CN111459230B - Folding electronic device - Google Patents

Abstract

The invention discloses a folding electronic device, comprising: a first device main body; the second equipment main body is rotatably connected with the first equipment main body; a driving part which is arranged on the first equipment main body and can rotate along with the first equipment main body; a moving part connected with the driving part; a function trigger provided to the second apparatus main body; the driving part may drive the moving part to move between a first position and a second position in a case where the first apparatus body and the second apparatus body are relatively rotated; when the moving part is located at the first position, the distance between the function trigger and the moving part is a first distance; when the moving part is located at the second position, the distance between the function trigger and the moving part is a second distance, and the first distance is greater than the second distance. The scheme can solve the problem that the operation of the folding electronic equipment is more complicated.

Description

Folding electronic device

Technical Field

The embodiment of the invention relates to the technical field of communication equipment, in particular to folding electronic equipment.

Background

Along with the user demand to electronic equipment constantly promotes, electronic equipment's screen size constantly enlarges, and the increase of screen size usually can lead to electronic equipment's whole size grow simultaneously, brings the just problem of being not convenient for carry thereupon. Therefore, the larger screen size and portability are now outstanding contradictions for the structural design of electronic devices.

In order to meet the requirements of users for larger screen size and portability, foldable electronic devices have come into use. The electronic equipment has a folded state and an unfolded state, and under the unfolded state, the electronic equipment is unfolded, so that a larger display area can be obtained; in a folded state, the electronic apparatus is bent, and at this time, the overall size of the electronic apparatus is reduced, thereby facilitating carrying.

However, when the user uses the foldable electronic device, the user needs to perform a folding operation on the foldable electronic device and also needs to perform a corresponding operation according to different requirements, which makes the operation of the foldable electronic device complicated.

Disclosure of Invention

The embodiment of the invention discloses a folding electronic device, which aims to solve the problem that the folding electronic device is complex to operate.

In order to solve the technical problem, the invention is realized as follows: in a first aspect, an embodiment of the present invention provides a foldable electronic device, including:

a first device main body;

the second equipment main body is rotatably connected with the first equipment main body;

the driving part is arranged on the first equipment main body and can rotate along with the first equipment main body;

the moving part is connected with the driving part;

a function trigger provided to the second apparatus main body;

the driving portion may drive the moving portion to move between a first position and a second position in a case where the first apparatus body and the second apparatus body are relatively rotated;

when the moving part is located at the first position, the distance between the function trigger and the moving part is a first distance; when the moving part is located at the second position, the distance between the function trigger and the moving part is a second distance, and the first distance is greater than the second distance.

In the embodiment of the invention, the first device body and the second device body can rotate relatively, and in the process of rotating relatively, the driving part can drive the moving part to move, so that the function trigger piece can be switched between different states, and different operations can be implemented. Therefore, the folding operation of the folding electronic equipment can change the state of the folding electronic equipment and the state of the function trigger piece, so that a user does not need to additionally input operation to trigger the corresponding function. Therefore, the operation of the folding electronic device is simpler.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the background art of the present invention, the drawings required to be used in the description of the embodiments or the background art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a foldable electronic device according to an embodiment of the present invention in a state;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic structural diagram of a foldable electronic device according to an embodiment of the disclosure in another state;

FIG. 4 is an enlarged view of a portion of FIG. 3;

fig. 5 and fig. 6 are partial schematic views of an electronic device in different states according to another embodiment of the disclosure.

Description of reference numerals:

100-a first device body, 110-a first display surface, 120-a second display surface, 200-a second device body, 210-a containing groove, 220-a third display surface, 300-a driving part, 400-a moving part, 410-a contact part, 420-an engagement part, 430-a magnetic part, 500-a function trigger part, 510-a trigger button, 520-a Hall sensor and 600-a rotating shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. 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 invention.

As shown in fig. 1 to 4, an embodiment of the present invention discloses a folding electronic device, which may include a first device body 100, a second device body 200, a driving part 300, a moving part 400, and a function trigger 500.

The first device body 100 and the second device body 200 may be both main structures of a foldable electronic device, and both may be provided with structures such as a circuit board and a display module. The second apparatus body 200 is rotatably coupled to the first apparatus body 100, so that the first apparatus body 100 and the second apparatus body 200 can be relatively rotated, thereby changing the state of the folding electronic apparatus.

The driving portion 300 is disposed on the first apparatus main body 100 and can rotate with the first apparatus main body 100, and the moving portion 400 is connected to the driving portion 300, and when the driving portion 300 rotates, the driving portion drives the moving portion 400 to move.

The function trigger 500 is provided to the second apparatus body 200. Alternatively, the function trigger 500 may be fixedly disposed at a predetermined position of the second device body 200, and the function trigger 500 may transmit a trigger signal when triggered, so as to cause the foldable electronic device to perform a corresponding operation. For example, when the function trigger 500 is triggered, operations such as switching between the front camera and the rear camera, turning off the display screen, lighting up the display screen, and switching between the front display screen and the rear display screen may be implemented.

In the case where the first apparatus body 100 and the second apparatus body 200 are relatively rotated, the driving part 300 may drive the moving part 400 to move between the first position and the second position, so that the distance between the moving part 400 and the function trigger 500 is changed. Specifically, in the case where the moving part 400 is located at the first position, the distance between the function trigger 500 and the moving part 400 is a first distance; when the moving part 400 is located at the second position, the distance between the function trigger 500 and the moving part 400 is a second distance, and the first distance is greater than the second distance. Alternatively, the function trigger 500 may be triggered when the distance between the function trigger 500 and the moving part 400 is gradually decreased to a first preset value; alternatively, the function trigger 500 may be triggered when the distance between the function trigger 500 and the moving part 400 is gradually increased to a second preset value.

In the embodiment of the present invention, the first apparatus body 100 and the second apparatus body 200 are relatively rotatable, and during the relative rotation, the driving part 300 can drive the moving part 400 to move, so that the function trigger 500 can be switched between different states to implement different operations. Therefore, the folding operation of the folding electronic equipment can change the state of the folding electronic equipment and the state of the function trigger piece, so that a user does not need to additionally input operation to trigger the corresponding function. Therefore, the operation of the folding electronic device is simpler. Meanwhile, the function trigger 500 adopts a hidden design, so that the appearance consistency of the electronic device is further improved.

In order to better drive the moving part 400 to move, the moving part 400 may be provided to the second apparatus body 200. Specifically, the moving part 400 may be slidably disposed on the second apparatus main body 200, and when the first apparatus main body 100 and the second apparatus main body 200 rotate relatively, the driving part 300 rotates with the first apparatus main body 100 to drive the moving part 400 to move, and a distance between the moving part 400 and the function trigger 500 may be changed to change a state of the function trigger 500.

Alternatively, the moving part 400 and the function trigger 500 may be disposed on the surface of the second device body 200, and both the moving part 400 and the function trigger 500 may protrude relative to the second device body 200, but such a structure may cause the size of the foldable electronic device to be too large, and may cause the moving part 400 and the function trigger 500 to easily collide with other components, so that the moving part 400 and the function trigger 500 are easily disabled. In order to solve this problem, an accommodation groove 210 may be provided on the second apparatus body 200, and the moving part 400 and the function trigger 500 are both disposed in the accommodation groove 210. At this time, the moving part 400 and the function trigger 500 do not occupy an additional space substantially, and the receiving groove 210 can protect the moving part 400 and the function trigger 500, so that the structure can reduce the size of the foldable electronic device, and at the same time, the moving part 400 and the function trigger 500 are not easily damaged, and it is ensured that the moving part 400 can normally drive the function trigger 500.

Optionally, the function trigger 500 has a first trigger distance, and when the distance between the function trigger 500 and the moving part 400 is less than or equal to the first trigger distance, the function trigger 500 is in a first trigger state; when the distance between the function trigger 500 and the moving part 400 is greater than the first trigger distance, the function trigger 500 is in an unfired state. The first distance described above may be greater than the first trigger distance and the second distance less than or equal to the first trigger distance. When the moving part 400 gradually approaches the function trigger 500, the distance between the moving part 400 and the function trigger 500 gradually decreases, when the distance between the moving part 400 and the function trigger 500 reaches the first trigger distance, the function trigger 500 switches to the first trigger state, and as the moving part 400 further approaches the function trigger 500, the distance between the moving part 400 and the function trigger 500 is smaller than the first trigger distance, the function trigger 500 maintains the first trigger state, so that the foldable electronic device more reliably performs the corresponding operation.

In an alternative embodiment, one of the moving part 400 and the function trigger 500 is provided with a magnetic member, and the other is provided with a hall sensor, and when the moving part 400 is located at the first position, the distance between the magnetic member and the hall sensor is the first distance described above; when the moving part 400 is located at the second position, the distance between the magnetic member and the hall sensor is the second distance described above. When the moving part 400 moves, the distance between the magnetic member and the hall sensor changes, the intensity of the magnetic field sensed by the hall sensor changes accordingly, and when the intensity reaches a preset value, the hall sensor is triggered to send a trigger signal. The structure triggers the functional trigger 500 through the change of the magnetic field, and the moving part 400 and the functional trigger 500 can not be contacted, thereby avoiding the damage caused by collision between the devices.

Referring to fig. 5 and 6, optionally, the moving part 400 is provided with the magnetic member 430, the function trigger 500 is provided with the hall sensor 520, and the size of the magnetic member 430 may be relatively smaller than that of the hall sensor 520, so that when the moving part 400 is provided with the magnetic member 430, the moving space required to be reserved for the moving part 400 is smaller, and the space utilization rate of the folding electronic device is higher.

In a further embodiment, the function trigger 500 further has a second trigger distance, and when the moving part 400 is located at the third position, the third distance is between the moving part 400 and the function trigger 500, and when the third distance is smaller than or equal to the second trigger distance, the function trigger 500 is in the second trigger state. Wherein the third position is a position other than the first position and the second position. After the above arrangement, the function trigger 500 has at least two trigger states, and different trigger states of the function trigger 500 may correspond to different operations, so that the embodiment may implement triggering of more operations through different states of the function trigger 500, so that the operation of the foldable electronic device by the user is simpler.

In other embodiments, when the moving part 400 is located at the first position, the moving part 400 avoids the functional trigger 500, that is, the functional trigger 500 and the moving part 400 have a larger distance therebetween, and they do not interact with each other; with the moving part 400 located at the second position, the moving part 400 covers the function trigger 500, so that the function trigger 500 is triggered. Alternatively, the function trigger 500 in this embodiment may be an infrared sensor or the like. Further optionally, the second device body 200 has a first surface parallel to a plane of the second device body 200, the function trigger 500 may be disposed on the first surface, and when the moving part 400 is located at the second position, the moving part 400 is located at a side of the function trigger 500 away from the first surface, so as to cover the function trigger 500. In contrast, the functional trigger 500 performs a triggering operation by shielding the functional trigger 500 by the moving part 400, so that the moving part 400 and the functional trigger 500 may not be in contact, and thus damage caused by collision between devices may be avoided.

In the embodiment of the present invention, when the function trigger 500 is triggered, the moving part 400 and the function trigger 500 may not contact each other, and even the distance between the two may be relatively long. In other embodiments, in the case where the moving part 400 is located at the first position, there is a space between the moving part 400 and the function trigger 500; with the moving part 400 located at the second position, the moving part 400 comes into contact with the function trigger 500, so that the function trigger 500 is triggered. In contrast, the function trigger 500 performs the triggering operation by pressing the moving part 400, so that the triggering reliability is higher, and at the same time, when the foldable electronic device is designed, the distance between the function trigger 500 and the moving part 400 does not need to be strictly calculated and controlled, thereby facilitating the structural design of the foldable electronic device.

Optionally, a contact portion 410 is disposed on a surface of the moving portion 400 facing the function trigger 500, the function trigger 500 is disposed with a trigger button 510, and when the moving portion 400 is located at the second position, the contact portion 410 contacts the trigger button 510. With the structure, the sizes of the contact part 410 and the trigger button 510 can be designed to be smaller, so that the contact between the contact part 410 and the trigger button 510 is more pertinent, and if the positions of the functional trigger piece 500 or the moving part 400 are changed unexpectedly, even if the moving part 400 is in contact with the functional trigger piece 500, the functional trigger piece 500 is not easy to trigger, so that the functional trigger piece 500 is prevented from being triggered by mistake, and the reliability of the folding electronic device during working is higher.

Further alternatively, at least one of the contact portion 410 and the trigger button 510 may be a protrusion structure, and for example, the contact portion 410 is a protrusion structure, in this case, the contact portion 410 may protrude toward the side of the function trigger 500. When the protrusion structure is adopted, on one hand, the contact part 410 and the trigger button 510 are relatively obvious, so that the folding electronic device is convenient to assemble, and on the other hand, when the contact between the moving part 400 and the function trigger 500 is realized through the protrusion structure, the parts of the moving part 400 and the function trigger 500 except the contact part 410 and the trigger button 510 can keep a larger interval, so that the moving part 400 is prevented from interfering with the rest parts of the function trigger 500.

In an alternative embodiment, the driving part 300 includes a driving tooth, the moving part 400 has a strip structure, and the moving part 400 is provided with an engaging part 420, and the driving tooth is engaged with the moving part 400 through the engaging part 420. The driving part 300 may be a column structure, and the surface thereof may be provided with a plurality of driving teeth, and adjacent driving teeth have a gap therebetween; correspondingly, the moving part 400 may be provided with a plurality of engaging parts 420, and the engaging parts 420 may be driving protrusions. When the first apparatus body 100 and the second apparatus body 200 are relatively rotated, the driving part 300 is rotated so that different driving teeth are engaged with different driving protrusions, thereby moving the moving part 400 through the engaging part 420. This embodiment realizes the driving of the moving part 400 by means of meshing transmission, which has high transmission efficiency.

The engaging portion 420 may also adopt other structural forms, and optionally, the engaging portion 420 is an engaging tooth, and the structural parameters of the engaging tooth may be matched with the structural parameters of the driving tooth, so that the driving tooth and the engaging tooth are well matched to realize the acting force transmission between the driving portion 300 and the moving portion 400. When the structure is adopted, the driving part 300 and the moving part 400 both adopt the tooth-shaped structure, and the meshing area of the driving part 300 and the moving part 400 is relatively large, so that the transmission efficiency and the transmission reliability between the driving part 300 and the moving part 400 are higher.

In another alternative embodiment, the engaging portion 420 is an engaging recess, and the engaging recess may be an engaging groove or an engaging hole. The size of the engagement recess can be controlled to be small as long as a reliable fit of the drive teeth with the engagement portion 420 is satisfied. The above-mentioned driving protrusion protrudes relative to the moving portion 400, so that the structure is easily broken after being stressed, and the engaging recess is a recessed structure, so that the acting force can be received by the main structure of the moving portion 400 as a whole, so that the moving portion 400 can transmit the acting force more reliably. In addition, the structure of the engaging portion 420 is simpler and easier to manufacture, so that the cost of the folding electronic device is lower.

In order to improve stability when the first apparatus body 100 and the second apparatus body 200 are relatively rotated, the second apparatus body 200 is rotatably coupled to the first apparatus body 100 by a rotation shaft 600. Further, the driving portion 300 may be disposed on the rotation shaft 600, and when the first device body 100 and the second device body 200 rotate relatively, the rotation shaft 600 may directly drive the driving portion 300 to rotate, so that the structure does not need to provide a complex structure to implement the transmission between the first device body 100 and the driving portion 300, and therefore the structure may shorten the transmission path between the first device body 100 and the driving portion 300, thereby making the transmission efficiency higher, and simultaneously simplifying the structure of the foldable electronic device.

In an alternative embodiment, the driving part 300 includes a winding member wound around the rotating shaft 600, and one end of the winding member is connected to the rotating shaft 600 and the other end of the winding member is connected to the moving part 400. The winding member may be a flexible structure having a certain rigidity, and may be wound on the rotating shaft 600 for a plurality of turns, and when the driving portion 300 rotates with the first apparatus body 100, the number of turns of the winding member on the rotating shaft 600 may be changed, so that the driving of the moving portion 400 may be achieved. The winding member can directly transmit the force on the rotating shaft 600 to the moving part 400, and the force loss in the transmission process is less, so the transmission efficiency is higher.

Further, considering that the winding member has a certain flexibility, the winding member may pull the moving part 400, but the effect of pushing the moving part 400 is relatively poor, and therefore, an elastic member (e.g., a spring) may be additionally provided, which is deformed when the winding member pulls the moving part 400, and may drive the moving part 400 to move reversely when the winding member no longer pulls the moving part 400, thereby more reliably implementing the driving of the moving part 400.

In order to improve the display effect of the foldable electronic device, in an alternative scheme, the first device body 100 has the first display surface 110 and the second display surface 120 which are arranged oppositely, and the second device body 200 has the third display surface 220. When the second device body 200 covers the first device body 100, that is, the foldable electronic device is in a folded state, the second display surface 120 faces the third display surface 220, and the second display surface 120 and the third display surface 220 may not operate, and the foldable electronic device may display through the first display surface 110; in the case where the first and second device bodies 100 and 200 are coplanar, the second and third display surfaces 120 and 220 are coplanar, and at this time, the foldable electronic device can perform display through the second and third display surfaces 120 and 220, thereby forming a larger display area. In this embodiment, the foldable electronic device can display in both states, so as to optimize the display effect of the foldable electronic device.

In the above embodiment, the second display surface 120 faces the third display surface 220 when the foldable electronic device is in the folded state, and the foldable electronic device adopts the inward folding mode. In this embodiment, the first device body 100 has a fourth display surface, the second device body 200 has a fifth display surface, and in a case where the second device body 200 covers the first device body 100, the fourth display surface and the fifth display surface are opposite to each other, and at least one of the two may be in an operating state; in the case where the first and second device bodies 100 and 200 are coplanar, the fourth and fifth display surfaces are coplanar, and at this time, the foldable electronic device can perform display through the fourth and fifth display surfaces. In this embodiment, the foldable electronic device can display in both states, so as to optimize the display effect of the foldable electronic device.

The foldable electronic device disclosed by the embodiment of the invention can be a smart phone, a tablet computer, an electronic book reader, a wearable device (such as a smart watch), an electronic game machine and the like, and the embodiment of the invention does not limit the specific type of the foldable electronic device.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (14)

1. A folding electronic device, comprising:

a first apparatus main body (100);

a second apparatus body (200), the second apparatus body (200) being rotatably connected to the first apparatus body (100);

a drive unit (300), the drive unit (300) being provided to the first apparatus body (100) and being rotatable with the first apparatus body (100);

a moving part (400), the moving part (400) being connected to the driving part (300);

a function trigger (500), the function trigger (500) being provided to the second apparatus main body (200);

the driving part (300) can drive the moving part (400) to move between a first position and a second position under the condition that the first device main body (100) and the second device main body (200) relatively rotate;

the distance between the function trigger (500) and the moving part (400) is a first distance when the moving part (400) is in the first position; when the moving part (400) is located at the second position, the distance between the function trigger (500) and the moving part (400) is a second distance, and the first distance is greater than the second distance.

2. The folding electronic apparatus according to claim 1, wherein said moving section (400) is provided to said second apparatus body (200).

3. The folding electronic device according to claim 2, wherein the second device body (200) is provided with a housing recess (210), and the moving portion (400) and the function trigger (500) are both provided in the housing recess (210).

4. The folding electronic device according to claim 1, wherein the function trigger (500) has a first trigger distance, and when the distance between the function trigger (500) and the moving part (400) is less than or equal to the first trigger distance, the function trigger (500) is in a first trigger state; when the distance between the function trigger (500) and the moving part (400) is larger than the first trigger distance, the function trigger (500) is in an unfired state;

the first distance is greater than the first trigger distance, and the second distance is less than or equal to the first trigger distance.

5. The folding electronic device according to claim 4, wherein one of the moving part (400) and the function trigger (500) is provided with a magnetic member, and the other is provided with a Hall sensor;

when the moving part (400) is located at the first position, the distance between the magnetic member and the Hall sensor is the first distance;

when the moving part (400) is located at the second position, the distance between the magnetic member and the hall sensor is the second distance.

6. The folding electronic device according to claim 4, wherein the function trigger (500) further has a second trigger distance, and when the moving part (400) is located at a third position, a third distance is provided between the moving part (400) and the function trigger (500), and when the third distance is smaller than or equal to the second trigger distance, the function trigger (500) is in a second trigger state;

wherein the third position is a position other than the first position and the second position.

7. Folding electronic device according to claim 1, characterized in that in case the moving part (400) is in the first position, the moving part (400) avoids the function trigger (500);

the moving part (400) covers the function trigger (500) with the moving part (400) in the second position.

8. Folding electronic device according to claim 1, characterized in that with the moving part (400) in the first position, there is a space between the moving part (400) and the function trigger (500);

the moving part (400) is in contact with the function trigger (500) with the moving part (400) in the second position.

9. The folding electronic device according to claim 8, wherein a surface of the moving part (400) facing the function trigger (500) is provided with a contact part (410), the function trigger (500) is provided with a trigger button (510), and the contact part (410) is in contact with the trigger button (510) when the moving part (400) is in the second position.

10. The folding electronic device according to claim 1, wherein the driving portion (300) includes a driving tooth, the moving portion (400) has a bar-shaped structure, and the moving portion (400) is provided with an engaging portion (420), and the driving tooth is engaged with the moving portion (400) through the engaging portion (420).

11. The folding electronic device of claim 10, wherein said engaging portion (420) is an engaging tooth; alternatively, the engagement portion (420) is an engagement recess.

12. The folding electronic apparatus according to claim 1, wherein the second apparatus body (200) is rotatably connected to the first apparatus body (100) by a hinge (600), and the driving section (300) is provided to the hinge (600).

13. The folding electronic device according to claim 12, wherein the driving portion (300) includes a winding member, the winding member is wound around the rotating shaft (600), one end of the winding member is connected to the rotating shaft (600), and the other end of the winding member is connected to the moving portion (400).

14. The folding electronic device according to claim 1, wherein the first device body (100) has a first display surface (110) and a second display surface (120) which are arranged in a back direction, and the second device body (200) has a third display surface (220);

the second display surface (120) faces the third display surface (220) when the second device body (200) covers the first device body (100).

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