CN107834463B - A kind of reinforced capping adjustable cable crane span structure - Google Patents

Abstract

The invention discloses a kind of reinforced capping adjustable cable crane span structures, including pressure part, are set to the bottom of the reinforced capping adjustable cable crane span structure, and the upper surface of the pressure part is provided with separator；Locating part, is set to the two sides of the reinforced capping adjustable cable crane span structure, and is interconnected with the pressure part, and the locating part includes the first locating part and the second locating part；Locking piece is set to the top of the locating part, is attached with the outer male member at the top of the locating part；Reinforcer is attached with the locating part；And top cover, it is set to the upper end of the capping cable testing bridge, both sides are attached with the locating part on both sides respectively.The present invention can form the accommodating space of different levels, this mode makes cable laying have more logic, and intermediate separator also increases the resistance to compression bending strength and stability of structure simultaneously by the rotation of the first revolving part and the second revolving part.

Description

A kind of reinforced capping adjustable cable crane span structure

Technical field

The present invention relates to a kind of electrical equipment power supply and distribution protection technique field, especially one kind can form the double-deck isolated area Reinforced capping adjustable cable crane span structure.

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 reinforced of arrangement cable and add Lid adjustable cable crane span structure is gradually used on a large scale.

Reinforced capping adjustable cable crane span structure applies in general to large enterprise, heavy construction power transformation, erecting cable, large size The places such as bridge, the cable laying of subway and marine drilling.Existing reinforced capping adjustable cable crane span structure is mostly by entirety Metal framework is made, so not only so that overall structure is heavy but also involve great expense and be unfavorable for transporting, assemble and disassemble and be widely used.

Enterprise using multiple reinforced capping adjustable cable crane span structures come when carrying cable, in order to prevent by these cables Caused by visual pollution, and also for the safety for ensuring these cables, preferably by each reinforced adjustable economize on electricity of capping Cable crane span structure is used for using in commercial center as the industrial plants of high-tech system and such as shopping center.By being used as peace These reinforced capping adjustable cable crane span structures of arrangement, the laying of a large amount of cables become convenient, and it is ensured that this The safety of a little cables, while also eliminating the visual pollution of cable.

Reinforced capping adjustable cable crane span structure is divided into the structures such as slot type, pellet type and ladder-type, grid type, by holder, The compositions such as trailing arm and installation attachment.Crane span structure can independently be set up in building, can also be attached to various buildings or structures and pipe On corridor holder, should embody it is simple in structure, it is handsome in appearance, configuration it is flexible and easy to maintenance the features such as, whole parts are both needed to be plated Zinc processing, is mounted on crane span structure outdoor outside building.

In traditional reinforced capping adjustable cable crane span structure of steel, paving inside reinforced capping adjustable cable crane span structure It is mixed and disorderly unordered equipped with a variety of cables, it is difficult to the cable of different purposes to be identified and control, while general reinforced capping Also the same Shortcomings of intensity of adjustable cable crane span structure.

Invention content

The purpose of this part is to summarize some aspects of the embodiment of the present invention and briefly introduce some preferably to implement Example.It may do a little simplified or be omitted to avoid our department is made in this section and the description of the application and the title of the invention Point, the purpose of abstract of description and denomination of invention it is fuzzy, and this simplification or omit and cannot be used for limiting the scope of the invention.

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

Therefore, the one of purpose of the present invention is to provide a kind of reinforced capping adjustable cable crane span structure, has more A subregion can be such that cable classification is laid with, while have both higher compression strength.

In order to solve the above technical problems, the present invention provides the following technical solutions：A kind of reinforced capping adjustable cable bridge Frame comprising pressure part is set to the bottom of the reinforced capping adjustable cable crane span structure, and the upper surface of the pressure part It is provided with separator；Locating part, be set to it is described it is reinforced capping adjustable cable crane span structure two sides, and with the pressure part It interconnects, the locating part includes the first locating part and the second locating part；Locking piece is set to the top of the locating part, It is attached with the outer male member at the top of the locating part；Reinforcer is attached with the locating part；And top cover, setting In the upper end of the capping cable testing bridge, both sides are attached with the locating part on both sides respectively.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First limit Position part and the second locating part are respectively arranged at the two sides of the pressure part, and are fixedly connected with the pressure part.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First limit Position part includes the first side plate and the first revolving part, and first side plate includes first foundation section and the first occlusion section；Described second Locating part includes the second side plate and the second revolving part, and second side plate includes the second section of foundation and the second occlusion section.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First limit Position part is arranged in correspondence with each other with second locating part；The first foundation section is set to the lower end of the first occlusion section, and The end of the two interconnects, while second section of foundation is set to the lower end of the second occlusion section, and the end of the two It interconnects.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：Described first stings Close the Great Wall platy structure that equidistantly concave-convex arrangement is both provided on the inside of section and the second occlusion section.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First rotation Turn part and is also respectively provided with corresponding concaveconvex structure with the outside of second revolving part；Wherein, on the outside of first revolving part The concaveconvex structure that is engaged on the inside of section with described first of concaveconvex structure work in coordination, the concaveconvex structure on the outside of second revolving part The concaveconvex structure being engaged on the inside of section with described second is worked in coordination.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First rotation The inner end for turning part and the upper end of the first foundation section are hinged by axis, and first revolving part is around axis to vertical direction Afterwards, section is engaged with described first to be entrenched togather each other by the concaveconvex structure worked in coordination；And second revolving part is set It is identical as first revolving part to set mode.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：The separator It is set on the longitudinal direction of the pressure part, and is vertically installed in the upper surface of the pressure part.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First rotation The outer end for turning part is provided with the first butt joint, and the outer end of second revolving part, which is provided with, is matched with first butt joint The second butt joint.

As a kind of preferred embodiment of reinforced capping adjustable cable crane span structure of the present invention, wherein：First rotation Turn part and second revolving part to rotate to horizontal position, the first butt joint with the second butt joint is engaged docks, formation One, and be in contact just with the upper end of the separator.

Beneficial effects of the present invention：The present invention can form difference by the rotation of the first revolving part and the second revolving part The accommodating space of level.It is only one layer of overall space in accommodating space when the two is rotated to vertical direction simultaneously.Both and when When rotation is to horizontal position, accommodating space is divided into upper layer and lower layer, and such classifying space makes cable laying have more orderliness Property, and intermediate separator also increases the resistance to compression bending strength of structure simultaneously, improves stability.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this For the those of ordinary skill of field, without having to pay creative labor, it can also be obtained according to these attached drawings other Attached drawing.Wherein：

Fig. 1 is the side structure signal described in reinforced capping adjustable cable first and second embodiment of crane span structure of the present invention Figure.

Fig. 2 is the internal structure schematic diagram described in reinforced capping adjustable cable second embodiment of crane span structure of the present invention.

Fig. 3 is the structural stratification schematic diagram described in reinforced capping adjustable cable second embodiment of crane span structure of the present invention.

Fig. 4 be the present invention it is reinforced capping adjustable cable crane span structure third embodiment described in overall structure diagram and Second revolving part connects detail drawing.

Fig. 5 is the hierarchical path schematic diagram described in the reinforced capping adjustable cable crane span structure third embodiment of the present invention.

Fig. 6 is that the locking piece installation site described in reinforced capping adjustable cable the 4th embodiment of crane span structure of the present invention is shown Intention and its side enlarged diagram.

Fig. 7 is the locking piece structural schematic diagram described in reinforced capping adjustable cable the 4th embodiment of crane span structure of the present invention And its connection detail drawing.

Fig. 8 is the reinforcer side signal described in reinforced capping adjustable cable the 5th embodiment of crane span structure of the present invention Figure.

Fig. 9 is the reinforcer connection signal described in reinforced capping adjustable cable the 5th embodiment of crane span structure of the present invention Figure.

Figure 10 is the reinforcer installation site described in reinforced capping adjustable cable the 5th embodiment of crane span structure of the present invention Schematic diagram.

Figure 11 is the top cover side signal described in reinforced capping adjustable cable the 6th embodiment of crane span structure of the present invention Figure.

Figure 12 is the top cover structural representation described in reinforced capping adjustable cable the 6th embodiment of crane span structure of the present invention Figure and installation site detail drawing.

Figure 13 is that the damper assembly distribution described in reinforced capping adjustable cable the 7th embodiment of crane span structure of the present invention is shown Intention and detail drawing of installation.

Figure 14 is that the damper assembly described in reinforced capping adjustable cable the 7th embodiment of crane span structure of the present invention is integrally tied Structure schematic diagram.

Figure 15 is the pivot structure schematic diagram described in reinforced capping adjustable cable the 7th embodiment of crane span structure of the present invention.

Figure 16 is the abrasion-resistant block structure signal described in reinforced capping adjustable cable the 7th embodiment of crane span structure of the present invention Figure.

Figure 17 is the elastic damping block structure described in reinforced capping adjustable cable the 7th embodiment of crane span structure of the present invention Schematic diagram.

Figure 18 is that the crane span structure abutting joint described in reinforced capping adjustable cable the 8th embodiment of crane span structure of the present invention shows It is intended to.

Figure 19 is the connector overall structure described in reinforced capping adjustable cable the 8th embodiment of crane span structure of the present invention Schematic diagram.

Figure 20 is the connector internal structure described in reinforced capping adjustable cable the 8th embodiment of crane span structure of the present invention Schematic diagram.

Figure 21 is the fastener internal structure described in reinforced capping adjustable cable the 8th embodiment of crane span structure of the present invention Schematic diagram.

Specific implementation mode

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, right with reference to the accompanying drawings of the specification The specific implementation mode of the present invention is described in detail.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still the present invention can be with Implemented different from other manner described here using other, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention 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 realization side of the present invention A particular feature, structure, or characteristic in formula." in one embodiment " that different places occur in the present specification not refers both to The same embodiment, nor the individual or selective embodiment mutually exclusive with other embodiment.

Referring to Fig.1, it is first embodiment of the invention, Fig. 1 provides a kind of reinforced capping adjustable cable crane span structure Side structure schematic diagram.As seen from the figure, agent structure of the present invention includes pressure part 100, and being set to the reinforced capping can The bottom of cable testing bridge is adjusted, and the upper surface of pressure part 100 is provided with separator 300；Locating part 200 is set to described The two sides of reinforced capping adjustable cable crane span structure, and interconnected with pressure part 100, locating part 200 includes the first limit Part 201 and the second locating part 202；The structure of pressure part 100 and one flute profile of whole composition of locating part 200, inside forms accommodating Space M.

Specifically, as shown in Figure 1, agent structure of the present invention includes pressure part 100.Pressure part 100 has in the present invention The effect of direct support cable.Since the structure type of the present invention belongs to pellet type, it is reinforced that pressure part 100 is set to the present invention The bottom position of capping adjustable cable crane span structure, the structure of the generally plate of pressure part 100, the cable being laid in crane span structure are straight Connect the upper surface for being positioned over pressure part 100.The upper surface of pressure part 100 is provided with separator 300, and separator 300 is in the present invention In one of function be to play the role of the cable that is laid with being needed to be isolated and classified.Separator 300 is a plate Structure, be vertically set on the upper surface of pressure part 100, and set-up mode is：Along pressure part 100 longitudinal direction into Row arrangement, meanwhile, separator 300 is set to the centre position of pressure part 100, just can will be corresponding in its altitude range Reinforced capping adjustable cable crane span structure inner space be divided into two.Separator 300 has certain thickness, it is therefore desirable to note Meaning be：Since it is the centre position for being vertically installed in pressure part 100, is played on structure tension performance and be obviously improved work With in stress system, the set-up mode of separator 300 is similar to the effect structure of ribbed stiffener.It can be promoted of the invention whole The anti-bending strength of structure and the stability of system.

Agent structure of the present invention further includes finite place piece 200.Locating part 200 can limit be layed in this hair in the present invention The lateral position of bright inner cable line, therefore it has the distributing position of limitation cable, and accommodated inside is collectively formed with pressure part 100 The effect of space M.Locating part 200 is set to the lateral location of reinforced capping adjustable cable crane span structure of the present invention, into one Step, locating part 200 is respectively arranged at two side edges of the pressure part 100, and is consolidated with the both sides of pressure part 100 Fixed connection.Further, the locating part 200 includes the first locating part 201 and the second locating part 202,201 He of the first locating part Second locating part 202 is respectively arranged at the both sides outer end of pressure part 100.Therefore, the first locating part 201 and the second locating part 202 correspond to each other on the whole, and the two height having the same and width are each perpendicular to pressure part 100 and are fixed.

Therefore, referring to Fig.1, and combination is above-mentioned it is found that in the present invention, and pressure part 100 has collectively constituted one with locating part 200 The structure of a flute profile forms accommodating space M inside slot, and accommodating space M lower layer spaces are isolated part 300 and are divided into two.

Referring to Fig.1~3, it is second embodiment of the present invention, which is different from one embodiment：First Locating part 201 includes first foundation section 201a- including the first side plate 201a and the first revolving part 201b, the first side plate 201a 1 and first is engaged section 201a-2；Second locating part 202 includes the second side plate 202a and the second revolving part 202b, the second side Plate 202a includes the occlusion sections of the second section of foundation 202a-1 and second 202a-2.

Specifically, as shown in Figure 1, agent structure of the present invention includes pressure part 100, locating part 200 and separator 300. Wherein, pressure part 100 is set to the bottom position of the reinforced capping adjustable cable crane span structure of the present invention, is laid in crane span structure Cable is placed directly in the upper surface of pressure part 100.The upper surface of pressure part 100 is provided with separator 300, and separator 300 is The structure of plate, is arranged perpendicular to pressure part 100, and along the longitudinal direction of pressure part 100, meanwhile, isolation Part 300 is set to the centre position of pressure part 100.Locating part 200 is set to reinforced capping adjustable cable of the present invention The lateral location of crane span structure, further, locating part 200 are respectively arranged at two side edges of the pressure part 100, and with hold The both sides of casting die 100 are fixedly connected.Further, the locating part 200 includes the first locating part 201 and the second locating part 202, the first locating part 201 and the second locating part 202 are respectively arranged at the both sides outer end of pressure part 100.Therefore, the first limit Part 201 and the second locating part 202 correspond to each other on the whole, and the two height having the same and width are each perpendicular to hold Casting die 100 is fixed.

Therefore, pressure part 100 has collectively constituted the structure of a flute profile with locating part 200, and accommodating sky is formd inside slot Between M, and accommodating space M lower layer spaces be isolated part 300 carry out decile.

In the present invention, the first locating part 201 includes the first side plate 201a and the first revolving part 201b.As shown in Fig. 2, from From the point of view of on the whole, the first side plate 201a is the main part of the first locating part 201, and the first revolving part 201b belongs to its branch knot Structure.

Wherein, the first side plate 201a plays the function and effect similar with the first locating part 201 on the whole in the present invention, all It is to be limited to the cable for being placed on accommodating space M.And the first side plate 201a can also be further divided into two parts, respectively first The occlusion sections of section of foundation 201a-1 and first 201a-2.First foundation section 201a-1 is a plate, is the lower part of the first side plate 201a Basic component, height is highly consistent with separator 300, and the first occlusion section 201a-2 is to be located at first foundation section 201a-1 The component on upper layer corresponds to the integrally-built second layer, and both perpendicular to pressure part 100.Further, first foundation section 201a-1 is vertically installed in the side of pressure part 100, i.e. its lower end and the side end of pressure part 100 is fixed, the upper end The lower end that section 201a-2 is engaged with first is connected to each other and is fixed as an entirety.

It therefore, can be by the vertical section position corresponding to first foundation section 201a-1 it can be seen from the above, in the present embodiment It installs as first layer, the vertical section position corresponding to the first occlusion section 201a-2 thereon is set as the second layer.With first foundation The junction of the occlusion sections of section 201a-1 and first 201a-2 is line of demarcation, and accommodating space M is divided into first layer and the second layer.

First revolving part 201b is the component in the second layer, further, the inner end and first of the first revolving part 201b The upper end of section of foundation 201a-1 is hinged by axis 400, and the rotation within the scope of certain angle can be carried out around axis 400, When it turns to vertical direction, it is engaged section 201a-2 with first and contacts with each other (such as Fig. 1), when it turns to horizontal direction, It just takes and falls in the upper end of separator 300, (such as Fig. 3) is set up by it.

In the present invention, the first locating part 201 is arranged in correspondence with each other with the second locating part 202, therefore the main body knot of the two It is symmetrical that structure is generally related to separator 300.Similar with the first locating part 201, the second locating part 202 includes the second side plate 202a With the second revolving part 202b.Second side plate 202a is the main part of the second locating part 202, and the second revolving part 202b belongs to it Branched structure.

Wherein, the second side plate 202a plays the function and effect similar with the second locating part 202 on the whole in the present invention, all It is to be limited to the cable being placed in accommodating space M.And the second side plate 202a can also be further divided into two parts, respectively The occlusion sections of two section of foundation 202a-1 and second 202a-2.Second section of foundation 202a-1 is a plate, is under the second side plate 202a Portion's basic component, height is highly consistent with separator 300, and the second occlusion section 202a-2 is to be located at the second section of foundation The component on the upper layers 202a-1 corresponds to the integrally-built second layer, and both perpendicular to pressure part 100.Further, second Section of foundation 202a-1 is vertically installed in the side of pressure part 100, i.e. its lower end and the side end of pressure part 100 is fixed, The lower end that the upper end is engaged section 202a-2 with second is connected to each other and is fixed as an entirety.

Corresponding with the first side plate 201a, the second section of foundation 202a-1 is located at the first layer in accommodating space M, thereon Second occlusion section 202a-2 is located at the second layer in accommodating space M.

Second revolving part 202b is the component in the second layer, further, the inner end and second of the second revolving part 202b The upper end of section of foundation 202a-1 is hinged by axis 400, and the rotation within the scope of certain angle can be carried out around axis 400, When it turns to vertical direction, it is engaged section 202a-2 with second and contacts with each other, when it turns to horizontal direction, just take and fall In the upper end of separator 300.

With reference to Fig. 4 or 5, for the third embodiment of the present invention, which is different from second embodiment：First Occlusion section 201a-2 and second, which is engaged on the inside of section 202a-2, is both provided with the equidistantly concave-convex Great Wall platy structure arranged, and the One revolving part 201b is also respectively provided with corresponding concaveconvex structure with the outside of the second revolving part 202b.

As shown in figure 4, uniformly arranging laterally on the medial surface of the first occlusion section 201a-2 and the second occlusion section 202a-2 Concaveconvex structure, the structure be similar to great wall-shaped board structure type.Meanwhile it is found that due to first described in above-described embodiment It when revolving part 201b rotates to vertical position, is engaged section 201a-2 with first and contacts with each other, therefore, in the present invention, in the first rotation The lateral surface for turning part 201b relative to the first occlusion section 201a-2 is also provided with corresponding concaveconvex structure, and the first revolving part 201b The concaveconvex structure that the concaveconvex structure in outside is engaged with first on the inside of section 201a-2 is worked in coordination, the first revolving part 201b around axis extremely After vertical direction, it is engaged section 201a-2 with first and is entrenched togather each other by the concaveconvex structure worked in coordination.

It is identical with the first revolving part 201b, lateral surfaces of the second revolving part 202b relative to the second occlusion section 202a-2 Provided with corresponding concaveconvex structure, and the concaveconvex structure on the outside of the second revolving part 202b be engaged with second it is recessed on the inside of section 202a-2 Male structure is worked in coordination, and in the second revolving part 202b after axis to vertical direction, section 202a-2 is engaged by mutually matching with second The concaveconvex structure of conjunction is entrenched togather each other.

Further, the outer end of the first revolving part 201b is provided with the first butt joint, the second revolving part 202b's Outer end is provided with the second butt joint for being matched with first butt joint.First butt joint have opening and upward, second pair Connector have opening and downward.First revolving part 201b and the second revolving part 202b are rotated to horizontal position, the first butt joint With the second butt joint is engaged docks, form one, and be in contact just with the upper end of separator 300, be mounted in separator 300 tops.

It can be seen from the above, with reference to Fig. 5, when the first revolving part 201b and the second revolving part 202b is rotated simultaneously to vertical direction When, reinforced be capped in the accommodating space M of adjustable cable crane span structure of the present invention can directly place cable, but without layering knot Structure, only one layer of overall space.And when the first revolving part 201b and the second revolving part 202b is rotated to horizontal position simultaneously, Since the first revolving part 201b and the second revolving part 202b connect and are mounted in 300 top of separator, accommodating space M is divided into Two layers, cable can be arranged in upper layer and lower layer.It in practical applications, can be first by a kind of cable laying on pressure part 100, i.e., First layer, since first layer is additionally provided with separator 300, first layer can be laid with according to two wire casings to classify.Complete it Afterwards, the first revolving part 201b and the second revolving part 202b can be rotated to level, covers first layer, form the second sheaf space, Continue to add cable.Therefore, this embodiment is not only advantageous to classifying for different cables, moreover it is possible in 300 He of separator The intensity of very big enhancing structure under the collective effect of both sides side plate.

With reference to Fig. 6,7, for the 4th embodiment of the present invention, which is different from one embodiment：This hair Bright agent structure further includes locking piece 500, is set to the top of locating part 200, with the outer male member T at the top of locating part 200 into Row connection.

Specifically, the agent structure of reinforced capping adjustable cable crane span structure of the present invention further includes having locking piece 500, Locking piece 500 has in the present invention by the first occlusion section 201a-2 and the first revolving part 201b (and the second occlusion section 202a- The 2 and second revolving part 202b) being clamped the effect of connection, (distribution due to locking piece 500 on 200 both sides of locating part is mutually opposite It answers, and structural principle and arrangement are identical, therefore the present embodiment is only with the first occlusion section 201a-2 and the first revolving part 201b Between locking piece 500 as illustrating example, and the locking piece 500 between the second occlusion section 202a-2 and the second revolving part 202b It wouldn't repeat).Further, when the first revolving part 201b states in a vertical shape and when being engaged section 201a-2 with first and being engaged, The upper end of first occlusion section 201a-2 and the first revolving part 201b can be attached by locking piece 500 so that the first revolving part 201b keeps vertical state non-rotatable.

In the present invention, locking piece 500 is set to the top of locating part 200.Further, the setting of locking piece 500 is the The top position of one occlusion section 201a-2.Locking piece 500 includes linkage section 501 and drooping section 502, wherein linkage section 501 is two Root rod-like structure parallel to each other is set to the upper end position of drooping section 502, and hangs down mutually with 502 body surfaces of drooping section Directly, and drooping section 502 be one piece of sagging platy structure.

Further, it is matched with linkage section 501 at the top of the first occlusion section 201a-2 and is provided with outer male member T, outer male member is Two one group of block-shaped protrusion, locking piece 500 are attached by linkage section 501 and outer male member T.And 500 other end of locking piece Drooping section 502 be just fitted in the outer surface of the first revolving part 201b, hooked, prevent it from normally being revolved Turn.

Further, the outer end of linkage section 501 is cylinder there are a connecting shaft perpendicular to its both sides body of rod, connecting shaft The end of 501 two bodies of rod of linkage section is attached by shape.And linkage section 501 is hinged by connecting shaft and outer male member T. When the upper end of the first occlusion section 201a-2 and the first revolving part 201b is attached occlusion, the drooping section of locking piece 500 502 are coated on outside, it is made to keep vertical state so that agent structure is the accommodating space of an entirety.It is revolved when needing first It, only need to be whole around evagination by locking piece 500 when turning part 201b and rotate to horizontality to form multiple isolation accommodating spaces Part T is rotated, you can opens constraint, the first revolving part 201b can also accordingly be overturn.

Further, in the present embodiment, locking piece 500 is equidistantly distributed with multiple in the both sides of locating part 200, to carry The restraining force of high locking piece 500.

With reference to Fig. 8~10, for the 5th embodiment of the present invention, which is different from one embodiment：This It further includes reinforcer 600 to invent the agent structure for reinforcing cable testing bridge, is attached with the locating part 200.Specifically , in the present invention, reinforcer 600 has the function of improving integrally-built strength and stability.Further, mainly add The effect of the strength and stability of strong first revolving part 201b and the second revolving part 202b, and revolved with first in locating part 200 Turn part 201b and the second revolving part 202b is attached.

Further, 600 overall structure of reinforcer is strip, is set to the first revolving part 201b and the second revolving part 202b One side with concaveconvex structure, and be arranged along the row of the first revolving part 201b and the second revolving part 202b, i.e., perpendicular to the The longitudinal direction of one revolving part 201b and the second revolving part 202b.

600 one side of reinforcer is smooth flat, and opposite another side is the one side with concaveconvex structure, and this concaveconvex structure It works in coordination with the concaveconvex structure of the first revolving part 201b and the second revolving part 202b.In the present embodiment, reinforcer 600 carries One side face the first revolving part 201b and the second revolving part 202b of concaveconvex structure, and with lateral the first rotation of set-up mode insertion Turn part 201b and the second revolving part 202b, is connected.

Further, reinforcer 600 is coordinated and then is used with the first revolving part 201b and the second revolving part 202b Bolt is fastened.Corresponding to the bolt of connection, on reinforcer 600 and the first revolving part 201b and the second revolving part 202b all In the presence of the bolt hole coordinated with bolt.

Further, reinforcer 600 has setting on the first revolving part 201b and the second revolving part 202b, and one is a pair of It answers.Meanwhile reinforcer 600 can be side by side placed equidistant on the first revolving part 201b and the second revolving part 202b along longitudinal It is multiple, to improve the strength and stability of the first revolving part 201b and the second revolving part 202b.

In the present invention, reinforcer 600 can be overturn in the first revolving part 201b and the second revolving part 202b to horizontal position It postpones and carries out embedded be used cooperatively.And need not be installed when the two is located at vertical position, main purpose is：First revolving part After 201b and the second revolving part 202b overturnings, the cable that is laid with thereon will generate it pressure effect, and the first revolving part 201b It is longitudinal direction with the second revolving part 202b concaveconvex structures of itself, strength and stability in the horizontal shows slightly insufficient, therefore Reinforcer 600 can improve the practical load performance of the first revolving part 201b and the second revolving part 202b.

Referring to Fig.1 1,12, for the 6th embodiment of the present invention, what which was different from one embodiment is：This Invention agent structure further includes having top cover 700, and top cover 700 is set to the upper end of the capping cable testing bridge, both sides point It is not attached with the locating part 200 on both sides.

Further, capping cable testing bridge agent structure of the present invention further includes top cover 700, and top cover 700 is at this Has the function of exterior protection in invention.It is set to the upper end position of the capping cable testing bridge, and both sides are limited with first respectively Position part 201 and the second locating part 202 are attached.

Further, the generally platy structure of top cover 700, when the first revolving part 201b and the second revolving part 202b all Behind rotation to horizontal position, the concaveconvex structure of the first occlusion section 201a-2 and the second occlusion section 202a-2 inner surfaces is exposed.And In the present embodiment, in the concaveconvex structure of the first occlusion section 201a-2 and the second occlusion section 202a-2, both sides protrusion is just perpendicular It is mutually faced on the position of straight height, while groove also mutually faces on vertical position.Therefore top cover 700 is interspersed in the On the inside of one occlusion section 201a-2 and the second occlusion section 202a-2 in a pair of of groove of highest position, the peace of top cover 700 is realized Dress.

Further, in the present embodiment, at the position that top cover 700 is connect with the first occlusion section 201a-2, the upper end There is also a protrusions, hold herein, and just upper and lower surface is stuck fixation top cover 700.Meanwhile top cover 700 and second It is engaged at the position of section 202a-2 connections, there is no protrusion, i.e. one end of top cover 700 is placed on the second occlusion section for the upper end On the inside of 202a-2 in the protrusion of the top.Therefore, top cover 700 is more convenient when installation, only need to be first by wherein one end Embedded first is engaged in the above-mentioned position corresponding to section 201a-2, then the other end is ridden over second the tops occlusion section 202a-2 In protrusion.

Certainly, according to actual demand, top cover 700 can also be interspersed in the occlusion sections of the first occlusion section 201a-2 and second Between 202a-2 in the groove of any one group of face, there is higher flexibility.

Referring to Fig.1 3~17, for the 7th embodiment of the present invention, what which was different from one embodiment is：The The top of one revolving part 201b and first foundation section 201a-1 is hinged by damper assembly 800.Similarly, the second revolving part The top of 202b and the second section of foundation 202a-1 carry out hinged (due to the first revolving part 201b and the also by damper assembly 800 The connection structure of two revolving part 202b is identical, therefore this implementation is only to the second revolving part 202b and the second section of foundation 202a-1 Connection be illustrated, and the first revolving part 201b wouldn't be repeated).Specifically, the top of the second section of foundation 202a-1 is with embedding The inner end edge of slot, the second revolving part 202b is positioned in caulking groove, and realizes being hinged for the two by damper assembly 800.

Damper assembly 800 has both connection and the effect of buffering, includes mainly elastic damping block 801, wear-resistant block 802, turns Axis 803 and regulating part 804.Further, one end of shaft 803 is fixed on the end position of the second sides revolving part 202b.Turn 803 main body of axis is cylindric, and outer surface has the screw thread of a segment length.Further, 803 outer surface of shaft also opens up It is groove to have the first groove 803a and the second the groove 803b, the first groove 803a and the second groove 803b that twice are parallel to each other Shape is arranged along the longitudinal direction of shaft 803, and the two is mutually faced in the outer surface of shaft 803.

In the present embodiment, wear-resistant block 802 is sheathed on the periphery of shaft 803.802 main body of wear-resistant block is cannula-like, internal For hollow passageway, internal diameter corresponds to the body outer diameter of shaft 803.Further, it is provided with correspondence on the madial wall of wear-resistant block 802 In the first convex block 802a and the second convex block 802b of the first groove 803a and the second groove 803b.Wherein, the first convex block 802a and Size, the structure of second convex block 802b matches with the first groove 803a and the second groove 803b respectively, and is complementary type.When When needing wear-resistant block 802 being set in the outside of shaft 803, the first convex block 802a and the second convex block 802b need to be only respectively aligned to First groove 803a and the second groove 803b, and push and nesting can be realized.

In the present embodiment, wear-resistant block 802 is interspersed is erected on elastic damping block 801.Elastic damping block 801 is fixed on There is the opening along the second longitudinal directions section of foundation 202a-1, opening size to correspond to resistance at the top of two sides section of foundation 202a-1 The body outer diameter of abrading block 802.Further, a plurality of damping projection 801a are provided on the madial wall of elastic damping block 801, Damping projection 801a is the strip bump equidistantly arranged along the longitudinal direction of elastic damping block 801.Corresponding, The first amortisseur bar 802c and the second amortisseur bar 802d, the first amortisseur bar 802c and are provided on the outer surface of wear-resistant block 802 Two amortisseur bar 802d are the high-strength abrasion-proof protrusion of strip, and the two is set to wear-resistant block 802 along longitudinal face of wear-resistant block 802 Outer surface.Wherein, the width of the first amortisseur bar 802c and the second amortisseur bar 802d are respectively less than two dampings of arbitrary neighborhood The distance between raised 801a, to ensure, when wear-resistant block 802 is interspersed in the opening of elastic damping block 801, the first damping 802c and the second amortisseur bar 802d can be embedded between the gap between damping projection 801a.When the second revolving part 202b is whole Around shaft 803, and when drive wear-resistant block 802 to be rotated, the resistances of the first amortisseur bar 802c and second on wear-resistant block 802 For Buddhist nun 802d because of the inhibition of densely arranged damping projection 801a, it is in discontinuous interval to cause the rotation of wear-resistant block 802 Motion state, and all there is drag effect always during rotating.

Preferably, the end of damping projection 801a is set as dentation, optimize drag effect.

In actual use, since 803 end of shaft is fixed on the side of the second revolving part 202b, when the second rotation of overturning When turning part 202b, shaft 803 can follow the second revolving part 202b to rotate together with, and Pivot axle is shaft 803 Central shaft.Due to the first convex block 802a and second of the first groove 803a and the second groove 803b and wear-resistant block 802 of shaft 803 Convex block 802b is interspersed to be connected, and is formed and is fixed, therefore shaft 803 also will drive wear-resistant block 802 to rotate.In contrast , although elastic damping block 801 is sheathed on 802 periphery of wear-resistant block, it is also fixed on the side of the second section of foundation 202a-1, Therefore wear-resistant block 802 will not be followed to be rotated, it is clear that, the damping projection 801a of 801 madial wall of elastic damping block will The first amortisseur bar 802c and the second amortisseur bar 802d to 802 lateral surface of wear-resistant block generate intermittent inhibition, i.e. realization pair The overturning of second revolving part 202b generates intermittent and hinders.

Use damper assembly 800 that can make the second revolving part 202b when quick closedown or unlatching with certain Cushioning effect, meanwhile, the second revolving part 202b can be made to open to position at any angle and remain stationary, have one Fixed positioning action.

Preferably, the inner face of wear-resistant block 802 is held in the mouth by compressed spring and the lateral surface of the second section of foundation 202a-1 It connects.In the present embodiment, the threaded sections of 803 outer end of shaft are also arranged with regulating part 804, and regulating part 804 uses nut, adjusts Part 804 is bonded with the outer end face of wear-resistant block 802 always in use.Therefore, it can be squeezed by rotating regulating part 804 Wear-resistant block 802 is pressed, it is made to stretch along the longitudinal direction of shaft 803, and then adjusts damping projection 801a and the first amortisseur bar Handing-over length between 802c and the second amortisseur bar 802d is finally reached control and adjusts the effect of damping power.

Referring to Fig.1 8~21, for the 8th embodiment of the present invention, what which was different from the 7th embodiment is：? In the present invention, the crane span structure is combined installation by connection sheet P in actual use, i.e., the outer end of two neighboring bridge joint is mutual Docking, meanwhile, connection sheet P is fitted in the both sides of two crane span structure butt ends, is fastened and is locked finally by connector 900 It is fixed.Connection sheet P is laminated structure, the outer surface in crane span structure both sides locating part 200 is arranged, and be placed with several connections thereon Hole O (there is also corresponding connecting hole O on locating part 200), connecting hole O is the hole penetrated, for placing connector 900.Even Fitting 900 has the function of that connection sheet P and locating part 200 are tightened and be compacted in the present invention.

Connector 900 includes 901, sleeve member 902 and tensioning member 903.Wherein, the generally pin shape of fastener 901, packet It includes turret head 901a, transmission segment 901b and telescopic segment 901c, three and is in turn connected to form entirety.Turret head 901a is located at fastener 901 end is flat-shaped hexagonal prisms, the site of action as external force.Transmission segment 901b is hollow tubular structure, inside tool There is channel, channel penetrates through turret head 901a and is connected to exterior space formation, and the madial wall in channel is provided with screw thread.It is flexible Section 901c has the function of the tightening that is pressurized, and internal is hollow-core construction, and is interconnected with the inner passage of transmission segment 901b.It stretches The outer wall of contracting section 901c is that company is fixed with transmission segment 901b in the trend outwardly protruded in the arc structure of smaller curvature It connects, and the size at maximum transversal section corresponds to the width of connecting hole O, and is slightly larger than the sectional dimension of transmission segment 901b.It is aobvious And be clear to, after fastener 901 is inserted into connecting hole O, turret head 901a is stuck in outside, telescopic segment 901c can just into Enter, simultaneously as the arcuation outer wall of telescopic segment 901c so that there can be certain gap between transmission segment 901b and connecting hole O. Further, in this gap in be arranged with closely knit part 904, closely knit part 904 is hollow tubular, madial wall and lateral wall respectively with The outside of transmission segment 901b and the madial wall of connecting hole O are bonded.

The generally bolt shape of sleeve member 902, it is circle that the inside of main body, which has Telescopic path R, the sections Telescopic path R, It is whole through sleeve member 902.Sleeve member 902 is arranged in the inner passage of fastener 901, and body outer surface have be matched with The screw thread of transmission segment 901b madial walls.Therefore, the screw thread that sleeve member 902 is coordinated by this, can the inside of fastener 901 into Row stretching motion.The outer end of 902 main body of sleeve member is provided with the second turret head 902a, and overall structure is also flat-shaped hexagonal prisms, Position as external force, when the second turret head of external force pair 902a applies torque effect, you can 902 entirety of control sleeve member exists Linear motion inside fastener 901.Further, the inner termination of sleeve member 902 extends to the telescopic segment 901c of fastener 901 In cavity, and it is additionally provided with press part 902b in the inner termination of sleeve member 902, press part 902b is the tubulose of variable cross-section.Even When the original state of fitting 900, smallest cross-sectional end and 902 main body of sleeve member of press part 902b are attached, maximum cross-section end The madial wall being just against at telescopic segment 901c maximum transversals section, meanwhile, between the second turret head 902a and turret head 901a There are certain gap, whole for sleeve member 902 allows space.

Tensioning member 903 is pin spike-like structures, is arranged in the Telescopic path R of sleeve member 902.The main body of tensioning member 903 Outer end is provided with third turret head 903a, and overall structure is also flat-shaped hexagonal prisms, is used as the position of external force.Tensioning member 903 The other end be provided with stretching head 903b, stretching head 903b passes through telescopic segment 901c and extends to the outside of its cavity.Stretching head There is one section of screw thread on the outer surface of 903b.Further, the end of telescopic segment 901c has inwardly protruded cooperation section Running through inside 901d, cooperation section 901d has the screw hole for being matched with stretching head 903b.In the present embodiment, 903 main body of tensioning member is inserted After entering Telescopic path R, stretching head 903b is screwed with cooperation section 901d cooperations, while third turret head 903a is stuck in the second turret head On the outside of 902a.Further, it is fitted closely between third turret head 903a and the second turret head 902a, and third turret head 903a Outer surface also indent have an interior hex slot 903c, interior hex slot 903c is hollow hexa-prism, is equally used for the effect of external force Point.

In the present embodiment, the connector 900 when original state, fastener 901, sleeve member 902 and tensioning member 903 it Between be only to contact with each other, and powerless effect.At this point, connector 900 is whole to be directly inserted into connecting hole O, and just coordinate Without extruding.When rotating in the forward direction sleeve member 902 (and keeping tensioning member 903 motionless), the press part 902b of 902 end of sleeve member will be right The madial wall of telescopic segment 901c generates outside squeezing action, and telescopic segment 901c is forced to have outwardly projecting deformation tendency.So After rotate in the forward direction tensioning member 903, due to being fitted closely between third turret head 903a and the second turret head 902a, tensioning member 903 Itself cannot generate linear movement, therefore the cooperation section 901d that its direct pull is attached thereto so that cooperation section 901d have to The trend of interior tightening.Continue circumgyration stretch part 903, while under the mating reaction of press part 902b so that telescopic segment 901c It is deformed, the gradual protrusion in cross section becomes larger everywhere, and the size more than connecting hole O so that the both ends of fastener 901 are stuck in The both ends of connecting hole O.Preferably, material flexible (such as rubber) may be used in closely knit part 904, the inner end of closely knit part 904 has It is matched with the chamfering J of telescopic segment 901c outer walls, the presence of chamfering J is more advantageous to the contact between telescopic segment 901c and connecting hole O With it is closely knit.

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 present invention.Can according to for The embodiment in generation changes or the order or sequence of resequence any process or method and step.In the claims, any " dress Set plus function " clause be intended to be covered in it is described herein execute the structure of the function, and it is equivalent to be not only structure But also it is equivalent structure.Without departing from the scope of the invention, design, operation that can be in exemplary implementation scheme Other are made in situation and arrangement to replace, remodeling, change and omit.Therefore, the present invention is not limited to specific embodiments, and It is to 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 present invention currently considered, or it is of the invention incoherent in realizing Those 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 the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although with reference to preferable Embodiment describes the invention in detail, it will be understood by those of ordinary skill in the art that, it can be to the technology of the present invention Scheme is modified or replaced equivalently, and without departing from the spirit of the technical scheme of the invention and range, should all be covered in this hair In bright right.

Claims (8)

1. a kind of reinforced capping adjustable cable crane span structure, it is characterised in that：Including,

Pressure part (100) is set to the bottom of the reinforced capping adjustable cable crane span structure, and the pressure part (100) Upper surface is provided with separator (300)；

Locating part (200), be set to it is described it is reinforced capping adjustable cable crane span structure two sides, and with the pressure part (100) it interconnects, the locating part (200) includes the first locating part (201) and the second locating part (202)；

Locking piece (500), is set to the top of the locating part (200), with the outer male member (T) at the top of the locating part (200) It is attached；

Reinforcer (600) is attached with the locating part (200)；And

Top cover (700), be set to it is described capping cable testing bridge upper end, both sides respectively with the locating part on both sides (200) it is attached；Wherein,

First locating part (201) and the second locating part (202) are respectively arranged at the two sides of the pressure part (100), and It is fixedly connected with the pressure part (100)；

First locating part (201) includes the first side plate (201a) and the first revolving part (201b), first side plate (201a) includes first foundation section (201a-1) and the first occlusion section (201a-2)；

Second locating part (202) includes the second side plate (202a) and the second revolving part (202b), second side plate (202a) includes the second section of foundation (202a-1) and the second occlusion section (202a-2).

2. reinforced capping adjustable cable crane span structure as described in claim 1, it is characterised in that：First locating part (201) it is arranged in correspondence with each other with second locating part (202)；

The first foundation section (201a-1) is set to the lower end of the first occlusion section (201a-2), and the end of the two is mutual Connection, while second section of foundation (202a-1) is set to the second occlusion section

The lower end of (202a-2), and the end of the two interconnects.

3. reinforced capping adjustable cable crane span structure as claimed in claim 2, it is characterised in that：The first occlusion section The Great Wall platy structure of equidistantly concave-convex arrangement is both provided on the inside of (201a-2) and the second occlusion section (202a-2).

4. reinforced capping adjustable cable crane span structure as claimed in claim 3, it is characterised in that：First revolving part (201b) is also respectively provided with corresponding concaveconvex structure with the outside of second revolving part (202b)；Wherein,

Concaveconvex structure on the outside of first revolving part (201b) is engaged the concaveconvex structure on the inside of section (201a-2) with described first It works in coordination, the concaveconvex structure on the outside of second revolving part (202b) is engaged the bumps on the inside of section (202a-2) with described second Structure is worked in coordination.

5. reinforced capping adjustable cable crane span structure as claimed in claim 4, it is characterised in that：First revolving part The inner end of (201b) and the upper end of the first foundation section (201a-1) are hinged by axis (400), and first rotation It is embedding each other by the concaveconvex structure worked in coordination that part (201b) is engaged section (201a-2) after axis to vertical direction, with described first It is combined；

And the set-up mode of second revolving part (202b) is identical as the first revolving part (201b).

6. reinforced capping adjustable cable crane span structure as claimed in claim 5, it is characterised in that：The separator (300) sets It is placed on the longitudinal direction of the pressure part (100), and is vertically installed in the upper surface of the pressure part (100).

7. reinforced capping adjustable cable crane span structure as claimed in claim 6, it is characterised in that：First revolving part The outer end of (201b) is provided with the first butt joint, and the outer end of second revolving part (202b), which is provided with, is matched with described Second butt joint of a pair of joint.

8. reinforced capping adjustable cable crane span structure as claimed in claim 7, it is characterised in that：First revolving part (201b) is rotated with second revolving part (202b) to horizontal position, and the first butt joint is engaged right with the second butt joint It connects, forms one, and be in contact just with the upper end of the separator (300).