CN215522708U - Supporting device - Google Patents

Abstract

The utility model discloses a supporting device for supporting a mobile terminal, which comprises a back plate and a supporting member; the mobile terminal comprises a backboard, a support member and a control unit, wherein the backboard is used for being connected to the mobile terminal, the support member is arranged on one side of the backboard and can be switched between a storage state and a support state, and the support member comprises a connecting piece, a plurality of upper plates and a plurality of lower plates; the connecting member is connected to the back plate, the plurality of upper plates are respectively connected to the connecting member and are disposed spaced apart from each other, the plurality of lower plates are respectively connected to the connecting member and are disposed spaced apart from each other. According to the supporting device provided by the utility model, when the supporting member is in the storage state, the structure of the supporting device is compact, so that the 'stealth' is realized to a certain degree, the storage is convenient, when the supporting device is in the storage state, the mobile terminal can be supported, so that the mobile terminal can be supported on a desktop at an angle relative to the desktop, the structure of the supporting device is simple, and the large-scale production is convenient to realize.

Description

Supporting device

Technical Field

The utility model relates to the technical field of supporting devices, in particular to a supporting device for supporting a mobile terminal.

Background

With the advent of the mobile internet era, various mobile terminals are continuously coming out of date and become a part of the lives of modern people. Currently, there are many types of mobile terminals in the market, such as mobile phones, tablet computers, notebook computers, and the like. The mobile terminal of the type is popular with people due to the advantages of small volume, light weight, fashionable appearance, convenient carrying and the like, and is closely related to the life of people.

However, people are prone to fatigue in their neck during use of the mobile terminal, but if the mobile terminal is used while being placed on a desk, the user must lean forward to read, which is a problem of discomfort on their back. Furthermore, the light source such as the lamp projected on the screen of the mobile terminal causes the reflection of the screen to interfere with reading and operation, so the mobile terminal is usually required to be placed obliquely to facilitate reading and operation.

However, the existing products for supporting the mobile terminal have large volume and thick overall thickness, so that the mobile terminal is not easy to store and is inconvenient to carry, and therefore inconvenience and trouble in use are caused.

To this end, the present invention provides a support device to at least partially solve the problems of the prior art.

SUMMERY OF THE UTILITY MODEL

In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content of the present invention is not intended to define key features or essential features of the claimed solution, nor is it intended to be used to limit the scope of the claimed solution.

In order to at least partially solve the above problems, the present invention discloses a supporting device for supporting a mobile terminal, the supporting device comprising:

a backplane for connecting to the mobile terminal; and

a support member provided at one side of the back plate and switchable between a storage state and a support state, the support member including:

a connector connected to the back plate;

a plurality of upper plates connected to the connection members, respectively, and disposed to be spaced apart from each other; and

a plurality of lower plates connected to the connection members, respectively, and disposed to be spaced apart from each other.

According to the supporting device provided by the utility model, the supporting device can be switched between the storage state and the supporting state, when the supporting member is in the storage state, the supporting device is compact in structure and thin in overall thickness, so that certain invisibility can be realized, the storage is convenient, when the supporting device is in the storage state, the mobile terminal can be supported, so that the mobile terminal can be supported on a desktop at an angle relative to the desktop, the supporting device is simple in structure, and the large-scale production is convenient to realize.

Optionally, at least one of the plurality of upper plates and the plurality of lower plates is provided integrally with the connecting member, or

The upper plates and the lower plates are arranged separately from the connecting piece.

According to the scheme, at least one of the upper layer plates and the lower layer plates is integrally arranged with the connecting piece, so that the number of parts can be reduced, and the production cost can be reduced; the upper plate and the lower plate are arranged separately from the connecting piece, so that the upper plate and the lower plate can be processed into required shapes.

Optionally, when the support member is in the stowed state, the plurality of upper boards are located on a first plane parallel to the back plate, the plurality of lower boards are located on a second plane parallel to the back plate, the first plane is located above the second plane,

the plurality of upper plates include at least one upper magnetic plate and at least one upper mating plate corresponding to the at least one upper magnetic plate, the plurality of lower plates include at least one lower magnetic plate and at least one lower mating plate corresponding to the at least one lower magnetic plate,

when the supporting component is located in the supporting state, the upper layers of plates are spaced from the back plate, the upper magnetic plates and the corresponding upper matching plates are magnetically attracted, the lower magnetic plates and the corresponding lower matching plates are magnetically attracted, so that the supporting component is kept in the supporting state, and the at least one upper magnetic plate, the at least one upper matching plate, the at least one lower magnetic plate and the at least one lower matching plate are not parallel to the back plate.

According to the scheme, when the supporting member is located in the storage state, the supporting member is laid on the backboard, the supporting device is compact in structure, the whole thickness is small, the invisible effect to a certain degree is achieved, the storage is facilitated, the supporting member can be kept in the supporting state through the arrangement of the upper magnetic plate, the upper matching plate, the lower magnetic plate and the lower matching plate, the supporting member is unfolded into a solid shape, the mobile terminal can be supported on the desktop at an angle relative to the desktop, the supporting device is simple in structure, and large-scale production is achieved conveniently.

Optionally, the plurality of upper plates further includes an upper center plate, two upper side plates disposed on opposite sides of the upper center plate, and two upper additional side plates disposed on other opposite sides of the upper center plate, neither of the two upper side plates nor the two upper additional side plates being parallel to the back plate and neither of the two upper additional side plates being parallel to the upper center plate when the support member is in the supporting state.

According to the scheme, when the supporting member is in the supporting state, the two upper layer side plates and the two upper layer additional side plates are not parallel to the back plate and are not parallel to the upper layer central plate, so that the mobile terminal is obliquely supported on the desktop.

Optionally, when the support member is in the support state, the two upper side plates and the two upper additional side plates are both perpendicular to the back plate, and the upper central plate is parallel to the back plate.

According to the scheme, when the supporting member is in the supporting state, the two upper side plates and the two upper additional side plates are perpendicular to the back plate, so that the supporting member in the supporting state has enough height as a whole, and the mobile terminal is further supported on the desktop in an inclined mode.

Optionally, the two upper side plates and the two upper additional side plates are configured as rectangular plates or square plates, and when the support member is in the support state, the two upper side plates, the two upper additional side plates and the upper central plate surround to form a square structure without a bottom plate or a rectangular structure without a bottom plate.

According to the scheme, the upper layer side plate and the upper layer additional side plate are simple in structure, convenient to manufacture and capable of reducing production cost.

Optionally, the plurality of lower plates further include two lower side plates and two lower additional side plates, the two lower side plates in the storage state correspond to the two upper side plates in position, the two lower additional side plates in the storage state correspond to the two upper additional side plates in position, and when the support member is in the support state, neither the two lower side plates nor the two lower additional side plates are parallel to the back plate.

According to the scheme, when the supporting member is in the supporting state, the two lower-layer side plates and the two lower-layer additional side plates are not parallel to the back plate, so that the mobile terminal is obliquely supported on the desktop.

Optionally, when the support member is in the support state, the two lower side plates and the two lower additional side plates are perpendicular to the back plate.

According to the scheme, when the supporting member is in the supporting state, the two lower-layer side plates and the two lower-layer additional side plates are perpendicular to the back plate, so that the supporting member in the supporting state has enough height as a whole, and the mobile terminal is further supported on the desktop in an inclined mode.

Optionally, the two lower-layer side plates and the two lower-layer additional side plates are configured as rectangular plates or square plates, and when the support member is in the support state, the two lower-layer side plates, the two lower-layer additional side plates and the back plate surround a square structure without a top plate or a rectangular structure without a top plate.

According to the scheme, the lower-layer side plate and the lower-layer additional side plate are simple in structure, convenient to manufacture and capable of reducing production cost.

Optionally, the plurality of upper plates include four upper magnetic plates and four upper matching plates, four upper magnetic plates and four upper matching plates in a storage state are correspondingly arranged between the adjacent upper side plates and the upper additional side plates respectively, four upper magnetic plates and four upper matching plates in a support state are correspondingly arranged at four corner positions of a square structure without a bottom plate or a cuboid structure without a bottom plate respectively, and/or

A plurality of lower floor's board includes four lower floor's magnetic sheet and four lower floor's cooperation board is located four of accomodating the state lower floor's magnetic sheet and four lower floor's cooperation board sets up adjacent correspondingly respectively lower floor's curb plate with between the additional curb plate of lower floor, be located four of support state lower floor's magnetic sheet and four lower floor's cooperation board sets up correspondingly respectively four bight positions department of the cuboid structure of no square structure of roof or no roof.

According to the scheme, the four upper magnetic plates and the four lower matching plates are arranged, so that the four upper magnetic plates and the four lower matching plates which are located in the supporting state are correspondingly arranged at the positions of four corners of a square structure without a bottom plate or a cuboid structure without a bottom plate respectively, the magnetic parts and the corresponding matching plates are attracted in a magnetic mode, the magnetic parts are prevented from moving relative to the matching pieces, the supporting component is kept in the supporting state, and therefore the mobile terminal can be firmly supported on a desktop.

Optionally, when the support member is in the support state, the upper magnetic plate and the upper mating plate are both perpendicular to the back plate, the lower magnetic plate and the lower mating plate are both perpendicular to the back plate, and/or

The upper magnetic plate, the upper matching plate, the lower magnetic plate and the lower matching plate are all triangular.

According to the scheme, when the supporting member is in the supporting state, the upper magnetic plate and the upper matching plate are perpendicular to the back plate, so that the upper side plate, the upper additional side plate, the lower side plate and the lower additional side plate can be kept in a state of being perpendicular to the back plate. The upper magnetic plate, the upper matching plate, the lower magnetic plate and the lower matching plate are all triangular, so that the structure is simple, the processing is convenient, the interference between the upper magnetic plate and the upper matching plate in the supporting state and the interference between the upper side plate and the upper additional side plate can be avoided, and the interference between the lower magnetic plate and the lower matching plate in the supporting state and the interference between the lower side plate and the lower additional side plate can be avoided

Drawings

The following drawings of the utility model are included to provide a further understanding of the utility model. The drawings illustrate embodiments of the utility model and, together with the description, serve to explain the principles of the utility model.

In the drawings:

fig. 1 is a perspective view of a support device according to a preferred embodiment of the present invention, wherein the support device is in a stowed state;

FIG. 2 is another perspective view of the support device of FIG. 1, wherein the support device is in a support state;

FIG. 3 is a schematic perspective view of the supporting device of FIG. 2 for supporting a mobile terminal;

fig. 4 to 7 are schematic views illustrating a process of switching the supporting device in fig. 1 from a storage state to a supporting state, wherein fig. 4 is a schematic cross-sectional view of the supporting device and the supporting member is in the storage state, fig. 5 and 6 are schematic views illustrating the supporting device being unfolded after being subjected to a pulling force, and fig. 7 is a schematic view illustrating the supporting member being in the supporting state.

Description of reference numerals:

10: mobile terminal

100: supporting device

110: back plate

120: supporting member

130: connecting piece

141: magnetic plate of upper layer

142: upper layer matching board

143: upper central plate

144: upper side plate

145: upper layer additional side plate

151: lower magnetic plate

152: lower layer matching board

154: lower layer side plate

155: lower additional side plate

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that embodiments of the utility model may be practiced without one or more of these specific details. In other instances, well-known features have not been described in detail so as not to obscure the embodiments of the utility model.

In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the utility model. It is apparent that the implementation of the embodiments of the present invention is not limited to the specific details familiar to those skilled in the art. It should be noted that ordinal numbers such as "first" and "second" are used in the utility model only for identification and do not have any other meanings, such as a specific order. Also, for example, the term "first component" does not itself imply the presence of "second component", and the term "second component" does not itself imply the presence of "first component". The terms "upper", "lower", "front", "rear", "left", "right" and the like as used herein are for purposes of illustration only and are not limiting.

The present invention provides a supporting device 100 for supporting a mobile terminal. The mobile terminal can be a mobile phone, a tablet computer, a notebook computer and the like. The support device 100 according to the present invention may be attached to the mobile terminal by magnetic attraction, adhesion or snap-in, for example, the support device may be provided on the back of the mobile terminal to support the mobile terminal on a table top at an angle with respect to the horizontal plane.

The supporting device 100 according to the present invention will be described in detail with reference to fig. 1 to 7.

As shown in fig. 1 to 3, the supporting device 100 mainly includes a back plate 110 and a supporting member 120 connected to the back plate 110, the back plate 110 being used for connecting to the mobile terminal 10. As shown in fig. 3, one side of the back plate 110 is connected to the mobile terminal 10, and the support member 120 is connected to a side of the back plate 110 facing away from the mobile terminal 10. The support member 120 can be switched between a stored state (fig. 1) in which it is laid on the back plate 110 and a support state (fig. 2 to 3) in which it is unfolded into a solid shape, and the support member 120 in the support state can support the mobile terminal 10 on a table at an angle with respect to a horizontal plane.

The back plate 110 may have a magnet built therein, or a magnet may be disposed on one side surface of the back plate 110, so that the one side surface of the back plate 110 may be attracted to the mobile terminal 10 having a magnetic coil built therein. In one embodiment, not shown, a side of the back plate is provided with a backing glue, such that the back plate can be attached to the mobile terminal by the backing glue. In another embodiment, not shown, the peripheral edge of the back plate may be provided with a bent snap-in portion, which may be snapped into the mobile terminal.

In the present embodiment, the back plate 110 is substantially configured as a rectangular plate, and four corners of the back plate 110 are rounded. The back panel 110 preferably has an overall size smaller than that of the mobile terminal 10 so that the supporting device 100 in the stored state is not easily visible from the front of the mobile terminal 10 when the mobile terminal 10 is placed on a desktop at the front. It will be understood by those skilled in the art that the shape of the back plate 110 is not limited to the present embodiment, and the back plate 110 may be configured as a square, a polygon, or any other suitable shape plate as required.

The support member 120 includes a connection member 130, a plurality of upper plates, and a plurality of lower plates. In the present embodiment, the connection member 130 is provided separately from the plurality of upper plates and the plurality of lower plates. The connection member 130 is made of a flexible material, and the connection member 130 is connected to the back plate 110. For example, the connecting member 130 may be made of cloth, leather material (real leather or artificial leather). The plurality of upper plates and the plurality of lower plates are each made of a rigid material and are each configured in a flat plate shape. For example, the upper and lower plates may be made of a metal material.

The plurality of upper plates are connected to the connection members 130, respectively, and are disposed spaced apart from each other. The plurality of lower plates are connected to the connection members 130, respectively, and are disposed to be spaced apart from each other. In the present embodiment, the plurality of upper plates are attached to the connection member 130, and the plurality of lower plates are attached to the connection member 130. Specifically, the plurality of upper plates and the plurality of lower plates are connected to the connection member 130 via glue. For example, the plurality of upper plates and the plurality of lower plates are adhered to the connection member 130 via liquid glue or solid glue, or the plurality of upper plates and the plurality of lower plates are thermally pressed to the connection member 130 via hot melt glue. Therefore, the connection member may be bent from the gap between the adjacent two upper plates, the gap between the adjacent two lower plates, and the gap between the adjacent upper and lower plates to achieve switching of the support member 120 from the storage state to the support state.

Preferably, a gap between adjacent two of the plurality of upper plates is 0.5 to 3mm, a gap between adjacent two of the plurality of lower plates is 0.5 to 3mm, and a gap between adjacent upper and lower plates is 0.5 to 3 mm. It is further preferable that a gap between two adjacent upper boards of the plurality of upper boards, a gap between two adjacent lower boards of the plurality of lower boards, and a gap between the adjacent upper boards and the adjacent lower boards are all equal, so that the supporting device 100 is unfolded into a regular three-dimensional shape, such that the mobile terminal 10 is stably supported by the supporting device 100, and the appearance of the supporting device 100 is beautiful.

In one embodiment, not shown, the connector is integral with at least one of the plurality of upper and lower decks. For example, the connecting member may be integrally formed with the plurality of upper plates and the plurality of lower plates, thereby reducing the number of parts and the production cost.

With continued reference to fig. 1 and 3, when the support member 120 is in the stowed state, the plurality of upper boards are located on a first plane parallel to the back plate 110, the plurality of lower boards are located on a second plane parallel to the back plate 110, and the first plane is located above the second plane. It should be noted that the first plane and the second plane are both virtual planes parallel to the back plate 110, and are not shown in the drawing. That is, when the support member 120 is in the storage state, the plurality of upper plates are disposed above the plurality of lower plates. Specifically, the plurality of upper plates may be directly laid over the plurality of lower plates, or a connecting member may be interposed between the plurality of upper plates and the plurality of lower plates.

The plurality of upper plates includes at least one upper magnetic plate 141 and at least one upper mating plate 142 corresponding to the at least one upper magnetic plate 141. The plurality of lower plates includes at least one lower magnetic plate 151 and at least one lower mating plate 152 corresponding to the at least one lower magnetic plate 151. When the supporting member 120 is in the supporting state, the plurality of upper plates are spaced apart from the back plate 110 by a predetermined distance, the upper magnetic plate 141 and the corresponding upper mating plate 142 are magnetically attracted, and the lower magnetic plate 151 and the corresponding lower mating plate 152 are magnetically attracted, so that the upper magnetic plate 141 is prevented from being displaced with respect to the upper mating plate 142, and the lower magnetic plate 151 is prevented from being displaced with respect to the lower mating plate 152, so that the supporting member 120 is maintained in the supporting state, so that the mobile terminal 10 can be stably supported on a desktop.

In the present embodiment, the upper magnetic plate 141, the upper mating plate 142, the lower magnetic plate 151, and the lower mating plate 152 are all made of a magnetic material. Specifically, one of the upper magnetic plate 141 and the upper mating plate 142 may be a magnet, and the other of the upper magnetic plate 141 and the upper mating plate 142 may be a magnet capable of magnetically attracting the upper magnetic plate 141, or the other of the upper magnetic plate 141 and the upper mating plate 142 may be made of iron so that the upper magnetic plate 141 can magnetically attract the upper mating plate 142. One of the lower magnetic plate 151 and the lower mating plate 152 may be a magnet, and the other of the lower magnetic plate 151 and the lower mating plate 152 may be a magnet capable of magnetically attracting the upper magnetic plate 141, or the other of the lower magnetic plate 151 and the lower mating plate 152 may be made of iron so that the lower magnetic plate 151 can magnetically attract to the lower mating plate 152.

In the present embodiment, when the supporting member 120 is in the supporting state, none of the at least one upper magnetic plate 141, the at least one upper mating plate 142, the at least one lower magnetic plate 151 and the at least one lower mating plate 152 are parallel to the back plate 110, so that the supporting member 120 in the stowed state can be unfolded into a solid shape to be able to support the mobile terminal 10 on a desktop at an angle with respect to the desktop.

The plurality of upper panels also includes an upper center panel 143, two upper side panels 144, and two upper additional side panels 145. The two upper layer side panels 144 are disposed on opposite sides of the upper layer center panel 143 and the two upper layer additional side panels 145 are disposed on the other opposite sides of the upper layer center panel 143. When the support member 120 is in the supporting state, neither the two upper layer side panels 144 nor the two upper layer additional side panels 145 are parallel to the back panel 110 and neither is parallel to the upper layer center panel 143, so that the support member 120 can be unfolded into a solid shape to facilitate obliquely supporting the mobile terminal 10 on a table top.

Preferably, when the support member 120 is in the support state, the two upper side panels 144 and the two upper additional side panels 145 are perpendicular to the back panel 110, and the upper center panel 143 is parallel to the back panel 110. In the present embodiment, the upper center panel 143, the two upper side panels 144, and the two upper additional side panels 145 are configured as rectangular panels. The two upper side panels 144 are oppositely disposed on both sides of the upper center panel 143, and the dimension of the long side of the two upper side panels 144 is preferably equal to the dimension of the long side of the upper center panel 143. The two upper-layer additional side plates 145 are oppositely disposed at both ends of the center plate, and the short side size of the two upper-layer additional side plates 145 is preferably equal to the short side size of the upper-layer center plate 143. Further preferably, the width of the two upper side panels 144 is equal to the length of the two upper additional side panels 145.

Since the upper-layer central plate 143, the two upper-layer side plates 144, and the two upper-layer additional side plates 145 are all disposed spaced apart from each other, when the support member 120 is in the storage state, the connection 130 may be bent from the gap between the upper-layer central plate 144 and the upper-layer central plate 143 such that the upper-layer central plate 144 is turned upside down with respect to the upper-layer central plate 143, and the connection 130 may be bent from the gap between the upper-layer additional side plates 145 and the upper-layer central plate 143 such that the upper-layer additional side plates 145 are turned upside down with respect to the upper-layer central plate 143. Therefore, when the support member 120 is in the supported state, the two upper layer side panels 144, the two upper layer additional side panels 145, and the upper layer center panel 143 can surround to form a rectangular parallelepiped structure without a bottom plate.

Those skilled in the art will appreciate that the structure of the upper central panel 143, the two upper side panels 144 and the two upper additional side panels 145 is not limited to the present embodiment. In a not shown embodiment, the upper central panel, the two upper side panels and the two upper additional side panels may also be configured as square panels, such that when the support member is in the supporting state, the two upper side panels, the two upper additional side panels and the upper central panel surround to form a square structure without a bottom panel. The two upper side panels and the two upper additional side panels may also be configured in any other suitable shape as desired.

The plurality of lower plates further includes two lower side plates 154 and two lower additional side plates 155, the positions of the two lower side plates 154 in the stored state correspond to the positions of the two upper side plates 144, and the positions of the two lower additional side plates 155 in the stored state correspond to the positions of the two upper additional side plates 145. That is, the two lower side plates 154 in the stored state are disposed below the two upper side plates 144, and the two lower additional side plates 155 in the stored state are disposed below the two upper additional side plates 145. When the support member 120 is in the supporting state, neither the two lower side plates 154 nor the two lower additional side plates 155 are parallel to the back plate 110, so that the support member 120 can be unfolded into a solid shape, so as to support the mobile terminal 10 on a table obliquely.

Preferably, when the support member 120 is in the supporting state, both the lower side plates 154 and the lower additional side plates 155 are perpendicular to the back plate 110. The two lower side plates 154 and the two lower additional side plates 155 are configured as rectangular plates, the two lower side plates 154 have the same size as the two upper side plates 144, and the two lower additional side plates 155 and the two upper additional side plates 145 have the same size.

Since the two lower side plates 154 and the two lower additional side plates 155 are disposed to be spaced apart from each other, when the support member 120 is in the storage state, it is possible to turn the lower side plate 154 with respect to the back plate 110 and turn the lower additional side plate 155 with respect to the back plate 110. Therefore, when the support member 120 is in the supported state, the two lower side plates 154, the two lower additional side plates 155, and the back plate 110 can surround to form a rectangular parallelepiped structure without a top plate.

It will be understood by those skilled in the art that the shapes of the two lower side plates 154 and the two lower additional side plates 155 are not limited to the present embodiment. In an embodiment, which is not shown, the two lower side panels and the two lower additional side panels may also be configured as square panels, such that when the support member is in the supporting state, the two lower side panels, the two lower additional side panels and the back panel surround to form a square structure without a bottom panel. The two lower side panels 154 and the two lower additional side panels 155 may also be configured in any other suitable shape as desired.

In addition, the plurality of lower plates further include a lower central plate (not shown), and the position and shape of the lower central plate may correspond to the position and shape of the upper central plate 143, respectively. That is, the two lower side plates 154 are disposed on opposite sides of the lower central plate, and the two lower additional side plates 155 are disposed on the other opposite sides of the lower central plate. One side of the lower center plate is connected to the link 130 and the other side is connected to the back plate 110, or the lower center plate is attached to the side of the link 130 facing away from the back plate 110. By providing the lower central panel, the connection member 130 can be more securely connected to the back panel 110, and the support member 120 in the supported state can be maintained in the supported state.

In the present embodiment, the plurality of upper plates include four upper magnetic plates 141 and four upper fitting plates 142, the four upper magnetic plates 141 and the four upper fitting plates 142 in the accommodated state are respectively provided between the adjacent upper side plate 144 and the upper additional side plate 145, and the four upper magnetic plates 141 and the four upper fitting plates 142 in the supported state are respectively provided at four corner positions of a rectangular parallelepiped structure without a bottom plate or a rectangular parallelepiped structure without a bottom plate. Preferably, when the supporting member 120 is in the supporting state, the upper magnetic plate 141 and the upper mating plate 142 are perpendicular to the back plate 110, and the lower magnetic plate 151 and the lower mating plate 152 are perpendicular to the back plate 110.

Specifically, the upper magnetic plate 141 and the upper mating plate 142 are each configured in a triangular shape. When the support member 120 is in the storage state, the upper magnetic plate 141 is disposed near the long side of the upper additional side plate 145, and the upper mating plate 142 is disposed near the short side of the upper side plate 144. Since the upper magnetic plate 141, the upper mating plate 142, the upper side plate 144, and the upper additional side plate 145 are all disposed spaced apart from each other, when the support member 120 is in the accommodated state, the upper magnetic plate 141 may be turned outward from the gap between the upper magnetic plate 141 and the upper additional side plate 145, and the upper mating plate 142 may be turned outward from the gap between the upper mating plate 142 and the upper side plate 144, so that when the support member 120 is in the supported state, the upper magnetic plate 141 and the upper mating plate 142 are magnetically attracted and attached together to prevent the upper magnetic plate 141 from moving relative to the upper mating plate 142, thereby enabling the relative positions between the upper central plate 143, the upper side plate 144, and the upper additional side plate 145 to be maintained.

The plurality of lower plates include four lower magnetic plates 151 and four lower mating plates 152, the four lower magnetic plates 151 and the four lower mating plates 152 in the storage state are respectively disposed between the adjacent lower side plate 154 and the lower additional side plate 155, and the four lower magnetic plates 151 and the four lower mating plates 152 in the support state are respectively disposed at four corner positions of a cube structure without a top plate or a cuboid structure without a top plate.

Specifically, the lower magnetic plate 151 and the lower mating plate 152 are each configured in a triangular shape. The positions and structures of the four lower magnetic plates 151 and the four lower mating plates 152 correspond to the positions and structures of the four upper magnetic plates 141 and the four upper mating plates 142, respectively, so that when the support member 120 is in the supporting state, the lower magnetic plates 151 and the lower mating plates 152 are magnetically attracted and attached together to prevent the lower magnetic plates 151 from moving relative to the lower mating plates 152, thereby enabling the relative positions between the lower side plates 154 and the lower additional side plates 155 to be maintained.

Preferably, at least one upper plate is provided with a grip part (not shown), which may be integrally or separately provided with the upper plate. For example, the gripping portion may be configured as a circular ring, a straight line, an L-shape, or any other suitable shape. The user may apply a pulling force or a pressing force to the support member 120 through the catching hand portion to switch the support member 120 between the storage state and the supporting state.

Fig. 4 to 7 are schematic views illustrating a process of switching the supporting member 120 of the supporting device 100 of the present invention from the accommodated state to the supporting state. As shown in fig. 4, the supporting member 120 is in a storage state, in which the supporting member is flatly attached to the back plate 110 in a folded state. As shown in fig. 5 and 6, the support member 120 is deformed by being unfolded outward by applying a pulling force to the support member 120. As shown in fig. 7, the support member 120 is unfolded to a supporting state. The process of switching the supporting member 120 from the supporting state to the storing state is reverse to the above process, and thus, a detailed description thereof will not be given.

According to the supporting device provided by the utility model, when the supporting member is in the storage state, the supporting member is laid on the back plate, so that the supporting device is compact in structure and thin in overall thickness, so that certain invisibility can be realized, and the storage is convenient.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. Terms such as "disposed" and the like, as used herein, may refer to one element being directly attached to another element or one element being attached to another element through intervening elements. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.

The present invention has been described in terms of the above embodiments, but it should be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the utility model to the scope of the described embodiments. It will be appreciated by those skilled in the art that many variations and modifications may be made to the teachings of the utility model, which fall within the scope of the utility model as claimed.

Claims (11)

1. A supporting device for supporting a mobile terminal, the supporting device comprising:

a backplane for connecting to the mobile terminal; and

a support member provided at one side of the back plate and switchable between a storage state and a support state, the support member including:

a connector connected to the back plate;

a plurality of upper plates connected to the connection members, respectively, and disposed to be spaced apart from each other; and

a plurality of lower plates connected to the connection members, respectively, and disposed to be spaced apart from each other.

2. The support device of claim 1,

at least one of the plurality of upper plates and the plurality of lower plates is integrally provided with the connecting member, or

The upper plates and the lower plates are arranged separately from the connecting piece.

3. The support device of claim 1,

when the support member is in the stowed state, the plurality of upper boards are positioned on a first plane parallel to the back plate, the plurality of lower boards are positioned on a second plane parallel to the back plate, the first plane is positioned above the second plane,

the plurality of upper plates include at least one upper magnetic plate and at least one upper mating plate corresponding to the at least one upper magnetic plate, the plurality of lower plates include at least one lower magnetic plate and at least one lower mating plate corresponding to the at least one lower magnetic plate,

when the supporting component is located in the supporting state, the upper layers of plates are spaced from the back plate, the upper magnetic plates and the corresponding upper matching plates are magnetically attracted, the lower magnetic plates and the corresponding lower matching plates are magnetically attracted, so that the supporting component is kept in the supporting state, and the at least one upper magnetic plate, the at least one upper matching plate, the at least one lower magnetic plate and the at least one lower matching plate are not parallel to the back plate.

4. The support device of claim 3, wherein the plurality of upper panels further comprises an upper central panel, two upper side panels disposed on opposite sides of the upper central panel, and two upper additional side panels disposed on opposite sides of the upper central panel, wherein neither the two upper side panels nor the two upper additional side panels are parallel to the back panel and neither the upper central panel nor the upper central panel when the support member is in the supported state.

5. The support device of claim 4, wherein the two upper side panels and the two upper additional side panels are each perpendicular to the back panel and the upper central panel is parallel to the back panel when the support member is in the support state.

6. Support device according to claim 5,

the two upper side panels and the two upper additional side panels are configured as rectangular or square panels and/or

When the support member is in the support state, the two upper side plates, the two upper additional side plates and the upper central plate surround to form a square structure without a bottom plate or a rectangular parallelepiped structure without a bottom plate.

7. The support device of claim 6, wherein the plurality of lower panels further comprises two lower side panels and two lower additional side panels, the two lower side panels in the stowed position corresponding to the two upper side panels and the two lower additional side panels in the stowed position corresponding to the two upper additional side panels, neither of the two lower side panels nor the two lower additional side panels being parallel to the back panel when the support member is in the support position.

8. The support device of claim 7, wherein the two lower side plates and the two lower additional side plates are each perpendicular to the back plate when the support member is in the supported state.

9. The support device of claim 8,

the two lower side panels and the two lower additional side panels are configured as rectangular or square panels and/or

When the support member is in the support state, the two lower-layer side plates, the two lower-layer additional side plates and the back plate surround to form a cube structure without a top plate or a cuboid structure without a top plate.

10. The support device of claim 9,

a plurality of upper strata boards include four upper magnetic plate and four upper cooperation board is located four of accomodating the state upper magnetic plate and four upper cooperation board corresponds ground respectively and sets up adjacently the upper curb plate with between the additional curb plate of upper strata, be located four of support state upper magnetic plate and four upper cooperation board corresponds ground respectively and sets up four bight positions department of the square structure of no bottom plate or the cuboid structure of no bottom plate to/or

A plurality of lower floor's board includes four lower floor's magnetic sheet and four lower floor's cooperation board is located four of accomodating the state lower floor's magnetic sheet and four lower floor's cooperation board sets up adjacent correspondingly respectively lower floor's curb plate with between the additional curb plate of lower floor, be located four of support state lower floor's magnetic sheet and four lower floor's cooperation board sets up correspondingly respectively four bight positions department of the cuboid structure of no square structure of roof or no roof.

11. The support device of any one of claims 3 to 10,

when the supporting member is in the supporting state, the upper magnetic plate and the upper mating plate are both perpendicular to the back plate, the lower magnetic plate and the lower mating plate are both perpendicular to the back plate, and/or

The upper magnetic plate, the upper matching plate, the lower magnetic plate and the lower matching plate are all triangular.

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