CN116626829A - Optical cable divides fine case - Google Patents

Abstract

The application relates to the technical field of optical cable fiber distribution boxes, in particular to an optical cable fiber distribution box which comprises a storage mechanism, a storage mechanism and a storage mechanism, wherein the storage mechanism comprises a box body and a box cover hinged on the box body; the connecting rod mechanism comprises a first connecting rod assembly and a second connecting rod assembly which are arranged on the box body, and a thrust assembly which is arranged on the second connecting rod assembly; the supporting mechanism comprises a storage plate arranged on the first connecting rod assembly and the second connecting rod assembly, and an optical fiber positioning seat arranged on the storage plate; when the box cover is opened, the first connecting rod assembly and the second connecting rod assembly can be pulled by the pushing assembly to push the object placing plate out of the box body, and when the box cover is opened, the object placing plate can be pulled up by the pushing assembly and can be kept in a lifting state by propping against the second connecting arm after being pulled up, so that a worker can maintain the object placing plate, and when the box cover is closed, the object placing plate can be automatically taken in the box body by the pushing assembly.

Description

Optical cable divides fine case

Technical Field

The application relates to the technical field of optical cable fiber distribution boxes, in particular to an optical cable fiber distribution box.

Background

A cable drop box is an electrical device for receiving and distributing cables to different fiber optic connection points and for interconnecting cables. These devices are typically installed in optical communication networks and function to centrally manage and schedule optical signals.

Fiber optic cable distribution boxes are typically comprised of one or more cable interfaces, relays, cable connectors, and connectors. These assemblies transmit optical signals from the cable to other locations by connecting optical fibers.

The inside a plurality of optical cable joints of optical cable divides fine case are concentrated through fixed knot structure and are fixed a position, and inside electronic component and cable joint are the layering stack and locate the inside of box, when overhauling and maintaining, because receive the blocking of box, the staff operates not enough conveniently, for this proposes an optical cable divides fine case.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-mentioned or the problems occurring in the prior art that the operator is not convenient enough to operate due to the blocking of the case when performing the repair and maintenance.

It is therefore an object of the present application to provide an optical cable distribution box.

In order to solve the technical problems, the application provides the following technical scheme: the optical cable fiber dividing box comprises a storage mechanism, a storage mechanism and a control mechanism, wherein the storage mechanism comprises a box body and a box cover hinged on the box body; the connecting rod mechanism comprises a first connecting rod assembly and a second connecting rod assembly which are arranged on the box body, and a thrust assembly which is arranged on the second connecting rod assembly; the supporting mechanism comprises a storage plate arranged on the first connecting rod assembly and the second connecting rod assembly, and an optical fiber positioning seat arranged on the storage plate; when the box cover is opened, the first connecting rod assembly and the second connecting rod assembly can be pulled by the pushing assembly to push the object placing plate out of the box body.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the first connecting rod assembly comprises a first supporting piece arranged on the box body and a first connecting piece rotatably arranged on the first supporting piece; the second connecting rod assembly comprises a second supporting piece arranged on the box body and a second connecting piece rotatably arranged on the second supporting piece.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the first supporting piece comprises a first supporting seat arranged on the box body and a first sliding groove arranged on the first supporting seat; the first connecting piece comprises a first connecting arm which is rotatably arranged on the first supporting seat, and a first rotating shaft and a first limiting strip which are arranged on the first connecting arm.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the second supporting piece comprises a second supporting seat arranged on the box body and a second sliding groove arranged on the second supporting seat; the second connecting piece comprises a second connecting arm which is rotationally arranged on the second supporting seat, and a second rotating shaft and a second limiting strip which are arranged on the second connecting arm.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the thrust component comprises a connecting seat arranged on the box cover in a swinging way, a sliding sleeve arranged on the connecting seat, a sliding rod arranged on the sliding sleeve in a sliding way, and a connecting sleeve arranged on the sliding rod, wherein a spring is sleeved outside the sliding rod; the second connecting piece further comprises a protection rubber pad and a long shaft which are arranged on the second connecting arm.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the storage plate comprises a panel, and a locking buckle and a clamping buckle which are arranged on the panel; the first connecting rod assembly further comprises a clamping shaft body arranged on the first connecting piece; the locking buckle can be clamped with the clamping shaft body; the clamping buckle can be clamped with the long shaft.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the clamping shaft body comprises a short shaft arranged on the first connecting arm and a disengaging groove arranged on the short shaft; the locking buckle comprises a sleeve seat arranged on the panel and an imbedding groove arranged on the sleeve seat.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the clamping buckle comprises a plugging seat arranged on the panel and a plugging groove arranged on the plugging seat; the inserting groove is connected with the long shaft in a sliding way.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the wire harness mechanism is also included; the wire binding mechanism comprises a fixing sleeve arranged on the panel, a rotating shaft arranged on the fixing sleeve, and a side strip arranged on the rotating shaft, wherein a supporting shaft is arranged on the side strip, and a roller and a wire binding clamp are arranged on the supporting shaft.

As a preferred embodiment of the optical cable distribution box of the present application, wherein: the wire binding clip comprises a ring sleeve arranged on the supporting shaft, an annular groove is formed in the ring sleeve, a supporting block arranged on the ring sleeve, and a supporting groove arranged on the supporting block.

The optical cable fiber dividing box has the beneficial effects that: when the box cover is opened, the push component can pull the object placing plate, and after the object placing plate is pulled up, the push component can keep the lifting state of the object placing plate by propping against the second connecting arm so as to be used for maintenance and maintenance by staff.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic view of an opened structure of a fiber optic cable distribution box.

Fig. 2 is a schematic structural view of a first connecting rod assembly of the optical cable distribution box.

Fig. 3 is a schematic diagram of a connection structure of a second connecting rod assembly and a thrust assembly of the optical cable distribution box.

Fig. 4 is a schematic diagram of a thrust assembly of the cable splitter box.

Fig. 5 is a schematic view of a structure of a storage board of the optical cable distribution box.

Fig. 6 is a schematic view of a wire harness mechanism of the optical cable distribution box.

Fig. 7 is a schematic view of a cable harness card of the cable splitting box.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 7, a first embodiment of the present application provides an optical cable distribution box, which includes a storage mechanism 100 including a box 101 and a box cover 102 hinged to the box 101; in this embodiment, the case 101 and the case cover 102 are hinged, the case cover 102 can be opened by rotating, and the case 101 and the case cover 102 are provided with lockable mechanisms, which can be fixed after the case 101 and the case cover 102 are closed.

Further, the linkage mechanism 200 includes a first link assembly 201 and a second link assembly 202 provided on the case 101, and a thrust assembly 203 provided on the second link assembly 202; in the present embodiment, the first link assembly 201 and the second link assembly 202 are fixed in the case 101, and the thrust assembly 203 and the second link assembly 202 are connected.

It should be noted that two link mechanisms 200 are provided, and the two link mechanisms 200 are symmetrically provided.

Further, the supporting mechanism 300 includes a storage plate 301 disposed on the first connecting rod assembly 201 and the second connecting rod assembly 202, and an optical fiber positioning seat 302 disposed on the storage plate 301; in this embodiment, the storage board 301 is connected to the box 101 through the first connecting rod assembly 201 and the second connecting rod assembly 202, and the optical fiber positioning seat 302 can fix multiple groups of optical fiber plugs.

When the case cover 102 is opened, the first link assembly 201 and the second link assembly 202 may be pulled by the pushing assembly 203 to push the storage plate 301 out of the case 101.

Specifically, the first connecting rod assembly 201 includes a first supporting member 201a disposed on the case 101, and a first connecting member 201b rotatably disposed on the first supporting member 201 a; in this embodiment, the first supporting member 201a and the first connecting member 201b can rotate, so as to adjust the distance between one side of the object placing plate 301 and the inside of the case 101.

Specifically, the second connecting rod assembly 202 includes a second supporting member 202a disposed on the case 101, and a second connecting member 202b rotatably disposed on the second supporting member 202a, in this embodiment, the second supporting member 202a and the second connecting member 202b can rotate, so as to adjust the distance between one side of the object placing plate 301 and the inside of the case 101.

Further, the first supporting piece 201a includes a first supporting seat 201a-1 provided on the case 101, and a first sliding groove 201a-2 provided on the first supporting seat 201 a-1; in the present embodiment, the first supporting seat 201a-1 is fixedly disposed on the inner wall of the case 101, the first sliding groove 201a-2 is disposed on the top end of the first supporting seat 201a-1, and the first sliding groove 201a-2 is an arc-shaped groove.

The first connecting piece 201b includes a first connecting arm 201b-1 rotatably disposed on the first supporting seat 201a-1, and a first rotating shaft 201b-2 and a first limiting bar 201b-3 disposed on the first connecting arm 201b-1, in this embodiment, the first connecting arm 201b-1 is rotatably connected with the first supporting seat 201a-1 through the first rotating shaft 201b-2, a first limiting bar 201b-3 is fixedly mounted on an end surface of the first connecting arm 201b-1 connected with the first supporting seat 201a-1, and the first limiting bar 201b-3 is slidably connected with the first sliding groove 201 a-2.

The second supporting member 202a includes a second supporting seat 202a-1 disposed on the case 101, and a second sliding groove 202a-2 disposed on the second supporting seat 202 a-1; in the present embodiment, the second supporting seat 202a-1 is fixedly disposed on the inner wall of the case 101, the second sliding groove 202a-2 is disposed on the top end of the second supporting seat 202a-1, and the second sliding groove 202a-2 is an arc-shaped groove.

The second connecting piece 202b includes a second connecting arm 202b-1 rotatably disposed on the second supporting seat 202a-1, and a second rotating shaft 202b-2 and a second limiting bar 202b-3 disposed on the second connecting arm 202b-1, in this embodiment, the second connecting arm 202b-1 is rotatably connected with the second supporting seat 202a-1 through the second rotating shaft 202b-2, and a second limiting bar 202b-3 and a second sliding groove 202a-2 are fixedly mounted on one end surface of the second connecting arm 202b-1 connected with the second supporting seat 202 a-1.

Preferably, the thrust component 203 comprises a connecting seat 203d arranged on the box cover 102 in a swinging way, a sliding sleeve 203c arranged on the connecting seat 203d, a sliding rod 203b arranged on the sliding sleeve 203c in a sliding way, a connecting sleeve 203a arranged on the sliding rod 203b, and a spring 203e sleeved outside the sliding rod 203 b; in this embodiment, the connection seat 203d and the case cover 102 may swing, the connection seat 203d is fixedly connected with the sliding sleeve 203c, the inner wall of the sliding sleeve 203c is slidably connected with the sliding rod 203b, the outer wall of one end of the sliding rod 203b is fixedly connected with the connecting sleeve 203a, the spring 203e is sleeved outside the sliding rod 203b and the sliding sleeve 203c, and the sliding rod 203b may be pushed to slide out from the sliding sleeve 203c by the elastic force of the spring 203 e.

Further, the second connecting member 202b further includes a protective rubber pad 202b-4 and a long shaft 202b-5 disposed on the second connecting arm 202b-1, in this embodiment, the protective rubber pad 202b-4 is adhered to an end surface of the second connecting arm 202b-1 far away from the second supporting seat 202a-1 by glue, the long shaft 202b-5 penetrates through the two second connecting arms 202b-1 on the same side, and the second connecting arm 202b-1 and the long shaft 202b-5 are rotationally connected.

In the initial state, the case cover 102 and the case 101 are in the closed state, the object placing plate 301 is positioned in the case 101, the electronic devices on the inner surfaces of the object placing plate 301 and the case 101 are layered and overlapped, the spring 203e is in the compressed state, the sliding rod 203b is accommodated in the sliding sleeve 203c, one ends of the first connecting piece 201b and the second connecting piece 202b are in the abutting state with the inner surface of the case 101, and the abutting part is protected through the protective rubber pad 202 b-4.

When the cover 102 is opened, the length of the pushing member 203 is increased due to the rotation between the cover 102 and the case 101, the sliding rod 203b slides out of the sliding sleeve 203c by the elastic force of the spring 203e, and in this process, the second connecting member 202b can be pushed down by the elastic force of the spring 203e, so as to keep the storage plate 301 in the case 101.

When the case cover 102 rotates to a certain angle, the sliding rod 203b slides out of the sliding sleeve 203c completely, and then the sliding rod 203b pulls the second connecting arm 202b-1 to rotate, meanwhile, due to the parallelogram principle, the first connecting arm 201b-1 also rotates together and enables the object placing plate 301 to be lifted up in a horizontal state, in this process, the first limiting rod 201b-3 slides in the first sliding groove 201a-2, the second limiting rod 202b-3 slides in the second sliding groove 202a-2 until the first limiting rod 201b-3 and the second limiting rod 202b-3 cannot slide continuously after being blocked, and then the second connecting arm 202b-1 rotates to a maximum rotation angle, and meanwhile, the case cover 102 rotates to a maximum angle, and then the first connecting arm 203b keeps a state of sliding out of the sliding sleeve 203c through the elastic force of the spring 203e, so that the length of the thrust component 203 is kept, and meanwhile, the thrust provided by the thrust component 203 can prop against the second connecting arm 201b-1 to keep the object placing plate 301 to be lifted out of the optical fiber 101, so that the plug is positioned in the case seat 302.

When the case cover 102 is closed, because the thrust provided by the thrust component 203 is in an abutting state with the second connecting arm 201b-1 under the action of the first limiting bar 201b-3 and the second limiting bar 202b-3, the first rotation of the case cover 102 can enable the spring 203e to compress, so that the sliding bar 203b slides into the sliding sleeve 203c, the direction of the thrust exerted by the thrust component 203 is changed along with the change of the rotation angle of the case cover 102, the thrust provided by the thrust component 203 can push the second connecting arm 201b-1 to rotate downwards along with the rotation of the case cover 102 to a certain angle, at the moment, the sliding bar 203b is pushed by the elastic force of the spring 203e, so that the sliding bar 203b extends out, the second connecting arm 201b-1 is pushed down until one ends of the first connecting piece 201b and the second connecting piece 202b are in an abutting state with the inner surface of the case body 101, the abutting part is protected by the protection rubber pad 202b-4, and the inside of the case body 101 can be automatically retracted when the case cover 102 is closed.

In summary, when the cover 102 is opened, the pushing component 203 can pull up the object placing plate 301, and after the object placing plate 301 is pulled up, the object placing plate 301 can be kept in a lifted state by propping against the second connecting arm 201b-1 for a worker to perform maintenance, and when the cover 102 is closed, the pushing component 203 can automatically retract the object placing plate into the box 101.

Example 2

Referring to fig. 1 to 7, in a second embodiment of the present application, unlike the previous embodiment, a storage plate 301 includes a panel 301a, and a locking buckle 301b and a locking buckle 301c provided on the panel 301 a; in this embodiment, the panel 301a is used for supporting and fixing the optical fiber positioning seat 302, two locking buckles 301b are provided, and two locking buckles 301b are fixedly provided on two sides of the bottom of the panel 301a, two clamping buckles 301c are provided, and two clamping buckles 301c are fixedly provided on two sides of the bottom of the panel 301 a.

Further, the first connecting rod assembly 201 further includes a clamping shaft 201c disposed on the first connecting piece 201b; in this embodiment, the locking buckle 301b can be locked with the locking shaft 201c; the locking buckle 301c can be locked with the long shaft 202 b-5.

Specifically, the clamping shaft body 201c includes a short shaft 201c-1 disposed on the first connecting arm 201b-1, and a disengaging groove 201c-2 disposed on the short shaft 201 c-1; in the present embodiment, the short shaft 201c-1 is fixedly disposed on the first connecting arm 201b-1, and the disengaging grooves 201c-2 are formed on two sides of the short shaft 201 c-1.

Preferably, the locking buckle 301b includes a socket 301b-1 disposed on the panel 301a and a placement groove 301b-2 disposed on the socket 301b-1, in this embodiment, the socket 301b-1 is fixedly disposed at the bottom of the panel 301a, the placement groove 301b-2 is formed on the surface of the socket 301b-1 close to the case 101, and the size of the placement groove 301b-2 is matched with the size of the outer surface of the short shaft 201c-1 after the detachment groove 201c-2 is formed.

Further, the clip 301c includes a socket 301c-1 disposed on the panel 301a, and a socket 301c-2 disposed on the socket 301 c-1; the socket 301c-2 is slidably connected to the long shaft 202b-5, and in this embodiment, the socket 301c-1 is fixedly disposed at the bottom of the panel 301a, and the opening of the socket 301c-2 on the socket 301c-1 is parallel to the panel 301 a.

The rest of the structure is the same as in embodiment 1.

When the box cover 102 is used, after the box cover 102 is opened, the storage plate 301 is lifted, the first connecting arm 201b-1 is rotated by pressing down the position of the locking buckle 301b on the storage plate 301 and pushing the storage plate 301 forwards, the socket 301c-1 slides between the socket 301c-2 and the long shaft 202b-5, then the panel 301a is deflected, the socket 301b-1 is rotated outside the short shaft 201c-1, the disengaging groove 201c-2 is aligned with the placing groove 301b-2, and then the panel 301a is removed and detached, so that maintenance personnel can conveniently overhaul the electronic devices on the inner surface of the box 101.

During installation, the short shaft 201c-1 and the sleeving seat 301b-1 are sleeved, the first connecting arm 201b-1 is then rotated by pressing, the splicing seat 301c-1 and the long shaft 202b-5 are connected in a clamping manner, the detaching groove 201c-2 and the placing groove 301b-2 on the installed short shaft 201c-1 are in a dislocation state, at this time, the short shaft 201c-1 and the sleeving seat 301b-1 cannot be detached, and in the opening and closing process of the box cover 102, the direction of the applying force of the second connecting arm 202b-1 to the splicing seat 301c-1 is different from the direction of the opening of the placing groove 301b-2 due to the fact that the second connecting arm 202b-5 rotates.

In conclusion, the object placing plate 301 is convenient to detach and install, and accordingly the electronic devices in the box body 101 are convenient to overhaul.

Example 3

Referring to fig. 1 to 7, a third embodiment of the present application, unlike the previous embodiment, further includes a harness mechanism 400; the wire harness mechanism 400 comprises a fixing sleeve 401 arranged on the panel 301a, and a rotating shaft 402 arranged on the fixing sleeve 401, and further comprises a rim 403 arranged on the rotating shaft 402, wherein a supporting shaft 404 is arranged on the rim 403, a roller 405 and wire harness cards 406 are arranged on the supporting shaft 404, in the embodiment, the fixing sleeve 401 is fixedly arranged on two sides of the bottom of the panel 301a, the rotating shaft 402 is rotatably connected to the inside of the fixing sleeve 401, rims 403 are fixedly arranged at two ends of the rotating shaft 402, a supporting shaft 404 is fixedly arranged on the rim 403, the roller 405 can roll on the surface of the supporting shaft 404, a plurality of wire harness cards 406 are uniformly arranged on the surface of the supporting shaft 404, and the wire harness cards 406 can bind a cable.

Specifically, the wire harness clip 406 includes a ring sleeve 406a disposed on the support shaft 404, the ring sleeve 406a is provided with a ring groove 406b, and further includes a supporting block 406c disposed on the ring sleeve 406a, and a supporting groove 406d disposed on the supporting block 406c, in this embodiment, a ring groove 406b is disposed in the middle of an outer wall of the ring sleeve 406a, the supporting block 406c and the edge 403 are disposed parallel to each other, and a supporting groove 406d is disposed on a surface of the supporting block 406c close to the bottom of the panel 301 a.

The rest of the structure is the same as in embodiment 2.

When the panel 301a is in the lifted state, the edge 403 is in an inward inclined state, as shown in fig. 1 and 5, the optical cable is attached to the ring groove 406b and the bracket 406d on the wire harness clip 406, when the panel 301a descends into the box 101, the panel 301a rolls on the inner surface of the box 101 after being pressed by the edge 403 in cooperation with the roller 405 in the descending process, and when the panel is rolled, the optical cable is pressed into the back of the panel 301a to be stored, thereby facilitating arrangement and restraining of the optical cable.

In summary, after the panel 301a is accommodated in the box 101, the optical cable can be pressed into the back of the panel 301a for accommodation, so that the arrangement of the wires is facilitated.

It is important to note that the construction and arrangement of the application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present application. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present applications. Therefore, the application is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in order to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the application, or those not associated with practicing the application).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (10)

1. An optical cable divides fine case, its characterized in that: comprising the steps of (a) a step of,

the storage mechanism (100) comprises a box body (101) and a box cover (102) hinged on the box body (101);

the connecting rod mechanism (200) comprises a first connecting rod assembly (201) and a second connecting rod assembly (202) which are arranged on the box body (101), and a thrust assembly (203) which is arranged on the second connecting rod assembly (202);

the supporting mechanism (300) comprises a storage plate (301) arranged on the first connecting rod assembly (201) and the second connecting rod assembly (202), and an optical fiber positioning seat (302) arranged on the storage plate (301);

when the box cover (102) is opened, the first connecting rod assembly (201) and the second connecting rod assembly (202) can be pulled by the pushing assembly (203) to push the object placing plate (301) out of the box body (101).

2. The fiber optic cable distribution cabinet of claim 1, wherein: the first connecting rod assembly (201) comprises a first supporting piece (201 a) arranged on the box body (101), and a first connecting piece (201 b) rotatably arranged on the first supporting piece (201 a);

the second connecting rod assembly (202) comprises a second supporting piece (202 a) arranged on the box body (101), and a second connecting piece (202 b) rotatably arranged on the second supporting piece (202 a).

3. The fiber optic cable distribution cabinet of claim 2, wherein: the first supporting piece (201 a) comprises a first supporting seat (201 a-1) arranged on the box body (101), and a first sliding groove (201 a-2) arranged on the first supporting seat (201 a-1);

the first connecting piece (201 b) comprises a first connecting arm (201 b-1) rotatably arranged on the first supporting seat (201 a-1), a first rotating shaft (201 b-2) and a first limiting strip (201 b-3) arranged on the first connecting arm (201 b-1).

4. A fiber optic cable distribution cabinet as claimed in claim 3, wherein: the second supporting piece (202 a) comprises a second supporting seat (202 a-1) arranged on the box body (101), and a second sliding groove (202 a-2) arranged on the second supporting seat (202 a-1);

the second connecting piece (202 b) comprises a second connecting arm (202 b-1) rotatably arranged on the second supporting seat (202 a-1), a second rotating shaft (202 b-2) and a second limit strip (202 b-3) arranged on the second connecting arm (202 b-1).

5. The fiber optic cable distribution box of claim 4, wherein: the thrust component (203) comprises a connecting seat (203 d) arranged on the box cover (102) in a swinging mode, a sliding sleeve (203 c) arranged on the connecting seat (203 d), a sliding rod (203 b) arranged on the sliding sleeve (203 c) in a sliding mode, and a connecting sleeve (203 a) arranged on the sliding rod (203 b), wherein a spring (203 e) is sleeved outside the sliding rod (203 b);

the second connecting piece (202 b) further comprises a protective rubber pad (202 b-4) and a long shaft (202 b-5) which are arranged on the second connecting arm (202 b-1).

6. The fiber optic cable distribution box of claim 5, wherein: the storage plate (301) comprises a panel (301 a), and a locking buckle (301 b) and a clamping buckle (301 c) which are arranged on the panel (301 a);

the first connecting rod assembly (201) further comprises a clamping shaft body (201 c) arranged on the first connecting piece (201 b);

the locking buckle (301 b) can be clamped with the clamping shaft body (201 c);

the clamping buckle (301 c) can be clamped with the long shaft (202 b-5).

7. The fiber optic cable distribution box of claim 6, wherein: the clamping shaft body (201 c) comprises a short shaft (201 c-1) arranged on the first connecting arm (201 b-1) and a disengaging groove (201 c-2) arranged on the short shaft (201 c-1);

the locking buckle (301 b) comprises a socket seat (301 b-1) arranged on the panel (301 a), and an imbedding groove (301 b-2) arranged on the socket seat (301 b-1).

8. The fiber optic cable distribution box of claim 7, wherein: the clamping buckle (301 c) comprises a socket (301 c-1) arranged on the panel (301 a) and a socket groove (301 c-2) arranged on the socket (301 c-1);

the inserting groove (301 c-2) is connected with the long shaft (202 b-5) in a sliding mode.

9. The fiber optic cable distribution cabinet of claim 7 or 8, wherein: also comprises a wire harness mechanism (400);

the wire binding mechanism (400) comprises a fixed sleeve (401) arranged on the panel (301 a), a rotating shaft (402) arranged on the fixed sleeve (401), and a side strip (403) arranged on the rotating shaft (402), wherein a supporting shaft (404) is arranged on the side strip (403), and a roller (405) and a wire binding clip (406) are arranged on the supporting shaft (404).

10. The fiber optic cable distribution cabinet of claim 9, wherein: the wire harness clip (406) comprises a ring sleeve (406 a) arranged on the support shaft (404), an annular groove (406 b) is arranged on the ring sleeve (406 a), a supporting block (406 c) arranged on the ring sleeve (406 a) and a supporting groove (406 d) arranged on the supporting block (406 c).