CN217470152U - Switch - Google Patents

Abstract

The utility model discloses a switch includes casing and net gape connector. The shell comprises a first outlet, the network port connector is arranged on one side of the shell, which is far away from the first outlet, and the socket of the network port connector faces the first outlet. The network port connector is used for plugging a network cable. The network connector is far away from the first outlet, so that the connector of the network cable and the end area of the cable can be hidden in the shell. After having reduced many network cables and having pegged graft to the switch, made the interface area of switch more chaotic, influenced the plug of network cable and influenced pleasing to the eye.

Description

Switch

Technical Field

The utility model relates to a communication equipment technical field especially relates to a switch.

Background

A switch is a network device for forwarding an optical electrical signal that provides an exclusive electrical signal path for any two network nodes that access the switch. When the switch works, the switch needs to be connected with other equipment by using a plurality of network cables, and network transmission is carried out on a plurality of pieces of equipment. When a plurality of network cables are plugged in the existing switch, the plurality of network cables cannot be effectively arranged. The net twine is unordered, not only influences beautifully, and many net twines twine together moreover, and the plug is difficult, influences the maintenance to the switch.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of switch for the network cable that the solution switch was pegged graft is disorderly to be influenced beautifully, and influences the plug of network cable, leads to the switch to maintain the problem of difficulty.

An embodiment of the utility model provides a pair of switch includes casing and net access connector, and the casing includes first outlet, and net access connector sets up in the one side that first outlet was kept away from to the casing, and net access connector's socket towards first outlet. The network port connector is used for plugging a network cable.

In the technical scheme, the network port connector is far away from the first outlet port, so that the joint of the network cable and the end area of the cable can be hidden in the shell. After having reduced many network cables and having pegged graft to the switch, made the interface area of switch more chaotic, influenced the plug of network cable and influenced pleasing to the eye.

In an alternative embodiment, the housing may include a cover and a bottom case, and the cover is detachably connected to the bottom case.

In an optional technical solution, the switch may further include a wire management rack, and the wire management rack is installed between the cover and the bottom case. The wire arranging frame comprises a plurality of clamping parts, and the clamping parts are used for clamping network cables.

In an optional technical scheme, the clamping portion may be a through groove, a notch of the through groove faces the cover, and an extending direction of the channel of the through groove is consistent with a plugging direction of the network cable.

In an optional technical scheme, the wire arranging frame may include a receiving groove, the network port connector is disposed in the receiving groove, the receiving groove has an opening, and the opening corresponds to the sockets of the network port connector one to one.

In an optional technical solution, the switch may further include an optical module, where the optical module is used for plugging an optical fiber cable. The optical module is arranged between the bottom shell and the wire arranging frame, the bottom shell is provided with a second wire outlet and a wire arranging groove, and the second wire outlet is communicated with the wire arranging groove. The optical fiber cable extends out of the bottom shell from the second wire outlet and is wound in the wire arranging groove.

In an optional technical solution, the wire arranging rack may further include a side wall, the side wall is perpendicular to the cover, and the side wall is provided with a heat dissipation hole.

In optional technical scheme, above-mentioned switch can also include the receiver, and the receiver is used for holding the adapter, and the receiver sets up in the casing and is close to one side of first outlet, and can dismantle with the reason line frame and be connected, and one side that the reason line frame was kept away from to the receiver is equipped with the third outlet.

In optional technical scheme, above-mentioned receiver includes the connecting piece, and this connecting piece joint is in joint portion.

In an optional technical scheme, the switch further comprises a hanging rack, the hanging rack is provided with a first mounting hole and a second mounting hole, the hanging rack is used for mounting the switch on the wall, and the hanging rack is arranged on one side, facing the wall, of the shell.

Drawings

Fig. 1 is a schematic structural diagram of a switch according to an embodiment of the present invention;

fig. 2 is an exploded view of the switch in an embodiment of the present invention;

fig. 3 is a schematic structural view of a wire management rack according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a bottom case according to an embodiment of the present invention;

fig. 5 is a schematic view illustrating an assembly relationship between the storage box and the wire management rack according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a hanger according to an embodiment of the present invention.

Reference numerals:

1-a shell; 2-a network port connector; 3-a first outlet; 4-inserting port; 10-network cable; 5-a linker; 6-a cable; 7-a first side; 11-a cover part; 12-a bottom shell; 8-arranging the wire frame; 81-body; 82-a clamping part; 83-a receiving groove; 831-opening; 9-a circuit board; 13-an optical module; 14-arranging wire grooves; 91-power interface; 87-power interface receiving slot; 15-fiber guide groove; 16-side plate; 121-vent; 84-side wall; 85-heat dissipation holes; 811-snap fastener; 17-a storage box; 100-a power adapter; 101-a first wire; 102-a second wire; 171-a connector; 1711-hook; 1712-fixing the column; 821-groove wall; 172-top plate; 173-a bottom plate; 1721-a first groove; 1731-a third outlet; 18-a hanger; 181-first mounting hole; 182-second mounting hole.

Detailed Description

In order to reduce the disorder of network cables plugged by the switch, the plugging and unplugging of the network cables are influenced, and the appearance is influenced. An embodiment of the utility model provides a switch. In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail below with reference to the accompanying drawings.

Fig. 1 is an exploded view of a switch according to an embodiment of the present invention. As shown in fig. 1, an embodiment of the present invention provides a switch including a housing 1 and a network port connector 2. The housing 1 includes a first outlet 3. The network connector 2 is disposed on one side of the housing 1 away from the first outlet, and the socket 4 of the network connector faces the outlet. The network port connector 2 is used for plugging a network cable 10. The network cable 10 includes a header 5 and a cable 6, the header 5 being mounted to an end of the cable 6. A network cable 10 may be plugged into the network connector 2 of the switch through the first outlet 3, and a cable 6 may extend out of the housing 1 from the first outlet 3. The network connector 2 is remote from the first outlet 3 so that the splice 5 of the network cable 10 and the end region of the cable 6 can be concealed in the housing. After a plurality of network cables 10 are plugged into the switch, the interface area of the switch is disordered, the plugging and unplugging of the network cables 10 are influenced, and the appearance is not influenced.

Referring to fig. 1, when the first outlet 3 is specifically disposed, a strip-shaped opening may be formed on a first side 7 of the housing 1 away from the network port connector 2, where the length of the strip-shaped opening is not less than the total length of the network port connector 2 extending to the left and right sides, and the width of the strip-shaped opening is slightly greater than the diameter of the network cable. After the connector 5 is inserted into the network port connector 2, the cable 6 can naturally extend out of the shell 1 along the plugging direction of the connector 5 without being blocked, and two adjacent cables cannot be overlapped due to the limitation of the width of the elongated opening, so that the network cables at the first wire outlet 3 are arranged neatly. In addition, the situation that the cable 6 is pressed by external force for a long time due to being blocked by the shell or other cables, and the contact of the conducting wires in the cable is poor can be reduced.

In another embodiment, the first side 7 of the housing 1 away from the network port connector 2 can be completely removed, and the removed first side 7 is used as the first outlet 3. Thus, the first outlet 3 is larger in area and the cable 6 is more easily extended out of the housing. The present application is not particularly limited as to the form of the first outlet 3.

Fig. 2 is an exploded view of a switch according to an embodiment of the present invention. In an alternative embodiment, as shown in fig. 2, the housing 1 may include a cover 11 and a bottom case 12, wherein the cover 11 is detachably connected to the bottom case 12. The cover part 11 can be taken down when the cable is plugged, so that the socket 4 of the network connector 2 is exposed, a user can conveniently judge the service condition of the network connector 2, and the cable can be plugged and sorted.

In another alternative embodiment, the cover 11 and the bottom shell 12 may be connected in a rotating or sliding manner, so as to achieve the operation of plugging and unplugging cables and arranging cables conveniently. The present application does not specifically limit the manner of connection of the cover 11 and the bottom case 12.

Fig. 3 is a schematic structural diagram of a wire management rack according to an embodiment of the present invention. Referring to fig. 2 and 3, in an alternative embodiment, the switch may further include a wire management rack 8, and the wire management rack 8 is installed in the housing 1. The cable management rack 8 enables a user to conveniently manage network cables (not shown) connected to the switch. Specifically, the cable management frame 8 may include a body 81 and a plurality of clamping portions 82, and the clamping portions 82 are disposed on the body and used for clamping cables. After the connector is connected to the network port connector, the cable can be clamped in the clamping portion 82 to fix the cable, so that the cable hidden in the switch is tidy. Meanwhile, the damage of the cable caused by external force traction in the shell 1 can be reduced, or the normal operation of other cables is influenced by the shaking caused by the traction of the cable.

With continued reference to fig. 2 and fig. 3, when the aforementioned locking portion 82 is specifically provided, the locking portion 82 may be disposed at a position close to the first outlet 3, and the locking portion 82 corresponds to the socket 4 of the network port connector 2. The clamping portion 82 has a certain distance with the network port connector 2, the distance can enable the area where the cable and the connector are connected to keep a natural straightening state, and the situation that the connector and the cable are broken by stress generated by external force to cause poor contact of the cable is reduced.

With continued reference to fig. 2 and fig. 3, when the above-mentioned clip portion 82 is specifically prepared, the clip portion 82 may be a through groove processed on the body 81. The notch of the through groove faces the cover 11, and the extending direction of the groove of the through groove is consistent with the plugging direction of the network cables. When being fixed in above-mentioned logical groove with the cable, make the outer wall and the channel laminating of cable, improve the fixed stability of cable to improve the stability that network cable and switch are connected.

In an alternative embodiment, the fastening portion 82 may also be a hoop (not shown), and the hoop is installed on the body 81 to clamp the cable and prevent the cable from shaking.

In an optional embodiment, the wire arranging frame 8 may further include a receiving groove 83. The receiving groove 83 is located on a side of the body 81 away from the fastening portion 82. The network port connector 2 is disposed in the accommodating groove 83, the accommodating groove 83 has an opening 831, and the opening 831 corresponds to the sockets 4 of the network port connector 2 one to one. Above-mentioned storage tank 83 can play protection and fixed effect to net gapconnector 2, reduces the switch and drops or receive when the striking in the accident, and net gapconnector 2 damages because of the vibration.

With continued reference to fig. 2, in an alternative embodiment, the switch further includes a circuit board 9 and an optical module 13, and the optical module 13 and the network port connector 2 are mounted on the circuit board 9. The optical module 13 is used for plugging a fiber optic cable. The circuit board 9 is installed between the bottom shell 12 and the wire-arranging frame 8, and the bottom shell 12 includes a second outlet (not shown) and a wire-arranging groove 14, and the second outlet is communicated with the wire-arranging groove 14. A cable management groove 14 is located on a side of the bottom shell 12 facing away from the cover 11, and the cable management groove 14 is used for coiling the optical fiber cable. After the optical fiber cable is plugged in the optical module 13, the bottom case 12 extends out of the second outlet, and a user can wind the optical fiber cable extending out of the bottom case 12 around the wire arranging groove 14, so that the optical fiber cable plugged in the switch can be stored neatly.

In a specific embodiment, the optical module 13 is mounted on the side of the circuit board 9 away from the network port connector 2. The direction of the outlet hole of the optical module 13 is perpendicular to the direction of the jack, that is, the insertion and extraction direction of the optical fiber cable is perpendicular to the insertion and extraction direction of the network cable. Because the optical fiber cable is thinner than the network cable, the plugging direction of the optical fiber cable is perpendicular to that of the network cable, the winding condition of the optical fiber cable and the network cable can be reduced, and the optical fiber cable can be easily wound in the wire arranging groove 14.

In an alternative embodiment, the circuit board 9 is further provided with a power interface 91, and the orientation of the power interface 91 is the same as the orientation of the jack 4, so that a power line can be hidden in the housing 1 after being plugged into the power interface 91. The wire arrangement rack 8 may further include a power interface accommodating groove 87, and the power interface 91 may be disposed in the power interface accommodating groove 87, so as to reduce the falling of the power interface 91 when the switch is subjected to severe vibration.

Referring to fig. 2 and 3, in an alternative embodiment, the wire-arranging frame 8 may further include a side wall 84, and the side wall 84 is perpendicular to the cover 11. The side wall 84 is provided with heat dissipation holes 85 for dissipating heat for the switch. Specifically, the number of the side walls 84 may be four, and the heat dissipation holes 85 may be disposed on the four side walls 84, or only on the side wall near the first outlet 3, or on the side wall facing the first outlet 3 and the side walls on the left and right sides. The number and the arrangement position of the heat dissipation holes 85 can be selected according to the heat dissipation requirements or application scenarios of switches of different models.

In an alternative embodiment, the heat dissipation holes 85 are disposed on the sidewalls of the left and right sides of the wire arranging frame. In order to avoid the cover 11 shielding the heat dissipation holes 85 on the left and right sides, the cover 11 may be detachably connected to the wire arranging frame 8. Specifically, the body 81 of the wire arranging frame 8 may be provided with a buckle 811, and the cover 11 may be provided with a hook (not shown); alternatively, the body 81 of the wire management rack 8 may be provided with a hook, and the cover 11 may be provided with a buckle. The hook and the buckle 811 are engaged with each other to detachably connect the cover 11 and the body 81. Of course, the cover 11 and the wire arranging rack 8 can be assembled by other separable connectors, and the application is not limited in particular.

Fig. 4 is a schematic structural diagram of a bottom case according to an embodiment of the present invention. In an alternative embodiment, as shown in fig. 4, the bottom housing 12 may be substantially rectangular, and the wire-managing groove 14 may be racetrack-shaped. The raceway-shaped cable arranging groove 14 has a long channel path, so that a long optical fiber cable can be wound around the cable arranging groove 14, and the back space of the bottom shell 12 is fully utilized.

In an alternative embodiment, the bottom case 12 may further include a fiber guide groove 15, and the fiber guide groove 15 is disposed on a side of the bottom case 12 facing the circuit board 9. The circuit board 9 is fixedly mounted on the bottom case 12, the optical fiber guide groove 15 is located at a connection position of the optical module 13 and an optical fiber cable (not shown in the figure), and a channel of the optical fiber guide groove 15 is in accordance with a plugging direction of the optical fiber cable, that is, perpendicular to the plugging direction of the network cable. The optical fiber cable extends from the optical module 9 and then is clamped in the optical fiber guide groove 15. A side plate 16 is disposed at an end of the fiber guide groove 15 away from the optical module 9, the side plate 16 and the bottom casing 12 are integrated, and a second outlet (not shown) is disposed on the side plate 16. From which the optical fibers exit base 12, and the user can then coil the light rays extending out of base 12 around cable management slot 14. The optical fiber guide groove 15 can keep the natural extension of the connection region of the optical fiber cable and the optical module 13, reduce the stress generated at the connection position of the optical fiber cable and the optical module 13, and damage the optical fiber cable.

Referring to fig. 2 and 4, in an alternative embodiment, the bottom case 12 may further include a vent 121 for dissipating heat of the circuit board 9. The perpendicular projection of the ventilation hole 121 on the circuit board covers at least part of the circuit board 9, so that heat generated by the circuit board 9 during operation can be dissipated from the ventilation hole 121.

Fig. 5 is a schematic view illustrating an assembly relationship between the storage box and the wire management rack according to another embodiment of the present invention. In an alternative embodiment, as shown in fig. 5, the switch may further include a storage box 17, and the storage box 17 is used for accommodating the power adapter 100 of the switch and shielding the network cables and wires. The storage box 17 is disposed on one side of the housing close to the first outlet 3, and detachably connected to the wire arranging frame 8. The power adapter may have cords extending therefrom, including a first cord 101 and a second cord 102. The first cord 101 extends from the power adapter 100 and is plugged into the power interface, and the second cord 102 extends from the power adapter 100 and can be connected to an external power supply device, such as a patch panel. The first electric wire 101 may be engaged with the engaging portion 82. Specifically, a connecting piece 171 is arranged on one side of the storage box 17 facing the housing, and the connecting piece 171 can be connected to the clamping portion 82 of the wire arranging frame 8, so that the storage box 17 can be detachably connected with the wire arranging frame 8. In a specific embodiment, the connecting member 171 may include a hook 1711 and a fixing post 1712. The fixing post 1712 corresponds to the position of the engaging portion 82. Above-mentioned couple 1711 can hang the cell wall 821 that two adjacent logical grooves of locating reason line frame 8 are shared, and fixed column 1712 joint in joint portion 82, the condition that storage box 17 rocked can be reduced to fixed column 1712.

The storage box 17 may further include a top plate 172 and a bottom plate 173, and the top plate 172 and the bottom plate 173 are perpendicular to the insertion and extraction direction of the network cable. The connecting member 171 is disposed on the top plate 172, and the top plate 172 has a first groove 1721 for avoiding the network cable. The bottom plate 173 is located on a side of the receiving box 17 away from the wire arrangement rack 8, and the third outlet 1731 is located on the bottom plate 173. When the storage box 17 is connected to the wire arranging rack 8, the network cable extends from the first outlet, passes through the first groove 1721 of the top plate 172 of the storage box 17, and then extends to the outside of the switch through the third outlet 1731. Meanwhile, since the power adapter 100 is disposed in the storage box 17, the first wire 101 is plugged into the power interface 91 through the first groove 1721, and the second wire 102 extends out of the storage box through the third outlet 1731. When the storage box 17 is specifically prepared, the cross-sectional profile of the storage box 17 perpendicular to the plugging direction of the network cables and the cross-sectional profile of the cover 11 perpendicular to the plugging direction of the network cables can be kept consistent, so that the exchanger is smooth and attractive in appearance.

Fig. 6 is a schematic structural view of a hanger according to an embodiment of the present invention. In an alternative embodiment, as shown in fig. 6, the switch may further include a hanger 18, and the hanger 18 is used to mount the switch to a wall or other mounting location. The hanger is provided on a side of the housing 1 of the exchange facing the target installation position. Specifically, the hanger 18 is provided with a first mounting hole 181 and a second mounting hole 182. The first mounting hole 181 is used to connect with the bottom case 12 of the switch, and the second mounting hole 182 is used to mount the hanger 18 to a wall or other target mounting location. In the specific preparation of the above hanger 18, the hanger 18 may be provided with various types of first mounting holes 181, such as: 86 boxes of horizontal mounting holes, 86 boxes of vertical mounting holes, buckles and the like. The hanger may also be provided with various types of second mounting holes 182, such as: the hoop is through the hole, the screw lockhole etc. can be installed the stores pylon in the column form thing or spiro union in wall or other positions that need the installation. The first mounting hole 181 and the second mounting hole 182 of the different types can meet the requirements of mounting switches of different types, and can be mounted at different positions according to the requirements of users, so that the mounting applicability of the switches is improved.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The utility model provides a switch, its characterized in that includes casing and net access connector, the casing includes first outlet, net access connector sets up in the one side that first outlet was kept away from to the casing, just net access connector's socket orientation first outlet, net access connector is used for the grafting network cable.

2. The switch of claim 1, wherein the housing comprises a cover portion and a bottom shell, the cover portion being removably connected to the bottom shell.

3. The switch of claim 2, further comprising a cable management rack, wherein the cable management rack is installed between the cover and the bottom case, the cable management rack comprises a body and a plurality of clamping portions, and the plurality of clamping portions are disposed on one side of the body close to the first outlet for clamping the network cable.

4. The switch according to claim 3, wherein the engaging portion is a through slot, a notch of the through slot faces the cover, and an extending direction of a channel of the through slot is identical to a plugging and unplugging direction of the network cable.

5. The switch according to claim 3, wherein the cable management rack further comprises a receiving slot, the network port connector is disposed in the receiving slot, the receiving slot has an opening, and the opening corresponds to the socket of the network port connector.

6. The switch according to claim 3, further comprising an optical module, wherein the optical module is used for plugging a fiber optic cable, and the optical module is disposed between the bottom shell and the cable management rack;

the bottom shell is provided with a second wire outlet and a wire arranging groove, the second wire outlet is communicated with the wire arranging groove, the wire arranging groove is located on one side, away from the cover, of the bottom shell, and the optical fiber cable extends out of the bottom shell from the second wire outlet and is wound in the wire arranging groove.

7. The switch of claim 3, wherein the wire management frame comprises a sidewall perpendicular to the cover, the sidewall having heat dissipation holes.

8. The switch according to claim 3, further comprising a storage box for accommodating the adapters, wherein the storage box is disposed on a side of the housing close to the first outlet and detachably connected to the wire arranging rack, and a third outlet is disposed on a side of the storage box away from the wire arranging rack.

9. The switch of claim 8, wherein the storage box includes a connector that snaps into the snap portion.

10. The switch of claim 1, further comprising a hanger having a first mounting hole and a second mounting hole, the hanger configured to mount the switch to a wall, the hanger being disposed on a side of the housing facing the wall.

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