Patent ID: 12235676

REFERENCE NUMERALS

110Seat120Support body121First receiving space123First opening124Second opening125Locking hole126Slot130Operating part140Positioning part141Contact part150Support accessory151Hook152Protrusion mechanism200Processing device201Button300Output device

DETAILED DESCRIPTION

Technical solutions of the present disclosure will be described in detail with reference to the drawings. It will be appreciated that the described embodiments represent some, rather than all, of the embodiments of the present disclosure. Other embodiments conceived or derived by those having ordinary skills in the art based on the described embodiments without inventive efforts should fall within the scope of the present disclosure.

In the present disclosure, unless otherwise specified and limited, the term “connected” should be understood in a broad sense. For example, the term may include electrical connection, communication between two inner components, direct connection, connection through a medium therebetween. Those skilled in the art may understand specific meaning of the above-described term according to specific situation.

Terms of “first/second/third” used in the embodiments of the present disclosure only distinguish similar objects, and does not represent a specific order of objects. The specific order or sequence of the “first/second/third” is allowed to be interchangeable. The objects distinguished by “first/second/third” are interchangeable under an appropriate situation. As such, embodiments of the present disclosure described here may describe sequence embodiments in addition to the drawings or described sequences.

The support device described in the embodiments of the present disclosure will be described below with reference toFIGS.1-26.

The support device includes a seat110and a support body120. The seat110may be used for contacting a bearing surface when the support device is placed on the bearing surface. The support body120may be used to support an output device300, and the support body120may have opposite first and second ends. The first end may be connected to the seat110, and the second end may be used to connect the output device300. In some embodiments, the output device300connected to the support body120may face a first direction. The support body120includes a first receiving space121, and the first receiving space121may be used to receive at least a part of a processing device200. In some embodiments, the support body120may have at least one opening that may face a second direction, and at least the part of the interaction part of the processing device200that can be positioned in the first receiving space121may be exposed through the opening. In some embodiments, the second direction may be different from the reverse of the first direction. By accommodating at least a part of the processing device200in the first receiving space121of the support body120, the processing device200can be hidden in the support body120, and the interactive part of the processing device200can be exposed through the opening. Further, the interactive part of the processing device200can also be manipulated through the opening, which greatly improves the adaptability of the support device.

In the embodiments of the present disclosure, the structure of the seat110is not limited. For example, the110may be a block-shaped structure or a plate-shaped structure.

In some embodiments, the bearing surface may be a desktop or a ground.

In the embodiments of the present disclosure, the support body120may be used to support the output device300, such that the output device300and the bearing surface can have a set height through the support body120and the seat110. In some embodiments, the support body120may be a strip-shaped structure or a plate-shaped structure.

The structure of the output device300is not limited in the present disclosure, as long as the output device300can output toward the first direction. For example, the output device300may be a display screen that outputs the display content toward the first direction.

In the embodiments of the present disclosure, the first receiving space121may communicate with at least one opening, and the number of openings is not limited in the present disclosure. For example, the support body120may include at least a first opening123. The first opening123may face the second direction, and at least the part of the interaction part of the processing device200that can be located in the first receiving space121can be exposed through the first opening123.

The interactive part of the processing device200may be the part with interactive components. The interactive components may be input components, output components, or input components and output components. For example, as shown inFIG.8, the interactive components may include a button201. In another example, the interactive components may include a lighting piece. In another example, the interactive components may include an audio interface and/or a data interface.

In some embodiments, the second direction may be different from the reverse of the first direction, and the second direction may be the same as the first direction or different from the first direction. For example, the first direction may be the front of the support device, and the output device300may be configured to output the output toward the front of the support device. Correspondingly, the reverse of the first direction may be the back of the support device, and the opening may not face the back of the support device to facilitate the operation of the interactive part.

In some embodiments, the first receiving space121may accommodate part of the processing device200, or the first receiving space121accommodate receive the entire processing device200.

For example, the first receiving space121may be located inside the support body120, and the support body120may have a first opening123. An shown inFIG.1, the first opening123faces the first direction A, as shown inFIG.2, the first opening123is also located on the side of the support body120. At this time, the first opening123does not face the reverse direction B of the first direction A. In this case, the first receiving space121may accommodate the entire processing device200, and the processing device200can be put into the first receiving space121through the first opening123.

In some embodiments, the support body120may include a first opening123and a second opening124that can communicate with each other. The processing device200may enter the first receiving space121from the second opening124, the interactive part may be exposed through the123, and the first opening123may face the second direction.

In some embodiments, as shown inFIG.7, an external interface of the processing device200is exposed through the second opening124, such that the external interface of the processing device200can be connected with other interfaces.

In some embodiments, the first opening123and the second opening124may communicate with the first receiving space121respectively, and the areas of the first opening123and the second opening124are not limited in the present disclosure. For example, the cross-sectional area of the second opening124may be larger than the cross-sectional area of the first opening123.

In some embodiments, the first opening123may be positioned on a phase plate side of the support body120, or the first opening123may be positioned on the adjacent side of the support body120.

For example, as shown inFIG.3, the first opening123is facing the first direction and the second opening124is positioned on the side of the support body120. In this case, the first receiving space121may accommodate the entire processing device200. Of course, the first receiving space121may accommodate part of the processing device200. In this case, other parts of the processing device200may be positioned outside the support body120through the second opening124.

In another example, the second opening124may be positioned on a first side of the support body120, and the first opening123may be positioned on a second side of the support body120, where the first side of the support body120may be opposite to the second side of the support body120.

In some embodiments, as shown inFIG.5, the first opening123is facing the first direction A, and the second opening124is facing the opposite direction B of the first direction. Of course, as shown inFIGS.4,7and7, the first opening123can also not face the first direction A, and the first opening123can be disposed on one side of the support body120.

In some embodiments, the first receiving space121may accommodate at least a part of the processing device200, and the processing device200may be kept in the first receiving space121when an external force is applied to the interactive part. In some embodiments, the direction of the external force may be from the first opening123to the second opening124in order to prevent at least the part of the processing device200from being detached from the first receiving space121when the interactive part is operated. It should be noted that the implementation method in which the processing device200is kept in the first receiving space121is not limited in the present disclosure.

In some embodiments, as shown inFIGS.9,10and11, the support device includes an operating part130. The operating part130may be disposed on the support body120, and the operating part130may be configured to move to a first position and a second position. When the operating part130is in the first position, the operating part130may be used to keep the processing device200in the first receiving space121. When the operating part130is in the second position, the processing device200may be pulled out from the first receiving space121.

In some embodiments, the operating part130may be movably disposed on the support body120, and the operating part130may also be rotatably disposed on the support body120.

The operating part130may be directly connected to or disconnected from the processing device200located in the first receiving space121, or the operating part130may be connected to or disconnected from the processing device200located in the first receiving space121through other structural parts. For example, a connection may refer to an abutment of the surface of the operating part130or other structural parts with the surface of the processing device200. In another example, a connection may refer to the operating part130or other structural parts being inserted in a slot of the processing device200. When the operating part130is in the first position, the operating part130or other structural parts may be connected to the processing device200. When the operating part130is in the second position, the operating part130or other structural parts may be disconnected from the processing device200

In some embodiments, as shown inFIG.12andFIG.14, the support device further includes a positioning part140. The positioning part140may slide in a slideway, and the positioning part140may be used for connecting or disconnecting with the processing device200. The operating part130may be connected to the positioning part140, at least a part of the operating part130may be disposed outside the support body120, and at least the part of the operating part130may drive the positioning part140to move to or from the processing device200under the action of an external force.

In some embodiments, the operating part130and the positioning part140may be connected by screws, or the operating part130and the positioning part140may be connected by a snap structure.

In some embodiments, as shown inFIG.13, the positioning part140includes a contact part141. The contact part141is positioned on the side of the positioning part140facing the first receiving space121, and the contact part141may be used to contact the processing device200. The hardness of the contact part141may be lower than the hardness of the processing device200to prevent the contact part141from damaging the processing device200. For example, the contact part141may be a rubber structure.

In some embodiments, the support device may further include a limiting component. At least a part of the limiting component may be disposed on the support body120, and at least the part of the limiting component may move to a third position and a fourth position. When at least the part of the limiting component is in the third position, the limiting component may keep the operating part130in the first position. When at least the part of the limiting component is in the fourth position, the operating part130may move from the first position to the second position. The limiting component can prevent the processing device200from being pulled out of the first receiving space121by an external force accidentally applied on the operating part130.

The structure of the limiting component is not limited in the present disclosure. For example, the support body120may include a slideway and a locking hole125. The slideway may be located in the support body120, and the slideway may be connected to the first receiving space121. The locking hole125may be located on the surface of the support body120, and the locking hole125may be connected to the slideway. The limiting component may include a first locking piece and a second locking piece. The first locking piece may be movably disposed in the support body120, and the first locking piece may correspond to the position of the positioning part140. The second locking piece may be inserted into the locking hole125to cooperate with the first locking piece. As shown inFIG.15andFIG.17, when the operating part130drives the positioning part140to slide to the first position in the slideway, the second locking piece may drive the first locking piece to move to the third position or the fourth position through the locking hole125. In the third position, the first locking piece ma fix the positioning part140relative to the slideway, and in the fourth position, the positioning part140may slide relative to the slideway. When the operating part130drives the positioning part140to slide to the first position in the slideway, the operating part130may keep in the processing device200in the first receiving space121through the positioning part140. The position of the positioning part140may be kept unchanged by moving the first locking piece to the third position through the second locking piece, such that the processing device200can be stably kept in the first receiving space121. As shown inFIG.16andFIG.18, when the processing device200needs to be taken out from the first receiving space121, the first locking piece may be moved to the fourth position through the second locking piece. At this time, the operating part130may drive the positioning part140to slide to the second position in the slideway. When the operating part130keeps the processing device200in the first receiving space121through the positioning part140, the processing device200may be taken out only by holding the second locking piece, thereby preventing the processing device200from being lost.

In some embodiments, the first locking piece is similar to a lock cylinder, and the second locking piece is similar to a key.

In some embodiments, the positioning part140or the operating part130may further include a shielding part. The shielding part may correspond to the position of the locking hole125. When the operating part130drives the positioning part140to slide to the first position in the slideway, a part of the positioning part140may protrude from the surface of the first receiving space121, the shielding part may be staggered from the locking hole125, and the locking hole125may be exposed. The second locking piece may drive the first locking piece to move to the third position or the fourth position through the locking hole125. In the third position, the first locking piece may fix the positioning part140relative to the slideway, and in the fourth position, the positioning part140may slide relative to the slideway. When the operating part130drives the positioning part140to slide to the second position in the slideway, a part of the positioning part140may be recessed in the surface of the first receiving space121, and the shielding part may block the locking hole125. In this way, the shielding part can be used to block the locking hole125to prevent the second locking piece from being mistakenly inserted into the locking hole125when the operating part130drives the positioning part140to slide to the second position in the slideway.

In some embodiments, as shown inFIG.19andFIG.20, the support device includes a support accessory150. The support accessory150may be detachably connected to the support body120, and the support accessory150may have a second receiving space. When the support accessory150is connected to the support body120, the second receiving space may communicate with the first receiving space121, and the first receiving space121and the second receiving space may collectively accommodate the entire processing device200, thereby keeping the support device clean.

In some embodiments, the support accessory150may also be used to keep the processing device200in the first receiving space121.

The method in which the support accessory150is used to keep the processing device200in the first receiving space121is not limited in the present disclosure.

For example, the support accessory150may only include one opening communicating with the second receiving space. At this time, the processing device200may be accommodated in the second receiving space of the support accessory150through the opening. The support accessory150can not only accommodate the processing device200, but can also block the second opening124, such that the processing device200can be kept in the first receiving space121.

In another example, as shown inFIG.24, the second receiving space can be a through-slot structure. The second receiving space includes two openings. The inner wall forming the second receiving space may also include a clamping mechanism for clamping the processing device200, and the processing device200may be kept in the first receiving space121through the clamping mechanism.

Of course, the support accessory150may also only be used for accommodating the processing device200through the second receiving space. The second receiving space may be a through-slot structure. At this time, the processing device200may be kept in the first receiving space121through the operating part130, and the processing device200may be inserted into the first receiving space121through the second receiving space of the through-slot structure, as shown inFIG.21.

The method in which the support accessory150is detachably connected to the support body120is not limited in the present disclosure. For example, as shown inFIG.22andFIG.23, the support body120includes a slot126, the support accessory150includes a hook151, and the support accessory150is detachably connected to the support body120by being clamped in the slot126through the hook151. In another example, the support body120may include a first absorption piece, the hook151may include a second absorption piece, and the support accessory150may be detachably connected to the support body120through the absorption connection of the first absorption piece and the second absorption piece. In some embodiments, the first absorption piece may be a piece of iron, and the second absorption piece may be a magnetic piece.

In some embodiments, as shown inFIG.25andFIG.26, a strip-shaped protrusion mechanism152may be arrange on the inner wall forming the second receiving space. In this way, when the processing device200is inserted from the second receiving space of the through-slot structure, friction can be reduced. Further, the protrusion mechanism152may be in contact with the processing device200located in the second receiving space, and the strip-shaped protrusion mechanism152may also prevent the processing device200from shaking.

Consistent with the present disclosure, the support device includes a seat110that can be used for contacting the bearing surface when the support device is placed on the bearing surface; and a support body120that can be used for supporting the output device300. The support body120may have a first end and a second end. The first end may be connected to the seat110, and the second end may be connected to the output device300. In some embodiments, the connected output device300may face the first direction. In some embodiments, the support body120may include a first receiving space121, and the first receiving space121may be used to receive at least a part of a processing device200. In some embodiments, the support body120may have at least one opening that may face a second direction, and at least the part of the interaction part of the processing device200that can be positioned in the first receiving space121may be exposed through the opening. In some embodiments, the second direction may be different from the reverse of the first direction. By accommodating at least the part of the processing device200in the first receiving space121of the support body120, the processing device200can be hidden in the support body120, and the interactive part of the processing device200can be exposed through the opening. Further, the interactive part of the processing device200can also be manipulated through the opening, which greatly improves the adaptability of the support device.

An embodiment of the present disclosure further provides an electronic system. The electronic system may include a support device and an output device300. The support device may include a seat110and a support body120. The seat110may be used for contacting the bearing surface when the support device is placed on the bearing surface. The support body120may be used to support an output device300. The support body120may have a first end opposite to a second end. The first end may be connected to the seat110, and the second may be connected to the output device300. In some embodiments, the output device300may face a first direction. In some embodiments, the support body120may include a first receiving space121, and the first receiving space121may be used to receive at least a part of a processing device200. In some embodiments, the support body120may have at least one opening that may face a second direction, and at least the part of the interaction part of the processing device200that can be positioned in the first receiving space121may be exposed through the opening. In some embodiments, the second direction may be different from the reverse of the first direction.

The structure of the electronic system is not limited in the present disclosure. For example, the electronic system may be a display device with a support device.

The support device has been described in the foregoing embodiments, and will not be repeated here.

In some embodiments, the output device300may be a computer monitor or a flat-screen TV.

In some embodiments, the electronic system may further include a processing device200. As shown inFIG.28, when at least a part of the processing device200is located in the first receiving space121, at least the part of the processing device200can be connected to the output device300. As shown inFIG.27, when at least the part of the processing device200is detached from the first receiving space121, the processing device200can be connected to the output device300. By disposing the processing device200in the first receiving space121, the electronic system can be made tidier, and the processing device200can be easily operated through the first opening123. At the same time, since the processing device200and the output device300are two non-integrated structural components of the electronic system, the processing device200can also be arranged outside the first receiving space121. For example, as shown inFIG.27, the processing device200is placed on the surface of a base. In another example, as shown inFIG.26, the processing device200is placed on the bearing surface.

Specific embodiments of the present disclosure are described above. However, the scope of the present disclosure is not limited to these specific embodiments. Any person skilled in the art can easily think of changes or replacements within the technical scope disclosed in the present disclosure. These changes or replacements should be within the scope of the present disclosure. Therefore, the scope of the present invention shall be subject to the scope of the claims.