Mounting brackets and floor-standing devices

Abstract

The utility model discloses a kind of mounting bracket and floor type equipment, wherein, mounting bracket includes mounting assembly and at least one stand column component, wherein, mounting assembly is used to detachably install electronic equipment, stand column component includes first sub stand column and second sub stand column, first sub stand column includes first support part, first mounting part and second mounting part, first mounting part is used to assemble mounting assembly, second mounting part is used to assemble second sub stand column, first mounting part and second mounting part are connected to the same end of first support part, and first support part, first mounting part and second mounting part are mutually arranged at angle setting.This application detachably connect design of stand column component and mounting assembly, can effectively reduce the packing space of mounting bracket, to effectively reduce the packing cost and transportation cost of mounting bracket.

Description

Technical Field

[0001] This utility model relates to the field of auxiliary devices for electronic products, and in particular to a mounting bracket and a floor-standing device. Background Technology

[0002] Existing electronic product holders have a wide range of applications, including retail, entertainment, finance, healthcare, and transportation. Users need to install electronic products on these holders so that their position can be adjusted according to the user's location, bringing convenience to people's lives and work.

[0003] Because electronic product stands are currently quite large, they need to be packaged in large boxes during transportation, which results in high packaging and transportation costs. Utility Model Content

[0004] In view of this, and in response to the above-mentioned technical problems, this application provides a mounting bracket and a floor-standing device, wherein the mounting bracket is applied to the floor-standing device.

[0005] A first aspect of this application provides a mounting bracket, which includes a mounting assembly and at least one column assembly. The mounting assembly is used for detachably mounting electronic devices. The column assembly includes a first sub-column and a second sub-column. The first sub-column includes a first support portion, a first mounting portion, and a second mounting portion. The first mounting portion is used to assemble the mounting assembly, and the second mounting portion is used to assemble the second sub-column. The first mounting portion and the second mounting portion are connected to the same end of the first support portion, and the first support portion, the first mounting portion, and the second mounting portion are arranged at an included angle to each other.

[0006] In this application, since the mounting component and the second sub-column can be assembled and connected to the first sub-column through the first mounting part and the second mounting part respectively, when the mounting bracket needs to be packaged for transportation, the mounting component, the first sub-column and the second sub-column can be disassembled to eliminate the branch connection state of the mounting component, the first sub-column and the second sub-column due to the structural connection relationship. Therefore, when packaging the mounting bracket, the mounting component, the first sub-column and the second sub-column can be placed side by side to eliminate the assembly space between the three (here, the assembly space refers to the interval space in the connected state of the three). Thus, the assembly space between the three will not affect the packaging space required for packaging the mounting bracket. After the mounting bracket is packaged, its final packaging space is small and the amount of packaging materials is small, which can effectively reduce the packaging cost and transportation cost of the mounting bracket.

[0007] In some embodiments of the first aspect, the plurality of the support members include a first screw and a second screw; the first support portion is provided with a first screw hole, the second support portion is provided with a second screw hole, a first screw hole is correspondingly connected to a first screw, a second screw hole is correspondingly connected to a second screw, the first screw is at least partially exposed in the first screw hole, and the second screw is at least partially exposed outside the second screw hole to support the tray assembly.

[0008] In some embodiments of the first aspect, the pallet assembly includes a pallet body and a pallet connecting portion connected together, the pallet connecting portion extending in a direction intersecting the support plane of the pallet body, the pallet connecting portion having a plurality of positioning recesses for engaging the first screw and the second screw.

[0009] In some embodiments of the first aspect, the mounting assembly includes a first mounting post, which is assembled to the first mounting portion, and the first mounting post has a plurality of spaced-apart hook holes along its extension direction; the mounting bracket further includes a support component, which has at least one hook for hooking the hook holes.

[0010] In some embodiments of the first aspect, the mounting bracket further includes at least one connector, and the support component is further provided with at least one connection through hole; the connection through hole is used for the connector to pass through, and when the support component is hooked to the first mounting column by the hook, the connector passes through the connection through hole and connects to the first mounting column; or, the first mounting column is further provided with at least one reinforcement hole, the reinforcement hole being spaced apart from the hook hole, and the connection through hole is used for the connector to pass through, and when the support component is hooked to the first mounting column by the hook, one connector is correspondingly provided with one connection through hole and one reinforcement hole.

[0011] In some embodiments of the first aspect, the supporting component further includes a first mounting strip, a second mounting strip, and a third mounting strip. The first mounting strip is provided with at least one hook. The side of the second mounting strip is connected to the first mounting post, and the assembly direction of the second mounting strip intersects with the assembly direction of the first mounting post. The third mounting strip is provided with a hooking recess, and the third mounting strip is assembled to the middle of the second mounting strip through the hooking recess.

[0012] In some embodiments of the first aspect, the bearing assembly further includes a locking assembly; the locking assembly includes a locking screw and a locking connector, the locking connector being connected to the third mounting strip and being located away from the hook-up recess, the locking screw being threadedly connected to the locking connector; the locking screw has a first position and a second position relative to the locking connector, the third mounting strip being fitted onto the second mounting strip, the locking screw being located away from the second mounting strip when it is in the first position, and being connected to the second mounting strip when it is in the second position.

[0013] In some embodiments of the first aspect, the mounting bracket further includes a sealing member, wherein the first sub-post and / or the second sub-post is tubular, and the sealing member is connected to the end of the sub-post and / or the second sub-post that is in contact with the support plane.

[0014] In some embodiments of the first aspect, the first sub-post and / or the second sub-post is a circular tube or a D-shaped tube.

[0015] In some embodiments of the first aspect, the mounting bracket further includes a wheel assembly mounted on the ends of the first sub-post and the second sub-post for contacting the support plane.

[0016] In some embodiments of the first aspect, the distance between the ends of the first sub-post and the second sub-post that are in contact with the support plane is less than or equal to 80 mm.

[0017] A second aspect of this application provides a floor-standing device, which includes an electronic device and a mounting bracket as described in the first aspect of this application, wherein the electronic device is mounted on the mounting bracket.

[0018] The main beneficial effects of the second aspect are detailed in the first aspect, and will not be repeated here. Attached Figure Description

[0019] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the composition of the floor-standing equipment in this application;

[0021] Figure 2 This is a structural diagram of a mounting bracket according to this application;

[0022] Figure 3 for Figure 2 Exploded view;

[0023] Figure 4 for Figure 2 Side view;

[0024] Figure 5 for Figure 2 An installation diagram of a mounting component and a column component;

[0025] Figure 6 for Figure 2 Installation diagram of another type of mounting component and column component;

[0026] Figure 7 for Figure 2 Installation diagram of the middle tray assembly;

[0027] Figure 8 for Figure 2 Diagram showing the connection between the load-bearing components and the column components;

[0028] Figure 9 for Figure 2 A diagram showing the load-bearing components in the middle, which are independent of other structures in the mounting bracket.

[0029] Figure 10 for Figure 9 An enlarged view of a column assembly at point A;

[0030] Figure 11 for Figure 9 An enlarged view of another column component at point A;

[0031] Figure 12 for Figure 2 A structural diagram of the mounting bracket from another perspective;

[0032] Figure 13 for Figure 12 Assembly diagram at point B;

[0033] Figure 14 for Figure 12 Assembly diagram at point C.

[0034] Explanation of reference numerals in the attached figures:

[0035] 1000 - Floor-standing equipment; 1 - Mounting bracket; 10 - Mounting component; 100 - First mounting column; 101 - Hanging hole; 102 - Reinforcement hole; 11 - Column assembly; 110 - First sub-column; 111 - First support part; 118 - First screw hole; 112 - First mounting part; 113 - Second mounting part; 114 - Second sub-column; 115 - Second support part; 117 - Second screw hole; 116 - Second connecting part; 12 - Pallet assembly; 120 - Pallet body; 121 - Pallet connector 122-Positioning recess, 13-Support, 131-First screw, 132-Second screw, 15-Bearing assembly, 109-First mounting strip, 106-Hook, 107-Connecting through hole, 103-Second mounting strip, 104-Third mounting strip, 105-Hanging recess, 108-Fourth mounting strip, 14-Locking assembly, 140-Locking screw, 141-Locking connector, 16-Connector, 17-Sealing part, 18-Wheel assembly, 2-Electronic equipment, d1-First gap. Detailed Implementation

[0036] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are merely some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort should fall within the scope of protection of this application.

[0037] Unless otherwise defined, the technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application pertains. The terms “an,” “a,” or “the,” as used herein, do not indicate a limitation of quantity, but are merely used to indicate the presence of at least one. Terms such as “comprising” or “including” mean that the element or object preceding the word encompasses the elements or objects listed following the word and their equivalents, without excluding other elements or objects. Terms such as “connected” or “linked” are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

[0038] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0039] With the increasing thinness and lightness of display panels, the "non-destructive decoration" policy in commercial real estate, and the triple demand for "space reuse and easy mobility" in home, office, and retail scenarios, floor-standing devices have emerged. They replace the "fixed screens" that previously required drilling to mount on the wall, transforming them into "mobile information islands" that can be pushed and stopped. In other words, floor-standing devices allow the same screen to move freely between the living room, gym, and game room; it can also be used and moved around in meeting rooms, roadshow areas, and training rooms; and it can be repositioned daily at store entrances, shop windows, and promotional areas. Compared to "fixed screens," this switching of application scenarios requires no wall demolition, no rewiring, and leaves no installation traces. It is precisely this freedom of "not picky about walls, leaving no scars, and being ready to use" that gives floor-standing devices an independent value in everyday life that cannot be replaced by wall-mounted or ceiling-mounted screens. It is no longer just a screen in a fixed space, but a flexible "connector" that can be switched to the appropriate space to display content that users require.

[0040] Currently, floor-standing devices (such as televisions, monitors, advertising screens, and personal digital displays) are rapidly becoming popular in home living rooms, conference rooms, retail stores, exhibitions, and other scenarios. The market demand for floor-standing devices is growing daily. However, due to the large size of the mounting brackets in current floor-standing devices, large-sized packaging boxes are required for transportation, resulting in high packaging and transportation costs for electronic product brackets. Therefore, to address the above issues, this application provides a floor-standing device and a mounting bracket.

[0041] The following will refer to the appendices in the embodiments of this application. Figure 1 - Appendix Figure 14 The technical solutions in the embodiments of this application are described clearly and completely.

[0042] Please refer to this first. Figure 1 This application provides a floor-standing device 1000, which includes an electronic device 2 and a mounting bracket 1. Please refer to [the relevant documentation]. Figures 2 to 14 The mounting bracket 1 includes a mounting assembly 10 and at least one column assembly 11. The mounting assembly 10 is used to detachably mount the electronic device 2, that is, the electronic device 2 in the floor-standing device 1000 is mounted on the mounting assembly 10.

[0043] The column assembly 11 is used to contact the supporting surface (referring to a flat surface such as the ground or a desktop) so that the electronic device 2 mounted on the mounting bracket 1 can be stably placed on the supporting surface. The column assembly 11 includes a first sub-column 110 and a second sub-column 114. The first sub-column 110 includes a first support portion 111, a first mounting portion 112 and a second mounting portion 113. The first mounting portion 112 is used to assemble the mounting assembly 10, and the second mounting portion 113 is used to assemble the second sub-column 114. The first mounting portion 112 and the second mounting portion 113 are connected to the same end of the first support portion 111, and the first support portion 111, the first mounting portion 112 and the second mounting portion 113 are arranged at an included angle to each other.

[0044] Main parameters Figure 2 and Figure 3 It should be understood that since the first support part 111, the first mounting part 112 and the second mounting part 113 are set at an angle to each other, if the column assembly 11 and the mounting assembly 10 cannot be disassembled, then when the mounting bracket 1 is packaged and transported, the mounting assembly 10, the first sub-column 110 and the second sub-column 114 will be in a branch connection state due to the structural connection relationship. The required packaging space will be affected by the connection state of the three, resulting in a large packaging space and a large amount of packaging materials after the final packaging is completed.

[0045] In the above embodiments, since the mounting assembly 10 and the second sub-post 114 can be assembled and connected to the first sub-post 110 via the first mounting part 112 and the second mounting part 113 respectively, in other words, the mounting assembly 10, the first sub-post 110 and the second sub-post 114 are assembled in a K / D (detachable assembly) manner. Therefore, when the mounting bracket 1 needs to be packaged for transportation, the mounting assembly 10, the first sub-post 110 and the second sub-post 114 can be disassembled to eliminate the need for packaging. The structural connection relationship presents a branch connection state. Therefore, when packaging the mounting bracket 1, the mounting component 10, the first sub-column 110 and the second sub-column 114 can be placed side by side to eliminate the assembly space between the three (the assembly space here refers to the interval space in the connection state of the three). Thus, the assembly space between the three will not affect the packaging space required for packaging the mounting bracket 1. After the mounting bracket 1 is packaged, its final packaging space is small and the amount of packaging materials is small, which can effectively reduce the packaging cost and transportation cost of the mounting bracket 1.

[0046] For reference Figure 5 In some embodiments, the first sub-column 110 and / or the second sub-column 114 are circular tubes. The circular tubes are isotropic, and each region of the tube can be subjected to force evenly. They are more adaptable to multi-directional impacts or vibrations and can improve the structural stability of the column assembly 11.

[0047] For reference Figure 6 In other embodiments, the first sub-column 110 and / or the second sub-column 114 are D-shaped pipes. It should be understood that a D-shaped pipe is an irregularly shaped pipe with a "D"-shaped cross-section. This type of pipe has one straight side and one curved side, combining the "surface stability" of a square pipe with the "bending resistance" of a round pipe. It is typically made of aluminum alloy, steel, or copper. It can be used in buildings as concealed pipelines for drainage, ventilation, and gas, saving space and hiding wiring by using its flat surface against the wall. It can also serve as a frame, guide rail, or heat sink in mechanical, furniture, and electronic heat dissipation scenarios, improving heat dissipation efficiency by increasing the surface area of ​​the pipe. Compared to traditional round / square pipes, D-shaped pipes can meet the requirements for surface installation, have a novel appearance, and are suitable for irregular spatial shapes, possessing irreplaceable structural and aesthetic advantages.

[0048] It should be noted that this can be used as a reference. Figure 5 and Figure 6 The arrows in the figure also schematically indicate the assembly method between the first mounting column 100, the first sub-column 110 and the second sub-column 114 in the mounting assembly 10. It should be noted that after the first mounting column 100, the first sub-column 110 and the second sub-column 114 are connected to each other, the corresponding connectors 16 (such as the second screw 132) are used to reinforce the connection between the three.

[0049] Please return and access the main parameters. Figure 4 In practical applications, since the doors of ordinary commercial buildings are generally between 0.8 meters and 0.9 meters high, and the doors of public places are generally more than 1 meter high, in order to ensure that the mounting bracket 1 can move smoothly between multiple scenes, in some embodiments, the distance between the ends of the first sub-column 110 and the second sub-column 114 that are in contact with the support plane (as shown in the figure, the first distance d1) is less than or equal to 80 mm, so that the mounting bracket 1, or the floor-standing device 1000 using the mounting bracket 1, can overcome the size factor of the door frame and move smoothly back and forth between multiple scenes.

[0050] It should be noted that, since the end dimensions of the first sub-column 110 and the second sub-column 114 used to contact the support plane are controllable (generally small), in practical applications, the end dimensions have a relatively small impact on the actual distance between the two ends. Therefore, the distance between the ends of the first sub-column 110 and the second sub-column 114 used to contact the support plane can be the distance between the two opposite sides or the distance between the geometric centers of the two ends. No further restrictions are imposed in the above embodiment.

[0051] Please base on Figure 2 and combined Figure 3In some embodiments, the second sub-column 114 includes a second support portion 115 and a second connecting portion 116 connected to each other. The second support portion 115 is disposed opposite to the first support portion 111 to contact the support plane, and the second connecting portion 116 is assembled to the second mounting portion 113. The mounting bracket 1 also includes a tray assembly 12 and a support member 13. The first support portion 111 and the second support portion 115 are each connected to at least one of the support members 13, and the tray assembly 12 is located on a plurality of support members 13.

[0052] It should be noted that in the above embodiments, the support member 13 is used to support the tray assembly 12 so that the tray assembly 12 can be stably connected to the column assembly 11, thereby supporting the user's storage needs, such as placing daily necessities like tissues and labels, or remote controls and styluses that are compatible with the electronic device 2, so as to improve the user's experience of using the mounting bracket 1.

[0053] In some embodiments, the plurality of support members 13 include a first screw 131 and a second screw 132. The first support portion 111 is provided with a first screw hole 118, and the second support portion 115 is provided with a second screw hole 117. A first screw hole 118 is correspondingly connected to a first screw 131, and a second screw hole 117 is correspondingly connected to a second screw 132. The first screw 131 is at least partially exposed in the first screw hole 118, and the second screw 132 is at least partially exposed outside the second screw hole 117 to support the tray assembly 12.

[0054] In other words, in the above embodiment, the first screw 131 and the second screw 132 are partially screwed into their corresponding first screw holes 118 and second screw holes 117, and the other part is located outside the first screw holes 118 and second screw holes 117. As mentioned above, the first support portion 111 and the second support portion 115 are arranged at an included angle. Therefore, the first screw 131 and the second screw 132 can be spaced apart. The part of the first screw 131 located outside the first screw hole 118 and the part of the second screw 132 located outside the second screw hole 117 can form a placement plane to stably support the tray assembly 12 located above the two screws.

[0055] Please refer to further information. Figure 3 and Figure 7 In some embodiments, the pallet assembly 12 includes a pallet body 120 and a pallet connecting portion 121 connected together. The pallet connecting portion 121 extends in a direction intersecting the support plane of the pallet body 120. The pallet connecting portion 121 is provided with a plurality of positioning recesses 122 for engaging the first screw 131 and the second screw 132.

[0056] Specifically, the end of the first screw 131 is spaced apart from the outer surface of the first support portion 111, and the end of the second screw 132 is spaced apart from the outer surface of the second support portion 115. Thus, the spaced interval can accommodate the tray connecting portion 121, so that the tray connecting portion 121 is clamped between the screw and the support portion corresponding to the screw. The positioning recess 122 can further increase the connection area between the tray connecting portion 121 and the screw, and constrain the tray connecting portion 121 to move relative to the screw in the radial direction of the screw. Thus, the tray assembly 12 can be stably connected to the column assembly 11, improving the structural stability of the mounting bracket 1.

[0057] like Figure 7 The tray connector 121 of this design has two screw holes on both sides, so that users can first tighten two screws during assembly, then hang the tray assembly 12, and then tighten the other screws, thus achieving a quick installation function.

[0058] Please base on Figure 3 and in conjunction with references Figures 8 to 11 In some embodiments, the mounting assembly 10 includes a first mounting post 100, which is fitted onto the first mounting portion 112. Along the extending direction of the first mounting post 100, the first mounting post 100 has a plurality of spaced-apart hook holes 101. The mounting bracket 1 also includes a support assembly 15, which has at least one hook 106 for hooking onto the hook holes 101.

[0059] Specifically, the support component 15 is hung on the first mounting column 100 via hooks 106 to form a stable connection with the first mounting column 100. Thus, the electronic device 2 can achieve a stable connection to the mounting component 10 by being attached to the support component 15. Since the support component 15 is attached to the first mounting column 100 via hooks 106 and the aforementioned mounting holes 101, the user can quickly and easily install and remove the support component 15 from the first mounting column 100, reducing the difficulty of disassembling and assembling the mounting bracket 1.

[0060] like Figure 8 In the illustrated embodiment, both sides of the first mounting column 100 have mounting holes 101 for the bearing component 15. This allows the user to hang the bearing component 15 on it first and then tighten the screws during assembly, thus achieving a quick installation function.

[0061] For reference Figure 9 In some embodiments, the mounting bracket 1 further includes at least one connector 16, and the support assembly 15 is further provided with at least one connection through hole 107, wherein, Figure 9The correspondence between connector 16 and connecting via 107 is schematically marked in the diagram.

[0062] The connecting through hole 107 is used to pass through the connector 16. When the bearing component 15 is hung on the first mounting column 100 through the hook 106, the connector 16 passes through the connecting through hole 107 and connects to the first mounting column 100. In this way, the connector 16 can further strengthen the connection strength between the bearing component 15 and the first mounting column 100, thereby improving the structural stability of the mounting bracket 1.

[0063] Furthermore, the first mounting post 100 is provided with at least two hook holes 101. After the connector 16 passes through the connecting through hole 107, it can connect to the first mounting post 100 by connecting the wall of an empty hook hole 101. (Refer to the reference.) Figure 10 Among them, 101a, 101b, 101c, 101d, and 101e represent five hook holes 101 at different positions. When the hook 106 is connected to hook hole 101a, then the hook hole 101 connected to connector 16 can be 101b, 101c, 101d, or 101e. Alternatively, the bearing assembly 15 is provided with multiple hooks 106 and multiple connectors 16, and the bearing assembly 15 is provided with multiple connecting through holes 107. During assembly, the position of the hook hole 101 corresponding to the connecting through hole 107 is different from the position of the hook hole 101 that the hook 106 is attached to. The hook hole 101 connected to connector 16 corresponds to the hook hole 101 position that is not attached to hook 106.

[0064] Meanwhile, the multiple mounting holes 101 also provide multiple installation positions for the support components 15. In other words, the support components 15 can be connected to different mounting holes 101 to be located at different heights on the mounting bracket 1. Thus, the electronic devices 2 connected to the support components 15 can be located at different heights on the mounting bracket 1, thereby improving the applicability of the mounting bracket 1.

[0065] Can be combined Figures 4 to 6 In another embodiment, the first mounting column 100 is further provided with at least one reinforcing hole 102, the reinforcing hole 102 being spaced apart from the hook hole 101, and the connecting through hole 107 being used to pass through the connector 16. When the bearing component 15 is hooked to the first mounting column 100 via the hook 106, one connector 16 is correspondingly provided with one connecting through hole 107 and one reinforcing hole 102.

[0066] Thus, the reinforcement hole 102 provides an additional connection method between the connector 16, the load-bearing component 15, and the first mounting post 100. The reinforcement hole 102 can be distinguished from the hook hole 101, so that the hook hole 101 and the reinforcement hole 102 each have their main uses. In other words, the hook hole 101 is used to hang the hook 106, and the reinforcement hole 102 is used to connect the aforementioned connector 16.

[0067] Please combine Figure 11 Furthermore, multiple reinforcing holes 102 are provided on the first mounting column 100, and these multiple reinforcing holes 102 are located at different positions on the first mounting column 100. In the figure, 102a, 102b, 102c, 102d, 102e, 102f, and 102g represent reinforcing holes 102 at different positions. When a certain through-hole position of the connector 16 is limited by the connection position between the hook 106 and the hanging hole 101, the connector 16 can use reinforcing holes 102 at other positions. To achieve a reinforced connection, for example, when the hook 106 is connected to the hook hole 101 at 101a, when the connector 16 passes through the reinforced hole 102 at 102a or 102b, the connector 16 will be interfered with by the hook 106, affecting the connection effect of the connector 16. Therefore, at this time, any one of the reinforced holes 102, 102c, 102d, 102e, 102f, and 102g, can be used to reinforce the connection between the first mounting column 100 and the load-bearing component 15.

[0068] Meanwhile, the multiple mounting holes 101 and reinforcement holes 102 provide multiple installation positions for the support components 15. In other words, the support components 15 can be positioned at different heights on the mounting bracket 1 by connecting to the mounting holes 101 and reinforcement holes 102 at different positions. Thus, the electronic devices 2 connected to the support components 15 can be positioned at different heights on the mounting bracket 1, thereby improving the applicability of the mounting bracket 1.

[0069] Furthermore, such as Figure 11 As shown, in some embodiments, the reinforcing hole 102 and the hook hole 101 are staggered to reduce the interference of the hook 106 on the connector 16 when the mounting bracket 1 is assembled.

[0070] In addition, the multiple reinforcement holes 102 and mounting holes 101 provide multiple installation positions for the support components 15. In other words, the support components 15 can be positioned at different heights on the mounting bracket 1 by connecting to the mounting holes 101 and reinforcement holes 102 at different positions. Thus, the electronic devices 2 connected to the support components 15 can be positioned at different heights on the mounting bracket 1, thereby improving the applicability of the mounting bracket 1.

[0071] Please base on Figure 3 Combination Figure 7 , Figure 12and Figure 13 In some embodiments, the supporting component 15 further includes a first mounting strip 109, a second mounting strip 103, and a third mounting strip 104. The first mounting strip 109 is provided with at least one hook 106. The side of the second mounting strip 103 is connected to the first mounting post 100, and the assembly direction of the second mounting strip 103 intersects with the assembly direction of the first mounting post 100. The third mounting strip 104 is provided with a hooking recess 105. The third mounting strip 104 is assembled to the middle of the second mounting strip 103 through the hooking recess 105, so that the third mounting strip 104 is stably connected to the second mounting strip 103, thereby making the structure of the assembled supporting component 15 stable.

[0072] In this way, users can quickly install and remove the second mounting strip 103 and the third mounting strip 104 through the hook recess 105. When the mounting bracket 1 needs to be packaged, the support component 15 can be disassembled into the first mounting strip 109, the second mounting strip 103 and the third mounting strip 104. Thus, the space for packaging the support component 15 becomes three independent individual spaces of the first mounting strip 109, the second mounting strip 103 and the third mounting strip 104. The gap space generated by the connection relationship of the first mounting strip 109, the second mounting strip 103 and the third mounting strip 104 in this packaging space is eliminated, thereby compressing the overall packaging space of the mounting bracket 1 and reducing the packaging cost and consumable cost of the mounting bracket 1.

[0073] The first mounting strip 109 is used to connect the mounting component 10. The second mounting strip 103 and / or the third mounting strip 104 can be used to connect the electronic device 2, or can be used to connect the wires, plugs, etc. of the electronic device 2. The specific usage depends on the user's specific needs, and no further limitations are made in this embodiment.

[0074] For reference Figure 3 In some embodiments, the support component 15 includes two second mounting strips 103, which are spaced apart and arranged in parallel. The support component 15 also includes a fourth mounting strip 108, which is parallel and spaced apart from the first mounting strip 109. Different second mounting strips 103 are connected to the opposite sides of the first mounting strip 109 and the fourth mounting strip 108. In this way, the fourth mounting strip 108 can further reinforce the two second mounting strips 103, keeping the distance between the two second mounting strips 103 unchanged, thereby improving the overall structural strength of the support component 15.

[0075] Based on Figure 3 Further integration Figure 14In some embodiments, the supporting component 15 further includes a locking component 14, which includes a locking screw 140 and a locking connector 141. The locking connector 141 is connected to the third mounting strip 104 and is located away from the hook recess 105. The locking screw 140 is threadedly connected to the locking connector 141 so that the locking screw 140 can move relative to the locking connector 141.

[0076] The locking screw 140 has a first position and a second position relative to the locking connector 141. The third mounting strip 104 is assembled to the second mounting strip 103. When the locking screw 140 is in the first position, the locking screw 140 is away from the second mounting strip 103. When the locking screw 140 is in the second position, the locking screw 140 is connected to the second mounting strip 103.

[0077] In other words, when the third mounting strip 104 needs to be stably assembled to the second mounting strip 103, the locking screw 140 is adjusted to the second position, and the second mounting strip 103 is connected through the locking screw 140, so that the third mounting strip 104 is stably assembled to the second mounting strip 103. When the third mounting strip 104 needs to be removed, the locking screw 140 is adjusted to the first position, and the connection between the locking screw 140 and the second mounting strip 103 is released, so that the third mounting strip 104 can be removed from the second mounting strip 103. Thus, in this embodiment, the third mounting strip 104 achieves the function of quick installation by using a safety screw locking method, which makes it easier for users to assemble and disassemble the mounting bracket 1 and reduces the difficulty of users assembling and installing the mounting bracket 1.

[0078] Users can adjust the connection status of the locking assembly 14 by manually operating the locking screw 140 or by using external tools (such as screwdrivers) to rotate the locking screw 140.

[0079] Please refer back. Figure 5 In some embodiments, the mounting bracket 1 further includes a sealing member 17. The first sub-column 110 and / or the second sub-column 114 are tubular. The sealing member 17 is connected to the end of the first sub-column 110 and / or the second sub-column 114 that is in contact with the support plane. The sealing member 17 can seal the first sub-column 110 and / or the second sub-column 114 to prevent foreign objects from entering the tubular space of the column and contaminating or corroding the column. At the same time, the sealing member 17 can also form a connecting surface to connect other structural components (such as the wheel assembly 18).

[0080] For reference Figure 2In some embodiments, the mounting bracket 1 further includes a wheel assembly 18, which is mounted on the ends of the first sub-column 110 and the second sub-column 114 for contacting the support plane. In this way, the user can easily move the mounting bracket 1 to the target position, reducing the difficulty of moving the mounting bracket 1 and improving the user experience.

[0081] It should be noted that, for the sake of simplicity, the foregoing method embodiments are all described as a series of actions. However, those skilled in the art should understand that this application is not limited to the described order of actions, as some steps may be performed in other orders or simultaneously according to this application. Furthermore, those skilled in the art should also understand that the embodiments described in the specification are preferred embodiments, and the actions and modules involved are not necessarily essential to this application.

[0082] In the above embodiments, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions in other embodiments.

[0083] The above-described embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit it. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.

Claims

1. A mounting bracket, characterized in that, include: Mounting components for removably mounting electronic devices; At least one column assembly, the column assembly including a first sub-column and a second sub-column, the first sub-column including a first support portion, a first mounting portion and a second mounting portion, the first mounting portion being used to assemble the mounting assembly, the second mounting portion being used to assemble the second sub-column, the first mounting portion and the second mounting portion being connected to the same end of the first support portion, and the first support portion, the first mounting portion and the second mounting portion being arranged at an included angle to each other.

2. The mounting bracket as described in claim 1, characterized in that, The second sub-column includes a second support portion and a second connecting portion connected to each other. The second support portion is disposed opposite to the first support portion to contact the support plane, and the second connecting portion is assembled and connected to the second mounting portion. The mounting bracket further includes a tray assembly and support members, wherein the first support portion and the second support portion are each connected to at least one of the support members, and the tray assembly is located on a plurality of the support members.

3. The mounting bracket as described in claim 2, characterized in that, The plurality of the support members include a first screw and a second screw; The first support portion is provided with a first screw hole, and the second support portion is provided with a second screw hole. A first screw hole is connected to a first screw, and a second screw hole is connected to a second screw. The first screw is at least partially exposed in the first screw hole, and the second screw is at least partially exposed on the outside of the second screw hole to support the tray assembly.

4. The mounting bracket as described in claim 3, characterized in that, The pallet assembly includes a pallet body and a pallet connecting portion connected together. The pallet connecting portion extends along a direction intersecting the support plane of the pallet body. The pallet connecting portion is provided with a plurality of positioning recesses for engaging the first screw and the second screw.

5. The mounting bracket as described in claim 1, characterized in that, The mounting assembly includes a first mounting column, which is assembled to the first mounting part. Along the extension direction of the first mounting column, the first mounting column has a plurality of spaced-apart hanging holes. The mounting bracket also includes a support component, which has at least one hook for attaching to the mounting hole.

6. The mounting bracket as described in claim 5, characterized in that, The mounting bracket further includes at least one connector, and the load-bearing component is further provided with at least one connection through hole; The connecting through hole is used to pass through the connector. When the load-bearing component is hooked to the first mounting column via the hook, the connector passes through the connecting through hole and connects to the first mounting column; or, the first mounting column is also provided with at least one reinforcing hole, the reinforcing hole being spaced apart from the hook hole. The connecting through hole is used to pass through the connector. When the load-bearing component is hooked to the first mounting column via the hook, one connector passes through one connecting through hole and one reinforcing hole respectively.

7. The mounting bracket as described in claim 5, characterized in that, The load-bearing component further includes a first mounting strip, a second mounting strip, and a third mounting strip. The first mounting strip is provided with at least one hook. The side of the second mounting strip is connected to the first mounting column, and the assembly direction of the second mounting strip intersects with the assembly direction of the first mounting column. The third mounting strip is provided with a hooking recess, and the third mounting strip is assembled to the middle of the second mounting strip through the hooking recess.

8. The mounting bracket as described in claim 7, characterized in that, The load-bearing component also includes a locking component; The locking assembly includes a locking screw and a locking connector. The locking connector is connected to the third mounting strip and is located away from the hook recess. The locking screw is threadedly connected to the locking connector. The locking screw has a first position and a second position relative to the locking connector. The third mounting strip is assembled to the second mounting strip. When the locking screw is in the first position, the locking screw is away from the second mounting strip. When the locking screw is in the second position, the locking screw is connected to the second mounting strip.

9. The mounting bracket as described in claim 1, characterized in that, The mounting bracket further includes a sealing element, wherein the first sub-post and / or the second sub-post are tubular, and the sealing element is connected to the end of the sub-post and / or the second sub-post that contacts the supporting plane; and / or, The first sub-column and / or the second sub-column are circular tubes or D-shaped tubes; The mounting bracket further includes a caster assembly, which is mounted on the ends of the first and second sub-columns that are in contact with the support plane; and / or, The distance between the ends of the first sub-column and the second sub-column that are in contact with the support plane is less than or equal to 80 mm.

10. A floor-standing device, characterized in that, include: Electronic devices; as well as The electronic device is mounted on the mounting assembly as described in any one of claims 1-9.

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