjust the inclination of the host 3. It should be noted that, a stop 11424 is further disposed between the flipping shaft 11423 and the shaft hole 11421, and the stop 11424 may be a rubber ring, but is not limited thereto. The stopper 11424 is used for providing corresponding damping acting force in the rotation process of the host 3, so that the host 3 can always maintain the rotated posture position, the autorotation and other conditions cannot occur easily, and the use experience of a user can be greatly improved.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (10)

1. A detachable host structure, comprising:

the device comprises a supporting plate, a host machine and a connecting component for driving the host machine to turn over and rotate relative to the supporting plate;

the connecting component is characterized by comprising a rotating component and two locking components;

the end part of the supporting plate is provided with a containing part, and the two lock catch components are symmetrically arranged in the containing part;

the rotating assembly comprises a base shell, a contact block, a rotating piece and a turnover piece;

the two opposite sides of the base shell are respectively provided with a buckling groove used for being matched with the locking assembly;

the base shell is positioned in the accommodating part; the contact block is positioned in the base shell and used for butting the rotating piece;

the turnover piece is arranged on the rotating piece and is used for docking the host;

the host rotates and switches the touch block between a first state and a second state in the rotating process;

in the first state, the two lock catch components are respectively clamped into the two lock catch grooves so as to assemble the host on the supporting plate;

in the second state, the contact block extrudes the two lock catch components to the notch positions of the two lock catch grooves, and applies the acting force of the host machine in the direction away from the supporting plate, so that the base shell is separated from the two lock catch components, and the separation of the host machine and the supporting plate is realized.

2. The detachable host structure of claim 1, wherein,

two opposite inner wall surfaces of the accommodating part are respectively provided with a chute;

when the base shell is positioned in the accommodating part, the two sliding grooves and the two buckling grooves are arranged in a one-to-one correspondence;

the lock catch assembly comprises an elastic piece and a lock catch tongue;

the elastic piece is used for fixing the buckling tongue to the sliding groove;

the elastic piece drives the buckling tongue to extend into the buckling groove in a natural state so as to lock the base shell in the accommodating part, and assembly of the host machine and the supporting plate is realized;

the touch block extrudes the buckling tongue in the rotating process, so that the buckling tongue rebounds towards the inside of the chute, limit between the buckling tongue and the buckling groove is relieved, and the host is separated from the supporting plate when the host is subjected to the action of external force.

3. The detachable host structure of claim 2, wherein,

the lower end wall of the buckling tongue, which is far away from one side of the elastic piece, is provided with a first guide inclined plane; and

The lower edge of the notch of the buckling groove is provided with an extrusion cambered surface;

the contact block extrudes the buckling tongue in the rotating process, so that the first guide inclined surface contacts the extrusion cambered surface, the acting force of the host machine in the direction far away from the supporting plate is applied, the extrusion cambered surface extrudes the first guide inclined surface in the moving process of the base shell, and the buckling tongue is separated from the buckling groove, so that the host machine is detached from the supporting plate.

4. The detachable host structure of claim 3, wherein,

the upper end wall of the buckling tongue, which is far away from one side of the elastic piece, is provided with a second guide inclined plane; and

The upper end wall of the buckling groove is provided with a matching inclined plane;

the second guiding inclined plane and the matching inclined plane are used for guiding the buckling tongue to be clamped into the buckling groove.

5. The detachable host computer structure of any one of claims 1-4, wherein,

the contact block is provided with a first extrusion end part and a second extrusion end part which are oppositely arranged;

the connecting line distance between the first extrusion end part and the second extrusion end part is larger than the connecting line distance between two ends of the contact block perpendicular to the first extrusion end part and the second extrusion end part;

the first extrusion end part and the second extrusion end part are respectively used for extruding the two lock catch components.

6. The detachable host structure of claim 5, wherein,

the contact block is in a diamond-shaped block structure, and the parts of the first extrusion end part and the second extrusion end part, which are used for being in butt joint with the lock catch assembly, are in arc transition; and/or

The accommodating part is of a square groove body structure, the base shell is of a square shell structure matched with the outline of the accommodating part, and a station used for the rotation of the contact block is arranged inside the base shell.

7. The detachable host computer structure of any one of claims 1-4, wherein,

the rotating piece comprises a rotating shaft, and the contact block is arranged at the bottom end of the rotating shaft; and

The middle position of the upper end face of the base shell is provided with a rotating hole, and the rotating shaft extends to the upper side of the base shell through the rotating hole and is used for butt joint of the overturning piece so as to fix the contact block in the base shell.

8. The detachable host structure of claim 7, wherein,

the turnover piece comprises a rotating plate and rotating connecting pieces which are respectively arranged at two opposite ends of the rotating plate;

the middle position of the rotating plate is provided with an inserting hole for inserting the rotating shaft;

the host machine is rotatably connected to the two rotary connecting pieces, and is operable to overturn relative to the rotating plate and drive the rotating shaft to rotate relative to the supporting plate, so that the host machine has different orientations.

9. The detachable host structure of claim 8, wherein,

the rotating piece further comprises a damping piece arranged on the rotating shaft;

the bottom of the rotating plate is provided with a round groove which is coaxially arranged with the jack, and the bottom of the round groove is provided with two concave parts which are symmetrically arranged; and

The upper end of the base shell is provided with a round table which is coaxially arranged with the rotary hole, and the top of the round table is provided with two convex parts which are symmetrically arranged;

the damping piece is used for applying the force of rotating the board laminating in the basal shell makes the round platform with circular slot butt rotates the cooperation, the host computer drives the in-process of rotation axis rotation, when the rotating board rotates 0 or 180 for the layer board, two protruding portion respectively with two the concave part inlay card cooperates.

10. An intelligent watch, characterized by comprising:

watchband; and

The detachable host structure of any one of claims 1-9;

the supporting plate is provided with a first installation position and a second installation position which are oppositely arranged;

the first installation part is used for installing one end of the watchband, and the second installation part is used for installing the other end of the watchband.