CN205319629U - Cable bridge - Google Patents

Abstract

The utility model discloses a cable bridge, include along the cable tray of fore -and -aft direction extension that still including lieing in the inside baffle of cable tray, the baffle rotationally sets up around the rotation axis along the fore -and -aft direction extension for cable tray's bottom plate cable bridge to making the baffle switch expanding between position and the folding position, wherein, expanding the position, cable tray's inner space is separated on with direction about for the vertical setting of bottom plate to the baffle, and in folding position, the baffle is folded by on the bottom plate. The utility model discloses a cable bridge can realize that different kinds of cables lays in same cable bridge, save wiring space.

Description

Cable testing bridge

Technical field

This utility model relates to electrical equipment field, particularly to a kind of cable testing bridge.

Background technology

Along with the development of intelligent construction, same building building often exists exchange strong power system, weak electricity system, direct current strong power system and all kinds of automated system simultaneously, such as building automation system, the office automation system, Communication Automation System etc. Accordingly, it would be desirable to various types of other cable such as the communication cable simultaneously laid in exchange forceful electric power cable, direct current forceful electric power cable, light current, control cable. Various different cables need separately wiring when designing wiring.

Cable testing bridge is the carrier carrying various cables. Fig. 1 illustrates the structural representation of cable testing bridge common in prior art.

It is made up of as it is shown in figure 1, the cable testing bridge of prior art is a cable tray 10', cable tray 10' base plate 11' and the side plate 12' being respectively arranged at two ends, base plate left and right.

Adopt the cable testing bridge of above prior art as when carrying the carrier of various cables, for avoiding interfering between various cable, the cable testing bridge of the different cable of carrying is also required to arranged apart, arranges multiple cable testing bridge, therefore, usually need during all kinds of cable laying to take bigger space.

Utility model content

The purpose of this utility model is in that to provide a kind of cable testing bridge, it is therefore intended that realizes cable not of the same race and lays in same cable crane span structure, to save the space that cable laying takies.

This utility model first aspect provides a kind of cable testing bridge, including the cable tray extended along the longitudinal direction, described cable testing bridge also includes being positioned at the dividing plate within described cable tray, described dividing plate relative to described cable tray base plate around the pivot center extended along the longitudinal direction rotatably arranged with, so that described dividing plate switches between extended and collapsed positions, wherein, at described expanded position, described dividing plate is vertically arranged to separate in the lateral direction the inner space of described cable tray relative to described base plate, in described folding position, described dividing plate folds against on described base plate.

Further, described cable testing bridge also includes the more than one attachment structure being correspondingly arranged with described dividing plate, described attachment structure includes the first connecting portion and the second connecting portion, described cable tray is connected with described first connecting portion, described dividing plate is connected with described second connecting portion, described second connecting portion relative to described first connecting portion around described pivot center rotatably arranged with so that described dividing plate rotates relative to described base plate.

Further, described first connecting portion is removably attachable on described base plate; And/or, described second connecting portion is removably attachable on described dividing plate.

Further, described first connecting portion link position on described base plate is arranged in the lateral direction convertibly.

Further, described attachment structure also includes one group of connector, described first connecting portion is provided with one group of connecting hole, on described base plate, corresponding each described first connecting portion is provided with the one group of mating holes coordinated with described one group of connector, and described one group of connector coordinates to be connected described first connecting portion and described base plate with described one group of mating holes after described one group of connecting hole; Or, described attachment structure also includes one group of connector, described first connecting portion is provided with one group of connecting hole, on described base plate, corresponding each described first connecting portion is provided with and described one group of many groups that connector coordinates mating holes, and described one group of connector selectively coordinates with one group of mating holes in described many group mating holes to be connected described first connecting portion and described base plate after described one group of connecting hole.

Further, described connector is threaded connector; Described mating holes is the elongated hole that length direction extends in left-right direction.

Further, described second connecting portion of at least one described attachment structure has the first rotational limitation relative to described first connecting portion, and in described first rotational limitation, described dividing plate is in described expanded position; Or, described second connecting portion of at least one described attachment structure has the second rotational limitation relative to described first connecting portion, and in described second rotational limitation, described dividing plate is in described folding position.

Further, described first connecting portion includes base, and described second connecting portion includes screw rod, and described base has and coordinates with described screw rod and the screwed hole of central axis and described coaxial.

Further, being correspondingly arranged on multiple described attachment structure with described dividing plate, wherein, in the plurality of attachment structure, the described screw rod of at least one described attachment structure has the first rotational limitation relative to described base, in described first rotational limitation, described dividing plate is in described expanded position; Or, in the plurality of attachment structure, the described screw rod of at least one described attachment structure has the second rotational limitation relative to described base, and in described second rotational limitation, described dividing plate is in described folding position.

Further, described cable testing bridge also includes the position limiting structure for described dividing plate is limited in described expanded position.

Further, described cable testing bridge also includes the lid being covered on described cable tray top, described position limiting structure includes the bottom surface being arranged at described lid and the draw-in groove that Open Side Down, when described dividing plate is in described expanded position, and the top of described dividing plate and described card slot fit.

Further, described position limiting structure includes support bar, and when described dividing plate is in described expanded position, the first end of described support bar is connected with described dividing plate, and the second end of described support bar is connected with described cable tray.

Further, described cable testing bridge includes at least two pieces of described dividing plates that pivot center parallel interval is arranged.

Further, described attachment structure includes hinge.

Further, described dividing plate and described base plate are directly connected to.

Based on the cable testing bridge that this utility model provides, including cable tray and be arranged at the dividing plate within cable tray, dividing plate relative to cable tray base plate around the pivot center extended along the longitudinal direction rotatably arranged with, so that dividing plate switches between extended and collapsed positions, when dividing plate is in the deployed, dividing plate is vertically arranged to separate in the lateral direction the inner space of cable tray relative to base plate, such that it is able to different cables is laid in different inner spaces respectively, achieve cable not of the same race to lay in same cable crane span structure, the space that cable laying takies can be saved.

Further, dividing plate can also being switched to folding position, in folding position, dividing plate folds against on base plate, such that it is able to by the position selecting dividing plate, change the interior spatial structure of cable testing bridge flexibly, make cable testing bridge of the present utility model go for different cable laying situations.

It addition, because cable not of the same race can be installed in same cable testing bridge, the quantity of cable testing bridge reduces, it is possible to reduce the construction volume of cable laying, it is also possible to that saves steel makes consumption thus saving construction cost.

By referring to the accompanying drawing detailed description to exemplary embodiment of the present utility model, further feature of the present utility model and advantage thereof will be made apparent from.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by of the present utility model, constitutes the part of the application, and schematic description and description of the present utility model is used for explaining this utility model, is not intended that improper restriction of the present utility model. In the accompanying drawings:

Fig. 1 is the structural representation of the cable testing bridge of prior art.

Fig. 2 is the decomposition texture schematic diagram of the cable testing bridge of this utility model specific embodiment.

Fig. 3 is the structural representation that the cable testing bridge median septum shown in Fig. 2 is in the deployed.

Fig. 4 is the structural representation that the cable testing bridge median septum shown in Fig. 2 is in folding position.

Fig. 5 be the cable testing bridge shown in Fig. 2 attachment structure in the perspective structure schematic diagram of base.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments. Description only actually at least one exemplary embodiment is illustrative below, never as any restriction to this utility model and application or use. Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Unless specifically stated otherwise, the parts otherwise set forth in these embodiments and positioned opposite, the numerical expression of step and numerical value are not intended to scope of the present utility model. Simultaneously, it should be appreciated that for the ease of describing, the size of the various piece shown in accompanying drawing is not draw according to actual proportionate relationship. The known technology of person of ordinary skill in the relevant, method and apparatus are likely to be not discussed in detail, but in the appropriate case, described technology, method and apparatus should be considered to authorize a part for description. Shown here with in all examples discussed, any occurrence should be construed as merely exemplary, not as restriction. Therefore, other example of exemplary embodiment can have different values. It should also be noted that similar label and letter below figure represent similar terms, therefore, once a certain Xiang Yi accompanying drawing is defined, then it need not be further discussed in accompanying drawing subsequently.

For the ease of describing, here can use space relative terms, as " ... on ", " in ... top ", " at ... upper surface ", " above " etc., be used for describing the spatial relation of a device or feature and other devices or feature as shown in the figure. It should be appreciated that space relative terms is intended to the different azimuth in use or operation comprised except the orientation that device is described in the drawings. Such as, " in other devices or structure lower section " or " under other devices or structure " will be positioned as after if the device in accompanying drawing is squeezed, being then described as the device of " above other devices or structure " or " on other devices or structure ". Thus, exemplary term " in ... top " can include " in ... top " and " in ... lower section " two kinds of orientation. This device can also other different modes location (90-degree rotation or be in other orientation), and space used herein above described relatively make respective explanations.

In the following description, alleged " front " and " afterwards " refers to the two ends in the direction that cable extends, and specifically, " front " refers to the left side in Fig. 2 to Fig. 4; " afterwards " refers to the side relative with " front ", i.e. right side in Fig. 2 to Fig. 4; " left side " and " right side " refers to the left and right directions formed when front, the front side in " left side " i.e. Fig. 2 to Fig. 4, the rear side in " right side " i.e. Fig. 2 to Fig. 4.

Fig. 2 to Fig. 5 illustrates the concrete structure of this utility model embodiment. As shown in Figures 2 to 4, the cable testing bridge 100 of this embodiment mainly includes cable tray 110 and dividing plate 120.

Cable tray 110 is the bathtub construction extended along the longitudinal direction. Cable tray 110 includes base plate 111 and is arranged at two blocks of side plates 112 at base plate 111 two ends. The bottom of two blocks of side plates 112 is connected with the two ends, left and right of base plate 111 respectively. Cable tray 110 is generally by plate compression moulding.

Dividing plate 120 is arranged at the inside of cable tray 110. Dividing plate 120 relative to the base plate 111 of cable tray 110 around the pivot center extended along the longitudinal direction rotatably arranged with so that dividing plate 120 switches between extended and collapsed positions. As it is shown on figure 3, at expanded position, dividing plate 120 is vertically arranged relative to base plate 111 thus separating the inner space of cable tray 110 in the lateral direction. As shown in Figure 4, in folding position, dividing plate 120 folds against on base plate 111.

Owing to this cable testing bridge 100 includes cable tray 110 and is arranged at the dividing plate 120 within cable tray 110, dividing plate 120 relative to the base plate 111 of cable tray 110 around the pivot center extended along the longitudinal direction rotatably arranged with so that dividing plate 120 switches between extended and collapsed positions, when dividing plate is in the deployed, dividing plate 120 is vertically arranged thus separating the inner space of cable tray 110 in the lateral direction relative to base plate 111, thus, can different cables be laid in different inner spaces respectively, realize cable not of the same race to lay in same cable crane span structure, the space that cable laying takies can be saved.

Further, dividing plate 120 can also be switched to folding position, fold against on base plate 111 at folding position dividing plate 120, such that it is able to select the position of dividing plate to change the interior spatial structure of cable testing bridge flexibly, make cable testing bridge of the present utility model go for different cable laying situations.

It addition, because the quantity of cable testing bridge reduces, it is possible to reduce the construction volume of cable laying, it is also possible to that saves steel makes consumption thus saving construction cost.

Dividing plate 120 can be directly connected to base plate 111, and so arranging can by few design of part. Dividing plate 120 can also be connected by attachment structure with base plate 111.

As shown in Figures 2 to 4, the cable testing bridge 100 of the present embodiment also includes the more than one attachment structure 130 that is correspondingly arranged with dividing plate 120. Attachment structure 130 includes the first connecting portion and the second connecting portion. Cable tray 110 is connected with the first connecting portion. Dividing plate 120 is connected with the second connecting portion. First connecting portion relative to the first connecting portion around pivot center rotatably arranged with so that dividing plate 120 rotates relative to base plate 111.

The dividing plate 120 rotation relative to base plate 111 is realized, it is possible to the design of existing cable tray is not changed or only does less change by attachment structure 130. Such as, if the first connecting portion is fixedly connected on cable tray by welding manner, cable tray can not make any change, if adopt threaded connector to be fixedly connected on cable tray by the first connecting portion, only the mating holes needing quantity or form need to be set on the basis of original cable tray.

As shown in Figures 2 to 5, in the present embodiment, the first connecting portion of attachment structure 130 includes connecting seat 131, and the second connecting portion includes screw rod 132, connects seat 131 and has the screwed hole 1311 of central axis and the coaxial coordinated with screw rod 132. Dividing plate 120 realizes the switching of its position by screw rod 132 and being rotatably assorted of screwed hole 1311. This attachment structure 130 is processed and installs all more convenient.

Connected mode about attachment structure 130 with base plate 111, it is preferred that attachment structure 130 is removably connected with base plate 111. Such as, attachment structure 130 can include one group of connector, first connecting portion is provided with one group of connecting hole, on base plate 111, corresponding each first connecting portion is provided with the one group of mating holes coordinated with one group of connector, and one group of connector coordinates with one group of mating holes to be connected the first connecting portion and base plate 111 after one group of connecting hole. Wherein connector can be fit structure or the pin etc. of screw, screw rod and nut. Connecting hole and mating holes are arranged corresponding to connector.

In the present embodiment, if Fig. 2 is to shown in 5, the first connecting portion is correspondingly provided with one group of mating holes, and wherein connector is screw 133, the screwed hole 1312 that connecting hole coordinates with screw 133, and mating holes is the screwed hole 1111 coordinated with screw 133.

About the connected mode of attachment structure 130 with base plate 111, it is further preferably that first connecting portion link position on base plate 111 is arranged in the lateral direction convertibly. In this embodiment, it is possible to according to the size needed for different inner spaces, the position of dividing plate 120 is adjusted, so that the adaptability of cable testing bridge 100 is higher.

Such as, in a not shown embodiment, first connecting portion link position on base plate 111 can be made in the following manner to arrange convertibly in the lateral direction, attachment structure 130 also includes one group of connector, first connecting portion is provided with one group of connecting hole, on base plate 111, corresponding each first connecting portion is provided with and one group of many groups that connector coordinates mating holes, and one group of connector selectively coordinates with one group of mating holes in many group mating holes to be connected the first connecting portion and base plate 111 after one group of connecting hole.

In order to make first connecting portion link position on base plate 111 arrange convertibly in the lateral direction, and make the link position of the first connecting portion realize regulating more subtly, in another unshowned embodiment preferably, attachment structure 130 also includes one group of threaded connector, first connecting portion is provided with one group of connecting hole, corresponding each one or more groups mating holes being provided with one group of connector cooperation on base plate 111, one group of threaded connector coordinates with this group of mating holes or selectively coordinates with one group of mating holes in many group mating holes to be connected the first connecting portion and base plate 111 wherein after one group of connecting hole, mating holes is the elongated hole that length direction extends in left-right direction. the link position of dividing plate 120 can be changed by making base 131 move along elongated hole and/or change different elongated holes.

Certainly, the second connecting portion and dividing plate 120 are alternatively detachably connected.

Additionally preferably, the second connecting portion of at least one attachment structure 130 has the first rotational limitation relative to the first connecting portion, and in the first rotational limitation, dividing plate 120 is in the deployed; Or, the second connecting portion of at least one attachment structure 130 has the second rotational limitation relative to the first connecting portion, and in the second rotational limitation, dividing plate 120 is in folding position.This arranges and dividing plate can be made quick and precisely to find target location when carrying out position switching, works without position adjustments, such that it is able to save the working time.

In the present embodiment specifically, two attachment structures 130 it are correspondingly arranged on dividing plate 120. In two attachment structures 130, the screw rod 132 of an attachment structure 130 has the first rotational limitation relative to the first connecting portion, and in the first rotational limitation, dividing plate 120 is in the deployed; In two attachment structures 130, the screw rod 132 of another attachment structure 130 has the second rotational limitation relative to the first connecting portion, and in the second rotational limitation, dividing plate 120 is in folding position.

As shown in Figures 2 to 5, the set-up mode that in the present embodiment, two attachment structures 130 are concrete is as follows:

The bottom that the rear and front end of dividing plate 120 is connected with base plate 111 is fixing with the screw rod 132 of two attachment structures 130 respectively to be connected. Screwed hole 1311 on base 131 is connected with the screw rod 132 on dividing plate 120, and the degree of depth of screwed hole 1311 is more than or equal to the length of corresponding screw rod 132. Wherein, two screw rod 132 structures are identical. Specifically, two screw rods 132 can have the single flighted screw of same diameter, identical pitch, identical rotation direction (being such as dextrorotation). Two screw rod 132 reversed arrangement, two corresponding bases 120 are positioned opposite, so that when a screw rod 132 unscrews, another screw rod 132 screws accordingly. Wherein it is positioned at 1/4 pitch of length length that the length ratio of the screw rod of dividing plate 120 front end is positioned at the screw rod of dividing plate 120 rear end, so that the screw rod 132 of dividing plate 120 rear and front end all screws with the screwed hole 1311 of each self-corresponding base 131 when coordinating, the bottom surface of two bases 131 can differ 90 °.

During installation, first the screw rod 132 of dividing plate 120 rear and front end is screwed with the screwed hole 1311 on corresponding base 131, again screw rod 132 longer for front end is reversely circled round 90 °, at this moment the same side, bottom surface of two bases 131 can be at grade, the overall structure again this dividing plate 120 and two bases 131 worked good is connected on the base plate 111 of cable tray 110 by 133 bases 131 of screw, just can be in expanded position as shown in Figure 3 by dividing plate 120.

Under the duty of the cable testing bridge 100 shown in Fig. 3, dividing plate 120 is switched to expanded position, vertically getting up relative to base plate 111, the inner space of cable tray 110 is divided into left and right two parts by dividing plate, and cable testing bridge 100 is applicable to install two kinds of cable simultaneously. Now for unscrewing state in the bolt 132 of front end, the bolt of rear end is tightening state.

When only a kind of type cable, rotating barrier 120, make folding position as shown in Figure 4, dividing plate 120 place. Now dividing plate 120 is switched to folding position, and cable testing bridge 100 is little with the cable testing bridge difference of non-inductive windings in prior art. Now, the bolt 132 of front end is for unscrewing state, and the bolt of rear end is tightening state.

In cable testing bridge 100 of the present utility model, attachment structure 130 is not limited to the form of the embodiment shown in Fig. 2 to Fig. 5, for instance, attachment structure 130 can also be various forms of hinge.

In above example, after the inner space of cable tray 110 is separated by dividing plate 120, different types of cable can be laid, after cable additionally arranges, dividing plate 120 can be formed extruding by the cable of dividing plate 120 both sides, thus dividing plate 120 substantially can be made naturally to be held in expanded position.

It is highly preferred that cable testing bridge 100 could be included for being limited in dividing plate 120 position limiting structure of expanded position in not shown embodiment.Arranging of position limiting structure can make dividing plate 120 sound construction when expanded position, it is prevented that the adverse effect that cable is likely to result in by dividing plate 120.

Such as, when cable testing bridge 100 also includes the lid being covered on cable tray 110 top, position limiting structure can include the bottom surface being arranged at lid and the draw-in groove that Open Side Down, when dividing plate 120 is in the deployed, and the top of dividing plate 120 and card slot fit.

Again such as, position limiting structure can include support bar, and when dividing plate 120 is in the deployed, the first end of support bar is connected with dividing plate 120, and the second end of support bar is connected with cable tray 110. Preferably, the one end in the first end of support bar and the second end can be articulated with corresponding link position, when dividing plate 120 is carried out spacing by needs support bar, only the other end of support bar need to be connected to corresponding link position.

Additionally, cable testing bridge can also include the polylith dividing plate that pivot center parallel interval is arranged, so, the inside of cable tray just can be separated into more space or put the position of the actual demand each dividing plate of selection according to cable laying, so that the space of cable testing bridge arranges more various, flexible. Such as, when laying three kinds of cables in same cable testing bridge, it is possible to install the dividing plate that two pieces of pivot center parallel interval are arranged in cable tray additional. And when installing two pieces of dividing plates in cable tray additional, it is possible to by selecting the position of two pieces of dividing plates to make the inner space of cable tray be one, two or three.

The material of dividing plate 120 can choose to reach the effect of isolation according to actual cable kind, to realize the purpose that different cable uses same cable crane span structure 100 to connect up.

From the above description, it can be seen that the cable testing bridge of this utility model embodiment at least one of has the following advantages:

Different types of cable can be realized lay in same cable crane span structure, save wiring space.

The interior spatial structure selecting the position of dividing plate to change cable testing bridge flexibly can be passed through, make cable testing bridge be applicable to different cable laying situations.

Can reducing the construction volume of cable laying, that saves steel makes consumption thus saving construction cost.

Finally should be noted that: above example is only in order to illustrate that the technical solution of the utility model is not intended to limit; Although this utility model being described in detail with reference to preferred embodiment, those of ordinary skill in the field are it is understood that still can modify to detailed description of the invention of the present utility model or portion of techniques feature carries out equivalent replacement; Without deviating from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope that this utility model is claimed.

Claims (15)

1. a cable testing bridge (100), including the cable tray (110) extended along the longitudinal direction, it is characterized in that, described cable testing bridge (100) also includes being positioned at the dividing plate (120) that described cable tray (110) is internal, described dividing plate (120) relative to described cable tray (110) base plate (111) around the pivot center extended along the longitudinal direction rotatably arranged with, so that described dividing plate (120) switches between extended and collapsed positions, wherein, at described expanded position, described dividing plate (120) is vertically arranged to separate in the lateral direction the inner space of described cable tray (110) relative to described base plate (111), in described folding position, described dividing plate (120) folds against on described base plate (111).

2. cable testing bridge according to claim 1 (100), it is characterized in that, described cable testing bridge (100) also includes the more than one attachment structure (130) being correspondingly arranged with described dividing plate (120), described attachment structure (130) includes the first connecting portion and the second connecting portion, described cable tray (110) is connected with described first connecting portion, described dividing plate (120) is connected with described second connecting portion, described second connecting portion relative to described first connecting portion around described pivot center rotatably arranged with so that described dividing plate (120) relative to described base plate (111) rotate.

3. cable testing bridge according to claim 2 (100), it is characterised in that described first connecting portion is removably attachable on described base plate (111); And/or, described second connecting portion is removably attachable on described dividing plate (120).

4. cable testing bridge according to claim 3 (100), it is characterised in that described first connecting portion link position on described base plate (111) is arranged in the lateral direction convertibly.

5. cable testing bridge according to claim 3 (100), it is characterized in that, described attachment structure (130) also includes one group of connector, described first connecting portion is provided with one group of connecting hole, upper corresponding each described first connecting portion of described base plate (111) is provided with the one group of mating holes (1111) coordinated with described one group of connector, and described one group of connector coordinates to be connected described first connecting portion and described base plate (111) with described one group of mating holes (1111) after described one group of connecting hole; Or, described attachment structure (130) also includes one group of connector, described first connecting portion is provided with one group of connecting hole, upper corresponding each described first connecting portion of described base plate (111) is provided with and described one group of many groups that connector coordinates mating holes, and described one group of connector selectively coordinates with one group of mating holes in described many group mating holes to be connected described first connecting portion and described base plate (111) after described one group of connecting hole.

6. cable testing bridge according to claim 5 (100), it is characterised in that described connector is threaded connector; Described mating holes is the elongated hole that length direction extends in left-right direction.

7. cable testing bridge according to claim 2 (100), it is characterised in that

Described second connecting portion of at least one described attachment structure (130) has the first rotational limitation relative to described first connecting portion, and in described first rotational limitation, described dividing plate (120) is in described expanded position; Or,

Described second connecting portion of at least one described attachment structure (130) has the second rotational limitation relative to described first connecting portion, and in described second rotational limitation, described dividing plate (120) is in described folding position.

8. cable testing bridge according to claim 2 (100), it is characterized in that, described first connecting portion includes base (131), described second connecting portion includes screw rod (132), and described base (131) has and coordinates with described screw rod (132) and the screwed hole (1311) of central axis and described coaxial.

9. cable testing bridge according to claim 8 (100), it is characterised in that be correspondingly arranged on multiple described attachment structure (130) with described dividing plate (120), wherein,

In the plurality of attachment structure (130), the described screw rod (132) of at least one described attachment structure (130) has the first rotational limitation relative to described base (131), in described first rotational limitation, described dividing plate (120) is in described expanded position;Or,

In the plurality of attachment structure (130), the described screw rod (132) of at least one described attachment structure (130) has the second rotational limitation relative to described base (131), in described second rotational limitation, described dividing plate (120) is in described folding position.

10. cable testing bridge according to any one of claim 1 to 9 (100), it is characterised in that described cable testing bridge also includes the position limiting structure for described dividing plate (120) is limited in described expanded position.

11. cable testing bridge according to claim 10 (100), it is characterized in that, described cable testing bridge (100) also includes the lid being covered on described cable tray (110) top, described position limiting structure includes the bottom surface being arranged at described lid and the draw-in groove that Open Side Down, when described dividing plate (120) is in described expanded position, the top of described dividing plate (120) and described card slot fit.

12. cable testing bridge according to claim 10 (100), it is characterized in that, described position limiting structure includes support bar, when described dividing plate (120) is in described expanded position, first end of described support bar is connected with described dividing plate (120), and the second end of described support bar is connected with described cable tray (110).

13. cable testing bridge according to any one of claim 1 to 9 (100), it is characterised in that described cable testing bridge (100) includes at least two pieces of described dividing plates (120) that pivot center parallel interval is arranged.

14. the cable testing bridge (100) according to any one of claim 2 to 7, it is characterised in that described attachment structure (130) includes hinge.

15. cable testing bridge according to claim 1 (100), it is characterised in that described dividing plate (120) and described base plate are directly connected to.