CN218450152U - Gateway box capable of being freely expanded - Google Patents

Abstract

The utility model relates to a gateway equipment technical field especially relates to a gateway box that can freely expand. The method comprises the following steps: the box body assembly comprises a connecting plate, a box body assembly and an expansion structure; the connecting plate is provided with a screw hole; the number of the box body components is at least two; the box body component is provided with a placing groove for accommodating equipment; the box body assembly is provided with a through hole for leading in a wiring; the box body component is connected with the connecting plate in a sliding way; the expansion structure is arranged between the box body components; the expansion structure comprises an expansion plate and an accommodating groove; the expansion board is connected with one box body component; the accommodating groove is formed on the box body component opposite to the expansion plate; the expansion plate is slidably inserted into the receiving groove. In the prior art, the gateway box has poor attractive effect and cannot meet actual requirements. Compared with the prior art, the utility model discloses can freely expand, strengthen accomodating arrangement and the visual effect of butt joint line to effectual pleasing to the eye ability of having strengthened.

Description

Gateway box capable of being freely expanded

Technical Field

The utility model relates to a gateway equipment technical field especially relates to a gateway box that can freely expand.

Background

With the continuous development of technology, networks gradually become a part of people's daily life. Network equipment also becomes one of the necessary equipment in home decoration. Generally, a home network device is composed of a gateway, an optical fiber cable, a network cable and a power supply cable. Therefore, various types of wiring on the gateway are more. Meanwhile, in order to use the network more conveniently, other devices are often used together. This results in a cumbersome and unsightly area near the gateway. Therefore, in home decoration, a gateway box is often used to store devices such as gateways in a unified manner. Generally, a groove is formed in a wall in advance, and after a gateway box is embedded in the groove in the wall, devices such as a gateway and various types of wiring are stored in the gateway box. However, in actual operation, a user often does not know how large gateway boxes the user should purchase, and sometimes the purchased gateway boxes are too large. Simultaneously, in order to avoid wiring length not enough when the fitment, the line length that often reserves is longer, and this just leads to accomodating the back through the gateway box, though the outside looks comparatively pleasing to the eye, but the inside still is disorderly and has no chapter of gateway box.

SUMMERY OF THE UTILITY MODEL

To prior art's technical problem, the utility model provides a gateway box that can freely expand.

In order to solve the technical problem, the utility model provides a following technical scheme:

a freely expandable gateway box comprising: the box body assembly comprises a connecting plate, a box body assembly and an expansion structure; the connecting plate is provided with a screw hole; the number of the box body components is at least two; the box body component is provided with a placing groove for accommodating equipment; the box body assembly is provided with a through hole for leading in a wiring; the box body component is connected with the connecting plate in a sliding way; the expansion structure is arranged between the box body components; the expansion structure comprises an expansion plate and an accommodating groove; the expansion board is connected with one box body component; the accommodating groove is formed on the box body component opposite to the expansion plate; the expansion plate is slidably inserted into the receiving groove.

Under actual state, the placing grooves on the box body assembly are combined together to form a placing cavity capable of placing related equipment. And arranging the relevant equipment in the placing cavity, and penetrating the required wiring into the cavity from the through hole on the box body so as to be connected with the relevant equipment. Push-and-pull box body subassembly to make the box body subassembly slide for the connecting plate, and drive the expansion plate, accomodate and take place relative motion between the groove, thereby adjust aforementioned cavity to suitable size, make at least that there is certain clearance between the inner wall of box body subassembly and gateway box. The connecting plate is aligned to the gateway box, and the connecting plate is connected with the gateway box through the screw holes in the connecting plate, so that the box body assembly is embedded in the gateway box. At this time, the redundant wiring is in the gap between the box body assembly and the inner wall of the gateway box, so that the redundant wiring is gathered and arranged. Meanwhile, the visual size of the human body to the placing cavity is adjusted through the adjustable box body assembly, so that the human body to the placing cavity is more symmetrical in visual sense. Therefore, the utility model discloses can beautifully optimize the inside of gateway box.

Furthermore, the connecting plate surrounds the periphery of the box body assembly; the connecting plate is also provided with a placing port; the placing through opening corresponds to the placing groove.

Furthermore, an extension plate is also arranged on the box body component; the extension plate is fixedly arranged on one side of the box body component; the extension plate slidably extends into the connecting plate.

Furthermore, the connecting plate is also provided with a sliding chute corresponding to the extending plate; the extension plate is slidably embedded in the sliding groove.

Further, the screw hole penetrates through the sliding groove; the extension plate is provided with mounting holes corresponding to the screw holes.

Furthermore, an optical fiber take-up box and a storage rack are also arranged in the box body component; the optical fiber take-up box and the storage rack are arranged in the same box body component; the optical fiber take-up box is fixedly arranged on the side wall of the box body component; the supporter is fixed and arranged at the bottom of the box body component.

Furthermore, a patch board is also arranged in the box body component; the cross section of the patch board is trapezoidal; the patch board is provided with a plurality of jacks; the jacks are arranged on the side surfaces of the patch board, which are intersected with the bottom of the box body assembly.

Further, the vias include power vias; the power supply through holes are respectively arranged at two sides of the patch board.

Further, the device also comprises a cover body; the cover body can swing to be connected with the connecting plate.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses utilize the clearance between box body subassembly and the current gateway box to accomodate the wiring and arrange in order, the effectual inside wiring quantity and the length of box body subassembly that has reduced for the human body is more pleasing to the eye on the vision sense organ.

The size of the placing cavity can be adjusted by adjusting the box body assembly, so that the human body is more symmetrical in vision and sense.

The utility model discloses a current gateway box provides the repacking scheme of a comparatively low cost.

The utility model discloses also can break away from current gateway box exclusive use to the applied condition of difference is dealt with.

Drawings

FIG. 1: the whole structure is expanded and schematically shown.

FIG. 2: box body subassembly structure picture.

FIG. 3: connection plate structure chart.

FIG. 4 is a schematic view of: the overall structure is combined with a schematic diagram.

FIG. 5: the box structure is a schematic diagram of the cracking process.

In the figure: 1. a connecting plate; 11. a screw hole; 12. placing the through opening; 13. a chute; 2. a cartridge assembly; 21. a through hole; 211. a power supply through hole; 22. a placement groove; 23. an extension plate; 231. mounting holes; 24. an optical fiber take-up box; 25. a shelf; 26. a patch board; 261. a jack; 3. an expanded structure; 31. an expansion board; 32. a receiving groove; 4. a cover body.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

A freely expandable gateway box comprising: connecting plate 1, box body subassembly 2, extension structure 3, lid 4. The connecting plate 1 is a rigid plate. A plurality of screw holes 11 are uniformly arranged on both sides of the connecting plate 1. The screw holes 11 on the same side are at least provided with two parallel rows to adapt to gateway boxes with different sizes. The connecting plate 1 is also provided with a placing through hole 12. Place opening 12 and run through connecting plate 1, the cross-section of placing opening 12 is the rectangle.

The number of the box body components 2 is two. The cassette assembly 2 is provided with a holding slot 22 for receiving the device. The placing groove 22 corresponds to the placing through opening 12 on the connection plate 1. When the two cassette assemblies 2 are brought together, the two placement slots 22 can be combined together to form a placement chamber for placing other devices together with the gateway. The box body component 2 is also provided with a through hole 21. The number of the through holes 21 is plural, and the through holes 21 are arranged in a row on the cartridge body assembly 2. Through the through-hole 21, the wiring can be introduced into the placement groove 22. Specifically, the through hole 21 is a knock-off hole, that is, a baffle capable of knocking off is arranged on the through hole 21, and when the through hole 21 is not used, the baffle shields the through hole 21, so that the appearance of the box body assembly 2 is more attractive. When the through hole 21 is needed, the baffle is knocked off, and the through hole 21 can be conducted. The box assembly 2 is also provided with an extension plate 23. The extension plate 23 is fixedly provided at one side of the cassette assembly 2. Correspondingly, the connecting plate 1 is provided with a sliding chute 13 corresponding to the extending plate 23. The extension plate 23 and the sliding fit-in runner 13 enable the cassette assembly 2 to slide relative to the connection plate 1. Synchronously, the screw holes 11 penetrate the slide grooves 13. The extension plate 23 is provided with a mounting hole 231 corresponding to the screw hole 11 to prevent the extension plate 23 from affecting the normal mounting of the screw.

The optical fiber take-up box 24, the storage rack 25 and the patch board 26 are arranged in the placing groove 22 of the box body component 2. The optical fiber take-up box 24 and the shelf 25 are arranged in the placing groove 22 of the same box body component 2. The optical fiber take-up box 24 is fixedly arranged on the side wall of the box body component 2. The optical fiber take-up box 24 is used for receiving optical fiber wires. The optical fiber take-up box 24 is provided with a wire inlet end and a wire outlet end. The optical fiber is led into the optical fiber take-up box 24 from the wire inlet end and led out of the optical fiber take-up box 24 from the wire outlet end. Thus, the fiber optic line may be spooled into the fiber optic take-up reel 24. The object placing rack 25 is fixedly arranged at the bottom of the box body component 2. The shelf 25 is used for placing the gateway. The rack 25 includes a heat dissipation fan for dissipating heat from the gateway and a clamp plate for clamping the gateway. The clamping plate is L-shaped and is fixedly connected with the cooling fan. When the gateway is clamped on the heat dissipation fan through the clamping plate, the airflow blown by the heat dissipation fan can pass through the gateway. The cross section of the patch board 26 is trapezoidal. The patch board 26 is provided with a plurality of jacks 261. The jack 261 is a five-hole jack, that is, a triangular plug or a two-pin plug can be inserted into the same region. It is noted that the portion of the socket 261 associated with the three-hole socket is reversed. The ground hole sets up in the one side that is close to box body subassembly 2 bottom promptly, and zero line hole and live wire hole set up in the one side of keeping away from box body subassembly 2 bottom. Therefore, when the triangular plug is connected with the patch board 26, the wiring on the triangular plug is prevented from interfering with the bottom of the box body component 2. Specifically, the through-hole 21 includes a power supply through-hole 211. The power supply through holes 211 are opened on both sides of the patch panel 26, respectively. So as to avoid affecting the stability of the connection between the patch panel 26 and the case assembly 2.

The extension structure 3 is arranged between the cassette assemblies 2. The extension structure 3 includes an extension plate 31 and a receiving groove 32. The expansion board 31 is connected to one of the cassette assemblies 2. The storage groove 32 is opened in the case unit 2 opposite to the extension plate 31. The expansion plate 31 is slidably inserted into the receiving groove 32. From this for when taking place relative motion between the box body subassembly 2, box body subassembly 2 can drive expansion board 31 and accomodate groove 32 and take place relative slip, in order to utilize expansion board 31 to avoid appearing the clearance between the box body subassembly 2, influence holistic effect of holding.

The cover 4 is a rectangular plate. The cover body 4 is connected with the connecting plate 1 in a swinging way. The area of the lid 4 corresponds to the area of the area covered by the connection plate 1. The cover body 4 can sufficiently shield the connecting plate 1.

In actual use, the required through hole 21 is opened in advance, and the wiring is introduced into the placing groove 22 of the box assembly 2 through the through hole 21. The required equipment is placed in the placement groove 22 of the cassette assembly 2. The devices are connected to the corresponding wires. Preferably, a plurality of fastening points for attaching devices may be provided in the placement slot 22 to provide a more stable connection between different devices and the cassette assembly 2. After the connection between the equipment and the wiring is finished, the box body assembly 2 is pushed and pulled, so that relative motion occurs between the box body assembly 2. When the box assembly 2 moves, the box assembly 2 drives the extension plate 23 to move synchronously, so that the extension plate 23 extends into or slides out of the sliding groove 13. Therefore, the gap between the box body assembly 2 and the connecting plate 1 caused by the movement of the box body assembly 2 is filled by the extension plate 23, and the appearance is more attractive. As the extension plate 23 gradually slides out, the mounting hole 231 of the extension plate 23 will expose the connection plate 1. At this time, the mounting hole 231 can also function as a mounting screw. Meanwhile, the box assembly 2 will synchronously drive the expansion board 31 and the receiving slot 32 to move relatively. The expansion board 31 is inserted into or slid out of the receiving groove 32, so that the gap between the box body components 2 is filled up by the expansion board 31, and the appearance is more attractive. When the adjustment of the cassette assembly 2 is completed. The screw holes 11 of the connection plate 1 or the mounting holes 231 of the extension plate 23 are aligned with the existing gateway box to connect the connection plate 1 with the existing gateway box by screws. At this point, the cartridge assembly 2 is embedded within the existing gateway cartridge. Meanwhile, a gap exists between the box body assembly 2 and the existing gateway box. From this, utilize this clearance to conclude and arrange in order unnecessary wiring for a large amount of wiring are located the region that the human field of vision can not see, thereby furthest's reduction box body component 2 in the wiring quantity, and then make the human visual effect to in the box body component 2 regular more and pleasing to the eye. On the other hand, the size of the placing cavity is adjusted by pushing and pulling the box body assembly 2, so that the visual effect is more uniform.

In particular, the optical fiber can be further stored in the optical fiber take-up box 24. Simultaneously, optic fibre is received line box 24 and supporter 25 and is located same box body subassembly 2, the effectual interval that shortens between optic fibre is received line box 24 and the supporter 25 to the effectual optic fibre length of receiving line box 24 and supporter 25 of having shortened, and then make the inside line of connection of box body subassembly 2 more regular. On the other hand, the power cord of the device can be connected to the jack 261 on the patch panel 26 through the power through hole 211. The power cord is introduced into the gap between the box assembly 2 and the existing gateway box. And then introduced into the case assembly 2 through the through-hole 21 near the corresponding device to enable the power cord to be connected to the corresponding device. From this, the effectual wiring quantity that has reduced in the box body subassembly 2 to make box body subassembly 2 inside more regular.

It should be noted that the foregoing operation process is only a theoretical operation, and can be adjusted according to actual conditions during actual operation, and different operation steps can be exchanged or adjusted. The present embodiment does not impose a strict limitation on the operation process.

The utility model discloses a current gateway box provides a repacking scheme of low cost relatively. On the other hand, the utility model can be used independently. Namely, a corresponding groove is formed in the wall body. The connecting plate 1 is connected with the wall body, and the box body assembly 2 is embedded into the groove on the wall body. The wiring is accommodated and arranged in the gap between the box body assembly 2 and the wall body.

Wherein, the number of the box body components 2 can also be four. I.e. a single cassette assembly 2 as shown in the drawings is again split into two cassette assemblies 2. An expansion structure 3 is also arranged between the two cassette assemblies 2. Specifically, the expansion plate 31 is connected to one of the split cartridge assemblies, and the storage groove 32 is formed in the other cartridge assembly. Similarly, the extension structure 3 is also disposed on the cracked extension plate 23, and on the cracked extension plate 31. Correspondingly, a movement space for the movement of the box body assembly 2 is reserved on the connecting plate 1, so that the interference between the connecting plate 1 and the box body assembly 2 is avoided. From this, four box body subassemblies 2 mutually support for it can adjust jointly in length and width to place the cavity, thereby further satisfies different service environment.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (9)

1. A gateway box that can freely expand which characterized in that: the method comprises the following steps: the box body component comprises a connecting plate (1), a box body component (2) and an expansion structure (3);

the connecting plate (1) is provided with a screw hole (11);

the number of the box body components (2) is at least two;

the box body component is provided with a placing groove (22) for accommodating equipment;

the box body component is provided with a through hole (21) for leading in the wiring;

the box body component (2) is connected with the connecting plate (1) in a sliding way;

the expansion structure (3) is arranged between the box body components (2);

the expansion structure (3) comprises an expansion plate (31) and a containing groove (32);

the expansion board (31) is connected with one of the box body components (2);

the accommodating groove (32) is formed in the box body assembly (2) opposite to the expansion plate (31);

the expansion plate (31) is slidably inserted into the receiving groove (32).

2. A freely expandable gateway box according to claim 1, characterized in that: the connecting plate (1) surrounds the box body assembly (2);

a placing through hole (12) is further formed in the connecting plate (1);

the placing through opening (12) corresponds to the placing groove (22).

3. A freely expandable gateway box according to claim 1, characterized in that: the box body component (2) is also provided with an extension plate (23);

the extension plate (23) is fixedly arranged on one side of the box body component (2);

the extension plate (23) can slidably extend into the connecting plate (1).

4. A freely expandable gateway box according to claim 3, characterized in that: the connecting plate (1) is also provided with a sliding chute (13) corresponding to the extending plate (23);

the extension plate (23) is slidably embedded in the slide groove (13).

5. A freely expandable gateway box according to claim 4, characterized in that: the screw hole (11) penetrates through the sliding groove (13);

the extension plate (23) is provided with a mounting hole (231) corresponding to the screw hole (11).

6. A freely expandable gateway box according to claim 1, characterized in that: an optical fiber take-up box (24) and a storage rack (25) are also arranged in the box body component (2);

the optical fiber take-up box (24) and the storage rack (25) are arranged in the same box body component (2);

the optical fiber take-up box (24) is fixedly arranged on the side wall of the box body component (2);

the article shelf (25) is fixedly arranged at the bottom of the box body component (2).

7. A freely expandable gateway box according to claim 1, characterized in that: a patch board (26) is also arranged in the box body component (2);

the cross section of the patch board (26) is trapezoidal;

a plurality of jacks (261) are formed in the patch board (26);

the jack (261) is arranged on the side where the patch board (26) and the bottom of the box body component (2) intersect.

8. A freely expandable gateway box according to claim 7, characterized in that: the through-holes (21) include power supply through-holes (211);

the power supply through holes (211) are respectively arranged on two sides of the patch board (26).

9. A freely expandable gateway box according to claim 1, characterized in that: also comprises a cover body (4);

the cover body (4) can swing and is connected with the connecting plate (1).

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