CN212278272U - Remote controller - Google Patents

Abstract

The utility model provides a remote controller, which comprises a remote controller body, a fixing structure and a connecting structure; the holding structure is used for clamping the mobile terminal; one end of the connecting mechanism is fixed on the holding structure, and the other end of the connecting mechanism is connected with the remote controller body in a sliding way; the connecting mechanism is used for adjusting the distance between the holding structure and the remote controller body so as to enable the mobile terminals with different sizes to be clamped between the holding structure and the remote controller body; wherein, the holding structure is provided with at least one holding part, and the remote controller body is provided with at least one limiting part; when the mobile terminal is clamped, the fixing part and the limiting part are used for being in contact with the mobile terminal, and at least one of the fixing structure and the remote controller body is not in contact with an operation key of the mobile terminal. The remote controller can avoid or reduce the risk of mistakenly triggering the operation keys of the mobile terminal, and improve the use experience of a user.

Description

Remote controller

Technical Field

The application relates to the technical field of remote control equipment, in particular to a remote controller.

Background

A drone is an aircraft that can be remotely controlled by a remote control. During control of the aircraft using the remote control, the aircraft may fly out of the user's field of view. In order to enable a user to know the flight state of the aircraft flying away from the visual field, a clamping part for holding the mobile phone is usually arranged on the remote controller, the remote controller is connected with electronic products such as the mobile phone, and the flight state of the aircraft is displayed through a screen of the mobile phone. However, the clamping part of the existing remote controller has the risk of mistakenly triggering the keys of the mobile phone, which affects the use experience of the user.

SUMMERY OF THE UTILITY MODEL

Based on this, the application provides a remote controller, aims at avoiding or reducing the risk of mistakenly triggering the operation key of the mobile terminal, and improves the use experience of the user.

The application provides a remote controller, including: a remote controller body; the holding structure is used for holding the mobile terminal; one end of the connecting mechanism is fixed on the holding structure, and the other end of the connecting mechanism is connected with the remote controller body in a sliding way; the connecting mechanism is used for adjusting the distance between the holding structure and the remote controller body so as to enable mobile terminals with different sizes to be clamped between the holding structure and the remote controller body; the holding structure is provided with at least one holding part, and the remote controller body is provided with at least one limiting part; when the mobile terminal is clamped, the fixing part and the limiting part are used for being in contact with the mobile terminal, and at least one of the fixing structure and the remote controller body is not in contact with an operation key of the mobile terminal.

The embodiment of the application provides a remote controller, when the mobile terminal is clamped, the risk that the holding structure and/or the remote controller body contact the operation key of the mobile terminal in the process of clamping the mobile terminal and possibly trigger the operation key can be avoided or reduced, and therefore the use experience of a user is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic view of an angle structure of a remote controller according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a remote controller at another angle according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a remote controller according to another angle provided in an embodiment of the present application;

fig. 4 is a schematic structural diagram of a remote controller according to an embodiment of the present application, in which a holding structure holds a first side portion of a mobile terminal;

fig. 5 is a schematic structural diagram of a remote controller according to an embodiment of the present application, in which a holding structure holds a second side portion of a mobile terminal;

FIG. 6a is a partial schematic view of the remote control of FIG. 3;

FIG. 6b is an enlarged partial schematic view of the remote control of FIG. 3 at C;

fig. 7 is a schematic partial structural diagram of a remote controller according to an embodiment of the present application;

fig. 8 is a schematic partial structural diagram of a remote controller according to an embodiment of the present application;

FIG. 9 is an enlarged partial schematic view of the remote control of FIG. 1 at A;

FIG. 10 is a cross-sectional view of a remote control provided in accordance with an embodiment of the present application;

FIG. 11 is a schematic structural diagram of a remote control provided in an embodiment of the present application, wherein the remote control is in a retracted state;

FIG. 12 is a schematic structural diagram of a remote control provided in an embodiment of the present application, wherein the remote control is in a retracted state;

FIG. 13 is a cross-sectional view of a remote control provided in accordance with an embodiment of the present application, wherein the remote control is in a retracted state;

FIG. 14 is a cross-sectional view of a remote control provided in accordance with an embodiment of the present application, wherein the remote control is in a retracted state;

FIG. 15 is a partial cross-sectional view of a remote control provided in accordance with an embodiment of the present application, wherein the remote control is in a collapsed state;

FIG. 16 is an enlarged partial schematic view of the remote control of FIG. 10 at B;

FIG. 17 is a partially exploded view of a remote control provided in accordance with an embodiment of the present application;

FIG. 18 is a sectional view of a portion of the structure of a remote control provided in accordance with an embodiment of the present application;

fig. 19 is a schematic structural diagram of a remote control system and a mobile terminal according to an embodiment of the present application.

Description of reference numerals:

1000. a remote controller;

100. a remote controller body; 110. a limiting part; 111. a groove sub-portion; 112. a first slope sub-portion; 113. a second slope sub-portion; 114. a gentle slope surface; 120. a second notch; 130. a housing; 131. an accommodating space; 132. a first side; 133. a first side surface; 134. a second side surface; 135. a first housing; 136. a second housing; 137. an opening; 140. a rail member; 141. a first chute; 142. a second chute;

200. a holding structure; 210. a holding part; 211. a first holder sub-portion; 2111. a first wedge-shaped face; 212. a second holder portion; 2121. a second wedge-shaped face; 220. a holding body; 230. a first notch;

300. a connecting mechanism; 310. a movable member; 311. a first surface; 312. a second surface; 313. an accommodating portion; 320. a telescoping member; 321. a first telescopic rod; 322. a second telescopic rod; 323. a sliding part;

400. an operating control member; 500. an elastic member; 600. a guide groove;

2000. a mobile terminal; 201. an operation key; 202. a terminal body; 203. a screen; 204. a first side portion; 2041. a first edge sub-portion; 205. a second side portion; 2051. a third edge sub-portion;

3000. a movable platform.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

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

The inventors of the present application have found that a drone is an aircraft that can be remotely controlled by a remote control. During control of the aircraft using the remote control, the aircraft may fly out of the user's field of view. In order to enable a user to know the flight state of the aircraft flying away from the visual field, the flight state of the aircraft is usually displayed on a screen of a mobile phone through communication connection between an electronic product such as the mobile phone and a remote controller.

Generally, a clamping part for holding the mobile phone is arranged on the remote controller, the remote controller is connected with electronic products such as the mobile phone, and the flying state of the aircraft is displayed through a screen of the mobile phone.

Since the remote controller and the mobile phone usually need to be kept on-line for a long time, in order to liberate the hands of the user as much as possible and improve the user experience, a clamping part for holding the mobile phone is usually arranged on the remote controller. When the flying state of the aircraft needs to be displayed by using the mobile phone, the mobile phone is clamped by the clamping part of the remote controller.

The handset has a front face, two opposing long sidewalls and two opposing short sidewalls. Both the long side walls and both the short side walls are connected to the front face. The screen of the mobile phone is arranged on the front side. Two long side walls are connected to each short side wall. The existing remote controller has the advantages that when the clamping part clamps two short side walls of the mobile phone, the clamping part can wrap one part of two opposite sides of the screen, so that a part of a display area of the screen can be shielded, and the use experience of a user is influenced. When the clamping part is used for clamping at least one long side wall of the mobile phone, the clamping part or the remote controller risks mistakenly triggering the keys of the mobile phone in the clamping process, and the use experience of a user is influenced.

Aiming at the discovery, the inventor of the application improves the remote controller so as to avoid or reduce the risk of mistakenly triggering the operation key of the mobile terminal and improve the use experience of a user. Specifically, the present application provides a remote controller including: a remote controller body; the holding structure is used for holding the mobile terminal; one end of the connecting mechanism is fixed on the holding structure, and the other end of the connecting mechanism is connected with the remote controller body in a sliding way; the connecting mechanism is used for adjusting the distance between the holding structure and the remote controller body so as to enable mobile terminals with different sizes to be clamped between the holding structure and the remote controller body; the holding structure is provided with at least one holding part, and the remote controller body is provided with at least one limiting part; when the mobile terminal is clamped, the fixing part and the limiting part are used for being in contact with the mobile terminal, and at least one of the fixing structure and the remote controller body is not in contact with an operation key of the mobile terminal.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1 to fig. 3, an embodiment of the present application provides a remote controller 1000, where the remote controller 1000 may be in communication connection with a remote controlled terminal, so that the remote controller 1000 can control the remote controlled terminal to work. The remote controller 1000 can receive data transmitted from a remote controlled terminal to the remote controller 1000 through a communication connection. The remote controller 1000 may also transmit data received from a remote controlled terminal to the mobile terminal 2000 for previewing and sharing to the internet or to friends.

It is to be appreciated that the remotely controlled end can include at least one of an aircraft, a movable vehicle, a movable vessel, a handheld pan/tilt, a mobile robot, a game console, and the like. Mobile terminal 2000 may include a cell phone, tablet, or other device having a display screen, etc.

Referring to fig. 1 to 3, in some embodiments, the remote controller 1000 includes a remote controller body 100, a holding structure 200 and a connecting mechanism 300. The holding structure 200 is used for holding the mobile terminal 2000, as shown in fig. 4 and 5. One end of the connecting mechanism 300 is fixed to the holding structure 200, and the other end of the connecting mechanism 300 is slidably connected to the remote controller body 100. The connecting mechanism 300 is used to adjust the distance between the holding structure 200 and the remote controller body 100, so that mobile terminals 2000 with different sizes can be held between the holding structure 200 and the remote controller body 100.

It can be understood that when the mobile terminal 2000 with different models or different sizes needs to be held, the mobile terminal 2000 can be stably held on the remote controller 1000 only by adjusting the distance between the holding structure 200 and the remote controller body 100, without replacing the holding structure 200 or the remote controller 1000, and the applicability of the remote controller 1000 is improved on the premise of ensuring the holding stability of the mobile terminal 2000.

The holding structure 200 has at least one holding portion 210, and the remote controller body 100 has at least one position-limiting portion 110. When the mobile terminal 2000 is held, the holding portion 210 and the limiting portion 110 are used for contacting with the mobile terminal 2000, and at least one of the holding structure 200 and the remote controller body 100 is not in contact with the operation key 201 of the mobile terminal 2000.

In the remote controller 1000 of the above embodiment, when the mobile terminal 2000 is held on the remote controller 1000, there is no contact between at least one of the holding structure 200 and the remote controller body 100 and the operation keys 201 of the mobile terminal 2000. That is, the operation key 201 of the mobile terminal 2000 is not in contact with the holding structure 200; and/or, the operation keys 201 of the mobile terminal 2000 are not in contact with the remote controller body 100. Therefore, when the remote controller 1000 holds the mobile terminal 2000, the risk that the holding structure 200 and/or the remote controller body 100 may contact the operation key 201 of the mobile terminal 2000 to trigger the operation key 201 during the process of holding the mobile terminal 2000 can be avoided or reduced, thereby improving the user experience.

Referring to fig. 4 and 5, it can be understood that the mobile terminal 2000 includes a terminal body 202 and a screen 203. Terminal body 202 has a front face, a back face, two long sidewalls and two short sidewalls. The front surface and the back surface are oppositely arranged. The two long side walls are oppositely arranged. The two short side walls are oppositely arranged. Both the long side walls and both the short side walls are connected to the front face. Both the long side walls and both the short side walls are connected to the back. The screen 203 is provided on the front surface of the terminal body 202. Mobile terminal 2000 may receive data from remote control 1000 and display it through screen 203 for user preview.

The operation keys 201 of the mobile terminal 2000 are provided on the terminal body 202. The number of the operation keys 201 of the mobile terminal 2000 may be designed according to actual requirements, such as one, two, three or more. Illustratively, the mobile terminal 2000 is provided with an operation key 201 on a long sidewall and/or a short sidewall. Specifically, at least one long sidewall of the mobile terminal 2000 is provided with at least one operation key 201.

Referring to fig. 4 and 5, in some embodiments, when the mobile terminal 2000 is held, the holding portion 210 and the limiting portion 110 do not shield the screen 203 of the mobile terminal 2000. Therefore, when the remote controller 1000 holds the mobile terminal 2000, the holding part 210 and/or the limiting part 110 can be prevented from contacting the screen 203 of the mobile terminal 2000 and possibly blocking the display area of the screen 203 in the process of holding the mobile terminal 2000, so that the use experience of the user is improved.

Referring to fig. 4 and 5, in some embodiments, when the mobile terminal 2000 is held, the holding portion 210 and the limiting portion 110 do not block a functional area of the mobile terminal 2000. The functional area comprises at least one of a camera, a face recognition module, a sensor, a receiver, a loudspeaker, an electric connection interface and the like. Thus, when the mobile terminal 2000 is held on the remote controller 1000, the functional area of the mobile terminal 2000 is not shielded by the holding portion 210 and/or the limiting portion 110, so that the user can use the corresponding function of the functional area. That is, when the mobile terminal 2000 is held on the remote controller 1000, the holding part 210 and/or the limiting part 110 will not trigger the operation key 201 of the mobile terminal 2000 by mistake, and the holding part 210 and/or the limiting part 110 will not shield the functional area of the mobile terminal 2000, so that the remote controller 1000 will not affect the normal use of the mobile terminal 2000 when holding the mobile terminal 2000, thereby improving the user experience.

The shape of the holding portion 210 and the shape of the limiting portion 110 can be designed according to actual requirements. The number of the holding portions 210 and the number of the limiting portions 110 may be designed according to actual requirements, for example, one, two, three, four or more. In some embodiments, the shape and number of the holding portion 210 and the limiting portion 110 are the same. That is, the shape of the holding portion 210 is the same as that of the limiting portion 110, and the number of the holding portions 210 is the same as that of the limiting portions 110.

Referring to fig. 1 and 3, in some embodiments, the holding portion 210 is different from the limiting portion 110 in at least one of shape and number. For example, the shape of the holding portion 210 is the same as the shape of the limiting portion 110, and the number of the holding portions 210 is different from the number of the limiting portions 110. For another example, the shape of the holding portion 210 is different from the shape of the position-limiting portion 110, and the number of the holding portions 210 is the same as the number of the position-limiting portions 110. For another example, the shape of the holding portion 210 is different from the shape of the position-limiting portion 110, and the number of the holding portions 210 is different from the number of the position-limiting portions 110.

Illustratively, the shape of the holding portion 210 is different from the shape of the position-limiting portion 110, the number of the holding portions 210 is one, and the number of the position-limiting portions 110 is two.

Referring to fig. 1 to 3, in some embodiments, the holding structure 200 includes a holding main body 220, and the holding main body 220 is fixedly connected to the connecting mechanism 300. The holding portion 210 is disposed on the holding body 220.

Referring to fig. 6a to 8, in some embodiments, the holding portion 210 is protruded on the holding structure 200. Specifically, the holding portion 210 is protruded from a side of the holding main body 220 facing the remote control body 100. When the mobile terminal 2000 is held, the holding portion 210 is protruded, so that interference of other parts of the holding structure 200 with the operation key 201 or the function area of the mobile terminal 2000 operated by the user can be avoided as much as possible; or other parts of the holding structure 200 are prevented from shielding the operation keys 201 or the functional areas of the mobile terminal 2000, thereby improving the user experience.

Of course, in other embodiments, the holding portion 210 may be recessed on the holding structure 200. Specifically, the holding structure 200 is provided with a recessed groove, and at least a portion of the holding portion 210 is disposed in the recessed groove.

Referring to fig. 1 to 3, fig. 6b and fig. 9, in some embodiments, the limiting portion 110 is protruded on the remote controller body 100. When the mobile terminal 2000 is held, the limiting part 110 is convexly arranged on the remote controller body 100, so that interference of other parts of the remote controller body 100 with the operation keys 201 or function areas of the mobile terminal 2000 operated by a user can be avoided as much as possible; or other parts of the remote controller body 100 are prevented from shielding the operation keys 201 or the function areas of the mobile terminal 2000, so that the use experience of the user is improved.

Of course, in other embodiments, the limiting portion 110 may also be recessed on the remote controller body 100. Specifically, the holding structure 200 is provided with a recessed groove, and at least a portion of the holding portion 210 is disposed in the recessed groove.

Referring to fig. 4 and 5, in some embodiments, the holding portion 210 is used to contact the first side portion 204 of the mobile terminal 2000 to hold the mobile terminal 2000 between the remote controller body 100 and the holding structure 200.

Referring to fig. 4 and 5, in some embodiments, the position-limiting portion 110 is used to contact the second side portion 205 of the mobile terminal 2000, so that the position-limiting portion 110 cooperates with the holding structure 200 to hold the mobile terminal 2000. The first side 204 of the mobile terminal 2000 is disposed opposite the second side 205 of the mobile terminal 2000.

The first side 204 and the second side 205 may be any suitable location of the mobile terminal 2000. Referring to fig. 4 and 5, in some embodiments, the first side 204 is one of the long side walls of the mobile terminal 2000. The second side 205 is another long sidewall of the mobile terminal 2000. Specifically, when the mobile terminal 2000 is held, the holding portion 210 contacts one of the two long side walls of the mobile terminal 2000, and the limiting portion 110 contacts the other of the two long side walls of the mobile terminal 2000, so that the mobile terminal 2000 is held between the remote controller body 100 and the holding structure 200 under the cooperation of the holding portion 210 and the limiting portion 110.

In some embodiments, first side 204 is one of the short sidewalls of mobile terminal 2000. The second side portion 205 is another short sidewall of the mobile terminal 2000. Specifically, when the mobile terminal 2000 is held, the holding portion 210 contacts one of two short sidewalls of the mobile terminal 2000, and the limiting portion 110 contacts the other of the two short sidewalls of the mobile terminal 2000, so that the mobile terminal 2000 is held between the remote controller body 100 and the holding structure 200 under the cooperation effect of the holding portion 210 and the limiting portion 110.

Referring to fig. 6a, in some embodiments, the holding portion 210 includes a first holding sub-portion 211 and a second holding sub-portion 212. The first and second holding sub-portions 211 and 212 are spaced apart from each other on a side of the holding main body 220 facing the remote control body 100. The first and second holder sub-portions 211 and 212 abut against the first side portion 204 of the mobile terminal 2000 to hold the mobile terminal 2000 between the remote controller body 100 and the holding structure 200.

It is understood that the first and second holder portions 211 and 212 may contact any suitable position of the first side portion 204 of the mobile terminal 2000 as long as the holder portion 210 does not contact the operation key 201 of the mobile terminal 2000. Specifically, the first holder sub-portion 211 and the second holder sub-portion 212 contact different positions of the first side portion 204 of the mobile terminal 2000 to improve holding stability of the mobile terminal 2000.

Referring to fig. 1 to 3, in some embodiments, a projection of the first holder sub-portion 211 and the second holder sub-portion 212 on the predetermined plane has a spacing that is substantially the same as a thickness of the first side portion 204 of the mobile terminal 2000.

Specifically, the predetermined plane is parallel to the X direction and the Y direction in fig. 1 and fig. 2, a projection of a portion of the first holding sub-portion 211 for contacting the first side portion 204 and a projection of a portion of the second holding sub-portion 212 for contacting the first side portion 204 on the predetermined plane have a distance d, the thickness of the first side portion 204 of the mobile terminal 2000 is t, and the distance d is substantially the same as the thickness t. The thickness t of the first side portion 204 is the largest dimension of the first side portion 204 of the mobile terminal 2000 in the Y direction as shown in fig. 1 to 3. The dimension of the operation key 201 provided on the first side portion 204 in the Y direction is generally smaller than the thickness t of the first side portion 204. The distance d is substantially the same as the thickness t, so that the first holder sub-portion 211 and the second holder sub-portion 212 do not erroneously contact the operation key 201 disposed on the first side portion 204 of the mobile terminal 2000. In some embodiments, the distance d is substantially the same as the thickness t, and the distance d is not less than the thickness t, so as to ensure that a sufficient space for holding the first side portion 204 is formed between the first holding sub portion 211 and the second holding sub portion 212, so that the first side portion 204 can be firmly held between the first holding sub portion 211 and the second holding sub portion 212.

Referring to fig. 4, in some embodiments, when the holding structure 200 holds the mobile terminal 2000, the first holding sub-portion 211 and the second holding sub-portion 212 are respectively held at two sides of the first side portion 204. Specifically, the first side portion 204 has a first edge sub-portion 2041 and a second edge sub-portion which are oppositely disposed. When the mobile terminal 2000 needs to be held, the first holding sub-portion 211 contacts the second edge sub-portion of the first side portion 204, the second holding sub-portion 212 contacts the first edge sub-portion 2041 of the first side portion 204, so as to hold the first side portion 204 of the mobile terminal 2000 and prevent the holding portion 210 from shielding the screen 203 of the mobile terminal 2000, and the first holding sub-portion 211 and/or the second holding sub-portion 212 are/is not in contact with the operation key 201 on the first side portion 204, so as to prevent the operation key 201 on the first side portion 204 from being touched by mistake.

It is understood that the first edge sub-portion 2041 is a connection point of the screen 203 and the first side portion 204 of the mobile terminal 2000. The second edge sub-portion is a junction of the back surface of the mobile terminal 2000 and the first side portion 204.

Each of the first holder portion 211 and the second holder portion 212 may be designed in any suitable number according to actual requirements, such as one, two, three or more. In some embodiments, the number of the second holding subsections 212 is at least two, and the first holding subsection 211 is disposed between at least two of the second holding subsections 212, so that the holding reliability and holding stability of the holding structure 200 for holding the mobile terminal 2000 can be effectively ensured.

Specifically, the projection of the first holder sub-portion 211 on the preset projection plane is located between the projections of the at least two second holder sub-portions 212 on the preset projection plane. The predetermined projection plane is parallel to the X-direction and the Z-direction as shown in fig. 1 and 2. More specifically, the projections of the two second holder sub-portions 212 on the preset projection plane are symmetrical with respect to the projection of the first holder sub-portion 211 on the preset projection plane.

Referring to fig. 1 and 2, specifically, at least two second holding sub-portions 212 are disposed at intervals along the first direction, and a projection of the first holding sub-portion 211 and the second holding sub-portion 212 on a preset plane has a distance, so as to prevent the first holding sub-portion 211 and/or the second holding sub-portion 212 from shielding the operation key 201 or the function area on the first side portion 204, or from mistakenly touching the operation key 201 on the first side portion 204, thereby improving the user experience. Illustratively, the first direction is shown as the Z direction in fig. 1 and 2.

For example, the number of the second holder sub-portions 212 is two, and the number of the first holder sub-portions 211 is one, so that not only the holding stability of the mobile terminal 2000 can be ensured, but also the operation keys 201 of the mobile terminal 2000 are not contacted, and the second holder sub-portions 212 and/or the first holder sub-portions 211 are not required to be arranged too much, thereby saving materials and reducing production cost.

Referring to fig. 1 and 2, in some embodiments, the holding portion 210 and the holding body 220 cooperate to form the first notch 230, so as to save material and reduce production cost. In some embodiments, the first notch 230 can also clear at least a portion of the operating key 201 on the first side 204. Specifically, the two second holder sub-portions 212 and the holding body 220 cooperate to form the first notch 230.

In some embodiments, the largest dimension of the retention body 220 in the Z-direction as in fig. 1 and 2 is smaller than the dimension of the first side 204 along the Z-direction. The operation keys 201 on the first side portion 204 are located outside the holding structure 200, so that the holding portion 210 can be in no contact with the operation keys 201 on the first side portion 204 when holding the mobile terminal 2000.

In some embodiments, the first holder portion 211 presses the mobile terminal 2000 toward the remote controller body 100, and the second holder portion 212 prevents the first side portion 204 from being removed from the holding structure 200. Specifically, the first holder portion 211 abuts against the first side portion 204 of the mobile terminal 2000 and presses the mobile terminal 2000 toward the remote controller body 100. The second holder part 212 contacts the first side part 204 of the mobile terminal 2000 to prevent the first side part 204 of the mobile terminal 2000 from being separated from the holding structure 200, thereby ensuring the holding reliability of the holding structure 200 holding the mobile terminal 2000.

Referring to fig. 6 a-8, in some embodiments, the first retainer sub-portion 211 has a first wedge surface 2111 and the second retainer sub-portion 212 has a second wedge surface 2121. The first wedge-shaped surface 2111 and the second wedge-shaped surface 2121 cooperate to clamp the first side portion 204 of the mobile terminal 2000, thereby preventing the first side portion 204 of the mobile terminal 2000 from being released from the holding structure 200 and improving the holding stability of the mobile terminal 2000.

In some embodiments, the first holder sub-portion 211 contacts the first side portion 204 through the first wedge surface 2111 to press the mobile terminal 2000 toward the remote controller body 100. The second holder sub-portion 212 contacts the first side portion 204 through the second wedge surface 2121 to prevent the first side portion 204 of the mobile terminal 2000 from being released from the holding structure 200. Therefore, under the cooperation of the first holder sub-portion 211, the second holder sub-portion 212 and the limiting portion 110, the mobile terminal 2000 can be firmly held on the remote controller 1000, and the holding stability of the mobile terminal 2000 is improved.

Referring to fig. 3 and fig. 6a, in some embodiments, projections of the first wedge-shaped surface 2111 and the second wedge-shaped surface 2121 on the predetermined plane are V-shaped, that is, a projection of the first wedge-shaped surface 2111 on the predetermined plane and a projection of the second wedge-shaped surface 2121 on the predetermined plane cooperate to form a V-shape. Specifically, the first wedge-shaped surface 2111 and the second wedge-shaped surface 2121 cooperate to form an area for holding the mobile terminal 2000, and the contour of the projection of the area on the predetermined plane is V-shaped, so that even if there is an error in the contact position between the holding portion 210 and the first side portion 204 of the mobile terminal 2000 or the mobile terminal 2000 with different sizes is held, the holding portion 210 can well hold the first side portion 204 of the mobile terminal 2000, and the first side portion 204 of the mobile terminal 2000 is prevented from shaking in the area, so that the first side portion 204 of the mobile terminal 2000 can be reliably held on the holding portion 210.

Referring to fig. 4-6 a, in some embodiments, first wedge surface 2111 and second wedge surface 2121 have different slopes. The first wedge surface 2111 is configured to contact a middle position of the first side portion 204 of the mobile terminal 2000, and specifically, the first wedge surface 2111 contacts a portion between the first edge sub-portion 2041 and the second edge sub-portion of the first side portion 204 and the second edge sub-portion. Specifically, the middle position refers to the middle of the first side portion 204 in the Z direction in fig. 1 to 3. Illustratively, the middle position refers to a middle position of the first side portion 204 in the Z direction in fig. 1 to 3. Since the mobile terminal 2000 is not normally provided with the operation key 201 at the middle position, the first wedge-shaped surface 2111 does not erroneously contact the operation key 201 of the mobile terminal 2000 when the mobile terminal 2000 is held. Second wedge-face 2121 contacts the junction of screen 203 and first side 204 and does not contact other locations on first side 204. Second wedge-shaped surface 2121 thus completely avoids operation key 201 of mobile terminal 2000, and second wedge-shaped surface 2121 does not erroneously touch operation key 201 of mobile terminal 2000 when mobile terminal 2000 is held.

It is understood that in other embodiments, the shape of the first wedge-shaped surface 2111 and the second wedge-shaped surface 2121 can be designed into any other suitable shape according to actual requirements, as long as the two cooperate to hold the first side portion 204 of the mobile terminal 2000. For example, the first wedge-shaped surface 2111 is a curved surface, and the second wedge-shaped surface 2121 is a curved surface.

Referring to fig. 4 and 5, it can be understood that the first side portion 204 and/or the second side portion 205 of the mobile terminal 2000 are provided with the operation keys 201. Referring to fig. 6a, fig. 6b and fig. 9, in combination with fig. 1 and fig. 3, in some embodiments, a groove sub-portion 111 is disposed on the limiting portion 110 and is used for avoiding the operation key 201 disposed on the second side portion 205 of the mobile terminal 2000, so that the operation key 201 is not in contact with the limiting portion 110. Specifically, when the mobile terminal 2000 is held on the remote controller 1000, the limiting portion 110 does not erroneously touch the operation key 201 disposed on the second side portion 205 of the mobile terminal 2000, thereby improving the user experience.

Referring to fig. 4, in some embodiments, the groove sub-portion 111 may contact with the second side portion 205 of the mobile terminal 2000 to provide a supporting force to the mobile terminal 2000 towards the holding main body 220. Since the holding portion 210 can press the mobile terminal 2000 toward the remote controller body 100, the mobile terminal 2000 can be reliably held on the remote controller 1000 under the cooperation of the holding portion 210 and the limiting portion 110. Specifically, the groove sub-portion 111 may contact the second side portion 205 through the groove bottom wall of the groove sub-portion 111.

It is understood that the groove sub-portion 111 can be designed into any shape according to actual requirements, such as the bottom wall of the groove sub-portion 111 is flat or substantially flat.

Referring to fig. 6b and 9 in conjunction with fig. 1 and 3, in some embodiments, the limiting portion 110 further includes a first inclined sub-portion 112 and a second inclined sub-portion 113. The first and second slope sub-portions 112 and 113 are respectively disposed at opposite sides of the groove sub-portion 111. The first and second sloped sub-portions 112 and 113 and the groove sub-portion 111 cooperate to hold the second side 205 of the mobile terminal 2000. The first inclined surface sub-portion 112 and the second inclined surface sub-portion 113 are respectively contacted with different portions of the second side portion 205, so as to prevent the second side portion 205 of the mobile terminal 2000 from coming off the limiting portion 110, and improve the holding stability of the mobile terminal 2000.

In some embodiments, when the mobile terminal 2000 is held, the groove sub-portion 111 is not in contact with the second side portion 205 of the mobile terminal 2000, and the operation key 201 on the second side portion 205 is at least partially received in the groove sub-portion 111, so that the operation key 201 of the mobile terminal 2000 is not touched by mistake by the positioning portion 110 when the mobile terminal 2000 is held.

In some embodiments, the second side portion 205 has oppositely disposed third and fourth edge sub-portions 2051, respectively. When the mobile terminal 2000 needs to be held, the first inclined sub-portion 112 contacts the third edge sub-portion 2051 of the second side portion 205, and the second inclined sub-portion 113 contacts the fourth edge sub-portion of the second side portion 205, so that the second side portion 205 can be prevented from coming off the limiting portion 110, and the limiting portion 110 can be prevented from shielding the screen 203 of the mobile terminal 2000.

It is understood that the third edge sub-portion 2051 is a junction of the screen 203 and the second side portion 205 of the mobile terminal 2000. The third edge sub-portion 2051 of the mobile terminal 2000 is disposed opposite to the first edge sub-portion 2041. The fourth edge sub-portion is a junction of the rear surface of the mobile terminal 2000 and the second side portion 205.

Referring to fig. 6b and 9 in conjunction with fig. 1 and 3, in some embodiments, one end of the first inclined sub-portion 112 is connected to the groove sub-portion 111, and one end of the second inclined sub-portion 113 is connected to the groove sub-portion 111. The groove sub-portion 111, the first slope sub-portion 112 and the second slope sub-portion 113 cooperate to form a V-shaped groove structure. Thus, even if the contact position between the limiting portion 110 and the second side portion 205 of the mobile terminal 2000 has an error or the mobile terminal 2000 with different dimensions is retained, the limiting portion 110 can retain the second side portion 205 of the mobile terminal 2000 well, and the second side portion 205 of the mobile terminal 2000 is prevented from shaking in the V-shaped groove structure, so that the second side portion 205 of the mobile terminal 2000 can be reliably retained on the limiting portion 110.

Referring to fig. 6b and 9 in conjunction with fig. 1 and 3, in some embodiments, the first inclined sub-portion 112 and/or the second inclined sub-portion 113 extend from an end adjacent to the groove sub-portion 111 to an end away from the groove sub-portion 111 in a manner that a distance between the first inclined sub-portion 112 and the second inclined sub-portion 113 gradually increases, so as to prevent a virtual position from being generated between the second side portion 205 of the mobile terminal 2000 and the limiting portion 110, improve holding stability of the mobile terminal 2000, and be capable of adapting to a plurality of mobile terminals 2000 with different sizes.

The first and second sloped sub-portions 112 and 113 may have the same or different structures, and are not limited herein.

In some embodiments, the number of the limiting parts 110 is at least two, and at least two limiting parts 110 are arranged at intervals along the length extending direction of the remote controller body 100. The at least two limiting portions 110 can hold the second side portion 205 of the mobile terminal 2000 from at least two different positions, thereby improving holding stability of the mobile terminal 2000. Specifically, at least two stopper portions 110 are arranged at intervals in the Z direction as shown in fig. 1 and 2.

In some embodiments, the position-limiting portion 110 further includes a gradual slope 114, and the gradual slope 114 extends outward from the first slope sub-portion 112 or the second slope sub-portion 113 in a direction away from the holding structure 200. Specifically, the number of the slow slopes 114 is two, and the two slow slopes 114 are disposed on two opposite sides of the groove sub-portion 111. The arrangement of the gentle slope surface 114 can save materials and reduce production cost.

Referring to fig. 2, in some embodiments, the remote controller body 100 further has a second notch 120 to save materials and reduce the production cost. The limiting portion 110 and other portions of the remote control body 100 cooperate to form the second notch 120. In some embodiments, the second notch 120 can also clear at least a portion of the operating key 201 on the second side 205.

It is understood that, in other embodiments, the limiting portion 110 may have any other suitable structure, for example, the inclined surface of the first inclined sub-portion 112 and/or the second inclined sub-portion 113 is designed to be a curved surface.

The holding portion 210 and the limiting portion 110 may be made of any suitable material. In some embodiments, at least one of the holding portion 210 and the limiting portion 110 is made of an elastic material, so that the holding portion 210 and/or the limiting portion 110 can be prevented from damaging the mobile terminal 2000 when the mobile terminal 2000 is held. In addition, when the limiting part 110 contacts the operation key 201 of the mobile terminal 2000 to hold the mobile terminal 2000, the limiting part 110 made of an elastic material can be elastically deformed, thereby reducing the risk of mistakenly touching the operation key 201 of the mobile terminal 2000. Illustratively, at least one of the holding portion 210 and the limiting portion 110 is made of soft glue. The soft glue can comprise silica gel and the like.

It can be understood that, in some embodiments, the volume of the limiting portion 110 is relatively large, the first inclined sub-portion 112 and the second inclined sub-portion 113 are relatively large, the second side portion 205 of the mobile terminal 2000 can be positioned on the limiting portion 110 under the guiding action of the first inclined sub-portion 112 and the second inclined sub-portion 113, the mobile terminal 2000 can be held without fine positioning, the holding operation is convenient, and the user experience is improved. The holding portion 210 has a relatively small volume, and can still hold the mobile terminal 2000 even though the design space is small, and the cost can be reduced.

In some embodiments, the holding structure 200 is not in contact with the operation key 201 of the mobile terminal 2000, the limiting portion 110 is at least partially in contact with the second side portion 205 and/or the operation key 201 on the second side portion 205, and a portion of the limiting portion 110 for contacting the mobile terminal 2000 is made of soft plastic. Thus, when the mobile terminal 2000 is held, the holding structure 200 and the remote controller body 100 do not touch the operation key 201 of the mobile terminal 2000 by mistake, thereby improving the user experience.

In some embodiments, the holding structure 200 and the remote controller body 100 are not in contact with the operation keys 201 of the mobile terminal 2000. Thus, when the mobile terminal 2000 is held, the holding structure 200 and the remote controller body 100 do not touch the operation key 201 of the mobile terminal 2000 by mistake, thereby improving the user experience.

In some embodiments, the limiting portion 110 is not in contact with the operation key 201 of the mobile terminal 2000, the holding portion 210 is at least partially in contact with the operation key 201 on the first side portion 204 and/or the second side portion 205, and a portion of the holding portion 210 used for being in contact with the mobile terminal 2000 is made of soft glue. Thus, when the mobile terminal 2000 is held, the holding structure 200 and the remote controller body 100 do not touch the operation key 201 of the mobile terminal 2000 by mistake, thereby improving the user experience.

Referring to fig. 1 to 3 and 10 to 15, in some embodiments, the holding structure 200 can be in a retracted state for conveniently carrying the remote controller 1000 and an extended state for holding the mobile terminal 2000 relative to the remote controller body 100. The holding structure 200 can hold the mobile terminal 2000 between the holding structure 200 and the remote controller body 100 in the extended state. Specifically, the initial state of the holding structure 200 is a contracted state.

When in use, the connecting mechanism 300 can slide relative to the remote controller body 100 to enable the holding structure 200 to be in an extended state, so that the mobile terminal 2000 can be held on the remote controller 1000, as shown in fig. 1 to 3 and 10, thereby facilitating the operation, display and data transmission of the remote controller 1000 through the mobile terminal 2000. After completing the remote control operation or displaying and transmitting data, the user may detach the mobile terminal 2000 from the remote controller 1000, and slide the connection mechanism 300 relative to the remote controller body 100, so as to make the holding structure 200 in the retracted state, as shown in fig. 11 to 14, thereby facilitating to reduce the volume of the remote controller 1000, improving the portability of the remote controller 1000 and improving the user experience.

Referring to fig. 4 and 5, in some embodiments, when the holding structure 200 is in the extended state, the mobile terminal 2000 can be clamped between the holding structure 200 and the position-limiting portion 110. Specifically, the holding structure 200 holds the first side 204 of the mobile terminal 2000, and the limiting portion 110 holds the second side 205 of the mobile terminal 2000, so that the mobile terminal 2000 can be stably held.

Referring to fig. 11 to 15, in some embodiments, the remote controller body 100 includes a housing 130. The housing 130 has an accommodating space 131, and the holding structure 200 and/or the connecting mechanism 300 are at least partially located in the accommodating space 131 in a contracted state, so as to reduce the volume of the remote controller 1000. The holding structure 200 and/or the connection mechanism 300 protrude from the receiving space 131 in an extended state, so that the holding structure 200 can be used to hold the mobile terminal 2000. The limiting portion 110 is disposed on the housing 130.

Referring to fig. 11 to 13, specifically, the housing 130 has a first surface 132 and a plurality of side surfaces connected to the first surface 132. The plurality of sides includes opposing first and second sides 133 and 134. When the holding structure 200 is in the extended state, the holding structure 200 and the limiting portion 110 cooperate to hold the mobile terminal 2000 at a position close to the first side surface 133, so as to ensure the holding stability of the mobile terminal 2000. Of course, in other embodiments, the holding structure 200 may also be used to hold the mobile terminal 2000 above the first face 132, below the first face 132, or near other sides.

Referring to fig. 11 to 13, in some embodiments, the remote controller 1000 further includes a control member 400. The control member 400 is provided on the remote controller body 100, and is used to input a control command to the remote controller 1000. The manipulation member 400 may be a joystick, a keyboard, or the like. The control 400 may be disposed on the first side 132 of the housing 130, below the first side 132, or on either side.

The following description will take the case where the operating member 400 is disposed on the first surface 132 of the remote control body 100 and the mobile terminal 2000 is held close to the first side surface 133 of the housing 130.

Referring to fig. 11-13, in some embodiments, the housing 130 includes a first shell 135 and a second shell 136. The first housing 135 and the second housing 136 cooperate to form an accommodating space 131. The first housing 135 may be detachably connected to the second housing 136 by means of screws or the like. The limiting portion 110 is disposed on the first housing 135.

Referring to fig. 11 and 13, in some embodiments, the holding structure 200 is attached to the edge of the remote control body 100 in the contracted state. Specifically, when the holding structure 200 is in the contracted state, the holding structure 200 is attached to the first side 133 of the housing 130, so as to reduce the occupied space of the remote controller 1000 and improve the portability of the remote controller 1000.

Referring to fig. 13 to 16 in combination with fig. 10, in some embodiments, a rail member 140 is disposed in the accommodating space 131, and a first sliding groove 141 is disposed on the rail member 140. The connecting mechanism 300 is slidable within the first sliding slot 141 to switch the holding structure 200 between the extended state and the retracted state.

When the mobile terminal 2000 is not required to be held, at least a portion of the connecting mechanism 300 can be received in the first sliding groove 141, and at least a portion of the rail member 140 is located in the accommodating space 131 of the housing 130, please refer to fig. 13 and 14, so as to avoid a larger extra occupied space caused by the holding structure 200 and/or the connecting mechanism 300 in a contracted state, thereby reducing the volume of the remote controller 1000 and facilitating the carrying of the remote controller 1000. When the mobile terminal 2000 needs to be held, the connecting mechanism 300 can extend out from the accommodating space 131 of the housing 130, referring to fig. 10, the holding structure 200 and the limiting portion 110 cooperate together to hold the mobile terminal 2000. In some embodiments, the connection mechanism 300 can form a support for the mobile terminal 2000 to improve holding stability of the mobile terminal 2000.

In some embodiments, rail member 140 is secured to housing 130. Specifically, the rail member 140 is detachably connected to the second housing 136 by a screw connection, a snap connection, an adhesive connection, or the like. Of course, in other embodiments, the rail member 140 may be integrally formed with the second housing 136.

It is understood that in other embodiments, the rail member 140 may be slidably connected to the housing 130, and is not limited herein.

Referring to fig. 10, 14, 16 and 17, in some embodiments, the remote controller 1000 further includes an elastic member 500 for applying an elastic force to the connection mechanism 300 so that the mobile terminal 2000 can be held between the holding structure 200 and the remote controller body 100. Referring to fig. 18, the rail member 140 is further provided with a second sliding slot 142, the connecting mechanism 300 and the second sliding slot 142 together form a guide slot 600 for receiving the elastic member 500, and the elastic member 500 can be slidably deformed along the extending direction of the guide slot 600 to provide an elastic force to the connecting mechanism 300.

The guide groove 600 can guide the compression or extension of the elastic member 500, so that the elastic member 500 can accurately move in a predetermined direction without deviation; the movement of the elastic member 500 is guided without using a guide post, thereby reducing the manufacturing cost and having a simple structure.

When the user pulls the holding structure 200 out of the remote controller body 100, that is, the external force acting on the holding structure 200 and/or the connecting mechanism 300 drives the connecting mechanism 300 to slide relative to the remote controller body 100 to make the holding structure 200 in the extended state, the elastic member 500 can deform, and the acting force generated by the deformation can act on the connecting mechanism 300, so that the connecting mechanism 300 keeps the tendency of retracting to the contracted state. Therefore, when the mobile terminal 2000 is held, due to the acting force applied to the connection structure 300 by the elastic member 500, the holding structure 200 can apply an acting force to the held mobile terminal 2000, thereby holding the mobile terminal 2000 between the holding structure 200 and the remote controller body 100.

After completing the remote control operation or displaying and transmitting data, the user may detach the mobile terminal 2000 from the remote controller 1000, push the holding structure 200 to the remote controller body 100 to switch the holding structure 200 to the contracted state, thereby reducing the volume of the remote controller 1000 and facilitating the carrying thereof. The acting force generated by the deformation of the elastic member 500 can enable the connecting mechanism 300 to slide relative to the remote controller body 100, so as to drive at least a part of the connecting mechanism 300 to retract into the remote controller body 100, thereby assisting the user to change the holding structure 200 into a retracted state, and improving the user experience. In some embodiments, the force generated by the deformation of the elastic member 300 can slide the connection mechanism 300 relative to the remote controller body 100 to retract the holding structure 200 to the contracted state without the need for a user to manually provide an external pushing force to the holding structure 200.

In some embodiments, when the remote controller 1000 does not need to hold the mobile terminal 2000, the holding main body 220 moves towards the direction approaching the remote controller body 100 under the action of the elastic member 500, and the length of the connection mechanism 300 is shortened until the holding main body 220 is attached to the remote controller body 100. The holding main body 220 is attached to the remote controller body 100, so that the holding main body 220 can be prevented from entering the first sliding groove 141 or the accommodating space 131 as a whole and being inconvenient to pull out when the holding structure 200 is in the retracted state.

Referring to fig. 1, in some embodiments, the housing 130 has an opening 137, and the first sliding groove 141 is in communication with the opening 137. When the holding structure 200 holds the mobile terminal 2000, the connecting mechanism 300 can slide in the first sliding groove 141 to extend out of the opening 137, and the distance between the holding structure 200 and the remote controller body 100 is adjusted, so that mobile terminals 2000 with different sizes are held between the holding structure 200 and the remote controller body 100. Therefore, the remote controller 1000 in this embodiment can hold the mobile terminals 2000 with different specifications or different models, and the practicability of the remote controller 1000 is expanded.

In some embodiments, first runner 141 extends from an end of rail member 140 adjacent opening 137 toward an end of rail member 140 adjacent second side 134.

Referring to fig. 10, in some embodiments, the rail member 140 is located at the middle of the remote controller body 100, so that the sliding area of the connection mechanism 300 on the remote controller body 100 is located at the middle of the remote controller body 100. Thus, the problem of unbalanced acting force applied by the remote controller 1000 to the two hands of the user when the mobile terminal 2000 is held on the remote controller 1000 can be avoided, and the use experience of the user can be improved.

Referring to fig. 1-3, 7, 10, and 13-15, in some embodiments, the connecting mechanism 300 includes a movable member 310 and a telescopic member 320. The movable member 310 is slidably connected to the remote controller body 100. One end of the telescopic member 320 is fixedly connected to the holding structure 200, and the other end of the telescopic member 320 is slidably connected to the movable member 310. The movable member 310 and the telescopic member 320 cooperate to move the holding structure 200 closer to or farther from the remote controller body 100. Specifically, moveable member 310 is slidably coupled to rail member 140.

When the mobile terminal 2000 needs to be held, the retractable member 320 and the movable member 310 can move relative to the remote controller body 100, so that the holding structure 200 is in an extended state, and the mobile terminal 2000 can be held between the holding structure 200 and the remote controller body 100. In some embodiments, the movable member 310 and/or the telescopic member 320 can form a support for the mobile terminal 2000 to improve holding stability of the mobile terminal 2000. When the mobile terminal 2000 is not needed to be used, a user can detach the mobile terminal 2000 from the space between the holding structure 200 and the remote controller body 100, and make the expansion piece 320 slide relative to the moving piece 310, and the moving piece 310 slide relative to the rail piece 140 until the holding structure 200 is in a contracted state, so that at least part of the moving piece 310 is accommodated in the rail piece 140 or the housing 130, and at least part of the expansion piece 320 is accommodated in the moving piece 310, thereby effectively reducing the volume of the remote controller 1000.

The track member 140 and the movable member 310 may be configured in any suitable shape or configuration, such as a cylindrical configuration for the track member 140. The number of the elastic members 500 and the second chutes 142 may be designed according to actual requirements. Exemplarily, there are two second chutes 142, and the two second chutes 142 are respectively located at two sides of the cylindrical structure. The two second sliding grooves 142 cooperate with the connecting mechanism 300 to form at least two guide grooves 600, and each guide groove 600 is correspondingly provided with at least one elastic member 500. The first and second sliding grooves 141 and 142 may be disposed at any suitable position on the rail member 140. Illustratively, the first sliding slot 141 is located in the middle of the rail member 140, and the two second sliding slots 142 are respectively located at two sides of the first sliding slot 141.

The number of the guide grooves 600 is two for example. Referring to fig. 16 and 18, the movable member 310 has a first surface 311 and a second surface 312. The first surface 311 of the movable member 310 cooperates with one of the second runners 142 to form a guide slot 600. The second surface 312 of the movable member 310 cooperates with the other second runner 142 to form the other guide groove 600. The elastic members 500 are respectively disposed in the two guide slots 600, so that the force applied by the elastic members 500 on the connecting mechanism 300 is more uniform, the holding structure 200 holds the mobile terminal 2000 more reliably, or the connecting mechanism 300 moves more reliably when the holding structure 200 is switched between the extended state and the retracted state.

In some embodiments, first surface 311 and second surface 312 are oppositely disposed. The two guide grooves 600 are oppositely disposed. In this way, the two elastic members 500 can be further more uniformly applied to the connection mechanism 300, so that the holding structure 200 can reliably hold the mobile terminal 2000 or can smoothly switch between the extended state and the retracted state.

It is understood that the first surface 311 and the second surface 312 may be designed into any suitable shape according to actual requirements, as long as the guide groove 600 of the elastic member 500 can be formed by cooperating with the second sliding chute 142, such as a plane surface, a curved surface protruding toward the second sliding chute 142, a curved surface recessed away from the second sliding chute 142, and the like. For example, referring to fig. 18 in conjunction with fig. 7, the first surface 311 and the second surface 312 are curved surfaces protruding toward the second chute 142.

In some embodiments, the first slide groove 141 communicates with the second slide groove 142, so that the connection mechanism 300 located in the first slide groove 141 can cooperate with the second slide groove 142 to form the guide groove 600.

In other embodiments, the connecting mechanism 300 may be any other suitable structure, for example, one of the telescopic member 320 or the movable member 310 is omitted, one end of the movable member 310 or the telescopic member 320 is connected to the holding structure 200, and the other end of the movable member 310 or the telescopic member 320 is slidably connected to the rail member 140; also, for example, the connection mechanism 300 may be a plate-like structure or other shape structure that can slide with respect to the remote controller body 100.

Referring to fig. 1 to 3 and 10, in some embodiments, the telescopic member 320 includes a first telescopic rod 321 and a second telescopic rod 322. One end of the first telescopic rod 321 is fixedly connected to the holding structure 200. The other end of the first telescopic rod 321 is slidably connected to the movable member 310. One end of the second telescopic rod 322 is fixedly connected to the holding structure 200. The other end of the second telescopic rod 322 is slidably connected to the movable member 310. The first expansion link 321 and the second expansion link 322 are disposed at an interval.

Referring to fig. 7, in some embodiments, the movable member 310 is provided with an accommodating portion 313, and the first expansion link 321 and the second expansion link 322 can slide in the accommodating portion 313 to drive the holding structure 200 to approach or depart from the remote controller body 100. When the holding structure 200 is in the contracted state, at least a portion of the first telescopic rod 321 and at least a portion of the second telescopic rod 322 are located in the accommodating portion 313 to reduce the volume of the remote controller 1000 in the contracted state.

Referring to fig. 10, specifically, one end of each of the first telescopic rod 321 and the second telescopic rod 322 departing from the holding structure 200 is fixedly connected to the sliding portion 323, and the sliding portion 323 is slidably engaged with the movable member 310, so that the first telescopic rod 321 and the second telescopic rod 322 can move synchronously relative to the movable member 310. When the first telescopic rod 321 and the second telescopic rod 322 slide relative to the movable member 310, the sliding portion 323 is driven to slide relative to the movable member 310. When the sliding portion 323 slides to the preset position, the movable member 310 blocks the sliding portion 323 from sliding continuously in the sliding direction, so as to prevent the first and second telescopic rods 321 and 322 from coming off the movable member 310. Illustratively, the preset position is the position shown in fig. 10.

In other embodiments, the telescopic member 320 may also have other structures, such as only the first telescopic rod 321, and for example, a plate-like structure capable of sliding relative to the movable member 310, which is not limited herein.

In some embodiments, the first holder portion 211 is disposed between the first telescopic rod 321 and the second telescopic rod 322. Specifically, the projection of the first holder sub-portion 211 on the preset projection plane is located between the projections of the first and second telescopic rods 321 and 322 on the preset projection plane. The predetermined projection plane is parallel to the X-direction and the Z-direction as shown in fig. 1 and 2.

It can be understood that, in some embodiments, when the mobile terminal 2000 is held, the first expansion link 321 and the second expansion link 322 can form a support for the back surface of the mobile terminal 2000, the holding portion 210 holds the first side portion 204 of the mobile terminal 2000, and the limiting portion 110 holds the second side portion 205 of the mobile terminal 2000, so that the holding stability of the mobile terminal 2000 is effectively guaranteed.

Referring to fig. 1 to 9, embodiments of the present application further provide a clamping kit for clamping a mobile terminal 2000. The clamping kit can be applied to any scene needing to clamp the mobile terminal 2000, for example, a device or equipment needing to clamp a mobile phone, such as a selfie stick, a photographing device, and a control device, so as to avoid or reduce the risk of mistakenly triggering the operation key 201 of the mobile terminal 2000 and improve the use experience of a user.

Illustratively, the clamping kit may be used with remote control 1000. The limiting structure is disposed on the remote controller body 100 of the remote controller 1000.

The clamping kit includes a holding structure 200, a limiting structure and a connecting mechanism 300. The two ends of the connecting mechanism 300 are connected to the holding structure 200 and the limiting structure, respectively. The connecting mechanism 300 is used for adjusting the distance between the holding structure 200 and the position limiting structure, so that mobile terminals 2000 with different sizes can be clamped between the holding structure 200 and the position limiting structure. The holding structure 200 has at least one holding portion 210, and the limiting structure has at least one limiting portion 110. When the mobile terminal 2000 is held, the holding portion 210 and the limiting portion 110 are used to contact the mobile terminal 2000, and at least one of the holding structure 200 and the limiting structure is not in contact with the operation key 201 of the mobile terminal 2000.

In the clamping kit of the above embodiment, when the mobile terminal 2000 is held on the clamping kit, at least one of the holding structure 200 and the limiting structure is not in contact with the operation key 201 of the mobile terminal 2000. That is, the operation key 201 of the mobile terminal 2000 is not in contact with the holding structure 200; and/or the operation key 201 of the mobile terminal 2000 is not in contact with the limit structure. Therefore, when the clamping kit holds the mobile terminal 2000, the risk that the holding structure 200 and/or the limiting structure may contact the operation key 201 of the mobile terminal 2000 to trigger the operation key 201 during the process of holding the mobile terminal 2000 can be avoided or reduced, thereby improving the user experience.

In some embodiments, the holding structure 200 is not in contact with the operation key 201 of the mobile terminal 2000, a contact portion of the limiting structure for contacting the mobile terminal 2000 is the limiting portion 110, and the limiting portion 110 is made of soft plastic. Thus, when the mobile terminal 2000 is fixed, the fixing structure 200 and the limiting structure do not touch the operation key 201 of the mobile terminal 2000 by mistake, thereby improving the use experience of the user.

In some embodiments, the spacing structure includes a spacing body, and the spacing portion 110 is disposed on the spacing body. The holding portion 210 is used for abutting against the first side portion 204 of the mobile terminal 2000, the limiting portion 110 is used for abutting against the second side portion 205 of the mobile terminal 2000, and the first side portion 204 of the mobile terminal 2000 is arranged opposite to the second side portion 205 of the mobile terminal 2000. It is understood that the limiting main body may be the remote controller body 100 or the housing 130 of any of the above embodiments. Of course, in other embodiments, the limiting body may be any other suitable structure as long as it can be connected to the connecting mechanism 300, and the limiting portion 110 can be disposed on the limiting body, so that the mobile terminal 2000 can be clamped by the holding structure 200 and the limiting structure. For example, the limiting body is a housing of a clamping device, and the clamping device is used for clamping the mobile terminal 2000.

It is understood that other specific designs of the holding structure 200, the connecting mechanism 300, and the limiting portion 110 in the clamping kit can refer to the corresponding design of the remote controller 1000 in any of the above embodiments, and are not described herein again.

Referring to fig. 19, an embodiment of the present application further provides a remote control system, which includes a movable platform 3000 and a remote controller 1000. The remote controller 1000 may be the remote controller 1000 provided in any of the above embodiments. The remote controller 1000 controls the movement of the movable platform 3000 by transmitting a control command to the movable platform 3000 to which it is communicatively connected. The mobile terminal 2000 is communicatively connected to the remote controller 1000 so that the mobile terminal 2000 can transmit a control signal to the remote controller 1000 and the remote controller 1000 can transmit data received from the movable platform 3000 to the mobile terminal 2000. The holding structure 200 holds the mobile terminal 2000 on the remote controller 1000.

In the remote control system of the above embodiment, when the mobile terminal 2000 is held on the remote controller 1000, there is no contact between at least one of the holding structure 200 and the remote controller body 100 and the operation keys 201 of the mobile terminal 2000. That is, the operation key 201 of the mobile terminal 2000 is not in contact with the holding structure 200; and/or, the operation keys 201 of the mobile terminal 2000 are not in contact with the remote controller body 100. Therefore, when the remote controller 1000 holds the mobile terminal 2000, the risk that the holding structure 200 and/or the remote controller body 100 may contact the operation key 201 of the mobile terminal 2000 to trigger the operation key 201 during the process of holding the mobile terminal 2000 can be avoided or reduced, thereby improving the user experience.

In some embodiments, movable platform 3000 comprises at least one of a drone, a drone vehicle, a robot.

It should be noted that the above-mentioned names for the components of the remote controller 1000 or the clamping kit are only for identification purposes and should not be construed as limiting the embodiments of the present application.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or replacements within the technical scope of the present invention, and these modifications or replacements should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A remote control, comprising:

a remote controller body;

the holding structure is used for holding the mobile terminal;

one end of the connecting mechanism is fixed on the holding structure, and the other end of the connecting mechanism is connected with the remote controller body in a sliding way; the connecting mechanism is used for adjusting the distance between the holding structure and the remote controller body so as to enable mobile terminals with different sizes to be clamped between the holding structure and the remote controller body;

the holding structure is provided with at least one holding part, and the remote controller body is provided with at least one limiting part; when the mobile terminal is clamped, the fixing part and the limiting part are used for being in contact with the mobile terminal, and at least one of the fixing structure and the remote controller body is not in contact with an operation key of the mobile terminal.

2. The remote control of claim 1, wherein the holding structure comprises a holding body fixedly connected with the connecting mechanism; the holding part comprises a first holding sub-part and a second holding sub-part, and the first holding sub-part and the second holding sub-part are arranged on one side of the holding main body facing the remote controller body at intervals and are used for contacting with a first side part of the mobile terminal so as to clamp the mobile terminal between the remote controller body and the holding structure.

3. The remote controller according to claim 2, wherein a projection of the first holding sub-portion and the second holding sub-portion on a predetermined plane has a spacing substantially equal to a thickness of the first side portion of the mobile terminal; and/or the presence of a gas in the gas,

when the holding structure holds the mobile terminal, the first holding sub-part and the second holding sub-part are respectively held at two sides of the first side part; and/or the presence of a gas in the gas,

the number of the second holding subsections is at least two, and the first holding subsection is arranged between the at least two second holding subsections.

4. A remote control as claimed in claim 2, wherein the first holder part has a first wedge-face and the second holder part has a second wedge-face, the first and second wedge-faces cooperating to grip the first side of the mobile terminal.

5. The remote controller according to claim 4, wherein the first holder sub-portion is in contact with the first side portion through the first wedge-shaped surface to press the mobile terminal toward the remote controller body; the second retainer portion contacts the first side portion through the second wedge surface to prevent the first side portion from being removed from the retainer structure.

6. The remote controller according to claim 1, wherein the position-limiting portion is used for contacting a second side portion of the mobile terminal; the limiting part is matched with the fixing structure to fix the mobile terminal; the first side portion of the mobile terminal is arranged opposite to the second side portion of the mobile terminal.

7. The remote controller according to claim 6, wherein the position-limiting portion is provided with a groove sub-portion for avoiding an operation key provided on the second side portion of the mobile terminal, so that the operation key is not in contact with the position-limiting portion.

8. The remote controller according to claim 7, wherein the limiting portion further comprises:

a first slope sub-portion and a second slope sub-portion; the first inclined sub-portion and the second inclined sub-portion are respectively disposed at opposite sides of the groove sub-portion, and the first inclined sub-portion and the second inclined sub-portion are respectively in contact with different portions of the second side portion and are matched with the groove sub-portion to hold the second side portion of the mobile terminal.

9. The remote controller according to claim 8, wherein one end of the first slope sub-portion is connected to the groove sub-portion, one end of the second slope sub-portion is connected to the groove sub-portion, and the groove sub-portion, the first slope sub-portion and the second slope sub-portion cooperate to form a V-shaped groove structure; and/or the presence of a gas in the gas,

the first sloping sub-portion and/or the second sloping sub-portion extend from an end adjacent to the groove sub-portion to an end facing away from the groove sub-portion in such a manner that a distance between the first sloping sub-portion and the second sloping sub-portion gradually increases.

10. The remote control of claim 1, wherein the connection mechanism comprises:

the movable piece is connected to the remote controller body in a sliding manner;

one end of the telescopic piece is fixedly connected with the fixing structure, and the other end of the telescopic piece is connected with the movable piece in a sliding manner; the movable piece is matched with the telescopic piece so that the holding structure is close to or far away from the remote controller body.

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