CN216905143U - Realize general broadband access box of PON module and DOCSIS module installation - Google Patents

Abstract

The utility model discloses a broadband access box for realizing the installation and the universality of a PON module and a DOCSIS module, which comprises an upper box body and a lower box body, wherein the upper box body and the lower box body are axially hinged and connected at one adjacent side; a first box cavity is formed in the upper box body, first mounting areas are formed at two ends of the first box cavity respectively, a first mounting seat for inserting a power supply module and a second mounting seat for inserting a radio frequency module are oppositely arranged on each first mounting area, and a power supply input interface board is arranged between the first mounting seat and the second mounting seat in each first mounting area; be formed with the second case chamber in the lower box, the second case chamber is formed with the second installing zone that is used for installing photoelectricity data passback module and is formed with the third installing zone that is used for installing PON module or DOCSIS module at the other end at one end, and one side that the second case chamber was box in the neighbouring last box is equipped with the optic fibre line trough. The broadband access box can realize the installation and the universality of the PON module and the DOCSIS module.

Description

Realize general broadband access box of PON module and DOCSIS module installation

Technical Field

The utility model relates to the technical field of broadband access equipment, in particular to a broadband access box for realizing the installation and the universality of a PON module and a DOCSIS module.

Background

The existing broadband access device is widely applied to the application fields of smart home, building automation, industrial control and the like, and generally adopts a broadband box with a PON module or a broadband box with a DOCSIS module to realize broadband access or wireless transmission.

At present, the structure of broadband case is usually including the box that inside is formed with the case chamber and the lid that sets up on the box relatively to the case chamber switch to, the case chamber structure of broadband case can be different according to the PON module or the DOCSIS module of required installation, makes the broadband case of installation PON module and the broadband case of installation DOCSIS module be not general, and same broadband case can't be used for installing the PON module, also can be used for installing the DOCSIS module, and it is comparatively inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a broadband access box for mounting a PON module and a DOCSIS module in a universal way.

In order to achieve the purpose, the utility model provides the following technical scheme:

a broadband access box for realizing the installation and the universality of a PON module and a DOCSIS module comprises an upper box body and a lower box body, wherein the upper box body and the lower box body are axially hinged and connected at one adjacent side; a first box cavity is formed in the upper box body, first mounting areas are formed at two ends of the first box cavity respectively, a first mounting seat for inserting a power supply module and a second mounting seat for inserting a radio frequency module are oppositely arranged on each first mounting area, and a power supply input interface board is arranged between the first mounting seat and the second mounting seat in each first mounting area; the lower box is internal to be formed with the second case chamber, the second case chamber is formed with the second installing zone that is used for installing photoelectric data passback module and is formed with the third installing zone that is used for installing PON module or DOCSIS module at the other end in one end, and one side that the second case chamber was box in the neighbouring is equipped with the optic fibre line trough, the both ends of optic fibre line trough extend to second installing zone and third installing zone respectively.

As a further technical scheme of the utility model: one end of the optical fiber wire routing groove extending to the second installation area is provided with an extension groove extending towards the other side of the second box cavity.

As a further technical scheme of the utility model: and a first partition plate for partitioning the second installation area and the third installation area is arranged on the optical fiber wiring groove.

As a further technical scheme of the utility model: and a supporting plate is arranged at one end of the optical fiber wire distribution groove extending to the third mounting area.

As a further technical scheme of the utility model: but go up box and lower box and be provided with the latched device of switch along the contact position border when the lock.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a broadband access box for mounting a PON module and a DOCSIS module, which is used for mounting the PON module, wherein a power supply module is inserted in a first mounting seat of a first mounting area, a photoelectric data return module is mounted in a second mounting area, the PON module is mounted in a third mounting area, and a power input interface board electrically connected with the power supply module supplies power to the photoelectric data return module and the PON module respectively; and when the DOCSIS module is installed, the power supply module is inserted in the first installation seat of the first installation area, the radio frequency module is inserted in the second installation seat, the photoelectric data return module is installed in the second installation area, the DOCSIS module is installed in the third installation area, and the power supply input interface board electrically connected with the power supply module supplies power to the radio frequency module, the photoelectric data return module and the DOCSIS module respectively, so that the PON module and the DOCSIS module are installed universally and are more convenient to use.

Drawings

Fig. 1 is a schematic diagram of a broadband access box for implementing installation of a PON module and a DOCSIS module in general, when the DOCSIS module is installed.

Fig. 2 is a schematic diagram of a broadband access box for implementing installation of a PON module and a DOCSIS module in general when installing the PON module.

Fig. 3 is a schematic view of a first spacer plate and a support plate on a fiber optic cabling trough.

Fig. 4 is a box closing state diagram of a broadband access box for implementing the installation of the PON module and the DOCSIS module.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration and explanation only and are not intended to limit the scope of the utility model.

Referring to fig. 1 and 2, a broadband access box for implementing installation of a PON module and a DOCSIS module in a general purpose manner includes an upper box 10 and a lower box 20, where the upper box 10 and the lower box 20 are axially hinged at adjacent sides; a first box cavity 11 is formed in the upper box body 10, first mounting areas 101 are respectively formed at two ends of the first box cavity 11, a first mounting seat 12 for plugging a power module 31 and a second mounting seat 13 for plugging a radio frequency module 32 are oppositely arranged on each first mounting area 101, and a power input interface board 14 is arranged between the first mounting seat 12 and the second mounting seat 13 in each first mounting area 101; a second box cavity 21 is formed in the lower box body 20, the second box cavity 21 is provided with a second installation area 201 for installing the photoelectric data return module 33 at one end and a third installation area 202 for installing the PON module 34 or the DOCSIS module 35 at the other end, the second box cavity 21 is provided with an optical fiber cable routing groove 22 at one side of the adjacent upper box body 10, two ends of the optical fiber cable routing groove 22 respectively extend to the second installation area 201 and the third installation area 202, and an optical fiber disc 23 is hinged to one end of the optical fiber cable routing groove 22 extending to the third installation area 202.

It can be understood that, when the broadband access box is used to implement the installation of the PON module 34, the power module 31 is first plugged into the first mounting seat 12 of the first mounting area 101, the optical-electrical data backhaul module 33 is installed in the second mounting area 201, and after the PON module 34 is installed in the third mounting area 202, the power input interface board 14 electrically connected to the power module 31 supplies power to the optical-electrical data backhaul module 33 and the PON module 34, respectively.

When the broadband access box is used for realizing the installation of the DOCSIS module 35, firstly, the power module 31 is plugged in the first installation seat 12 of the first installation area 101, the radio frequency module 32 is plugged in the second installation seat 13, the photoelectric data return module 33 is installed in the second installation area 201, the DOCSIS module 35 is installed in the third installation area 202, and the power input interface board 14 electrically connected with the power module 31 supplies power to the radio frequency module 32, the photoelectric data return module 33 and the DOCSIS module 35 respectively.

Furthermore, an extending groove 221 extending towards the other side of the second box cavity 21 is disposed at one end of the optical fiber wiring groove 22 extending to the second installation area 201, so that the optical fiber can be detached from the optical fiber tray 23, one end of the optical fiber is connected to the photoelectric data return module 33 installed in the second installation area 201 through the extending groove 221, and the other end of the optical fiber penetrates out of the lower box body 20 along the optical fiber wiring groove 22 and is connected to the outside.

Further, referring to fig. 3, a first partition plate 222 for partitioning the second installation area 201 and the third installation area 202 is disposed on the optical fiber cable routing groove 22, and two ends of the second box cavity 21 are partitioned into the second installation area 201 and the third installation area 202 by the first partition plate 222.

Further, the optical-electrical data backhaul module 33, the PON module 34 or the DOCSIS module 35 are fixed in the second cabinet 21 by screws.

Further, referring to fig. 4, the upper case 10 and the lower case 20 are provided with an openable and closable lock mechanism 41 along the edge of the contact position when being fastened.

Further, a support plate 223 for supporting the optical fiber tray 23 is disposed at one end of the optical fiber cable routing groove 22 extending to the third installation area 202, and when the DOCSIS module 35 is installed in the third installation area 202, the DOCSIS module 35 is disposed between the first partition plate 222 and the support plate 223.

In summary, when the broadband access box for implementing installation of the PON module and the DOCSIS module is implemented to install the PON module 34, the power module 31 is plugged into the first mounting seat 12 of the first mounting area 101, the photoelectric data backhaul module 33 is installed in the second mounting area 201, the PON module 34 is installed in the third mounting area 202, and the power input interface board 14 electrically connected to the power module 31 respectively supplies power to the photoelectric data backhaul module 33 and the PON module 34; and when the DOCSIS module 35 is installed, the power module 31 is inserted into the first installation seat 12 of the first installation area 101, the radio frequency module 32 is inserted into the second installation seat 13, the photoelectric data return module 33 is installed into the second installation area 201, the DOCSIS module 35 is installed into the third installation area 202, and the power input interface board 14 electrically connected with the power module 31 supplies power to the radio frequency module 32, the photoelectric data return module 33 and the DOCSIS module 35 respectively, so that the PON module and the DOCSIS module are installed commonly and are used more conveniently.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims (5)

1. The utility model provides a realize general broadband access box of PON module and DOCSIS module installation which characterized in that: the box body structure comprises an upper box body (10) and a lower box body (20), wherein the upper box body (10) is axially hinged and connected with the lower box body (20) at one adjacent side; a first box cavity (11) is formed in the upper box body (10), first mounting areas (101) are formed at two ends of the first box cavity (11), a first mounting seat (12) for inserting a power supply module (31) and a second mounting seat (13) for inserting a radio frequency module (32) are oppositely arranged on each first mounting area (101), and a power input interface board (14) is arranged between the first mounting seat (12) and the second mounting seat (13) in each first mounting area (101); be formed with second case chamber (21) down in box (20), second case chamber (21) are formed with second installing zone (201) that is used for installing photoelectricity data passback module (33) and are formed with third installing zone (202) that is used for installing PON module (34) or DOCSIS module (35) at the other end, and second case chamber (21) are equipped with optic fibre line trough (22) in the one side of box (10) on neighbouring, the both ends of optic fibre line trough (22) extend to second installing zone (201) and third installing zone (202) respectively.

2. The broadband access box of claim 1, wherein: one end of the optical fiber wire wiring groove (22) extending to the second installation area (201) is provided with an extension groove (221) extending towards the other side of the second box cavity (21).

3. The broadband access box of claim 1, wherein: and a first partition plate (222) for partitioning the second installation area (201) and the third installation area (202) is arranged on the optical fiber wiring groove (22).

4. The broadband access box of claim 1, wherein: and a support plate (223) is arranged at one end of the optical fiber wire wiring groove (22) extending to the third mounting area (202).

5. The broadband access box of claim 1, wherein: the upper box body (10) and the lower box body (20) are provided with a locking mechanism (41) capable of being opened and closed along the edge of the contact position when being buckled.

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