CN216772210U - Intelligent watch - Google Patents

Abstract

The utility model discloses an intelligent watch which comprises a shell and a rotary key, wherein the rotary key is arranged on the shell, a tactile feedback piece is arranged in the radial direction of the rotary key, a plurality of bulges are arranged on the shell, the tactile feedback piece is contacted with the bulges when the rotary key rotates, and the tactile feedback piece and/or the bulges are elastic pieces. Therefore, the utility model realizes the tactile feedback by the tactile feedback piece touching the bulge, is a mechanical tactile feedback mode, does not generate power consumption, saves electric energy, generates the tactile feedback at the same time and is convenient for users to operate. Meanwhile, the tactile feedback piece and/or the bulge of the utility model are elastic pieces, so that great rotation resistance can not be caused to the rotation of the rotary key, and the operation of a user is easy.

Description

Intelligent watch

Technical Field

The utility model belongs to the technical field of electronic equipment key control, and particularly relates to an intelligent watch.

Background

The current intelligent wrist-watch generally has the control button to control intelligent wrist-watch.

For some smart watches with a rotary key, a trigger signal is generated through rotation of the rotary key and is sent to the control panel to control the smart watch, and for example, an interface of the smart watch is switched after the trigger signal is received. However, since the rotary key has no mechanical tactile feedback, the rotary key can only be slowly rotated, and the user cannot operate the rotary key when seeing the interface switching.

In order to solve the problems, a vibration motor is added in some smart watches, and when the rotation of the rotary key generates a trigger signal, the vibration motor is controlled to vibrate so as to give a direct vibration tactile feedback to a user, so that the user is prompted to operate successfully, and the operation of the user is facilitated. However, the electric quantity loss of the intelligent watch is greatly increased, and the service life of the intelligent watch is shortened.

Disclosure of Invention

The utility model aims to provide an intelligent watch, and the intelligent watch solves the technical problem that the electric quantity loss is large due to the fact that a vibration motor is additionally arranged to provide vibration tactile feedback in the existing intelligent watch.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:

a smart watch, comprising:

a housing;

a rotary key mounted on the housing;

a tactile feedback piece is arranged in the radial direction of the rotary key, a plurality of bulges are arranged on the shell, and when the rotary key rotates, the tactile feedback piece is contacted with the bulges; the tactile feedback and/or the protrusion are resilient members.

According to the intelligent watch, each protrusion is arranged around the axis of the rotary key.

According to the intelligent watch, the bulges are uniformly distributed.

According to the smart watch, each protrusion is located on one mounting base body, and the mounting base bodies are assembled with the shell.

As described above, in the smart watch, the tactile feedback member is a spring piece located on the rotary key.

As above, the elastic piece has a bending part, and the bending part touches the protrusion.

The smart watch comprises the control panel, the touch feedback piece is in touch with the protrusion, and the rotary key generates a trigger signal and sends the trigger signal to the control panel.

As above-mentioned smart watch, the casing has rotatory button pilot hole, rotatory button runs through rotatory button pilot hole, each the arch all is located rotatory button pilot hole.

According to the intelligent watch, the protrusions are located on the inner wall of the cylindrical mounting base body, and the cylindrical mounting base body is assembled with the rotary key assembling holes.

In the smartwatch as set forth above, each of the protrusions forms a saw-tooth shape on the inner wall of the cylindrical mounting base body.

Compared with the prior art, the utility model has the advantages and positive effects that: the intelligent watch comprises a shell and a rotary key, wherein the rotary key is arranged on the shell, a tactile feedback piece is arranged in the radial direction of the rotary key, a plurality of bulges are arranged on the shell, the tactile feedback piece is contacted with the bulges when the rotary key rotates, and the tactile feedback piece and/or the bulges are elastic pieces. Therefore, the utility model realizes the tactile feedback by the tactile feedback piece touching the bulge, is a mechanical tactile feedback mode, does not generate power consumption, saves electric energy, generates the tactile feedback at the same time and is convenient for users to operate. Meanwhile, the tactile feedback piece and/or the bulge of the utility model are elastic pieces, so that great rotation resistance can not be caused to the rotation of the rotary key, and the operation of a user is easy.

Other features and advantages of the present invention will become more apparent from the following detailed description of the utility model when taken in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

In the figure, the position of the upper end of the main shaft,

1. a housing;

11. a protrusion;

12. rotating the key assembly hole;

13. installing a base body;

2. rotating the key;

21. a haptic feedback;

211. a bending part.

Detailed Description

The technical scheme of the utility model is further explained in detail by combining the attached drawings and the detailed description.

This embodiment provides a smart watch, has rotatory button, rotates through rotatory button and generates triggering signal to control smart watch. The mechanical touch feedback structure is added on the intelligent watch, so that direct touch feedback is given to an operator, power consumption is avoided, electric energy is saved, and operation of the user is facilitated.

The following describes the smart watch in detail with reference to the accompanying drawings:

as shown in fig. 1, the smart watch includes a case 1, a dial located on the case 1, a rotary key 2, a control board located in the case 1, and the like.

Rotatory button 2 is installed on casing 1, can rotate on casing 1, generates trigger signal and sends the inside control panel of casing 1 when rotatory button 2 rotates to control the smart watch, for example, control the operation such as interface switch of smart watch.

The key of the embodiment is to add a mechanical tactile feedback mechanism, and when the user rotates the rotary key 2, the tactile feedback is generated through the mechanical structure to prompt the user.

The mechanical tactile feedback mechanism comprises a tactile feedback 21 and a protrusion 11.

Specifically, a tactile feedback member 21 is arranged in the radial direction of the rotary key 2, a plurality of protrusions 11 are arranged on the housing 1, and when the rotary key 2 rotates, the tactile feedback member 21 and the protrusions 11 touch to form tactile feedback. In order to ensure smooth rotation of the rotary key 2, the tactile feedback member 21 and/or the protrusion 11 are elastic members.

Generally, the housing 1 has a rotary key assembly hole 12, the rotary key 2 penetrates through the rotary key assembly hole 12, in order to avoid the haptic feedback mechanism occupying the space inside the housing 1, it is preferable that each protrusion 11 is located in the rotary key assembly hole 12, and correspondingly, the haptic feedback member 21 is located in the radial direction of the assembly portion of the rotary key 2 and the rotary key assembly hole 12.

Of course, the protrusions 11 can also be arranged inside the housing 1, irrespective of the mechanical tactile feedback mechanism occupying the space inside the housing 1, and accordingly the tactile feedback members 21 are located radially on the inner part of the rotary key 2.

Preferably, each projection 11 is located on a mounting base 13, the mounting base 13 being assembled with the housing 1.

Further, the mounting base 13 is a cylindrical mounting base 13, the protrusions 11 are located on the inner wall of the cylindrical mounting base 13, and the cylindrical mounting base 13 is assembled with the rotary key assembly hole 12.

Wherein each protrusion 11 is arranged around the axis of the rotary key 2.

Preferably, the protrusions 11 are evenly distributed.

Further, each of the protrusions 11 is formed in a zigzag shape on the inner wall of the cylindrical mounting base 13.

The tactile feedback 21 is a dome located on the rotary key 2.

The elastic piece has a bending portion 211, the bending portion 211 touches the protrusion 11, and the end of the elastic piece can be prevented from wearing the protrusion 11 due to the smooth shape of the bending portion 211.

Preferably, when the tactile feedback piece 21 touches the protrusion 11, the rotary key 2 generates a trigger signal and transmits the trigger signal to the control board, that is, the tactile feedback is formed while the trigger signal is generated, so that the unification of the vision and the touch of the user is ensured.

The embodiment realizes the tactile feedback by touching the tactile feedback piece and the bulge, is a mechanical tactile feedback mode, does not consume electricity, saves electric energy, simultaneously generates the tactile feedback, and is convenient for a user to operate.

While the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes, modifications, and equivalents may be made therein without departing from the spirit and scope of the utility model; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A smart watch, comprising:

a housing;

a rotary key mounted on the housing;

the touch control button is characterized in that a tactile feedback piece is arranged in the radial direction of the rotary button, a plurality of bulges are arranged on the shell, and when the rotary button rotates, the tactile feedback piece is contacted with the bulges; the tactile feedback and/or the protrusion are resilient members.

2. The smartwatch of claim 1, wherein each of the protrusions is disposed around an axis of the rotary key.

3. The smartwatch of claim 1, wherein each of the protrusions is evenly distributed.

4. The smartwatch of claim 1, wherein each of the protrusions is located on a mounting base, the mounting base being assembled with the housing.

5. The smart watch of claim 1, wherein the tactile feedback is a dome located on the rotary key.

6. The smart watch of claim 5, wherein the resilient tab has a bend that contacts the protrusion.

7. The smartwatch of claim 1, wherein the smartwatch includes a control panel, and wherein the rotary key generates a trigger signal and transmits the trigger signal to the control panel while the tactile feedback is in contact with the protrusion.

8. The smartwatch of any one of claims 1 to 7, wherein the housing has a rotary key mounting hole through which the rotary key extends, each of the protrusions being located within the rotary key mounting hole.

9. The smartwatch of claim 8, wherein each of the protrusions is located on an inner wall of a cylindrical mounting base that fits with the rotary key mounting hole.

10. The smart watch of claim 9, wherein each of the protrusions forms a saw-tooth shape on an inner wall of the cylindrical mounting base.

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