CN217445387U - Electronic equipment - Google Patents

Abstract

The application discloses electronic equipment, electronic equipment include first screen subassembly and second screen subassembly, first screen subassembly including the display and with the built-up member, the distance between display and the built-up member under the folded state is greater than the distance between display and the built-up member under the unfolded state, the second screen subassembly is located first screen subassembly under the folded state, the second screen subassembly is located outside first screen subassembly and sets up side by side with first screen subassembly under the unfolded state. The size of the display area of the electronic equipment can be changed, and diversified use requirements of users can be met. And this application reduces the interval between the display piece of first screen subassembly and the built-up member under the state of will expanding for the interval of the two under the state of drawing in, then can realize under the state of drawing in that the display piece deviates from the thickness that the distance between the surface of built-up member and the surface that the built-up member deviates from the display piece is close the second screen subassembly more, promotes electronic equipment's under the state of expanding thickness uniformity, promotes user comfort in use.

Description

Electronic device

Technical Field

The present application relates to the field of electronic technology, and in particular, to an electronic device.

Background

With the development of electronic device technology, electronic devices such as mobile phones and tablets play more and more important roles in daily life of people, and more functions are realized. Electronic equipment usually disposes the display screen, and the display screen can be used to information such as display screen, and the size of display screen is generally fixed unchangeable among the relevant art, can't satisfy user's user demand.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides electronic equipment, which is used for solving the problems that the size of a display screen of the electronic equipment is fixed and the use requirement of a user cannot be met in the related art. The technical scheme is as follows;

in a first aspect, an embodiment of the present application provides an electronic device, where the electronic device has a folded state and an unfolded state, and the electronic device includes:

the first screen assembly comprises a display part and an assembly part arranged opposite to the display part, the distance between the display part and the assembly part in the furled state is larger than the distance between the display part and the assembly part in the unfolded state, and an accommodating cavity is formed between the display part and the assembly part in the furled state;

the second screen assembly is slidably connected with the first screen assembly, the second screen assembly is located in the accommodating cavity of the first screen assembly in the folded state, and the second screen assembly is located outside the first screen assembly and arranged side by side with the first screen assembly in the unfolded state.

According to the electronic device in the embodiment of the application, in the folded state, because the second screen assembly is located in the accommodating cavity of the first screen assembly, only the first screen assembly in the first screen assembly and the second screen assembly can be used for a user to view information such as pictures; and because the second screen subassembly is located outside the first screen subassembly and sets up side by side with the first screen subassembly when the expansion state, then first screen subassembly and second screen subassembly all can be used for the user to look over information such as picture, promptly, in the state of drawing in and expansion state, electronic equipment's display area's size can change, can satisfy user's diversified user demand. In addition, because the interval between the display part of the first screen assembly and the assembly part needs to be satisfied and can hold the second screen assembly under the furled state, then the interval between the display part and the assembly part under the furled state can be relatively larger, and the distance between the surface of the display part departing from the assembly part and the surface of the assembly part departing from the display part at the moment is greater than the thickness of the second screen assembly, the application reduces the interval between the display part and the assembly part of the first screen assembly under the furled state relative to the interval between the display part and the assembly part under the furled state, so that the distance between the surface of the display part departing from the assembly part and the surface of the assembly part departing from the display part under the furled state can be reduced, the thickness of the second screen assembly can be more approximate or equal to the thickness of the second screen assembly part, the thickness consistency of the electronic equipment under the furled state is improved, and the use comfort of a user is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic perspective view of an electronic device in a folded state according to an embodiment of the present application;

fig. 2 is a schematic perspective view of the electronic device shown in fig. 1 in an unfolded state;

FIG. 3 is a schematic perspective cross-sectional view at a viewing angle M-M in FIG. 1;

FIG. 4 is a schematic diagram of a partial perspective structure of the electronic device shown in FIG. 3;

FIG. 5 is an enlarged schematic view of the structure at N in FIG. 4;

FIG. 6 is a perspective exploded view of the electronic device shown in FIG. 1;

FIG. 7 is an assembly diagram of a display of the first screen assembly and the second screen assembly of the electronic device shown in FIG. 1;

FIG. 8 is an assembly diagram of an assembly of a first screen component and a second screen component in the electronic device shown in FIG. 1;

FIG. 9 is a schematic perspective cross-sectional view at another view angle M-M of FIG. 1;

fig. 10 is a schematic perspective view illustrating a display, an assembly, and a third connecting component of an electronic device in a folded state according to another embodiment of the present disclosure;

FIG. 11 is a schematic plan view of the display, assembly, and third connecting assembly of the electronic device shown in FIG. 10 in a collapsed state;

FIG. 12 is a schematic plan view of the display, assembly, and third connection assembly of the electronic device shown in FIG. 10 in an expanded state;

FIG. 13 is a partially schematic perspective cross-sectional view of the electronic device shown in FIG. 1 in an expanded state;

FIG. 14 is an enlarged schematic view of the structure at P in FIG. 13;

fig. 15 is a perspective view of the electronic device shown in fig. 1 in an intermediate state when the electronic device is switched from the folded state to the unfolded state;

fig. 16 is a perspective view of the electronic device shown in fig. 1 in a further intermediate state when switched from the folded state to the unfolded state;

FIG. 17 is an enlarged schematic view of the structure at Q of FIG. 16;

fig. 18 is a schematic plan view of the display, the assembly, and the third connecting assembly when the electronic device shown in fig. 1 is in the state shown in fig. 16;

FIG. 19 is a schematic plan view of the display, assembly and third connecting assembly of the electronic device shown in FIG. 1 in an intermediate state when switched from the expanded state to the collapsed state;

fig. 20 is a schematic perspective view illustrating a display, an assembly, and a third connecting component of an electronic device in a folded state according to still another embodiment of the present disclosure.

Description of the drawings: 1. an electronic device; 11. a first screen assembly; 111. a display member; 1111. a first display surface; 1112. a first display panel; 1113. a first mounting plate; 112. an assembly member; 113. an accommodating chamber; 114. a track groove; 1141. a fifth trough section; 1142. a sixth trough section; 1143. a recessed portion; 1144. a first slip section; 1145. a second slip section; 115. an installation part; 116. a containing groove; 117. a stopper portion; 12. a second screen assembly; 121. a second display surface; 122. a first chute; 1221. a first groove section; 1222. a second groove section; 1223. a first snap projection; 123. a second chute; 1231. a third groove section; 1232. a fourth groove section; 124. a peripheral side surface; 1241. a first sidewall surface; 1242. a second sidewall surface; 125. a third chute; 1251. a first opening; 126. a second display panel; 127. a second mounting plate; 13. a main body; 14. a first connection assembly; 141. a first connection portion; 142. a first sliding section; 15. a second connection assembly; 151. a second connecting portion; 152. a second sliding section; 16. a first enclosing plate; 17. a second enclosing plate; 18. a third connection assembly; 181. a first connecting member; 1811. an elastic member; 182. a second connecting member; 1821. a swing rod; 1822. a first magnetic member; 1823. a second magnetic member; 19. a shielding plate; 191. a first baffle plate; 192. a second baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

Referring to fig. 1 and fig. 2, an electronic device 1 is provided in an embodiment of the present disclosure. The electronic device 1 may be any device having a display function, for example, the electronic device 1 may be a mobile phone, a tablet, or the like, and the mobile phone is exemplified as the following description.

The electronic device 1 has a folded state and an unfolded state, wherein a display area available for a user to view information such as a picture on the electronic device 1 in the folded state is relatively small, and a display area available for the user to view information such as a picture on the electronic device 1 in the unfolded state is relatively large, so that the size adjustment of the display area available for the user to view of the electronic device 1 can be realized by switching the electronic device 1 between the folded state and the unfolded state, and the diversified use requirements of the user can be met.

Specifically, with reference to fig. 1 and 2, the electronic device 1 may include a first screen assembly 11 and a second screen assembly 12, and the first screen assembly 11 and the second screen assembly 12 may be slidably connected, so that the electronic device 1 may be switched between a folded state and an unfolded state. When the first screen assembly 11 and the second screen assembly 12 slide relatively to each other until at least a part of the first screen assembly and the second screen assembly are overlapped, the electronic device 1 is in a folded state; when the first screen assembly 11 and the second screen assembly 12 slide relatively to each other until they are arranged side by side, the electronic device 1 is in the unfolded state. Because at least part of the display area of one of the first screen assembly 11 and the second screen assembly 12 is shielded when the first screen assembly 11 and the second screen assembly 12 are at least partially overlapped, compared with the case that the display areas of the first screen assembly 11 and the second screen assembly 12 which are arranged side by side are completely exposed, the display area is changed, and therefore the size adjustment of the display area of the electronic device 1 which can be used for being viewed by a user can be realized.

Further, the first screen assembly 11 may include a display member 111 and an assembly member 112 disposed opposite to the display member 111, and a distance between the display member 111 and the assembly member 112 in the folded state is greater than a distance between the display member 111 and the assembly member 112 in the unfolded state. Referring to fig. 1 and 3, in fig. 3, a perspective cross-sectional view along the direction M-M in fig. 1 is shown, in a folded state, a receiving cavity 113 is formed between the display member 111 and the assembly member 112, and the second screen assembly 12 is located in the receiving cavity 113 of the first screen assembly 11; referring to fig. 2, in the unfolded state, the second panel assembly 12 is located outside the first panel assembly 11 and is arranged side by side with the first panel assembly 11. Since the distance between the display 111 and the assembly 112 of the first screen assembly 11 in the folded state is required to be able to accommodate the second screen assembly 12, the distance between the display 111 and the assembly 112 in the folded state is relatively larger, and at this time, the distance between the surface of the display 111 facing away from the assembly 112 and the surface of the assembly 112 facing away from the display 111 is greater than the thickness of the second screen assembly 12, the distance between the display 111 and the assembly 112 of the first screen assembly 11 in the unfolded state is reduced relative to the distance between the display 111 and the assembly 112 in the folded state, so that the distance between the surface of the display 111 facing away from the assembly 112 and the surface of the assembly 112 facing away from the display 111 in the folded state can be reduced, the distance can be closer to the thickness of the second screen assembly 12 or equal to the thickness of the second screen assembly 12, and the thickness uniformity of the electronic device 1 in the unfolded state is improved, the use comfort of the user is improved.

Optionally, the display member 111 has a first display surface 1111 facing away from the assembly member 112, and in the unfolded state, the distance between the first display surface 1111 and the surface of the assembly member 112 facing away from the first display surface 1111 is equal to the thickness of the second screen member 12 along the direction perpendicular to the first display surface 1111. That is, the thickness of the first screen assembly 11 is equal to the thickness of the second screen assembly 12 in the unfolded state, so that the thickness uniformity of each part of the electronic device 1 can be improved, and the user experience can be improved.

Optionally, the second screen assembly 12 has a second display surface 121 adjacent the display 111, and the first display surface 1111 of the first screen assembly 11 is flush with the second display surface 121 of the second screen assembly 12 in the extended state. The first display surface 1111 and the second display surface 121 are parallel and level, so that when the first display surface 1111 and the second display surface 121 jointly display information such as pictures, no height difference exists between the first display surface 1111 and the second display surface 121, the fluency of the pictures displayed by the first display surface 1111 and the pictures displayed by the second display surface 121 is improved, and the eye comfort level of a user during watching is improved. Preferably, the first display surface 1111 is flush with the second display surface 121 in the unfolded state, and a distance from the first display surface 1111 to the panel surface of the assembly member 112 away from the first display surface 1111 in the unfolded state is equal to the thickness of the second screen assembly 12, so that the electronic device 1 in the unfolded state can maintain the thickness uniformity of each part and improve the eye comfort of a user.

Alternatively, to achieve the slidable connection of the first screen assembly 11 and the second screen assembly 12, the slidable connection of the display 111 of the first screen assembly 11 and/or the assembly 112 of the first screen assembly 11 and the second screen assembly 12 may be achieved. Wherein, the 'and/or' describes the association relationship of the associated object, and indicates that three relationships can exist; for example, a and/or B, may represent: a exists alone, A and B exist simultaneously, and B exists alone. In the embodiment of the present application, the display member 111 and the assembly member 112 of the first screen assembly 11 are slidably connected to the second screen assembly 12.

Alternatively, when the display member 111 is slidably connected to the second screen assembly 12, the display member 111 and the second screen assembly can be connected by the first sliding slot 122 and the first connecting assembly 14 slidably disposed in the first sliding slot 122. Specifically, one of the display member 111 and the second screen assembly 12 may be provided with a first sliding groove 122, and the other may be connected to the first connecting assembly 14. Referring to fig. 2 and 4, the first sliding slot 122 may include a first slot segment 1221 and a second slot segment 1222, the first slot segment 1221 extends in a direction parallel to the first display surface 1111, one end of the second slot segment 1222 is connected to the first slot segment 1221, the other end of the second slot segment 1222 extends in a direction close to the assembly member 112, the first connecting component 14 is located at an end of the first slot segment 1221 away from the second slot segment 1222 in a folded state, and the first connecting component 14 is located at an end of the second slot segment 1222 away from the first slot segment 1221 in an unfolded state.

Specifically, when the assembly member 112 is slidably connected to the second screen assembly 12, the assembly member and the second screen assembly can be realized by the second sliding groove 123 and the second connecting assembly 15 slidably disposed in the second sliding groove 123. Specifically, one of the assembly member 112 and the second screen member 12 may be provided with a second sliding groove 123, and the other may be connected to the second connecting member 15. The second sliding groove 123 includes a third groove segment 1231 and a fourth groove segment 1232, the third groove segment 1231 extends along a direction parallel to the first display surface 1111, one end of the fourth groove segment 1232 is connected to the third groove segment 1231, the other end of the fourth groove segment 1232 extends toward a direction close to the display member 111, the second connecting assembly 15 is located at an end of the third groove segment 1231 far away from the fourth groove segment 1232 in the folded state, and the second connecting assembly 15 is located at an end of the fourth groove segment 1232 far away from the third groove segment 1231 in the unfolded state.

In the embodiment of the present application, the display member 111 is connected to the first connecting component 14, the assembly member 112 is connected to the second connecting component 15, and the second screen component 12 is provided with a first sliding slot 122 and a second sliding slot 123. The first sliding groove 122 and the second sliding groove 123 are both disposed on the second screen assembly 12, so that only the second screen assembly 12 is grooved, and the processing technology of each component in the electronic device 1 can be simplified.

Referring to fig. 2, the second panel assembly 12 has a peripheral side surface 124 surrounding the second display surface 121, and the peripheral side surface 124 includes a first side wall 1241 and a second side wall 1242 opposite to each other. Optionally, the first sliding grooves 122 may be formed on the first side wall 1241 and/or the second side wall 1242, the number of the first connection assemblies 14 may be equal to the number of the first sliding grooves 122, and the first connection assemblies 14 are slidably disposed in the first sliding grooves 122 in a one-to-one correspondence manner. The first side wall 1241 and/or the second side wall 1242 may be provided with second sliding grooves 123, the number of the second connecting assemblies 15 may be equal to the number of the second sliding grooves 123, and the second connecting assemblies 15 are slidably disposed in the second sliding grooves 123 in a one-to-one correspondence manner. Preferably, the first and second side walls 1241 and 1242 are respectively provided with a first sliding slot 122, and the first and second side walls 1241 and 1242 are respectively provided with a second sliding slot 123, so as to improve the stability of the first and second screen assemblies 11 and 12 when sliding relatively.

Alternatively, referring to fig. 4, the third slot segment 1231 is parallel to the extending direction of the first slot segment 1221, so that when the display 111 slides in the first slot segment 1221 and the assembly 112 slides in the third slot segment 1231, the distance between the display 111 and the assembly 112 can be substantially kept constant, which facilitates smooth unfolding and folding of the electronic device 1.

Alternatively, the second slot segment 1222 is disposed between the first slot segment 1221 and the third slot segment 1231 and the fourth slot segment 1232 is disposed between the first slot segment 1221 and the third slot segment 1231 in a direction perpendicular to the first display surface 1111. The second slot 1222 and the fourth slot 1232 may be connected or spaced apart, and preferably, the second slot 1222 and the fourth slot 1232 are spaced apart, so that when the first connecting assembly 14 moves to abut against an inner wall of the second slot 1222 far from the first slot 1221, the moving stroke of the first connecting assembly 14 in one direction in the first sliding slot 122 can be limited, and excessive movement is avoided; when the second connecting assembly 15 moves to abut against an inner wall of the fourth groove section 1232 far away from the third groove section 1231, the movement stroke of the second connecting assembly 15 in one direction in the second sliding groove 123 can be limited, and excessive movement is avoided.

The second slot segment 1222 and the fourth slot segment 1232 are spaced apart from each other, and may be: the second slot segment 1222 is spaced apart from the fourth slot segment 1232 in a direction parallel to the first display surface 1111; and/or, the second slot segment 1222 is spaced apart from the fourth slot segment 1232 in a direction perpendicular to the first display surface 1111.

Optionally, referring to fig. 4 and fig. 5, a first locking protrusion 1223 is disposed on an inner wall surface of the first groove segment 1221, the first locking protrusion 1223 is disposed at an end of the first groove segment 1221 away from the second groove segment 1222, and the first connecting element 14 is located at a side of the first locking protrusion 1223 away from the second groove segment 1222 in the folded state. The first latching protrusion 1223 is disposed to block the first connecting element 14 in a collapsed state from a side of the first latching protrusion 1223 away from the second slot 1222, so as to block the first connecting element 14 from moving in the first slot 1221 toward a direction close to the second slot 1222; when a force is applied to the first screen assembly 11 and/or the second screen assembly 12, the first connecting assembly 14 may cross the first latching protrusion 1223 under the action of an external force, so as to be capable of moving toward a direction close to the second groove 1222, i.e., when an external force is applied, the first connecting assembly may move from the folded state toward the unfolded state. Alternatively, the first jamming 1223 may be projected in a direction away from the inner wall surface of the first groove section 1221. Optionally, the first protrusion 1223 may have elasticity, so that when the first connection assembly 14 passes over the first protrusion 1223, the first protrusion 1223 can deform to a certain extent, so as to reduce the wear problem of the first protrusion 1223 during multiple uses.

Optionally, a second locking protrusion (not shown in the figure) is disposed on an inner wall surface of the third groove section 1231, the second locking protrusion is disposed at one end of the third groove section 1231 far away from the fourth groove section 1232, and the second connecting assembly 15 is disposed at one side of the second locking protrusion far away from the fourth groove section 1232 in the folded state. The second locking protrusion can block the second connecting assembly 15 from moving in the third groove section 1231 toward the direction close to the fourth groove section 1232 in the closed state; and when external force is applied, the second connecting assembly 15 may cross over the second protrusion, so as to move toward a direction close to the fourth groove section 1232, i.e., may move from the folded state toward the unfolded state when external force is applied. Alternatively, the second snap projection may be projected in a direction away from the inner wall surface of the second groove segment 1222. Optionally, the second protrusion may have elasticity, so that when the second connecting assembly 15 crosses the second protrusion, the second protrusion can deform to some extent, so as to reduce the wear problem of the second protrusion during multiple uses.

Optionally, with reference to fig. 4, the electronic device 1 further includes a first surrounding plate 16, the first surrounding plate 16 is connected to the display part 111 and extends toward a side close to the assembly part 112, the first surrounding plate 16 is disposed on a side of the second slot 1222 far from the first slot 1221, and a surface of the first surrounding plate 16 close to the second slot 1222 in the collapsed state abuts against the second screen assembly 12. The first enclosing plate 16 can obstruct the display member 111 and the first connecting component 14 from moving in the first slot segment 1221 away from the second slot segment 1222 in the folded state. In summary, the first enclosing plate 16 and the first locking protrusion 1223 are combined to lock the position of the first connecting assembly 14 in the first groove section 1221 in the folded state, so that the electronic device 1 can be stably maintained in the folded state.

Optionally, the electronic device 1 further includes a second enclosing plate 17, the second enclosing plate 17 is connected to the assembly component 112 and extends toward a side close to the display component 111, the second enclosing plate 17 is disposed on a side of the fourth trough section 1232 away from the third trough section 1231, and a surface of the second enclosing plate 17 close to the fourth trough section 1232 abuts against the second screen component 12 in the folded state. The second enclosing plate 17 can block the movement of the assembly member 112 and the second connecting assembly 15 in the third trough section 1231 in the direction away from the fourth trough section 1232 in the collapsed state. In summary, the second surrounding plate 17 and the second locking protrusion are combined to lock the position of the second connecting assembly 15 in the second groove 1222 in the folded state, so that the electronic device 1 can be stably maintained in the folded state.

Optionally, referring to fig. 5 and fig. 6, the first connecting assembly 14 includes a first connecting portion 141 and a first sliding portion 142, the first connecting portion 141 is connected to the display 111, and the first sliding portion 142 is connected to the first connecting portion 141 and slidably disposed on the first sliding groove 122, wherein the first sliding portion 142 may have a prism structure, a cylinder structure, or the like, which is not limited in the present application. When the first sliding portion 142 has a prism-shaped structure, two opposite side walls of the first sliding portion 142 may be attached to two opposite side walls of the first sliding groove 122, so as to guide the first connection component 14 when moving in the first sliding groove 122. When the first sliding portion 142 is in a cylindrical structure, the radial dimension of the first sliding portion 142 may be equal to the distance between the two opposite side walls in the first sliding groove 122, so that the first sliding portion 142 can move closely to the two opposite side walls of the first sliding groove 122, and a guiding effect is achieved; meanwhile, the cylindrical structure facilitates the first sliding portion 142 to slide smoothly at the corner of the first slot segment 1221 and the second slot segment 1222.

Optionally, the second connecting assembly 15 includes a second connecting portion 151 and a second sliding portion 152, the second connecting portion 151 connects the assembly component 112, and the second sliding portion 152 connects the second connecting portion 151 and is slidably disposed in the second sliding groove 123, where the second sliding portion 152 may have a prism structure, a cylinder structure, or the like, which is not limited in this embodiment.

Preferably, one of the first sliding portion 142 and the second sliding portion 152 has a prism structure, and the other thereof has a cylindrical structure. For example, the first sliding portion 142 may have a cylindrical structure, and the second sliding portion 152 may have a prismatic structure.

Optionally, the second panel assembly 12 is further provided with a third sliding slot 125, the third sliding slot 125 is communicated with both the first sliding slot 122 and the second sliding slot 123, and the third sliding slot 125 penetrates through the second panel assembly 12. Communicating the first slot 122 with the third slot 125 through the second shield assembly 12 facilitates the first connecting assembly 14 entering the first slot 122, specifically, the first connecting assembly 14 may first enter the third slot 125 through the first opening 1251 of the third slot 125, and then move in the third slot 125 to enter the first slot 122. Similarly, the second sliding slot 123 is in communication with the third sliding slot 125 extending through the second screen assembly 12, which also facilitates the second connecting assembly 15 to enter the second sliding slot 123 from the third sliding slot 125.

Optionally, the third sliding groove 125 is located on a side of the first groove segment 1221 away from the second groove segment 1222 and a side of the third groove segment 1231 away from the fourth groove segment 1232, the third sliding groove 125 extends along a first direction and penetrates through the second screen assembly 12, and the first direction is disposed at an angle with the first display surface 1111. The first opening 1251 of the third sliding groove 125 penetrating through the second shield assembly 12 may be located on a side of the second sliding groove 123 far from the first sliding groove 122, and the first sliding portion 142 is preferably a cylindrical structure.

Referring to fig. 7, the assembling process of the display member 111 and the second screen assembly 12 may include: mounting the first connection assembly 14 on the display 111; the first connecting member 14 and the display member 111 are assembled together with the second screen member 12. Specifically, the process of assembling the first connecting assembly 14, the display member 111 and the second screen assembly 12 may include: moving the first connecting assembly 14 from the first opening 1251 of the third slide 125 into the third slide 125 and toward the first slide 122; when the first connecting assembly 14 moves to the corner between the third sliding chute 125 and the first sliding chute 122, the first connecting assembly 14 and the display member 111 are turned over; continuing to move the first linkage assembly 14 within the first runner 122; when the first connecting assembly 14 moves to the first protrusion 1223 in the first sliding slot 122, the display member 111 and the first connecting assembly 14 are turned over again, so that the display member 111 is covered on the second screen assembly 12 and the first enclosing plate 16 on the display member 111 abuts against the second screen assembly 12, thereby completing the assembly of the display member 111 and the second screen assembly 12.

Referring to fig. 8, the assembly process of the assembly 112 and the second screen assembly 12 may include: mounting the second connecting assembly 15 on the assembly member 112; the second connecting assembly 15 and the assembly member 112 enter the third sliding groove 125 together from the first opening 1251 of the third sliding groove 125, and then move toward the second sliding groove 123 from the third sliding groove 125, and the second enclosing plate 17 abuts against the second screen assembly 12.

Optionally, referring to fig. 9, the electronic device 1 further includes a third connection component 18, and the third connection component 18 is connected between the display 111 and the assembly member 112 of the first screen component 11, and is configured to adjust a distance between the display 111 and the assembly member 112, so that the distance between the display 111 and the assembly member 112 in the folded state can be greater than the distance between the display 111 and the assembly member 112 in the unfolded state. The third connecting assembly 18 may be any assembly capable of adjusting the distance between two components, for example, the third connecting assembly 18 may be a telescopic adjusting rod, a liftable adjusting table, or the like, which is not limited in this application.

In an exemplary embodiment, referring to fig. 10, the third connecting assembly 18 includes a first connecting member 181 and a second connecting member 182, the first connecting member 181 is connected between the display member 111 and the assembly member 112, the second connecting member 182 is also connected between the display member 111 and the assembly member 112, and the first connecting member 181 and the second connecting member 182 cooperate to adjust a distance between the display member 111 and the assembly member 112. The distance between the display part 111 and the assembly part 112 is adjusted by matching the first connecting part 181 and the second connecting part 182, and compared with the method for adjusting the distance between the display part 111 and the assembly part 112 by only one part, the method can improve the stability and accuracy in the adjusting process.

Alternatively, one of the first and second connecting members 181 and 182 may include an elastic member 1811, and the elastic member 1811 is connected between the display member 111 and the assembly member 112. The elastic element 1811 may be a spring, a spring plate, or the like, which is not limited in this application. Hereinafter, the first connecting member 181 including the elastic member 1811 will be exemplified.

Specifically, the elastic elements 1811 can have a recovered state and a compressed state, wherein the elastic elements 1811 are in the recovered state in the collapsed state and the elastic elements 1811 are in the compressed state in the expanded state. It is understood that the length of the elastic member 1811 in the recovered state is greater than that of the elastic member 1811 in the compressed state, and therefore, the distance between the display member 111 and the assembly member 112 can be made larger by the elastic member 1811 in the recovered state, and the distance between the display member 111 and the assembly member 112 can be made smaller by the elastic member 1811 in the compressed state, so that the distance adjustment between the display member 111 and the assembly member 112 can be satisfied.

When the elastic member 1811 is in the recovery state, the relative position of the display member 111 and the assembly member 112 can be maintained under the support of the elastic member 1811, and when the elastic member 1811 is in the compression state, the relative position of the display member 111 and the assembly member 112 can be maintained by the second connecting member 182.

Specifically, in an exemplary embodiment, the second connecting member 182 may include a swinging rod 1821, one of the display member 111 and the assembly member 112 is provided with a track slot 114, and one end of the swinging rod 1821 is slidably connected to the track slot 114, and the other end thereof is rotatably connected to the other of the display member 111 and the assembly member 112.

Referring to fig. 11, the track groove 114 may include a fifth groove segment 1141 close to the other of the display member 111 and the assembly member 112 and a sixth groove segment 1142 far from the other of the display member 111 and the assembly member 112, wherein the sixth groove segment 1142 includes a recessed portion 1143 recessed toward the fifth groove segment 1141; in the collapsed state, the pendulum 1821 is located at an end of the fifth slot segment 1141 away from the sixth slot segment 1142. Referring to fig. 12, the pendulum 1821 is located in the recess 1143 in the unfolded state. When the swing link 1821 is located at an end of the fifth slot segment 1141 far away from the sixth slot segment 1142, the distance between the display member 111 and the assembly member 112 is relatively large, and when the swing link 1821 is located at a recessed portion 1143 of the sixth slot segment 1142 far away from the fifth slot segment 1141, the distance between the display member 111 and the assembly member 112 is relatively small, so that the distance between the display member 111 and the assembly member 112 can be adjusted by sliding the swing link 1821 in the track slot 114. In the embodiment of the present application, the track groove 114 is formed on the display member 111, the fifth groove section 1141 is disposed near the assembly member 112, and the sixth groove section 1142 is disposed far from the assembly member 112.

In combination with the design of the elastic element 1811 and the swinging rod 1821, in the folded state, in order to keep a larger distance between the display element 111 and the assembly element 112, the structural strength of the elastic element 1811 can be used for realizing the purpose; in the unfolded state, in order to keep a small distance between the display member 111 and the assembly member 112, the pendulum 1821 may be engaged in the recess 1143. Referring to fig. 13 and 14, when the swinging rod 1821 is located in the recess 1143, the first display surface 1111 is flush with the second display surface 121, and at this time, the second sliding portion 152 abuts against a sidewall of the fourth slot segment 1232 away from the third slot segment 1231, and the first sliding portion 142 does not abut against a sidewall of the second slot segment 1222 away from the first slot segment 1221, but is spaced apart by a small distance.

Optionally, referring to fig. 11 and 12 again, the fifth trough section 1141 includes a first sliding section 1144 and a second sliding section 1145, one end of the first sliding section 1144 and one end of the second sliding section 1145 are both disposed close to and connected to the other of the display 111 and the assembly member 112, the other end of the first sliding section 1144 and the other end of the second sliding section 1145 extend in a direction away from the other of the display 111 and the assembly member 112 and are disposed at an interval, and the sixth trough section 1142 is connected between the other end of the first sliding section 1144 and the other end of the second sliding section 1145. The track groove 114 is designed to be circular, and the pendulum 1821 is reset for the next use.

The step of switching the electronic device 1 from the folded state to the unfolded state includes:

s12, the second screen assembly 12 is pulled out from the accommodating cavity 113, referring to fig. 15, and the state diagram of the third connecting assembly 18 is shown in fig. 11.

S14, pressing the display 111 and the assembly member 112 to make the swinging rod 1821 slide in the first sliding segment 1144 and toward the recess 1143, at which time the distance between the display 111 and the assembly member 112 decreases, when the swinging rod 1821 moves to an end of the first sliding segment 1144 close to the sixth slot segment 1142, the first display surface 1111 of the display 111 is lower than the second display surface 121 of the second screen member 12, the first sliding portion 142 abuts a side wall of the second slot segment 1222 far from the first slot segment 1221, the second sliding portion 152 abuts a side wall of the fourth slot segment 1232 far from the third slot segment 1231, as shown in fig. 16 and 17, when the state diagram of the third connecting assembly 18 is as shown in fig. 18.

S16, releasing the display 111 and the assembly member 112, the swing link 1821 will continue to slide into the recess 1143 from the first sliding section 1144, so that the distance between the display 111 and the assembly member 112 is slightly increased, the first display surface 1111 is flush with the second display surface 121, and the electronic device 1 is switched from the folded state to the unfolded state. In the expanded state, the third connecting assembly 18 is shown in the state diagram of fig. 12, with the resilient element 1811 in a compressed state.

The step of switching the electronic device 1 from the unfolded state to the folded state includes:

s22, pressing the display member 111 and the assembly member 112 to slide the swinging rod 1821 in the sixth slot section 1142 toward the second sliding section 1145, wherein a state diagram of the electronic device 1 is as shown in fig. 16 and 17, and a state diagram of the third connecting assembly 18 is as shown in fig. 19.

S24, releasing the display 111 and the assembly 112, so that under the action of the elastic restoring force of the elastic element 1811, the swinging rod 1821 continues to slide in the second sliding section 1145 and in a direction away from the sixth trough section 1142 until the swinging rod 1821 moves to an end of the fifth trough section 1141 away from the sixth trough section 1142, at which time, there is sufficient space between the display 111 and the assembly 112, and the second screen assembly 12 is retracted between the display 111 and the assembly 112, thereby completing the switching of the electronic device 1 from the unfolded state to the folded state. In the closed state, the third connecting element 18 is shown in fig. 11, and the resilient element 1811 is in the restored state.

It should be noted that, in order to ensure that the sliding direction of the pendulum 1821 in the track groove 114 slides in sequence along the direction of the first sliding section 1144, the sixth groove section 1142, and the second sliding section 1145, but does not slide in the opposite direction, a stop 117 may be disposed in the track groove 114. Specifically, the stopping portion 117 may be disposed at a boundary between the sixth slot section 1142 and the second sliding section 1145, or at a boundary between the first sliding section 1144 and the second sliding section 1145. The stopper 117 may have a stepped structure. For example, the stop 117 at the intersection of the sixth slot section 1142 and the second slip section 1145 can make the slot depth at the sixth slot section 1142 smaller than the slot depth of the second slip section 1145. The stopping portion 117 at the intersection of the first slip section 1144 and the second slip section 1145 can make the groove depth of the first slip section 1144 smaller than the groove depth of the second slip section 1145.

Alternatively, one of the display member 111 and the assembly member 112 provided with the track groove 114 is provided with a mounting portion 115, the track groove 114 is provided on the mounting portion 115, the mounting portion 115 extends in a direction close to the other of the display member 111 and the assembly member 112 to highlight the one of the display member 111 and the assembly member 112, and the other of the display member 111 and the assembly member 112 is provided with a receiving groove 116 corresponding to the mounting portion 115. The track groove 114 is disposed on the mounting portion 115, which can reduce the grooving difficulty compared with the mounting portion disposed on the display 111 or the assembly 112 with a larger size, so that after the track groove 114 is disposed on the mounting portion 115 with a smaller size, the mounting portion 115 is assembled with the display 111 or the assembly 112. Meanwhile, the receiving groove 116 engaged with the mounting portion 115 is provided on the other of the display member 111 and the assembly member 112, so that the structural design of the electronic apparatus 1 can be more compact. In the embodiment of the present application, the display member 111 is provided with an installation portion 115, and the assembly member 112 is provided with an accommodation groove 116 engaged with the installation portion 115.

In yet another exemplary embodiment, referring to fig. 20, the second connecting member 182 may include a first magnetic member 1822 and a second magnetic member 1823, the first magnetic member 1822 is connected to the display member 111, the second magnetic member 1823 is connected to the assembly member 112, at least one of the second magnetic member 1823 and the first magnetic member 1822 is an electromagnet, the electromagnet is powered on and the first magnetic member 1822 and the second magnetic member 1823 attract each other in the unfolded state, and the electromagnet is powered off and the first magnetic member 1822 and the second magnetic member 1823 separate from each other in the folded state. The electromagnet has magnetism when being electrified, and the design without magnetism when being powered off realizes the distance adjustment between the display piece 111 and the assembly piece 112, so that the structure is simpler, and the assembly is more convenient.

Optionally, referring to fig. 9 again, the electronic device 1 may further include a shielding plate 19, and the shielding plate 19 is connected to the display component 111 and/or the assembly component 112 for shielding the third connection component 18. Optionally, the shielding plate 19 may include a first shielding plate 191 and a second shielding plate 192, the first shielding plate 191 is connected to the display 111 and used for shielding the first connector 181, and the second shielding plate 192 is connected to the assembly 112 and used for shielding the second connector 182.

In the embodiment of the present application, referring to fig. 6 again, the display part 111 of the first panel assembly 11 may include a first mounting plate 1113 and a first display plate 1112 for displaying information such as pictures, and the first display plate 1112 may be mounted on a side of the first mounting plate 1113 away from the assembly member 112. The first mounting plate 113 may be provided with a first stepped groove, and the first display plate 1112 may be provided in the first stepped groove of the first mounting plate 1113. The second panel assembly 12 may include a second mounting plate 127 and a second display plate 126 for displaying information such as a screen, the second mounting plate 127 may have a second stepped groove, and the second display plate 126 may be disposed in the second stepped groove of the second mounting plate 127. Optionally, the second screen assembly 12 further comprises a main body 13 of the electronic device 1, the main body 13 comprising a battery, a main board, a middle frame, etc.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.

Claims (15)

1. An electronic device, wherein the electronic device has a collapsed state and an expanded state, the electronic device comprising:

the first screen assembly comprises a display part and an assembly part arranged opposite to the display part, the distance between the display part and the assembly part in the furled state is larger than the distance between the display part and the assembly part in the unfolded state, and an accommodating cavity is formed between the display part and the assembly part in the furled state;

the second screen assembly is slidably connected with the first screen assembly, the second screen assembly is located in the accommodating cavity of the first screen assembly in the folded state, and the second screen assembly is located outside the first screen assembly and arranged side by side with the first screen assembly in the unfolded state.

2. The electronic device according to claim 1, wherein the display member has a first display surface facing away from the assembly member, and in the unfolded state, a distance between the first display surface and a plate surface of the assembly member facing away from the first display surface is equal to a thickness of the second screen member in a direction perpendicular to the first display surface.

3. The electronic device of claim 1, wherein the display has a first display surface facing away from the assembly, wherein the second screen component has a second display surface proximate to the display, and wherein the first display surface is flush with the second display surface in the expanded state.

4. The electronic device of claim 1, further comprising:

one of the display piece and the second screen component of the first screen component is connected with the first connecting component, the other one of the display piece and the second screen component of the first screen component is provided with a first sliding groove, the first connecting component is slidably arranged on the first sliding groove, the first sliding groove comprises a first groove section and a second groove section, the first groove section extends in a direction parallel to the direction in which the display piece deviates from the first display surface of the assembly piece, one end of the second groove section is connected with the first groove section, the other end of the second groove section extends in a direction close to the assembly piece, the first connecting component is positioned at one end, away from the second groove section, of the first groove section in the folded state, and the first connecting component is positioned at one end, away from the first groove section, of the second groove section in the unfolded state; and/or

The assembly part of the first screen component and one of the second screen components are connected with the second connecting component, the other one of the first screen components and the second screen components is provided with a second sliding groove, the second connecting component is slidably arranged on the second sliding groove, the second sliding groove comprises a third groove section and a fourth groove section, the third groove section extends in a direction parallel to the direction in which the display part deviates from the first display surface of the assembly part, one end of the fourth groove section is connected with the third groove section, the other end of the fourth groove section extends in a direction close to the display part, the second connecting component is located at one end, away from the fourth groove section, of the third groove section in the folded state, and the second connecting component is located at one end, away from the third groove section, of the fourth groove section in the unfolded state.

5. The electronic device of claim 4, wherein the second panel assembly has a second display surface adjacent to the display member, and a peripheral side surface surrounding the second display surface, the peripheral side surface including a first side wall surface and a second side wall surface opposite to each other,

the first side wall surface and/or the second side wall surface are/is provided with the first sliding grooves, the electronic equipment comprises the first connecting assemblies, the number of the first connecting assemblies is equal to that of the first sliding grooves, and the first connecting assemblies are slidably arranged in the first sliding grooves in a one-to-one correspondence manner; and/or

The first side wall surface and/or be equipped with on the second side wall surface the second spout, electronic equipment include with second spout quantity equals second coupling assembling, the slidable of second coupling assembling one-to-one locates the second spout.

6. The electronic device of claim 4, wherein the third slot segment is parallel to an extension direction of the first slot segment; and/or

Along the direction perpendicular to first display surface, the second groove section is located between first groove section and the third groove section and the fourth groove section is located between first groove section and the third groove section, the second groove section with the fourth groove section interval sets up.

7. The electronic device of claim 4, wherein a first protrusion is disposed on an inner wall surface of the first slot segment, the first protrusion is disposed at an end of the first slot segment away from the second slot segment, and the first connecting component is located at a side of the first protrusion away from the second slot segment in the folded state; and/or

A second clamping protrusion is arranged on the inner wall surface of the third groove section and is arranged at one end, far away from the fourth groove section, of the third groove section, and the second connecting assembly is located on one side, far away from the fourth groove section, of the second clamping protrusion in the furled state; and/or

The electronic equipment further comprises a first enclosing plate, the first enclosing plate is connected with the display part and extends towards one side close to the assembly part, the first enclosing plate is arranged on one side, away from the first groove section, of the second groove section, and the surface, close to the second groove section, of the first enclosing plate abuts against the second screen assembly in the folded state; and/or

The electronic equipment further comprises a second enclosing plate, the second enclosing plate is connected with the assembly part and extends towards one side close to the display part, the second enclosing plate is arranged on one side, away from the third groove section, of the fourth groove section, and the surface, close to the fourth groove section, of the second enclosing plate abuts against the second screen assembly in the furled state.

8. The electronic device according to claim 4, wherein the second screen assembly further includes a third sliding slot, the third sliding slot is located on a side of the first slot section away from the second slot section and a side of the third slot section away from the fourth slot section, the third sliding slot is communicated with both the first sliding slot and the second sliding slot, and the third sliding slot further penetrates through the second screen assembly.

9. The electronic device according to claim 4, wherein the first connecting assembly comprises a first connecting portion and a first sliding portion, the first connecting portion is connected to the display, and the first sliding portion is connected to the first connecting portion and slidably disposed in the first sliding groove; the second connecting assembly comprises a second connecting part and a second sliding part, the second connecting part is connected with the assembly part, and the second sliding part is connected with the second connecting part and is arranged in the second sliding groove in a sliding manner;

one of the first sliding part and the second sliding part is in a prism structure, and the other one is in a cylindrical structure.

10. The electronic device of any of claims 1-9, further comprising:

and the third connecting assembly is connected between the display part and the assembly part of the first screen assembly and is used for adjusting the distance between the display part and the assembly part, so that the distance between the display part and the assembly part in the folded state can be larger than the distance between the display part and the assembly part in the unfolded state.

11. The electronic device of claim 10, wherein the third connection assembly comprises:

a first connecting member connected between the display member and the assembly member;

and the first connecting piece and the second connecting piece are matched for adjusting the distance between the display piece and the assembly piece.

12. The electronic device according to claim 11, wherein the first connector comprises:

the elastic piece is connected between the display piece and the assembly piece and has a recovery state and a compression state, the elastic piece is in the recovery state in the furled state, and the elastic piece is in the compression state in the unfolded state.

13. The electronic device of claim 12, wherein the second connector comprises:

a swing link, one of the display member and the assembly member being provided with a track groove, the track groove including a fifth groove section close to the other of the display member and the assembly member and a sixth groove section remote from the other of the display member and the assembly member, the sixth groove section including a recess portion recessed in a direction close to the fifth groove section; one end of the swing rod is slidably connected to the track groove, the other end of the swing rod is rotatably connected to the other of the display part and the assembly part, the swing rod is located at one end, away from the sixth groove section, of the fifth groove section in the folded state, and the swing rod is located in the concave part in the unfolded state.

14. The electronic device of claim 13, wherein the fifth slot segment comprises a first sliding segment and a second sliding segment, one end of the first sliding segment and one end of the second sliding segment are both disposed near the other of the display member and the assembly member and connected to each other, the other end of the first sliding segment and the other end of the second sliding segment extend in a direction away from the other of the display member and the assembly member and are disposed at an interval from each other, and the sixth slot segment is connected between the other end of the first sliding segment and the other end of the second sliding segment; and/or

One of the display piece and the assembly piece, which is provided with the track groove, is provided with an installation part, the track groove is arranged on the installation part, the installation part extends towards the direction close to the other of the display piece and the assembly piece so as to protrude one of the display piece and the assembly piece, and the other of the display piece and the assembly piece is provided with a containing groove corresponding to the installation part.

15. The electronic device of claim 12, wherein the second connector comprises:

the first magnetic piece is connected with the display piece;

the second magnetic part is connected with the assembly part, at least one of the second magnetic part and the first magnetic part is an electromagnet, the electromagnet is electrified and the first magnetic part and the second magnetic part are attracted in the unfolded state, and the electromagnet is powered off and the first magnetic part and the second magnetic part are separated in the folded state.

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