CN219459474U - Integrated WiFi box mounting structure and display device - Google Patents

Abstract

The utility model discloses an integrated WiFi box installation structure and display equipment, wherein the integrated WiFi box installation structure is applied to a face frame of the display equipment, and the front face of the face frame is provided with a groove, and the integrated WiFi box installation structure comprises: at least one guide rail box is embedded in the groove on the face frame, an opening is formed in the front face of the guide rail box, and a first signal interface is arranged in the guide rail box; and the WiFi box is arranged in the opening in the guide rail box from the front, and a second signal pair interface which is in butt joint with the first signal pair interface is arranged in the WiFi box. The integrated WiFi box mounting structure realizes efficient assembly of the WiFi box through integrated design, is attractive in appearance and convenient to mount, is provided with the anti-theft structure, avoids signal interference, and improves use safety and stability.

Description

Integrated WiFi box mounting structure and display device

Technical Field

The utility model relates to the field of display equipment, in particular to an integrated WiFi box mounting structure and display equipment.

Background

In the prior art, as shown in fig. 1, a display device such as a market meeting machine and the like generally brings smooth WiFi surfing experience to a user by adding a WiFi module in a plastic box 10 at the bottom of the machine, but because a plastic box is arranged at the bottom, the appearance of the machine is more abrupt, and meanwhile, the plastic box at the bottom needs to be protected in production line operation, so that the plastic box is prevented from being crushed. In addition, the signals at the plastic box are also shielded by the metal face frame of the machine, thereby affecting the use of the machine.

Disclosure of Invention

The utility model aims to provide an integrated WiFi box installation structure, which aims to solve the problems of abrupt modeling, easy damage, signal interference and the like of the WiFi box installation structure in the prior art.

The embodiment of the utility model provides an integrated WiFi box mounting structure which is applied to a face frame of display equipment, wherein the front surface of the face frame is provided with a groove, and the integrated WiFi box mounting structure comprises:

at least one guide rail box is embedded in the groove on the face frame, the front face of the guide rail box is provided with a containing cavity, and a first signal interface is arranged in the guide rail box; and the WiFi box is arranged in the accommodating cavity in the guide rail box from the front, and a second signal pair interface which is in butt joint with the first signal pair interface is arranged on the WiFi box.

Further, the inner wall of the guide rail box is provided with at least one guide rail rib position along the installation direction of the accommodating cavity, and the outer wall of the WiFi box is provided with at least one rib position groove corresponding to the guide rail rib position.

Further, a first skirt edge is arranged on the side edge, close to the opening of the groove, of the guide rail box, a corresponding second skirt edge is arranged on the side edge, close to the opening of the groove, of the WiFi box, and the first skirt edge and the second skirt edge are connected to the face frame.

Further, the installation structure of integrated WiFi box still includes a theftproof structure, theftproof structure includes: the anti-theft device comprises a first anti-theft hole arranged on the first skirt, a second anti-theft hole arranged on the face frame and corresponding to the first anti-theft hole in position, and an anti-theft column arranged on the second skirt, wherein the anti-theft column is clamped in the first anti-theft hole and the second anti-theft hole.

Further, the back of the guide rail box is horizontally provided with a bottom plate and at least one positioning column vertically arranged on the bottom plate; the guide rail box further comprises a signal plate, the signal plate is mounted on the positioning column, the first signal butt joint is arranged on the signal plate, a signal hole is formed in the back of the guide rail box, and the first signal butt joint faces the signal hole and faces the accommodating cavity of the guide rail box.

Further, the integrated WiFi box mounting structure further comprises a limiting structure, wherein the limiting structure comprises limiting ribs which are vertically arranged on the bottom plate and close to the back of the guide rail box, and notches which are correspondingly arranged on one side of the signal plate and used for limiting the limiting ribs.

Further, the integrated WiFi box mounting structure further comprises a guiding structure, and the guiding structure comprises: the guide post is arranged on the first skirt edge, and the stud is positioned on the back surface of the face frame and correspondingly nested and connected with the guide post.

Further, the installation structure of integrated wiFi box still includes a foolproof structure, foolproof structure includes: the fool-proof column is arranged at the fool-proof opening of the first skirt edge, positioned at the back of the face frame and connected with the fool-proof opening.

Further, the integrated WiFi box mounting structure further comprises a positioning structure, wherein the positioning structure comprises a positioning block arranged at the bottom of the guide rail box and a positioning groove arranged at the bottom of the groove, and the positioning block is arranged in the positioning groove; the bottom of the guide rail box is also provided with a third skirt edge in an extending mode towards the opening direction of the accommodating cavity, and the third skirt edge is lapped on one end, towards the opening of the accommodating cavity, of the positioning groove.

The embodiment of the utility model also provides a display device which comprises a face frame and the integrated WiFi box mounting structure arranged on the face frame.

Compared with the prior art, the utility model has the beneficial effects that: the WiFi box and the guide rail box are integrally designed and arranged at the surface frame of the display equipment, so that the WiFi box is prevented from being crushed, and the display equipment is attractive in appearance and simple to install; meanwhile, the WiFi box is arranged on the surface frame of the display device, so that the interference of a metal piece at the bottom of the display device on signals of the WiFi box is avoided, and the risk of being crushed in the processing process is reduced; simultaneously, be provided with the theftproof structure, guarantee the security that wiFi box used.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a conference machine in the prior art;

fig. 2 is a schematic structural diagram of a display device according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a display device according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

fig. 5 is a schematic structural diagram of a WiFi box provided by an embodiment of the present utility model to hide a second signal pair interface;

fig. 6 to 7 are all schematic installation diagrams of an integrated WiFi box installation structure according to an embodiment of the present utility model;

fig. 8 is a schematic back view of an integrated WiFi box mounting structure according to an embodiment of the utility model;

fig. 9 is an exploded view of a rail box installation of an integrated WiFi box installation structure according to an embodiment of the utility model;

FIG. 10 is an enlarged schematic view at B in FIG. 4;

FIG. 11 is an enlarged schematic view of FIG. 10 at C;

fig. 12 is a schematic structural diagram of an integrated WiFi box mounting structure hidden WiFi box according to an embodiment of the utility model.

The figure identifies the description:

10. a plastic box in the prior art;

201. a face frame;

301. a guide rail box; 302. WiFi box;

401. a groove; 402. a receiving chamber; 403. a first signal pair interface; 404. a second signal pair interface; 405. a guide rail rib position; 406. a rib position groove;

601. a first skirt; 602. a second skirt; 603. a first anti-theft hole; 604. a second anti-theft hole; 605. an anti-theft column;

801. a bottom plate; 802. positioning columns; 803. a signal board; 804. a signal hole; 805. a through hole;

901. a notch; 902. a limit rib; 903. a guide post; 904. a stud; 905. fool-proof column; 906. fool-proof opening;

1001. a positioning block; 1002. a positioning groove; 1003. and a third skirt.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below are exemplary and intended to illustrate the present utility model and should not be construed as limiting the utility model, and all other embodiments, based on the embodiments of the present utility model, which may be obtained by persons of ordinary skill in the art without inventive effort, are within the scope of the present utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "circumferential", "radial", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

As shown in fig. 2, 3 and 4, the integrated WiFi box mounting structure is applied to a face frame 201 of a display device, a front surface of the face frame 201 is provided with a groove 401, and the integrated WiFi box mounting structure includes: at least one guide rail box 301 is embedded in a groove 401 on the face frame 201, a containing cavity 402 is formed in the front face of the guide rail box 301, and a first signal pair interface 403 is arranged in the guide rail box 301; at least one WiFi cartridge 302 is mounted in a receiving cavity 402 in the guide rail cartridge 301 from the front, and a second signal pair interface 404 is provided in the WiFi cartridge 302 to interface with the first signal pair interface 403.

In this embodiment, the exterior of the display device is wrapped by a face frame 201 made of metal or other materials, and surrounds the periphery of the display screen of the display device to protect the display device from being damaged; a groove 401 is arranged on the front surface of the face frame 201, and the opening direction of the groove 401 is outwards (namely towards the front surface); the guide rail box 301 is embedded in a groove 401 on the face frame 201, the guide rail box 301 is also hollowed, and is provided with an accommodating cavity 402, the front surface of the accommodating cavity 402 is provided with an opening, the opening direction of the guide rail box is consistent with the opening direction of the groove 401 of the face frame 201, the guide rail box 301 is designed outwards, and the guide rail box 301 is also provided with a first signal pair interface 403 for a signal wire or a signal plug to pass through; the WiFi box 302 is installed in the guide rail box 301, that is, the WiFi box 302 is assembled with the guide rail box 301 in one-to-one correspondence; the WiFi box 302 is provided with a second signal pair interface 404 corresponding to the first signal pair interface 403 in the rail box 301, that is, the first signal pair interface 403 and the second signal pair interface 404 can implement the opposite insertion.

Specifically, as shown in fig. 1, if the WiFi box 302 is designed at the bottom of the display device, i.e. the WiFi box 302 is directly exposed to the bottom of the display device, the bottom of the display device is very abrupt due to the installation of the WiFi box 302, and is not very attractive; also, since the WiFi box 302 is exposed, the exposed WiFi box 302 needs to be protected by the jig in the production line operation, so as to avoid the WiFi box 302 from being crushed, which not only causes the waste of resources in the production process, but also increases the production cost. In addition, the WiFi box 302 is mounted at the bottom of the display device, and is affected by the metal material of the face frame 201, and the signal of the WiFi box 302 is disturbed, so as to affect the use of the display device.

In this embodiment, the guide rail box 301 is embedded in the groove 401 on the front side of the face frame 201, the WiFi box 302 is installed in the guide rail box 301, that is, the installed WiFi box 302 is located in the groove 401 on the front side of the face frame 201 of the display device, that is, the installation structure of the WiFi box is integrally designed, specifically, the WiFi box 302 is inserted into the guide rail box 301 from the front side of the face frame 201, after the WiFi box 302 is inserted into the guide rail box 301, the WiFi box 302 is exactly matched with the guide rail box 301, that is, the front surface of the face frame 201 is not abrupt, so that the appearance of the WiFi box 302 is attractive after the WiFi box 302 is connected to the display device; similarly, the WiFi box 302 embedded in the guide rail box 301 does not need to be protected independently, and the WiFi box 302 is contained in the guide rail box 301, so that the problem that the WiFi box 302 is cracked in the production line operation is avoided.

In addition, the position of the groove 401 on the front surface of the face frame 201 can be set at will, and the groove 401 can be set at the upper end or the lower end of the display device or at one corner of the display device, and the position of the groove 401 can be designed according to the actual application requirement; because the groove 401 is positioned on the front surface of the face frame 201, the guide rail box 301 is not affected by the metal material of the face frame 201, and therefore, signals of the WiFi box 302 cannot be shielded by interference in the use process, and the use efficiency of the WiFi box 302 is improved; of course, the first signal pair interface 403 in the present embodiment may also convert the type of the interface 404 according to the second signal pair interface, so as to be better applied to actual production needs.

As shown in fig. 4 and 5, in an embodiment, at least one rail rib 405 is disposed on the inner wall of the rail box 301 along the installation direction of the accommodating cavity 402, and at least one rib groove 406 corresponding to the rail rib 405 is disposed on the outer wall of the wifi box 302.

In this embodiment, a plurality of guide rail rib positions 405 for guiding are provided on the inner wall of the guide rail box 301, rib position grooves 406 corresponding to the guide rail rib positions 405 are provided on the outer wall of the WiFi box 302, and the guide rail positions are mutually nested, so as to play a role in guiding the WiFi box 302 inserted into the guide rail box 301, and prevent the WiFi box 302 from being inserted askew or misplug.

In a specific embodiment, the inner wall of the guide rail box 301 is provided with a plurality of guide rail rib positions 405 arranged along the installation direction of the accommodating cavity 402, that is, the guide rail rib positions 405 are arranged along the direction of the inner wall of the guide rail box 301; the WiFi box 302 is provided with corresponding rib position grooves 406, and when the WiFi box 302 is inserted into the guide rail box 301 (i.e. inserted along the installation direction of the accommodating cavity 402), the guide rail rib position 405 and the rib position groove 406 are aligned to push the WiFi box 302 to be connected with the guide rail box 301; after insertion of the WiFi box 302, the WiFi box 302 is in a stable state; if the WiFi box 302 is shaken, the WiFi box 302 is limited and positioned and cannot be moved, so that damage to the WiFi box 302 is avoided. In addition, the guide rail rib position 405 arranged on the inner wall of the guide rail box 301 can be replaced by a rib position groove 406, and correspondingly, the rib position groove 406 on the WiFi box 302 is replaced by the guide rail rib position 405, so that the function of positioning and limiting the WiFi box 302 can be achieved. The number and the position of the guide rail rib positions 405 can be set arbitrarily, but at least one of the number of the guide rail rib positions 405 cannot play a role in positioning and limiting, and of course, too many guide rail rib positions 405 cannot generate more beneficial effects, but rather cost is wasted, the guide rail rib positions 405 and the rib position grooves 406 can be designed according to the needs, for example, the guide rail rib positions 405 can be set on four surfaces (top surface, bottom surface, left surface and right surface) on the inner wall of the guide rail box 301, and corresponding rib position grooves 406 are set on four surfaces of the outer wall of the WiFi box 302, so that the guide is performed from the four surfaces.

In one embodiment, as shown in fig. 6 and 7, a first skirt 601 is disposed on the side of the rail box 301 adjacent to the opening of the groove 401, and a corresponding second skirt 602 is disposed on the side of the wifi box 302 adjacent to the opening of the groove 401, where the first skirt 601 and the second skirt 602 are connected to the frame 201.

In the present embodiment, the rail box 301 is provided with a first skirt 601 for attaching the rail box 301 to the face frame 201; the WiFi box 302 is provided with a second skirt 602, which is used to connect the face frame 201 to further fix the position of the WiFi box 302, so as to avoid the WiFi box 302 from falling loose.

In a specific application scenario, the guide rail box 301 is provided with a first skirt edge 601 on both sides, and the wifi box 302 is provided with a second skirt edge 602 on both sides respectively; when the rail box 301 is mounted, the first skirt 601 of the rail box 301 is fixed to the rear of the face frame 201 by a connector such as a screw, and the entire rail box 301 is mounted to the rear of the face frame 201; when the WiFi box 302 is inserted into the guide rail box 301, the second skirt edge 602 of the WiFi guide rail box 301 is tightly attached to the front surface of the face frame 201; at this time, the first skirt 601 and the second skirt 602 are connected to the face of the face frame 201 facing the opening of the accommodating chamber 402.

In one embodiment, the integrated WiFi box mounting structure further includes a theft protection structure, the theft protection structure including: the anti-theft device comprises a first anti-theft hole 603 arranged on a first skirt 601, a second anti-theft hole 604 arranged on the face frame 201 and corresponding to the first anti-theft hole 603 in position, and an anti-theft column 605 arranged on a second skirt 602, wherein the anti-theft column 605 is clamped in the first anti-theft hole 603 and the second anti-theft hole 604.

In this embodiment, the integrated WiFi box mounting structure is provided with an anti-theft structure to ensure safe use of the WiFi box 302; a first anti-theft hole 603 is arranged on the first skirt edge 601, a second anti-theft hole 604 corresponding to the position of the first anti-theft hole 603 is arranged on the face frame 201, and an anti-theft column 605 corresponding to the positions of the first anti-theft hole 603 and the second anti-theft hole 604 is arranged on the second skirt edge 602; when the WiFi box 302 is inserted into the guide rail box 301, the anti-theft post 605 passes through the first anti-theft hole 603 and the second anti-theft hole 604, and further locks the guide rail box 301 and the WiFi box 302 on the face frame 201; meanwhile, the anti-theft structure needs to be unlocked from the back of the face frame 201, so that the problem that the WiFi box 302 is stolen can be avoided, and the problem that the WiFi box 302 is loose and then falls down to be lost or damaged due to incomplete plugging of the WiFi box 302 can also be avoided.

In one embodiment, the anti-theft structure is used to prevent the WiFi box 302 from being stolen and loose and falling, and further locks the connection among the rail box 301, the face frame 201 and the WiFi box 302. Wherein the guide rail box 301 is abutted against the face frame 201 from the rear of the display device such that the first anti-theft hole 603 on the first skirt 601 is aligned with the second anti-theft hole 604 on the face frame 201, after the guide rail box 301 is fixed, the WiFi box 302 is inserted, and the anti-theft post 605 is inserted into the second anti-theft hole 604 and passes through the first anti-theft hole 603. The shape of the anti-theft column 605 is similar to a mushroom head, and a strip-shaped opening designed along the column body of the anti-theft column 605 is arranged in the center of the anti-theft column 605, so that the anti-theft column 605 is divided into a plurality of parts along the column body, and the anti-theft column 605 can be pressed under stress, so that the anti-theft column 605 can be conveniently inserted into a smaller hole; the top of the anti-theft column 605 is sharp, so that the first anti-theft hole 603 and the second anti-theft hole 604 can be conveniently inserted, the top of the anti-theft column 605 is thicker than the column shaft part, after the anti-theft column 605 is inserted into the first anti-theft hole 603 and the second anti-theft hole 604, the anti-theft column 605 cannot be pulled out because the top part of the anti-theft column 605 is larger than the aperture of the first anti-theft hole 603, the top part of the anti-theft column 605 needs to be pressed behind the face frame 201, so that the top of the anti-theft column 605 is thinner than the aperture of the first anti-theft hole 603 and the second anti-theft hole 604, the anti-theft column 605 can withdraw from the first anti-theft hole 603 and the second anti-theft hole 604, and then the anti-theft structure is unlocked, and the WiFi box 302 is pulled out.

Referring to fig. 8 and 9, in one embodiment, the back of the track box 301 is horizontally provided with a bottom plate 801, and at least one positioning column 802 vertically disposed on the bottom plate 801; the guide rail box 301 further includes a signal board 803, the signal board 803 is mounted on the positioning column 802, the first signal pair interface 403 is disposed on the signal board 803, a signal hole 804 is formed on the back surface of the guide rail box 301, and the first signal pair interface 403 faces the signal hole 804 and faces the accommodating cavity 402 of the guide rail box 301.

In this embodiment, the bottom plate 801 on the back of the guide rail box 301 is fixed on the back of the guide rail box 301 by welding or other methods, and a positioning column 802 is vertically arranged on the bottom plate 801; on the back of the guide rail box 301, the first signal pair interface 403 is located on a signal board 803, and the signal board 803 is connected to the positioning column 802 through a through hole 805 thereon, so as to fix the signal board 803 on the guide rail box 301; in addition, a signal hole 804 is formed in the guide rail box 301 at a position opposite to the first signal pair interface 403, so that the second signal pair interface 404 is connected to the first signal pair interface 403.

In a specific application scenario, two positioning columns 802 are vertically arranged on the bottom plate 801, two through holes 805 are formed in the signal plate 803, and the bottom plate 801 and the signal plate 803 are tightly connected together by connecting pieces such as screws penetrating through the through holes 805 and being in threaded connection with the positioning columns 802; also on signal board 803 is a first signal pair interface 403; for example, the first signal pair interface 403 is configured as a USB female socket, the second signal pair interface 404 is configured as a USB male socket, the two interfaces can be correspondingly plugged, and the signal hole 804 is a USB hole for the USB male socket to pass through for inserting into the USB female socket; wherein the USB hole is positioned at a position opposite to the USB male seat and the USB female seat; otherwise, the connection between the USB male seat and the USB female seat is blocked. Of course, on the premise that the technology can be realized, the first signal pair interface 403 and the second signal pair interface 404 can be exchanged, so that the two interfaces can be plugged correspondingly.

In an embodiment, the integrated WiFi box mounting structure further includes a limiting structure, where the limiting structure includes a limiting rib 902 vertically disposed on the bottom plate 801 near the back of the guide rail box 301 and a notch 901 correspondingly disposed on one side of the signal plate 803 and used for limiting the limiting rib 902.

In this embodiment, the limiting structure includes a notch 901 disposed on one side of the signal board 803, and a limiting rib 902 vertically disposed on the bottom board 801; wherein, the first signal pair interface 403 faces one side of the notch 901, and the limit rib 902 is close to the back of the rail box 301.

In a specific application scenario, the notch 901 of the signal board 803 is opposite to and closely attached to the limit rib 902, and meanwhile, the signal board 803 is mounted on the positioning column 802 of the bottom board 801, and at this time, the signal board 803 is limited by the notch 901 and the limit rib 902, and cannot move. Of course, in designing the positions of the notch 901 and the stop rib 902, the position of the first signal pair interface 403 on the signal board 803 needs to be considered, so that the first signal pair interface 403 is aligned with the signal hole 804 on the rail box 301, otherwise, the second signal pair interface 404 on the WiFi box 302 cannot be connected with the first signal pair interface 403.

In one embodiment, the integrated WiFi box mounting structure further includes a guiding structure, the guiding structure including: at least one guide post 903 arranged on the first skirt 601 and a stud 904 which is positioned on the back of the face frame 201 and is correspondingly nested and connected with the guide post 903.

In this embodiment, the guide structure includes a guide post 903 and a stud 904 matching the guide post 903 for guiding the mounting rail box 301.

In a specific application scenario, two guide posts 903 are provided, and the two guide posts 904 are respectively located on the first skirts 601 on the left and right sides of the guide rail box 301, and are located on the left and right sides of the back surface of the face frame 201, and correspond to the positions of the two guide posts 903; in addition, the guide posts 903 may not be located on the same horizontal line, thus, may play a foolproof role; when the guide rail box 301 is installed, the stud 904 is nested in the guide post 903, and the guide post 903 and the stud 904 are fixed by, for example, a fixing screw, so that the guide post 903 and the stud 904 are firmly connected, and further the functions of positioning and guiding are achieved.

In an embodiment, the integrated WiFi box mounting structure further includes a fool-proof structure, the fool-proof structure includes: a fool-proof opening 906 provided in the first skirt 601 and a fool-proof column 905 provided at the back of the face frame 201 and connected to the fool-proof opening 906.

In the present embodiment, the fool-proof structure is used for quickly mounting the rail box 301, preventing the rail box 301 from being mounted upside down; wherein, the first skirt 601 is provided with a fool-proof opening 906, and the back of the face frame 201 is provided with a fool-proof column 905 correspondingly connected with the fool-proof opening 906; by connecting the fool-proof opening 906 with the fool-proof column 905, the installation of the rail box 301 becomes simple.

In a specific application scenario, the number of the studs 904 and the guide posts 903, and the fool-proof posts 905 and the fool-proof holes 906, and the positions on the first skirt 601 and the face frame 201 may be custom designed according to actual production, so as to facilitate better connection between the mounting rail box 301 and the face frame 201.

As shown in fig. 10 and 11, in an embodiment, the integrated WiFi box mounting structure further includes a positioning structure, where the positioning structure includes a positioning block 1001 disposed at the bottom of the rail box 301, and a positioning groove 1002 disposed at the bottom of the groove 401, and the positioning block 1001 is disposed in the positioning groove 1002; the bottom of the guide rail box 301 also extends towards the bottom of the guide rail box 301 and also towards the opening direction of the accommodating cavity 402, and a third skirt 1003 is arranged, and the third skirt 1003 is lapped on one end of the positioning groove 1002, which is open towards the accommodating cavity 402.

In this embodiment, the guide rail box 301 is further fixedly mounted in the groove 401 of the face frame 201 by a positioning structure, the positioning structure includes a positioning block 1001 vertically disposed at the bottom of the guide rail box 301, and the bottom of the guide rail box 301 also has a third skirt 1003 extending toward the accommodating cavity 402; in addition, a positioning groove 1002 is further formed in the bottom of the groove 401, when the guide rail box 301 is installed, the positioning block 1001 is placed in the positioning groove 1002, meanwhile, the third skirt 1003 is lapped on one end, close to the accommodating cavity 402, of the positioning groove 1002, and at the moment, the guide rail box 301 and the face frame 201 are initially installed, so that the next step of stabilization is facilitated.

In a specific application scenario, a positioning block 1001 extends from the back surface of the bottom of the guide rail box 301, a positioning groove 1002 capable of exactly accommodating the positioning block 1001 is arranged at the bottom of the groove 401 of the face frame 201, a third skirt 1003 extends from the bottom of the guide rail box 301 along the opening direction towards the accommodating cavity 402, and the third skirt 1003 is lapped on the positioning groove 1002, specifically, the side, close to the accommodating cavity 402, of the positioning groove 1002; when the guide rail box 301 is installed, the positioning block 1001 is installed in the positioning groove 1002 at the bottom of the groove 401, and the positioning block 1001 is limited by the positioning groove 1002, so that the guide rail box 301 cannot be directly separated from the face frame 201, and the guide rail box 301 can be installed more conveniently.

In addition, the positioning block 1001 may be disposed on the back of the top of the guide rail box 301, correspondingly, a downward positioning groove 1002 is also disposed on the top of the groove 401, the third skirt 1003 is mounted on the side of the positioning groove 1002 close to the opening of the accommodating cavity 402, and under the limiting and positioning action of the positioning groove 1002, the guide rail box 301 cannot be directly taken out from the groove 401 of the face frame 201 at this time; of course, in order to avoid the rail box 301 from falling loose due to the influence of gravity, the structure of the positioning block 1001 disposed at the bottom of the rail box 301 is more stable and safer.

In a specific application scenario, the first skirt 601 of the guide rail box 301 may also be disposed on the upper and lower sides of the guide rail box 301, and correspondingly, the second skirt 602 is also disposed on the upper and lower sides of the WiFi box 302, and the second anti-theft hole 604 on the face frame 201 is disposed on the upper and lower sides of the groove 401 on the face frame 201, corresponding to the first anti-theft hole 603 and the anti-theft post 605.

Meanwhile, the first anti-theft hole 603 and the anti-theft column 605 may not be respectively arranged on the first skirt 601 and the second skirt 602; for example, the skirts extend from the periphery of the guide rail box 301, including the first skirts 601 located at the left and right sides of the opening of the accommodating cavity 402, the fourth skirts located at the upper and lower sides of the opening of the accommodating cavity 402, the second skirts 602 located at the left and right sides of the WiFi box 302, the fifth skirts located at the upper and lower sides of the WiFi box 302, the first anti-theft holes 603 and the anti-theft posts 605 are respectively arranged on the fourth skirts and the fifth skirts, the second anti-theft holes 604 are arranged at the upper and lower sides of the groove 401 on the face frame 201, the rest of the first skirts 601 are unchanged, i.e. the anti-fool holes 906 and the guide posts 903 are still arranged on the first skirts 601, and the anti-fool posts 905 and the studs 904 are arranged at the left and right sides of the back of the face frame 201, so that the guide rail box 301 can be fixed and the WiFi box 302 can be prevented from being stolen can be designed according to practical production requirements.

There is also provided in an embodiment of the present utility model a display device including a face frame 201 and the integrated WiFi box mounting structure according to any one of the above provided on the face frame 201.

Specifically, the specific installation steps of the guide rail box 301 and the WiFi box 302 are as follows:

s11: aligning the notch 901 of the signal board 803 with the limit rib 902, and mounting the signal board 803 in the positioning column 802 on the bottom board 801 by using a screw to pass through the through hole 805 on the signal board 803, wherein the first signal pair interface 403 of the signal board 803 is aligned with the signal hole 804 on the guide rail box 301;

s12: the positioning block 1001 of the guide rail box 301 is installed in the positioning groove 1002 of the groove 401 from the back of the face frame 201, the third skirt 1003 of the guide rail box 301 is overlapped with one end of the groove 401 close to the opening of the accommodating cavity 402, the first skirt 601 of the guide rail box 301 is tightly attached to the face frame 201, the foolproof opening 906 on the first skirt 601 penetrates through the foolproof column 905 on the back of the face frame 201, the stud 904 on the back of the face frame 201 is nested on the guide column 903 of the first skirt 601, the guide column 903 is in threaded connection with the stud 904 through the fixing screw, at this time, the first antitheft hole 603 of the first skirt 601 is aligned with the second antitheft hole 604 on the face frame 201, and the guide rail box 301 is successfully fixedly installed on the face frame 201, as shown in fig. 12;

s13: the WiFi box 302 is aligned with the guide rail box 301 on the face frame 201 of the display device from the front of the display device, the positions of the guide rail rib positions 405 in the guide rail box 301 and the positions of the rib position grooves 406 on the WiFi box 302 are observed, the WiFi box 302 is correctly inserted into the guide rail box 301, the first signal pair interface 403 and the second signal pair interface 404 are accurately inserted, and meanwhile, the antitheft column 605 on the WiFi box 302 is inserted into the first antitheft hole 603 and the second antitheft hole 604, so that the WiFi box 302 is inserted.

Specifically, the specific disassembly steps of the guide rail box 301 and the WiFi box 302 are as follows:

s21: the anti-theft column 605 of the WiFi box 302 is pressed from the back of the display device so that the anti-theft column 605 can be withdrawn from between the first anti-theft hole 603 and the second anti-theft hole 604.

S22: the set screw is unscrewed so that the stud 904 and the guide post 903 can be detached and the rail box 301 can be detached from the face frame 201.

The integrated WiFi box mounting structure realizes efficient assembly of the WiFi box through integrated design, is attractive in appearance and convenient to mount, is provided with the anti-theft structure, avoids signal interference, and improves use safety and stability.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. An integration wiFi box mounting structure is applied on display device's face frame, the front of face frame is seted up flutedly, its characterized in that, integration wiFi box mounting structure includes:

at least one guide rail box is embedded in the groove on the face frame, the front face of the guide rail box is provided with a containing cavity, and a first signal interface is arranged in the guide rail box;

and the WiFi box is arranged in the accommodating cavity in the guide rail box from the front, and a second signal pair interface which is in butt joint with the first signal pair interface is arranged on the WiFi box.

2. The integrated WiFi box mounting structure according to claim 1, wherein the inner wall of the guide rail box is provided with at least one guide rail rib position along the mounting direction of the accommodating cavity, and the outer wall of the WiFi box is provided with at least one rib position groove corresponding to the guide rail rib position.

3. The integrated WiFi box mounting structure according to claim 1, wherein a first skirt edge is provided on the side edge of the rail box near the opening of the groove, a corresponding second skirt edge is provided on the side edge of the WiFi box near the opening of the groove, and the first skirt edge and the second skirt edge are connected to the face frame.

4. The integrated WiFi box mounting structure of claim 3, further comprising a theft protection structure comprising: the anti-theft device comprises a first anti-theft hole arranged on the first skirt, a second anti-theft hole arranged on the face frame and corresponding to the first anti-theft hole in position, and an anti-theft column arranged on the second skirt, wherein the anti-theft column is clamped in the first anti-theft hole and the second anti-theft hole.

5. The integrated WiFi box mounting structure according to claim 1, wherein the back of the rail box is horizontally provided with a bottom plate, at least one positioning column vertically arranged on the bottom plate;

the guide rail box further comprises a signal plate, the signal plate is mounted on the positioning column, the first signal butt joint is arranged on the signal plate, a signal hole is formed in the back of the guide rail box, and the first signal butt joint faces the signal hole and faces the accommodating cavity of the guide rail box.

6. The integrated WiFi box mounting structure according to claim 5, further comprising a limiting structure, wherein the limiting structure comprises limiting ribs vertically arranged on the bottom plate and close to the back of the guide rail box, and notches correspondingly arranged on one side of the signal board and used for limiting the limiting ribs.

7. The integrated WiFi box mounting structure of claim 3, further comprising a guide structure, the guide structure comprising: the guide post is arranged on the first skirt edge, and the stud is positioned on the back surface of the face frame and correspondingly nested and connected with the guide post.

8. The integrated WiFi box mounting structure of claim 3, further comprising a fool-proof structure, the fool-proof structure comprising: the fool-proof column is arranged at the fool-proof opening of the first skirt edge, positioned at the back of the face frame and connected with the fool-proof opening.

9. The integrated WiFi box mounting structure according to claim 1, further comprising a positioning structure, wherein the positioning structure comprises a positioning block arranged at the bottom of the guide rail box, and a positioning groove arranged at the bottom of the groove, and the positioning block is arranged in the positioning groove; the bottom of the guide rail box is also provided with a third skirt edge in an extending mode towards the opening direction of the accommodating cavity, and the third skirt edge is lapped on one end, towards the opening of the accommodating cavity, of the positioning groove.

10. A display device comprising a bezel and an integrated WiFi box mounting structure according to any one of claims 1-9 disposed on the bezel.