CN112833293A

CN112833293A - Mobile device support

Info

Publication number: CN112833293A
Application number: CN202110170623.3A
Authority: CN
Inventors: 刘夏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-08
Filing date: 2021-02-08
Publication date: 2021-05-25

Abstract

The invention discloses a mobile equipment support which comprises a clamping component and a supporting component which are connected with each other, wherein the clamping component comprises a first clamping arm and a second clamping arm which are connected with each other in a variable included angle mode on the same plane, and further comprises a first clamping hook and a second clamping hook which are respectively rotatably connected with the first clamping arm and the second clamping arm, the first clamping hook comprises a first clamping position and a first supporting position, the second clamping hook comprises a second clamping position and a second supporting position, the clamping directions of the first clamping position and the second clamping position are opposite and parallel to the plane, the supporting directions of the first supporting position and the second supporting position are the same and parallel to the plane, the supporting directions of the first clamping arm and the second clamping arm are perpendicular to the plane, and the mobile equipment keeps mechanical balance under the action of acting force in each clamping direction and each supporting direction and the action of self gravity. The mobile equipment support is simple, small and exquisite, convenient to carry, easy to use, stable to place and applicable to multiple scenes.

Description

Mobile device support

Technical Field

The invention relates to a support, in particular to a mobile equipment support.

Background

With the continuous development of social economy, the life style of people is also changed, and one aspect of the change is the wide application of mobile devices, including mobile phones, tablets, readers and the like. The mobile equipment is usually held by hands, but for long-time use, the hands of a user can be liberated by the aid of the support, the burden of the user is relieved no matter work, study or leisure, and the comfort level and the degree of freedom are increased. The use scenes of people to mobile equipment in modern society are gradually enriched, and under the scenes of home, trip, outdoors, hotels and the like, the use postures of people are also diversified, for example, people lie on a sofa at home, sit on a seat at trip, sit on a grassland outdoors, lie on a bed at hotel accommodations and the like.

However, in the face of such many usage scenarios, it is difficult to find a mobile device support that is compact, portable, stable in placement, and applicable to multiple scenarios in the market at present. For example, a mobile device support on the market at present includes a plastic support arm, one end of the plastic support arm is connected to a fixed end clamp, and the other end is connected to a device end clamp, the fixed end clamp is used for clamping on a fixed object such as a desk, and the mobile end clamp is used for clamping a mobile device such as a mobile phone. Such a mobile device cradle has a plastic support arm up to one meter long, and has a large deformation force in order to secure its supporting performance, and thus it takes a lot of effort to bend it into a desired shape and orientation, and at the same time, the mobile terminal holder is a simple elastic holding type, and also has a large elastic force in order to secure its holding performance, and thus it also takes a lot of effort to place the mobile phone therein. In addition, the mobile equipment support is bulky, is not suitable for carrying, and occupies large space when being stored at ordinary times. Of course, there are portable and compact mobile device holders available in the market, one of which is with fixed and mobile end holders but no support arms, which have limited usage scenarios requiring close proximity to the fixture. Other mobile devices are also simple in construction, for example, with neither fixed nor mobile end clamps, and a mobile phone placed on such a mobile device cradle is not stable because it is not fixed; for example, the mobile end clamp without a fixed end clamp and with a mobile end clamp is designed, an elastic device and a universal device are usually configured on the mobile end clamp of the mobile equipment support, the structure is complex, the use is laborious, the size is large, the gravity center is unstable, and the two mobile equipment supports have the common problems that if the support base is too small, the support base is not suitable to be placed on an unstable and uneven surface and is easy to tip over, and if the support base is too large, the support base is not suitable to be carried about.

Disclosure of Invention

The invention aims to provide a mobile equipment support which can overcome the defects, is simple, small, convenient to carry, easy to use, stable to place and suitable for multiple scenes, and can be suitable for clamping, supporting and placing mobile equipment on a plane or curved surface, a rigid or soft placing surface in scenes such as home, travel, outdoors, hotels and the like.

In accordance with the above object of the present invention, the present invention provides a mobile device holder for holding and supporting a mobile device, the mobile device holder comprising a holding member and a supporting member connected to each other, the holding member being configured to hold the mobile device while supporting the mobile device in cooperation with the supporting member, wherein:

the clamping component comprises a first clamping arm and a second clamping arm, and the included angle of the first clamping arm and the included angle of the second clamping arm are in variable connection on the same plane;

the gripping member further comprises a first gripping hook and a second gripping hook, the first gripping hook and the first gripping arm being rotatably connected about a first axial direction, the second gripping hook and the second gripping arm being rotatably connected about a second axial direction, the first axial direction and the second axial direction both being perpendicular to the plane;

the first clamping hook comprises a first clamping position and a first supporting position, and the second clamping hook comprises a second clamping position and a second supporting position;

when the clamping member clamps and supports the mobile device, the clamping direction of the first clamping point comprises a first component direction, the supporting direction of the first supporting point comprises a second component direction, the clamping direction of the second clamping point comprises a third component direction, the supporting direction of the second supporting point comprises a fourth component direction, the supporting direction of the first clamping arm comprises a fifth component direction, and the supporting direction of the second clamping arm comprises a sixth component direction; the first component direction, the second component direction, the third component direction and the fourth component direction are all parallel to the plane and are directed towards the mobile device, the first component direction and the second component direction are perpendicular to each other, the third component direction and the fourth component direction are perpendicular to each other, the first component direction and the third component direction are opposite, the second component direction and the fourth component direction are the same, and the fifth component direction and the sixth component direction are all perpendicular to the plane and are directed towards the mobile device; the mobile equipment keeps mechanical balance under the action of acting force in each clamping direction and each supporting direction and the gravity of the mobile equipment.

In the mobile device cradle of the present invention:

the mobile device is a device convenient for people to carry and use, and particularly comprises various electronic devices such as a mobile phone, a tablet, a reader and the like.

The above solutions mainly describe clamping members, which may be of existing design, such as rotatable or foldable support arms and/or supports, or of new design as mentioned below.

The working principle of the mobile equipment support comprises the following steps: the left corner and the right corner of the lower part of the mobile equipment are respectively clamped into the first clamping hook and the second clamping hook, wherein the side edge of the left corner is clamped by a first clamping position of the first clamping hook, the side edge of the right corner is clamped by a second clamping position of the second clamping hook, the bottom edge of the left corner is supported by a first supporting position of the first clamping hook, and the bottom edge of the right corner is supported by a second supporting position of the second clamping hook; a back of the mobile device is supported by the first and second clamp arms. The mobile equipment keeps mechanical balance under the action of the resultant force of the clamping and the supporting and the self gravity of the mobile equipment.

The first clamping hook and the second clamping hook can rotate, so that the first clamping hook and the second clamping hook can always rotate to corresponding positions to clamp and support the left and right angles of the lower part of the mobile equipment no matter how large the included angle between the first clamping arm and the second clamping arm is. When changing the contained angle between first centre gripping arm and the second centre gripping arm, first centre gripping hook with the distance between the second centre gripping hook also changes correspondingly, just so can be in put into between first centre gripping hook with the second centre gripping hook corresponding transverse dimension in the design allowed band the mobile device to the adaptation has been solved the size of mobile device, the problem of placing the direction.

The mobile device holder according to the present invention is generally placed on a placement surface for use, and one or more of the first holding arm, the second holding arm, the first holding hook, and the second holding hook may function to support the mobile device in cooperation with the support member, for example, to provide one or more fulcrums. The placing surface can be a plane or a curved surface, can be rigid or flexible, has a wide application range, and has a specific effect depending on the design of the supporting member, and a plastic supporting arm can be adopted to provide a fulcrum more flexibly for a complex placing surface, so that a better effect is achieved, and a preferable scheme is further mentioned below.

The mobile equipment support can also be used in a hanging mode, and depends on the use scene and the design of the supporting member, for example, in scenes with mirror surfaces and glass windows on the walls, such as dance houses, gymnasiums and the like, the supporting member can be designed with the suction cups, and the support is hung on the mirror surfaces or the glass windows in a suction mode, so that a large tripod is replaced. When hanging the use the variable connection of contained angle and/or rotatable coupling is set up to have under the sufficient motion damping's the condition, with first centre gripping arm with when the contained angle of second centre gripping arm is unchangeable first centre gripping hook with the rotation of second centre gripping hook receives the mobile device's restriction, first centre gripping arm the second centre gripping arm first centre gripping hook and the position of second centre gripping hook can not change, thereby guarantees the mobile device can not drop.

The typical working process of the mobile equipment support provided by the invention is as follows: the user will first centre gripping arm with the second centre gripping arm rotates to suitable contained angle, rotates first centre gripping hook with the second centre gripping hook makes first centre gripping hook with the centre gripping direction of second centre gripping hook is relative first centre gripping hook with put into between the second centre gripping hook the mobile device, will simultaneously the back of mobile device pastes and leans on first centre gripping arm with on the second centre gripping arm, further finely tune contained angle and centre gripping direction make two minutes about the mobile device lower part are blocked respectively first centre gripping hook with the second centre gripping hook, thereby realize the clamping member is right the centre gripping and the support of mobile device, then the cooperation the supporting member is placed on placing the face, thereby realizes the mobile device support is right the centre gripping and the support of mobile device.

The mobile equipment support creatively changes the design idea of configuring an elastic device and a universal device commonly used by the traditional mobile equipment support, meets the selection function of two basic placing directions of transversely placing and vertically placing mobile equipment and the clamping and supporting functions, and has the following advantages:

firstly, the invention does not need to be provided with an elastic device and a universal device, thereby greatly simplifying the structure of the bracket, not only reducing the product cost and being more environment-friendly, but also ensuring that the product has smaller volume, is convenient to carry and has more stable placement center of gravity.

Secondly, the mobile equipment angle is adjusted by operating the universal device and clamping the mobile phone relative to the elastic device, and the mobile equipment angle is adjusted by operating the elastic device. It is important to remove the mobile device from the cradle quickly and easily, for example, if the mobile device is a mobile phone, if an emergency call needs to be picked up, it is likely that the operation is laborious and time-consuming, and a time confusion will delay. For example, for a person who is busy and needs to take and place the mobile device frequently, if the person takes and places the mobile device frequently, the user experience is poor, and even the user is abandoned.

Thirdly, the invention can be applied in multiple scenes as long as the proper design of the supporting member is matched. For example, the supporting member is designed to be a plastic supporting arm with moderate deformation force, and the plastic supporting arm with moderate deformation force can be easily deformed to an expected shape, so that a fulcrum can be more flexibly provided for a complex placing surface, and meanwhile, the supporting member is matched with the fulcrum provided by the clamping member, so that the supporting member can be stably placed on the placing surfaces of various scenes such as planes, curved surfaces, rigid surfaces, soft surfaces and the like, for example, the surfaces of home desktops, sofas and the like, the body surfaces of abdomen, legs and the like of users, the surfaces of outdoor grassland stones, and the like, and the surfaces of hotel quilt pillows and the like.

Fourthly, on the basis of the scheme, if a user-selectable supporting component is additionally provided with a configuration, such as a sucker, the application scene can be further expanded, such as suction hanging on a mirror surface or a glass window of a wall of a dance room, a gymnasium and the like, so that a bulky tripod is replaced. Even personalized scenes in bathrooms, restrooms, etc. can be achieved by designing suitable support members.

Further, in the mobile device holder according to the present invention, the first holding arm and the second holding arm are rotatably connected around a third axis, the third axis is perpendicular to the plane, and a distance from the first axis to the third axis is equal to a distance from the second axis to the third axis.

The scheme is a preferable scheme of the connection with the variable included angle. This scheme simple structure, first centre gripping arm with only need be connected with the unipolar between the second centre gripping arm.

Further, in the above-described mobile device holder, one or more of the rotatable connections around the first axial direction, the second axial direction, and the third axial direction are damped rotatable connections.

In the above-mentioned scheme, when around first axial, second axial and third axial one or more rotatable coupling among the rotatable coupling are the damping rotatable coupling, first centre gripping hook with the change of the circumferential direction of second centre gripping hook, the change of first centre gripping arm with the contained angle of second centre gripping arm all need consume certain energy, or receive certain resistance, be favorable to like this under the influence of external force and hang the state keep to the centre gripping of mobile device and the stability of support.

Further, in the mobile device holder according to the present invention, the first holding arm is rotatably connected around a fourth axis, the second holding arm is rotatably connected around a fifth axis, both the fourth axis and the fifth axis are perpendicular to the plane, and a distance from the first axis to the fourth axis is equal to a distance from the second axis to the fifth axis.

The scheme is another scheme of the connection with the variable included angle. This solution is somewhat more complicated than the previous preferred solution, and a biaxial connection between the first and second gripper arms is required.

Further, in the above-described mobile device holder, one or more of the rotatable connections around the first axial direction, the second axial direction, the fourth axial direction, and the fifth axial direction are damped rotatable connections.

Furthermore, in the above mobile device support, the first clamping arm and the second clamping arm are in gear transmission connection, and a rotation angle of the first clamping arm around the fourth axial direction and a rotation angle of the second clamping arm around the fifth axial direction are always kept equal and opposite.

According to the scheme, the gear transmission connection mode can ensure that when the first clamping arm and the second clamping arm rotate respectively, the rotating angle of the first clamping arm is equal to the rotating angle of the second clamping arm in the same direction, so that the mobile equipment support always automatically keeps the symmetry of the first clamping arm and the second clamping arm as a whole under the condition of double-shaft connection, manual adjustment is not needed, and the mobile equipment can be placed in the mobile equipment quickly.

Further, in the mobile device holder according to the present invention, the first clamping hook includes a first raised portion, and a raising direction of the first raised portion is the same as the second component direction; the second clamping hook comprises a second raised portion, and the raised direction of the second raised portion is the same as the fourth component direction.

In the above aspect, the first raised portion and the second raised portion may be configured to raise the mobile device when the mobile device support is placed on a soft placing surface, such as a surface of a soft object, for example, a jacket worn by a user or a pillow used by a user, so as to prevent a portion of the soft placing surface higher than a fulcrum of the mobile device support from blocking a view of the mobile device from a user.

The above-mentioned solution makes good use of a characteristic of the first clamping hook and the second clamping hook in use, that is, in use, the second component direction and the fourth component direction remain unchanged regardless of an included angle between the first clamping arm and the second clamping arm, so as long as the height direction of the first raised portion is kept the same as the second component direction and the height direction of the second raised portion is kept the same as the fourth component direction, the height direction of the first raised portion and the height direction of the second raised portion are also kept unchanged. This is however easy to do, since the first and second raised portions are themselves part of the first and second gripping hooks, respectively.

Further, in the mobile device stand according to the present invention, the support member includes a plastic support arm; the support member further comprises a support block connected with the plastic support arm.

In the above solution, the plastic support arm refers to a support arm having plasticity, and the plastic support arm can be changed in shape by an external force exceeding a certain threshold and can maintain the shape without a new external force exceeding the threshold. The plastic supporting arm can be made of plastic materials, such as plastic silica gel, and can also be made according to a special process structure, such as a coiled pipe. The plastic support arm with moderate deformation force is usually adopted, and the moderate deformation force refers to that the plastic support arm can be easily deformed to a desired support shape by fingers of a user and the support shape can not be changed by the pressure of the mobile equipment bracket and the supported mobile equipment, so that a fulcrum can be more flexibly provided for a complex placing surface, and the plastic support arm is matched with the fulcrum provided by the clamping component, so that the plastic support arm can be stably placed on the placing surfaces of various scenes such as a plane, a curved surface, a rigid surface, a soft surface and the like. The support block may provide a greater range of pivot points for the support arm while providing a certain amount of counterweight, thereby making placement of the mobile device holder more stable. The mobile equipment support is characterized in that the supporting block is arranged at a position which can be considered to be a vacant position behind the first raised part and the second raised part and below the first clamping arm and the second clamping arm when the mobile equipment support is not used, so that the mobile equipment support is attractive, saves space, enables the size of a product to be smaller in a storage state or a portable state, and also has a stable supporting effect.

Further, in the mobile device stand according to the present invention, the support member includes a first support arm connected to the first clamp arm and a second support arm connected to the second clamp arm; the first clamping arm is provided with a first groove, and the first supporting arm can be completely or partially embedded into the first groove; the second clamping arm is provided with a second groove, and the second supporting arm can be completely or partially embedded into the second groove.

According to the scheme, the occupied space of the first clamping arm and the occupied space of the second clamping arm are ingeniously utilized, so that a part of space is vacated for the first supporting arm and the second supporting arm in a mode of reducing the self volume of the first clamping arm and the second clamping arm, when the mobile equipment support is not used, the first supporting arm and the second supporting arm can be completely or partially stored in the vacated space, and therefore the mobile equipment support is in a storage state or a portable state, the mobile equipment support is attractive and saves space, and the product is smaller in volume in the storage state or the portable state. Preferably, the first and second support arms are plastic support arms. Preferably, the support member further comprises one or more of a support block, a suction cup, a hook, and a skid-proof member connected to the first support arm and the second support arm, respectively.

Further, in the mobile device support of the present invention, the support member includes one or more of a support arm, a support plate, a support frame, a support clip, a base, a suction cup, and a hook, which are fixedly or detachably connected to the clamping member.

In the above solution, the support arm refers to an arm-shaped support member, which includes a foldable support arm, a telescopic support arm, etc.; the supporting plate refers to a plate-shaped supporting component and comprises a foldable supporting plate, a telescopic supporting plate and the like; the support frame refers to a frame-shaped support component and comprises a foldable support frame, a telescopic support frame and the like; the support member supporting the finger strap fixing end clamp; the base is a support type supporting member placed at the bottom; the suction cup refers to a support member with a suction cup; the hook refers to a support member with a hook. The mobile device support can be freely matched with various support members, so that the mobile device support can be suitable for more scenes, such as dance rooms, gymnasiums, vehicles, bathrooms, washrooms and the like.

Compared with the mobile equipment support in the background art, the mobile equipment support provided by the invention has the following advantages and beneficial effects:

(1) the device is simple, small and convenient to carry;

(2) the cost is reduced, and the environment is protected;

(3) the use is easy, and the device is suitable for the rhythm and habit of life of modern people;

(4) the placement is stable and easy to adjust;

(5) and multiple scenes are applicable.

Drawings

Fig. 1 is an isometric view of a mobile device cradle according to an embodiment of the present invention.

Fig. 2 is a front view of the mobile device stand of fig. 1.

Fig. 3 is a top view of the mobile device stand of fig. 1.

Fig. 4 is a left side view of the mobile device stand of fig. 1.

Fig. 5 is a rear view of the mobile device stand of fig. 1.

Fig. 6 is a schematic diagram of a mass point system corresponding to the front view of the mobile device cradle shown in fig. 2.

Fig. 7 is an isometric view of the mobile device stand of fig. 1 in a first use state.

Fig. 8 is an isometric view of the mobile device holder of fig. 1 in a first use state holding and supporting a mobile phone in a standing position.

Fig. 9 is an isometric view of a rear view of the mobile device holder of fig. 1 in a first use position holding and supporting a mobile phone in a standing position.

Fig. 10 is an isometric view of the mobile device stand of fig. 1 in a second use state.

Fig. 11 is an isometric view of the mobile device holder of fig. 1 in a second use state with the handset grippingly supported in a transverse position.

Fig. 12 is an isometric view of a rear view of the mobile device cradle of fig. 1 in a second use position holding and supporting a cell phone in a landscape orientation.

Fig. 13 is an isometric view of a first clamp arm of the mobile device stand of fig. 1.

Fig. 14 is an isometric view of a second clamp arm of the mobile device stand of fig. 1.

Fig. 15 is an isometric view of a third damped hinge of the mobile device mount of fig. 1.

Fig. 16 is an isometric view of a first damped hinge and a second damped hinge of the mobile device cradle of fig. 1.

Fig. 17 is an isometric view of a first clamping hook of the mobile device cradle of fig. 1.

Figure 18 is an isometric view of a second support arm with a second support block of the mobile device stand of figure 1.

Fig. 19 is an isometric view of a mobile device holder according to another embodiment of the invention.

Fig. 20 is a front view of the mobile device holder of fig. 19.

Fig. 21 is a top view of the mobile device stand of fig. 19.

Fig. 22 is a left side view of the mobile device stand of fig. 19.

Fig. 23 is a rear view of the mobile device holder of fig. 19.

Fig. 24 is a mass diagram corresponding to the front view of the mobile device cradle shown in fig. 20.

Fig. 25 is an isometric view of a first clamp arm of the mobile device stand of fig. 19.

Fig. 26 is an isometric view of a biaxial web of the mobile device holder of fig. 19.

Detailed Description

The mobile device holder according to the present invention will be described in further detail with reference to the drawings and specific embodiments.

Fig. 1 to 5 illustrate the structure of an embodiment of the mobile device cradle according to the present invention, and fig. 6 illustrates a mass point system corresponding to the front view of the mobile device cradle shown in fig. 2. Fig. 13 to 18 respectively illustrate the structures of the first clamping arm, the second clamping arm, the third damping rotating shaft, the first damping rotating shaft, the second damping rotating shaft, the first clamping hook, and the second supporting arm with the second supporting block of the mobile device cradle shown in fig. 1. The second clamping hook is a mirror image of the first clamping hook, and the first support arm with the first support block is a mirror image of the second support arm with the second support block.

As shown in fig. 1-5, with combined reference to fig. 6, the mobile device holder 1 comprises a clamping member 10 and a support member 11 connected to each other, wherein:

the clamp member 10 includes a first clamp arm 101 and a second clamp arm 102, and the first clamp arm 101 (corresponding to 101 'in fig. 6) and the second clamp arm 102 (corresponding to 102' in fig. 6) are rotated about a third axial direction a by a third damping rotation shaft 100₃(corresponding to A in FIG. 6₃') are rotatable to achieve a variable connection of the included angle (corresponding to theta in figure 6) in the same plane P (corresponding to P' in figure 6). Here, the plane where the front surfaces of the first and second holding

arms

101 and 102 are located together is defined as a planeAnd P. Wherein the third axial direction A₃Perpendicular to the plane P.

The clamping member 10 further comprises a first clamping hook 103 (corresponding to 103 'in fig. 6) and a second clamping hook 104 (corresponding to 104' in fig. 6), the first clamping hook 103 being rotated around the first axial direction a by a first damping rotation shaft 105₁(corresponding to A in FIG. 6₁') is rotatably connected to the first gripping arm 101, and the second gripping hook 104 is rotated about the second axial direction A by a second damping rotating shaft 106₂(corresponding to A in FIG. 6₂') is rotatably connected to the second holding arm 102 in a first axial direction A₁And a second axial direction A₂Are all perpendicular to the plane P. First axial direction A₁To a third axial direction A₃Is spaced from the second axial direction A₂To a third axial direction A₃Are equal.

The first clamping hook 103 comprises a first clamping point C₁(corresponding to C in FIG. 6₁') and a first support S₁(corresponding to S in FIG. 6₁') the second gripping hook 104 includes a second grip C₂(corresponding to C in FIG. 6₂') and a second support S₂(corresponding to S in FIG. 6₂'). First clamping part C₁First support part S₁A second clamping part C₂And a second support S₂The design of the concave surface is more beneficial to stably clamping and supporting the mobile equipment.

The first holding hook 103 includes a first raised portion H₁The second clamping hook 104 includes a second raised portion H₂. Wherein, the first elevated part H₁And a second component direction F₂The directions are the same; second raised part H₂And the following fourth component direction F₄The same is true.

The support member 11 includes a first support arm 110 having a first support block 111 coupled to one end thereof, and a second support arm 112 having a second support block 113 coupled to one end thereof. The other end of the first support arm 110 is connected to the first clamp arm 101, and the other end of the second support arm 112 is connected to the second clamp arm 102. A first groove G is arranged on the first clamping arm 101₁A second groove G is arranged on the second holding arm 102₂. The first support arm 110 and the second support arm 112 are compliant support arms.

The mobile device holder shown in fig. 1 is in a non-use state, or a storage state or a portable state. The angle between the first gripping arm 101 and the second gripping arm 102 is minimal, the first support S₁And a second support S₂Upward, the first supporting arm 110 is inserted into the first groove G₁The second supporting arm 112 is inserted into the second groove G₂The first and second supporting

blocks

111 and 113 are embedded below the first and second chucking

arms

101 and 102, respectively. The whole appearance is very simple and small, and is convenient to carry.

Fig. 7 and 10 illustrate a first use state and a second use state, respectively, of the mobile device cradle of fig. 1. The two using states are mainly different in that the included angles of the first clamping arm and the second clamping arm are different, the first clamping arm can be suitable for clamping and supporting a vertically placed mobile phone, and the second clamping arm can be suitable for clamping and supporting a horizontally placed mobile phone. Obviously, for mobile phones with different sizes, the included angle between the first holding arm and the second holding arm needs to be adjusted slightly. Fig. 8 and 9 illustrate isometric views from two perspectives of the mobile device holder of fig. 1 in a first use position holding and supporting a mobile phone in a standing position. Fig. 11 and 12 illustrate isometric views from two perspectives of the mobile device stand of fig. 1 in a second use position of the hand held support when the hand held support is in a horizontal position.

As shown in fig. 7-9, the angle between the first and second holding

arms

101 and 102 of the mobile device holder 1 is adjusted to a smaller angle, and the first and second holding hooks 103 and 104 are rotated to the first supporting position S₁And a second support S₂Upward, first groove G from the rear of first gripper arm 101₁The first supporting arm 110 is pulled out from the second groove G behind the second holding arm 102₂The second supporting arm 112 is pulled out inwards, the first supporting block 111 and the second supporting block 113 are respectively rotated backwards and inwards by 90 degrees, the mobile device support 1 is placed on the placing surface, and the first supporting arm 110 and the second supporting arm 112 are finely adjusted, so that the first supporting block 111, the second supporting block 113 and the first padding height part H are enabled to be arranged₁The second raised part H₂Four stable fulcrums are formed. Then vertically placing the mobile phone 3 into a first clamping position C₁And a secondClamping part C₂The bottom of the mobile phone 3 is placed at the first supporting position S₁And a second support S₂On the above, the back of the mobile phone 3 is leaned on the first holding arm 101 and the second holding arm 102, and the first holding hook 103 and the second holding hook 104 are finely adjusted to make the first holding part C₁And a second clamping part C₂Clamping two bottom corners of the handset 3. So far, the mobile equipment support 1 clamps and supports the mobile phone 3.

As shown in fig. 10 to 12, the angle between the first holding arm 101 and the second holding arm 102 of the mobile device holder 1 is adjusted to a larger angle, and the first holding hook 103 and the second holding hook 104 are rotated to the first supporting position S₁And a second support S₂Upward, first groove G from the rear of first gripper arm 101₁The first supporting arm 110 is pulled out from the second groove G behind the second holding arm 102₂The second supporting arm 112 is pulled out inwards, the first supporting block 111 and the second supporting block 113 are respectively rotated backwards and inwards by 90 degrees, the mobile device support 1 is placed on the placing surface, and the first supporting arm 110 and the second supporting arm 112 are finely adjusted, so that the first supporting block 111, the second supporting block 113 and the first padding height part H are enabled to be arranged₁The second raised part H₂Four stable fulcrums are formed. Then the mobile phone 3 is transversely placed in the first clamping position C₁And a second clamping part C₂The bottom of the mobile phone 3 is placed at the first supporting position S₁And a second support S₂On the above, the back of the mobile phone 3 is leaned on the first holding arm 101 and the second holding arm 102, and the first holding hook 103 and the second holding hook 104 are finely adjusted to make the first holding part C₁And a second clamping part C₂Clamping two bottom corners of the handset 3. So far, the mobile equipment support 1 clamps and supports the mobile phone 3.

When the mobile device support 1 is clamped and supported by the clamping component, the first clamping position C₁Comprises a first component direction F₁First support S₁Comprises a second component direction F₂Second clamping position C₂Comprises a third component direction F₃Second support S₂Comprises a fourth component direction F₄Supporting direction of the first gripper arm 101Including a fifth component direction F₅The supporting direction of the second gripper arm 102 includes a sixth component direction F₆(ii) a First component direction F₁A second component direction F₂A third component direction F₃And a fourth component direction F₄Are all parallel to the plane P and are directed towards the handset 3, a first component direction F₁And a second component direction F₂Perpendicular to each other, third component direction F₃And a fourth component direction F₄Perpendicular to each other, first component direction F₁And a third component direction F₃In a second opposite component direction F₂And a fourth component direction F₄Same, fifth component direction F₅And a sixth component direction F₆Are all vertical to the plane P and point to the mobile phone 3; the mobile phone 3 keeps the mechanical balance under the action of the acting force in each clamping direction and each supporting direction and the gravity of the mobile phone 3.

Fig. 19 to 23 illustrate structures of another embodiment of the mobile device cradle according to the present invention, and fig. 24 illustrates a particle system corresponding to a front view of the mobile device cradle shown in fig. 20. Fig. 25-26 illustrate the configuration of the first clamping arm and the biaxial web, respectively, of the mobile device stand of fig. 19, with the second clamping arm being a mirror image of the first clamping arm shown in fig. 25. The fourth damping rotating shaft and the fifth damping rotating shaft have the same structure as the third damping rotating shaft shown in fig. 15, and the structures of the first damping rotating shaft, the second damping rotating shaft, the first clamping hook, the second clamping hook, the first supporting arm with the first supporting block and the second supporting arm with the second supporting block are the same as the corresponding structures in the mobile device support shown in fig. 1.

As shown in fig. 19 to 23, the mobile device holder 2 of this embodiment includes a holding member 20 and a supporting member 21 connected to each other, wherein:

the gripping member 20 includes a first gripping arm 201 and a second gripping arm 202, and further includes a first gripping hook 203 (corresponding to 203 'in fig. 24) and a second gripping hook 204 (corresponding to 204' in fig. 24), the first gripping hook 203 being wound around the first axial direction a by a first damping rotation shaft 205₁(corresponds to A in FIG. 24₁') is rotatably connected to the first clamping arm 201, and the second clamping hook 204 is rotated about the second axial direction by a second damping rotation shaft 206A₂(corresponds to A in FIG. 24₂') is rotatably connected to the second clamping arm 202.

The mobile device holder 2 of this embodiment differs from the mobile device holder 1 of the above-described embodiment in that the first and second clamp

arms

201 and 202 of the mobile device holder 2 are connected by a biaxial connection plate 200, a fourth damping rotation shaft 200a, and a fifth damping rotation shaft 200b, wherein the first clamp arm 201 (corresponding to 201 'in fig. 24) and the biaxial connection plate 200 (corresponding to 200' in fig. 24) are connected around a fourth axial direction a by the fourth damping rotation shaft 200a₄(corresponds to A in FIG. 24₄') rotatably connected, the second holding arm 202 (corresponding to 202' in fig. 24) and the biaxial connecting plate 200 (corresponding to 200' in fig. 24) are rotated about the fifth axial direction a by the fifth damping rotation shaft 200b₅(corresponds to A in FIG. 24₅') are rotatable to effect a variable connection of included angles (corresponding to theta in figure 24) in the same plane P (corresponding to P' in figure 24). Here, a plane on which the front surfaces of the first and second clamp

arms

201 and 202 jointly lie is defined as a plane P. Wherein the fourth axial direction A₄And a fifth axial direction A₅Are all perpendicular to the plane P and have a first axial direction A₁To the fourth axial direction A₄Is spaced from the second axial direction A₂To a fifth axial direction A₅Are equal. Furthermore, the first axial direction A₁And a second axial direction A₂Are also perpendicular to the plane P.

Other parts of this embodiment are the same as or similar to those of the above-described embodiment, and a person skilled in the art can design the embodiment according to the related description of the present invention, and therefore the detailed design of other parts of this embodiment will not be shown or described.

In some embodiments, the first gripper arm 201 and the second gripper arm 202 are in geared connection, the first gripper arm 201 surrounding the fourth axial direction a₄And the second gripper arm 202 is rotated about the fifth axis a₅The rotating angles are always equal in size and opposite in direction.

In certain embodiments, the support member comprises one or more of a support arm, a support plate, a support frame, a support clip, a base, a suction cup, a hook, fixedly or removably connected to the clamping member.

In the above embodiments, the specific connection process between the damping rotating shaft and the clamping arm/clamping hook includes setting a counter bore to cooperate with fixing members such as a fixing plate and a rivet to perform axial fixing. The plastic supporting arm material is plastic silica gel.

The parts of the above embodiments that are not described in detail, including the parts that are not shown or described in detail, can be designed by those skilled in the art according to the related descriptions of the present invention, and therefore, the related drawings and explanations are omitted here.

The particle system diagrams are abstract generalizations of corresponding concrete structures in a mechanical sense, so that explanation of spatial relationships, motion relationships and mechanical relationships of the corresponding concrete structures is facilitated, and the protection range of the invention is also summarized.

It should be noted that the above-mentioned embodiments are only specific examples of the present invention, and obviously, the present invention is not limited to the above-mentioned embodiments, and many similar variations exist. All modifications which would occur to one skilled in the art and which are, therefore, directly derived or suggested from the disclosure herein are deemed to be within the scope of the present invention. In addition, the prior art in the protection scope of the present invention is not limited to the embodiments given in the present application, and all the prior art which is not inconsistent with the technical scheme of the present invention, including but not limited to the prior patent documents, the prior publications and the like, can be included in the protection scope of the present invention.

It should be noted that the combination of the features in the present application is not limited to the combination described in the claims or the combination described in the embodiments, and all the features described in the present application may be freely combined or combined in any manner unless contradictory to each other.

Claims

1. A mobile device holder for holding and supporting a mobile device, the mobile device holder comprising a holding member and a supporting member connected to each other, the holding member being adapted to hold the mobile device while supporting the mobile device in cooperation with the supporting member, characterized in that:

2. The mobile device holder of claim 1, wherein the first and second clamp arms are rotatably coupled about a third axis, the third axis being perpendicular to the plane, and a distance from the first axis to the third axis being equal to a distance from the second axis to the third axis.

3. The mobile device stand of claim 2, wherein one or more of the rotatable connections about the first, second, and third axial directions are damped rotatable connections.

4. The mobile device holder of claim 1, wherein the first clamp arm is rotatably coupled about a fourth axis, the second clamp arm is rotatably coupled about a fifth axis, the fourth axis and the fifth axis are both perpendicular to the plane, and a distance from the first axis to the fourth axis is equal to a distance from the second axis to the fifth axis.

5. The mobile device stand of claim 4, wherein one or more of the rotatable connections about the first, second, fourth, and fifth axes are damped rotatable connections.

6. The mobile device holder of claim 5, wherein the first clamp arm and the second clamp arm are geared together, and wherein an angle of rotation of the first clamp arm about the fourth axis is always equal and opposite to an angle of rotation of the second clamp arm about the fifth axis.

7. The mobile device stand of any of claims 1-6, wherein the first clamping hook comprises a first raised portion having a raised direction that is the same as the second component direction; the second clamping hook comprises a second raised portion, and the raised direction of the second raised portion is the same as the fourth component direction.

8. The mobile device holder of any of claims 1-6, wherein:

the support member comprises a malleable support arm;

the support member further comprises a support block connected with the plastic support arm.

9. The mobile device holder of any of claims 1-6, wherein:

the support member includes a first support arm connected with the first clamp arm and a second support arm connected with the second clamp arm;

the first clamping arm is provided with a first groove, and the first supporting arm can be completely or partially embedded into the first groove; the second clamping arm is provided with a second groove, and the second supporting arm can be completely or partially embedded into the second groove.

10. The mobile device support of any of claims 1-6, wherein the support member comprises one or more of a support arm, a support plate, a support frame, a support clip, a base, a suction cup, a hook, fixedly or removably connected to the clamping member.