CN113455789A - Watchband and wearing equipment - Google Patents

Abstract

The application discloses a watch band and a wearable device, and relates to the field of electronic technology. The watch strap includes a first strap body, a second strap body, an adjustment assembly and a control assembly; the first strap body is provided with an adjustment assembly and a control assembly; the second strap body is provided with a connecting groove, and the connecting groove is along the length direction of the second strap body Extending and forming, the first end of the second belt body is provided with a notch of the connecting groove; some components of the adjustment assembly can enter the connecting groove through the notch; when some components enter the connecting groove and the control assembly is in the first state , the first belt body is connected with the second belt body, and some components can move along the first end away from the second belt body in the connecting groove; when some components enter the connecting groove and the control component is in the second state, the first The belt body is connected with the second belt body, and some components can move along the first end of the second belt body close to or away from the connection groove.

Description

Watchband and wearing equipment

Technical Field

This application belongs to electron technical field, concretely relates to watchband and wearing equipment.

Background

Along with the improvement of living standard, wearing equipment (like intelligent wearing equipment such as intelligent wrist-watch and intelligent bracelet) has more and more liked by people. The watchband is as wearing equipment's partly, mainly used dress wearing equipment body in user's on one's body (like limbs or waist etc.) to through locking in order to avoid wearing equipment to drop from user on one's body.

At present, the watchband is including hasp, the first area body and the second area body usually, and the hasp is provided with the spring bolt, and the first area body is connected with the hasp, and the second area body is provided with a plurality of through-holes, and when the second area body was worn the hasp in, the spring bolt inserted in arbitrary through-hole for the first area body is connected with the second area body, thereby realizes wearing equipment locking on one's body in user. However, the regulation of the elasticity degree of watchband is realized at present, need with the separation of first area body and second area body in order untiing first area body and second area body to make the spring bolt insert to another through-hole from a through-hole, the accommodation process is loaded down with trivial details and time-consuming, leads to adjusting the simple operation nature of the elasticity degree of watchband lower.

Disclosure of Invention

This application aims at providing a watchband and wearing equipment, solves the problem that the simple operation nature of the elasticity degree of adjusting the watchband at present is low at least.

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

in a first aspect, an embodiment of the present application provides a watchband, which includes a first band body, a second band body, an adjusting assembly, and a control assembly;

the first belt body is provided with the adjusting assembly and the control assembly;

the second belt body is provided with a connecting groove, the connecting groove is formed by extending along the length direction of the second belt body, and a first end of the second belt body is provided with a notch of the connecting groove; a part of the adjusting component can enter the connecting groove through the notch;

under the condition that the part assembly enters the connecting groove and the control assembly is in a first state, the first belt body is connected with the second belt body, and the part assembly can move along a first end far away from the second belt body in the connecting groove;

under the condition that the part of the assemblies enter the connecting groove and the control assembly is in the second state, the first belt body is connected with the second belt body, and the part of the assemblies can move in the connecting groove along the first end close to or far away from the second belt body.

In a second aspect, an embodiment of the present application further provides a wearable device, where the wearable device includes the watchband.

In the embodiment of the application, in the case that a part of the adjusting assembly enters the connecting groove, if the control assembly is in the first state, the part of the adjusting assembly can move in the connecting groove along the first end far away from the second belt body; and if the control assembly is in the second state, the part of the assembly can move in the connecting groove along the first end close to or far away from the second belt body. So, under the circumstances of the elasticity degree of watchband needs to be adjusted, only need be in above-mentioned part subassembly and adjust the control assembly to the second state by first state under the spread groove, and need not to adjust this part subassembly and break away from the spread groove and make the separation of first area body and second area body to promote the simple operation nature of adjusting the elasticity degree of watchband.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a watch band according to an embodiment of the present application;

FIG. 2 is an exploded view of a watchband according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of the band of FIG. 1 taken along line A-A;

FIG. 4 is a schematic view of a portion of an adjustment assembly entering a connecting slot in accordance with an embodiment of the present application;

FIG. 5 is a schematic view of a watch band according to an embodiment of the present disclosure when a first strap and a second strap are assembled;

FIG. 6 is one of the partial schematic structural views of a band according to an embodiment of the present application;

FIG. 7 is a second schematic view of a portion of a watch band according to an embodiment of the present application;

fig. 8 is a third partial structural view of the band according to the embodiment of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1 to 3, a watchband applied to a wearable device according to an embodiment of the present application is provided, as shown in fig. 1 to 3, the watchband includes a first band 10, a second band 20, an adjusting component 30, and a control component 40;

the first belt body 10 is provided with the adjusting assembly 30 and the control assembly 40;

the second belt body 20 is provided with a connecting groove 21, the connecting groove 21 is formed by extending along the length direction of the second belt body 20, and a first end of the second belt body 20 is provided with a notch 210 of the connecting groove 21; a part of the adjusting assembly 30 can enter the connecting groove 21 through the notch 210;

with the partial assembly entering the connecting groove 21 and the control assembly 40 in the first state, the first belt body 10 is connected with the second belt body 20, and the partial assembly is movable along the first end far away from the second belt body 20 in the connecting groove 21;

with the partial assembly entering the connecting groove 21 and the control assembly 40 in the second state, the first belt body 10 is connected with the second belt body 20, and the partial assembly is movable within the connecting groove 21 along the first end close to or far from the second belt body 20.

Based on this, in the case that a part of the adjusting assembly 30 enters the connecting groove 21, if the control assembly 40 is in the first state, the part of the adjusting assembly is movable within the connecting groove 21 along the first end away from the second belt body 20; if the control unit 40 is in the second state, the portion of the unit can move within the connecting slot 21 toward or away from the first end of the second belt body 20. In this way, when the tightness degree of the watch band needs to be adjusted, the control assembly 40 only needs to be adjusted from the first state to the second state when the part assembly is located in the connecting groove 21, and the part assembly does not need to be adjusted to be separated from the connecting groove 21 to separate the first band body 10 and the second band body 20, so that the operation convenience of adjusting the tightness degree of the watch band is improved.

It should be noted that the wearable device may be any device including the watchband, and can be worn on a human body through the first belt body 10 and the second belt body 20, and may be a smart watch or a smart bracelet, and so on.

Specifically, this wearing equipment includes equipment body and above-mentioned watchband, and the second area of the first area of the body 10 of watchband body 20 connect respectively in the relative both sides of this equipment body, and under the condition that above-mentioned wearing equipment was dressed in the human body, first area of the body 10 and second area of the body 20 at least partly overlap, and equipment body, first area of the body 10 and second area of the body 20 form the annular ring, and the above-mentioned elasticity degree of adjusting the watchband is actually for adjusting the size of this annular ring.

Illustratively, the wearable device may be a smart watch, and the smart watch includes a watch body (i.e., the device body), an outer band (i.e., the first band 10), and an inner band (i.e., the second band 20), the outer band and the inner band are respectively connected to two opposite sides of the watch body, and the outer band and the inner band are partially overlapped and fixedly connected when the smart watch is worn on the wrist of the user, and so on.

In the embodiment of the present application, the first belt body 10 and the second belt body 20 may be any belt-shaped structures, and when the wearing device is worn on a human body, at least a portion of the first belt body 10 and the second belt body 20 are overlapped with each other.

The first belt body 10 is provided with the adjusting assembly 30 and the control assembly 40, it can be understood that the adjusting assembly 30 and the control assembly 40 are disposed on the first belt body 10, and the adjusting assembly 30 and the control assembly 40 are respectively fixedly connected or movably connected with the first belt body 10.

In the embodiment of the present invention, the second belt body 20 is provided with a connecting slot 21, the connecting slot 21 can be located on a side surface of the second belt body 20 close to the first belt body 10, the connecting slot 21 is formed by extending along a length direction of the second belt body 20, and the notch 210 of the connecting slot 21 is provided at the first end of the second belt body 20.

The second belt body 20 may have a first end and a second end in the length direction, the first end of the second belt body 20 is opened with the notch 210 of the connection slot 21, and the second end of the second belt body 20 is connected to the device body.

It should be noted that the shape, length, width, depth and other parameters of the connecting groove 21 of the groove body 212 may be set according to actual needs, and only the requirement that the connecting groove 21 may be provided with the above-mentioned partial components of the adjusting component 30 is satisfied, and the partial components may move in the connecting groove 21.

In some embodiments, the connection groove 21 includes a movable opening 211, a diameter of the movable opening 211 is smaller than a diameter of the connection groove body 212, and a diameter of the partial assembly is larger than the diameter of the movable opening 211 and is smaller than or equal to the diameter of the connection groove body 212;

in the case where the partial assembly enters the coupling groove 21 through the notch 210, the movable port 211 limits the partial assembly.

Based on this, through setting up the movable opening 211 that the diameter is less than the diameter of above-mentioned connecting groove cell body 212 for under the condition that the partial subassembly of adjusting part 30 got into in the connecting groove 21, this movable opening 211 can realize spacing to this partial subassembly, thereby avoids this partial subassembly to break away from in the connecting groove cell body 212, promotes the reliability of watchband.

In the embodiment of the present application, the adjusting assembly 30 is disposed on the first belt body 10, and a part of the adjusting assembly 30 can enter the connecting groove 21, in a case that a part of the adjusting assembly 30 enters the connecting groove 21, the first belt body 10 and the second belt body 20 are connected by the matching of the adjusting assembly 30 and the connecting groove 21, and the first belt body 10 and the second belt body 20 are at least partially overlapped with each other. Of course, in the case that the adjusting assembly 30 does not enter the coupling groove 21, the first and second bands 10 and 20 may be separated.

Wherein, under the condition that the some subassemblies of adjusting part subassembly 30 got into connecting groove 21, can realize the regulation to the elasticity degree of watchband through adjusting this some subassemblies and move about in connecting groove 21, promptly: adjusting the part of the components to move along the first end far away from the second belt body 20 in the connecting groove 21, so that the length of the belt bodies overlapped by the first belt body 10 and the second belt body 20 is increased, namely the diameter of an annular ring formed by the first belt body 10, the second belt body 20 and the equipment body is reduced, and further, the watchband is tightened; or, the part of the components is adjusted to move in the connecting groove 21 along the first end close to the second belt body 20, so that the length of the belt body formed by mutually overlapping the first belt body 10 and the second belt body 20 is reduced, that is, the diameter of the annular ring formed by the first belt body 10, the second belt body 20 and the equipment body is increased, and the loose adjustment of the watchband is realized.

In addition, the adjusting assembly 30 may be any assembly that can be partially inserted into the connecting slot 21, and when the control assembly 40 is in the first state when part of the adjusting assembly 30 is inserted into the connecting slot 21, part of the adjusting assembly 30 can move along the first end far away from the second band body 20 in the connecting slot 21 but cannot move along the first end close to the second band body 20, so that only the strap can be tightened but the strap cannot be loosened; if the control assembly 40 is in the second state, a part of the adjustment assembly 30 is movable in the connecting slot 21 along the first end away from or close to the second strap body 20, so as to tighten or loosen the watch band.

For example, as shown in fig. 4, the connecting groove body 212 may be provided with a row of inverted teeth 2121 in the length direction thereof, and the adjusting member 30 may be provided with a protrusion 300, the protrusion 300 may be retractable in the Z direction, in a case where the portion of the adjusting member is located in the connecting groove body 212 and the control member 40 does not control the protrusion 300 to retract (at this time, the control member 40 is in the first state), if the portion of the adjusting member is pushed in the X direction, the portion of the adjusting member may move in the X direction (i.e., in a direction away from the first end), and when the inclined surface of the protrusion 300 contacts the inclined surface of the inverted tooth 2121, the protrusion 300 may be pressed to retract, so that the protrusion 300 enters another inverted tooth 2121 from one inverted tooth 2121; when the partial assembly receives a thrust in the direction opposite to the X direction, the bulge 300 is abutted with the inverted tooth 2121 to prevent the partial assembly from moving in the direction opposite to the X direction;

in the case where the partial assembly is located in the connecting groove body 212 and the control assembly 40 controls the projection 300 to contract (at this time, the control assembly 40 is in the second state), when the partial assembly moves in the connecting groove body 212, the projection 300 does not contact with the inverted tooth 2121, so that the movement of the partial assembly in the X direction or the direction opposite to the X direction can be realized.

In some embodiments, the connecting groove body 212 may be provided with groove teeth 2122 along the length direction;

the adjusting assembly 30 includes a first gear 31 and a connecting member 32, and the first gear 31 can enter the connecting slot body 212 through the movable opening 211, with the first gear 31 entering the connecting slot body 212, the first gear 31 is engaged with the slot teeth 2122, and the connecting member 32 passes through the movable opening 211 to connect the first gear 31 with the first belt 10;

with the first gear 31 entering the connecting slot body 212 and the control assembly 40 in the first state, the first gear 31 can move on the slot tooth 2122 along the first end away from the second belt body 20;

in the case that the first gear 31 enters the connecting slot body 212 and the control assembly 40 is in the second state, the first gear 31 can move on the slot tooth 2122 along the first end close to or far from the second belt body 20.

Based on this, through set up slot tooth 2122 in connecting groove cell body 212, and adjusting part 30 includes above-mentioned first gear 31, and under the condition that first gear 31 gets into connecting groove cell body 212, can be through the state that adjustment control assembly 40 is located, realize that first gear 31 can only follow the first end activity of keeping away from second area body 20, or, first gear 31 can follow the first end activity of keeping away from or being close to the second substitution, because the span between slot tooth 2122 is less, thereby can make the regulation span of the elasticity degree of watchband little, promote the regulation precision of the elasticity degree of watchband.

The first gear 31 is movable on the slot 2122, and it is understood that the first gear 31 rotates on the slot 2122, so that the first gear 31 can move along the first end far from or close to the second belt body 20.

Illustratively, when the first gear 31 rotates counterclockwise on the slot 2122, the first gear 31 moves along the first end away from the second belt body 20; and when the first gear 31 rotates clockwise on the slot 2122, the first gear 31 moves along the first end near the second belt 20, and so on.

It should be noted that the connecting groove body 212 is provided with a groove tooth 2122, one side wall of the connecting groove body 212 contacting with the first gear 31 may be provided with a groove tooth 2122, or both opposite side walls of the connecting groove body 212 may be provided with groove teeth 2122, and the first gear 31 may rotate on the groove teeth 2122 of the opposite side walls.

In the embodiment of the present application, the control assembly 40 may be any assembly that can be in the first state or the second state, and in the first state of the control assembly 40, the control assembly 40 can control a part of the adjusting assembly 30 in the connecting groove 21 to move only along the first end away from the second belt body 20; in the second state of the control assembly 40, the control member can control the partial assemblies to move along the first end far away from or close to the second belt body 20.

For example, in the case that the inverted teeth 2121 are provided in the connecting groove 212 and the protrusion 300 is provided on the partial assembly, the control assembly 40 may be a pull rod connected to the protrusion 300, and when the pull rod is pulled (i.e., the control assembly 40 is in the second state), the protrusion 300 is contracted; when the pull rod is not pulled (i.e., the control assembly 40 is in the first state), the protrusion 300 is not retracted.

In some embodiments, the adjusting assembly 30 may further include a second gear 33, the second gear 33 is disposed between the first belt 10 and the first gear 31, and the second gear 33 and the first gear 31 are relatively fixedly connected through the connecting member 32;

with the control assembly 40 connected to the second gear 33, the first gear 31 is movable on the slot 2122 along a first end away from the second belt 20;

with the control assembly 40 separated from the second gear 33, the first gear 31 can move on the slot 2122 along the first end close to or far from the second belt 20.

Based on this, when the control component 40 is connected with the second gear 33, the control component 40 is in the first state, and when the control component 40 is separated from the second gear 33, the control component 40 is in the second state, so that the movement of the first gear 31 can be indirectly controlled by controlling the connection or separation of the second gear 33 and the control component 40, and the structure and the adjustment mode of the watch band are more flexible.

The control component 40 can be any component that can be connected to or separated from the second gear 33, and in the case that the control component 40 is connected to the second gear 33, the first gear 31 can move along the first end away from the second belt body 20 on the slot 2122; and in case the control assembly 40 is separated from the second gear 33, the first gear 31 can move on the slot 2122 along the first end close to or far from the second belt body 20.

In some embodiments, as shown in fig. 5 to 8, the control assembly 40 includes a rotation stopping pin 41 and an adjusting and releasing rod 42, the rotation stopping pin 41 is movably disposed on the first belt 10, and the rotation stopping pin 41 can abut against or separate from the second gear 33;

the release adjusting rod 42 is connected with the rotation stopping pin 41, and the release adjusting rod 42 is used for adjusting the contact or separation of the rotation stopping pin 41 and the second gear 33.

Based on this, by providing the rotation stopping pin 41 and the release lever 42, the rotation stopping pin 41 can be adjusted to abut against or separate from the second gear 33 by the release lever 42, so that the structure is simpler and the adjustment operation is more convenient.

However, when the rotation stopping pin 41 abuts against the second gear 33, the rotation stopping pin 41 provides an abutting force to the second gear 33, so that the second gear 33 cannot rotate in a certain direction, and the second gear 33 is connected to the first gear 31 by the connecting member 32, so that the first gear 31 cannot rotate in the certain direction.

For example, as shown in fig. 5 to 8, in the case that the abutting member abuts against the second gear 33, the second gear 33 cannot rotate in the clockwise direction, and at this time, both the second gear 33 and the first gear 31 can rotate only in the counterclockwise direction, that is, the first gear 31 can move in the first end far from the second belt body 20 in the connecting groove 21; in the case that the abutment is separated from the second gear 33, the second gear 33 and the first gear 31 can both rotate in the counterclockwise direction or the clockwise direction, i.e. the first gear 31 can move in the connecting groove 21 toward or away from the first end of the second belt body 20.

As shown in fig. 7, the rotation stopping pin 41 may be movably disposed on the first belt body 10, one end of the rotation stopping pin 41 may be connected to the first belt body 10 through a rotation stopping pin insertion pin 411, the rotation stopping pin 41 may rotate around the rotation stopping pin insertion pin 411, and the other end of the rotation stopping pin 42 may abut against or separate from the second gear 33.

The adjustment of the rotation preventing pin 41 by the adjusting/releasing lever 42 to come into contact with or separate from the second gear 33 may be such that the adjusting/releasing lever 42 is set to be able to be in a first position and a second position, and the rotation preventing pin 41 comes into contact with the second gear 33 when the adjusting/releasing lever 42 is set to be in the first position; and in the case where the release lever 42 is in the second position, the rotation stop pin 41 is separated from the second gear 33.

In some embodiments, the control assembly 40 further includes an elastic member 43, two ends of the elastic member 43 are respectively connected to the first belt body 10 and the rotation stopping pin 41, and the elastic member 43 is in an original state when the rotation stopping pin 41 abuts against the second gear 33; in the case where the rotation stop pin 41 is separated from the second gear 33, the elastic member 43 is in a deformed state.

Based on this, by providing the elastic member 43, the elastic member 43 can increase the abutting force between the rotation stop pin 41 and the second gear 33 in the original state of the elastic member 43, thereby further reducing the possibility that the first gear 31 moves along the first end close to the second belt body 20, and improving the adjustment reliability of the belt body.

In the case where the elastic member 43 is provided, the adjustment rotation preventing pin 41 may be separated from the second gear 33 by pulling the release lever 42 to change the elastic member 43 from the original state to the deformed state, thereby separating the rotation preventing pin 41 from the second gear 33.

The elastic member 43 may be any member having elasticity, and the rotation stopper pin 41 may abut against the second gear 33 when the elastic member 43 is in the original state; and the rotation stopping pin 41 is separated from the second gear 33 in the deformed state of the elastic member 43. For example, the elastic member 43 may be a spring, etc. connected to the second tape body 20 and the rotation stopping pin 41, respectively.

In the embodiment of the present application, the adjusting assembly 30 and the control assembly 40 may be partially or completely protruded from the first belt body 10. For example, the second gear 33, the rotation stop pin 41, and the elastic member 43 may be provided to protrude from the first belt body 10.

In some embodiments, the first belt 10 has a receiving groove 100;

the second gear 33, the rotation preventing pin 41 and the elastic member 43 are located in the accommodating groove 100, and the release lever 42 penetrates the first belt body 10 and is connected to the rotation preventing pin 41.

Accordingly, by disposing the second gear 33, the rotation stop pin 41 and the elastic member 43 in the accommodating groove 100 of the first belt body 10, the gap between the first belt body 10 and the second belt body 20 when they are stacked can be reduced, thereby improving the thickness, stability and appearance of the locking mechanism.

In the embodiment of the present application, in the case that a part of the adjusting assembly 30 enters the connecting groove 21, the part of the adjusting assembly moves in the connecting groove 21, which may be a part of the adjusting assembly that is pushed or pulled by a user, so as to provide a driving force for the part of the adjusting assembly, so as to drive the part of the adjusting assembly to move in the connecting groove 21 along a first end far away from or close to the second belt 20.

In some embodiments, the first belt body 10 may be provided with a through hole 11;

the watchband may further include:

the driving assembly 50 is arranged on the first belt body 10, and the connecting member 32 passes through the through hole 11 to be connected with the driving assembly 50;

in the case that the first gear 31 enters the connecting slot body 212 and the control assembly 40 is in the first state, the driving assembly 50 can drive the first gear 31 to move on the slot tooth 2122 along the first end far away from the second belt body 20;

in the case that the first gear 31 enters the connecting slot body 212 and the control assembly 40 is in the second state, the driving assembly 50 can drive the first gear 31 to move on the slot tooth 2122 along the first end close to or far from the second belt body 20.

Based on this, by providing the driving assembly 50 on the first belt body 10, and the driving assembly 50 can drive the first gear 31 to move on the slot tooth 2122 of the connecting slot body 212, the adjustment of the movement of the first gear 31 on the slot tooth 2122 can be made finer.

The driving assembly 50 may be any assembly that is connected to the connecting member 32 and provides a driving force for the movement of the first gear 31 on the slot 2122, and the shape, size, and the like of the driving assembly may be set according to actual needs, which is not limited herein.

Specifically, the driving assembly 50 may be a knob, and when the knob is rotated, the knob drives the first gear 31 to rotate through the connecting member 32, so that the adjustment is more convenient.

The embodiment of the application further provides a wearable device, and the wearable device comprises the watchband.

Since the embodiments of the present application have been described in detail with respect to the watchband, the device body of the wearable device is known to those skilled in the art, and will not be described in detail here.

The wearable device may be any device that includes the band and is worn on the human body by the band. Specifically, the wearable device may include a smart watch or a smart bracelet.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A watch band, characterized in that it comprises a first band body, a second band body, an adjustment assembly and a control assembly; the first belt body is provided with the adjustment assembly and the control assembly; The second belt body is provided with a connection groove, the connection groove is formed along the length direction of the second belt body, and the first end of the second belt body is provided with a notch of the connection groove; the Parts of the adjusting assembly can enter the connecting groove through the notch; When the partial assembly enters the connecting groove and the control assembly is in the first state, the first belt body is connected to the second belt body, and the partial assembly can be in the connecting groove moving along the first end away from the second belt body; When the partial assembly enters the connecting groove and the control assembly is in the second state, the first belt body is connected to the second belt body, and the partial assembly can be in the connecting groove move along the first end near or far from the second belt body. 2 . The watch band according to claim 1 , wherein the connecting groove comprises a movable port, the diameter of the movable port is smaller than the diameter of the groove body of the connecting groove, and the diameter of the partial assembly is larger than that of the movable port. 3 . The diameter of the mouth is less than or equal to the diameter of the connecting groove body; When the partial assembly enters the connecting groove through the slot, the movable port limits the partial assembly. 3. The watchband according to claim 2, wherein the connecting groove body is provided with groove teeth along the length direction; The adjustment assembly includes a first gear and a connecting piece, and the first gear can enter the connecting groove body through the movable port. When the first gear enters the connecting groove body, the first gear meshes with the groove teeth, and the connecting piece passes through the movable port to connect the first gear and the first belt body; When the first gear enters into the connecting groove body and the control assembly is in the first state, the first gear may be on the groove teeth along the first edge away from the second belt body terminal activities; When the first gear enters into the connecting groove body and the control assembly is in the second state, the first gear can be close to or away from the second belt body along the groove teeth. first activity. 4. The watch band according to claim 3, wherein a through hole is provided on the first band body; The strap also includes: a drive assembly, the drive assembly is disposed on the first belt body, and the connector is connected to the drive assembly through the through hole; When the first gear enters the connecting groove body and the control assembly is in the first state, the driving assembly can drive the first gear to move away from the second gear on the groove teeth The first end activity of the belt body; When the first gear enters the connecting groove body and the control assembly is in the second state, the driving assembly can drive the first gear to approach or move away from the groove on the edge of the groove teeth. The first end of the second belt body is movable. 5. The watch band of claim 4, wherein the driving component is a knob. 6 . The watch band according to claim 3 , wherein the adjustment assembly further comprises a second gear, the second gear is disposed between the first band body and the first gear, and the The second gear and the first gear are relatively fixedly connected through the connecting piece; When the control assembly is connected with the second gear, the first gear can move on the groove teeth along the first end away from the second belt body; When the control assembly is separated from the second gear, the first gear can move along the groove teeth near or away from the first end of the second belt body. 7 . The watch strap according to claim 6 , wherein the control assembly comprises a rotation stop pin and a loosening lever, the rotation stop pin is movably arranged on the first band body, and the rotation stop a pin can abut or separate from the second gear; The loosening lever is connected with the anti-rotation pin, and the loosening lever is used to adjust the abutment or separation of the anti-rotation pin and the second gear. 8 . The watch strap according to claim 7 , wherein the control assembly further comprises an elastic member, two ends of the elastic member are respectively connected with the first strap body and the rotation stop pin, and the When the anti-rotation pin is in contact with the second gear, the elastic member is in an original state; when the anti-rotation pin is separated from the second gear, the elastic member is in a deformed state. 9 . The watch band according to claim 8 , wherein the first band body is provided with an accommodating groove; 10 . The second gear, the anti-rotation pin and the elastic member are located in the accommodating groove, and the loosening rod is connected to the anti-rotation pin through the first belt body. 10 . A wearable device, characterized in that, comprising the watch strap according to any one of claims 1 to 9 . 11 .

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