CN207638267U - A kind of energy-saving high-strength cable bridge - Google Patents

Abstract

The utility model discloses a kind of energy-saving high-strength cable bridges, including peripheral element, are set to the both sides of the energy-saving high-strength cable bridge, including the first peripheral rod and the second peripheral rod, and first peripheral rod and the second peripheral rod are disposed in parallel relation to one another；Sliding part is set to the inside of the peripheral element, and the peripheral element is stretched out in one end；And inner supporting member, it is set between first peripheral rod and the second peripheral rod, and the setting that crosses one another, the inner supporting member are attached by the sliding part and the peripheral element.The utility model between the first peripheral rod and the second peripheral rod by being arranged the inner supporting member that can be slided, and inner supporting member crosses one another and is hinged so that there is inner supporting member certain Telescopic, never indirect control the spacing between peripheral element.This geometrically unstable system has certain deformation space, is adapted to the energy-saving high-strength cable bridge of lateral pressure caused by cable itself.

Description

A kind of energy-saving high-strength cable bridge

Technical field

The utility model is related to a kind of electrical equipment power supply and distribution protection technique field, especially one kind being adapted to cable certainly The energy-saving high-strength cable bridge of lateral pressure caused by body.

Background technology

With the development of intelligent construction, exchange strong power system, weak electricity system, straight is often existed simultaneously in same building building Flow strong power system and all kinds of automated systems, such as building automation system, the office automation system, Communication Automation System. It is various types of therefore, it is necessary to lay the communication cable in exchange forceful electric power cable, direct current forceful electric power cable, light current, control cable etc. simultaneously Other cable.A variety of different cables need separately to connect up in designing wiring, are accordingly used in the cable testing bridge of arrangement cable Gradually used on a large scale.

Cable testing bridge apply in general to large enterprise, heavy construction power transformation, erecting cable, large bridge, subway cable It is laid with and the places such as marine drilling.Existing cable testing bridge is made of bulk metal frame mostly, so not only so that whole knot Structure is heavy and involves great expense and is unfavorable for transporting, assembles and disassembles and be widely used.

Enterprise using multiple cable testing bridges come when carrying cable, the visual pollution as caused by these cables in order to prevent, And also for the safety for ensuring these cables, preferably each cable testing bridge is used to set using the industry of high-tech system Impose and such as shopping center as in commercial center.By being used as these cable testing bridges of mounting assembly, a large amount of cables Laying becomes convenient, and it is ensured that these cables safety, while also eliminating the visual pollution of cable.

Cable testing bridge is divided into the structures such as slot type, pellet type and ladder-type, grid type, by holder, trailing arm and installation attachment etc. Composition.Crane span structure can independently be set up in building, can also be attached on various buildings or structures and piping lane holder, and knot should be embodied Structure is simple, it is handsome in appearance, configuration it is flexible and easy to maintenance the features such as, whole parts be both needed to carry out zinc-plated processing, be mounted on building The outdoor crane span structure of beyond the region of objective existence.

After general cable laying is in cable testing bridge, since its own is with larger gravity, to the both sides of crane span structure Similarly there are lateral pressures causes side plate to generate certain deformation since the side plate of cable testing bridge and bottom are to be fixedly connected.

Utility model content

The purpose of this part is to summarize some aspects of the embodiments of the present invention and briefly introduces some preferably Embodiment.It may do a little simplified or be omitted to keep away in this part and the description of the present application abstract and utility model title The purpose for exempting to make this part, abstract of description and utility model title is fuzzy, and this simplification or omission cannot be used for limitation originally The range of utility model.

The problem of in view of above-mentioned and/or existing cable testing bridge, it is proposed that the utility model.

Therefore, the one of purpose of the utility model is to provide a kind of energy-saving high-strength cable bridge, has one Fixed deformation space, can the adaptive generated lateral pressure of cable itself.

In order to solve the above technical problems, the utility model provides the following technical solutions：A kind of energy-saving high-strength cable bridge Frame comprising peripheral element is set to the both sides of the energy-saving high-strength cable bridge, including the first peripheral rod and the second periphery Bar, first peripheral rod and the second peripheral rod are disposed in parallel relation to one another；Sliding part is set to the inside of the peripheral element, and one The peripheral element is stretched out at end；And inner supporting member, it is set between first peripheral rod and the second peripheral rod, and cross one another and set It sets, the inner supporting member is attached by the sliding part and the peripheral element.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：Outside described first Sliding slot is both provided on the inside of railing and the second peripheral rod, the sliding slot includes inner slide and external tapping.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：The sliding part Including fastener and external piece, the fastener is set in the inner slide of the sliding slot, and the external piece passes through the external tapping It stretches out outside the sliding slot.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：The sliding part External piece there is two panels, centre to be provided with gap, and run through hole in correspondence with each other.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：The inner supporting member End be matched with the hole of the sliding part and be also equipped with perforation, and the end of the inner supporting member by described hole with it is described Sliding part is hinged.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：It is all described interior Support member carries out interconnection, and junction is the centre position of the inner supporting member, and the connection type of all inner supporting members It is hinged.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：Outside described first The inside of railing and the second peripheral rod middle position is a pair of fixing piece to correspond to each other, and also has hole in the fixing piece Hole.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：The fixing piece Lower part correspond to the position of the peripheral element and be provided with regulating part, the ground of the regulating part is corresponded in second peripheral rod Side is provided with screw hole；One end of the regulating part is fixed with first peripheral rod, and the other end passes through the screw hole and institute The second peripheral rod is stated to be attached.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：Outside described first Two ends of railing and the second peripheral rod are both provided with shield extremity piece, and the position of the shield extremity piece is corresponded in second peripheral rod It installs and is equipped with perforation；One end of the shield extremity piece is fixed with first peripheral rod, and the other end passes through the perforation and leads to Positioning pin is crossed to be locked.

As a kind of preferred embodiment of energy-saving high-strength cable bridge described in the utility model, wherein：Outside described first Finite place piece is arranged in sliding part both sides one of on railing.

The beneficial effects of the utility model：The utility model can by being arranged between the first peripheral rod and the second peripheral rod With the inner supporting member slided, and inner supporting member crosses one another and is hinged so that inner supporting member has certain Telescopic, never indirectly Control the spacing between peripheral element.This geometrically unstable system has certain deformation space, is adapted to cable itself and is produced The energy-saving high-strength cable bridge of raw lateral pressure.

Description of the drawings

It is required in being described below to embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the utility model Example, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these attached drawings Obtain other attached drawings.Wherein：

Fig. 1 is the floor map described in the energy-saving high-strength cable bridge one embodiment of the utility model.

Fig. 2 is the structural schematic diagram described in the utility model second embodiment of energy-saving high-strength cable bridge.

Fig. 3 is the sliding slot diagrammatic cross-section described in the utility model second embodiment of energy-saving high-strength cable bridge.

Fig. 4 is the slider structure signal described in the utility model second embodiment of energy-saving high-strength cable bridge Figure.

Fig. 5 is the sliding part installation signal described in the utility model second embodiment of energy-saving high-strength cable bridge Figure.

Fig. 6 is the fixing piece branch signal described in the energy-saving high-strength cable bridge third embodiment of the utility model Figure.

Fig. 7 be the 4th embodiment of the energy-saving high-strength cable bridge of the utility model described in overall structure diagram and Protect end member construction detail drawing.

Fig. 8 is the inner supporting member elongation signal described in the 4th embodiment of the energy-saving high-strength cable bridge of the utility model Figure.

Fig. 9 is that the inner supporting member described in the 4th embodiment of the energy-saving high-strength cable bridge of the utility model shrinks signal Figure.

Specific implementation mode

It is attached with reference to specification to keep the above objects, features, and advantages of the utility model more obvious and easy to understand Figure is described in detail specific embodiment of the present utility model.

Many details are elaborated in the following description in order to fully understand the utility model, but this practicality is new Type can also be implemented using other different from other manner described here, and those skilled in the art can be without prejudice to this reality With doing similar popularization in the case of novel intension, therefore the utility model is not limited by following public specific embodiment.

Secondly, " one embodiment " or " embodiment " referred to herein refers to that may be included at least one reality of the utility model A particular feature, structure, or characteristic in existing mode." in one embodiment " that different places occur in the present specification is not The same embodiment is referred both to, nor the individual or selective embodiment mutually exclusive with other embodiment.

Referring to Fig.1, it is the utility model one embodiment, provides a kind of plane of energy-saving high-strength cable bridge Schematic diagram.As seen from the figure, the agent structure of the utility model includes peripheral element 100, is set to the energy-saving high-strength cable The both sides of crane span structure, including the first peripheral rod 101 and the second peripheral rod 102, first peripheral rod, 101 and second peripheral rod 102 It is disposed in parallel relation to one another；Sliding part 200 is set to the inside of the peripheral element 100, and the peripheral element 100 is stretched out in one end；Inner support Part 300 is set between first peripheral rod, 101 and second peripheral rod 102, and the setting that crosses one another, the inner supporting member 300 It is attached by the sliding part 200 and the peripheral element 100.

Specifically, as shown in Figure 1, the utility model includes peripheral element 100.Peripheral element 100 is in section described in the utility model There can be general side wall in type high-strength cable bridge, when cable is positioned on the agent structure of the utility model, Peripheral element 100 can undertake a part of pressure, and continue defined position to cable in side.Meanwhile in the present invention, Peripheral element 100 also becomes the slideway of sliding part 200, has the function of sliding rail.The external overall structure of peripheral element 100 is length Strip, and it is set to the two sides of the energy-saving high-strength cable bridge.Peripheral element 100 includes two sseparated parts, point Not Wei the first peripheral rod 101 and the second peripheral rod 102, the first peripheral rod 101 and the second peripheral rod 102 are disposed in parallel relation to one another.And The two is respectively arranged at the both sides of the utility model agent structure.

The utility model agent structure also includes sliding part 200.Sliding part 200 has in the present invention drives inner support Part 300 slides and generates displacement so that the changed effect of spacing between the first peripheral rod 101 and the second peripheral rod 102. Wherein one end of sliding part 200 is arranged in the inside of peripheral element 100, and the other end stretches out peripheral element 100, with inner supporting member 300 into Row connection.Referring to Fig.1 it is found that the first peripheral rod 101 and 102 inside of the second peripheral rod are both provided with sliding part 200, and it is equidistant right Claim setting.

The utility model agent structure also includes inner supporting member 300.Inner supporting member 300 has the work of linkage in the present invention With being provided with multiple, be arranged between the first peripheral rod 101 and the second peripheral rod 102.One group of 300 each two of inner supporting member Interconnection is carried out, and each comfortable end is attached by sliding part 200 and peripheral element 100.Herein, straight with sliding part 200 All connection types connect in succession are hinged.Therefore, inner supporting member 300 is geometrically unstable system in the present invention, It can be deformed under outer force effect.Specifically, after peripheral element 100 is by Inner extrusion, the first peripheral rod 101 and second The distance between peripheral rod 102 will will increase.After 300 tension of inner supporting member being indirectly connected with peripheral element 100, every group of rod piece Between angle change, and sliding part 200 is pulled to be slided in peripheral element 100, so far, the whole body of inner supporting member 300 The longitudinal length of system is gradually shortened.

It is second embodiment of the utility model with reference to Fig. 2~5, which is different from one embodiment： It includes inner slide H-1 and external that the inside of first peripheral rod 101 and the second peripheral rod 102, which is both provided with sliding slot H, the sliding slot H, Mouth H-2.The sliding part 200 includes fastener 201 and external piece 202, and the fastener 201 is set to the inner slide of the sliding slot H In H-1, and the external piece 202 is stretched out by the external tapping H-2 outside the sliding slot H.

As shown in Fig. 2, the utility model agent structure mainly includes three component parts, respectively peripheral element 100, cunning Moving part 200 and inner supporting member 300.Wherein, the external overall structure of peripheral element 100 is strip, and is set to the energy-saving height The two sides of strength cable crane span structure.Peripheral element 100 includes two sseparated parts, outside respectively the first peripheral rod 101 and second Railing 102, the first peripheral rod 101 and the second peripheral rod 102 are disposed in parallel relation to one another.And the two is respectively arranged at the utility model master The both sides of body structure.Sliding part 200 is peripherally distributed the inner side of part 100, and wherein one end of sliding part 200 is arranged in periphery The inside of part 100, and the other end stretches out peripheral element 100, is attached with inner supporting member 300.First peripheral rod 101 and the second periphery 102 inside of bar is both provided with sliding part 200, and equidistant arranged symmetrically.In the present invention, inner supporting member 300 is provided with multiple, It is arranged between the first peripheral rod 101 and the second peripheral rod 102.300 each two of inner supporting member, one group of carry out interconnection, and it is each Comfortable end is attached by sliding part 200 and peripheral element 100.Herein, all connection sides being directly connected to sliding part 200 Formula is hinged.Therefore, inner supporting member 300 is in the present invention geometrically unstable system, can be generated under external force Deformation.Specifically, after peripheral element 100 is by Inner extrusion, between the first peripheral rod 101 and the second peripheral rod 102 away from From will will increase.After 300 tension of inner supporting member being indirectly connected with peripheral element 100, the angle between every group of rod piece becomes Change, and sliding part 200 is pulled to be slided in peripheral element 100, so far, the longitudinal length of 300 integral system of inner supporting member is gradual Shorten.

The first peripheral rod 101 is identical, parallel to each other and right with the overall structure of the second peripheral rod 102 in the utility model Claim setting.The inside of first peripheral rod 101 and the second peripheral rod 102 is both provided with sliding slot H, and sliding slot penetrates through the master of peripheral element 100 Body portion, but be arranged in two ends of peripheral element 100 and block.As shown in figure 3, the interior spatial structure of sliding slot H is characterized as： It is interior big outer small, it is corresponding with the structure of sliding part 200.Further, sliding slot H includes inner slide H-1 and external tapping H-2, In, inner slide H-1 is the slideway of rectangular cross-section, " C " the shape structure curved by peripheral element 100 and the inner passage formed. The set-up mode of external tapping H-2 is similar to inner slide H-1, and still, the sectional dimension of external tapping H-2 is less than inner slide H-1, and with Inner slide H-1 forms connection.

Further, sliding part 200 includes fastener 201 and external piece 202.As shown in figure 4, fastener 201 is prism-shaped, The rectangular dimension of side is slightly less than the inner wall size of inner slide H-1.The effect of fastener 201 is mainly formed in slideway H-1 and is slided It is dynamic.One end of external piece 202 is fixedly connected with fastener 201, and the other end freely extends outward.Further, fastener 201 is set It sets in slideway H-1, therefore, the connection of peripheral element 100 and sliding part 200 is mainly reflected in the company of inner slide H-1 and fastener 201 It connects and coordinates.When fastener 201 is set in the inner slide H-1 of the sliding slot H, the external piece 202 of the other end passes through outside described Interface H-2 stretches out outside the sliding slot H.

Further, there are two lamellas for the tool of external piece 202 of sliding part 200, there is a certain distance, this reality each other With the double thickness value of inner supporting member 300 can be taken in novel (frictional force is considered in practice, this spacing can be arranged bigger A bit).Run through hole K in two lamellas of external piece 202 in correspondence with each other.Hole K is circle, for being carried out with inner supporting member 300 Connection.Further, the end of inner supporting member 300 is matched with the hole K of sliding part 200 and is also equipped with perforation, and inner supporting member 300 End is hinged by hole K and sliding part 200.

In the present invention, all inner supporting members 300 carry out interconnection, and junction is the centre of inner supporting member 300 Position.The inner supporting member 300 that each two crosses one another is one group, is contacted again by sliding part 200 between group and group, and limited It is scheduled between peripheral element 100.In the utility model, the connection type of all inner supporting members 300 is hinged.

With reference to the third embodiment that Fig. 6 is the utility model, which is different from second embodiment：First The fixing piece 400 that the inside of 102 middle position of peripheral rod 101 and the second peripheral rod corresponds to each other for a pair, and the fixation Also there is hole K in part 400.

In the present invention, due to the hinged position therebetween between all inner supporting members 300, by simple geometry Relationship is easy to obtain：All sliding parts 200 that inner supporting member 300 is connected are in the first peripheral rod 101 and the second peripheral rod It is mutually faced between 102, and is arranged symmetrically.Meanwhile all sliding part 200 in both sides is equally spaced.

But it should be noted in the present embodiment：102 middle position of first peripheral rod 101 and the second peripheral rod it is interior Set by side is not sliding part 200, but fixing piece 400.Specifically, different from sliding part 200, fixing piece 400 is solid Be scheduled on the inside of peripheral element 100, can not slide (but the sliding part 200 at its both ends can be free to slide, and when sliding to Both sides each extend over or shrink, symmetrical about intermediate fixing piece 400).The structure of fixing piece 400 can be sliding part 200 Exterior portion, it is identical as sliding part 200, also there is hole K on fixing piece 400, be equally used for the end of hinged inner supporting member 300.

It is the 4th embodiment of the utility model with reference to Fig. 7~9, which is different from third embodiment： The position that the lower part of fixing piece 400 corresponds to peripheral element 100 is provided with regulating part 500, corresponds in the second peripheral rod 102 and adjusts The place of part 500 is provided with screw hole L；One end of regulating part 500 is fixed with the first peripheral rod 101, and the other end passes through screw hole L It is attached with the second peripheral rod 102.

The utility model agent structure mainly includes three component parts, respectively peripheral element 100,200 and of sliding part Inner supporting member 300.Wherein, the external overall structure of peripheral element 100 is strip, and is set to the energy-saving high-strength cable bridge The two sides of frame.Peripheral element 100 includes two sseparated parts, respectively the first peripheral rod 101 and the second peripheral rod 102, the One peripheral rod 101 and the second peripheral rod 102 are disposed in parallel relation to one another.And the two is respectively arranged at the two of the utility model agent structure Side.Sliding part 200 is peripherally distributed the inner side of part 100, and wherein one end of sliding part 200 is arranged in peripheral element 100 Portion, and the other end stretches out peripheral element 100, is attached with inner supporting member 300.102 inside of first peripheral rod 101 and the second peripheral rod It is both provided with sliding part 200, and equidistant arranged symmetrically.In the present invention, inner supporting member 300 is provided with multiple, is arranged in Between first peripheral rod 101 and the second peripheral rod 102.300 each two of inner supporting member, one group of carry out interconnection, and each comfortable end It is attached by sliding part 200 and peripheral element 100.Herein, all connection types being directly connected to sliding part 200 are hinge It connects.Therefore, inner supporting member 300 is in the present invention geometrically unstable system, can be deformed under external force.Specifically , after peripheral element 100 is by Inner extrusion, the distance between the first peripheral rod 101 and the second peripheral rod 102 will increase Greatly.After 300 tension of inner supporting member being indirectly connected with peripheral element 100, the angle between every group of rod piece changes, and pulls Sliding part 200 is slided in peripheral element 100, and so far, the longitudinal length of 300 integral system of inner supporting member is gradually shortened.

In the present invention, it is set immediately below respective fixing piece 400 in the first peripheral rod 101 and the second peripheral rod 102 Regulating part 500 there are one setting.Regulating part 500 has in the present invention adjusts the first peripheral rod 101 and the second peripheral rod 102 Between spacing effect.In the present embodiment, regulating part 500 is a bolt with threaded one end.Further, outside second Place on railing 102 corresponding to regulating part 500 is provided with screw hole L, this screw hole L works in coordination with the screw thread on regulating part 500. Further, one end of regulating part 500 is fixed with the first peripheral rod 101, but may be rotated (such as in regulating part 500 End have chondritic, and the inside corresponding to the first peripheral rod 101 have cooperation hollow-core construction, regulating part 500 End may be rotated in the hollow-core construction of the first peripheral rod 101).The other end passes through screw hole L and the second peripheral rod 102 are attached.Therefore, as shown in Figure 7, when carried out using external force rotation regulating part 500 when, due to the first peripheral rod One end of 101 connections can rotate, but cannot generate axial displacement, and the screw hole L of the second peripheral rod 102 of the other side is being adjusted Part 500 drives lower progress, and inwardly (or outside) is mobile, to drive entire second peripheral rod, 102 structure to generate displacement, finally reaches To the effect for adjusting distance between the first peripheral rod 101 and the second peripheral rod 102.

Further, two ends of the first peripheral rod 101 and the second peripheral rod 102, which are both provided with, protects extremity piece 600, and second The position for corresponding to shield extremity piece 600 in peripheral rod 102 is provided with perforation C；Protect one end and the first peripheral rod 101 of extremity piece 600 into Row is fixed, and the other end passes through perforation C and locked by positioning pin D.Protecting extremity piece 600 in the present invention has protection originally The both ends of utility model agent structure carry the effect of the ambient pressure at both ends.It can be seen from the above, when cable is to peripheral element 100 Inside generate lateral pressure, by coordinate regulating part 500, can make between the first peripheral rod 101 and the second peripheral rod 102 Distance becomes larger, but on the other hand, inner supporting member 300 can gradually taper up therewith, and longitudinal total length shortens, as shown in Figure 9.This When, one section of vacancy is will produce at the end positions of the utility model, and vacancy does not have inner supporting member 300 to carry corresponding position Cable, therefore the shield extremity piece 600 being arranged here is it is possible to prevente effectively from such case.

Further, shield generally spike, the main body outer surface of extremity piece 600 is smooth.One end and the first peripheral rod 101 into Row is fixed, and the other end stretches out the outside of the second peripheral rod 102 by the C that perforates.The shape of perforation C is matched with the master of shield extremity piece 600 Body section shape, and size slightly larger than shield extremity piece 600 sectional dimension, with ensure shield extremity piece 600 can perforation C in it is without hindrance It is interspersed.But when regulating part 500 adjusts the distance between the first peripheral rod 101 and the second peripheral rod 102, shield extremity piece 600 is interspersed in Free one end in perforation C can carry out certain interspersed movement in perforation C.To coordinate outside the first peripheral rod 101 and second Spacing variation between railing 102.

Perforation C is densely provided with several in the end of shield extremity piece 600, when regulating part 500 regulates the first peripheral rod 101 and the second spacing between peripheral rod 102 after, be inserted into an exposed most interior perforation C, locked using positioning pin D Surely extremity piece 600 is protected.Positioning pin D is spike, there is the head of a nail, main body to intert in perforation C, the head of a nail is hung and positioned.

Further, setting finite place piece X in 200 both sides of sliding part one of in the first peripheral rod 101.Locating part is Bulk is vertically arranged, and is protruded outward, to limit the motion range of set sliding part 200, to limit entire inner support indirectly The telescopic extensions of part 300 prevent from shrinking transition, overall structure both ends are caused the case where big section vacancy occur.Locating part X has two It is a, the both sides of set sliding part 200 are located at, and be spaced one end distance.Sliding part 200, which moves at locating part X, to be forced Stop movement.

It is important that, it should be noted that the construction of the application shown in multiple and different exemplary implementation schemes and arrangement are only It is illustrative.Although several embodiments are only described in detail in this disclosure, refering to the personnel of the displosure content It should be easily understood that under the premise of substantially without departing from the novel teachings and advantage of the theme described in this application, many changes Type is possible (for example, the size of various elements, scale, structure, shape and ratio and parameter value are (for example, temperature, pressure Deng), mounting arrangements, the use of material, the variation etc. of color, orientation).It can be by more for example, being shown as integrally formed element A part or element are constituted, and the position of element can be squeezed or change in other ways, and the property or number of discrete component Or position can be altered or changed.Therefore, all such remodeling are intended to be comprised in the scope of the utility model.It can root According to the embodiment change of replacement or the order or sequence of resequence any process or method and step.In the claims, appoint The clause of what " device adds function " is intended to the structure for being covered in the execution function described herein, and is not only structure It is equal but also is equivalent structure.It, can be in exemplary implementation scheme under the premise of without departing substantially from the scope of the utility model Other are made in design, operation conditions and arrangement to replace, remodeling, change and omit.Therefore, the utility model is not limited to specific Embodiment, but extend to a variety of remodeling still fallen within the scope of the appended claims.

In addition, in order to provide the terse description of exemplary implementation scheme, all spies of actual implementation scheme can not be described Sign (that is, those incoherent features of optimal mode with the execution the utility model currently considered, or in realization the utility model Those incoherent features).

It should be understood that in the development process of any actual implementation mode, it, can such as in any engineering or design object A large amount of specific implementation mode is made to determine.Such development effort may be complicated and time-consuming, but for those benefits For the those of ordinary skill of the displosure content, need not excessively test, the development effort will be one design, manufacture and The routine work of production.

It should be noted that above example is merely intended for describing the technical solutions of the present application, but not for limiting the present application, although reference The utility model is described in detail in preferred embodiment, it will be understood by those of ordinary skill in the art that, it can be to this reality It is modified or replaced equivalently with novel technical solution, without departing from the spirit and scope of technical solutions of the utility model, It should all cover in the right of the utility model.

Claims (10)

1. a kind of energy-saving high-strength cable bridge, it is characterised in that：Including,

Peripheral element (100) is set to the both sides of the energy-saving high-strength cable bridge, including the first peripheral rod (101) and Two peripheral rods (102), first peripheral rod (101) and the second peripheral rod (102) are disposed in parallel relation to one another；

Sliding part (200) is set to the inside of the peripheral element (100), and the peripheral element (100) is stretched out in one end；And

Inner supporting member (300) is set between first peripheral rod (101) and the second peripheral rod (102), and crosses one another and set It sets, the inner supporting member (300) is attached by the sliding part (200) and the peripheral element (100).

2. energy-saving high-strength cable bridge as described in claim 1, it is characterised in that：First peripheral rod (101) and Sliding slot (H) is both provided on the inside of second peripheral rod (102), the sliding slot (H) includes inner slide (H-1) and external tapping (H-2).

3. energy-saving high-strength cable bridge as claimed in claim 2, it is characterised in that：The sliding part (200) includes card Part (201) and external piece (202), the fastener (201) are set in the inner slide (H-1) of the sliding slot (H), and described external Part (202) stretches out the sliding slot (H) outside by the external tapping (H-2).

4. energy-saving high-strength cable bridge as claimed in claim 3, it is characterised in that：The sliding part (200) it is external Part (202) has two panels, and centre is provided with gap, and runs through hole (K) in correspondence with each other.

5. energy-saving high-strength cable bridge as claimed in claim 4, it is characterised in that：The end of the inner supporting member (300) The hole (K) for being matched with the sliding part (200) is also equipped with perforation, and the end of the inner supporting member (300) passes through the hole Hole (K) is hinged with the sliding part (200).

6. energy-saving high-strength cable bridge as claimed in claim 5, it is characterised in that：All inner supporting members (300) are equal Interconnection is carried out, junction is the centre position of the inner supporting member (300), and the connection of all inner supporting members (300) Mode is hinged.

7. energy-saving high-strength cable bridge as claimed in claim 6, it is characterised in that：First peripheral rod (101) and The fixing piece (400) that the inside of the second peripheral rod (102) middle position corresponds to each other for a pair, and the fixing piece (400) Inside also there is hole (K).

8. energy-saving high-strength cable bridge as claimed in claim 7, it is characterised in that：The lower part of the fixing piece (400) The position of the peripheral element (100) is provided with regulating part (500), corresponds on second peripheral rod (102) described The place of regulating part (500) is provided with screw hole (L)；

One end of the regulating part (500) is fixed with first peripheral rod (101), and the other end passes through the screw hole (L) It is attached with second peripheral rod (102).

9. energy-saving high-strength cable bridge as claimed in claim 8, it is characterised in that：First peripheral rod (101) and Two ends of the second peripheral rod (102) are both provided with shield extremity piece (600), correspond on second peripheral rod (102) described The position of shield extremity piece (600) is provided with perforation (C)；

One end of the shield extremity piece (600) is fixed with first peripheral rod (101), and the other end passes through the perforation (C) And it is locked by positioning pin (D).

10. energy-saving high-strength cable bridge as claimed in claim 9, it is characterised in that：On first peripheral rod (101) One of sliding part (200) both sides setting finite place piece (X).