Electronic device support
By designing electronic device brackets with multiple installation methods and utilizing a combination of adjustable posture-changing bases and locking components, the problem of the single installation method of existing brackets has been solved, and stable installation of the brackets has been achieved in various environments.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU FUSHENG HOME FURNISHING CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-06-09
Smart Images

Figure CN224339809U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of electronic device accessories technology, and in particular to an electronic device bracket. Background Technology
[0002] Electronic device holders are categorized based on the electronic device they support, such as phone holders, tablet holders, and camera holders. They are also categorized based on the usage environment, such as car mount holders, office mounts, and general home mounts. Existing electronic device holders offer limited installation options. For example, traditional clamp-on car phone holders use two clamps to hold air vent blades or the frame of the car's center console screen. These clamps can only move linearly to change the clamping opening, making it difficult to install using other methods and thus limiting the range and occasions of use for electronic device holders. Utility Model Content
[0003] In view of this, the present invention provides an electronic device bracket with multiple installation methods so that it can be used in different occasions.
[0004] The electronic device bracket of this utility model includes multiple slidingly connected clamps and at least one device holding mechanism connected to the clamps.
[0005] Each of the clamps includes a support surface, and at least one of the clamps is an adjustable posture seat.
[0006] The adjustable posture support includes multiple sliding guides extending in different directions, and each sliding guide is detachably and slidably connected to other clamps.
[0007] This invention allows users to adjust the position of each adjustable posture holder relative to other clamps to change the installation method of the electronic device bracket. By selecting different sliding guides and sliding connections with other clamps, the relative position of the adjustable posture holder and other clamps can be changed, thereby changing the position and angle relationship between the abutment surface of the adjustable posture holder and the abutment surface of other clamps. Ultimately, this allows the electronic device bracket to have multiple abutment surface combinations. By selecting a suitable abutment surface combination, the electronic device bracket can be clamped to the frame of a vehicle center console screen, monitor frame, water cup, etc., or it can be hung on the frame of a vehicle center console screen, monitor frame, office desk partition, etc. The installation method of the electronic device bracket is diverse and not limited to a single clamping method, thus expanding the applicable environment and occasions.
[0008] In some embodiments, a locking element is also included that can be adjusted between a preset locking position and a release position;
[0009] The locking element secures the clamp in the locked position and unlocks the clamp in the released position.
[0010] In some embodiments, at least one sliding guide is also included, each clamp forming a sliding engagement with the sliding guide, and any sliding guide portion forming a detachable sliding engagement with the sliding guide.
[0011] In some embodiments, the number of locking elements and clamps are equal and correspond one-to-one, the sliding guide is provided with a sliding groove for the locking elements to slide, and any clamp is threadedly connected to the locking element corresponding to the clamp.
[0012] In some embodiments, multiple sliding guide portions are respectively configured with multiple intersecting and interconnected sliding mating grooves, and the adjustable posture seat includes a through portion connected with a locking member, the through portion having a channel cavity inside, the channel cavity serving as the intersection position of multiple sliding mating grooves.
[0013] In some embodiments, it further includes at least one movable magnetic connector slidably mounted on the sliding guide; and / or,
[0014] There are multiple sliding guides, each with a different length; and / or,
[0015] The clamp includes a first cover plate and a second cover plate that are stacked and fixedly connected, and a sliding guide is slidably inserted between the first cover plate and the second cover plate.
[0016] In some embodiments, the adjustable posture seat includes a retaining flange, and the sliding guide includes a first guide parallel to the retaining flange and a second guide perpendicular to the retaining flange.
[0017] In some implementations, the number of adjustable posture seats is three, and among the three adjustable posture seats:
[0018] Two of the adjustable posture-changing seats are detachably and slidably mounted on both ends of the sliding guide frame via their respective second guide parts, and the third adjustable posture-changing seat is detachably and slidably mounted between the two ends of the sliding guide frame via its own first guide part.
[0019] In some implementations, there are multiple equipment holding mechanisms, and each of the multiple equipment holding mechanisms is detachably connected to a multiple clamps in a one-to-one correspondence.
[0020] In some embodiments, the device further includes multiple reversing adjustment connectors, each corresponding one-to-one with a clamp. Each reversing adjustment connector includes a seat mounting end and a mechanism mounting end that are rotatably connected. The seat mounting end is threaded to the clamp, and the equipment holding mechanism is hinged to the mechanism mounting end; and / or,
[0021] The equipment holding mechanism includes multiple support arms that are hinged in sequence and a magnetic base, with the support arm that is relatively far from the magnetic base connected to a clamp.
[0022] In some embodiments, the clamp includes a holding mechanism mounting section, which includes a plurality of holding mounting positions, and the equipment holding mechanism is detachably connected to any of the holding mounting positions. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the structure of an electronic device bracket according to one embodiment of the present invention;
[0024] Figure 2 This is a schematic diagram of the structure of an electronic device bracket according to another embodiment of the present invention;
[0025] Figure 3 This is a schematic diagram of the structure of the clamp of an electronic device bracket according to one embodiment of the present invention;
[0026] Figure 4 This is a partial structural diagram of an electronic device bracket according to one embodiment of the present invention;
[0027] Figure 5 This is a structural schematic diagram of the reversing adjustment connector of an electronic device bracket according to one embodiment of the present invention.
[0028] Figure 6 This is a schematic diagram of an electronic device bracket in its first installation state, according to one embodiment of the present invention.
[0029] Figure 7 This is a schematic diagram of an electronic device bracket in a second mounting state according to one embodiment of the present invention.
[0030] Figure 8 This is a schematic diagram of an electronic device bracket in a third installation state according to one embodiment of the present invention.
[0031] Figure 9 This is a schematic diagram of an electronic device bracket in the fourth installation state according to one embodiment of the present invention.
[0032] Explanation of reference numerals in the attached drawings: 10, clamp; 11, sliding guide; 111, first guide; 112, second guide; 12, passage section; 13, load-bearing mechanism mounting section; 131, first load-bearing mounting position; 132, second load-bearing mounting position; 14, abutment flange; 15, nut hole; 20, sliding guide; 21, sliding groove; 30, locking element; 31, locking nut; 32, handle; 40, equipment load-bearing mechanism; 41, magnetic base; 42, support arm; 50, reversing adjustment connector; 51, base mounting end; 52, mechanism mounting end; 53, screwing part; 60, movable magnetic connector; 200, vehicle central control screen. Detailed Implementation
[0033] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of them. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0034] Unless otherwise defined, all 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 pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "or / and" as used herein includes any and all combinations of one or more of the associated listed items.
[0035] This invention provides an electronic device holder that can be fixed to an object and replaces the user's hands in holding the electronic device, allowing the user to browse the device. Depending on the type of electronic device being held, this electronic device holder can be a mobile phone holder, tablet holder, camera holder, etc.; depending on the usage environment of the electronic device, this electronic device holder can be a vehicle holder, an office holder, or a regular home holder, etc.
[0036] This utility model provides an electronic device bracket with multiple mounting methods, allowing it to be installed on objects in various ways, thus adapting to different usage environments and occasions. (See reference...) Figures 1-2 The electronic device bracket includes multiple slidably connected clamps 10 and at least one device holding mechanism 40 connected to the clamps 10. The clamps 10 are used to mount on the surface of an object so that the electronic device bracket and the object remain relatively stationary. Each clamp 10 includes a bearing surface, and the clamp 10 abuts against the surface of the object through the bearing surface. The device holding mechanism 40 carries the electronic device in place of the user's two hands. It should be noted that "multiple clamps 10" means that the number of clamps 10 is at least two.
[0037] Users can adjust the electronic device bracket according to the type of electronic device and the usage environment to change the mounting method of the electronic device bracket on the object. Specifically, at least one of the multiple clamps 10 is an adjustable posture holder, and each adjustable posture holder includes multiple sliding guide parts 11. The multiple sliding guide parts 11 of each adjustable posture holder extend in different directions, and each sliding guide part 11 forms a detachable sliding connection with the other clamps 10. With this configuration, users can change the sliding guide parts 11 in each adjustable posture holder that form a sliding connection with the other clamps 10, thereby changing the angle orientation of the abutment surface of the adjustable posture holder, and thus changing the position of the abutment surface against the object.
[0038] See Figure 3 In some embodiments, the adjustable posture seat includes a strip-shaped abutment flange 14, which has an abutment surface for abutting an object. The sliding guide portion 11 includes a first guide portion 111 and a second guide portion 112 that are perpendicular to each other. The first guide portion 111 is parallel to the abutment flange 14, and the second guide portion 112 is perpendicular to the abutment flange 14. Optionally, the abutment surface is an elongated rectangular plane, the extension direction of the first guide portion 111 is the same as the length direction of the abutment surface, and the extension direction of the second guide portion 112 is perpendicular to the length direction of the abutment surface.
[0039] With this configuration, as the user adjusts the adjustable posture seat from a first connection state where it is slidably connected to the first guide portion 111 and other clamps 10 to a second connection state where it is slidably connected to the second guide portion 112 and other clamps 10, and then adjusts the adjustable posture seat from the second connection state where it is slidably connected to the second guide portion 112 and other clamps 10 to the first connection state where it is slidably connected to the first guide portion 111 and other clamps 10, the abutment surface of the adjustable posture seat rotates 90°, so that the abutment surface can abut against two mutually perpendicular object surfaces one after the other.
[0040] In some embodiments, the electronic device bracket further includes a sliding guide 20 and a locking member 30. Each clamp 10 is slidably engaged with the sliding guide 20, and each clamp 10 can be slid along the extension direction of the sliding guide 20 by the user applying force. Any sliding guide 11 in the adjustable posture holder is detachably slidably engaged with the sliding guide 20. The user can change the relative position and posture of the adjustable posture holder and the sliding guide 20 by switching the sliding guide 11 that is slidably engaged with the sliding guide 20. The locking member 30 is configured to be adjustable between a preset locking position and a release position. The locking member 30 can lock and fix the clamp 10 in the locking position and can unlock the clamp 10 in the release position. The locked clamp 10 cannot slide along the sliding guide 20 even if the user applies force, and the unlocked clamp 10 regains the freedom to slide along the sliding guide 20.
[0041] With this configuration, the user can apply force to the clamp 10 to cause the multiple clamps 10 to move relative to each other along the extension direction of the sliding guide 20, thereby changing the distance between the multiple clamps 10. This changes the relative position of each abutting surface in the multiple clamps 10 until all abutting surfaces of the multiple clamps 10, including the adjustable posture seat, abut against the same object. Then, the user switches the locking member 30 from the loose position to the locked position so that the multiple clamps 10, including the adjustable posture seat, are fixed on the sliding guide 20, thereby keeping the abutting surfaces of the multiple clamps 10 relatively fixed, so as to maintain the stable installation of the electronic device bracket on the object.
[0042] like Figures 1-2 As shown, the number of locking members 30 and clamps 10 are equal and they are arranged in a one-to-one correspondence. The sliding guide 20 has a sliding groove 21 for the locking members 30 to be placed and slide. The length direction of the sliding groove 21 is consistent with the extension direction of the sliding guide 20. The setting of the sliding groove 21 allows each locking member 30 to slide synchronously along the sliding guide 20 with its corresponding clamp 10. Each clamp 10 is threadedly connected to its corresponding locking member 30. The user can apply torque to any locking member 30 to change the connection state between the clamp 10 and the sliding guide 20 corresponding to the locking member 30, without affecting the connection state of other clamps 10 and the sliding guide 20.
[0043] Furthermore, the adjustable posture-changing seat includes a through-hole 12 connected to a locking member 30. The through-hole 12 is a hollow structure with a channel cavity. Multiple sliding guide parts 11 respectively construct multiple intersecting and interconnected sliding mating grooves. The aforementioned channel cavity is the location where the multiple sliding mating grooves intersect and connect; in other words, multiple sliding mating grooves all pass through the channel cavity, and the channel cavity simultaneously belongs to multiple sliding mating grooves. (See reference...) Figures 3-4 The first guide portion 111 and the second guide portion 112, which are perpendicular to each other, form two mutually perpendicular sliding engagement grooves. Regardless of which sliding guide portion 11 the sliding guide 20 slides into, the sliding guide 20 can slide relative to the adjustable posture seat and pass through the channel cavity. When the sliding guide 20 passes through the channel cavity, the user can drive the locking member 30 to lock or unlock the clamp 10 corresponding to the locking member 30.
[0044] Specifically, such as Figure 3 and Figure 4As shown, the through section 12 includes a first side and a second side, and a channel cavity is formed between the first side and the second side. The first side has a nut hole 15 that communicates with the channel cavity. The locking member 30 includes a locking nut 31 and a handle 32. The handle 32 is fixedly connected to one end of the locking nut 31. The other end of the locking nut 31 extends from the first side of the through section 12 into the nut hole 15 and is threadedly engaged with the second side of the through section 12. The user rotates the handle 32 to change the thread engagement depth between the locking nut 31 and the second side of the through part 12, thereby changing the pressure exerted by the locking nut 31 on the first side of the through part 12 and the sliding guide 20. The user can adjust the locking member 30 between the locked position and the released position by rotating the handle 32. When the locking member 30 moves from the locked position to the released position, the thread engagement depth between the locking nut 31 and the second side of the through part 12 decreases. When the locking member 30 moves from the released position to the locked position, the thread engagement depth between the locking nut 31 and the second side of the through part 12 increases.
[0045] With this configuration, the sliding degree of freedom between the clamp 10 and the sliding guide 20 gradually disappears as the pressure exerted on the sliding guide 20 by the first side of the through portion 12 gradually increases, and eventually the clamp 10 is locked and fixed to the sliding guide 20 by the locking member 30; the sliding degree of freedom between the clamp 10 and the sliding guide 20 is restored as the pressure exerted on the sliding guide 20 by the first side of the through portion 12 gradually decreases, until the clamp 10 is unlocked by the locking member 30. It is understood that in other embodiments, the locking member 30 is not limited to using a locking nut 31 and a handle 32.
[0046] Further, see again Figures 1-2 The adjustable posture-changing base also includes at least one movable magnetic connector 60 slidably mounted on the sliding guide 20. The movable magnetic connector 60 can be slidably disposed within the sliding groove 21 and can be used to magnetically attract electronic devices. Lightweight and small electronic devices can be directly attracted by the movable magnetic connector 60 without needing to be mounted on the device holding mechanism 40. Preferably, the movable magnetic connector 60 forms a detachable sliding connection with the sliding guide 20.
[0047] Furthermore, each clamp 10 includes a first cover plate and a second cover plate stacked and fixedly connected, with multiple sliding mating grooves and channel cavities formed between the first cover plate and the second cover plate, and a sliding guide 20 slidably passing between the first cover plate and the second cover plate. With this configuration, the clamp 10 has a simple structure, is easier to form, and is more convenient to assemble with the clamp 10 and the sliding guide 20.
[0048] Please refer to the following: Figures 1-4 , Figures 1-2 The electronic device bracket shown is installed on the screen bezel of the vehicle's central control screen 200, and the sliding guide 20 extends in a straight line; as shown Figure 3 and Figure 4 As shown, the clamp 10 includes a through section 12, a holding mechanism mounting section 13, and a retaining flange 14, which are fixedly connected as one unit. A channel cavity is formed in the through section 12. The holding mechanism mounting section 13 has multiple holding mounting positions. The equipment holding mechanism 40 is detachably connected to any of the holding mounting positions. The retaining flange 14 is bent and connected to the holding mechanism mounting section 13 and has a retaining surface. The first guide section 111 is constructed along... Figure 3 The sliding groove extends in the direction of the middle arrow H, and the second guide part 112 is constructed to extend along the direction of the middle arrow H. Figure 3 The sliding groove extends in the direction of arrow V, and the arrow H direction is perpendicular to the arrow V direction. The abutting surface is a slender strip-shaped plane extending along the arrow H direction.
[0049] Figure 1 The sliding guide 20 is designed to extend along the width of the vehicle's central control screen 200. Two clamps 10 are provided at the upper and lower ends of the sliding guide 20, and both clamps 10 are... Figure 3 The adjustable posture seats with the same structure shown are detachably and slidably mounted on the sliding guide frame 20 via their respective second guide portions 112. The two adjustable posture seats abut against the upper and lower edges of the vehicle central control screen 200 via their respective abutment surfaces, that is, the two adjustable posture seats are clamped and held in place by the vehicle central control screen 200. Figure 1 The electronic device holder shown is suitable for supporting electronic devices with relatively light loads;
[0050] Figure 2 The sliding guide 20 is designed to extend along the length of the vehicle's central control screen 200, and the number of clamps 10 is three, all of which are Figure 3 The adjustable posture-changing seat with the same structure shown has two adjustable posture-changing seats respectively located at the left and right ends of the sliding guide 20. The adjustable posture-changing seats located at the left and right ends of the sliding guide 20 are detachably slidably installed on the sliding guide 20 through their respective second guide portions 112, and the two seats abut against the left and right sides of the vehicle central control screen 200 through their respective abutting surfaces. The third adjustable posture-changing seat is located between the two ends of the sliding guide 20. The third adjustable posture-changing seat is detachably slidably installed on the sliding guide 20 through its first guide portion 111, and abuts against the upper side of the vehicle central control screen 200 through its abutting surface.
[0051] compared to Figure 1 The electronic device bracket shown is Figure 2 The illustrated electronic device bracket incorporates an adjustable, posture-changing seat that is mounted by attaching to the top edge of the vehicle's central control screen 200 via a support surface. Figure 2 The illustrated electronic device holder is suitable for supporting relatively heavy electronic devices; additionally, it can also be used when multiple electronic devices need to be supported simultaneously. Figure 2The electronic device bracket shown is in this form.
[0052] Understandable. Figures 1-2 The in-vehicle central control screen 200 can also be replaced with a computer monitor, television, water cup, desk partition, or multiple vertically placed books, etc. This utility model's electronic device bracket is suitable for use in various environments, not limited to in-vehicle scenarios.
[0053] Figure 1 , Figure 2 In the illustrated electronic device bracket, each clamp 10 is detachably slidably connected to the sliding guide 20, thus allowing the user to... Figure 2 The electronic device bracket shown is disassembled and then reassembled until it is assembled as intended. Figure 1 The shape shown.
[0054] Furthermore, in some embodiments, there are multiple sliding guides 20, each with a different length. This arrangement allows the user to select a suitable sliding guide 20 based on the shape and size of the target object to be mounted on the electronic device bracket. Then, multiple clamps 10 and the selected sliding guides 20 are connected to form the electronic device bracket, thus diversifying the usage environments of the electronic device. For example, Figure 1 The sliding guide 20 used in the electronic device bracket shown is shorter than Figure 2 The sliding guide 20 used in the electronic device bracket shown is shown.
[0055] In some embodiments, there are multiple equipment holding mechanisms 40, and each of the multiple equipment holding mechanisms 40 is detachably connected to a multiple clamping seats 10 in a one-to-one correspondence. (See reference...) Figures 3-4 Each clamp 10 includes at least a first holding mounting position 131 and a second holding mounting position 132 formed in the holding mechanism mounting portion 13. The first holding mounting position 131 and the second holding mounting position 132 have different orientations. Each device holding mechanism 40 can be detachably connected to the first holding mounting position 131 and the second holding mounting position 132. With this configuration, users can freely increase or decrease the number of device holding mechanisms 40 in the electronic device bracket to meet the diverse usage needs of a large number of electronic devices, and can also freely change the mounting position of the device holding mechanisms 40.
[0056] Furthermore, the electronic device bracket also includes multiple reversing adjustment connectors 50, each corresponding to one of the clamps 10, such as... Figure 5As shown, the reversing adjustment connector 50 includes a seat mounting end 51 and a mechanism mounting end 52 that are rotatably connected, and also includes a screwing part 53 that is fixedly connected to the seat mounting end 51. The seat mounting end 51 is threadedly connected to the holding mechanism mounting part 13 of the clamp 10. Specifically, the seat mounting end 51 and the multiple holding mounting positions on the holding mechanism mounting part 13 are detachably threadedly connected. The equipment holding mechanism 40 includes a magnetic base 41 and multiple support arms 42 that are hinged in sequence. The end of the support arm 42 that is relatively far away from the magnetic base 41 is hinged to the mechanism mounting end 52.
[0057] The magnetic holder 41 is used for direct magnetic adsorption of electronic devices. It is understood that in other embodiments, the magnetic holder 41 can be replaced by grippers or clamps to directly hold and fix the electronic device. The user can rotate the screwing part 53 to rotate the mounting end 51 around the base. Figure 5 The central axis S1 rotates, thereby enabling the disassembly and installation of the reversing adjustment connector 50 and the clamp 10; the support arm 42 can rotate... Figure 5 The central axis S2 rotates, thereby causing the entire equipment holding mechanism 40 to rotate relative to the clamp 10. The mechanism mounting end 52 is provided with a hinge hole for hinged support arm 42. The axis S2 is the axis of the hinge hole and is perpendicular to the axis S1.
[0058] With this configuration, the electronic device stand enables multi-directional adjustment of the electronic device, and the display screen of the electronic device can swing and flip with multiple degrees of freedom, making it convenient for users to browse.
[0059] See Figure 6 , Figure 7 and Figure 8 , Figures 6-8 The electronic device bracket shown is Figure 2 The illustrated electronic device bracket has several variations, in which the number of clamps 10 is three, and all three clamps 10 are... Figure 3 The adjustable posture-changing seat with the same structure shown has two clamps 10 that abut against the left and right sides of the vehicle central control screen 200 through their respective abutting surfaces, thereby achieving a hugging and clamping of the vehicle central control screen 200; and a third clamp 10 that abuts against the top edge of the vehicle central control screen 200 through its abutting surface, thereby achieving a hanging on the vehicle central control screen 200.
[0060] See Figure 9 , Figure 9 The electronic device bracket shown is Figure 1 In one variation of the electronic device bracket shown, the number of clamps 10 is two, and both clamps 10 are... Figure 3 The adjustable posture seats shown have the same structure, and the two support the left and right sides of the vehicle central control screen 200 through their respective supporting surfaces.
[0061] Furthermore, such as Figure 6As shown, the equipment holding mechanism 40 is mounted on the clamp 10, which is attached to the top of the vehicle central control screen 200, via a reversing adjustment connector 50. The reversing adjustment connector 50 is... Figure 5 The structure shown allows the support arm 42 to rotate... Figure 6 The axis S2 in the middle can rotate, and it can also rotate together with the mechanism mounting end 52 of the reversing adjustment connector 50. Figure 6 The axis S1 rotates. Figure 6 axis S2 and Figure 5 The axis S2 in the diagram is the same axis. Figure 6 axis S1 and Figure 5 The axis S1 in the diagram is the same axis.
[0062] Furthermore, such as Figure 7 As shown, the equipment holding mechanism 40 is mounted on the clamp 10 abutting the right side of the vehicle central control screen 200 via a reversing adjustment connector 50. The reversing adjustment connector 50 is... Figure 5 The structure shown allows the support arm 42 to rotate... Figure 7 The axis S2 in the middle can rotate, and it can also rotate together with the mechanism mounting end 52 of the reversing adjustment connector 50. Figure 7 The axis S1 rotates. Figure 7 axis S2 and Figure 5 The axis S2 in the diagram is the same axis. Figure 7 axis S1 and Figure 5 The axis S1 in the diagram is the same axis.
[0063] Furthermore, such as Figure 8 As shown, the equipment holding mechanism 40 is mounted on the clamp 10 abutting the left side of the vehicle central control screen 200 via a reversing adjustment connector 50. The reversing adjustment connector 50 is... Figure 5 The structure shown.
[0064] It should be noted that the sliding guide 20 is not a necessary structure for the electronic device bracket. In some embodiments not shown in the figure, the sliding guide 20 can be omitted, and each clamp 10 can directly form a sliding engagement with the other clamp 10. For example, when there are two clamps 10, at least one clamp 10 is an adjustable posture seat. The adjustable posture seat can form a sliding engagement with the other clamp 10 through any one of its sliding guide parts 11. One clamp 10 can be hung on the top of the vehicle central control screen 200 or abut against the side of the vehicle central control screen 200 through its abutting surface, and the other clamp 10 can abut against the side of the vehicle central control screen 200 or be hung on the top of the vehicle central control screen 200 through its abutting surface.
[0065] The technical features of the above-described embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
[0066] Those skilled in the art should recognize that the above embodiments are only used to illustrate the present utility model and are not intended to limit the present utility model. Any appropriate changes and variations made to the above embodiments within the scope of the essential spirit of the present utility model shall fall within the scope of protection claimed by the present utility model.
Claims
1. An electronic device bracket, characterized in that, It includes a plurality of slidably connected clamps (10) and at least one device holding mechanism (40) connected to the clamps (10); each clamp (10) includes a bearing surface, and at least one of the clamps (10) is an adjustable posture seat; the adjustable posture seat includes a plurality of sliding guides (11) extending in different directions, and any one of the sliding guides (11) is detachably slidably connected to the other clamps (10).
2. The electronic device bracket as described in claim 1, characterized in that, It also includes a locking element (30) that can be adjusted between a preset locking position and a release position; The locking member (30) locks and fixes the clamp (10) at the locking position, and the locking member (30) unlocks the clamp (10) at the releasing position.
3. The electronic device bracket as described in claim 2, characterized in that, It also includes at least one sliding guide (20), each of the clamps (10) forms a sliding engagement with the sliding guide (20), and any of the sliding guide portions (11) forms a detachable sliding engagement with the sliding guide (20).
4. The electronic device bracket as described in claim 3, characterized in that, The number of locking members (30) and the number of clamps (10) are equal and correspond one-to-one. The sliding guide (20) is provided with a sliding groove (21) for the locking members (30) to slide. Each clamp (10) is threadedly connected to the locking member (30) corresponding to the clamp (10).
5. The electronic device bracket as described in claim 4, characterized in that, The adjustable posture-changing seat includes a through part (12) connected to the locking member (30). The through part (12) has a channel cavity inside. The multiple sliding guide parts (11) respectively construct multiple intersecting and interconnected sliding mating grooves. The channel cavity serves as the intersection position of the multiple sliding mating grooves.
6. The electronic device bracket as described in claim 3, characterized in that, It also includes at least one movable magnetic connector (60) slidably mounted on the sliding guide (20); and / or, The number of sliding guides (20) is multiple, and the multiple sliding guides (20) have different lengths; and / or, The clamp (10) includes a first cover plate and a second cover plate that are stacked and fixedly connected, and the sliding guide (20) is slidably disposed between the first cover plate and the second cover plate.
7. The electronic device bracket as described in any one of claims 1 to 5, characterized in that, The adjustable posture-changing seat includes a support flange (14) having the support surface, and the sliding guide portion (11) includes a first guide portion (111) parallel to the support flange (14) and a second guide portion (112) perpendicular to the support flange (14); and / or, The clamp (10) includes a holding mechanism mounting part (13), which includes a plurality of holding mounting positions, and the equipment holding mechanism (40) is detachably connected to any of the holding mounting positions.
8. The electronic device bracket as described in claim 7, characterized in that, The electronic device support also includes at least one sliding guide (20), which is slidably engaged with the clamp (10). The number of adjustable posture-changing seats is three, and among the three adjustable posture-changing seats: Two of the adjustable posture-changing seats are detachably and slidably mounted on both ends of the sliding guide frame (20) via their respective second guide portions (112), and a third adjustable posture-changing seat is detachably and slidably mounted between the two ends of the sliding guide frame (20) via its own first guide portion (111).
9. The electronic device bracket as described in any one of claims 1 to 5, characterized in that, The number of the equipment holding mechanisms (40) is multiple, and the multiple equipment holding mechanisms (40) are respectively connected to the multiple clamps (10) in a detachable manner.
10. The electronic device bracket as described in claim 9, characterized in that, It also includes multiple reversing adjustment connectors (50) that correspond one-to-one with the clamp (10). Each reversing adjustment connector (50) includes a seat mounting end (51) and a mechanism mounting end (52) that are rotatably connected. The seat mounting end (51) is threaded to the clamp (10), and the equipment holding mechanism (40) is hinged to the mechanism mounting end (52); and / or, The device holding mechanism (40) includes a plurality of sequentially hinged support arms (42) and a magnetic base (41), one of the support arms (42) that is relatively far from the magnetic base (41) is connected to the clamp (10).