CN104455981A - Bracket - Google Patents

Abstract

A bracket comprises a carrier plate, a support piece and a rotating shaft for pivoting the carrier plate onto the support piece. A guide rail is formed on one of the carrier plate and the support piece; a first location part is formed on the rotating shaft; a plurality of second location parts are formed on the guide rail; and the first location part is arranged with one second location part selectively in a clamping manner to locate the carrier plate on the support piece. The height, turning direction and elevation of the bracket can be adjusted according to actual demands, so that the bracket meets different watching requirements on mobile equipment.

Description

Support

Technical field

The present invention relates to a kind of support, refer to a kind of support of mobile device especially.

Background technique

Along with the development of science and technology, the application of mobile device in the middle of daily life such as such as mobile phone, panel computer, video player are more and more extensive.Because the function of mobile device is become stronger day by day, therefore except out using, people also can carry out in indoor using the computer with alternative heaviness usually.In the process of indoor use, because mobile device itself does not have supporting structure, conveniently watch for a long time, support usually can be used to support mobile device, make it be erected on the carriers such as desktop towards user's play content.But existing support only has angle regulating function usually, and does not have height adjusting function, thus make user mobile device cannot be adjusted to applicable position.

Summary of the invention

Therefore, be necessary to provide a kind of adjustable for height support.

A kind of support, comprise support plate and be installed on the supporting element on support plate by rotating shaft, supporting element and one of them person of support plate form guide rail, rotating shaft forms the first positioning part, guide rail comprises multiple second positioning part, and the first positioning part is optionally established with wherein one second positioning part card and is positioned on supporting element by support plate.

When the supporting element of support is placed on the carriers such as such as desktop, by regulating the first positioning part, makes it optionally be arranged in the second different positioning parts, support plate can be positioned the position of the different heights of supporting element.Further, by being rotated around the shaft relative to supporting element by support plate, also can regulate the angle of support plate simultaneously, thus enable user watch the content of the mobile device be placed on support plate according to demand neatly.

With reference to the accompanying drawings, the invention will be further described in conjunction with specific embodiments.

Accompanying drawing explanation

Fig. 1 is the view of the stent support mobile device of one embodiment of the invention.

Fig. 2 is the view of the support of Fig. 1 and another angle of mobile device.

Fig. 3 is the exploded view of the support of Fig. 1.

Fig. 4 is the view at another visual angle of support of Fig. 3.

Fig. 5 is the magnified partial view of the rotating shaft of the support of Fig. 3.

Primary component symbol description

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1, show the support 10 of one embodiment of the invention.Support 10 is for supporting the mobile devices 20 such as such as mobile phone, panel computer, video player, reader, guider.

See also Fig. 2-4, support 10 comprises support plate 30, supporting element 40 and connects the rotating shaft 50 of support plate 30 and supporting element 40.In the present embodiment, support plate 30 is a housing, they multiple sidewalls 34 comprising a substrate 32 and be formed at substrate 32 periphery.Substrate 32 and sidewall 34 surround a cavity 300 of collecting mobile device 20 jointly.Mobile device 20 can embed in cavity 300, thus is fixed on support plate 30.Support plate 30 has also been sticked in the front of substrate 32 magnetic conduction construction 36.Magnetic conduction construction 36 is fixed by the mode opposing substrate 32 such as bonding.Magnetic conduction construction 36 is roughly in cross, and it is made up of orthogonal first magnetic conducting plate 360 and the second magnetic conducting plate 362.First magnetic conducting plate 360 is arranged in the horizontal direction, and the second magnetic conducting plate 362 is vertically arranged.The length of the second magnetic conducting plate 362 is greater than the length of the first magnetic conducting plate 360.In the present embodiment, the first magnetic conducting plate 360 and the second magnetic conducting plate 362 are iron plate.The back side of substrate 32 forms a boss 320 at the position evagination near end.The medium position place of boss 320 offers a groove 322 further, for accommodating supporting element 40.The back side central region of substrate 32 offers a shrinkage pool 324, for being embedded rotating shaft 50.Shrinkage pool 324 aligns with the joint of the first magnetic conducting plate 360 and the second magnetic conducting plate 362.

Supporting element 40 comprises a pedestal 60 and and is articulated in base 70 on pedestal 60.Pedestal 60 is one is roughly trapezoidal flat board, and its width reduces from bottom to top gradually.The length of pedestal 60 is slightly less than the length of support plate 30.The shape on pedestal 60 top is consistent with the shape of the groove 322 of substrate 32, and pedestal 60 top can be inserted in groove 322 and pedestal 60 is drawn in support plate 30.A guide rail extended along its length 62 is offered at the middle part of pedestal 60.In the present embodiment, guide rail 62 is the fluting of a lengthwise, and its two relative inner side surface forms multiple spaced locating slot 620.The every locating slot 620 of side of guide rail 62 and locating slot 620 one_to_one corresponding of relative opposite side.Be spaced from each other by projection between the adjacent locating slot 620 of the every side of guide rail 62.Two magnetic elements 64 are individually fixed in the relative both sides position of front near guide rail 62 of pedestal 60.Distance between two magnetic elements 64 is less than the width of the first magnetic conducting plate 360 and the second magnetic conducting plate 362.In the present embodiment, magnetic element 64 is the magnet of a circle, and support plate 30 relative support 40 for adsorbing with magnetic conduction construction 36 phase of support plate 30, thus is fixed by it.

See also Fig. 5, rotating shaft 50 is installed on support plate 30 back side through the guide rail 62 of supporting element 40.Rotating shaft 50 comprises a cover plate 52, and is formed at supporting axle on cover plate 52 54 and and is fixed on base plate 56 on supporting axle 54.Cover plate 52 is rounded, shrinkage pool 324 area equation of its area and substrate 32.Supporting axle 54 just protruding out facing to support plate 30 from cover plate 52.In the present embodiment, supporting axle 54 is the tubular structure of a hollow, forms a perforate 540 in the middle part of it.The relative both sides of supporting axle 54 are respectively to protruding out formation two elastic arm 542 outward.Each elastic arm 542 is roughly V-shaped, and its opposite end is connected on supporting axle 54, and middle part is then outwardly and form the structure being similar to ridge shape.Can be there is elastic strain and inward collapsible in elastic arm 542, return back to original evagination state after distress resolves again when being under pressure.The front end of supporting axle 54 is fixed on base plate 56, and base plate 56 embeds in the shrinkage pool 324 of support plate 30 more further actively, thus rotating shaft 50 is articulated on support plate 30.Supporting axle 54 penetrates in the guide rail 62 of pedestal 60, and the back side that cover plate 52 is attached at pedestal 60 comes off from pedestal 60 to prevent supporting axle 54.The elastic arm 542 of supporting axle 54 is arranged in two relative locating slots 620 of guide rail 62.When needing to regulate the height of support plate 30, rotating shaft 50 can be moved up and down in guide rail 62, elastic arm 542 is arranged in different locating slots 620.Because rotating shaft 50 is articulated on support plate 30, therefore support plate 30 still can be rotated relative to supporting element 40 by rotating shaft 50 after being adjusted to required height.Support plate 30 can be one relative to the angle of swing of supporting element 40, and to be parallel in the plane of support plate 30 arbitrarily angled, but owing to being provided with criss-cross magnetic conduction construction 36 in support plate 30, thus support plate 30 only can be located in horizontal position and vertical position.Specifically, when support plate 30 rotates to horizontal position, the second magnetic conducting plate 362 of magnetic conduction construction 36 aims at two magnetic elements 64 of supporting element 40, thus is located by support plate 30 relative support 40 by adsorption force.When support plate 30 rotates to vertical position, the first magnetic conducting plate 360 of magnetic conduction construction 36 aims at two magnetic elements 64 of supporting element 40, thus is located by support plate 30 relative support 40 by adsorption force.Level and vertically beyond position, due to the magnetic element 64 of the equal misalignment supporting element 40 of magnetic conduction construction 36, therefore will locate with supporting element 40 phase to horizontal or vertical position due to gravity natural rotation.Certainly, the cross magnetic conduction construction 36 also replaceable circular magnetic conduction construction of above-described embodiment, all can aim at magnetic element 64 in any angle of swing, thus makes support plate 30 all mutually can locate with supporting element 40 in arbitrary angle of swing.

Base 70 is articulated on pedestal 60 by rotating shaft 72.Rotating shaft 72 is by bent material manufacture, and its one end is inserted bottom pedestal 60, the front end of the other end inserted base 70.By bending rotating shaft 72, base 70 can rotate to an angle by opposite base 60, thus changes the elevation angle of support plate 30 further, to obtain better viewing effect.

Support 10 of the present invention not only can change the height of mobile device 20, can also change turning to and the elevation angle of mobile device 20, thus enables the content that user plays with desirable angle viewing mobile device 20.

Understandably, guide rail 62 also can be formed on the substrate 32 of support plate 30, and rotating shaft 50 is arranged in the guide rail 62 of support plate 30 through the pedestal 60 of supporting element 40.The object regulating support plate 30 height can be realized in such cases equally.

The elastic arm 542 of the evagination of the present embodiment shaft 50 realizes locating effect as the first positioning part and locating slot 620 clamping as the guide rail 62 of the second positioning part, understandably, first positioning part also can use the elastic structure of indent to replace the elastic arm 542 of evagination, now the second positioning part need use the positioning block of evagination to replace locating slot 620, with the elastic structure of indent with the use of.

Claims (10)

1. a support, the rotating shaft comprising support plate, supporting element and support plate is articulated on supporting element, it is characterized in that: support plate and one of them formation guide rail of supporting element, rotating shaft forms the first positioning part, guide rail forms multiple second positioning part, and the first positioning part is optionally established with wherein one second positioning part card and is positioned on supporting element by support plate.

2. support as claimed in claim 1, it is characterized in that: the first positioning part comprises elastic arm, the second positioning part comprises locating slot, and elastic arm is optionally arranged in wherein in a locating slot.

3. support as claimed in claim 2, is characterized in that: rotating shaft also comprises through supporting element and is movably connected on the supporting axle of support plate, and elastic arm is formed on supporting axle.

4. support as claimed in claim 3, is characterized in that: rotating shaft also comprises the cover plate and base plate that are individually fixed in supporting axle opposite end, and base plate activity is embedded in support plate, and supporting element is located between cover plate and base plate.

5. the support as described in any one of Claims 1-4, is characterized in that: supporting element comprises pedestal and is fixed on the magnetic element on pedestal, and support plate comprises the magnetic conduction construction adsorbed with magnetic element.

6. support as claimed in claim 5, it is characterized in that: magnetic conduction construction comprises the first magnetic conducting plate and second magnetic conducting plate of intersection, the magnetic element of supporting element optionally adsorbs with the first magnetic conducting plate or the second magnetic conducting plate.

7. support as claimed in claim 5, is characterized in that: magnetic element is near guide rail.

8. support as claimed in claim 5, is characterized in that: support plate comprises substrate and is formed at the sidewall of substrate periphery, and magnetic conduction construction is attached on substrate.

9. support as claimed in claim 8, is characterized in that: substrate forms boss, and on boss, shape is used for the groove plugged for supporting element.

10. support as claimed in claim 5, is characterized in that: supporting element also comprises the base be connected with base runner by bent rotating shaft.