Flat-plate type mobile equipment supporting structure
Technical Field
The utility model relates to a mobile device bearing structure indicates especially that one kind supplies the mobile device to put fixedly, convertible and reversal use the kenel and accomodate the flat mobile device support frame structure who carries as required.
Background
In daily life, mobile devices such as smart phones, tablet PADs, e-book readers and the like are popularized, and due to the maturity of display interfaces and touch technologies and the extensive development and use of audio and video playing, large-area mobile devices capable of being freely converted into horizontal or straight modes are convenient to carry and quite flexible in handheld operation, and become mainstream at present.
However, such mobile devices have some small disadvantages in use, such as that the user must take the mobile device and touch the viewing screen with one hand, so that the user is very careful, the mobile device may be seriously damaged if the user accidentally slips off the mobile device, and the user may feel uncomfortable when holding the mobile device with one hand for a long time without any auxiliary device. If the mobile device is leaned on a desktop or an object, the mobile device is still easy to slide, and a better viewing angle is not easy to adjust, which causes inconvenience to viewers.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a flat mobile device bearing structure, rely on the flat mobile device bearing structure of expansion state easily to accomodate the effect of easily carrying, buckle to be the flat mobile device of standing the state and support and stop outside mobile device and reach the user and need not to hand and can watch outside mobile device.
In order to achieve the above object, the utility model adopts the following technical scheme:
a tablet-style mobile device support structure comprising:
a plate main body: the clamping piece is used for placing external mobile equipment;
a turnover sheet: the middle section part is positioned at one side of the flat plate main body;
a transverse turning trace which is positioned between the flat plate main body and the turning sheet;
a first radiation area is positioned at the left side of the turnover sheet and extends from the head end of the transverse turnover mark, the first radiation area is provided with a first radioactive ray, a second radioactive ray and a third radioactive ray, a left triangular laminating sheet is arranged between the first radioactive ray and the second radioactive ray, and a left triangular linkage sheet is arranged between the second radioactive ray and the third radioactive ray; and
a second radiation area located at the right side of the turnover sheet and extending from the end of the transverse turnover mark, the second radiation area having a fourth radiation, a fifth radiation and a sixth radiation, a right triangular bonding sheet between the fourth radiation and the fifth radiation, and a right triangular coupling sheet between the fifth radiation and the sixth radiation.
The flat plate type mobile equipment supporting structure is characterized in that when the turnover sheet is folded towards the flat plate main body by utilizing the transverse turnover mark, the left triangular laminating sheet is laminated with the left triangular linkage sheet, and the right triangular laminating sheet is laminated with the right triangular linkage sheet so as to drive the left triangular linkage sheet to stand up and drive the right triangular linkage sheet to stand up, so that the turnover sheet is tilted.
The flat-plate mobile equipment supporting structure is characterized in that the first radioactive ray is reversely bent and the second radioactive ray is inwards bent, so that the left triangular laminating sheet is attached to the left triangular linkage sheet, and the left triangular linkage sheet is driven to stand up by means of the inwards bending of the third radioactive ray; the fourth radioactive ray is bent reversely and the fifth radioactive ray is bent inwards to enable the right triangular laminating sheet to be attached to the right triangular linkage sheet, and the right triangular linkage sheet is driven to stand up by means of the sixth radioactive ray, so that the turnover sheet is supported to tilt up.
The flat plate type mobile equipment supporting structure is characterized in that the flat plate main body is reversely rotated, so that the turnover sheet supports the flat plate main body, and the flat plate main body is an inclined surface.
When the folding sheet is folded towards the flat plate main body by using the transverse overturning mark, the left triangular laminating sheet and the right triangular laminating sheet respectively laminate the folding sheet to drive the left triangular linkage sheet and the right triangular linkage sheet to stand up, so that the folding sheet is tilted.
In the flat-plate type mobile equipment supporting structure, the first radioactive ray is bent inwards to enable the left triangular laminating sheet to be laminated to the turnover sheet, and the second radioactive ray is bent reversely and the third radioactive ray is bent inwards to drive the left triangular linkage sheet to stand up; the fourth radioactive ray is bent inwards to enable the right triangular laminating piece to be attached to one surface of the turnover piece, and the fifth radioactive ray is bent reversely and the sixth radioactive ray is bent inwards to drive the right triangular linkage piece to stand up so as to support the turnover piece to tilt up.
The flat plate type mobile equipment supporting structure is characterized in that the flat plate main body is reversely rotated, and the turnover sheet supports the flat plate main body to enable the flat plate main body to be an inclined surface.
The flat-plate type mobile equipment supporting structure is magnetic in attraction.
Compared with the prior art, adopt above-mentioned technical scheme the utility model has the advantages of: easy to store and carry.
In addition, when the flat plate type mobile equipment supporting structure is deformed into a mobile equipment supporting structure, when the turnover sheet is bent and folded towards the flat plate main body by utilizing the transverse turnover mark, the left triangular laminating sheet is laminated on one surface of the left triangular linkage sheet, the right triangular laminating sheet is laminated on one surface of the right triangular linkage sheet, so that the left triangular linkage sheet and the right triangular linkage sheet are driven to stand up, the turnover sheet is enabled to tilt, the upper edge of the turnover sheet is abutted against external mobile equipment, the external mobile equipment is blocked on the inner side of the clamping sheet, and the effect that a user can watch the external mobile equipment without holding the turnover sheet by hand is achieved.
In addition, when the flat plate type mobile equipment supporting structure is deformed into a mobile equipment supporting structure, when the turnover piece is bent and folded towards the flat plate main body by utilizing the transverse turnover mark, the left triangular laminating piece and the right triangular laminating piece respectively laminate the turnover piece to drive the left triangular linkage piece and the right triangular linkage piece to stand up, so that the turnover piece tilts up to push the upper edge of the turnover piece to the external mobile equipment, the clamping piece blocks the external mobile equipment on the inner side, and the effect that a user can watch the external mobile equipment without holding the external mobile equipment by hand is achieved.
Drawings
Fig. 1 is an external view of a supporting structure of a flat mobile device according to a first embodiment of the present invention.
Fig. 2 is a schematic diagram of a second embodiment of the present invention showing a support structure for a mobile device.
Fig. 3 is a schematic view of a supporting frame for a mobile device according to a second embodiment of the present invention.
Fig. 4 is an external view of a support frame for a mobile device according to a third embodiment of the present invention.
Fig. 5 is a schematic diagram of a support frame for a mobile device according to a fourth embodiment of the present invention.
Fig. 6 is a schematic view illustrating another usage state of the support frame for mobile device according to the fourth embodiment of the present invention.
Fig. 7 is an external view of a support frame for a mobile device according to a fifth embodiment of the present invention.
Description of reference numerals: 1, a flat plate type mobile equipment supporting structure; 2 a plate body; 21 a clip piece; 3 an external mobile device; 4, folding the sheet; 5, transversely turning over marks; 6 a first emission area; 61 a first radiation; 62 a second radiation; 63 a third radiation; 64 left triangular fitting pieces; 65 a triangular linkage sheet on the left side; 7 a second emission area; 71 a fourth radiation; 72 fifth radiation; 73 sixth radiation; 74 right triangular fitting pieces; 75 triangular linkage plate on the right side.
Detailed Description
Please refer to fig. 1, which is an appearance diagram of a supporting structure of a flat-panel mobile device according to a first embodiment of the present invention. In the figure, the flat-plate type mobile equipment supporting structure 1 is internally provided with magnetic attraction, and the flat-plate type mobile equipment supporting structure 1 comprises a flat-plate main body 2, a turnover sheet 4, a transverse turnover mark 5, a first radiation area 6 and a second radiation area 7. The flat plate main body 2 is provided with at least one clamping piece 21, the flat plate main body 2 is used for placing an external mobile device 3, the turnover sheet 4 is positioned at the middle section of one side of the flat plate main body 2, and the transverse turnover mark 5 is positioned between the flat plate main body 2 and the turnover sheet 4.
The first radiation area 6 is located on the left side of the folding piece 4 and extends from the head end of the transverse folding trace 5, the first radiation area 6 has a first radial line 61, a second radial line 62 and a third radial line 63, a left triangular bonding sheet 64 is arranged between the first radial line 61 and the second radial line 62, a left triangular coupling sheet 65 is arranged between the second radial line 62 and the third radial line 63, the second radiation area 7 is located on the right side of the folding piece 4 and extends from the tail end of the transverse folding trace 5, the second radiation area 7 has a fourth radial line 71, a fifth radial line 72 and a sixth radial line 73, a right triangular bonding sheet 74 is arranged between the fourth radial line 71 and the fifth radial line 72, and a right triangular coupling sheet 75 is arranged between the fifth radial line 72 and the sixth radial line 73, so that the flat plate type mobile equipment supporting structure 1 is easy to store and carry.
Please refer to fig. 2 and fig. 3 with reference to fig. 1, which are a schematic diagram of a support frame for a mobile device according to a second embodiment of the present invention. In the figure, when the folding piece 4 on the flat plate type mobile equipment supporting structure 1 is folded towards the flat plate main body 2 by the transverse folding trace 5, the left triangular laminating piece 64 is laminated with the left triangular linkage piece 65, the right triangular laminating piece 74 is laminated with the right triangular linkage piece 75, so as to drive the left triangular linkage piece 65 and the right triangular linkage piece 75 to stand up, the folding piece 4 is tilted to push the upper edge of the folding piece 4 against the external mobile equipment 3, and the external mobile equipment 3 is blocked inside the clamping piece 21.
The first radioactive ray 61 is bent reversely and the second radioactive ray 62 is bent inward to make the left triangular adhesive sheet 64 adhere to the left triangular linkage sheet 65, and the left triangular linkage sheet 65 is driven to stand up by the inward bending of the third radioactive ray 63; the fourth radial line 71 is reversely bent and the fifth radial line 72 is inwardly bent to make the right triangular adhesive sheet 74 adhere to the right triangular coupling sheet 75, and the sixth radial line 73 is inwardly bent to drive the right triangular coupling sheet 75 to stand up, so as to support the folding sheet 4 to support the transverse external mobile device 3 of the present embodiment, thereby achieving the effect that the user can watch the external mobile device without holding the device.
Please refer to fig. 4 and fig. 2 for an appearance of a mobile device support according to a third embodiment of the present invention. In the figure, the flat plate type mobile device supporting structure 1 can also be turned over to the back side to turn over the flat plate main body 2 in the previous embodiment, so that the turning sheet 4 supports the flat plate main body 2, the flat plate main body 2 is an inclined surface to abut the back side of the flat plate main body 2 against an external mobile device (not shown), and the inner side of the clamping sheet 21 abuts against the external mobile device (not shown), thereby achieving the effect that a user can watch the external mobile device without holding the external mobile device by hand.
Please refer to fig. 5 and fig. 6 with reference to fig. 1, which are a schematic diagram of a supporting structure of a mobile device according to a fourth embodiment of the present invention, and another schematic diagram of a use state. In the figure, when the folding piece 4 of the flat plate type mobile device supporting structure 1 is folded and folded towards the flat plate main body 2 by the transverse turning trace 5, the left triangular engaging piece 64 and the right triangular engaging piece 74 respectively engage with the folding piece 4 to drive the left triangular coupling piece 65 and the right triangular coupling piece 75 to be erected, so that the folding piece 4 is tilted to push the upper edge of the folding piece 4 against the external mobile device 3, and the clamping piece 21 blocks the external mobile device 3 inside.
The first radioactive ray 61 is bent inward to make the left triangular bonding sheet 64 bonded to one side of the turnover sheet 4, the second radioactive ray 62 is bent reversely and the third radioactive ray 63 is bent inward to drive the left triangular linkage sheet 65 to stand up; the fourth radial line 71 is inwardly bent to enable the right triangular bonding sheet 74 to be bonded to the turnover sheet 4, the fifth radial line 72 is reversely bent and the sixth radial line 73 is inwardly bent to drive the right triangular coupling sheet 75 to stand up so as to support the turnover sheet 4 to support the longitudinal external mobile device 3 of the embodiment, so that the user can view the external mobile device without holding the external mobile device by hand, and the external mobile device 3 can be horizontally or vertically arranged.
Please refer to fig. 7 with reference to fig. 6, which is an appearance schematic diagram of a mobile device support frame according to a fifth embodiment of the present invention. In the figure, the flat plate type mobile device supporting structure 1 can also be turned over to the back side to turn over the flat plate main body 2 in the previous embodiment, so that the turning sheet 4 supports the flat plate main body 2, the flat plate main body 2 is an inclined surface to abut the back side of the flat plate main body 2 against an external mobile device (not shown), and the inner side of the clamping sheet 21 abuts against the external mobile device (not shown), thereby achieving the effect that a user can watch the external mobile device without holding the external mobile device by hand.