CN107785834A - One kind strengthens cable testing bridge - Google Patents

Abstract

The invention discloses one kind to strengthen cable testing bridge, including pressure part, is arranged at the bottom of the reinforcement cable testing bridge, and the upper surface of the pressure part is provided with separator；Locating part, two sides of the reinforcement cable testing bridge are arranged at, and are interconnected with the pressure part, the locating part includes the first locating part and the second locating part, and the pressure part integrally forms the structure of a flute profile with the locating part, is internally formed accommodation space；And reinforcer, it is attached with the locating part.Rotation of the invention by the first revolving part and the second revolving part, the accommodation space of different levels can be formed.It is only one layer of overall space in accommodation space when both are rotated to vertical direction simultaneously.And when both are rotated to horizontal level, accommodation space is divided into two layers up and down, and such classifying space make it that cable laying has more logic, and middle separator also adds the resistance to compression bending strength of structure simultaneously, improves stability.

Description

One kind strengthens cable testing bridge

Technical field

The present invention relates to a kind of electrical equipment double-deck isolated area can be formed for power distribution protection technical field, particularly one kind Reinforcement cable testing bridge.

Background technology

Exchange strong power system, weak electricity system, straight simultaneously with the development of intelligent construction, in same building building often be present Flow strong power system and all kinds of automated systems, such as building automation system, the office automation system, Communication Automation System. Therefore, it is necessary to which to lay exchange forceful electric power cable, direct current forceful electric power cable, the communication cable in light current, control cable etc. simultaneously various types of Other cable.A variety of cables need separated wiring in designing wiring, thus be accordingly used in the cable testing bridge of arrangement cable Gradually used on a large scale.

Cable testing bridge applies in general to large enterprise, heavy construction power transformation, erecting cable, large bridge, the cable of subway The place such as laying and marine drilling.Existing cable testing bridge is made up of bulk metal framework mostly, so not only causes overall knot Structure is heavy and involves great expense and is unfavorable for transporting, assemble and disassemble and widely using.

Enterprise is when using multiple cable testing bridges to carry cable, in order to prevent the visual pollution as caused by these cables, And also for the security 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 the security of these cables, while also eliminate 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 support, trailing arm and installation annex etc. Composition.Crane span structure can independently be set up in building, can also be attached on various buildings or structures and piping lane supports, should be embodied knot 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, installed in building The outdoor crane span structure of beyond the region of objective existence.

In traditional steel cable bridge, cable testing bridge laid inside has a variety of cables, mixed and disorderly unordered, it is difficult to difference The cable of purposes is identified and control, while the intensity similarly Shortcomings of general cable testing bridge.

The content of the invention

The purpose of this part is to summarize some aspects of embodiments of the invention and briefly introduce some preferably to implement Example.It may do a little simplified or be omitted to avoid making our department in this part and the description of the present application summary and denomination of invention Point, the purpose of specification digest and denomination of invention obscure, and this simplification or omit and cannot be used for limiting the scope of the present invention.

In view of problem present in 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 reinforcement cable testing bridge, and it has multiple subregions, can make Cable classification laying, while have higher compression strength concurrently.

In order to solve the above technical problems, the present invention provides following technical scheme：One kind strengthens cable testing bridge, and it includes pressure-bearing Part, the bottom of the reinforcement cable testing bridge is arranged at, and the upper surface of the pressure part is provided with separator；Locating part, set In it is described reinforcement cable testing bridge two sides, and with the pressure part interconnect, the locating part include the first locating part and Second locating part, the pressure part integrally form the structure of a flute profile with the locating part, are internally formed accommodation space；With And reinforcer, it is attached with the locating part.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：First locating part and the second limit Position part is respectively arranged at two sides of the pressure part, and is fixedly connected with the pressure part；The first locating part bag The first side plate and the first revolving part are included, first side plate includes first foundation section and the first occlusion section；Second locating part Including the second side plate and the second revolving part, second side plate includes the second section of foundation and the second occlusion section.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：First locating part and described the Two locating parts are set in correspondence with each other；The first foundation section is arranged at the lower end of the first occlusion section, and both ends are mutual It is connected, while second section of foundation is arranged at the lower end of the second occlusion section, and both ends interconnect.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：The first occlusion section and described the The Great Wall platy structure of equidistantly concavo-convex arrangement is provided with the inside of two occlusion sections.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：First revolving part and described the The outside of two revolving parts is also respectively provided with corresponding concaveconvex structure；Wherein, the concaveconvex structure on the outside of first revolving part with Concaveconvex structure on the inside of the first occlusion section is worked in coordination, and the concaveconvex structure on the outside of second revolving part is stung with described second The concaveconvex structure on the inside of section is closed to work in coordination.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：First revolving part the inner with The upper end of the first foundation section is hinged by axle, and first revolving part is after axle to vertical direction, with described One occlusion section is entrenched togather each other by the concaveconvex structure worked in coordination；And the set-up mode of second revolving part with it is described First revolving part is identical.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：The separator is arranged at described hold On the longitudinal direction of casting die, and it is vertically installed in the upper surface of the pressure part.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：The outer end of first revolving part The first butt joint is provided with, the outer end of second revolving part is provided with the second docking for being matched with first butt joint Head.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：First revolving part and described the Two revolving parts are rotated to horizontal level, the first butt joint with the second butt joint is engaged docks, form one, and just with The upper end of the separator is in contact.

As a kind of preferred scheme of reinforcement cable testing bridge of the present invention, wherein：The reinforcer is wherein simultaneously Smooth flat, another side carry concaveconvex structure, and the concaveconvex structure of itself and first revolving part and the second revolving part is worked in coordination； Both concaveconvex structures mutually face occlusion, and are fixedly connected using bolt.

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 accommodation space of level.It is only one layer of overall space in accommodation space when both are rotated to vertical direction simultaneously.And when both When rotation is to horizontal level, accommodation space is divided into two layers up and down, and such classifying space causes cable laying to have more orderliness Property, and middle separator also adds the resistance to compression bending strength of structure simultaneously, improves stability.

Brief 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 Accompanying drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present 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 accompanying drawings other Accompanying drawing.Wherein：

Fig. 1 is the side structure schematic diagram described in present invention reinforcement first and second embodiment of cable testing bridge.

Fig. 2 is the internal structure schematic diagram described in present invention reinforcement second embodiment of cable testing bridge.

Fig. 3 is the structural stratification schematic diagram described in present invention reinforcement second embodiment of cable testing bridge.

Fig. 4 is that the present invention strengthens the overall structure diagram described in the 3rd embodiment of cable testing bridge and the second revolving part company Connect detail drawing.

Fig. 5 is the hierarchical path schematic diagram described in present invention reinforcement the 3rd embodiment of cable testing bridge.

Fig. 6 is the reinforcer side schematic view described in present invention reinforcement the 4th embodiment of cable testing bridge.

Fig. 7 is the reinforcer connection diagram described in present invention reinforcement the 4th embodiment of cable testing bridge.

Fig. 8 is the reinforcer schematic view of the mounting position described in present invention reinforcement the 4th embodiment of cable testing bridge.

Fig. 9 is that the present invention strengthens the damper assembly distribution schematic diagram described in the 5th embodiment of cable testing bridge and installed detailed Figure.

Figure 10 is the damper assembly overall structure diagram described in present invention reinforcement the 5th embodiment of cable testing bridge.

Figure 11 is the pivot structure schematic diagram described in present invention reinforcement the 5th embodiment of cable testing bridge.

Figure 12 is the abrasion-resistant block structure schematic diagram described in present invention reinforcement the 5th embodiment of cable testing bridge.

Figure 13 is the elastic damping block structure schematic diagram described in present invention reinforcement the 5th embodiment of cable testing bridge.

Figure 14 is the crane span structure abutting joint schematic diagram described in present invention reinforcement the 6th embodiment of cable testing bridge.

Figure 15 is the connector overall structure diagram described in present invention reinforcement the 6th embodiment of cable testing bridge.

Figure 16 is the connector internal structure schematic diagram described in present invention reinforcement the 6th embodiment of cable testing bridge.

Figure 17 is the fastener internal structure schematic diagram described in present invention reinforcement the 6th embodiment of cable testing bridge.

Embodiment

In order to facilitate the understanding of the purposes, features and advantages of the present invention, with reference to Figure of description pair The embodiment 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 It is different from other manner described here using other to implement, 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 may be included at least one realization side of the present invention Special characteristic, structure or characteristic in formula." in one embodiment " that different places occur in this manual not refers both to Same embodiment, nor the single or selective embodiment mutually exclusive with other embodiment.

Reference picture 1, is first embodiment of the invention, and Fig. 1 provides a kind of side structure signal for strengthening cable testing bridge Figure.As seen from the figure, agent structure of the present invention includes pressure part 100, and it is arranged at the bottom of the reinforcement cable testing bridge, and pressure-bearing The upper surface of part 100 is provided with separator 300；Locating part 200, its be arranged at it is described reinforcement cable testing bridge two sides, and with Pressure part 100 interconnects, and locating part 200 includes the first locating part 201 and the second locating part 202；Pressure part 100 and locating part The structure of 200 one flute profile of overall composition, is internally formed accommodation 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.Because the structure type of the present invention belongs to pellet type, pressure part 100 is arranged at the present invention and strengthens electricity The bottom position of cable crane span structure, the structure of the generally tabular of pressure part 100, its cable being laid in crane span structure are placed directly in pressure-bearing The upper surface of part 100.The upper surface of pressure part 100 is provided with separator 300,300 in the present invention one of them of separator Function is to play a part of that the cable for needing to lay is isolated and classified.Separator 300 is the structure of bar tabular, and its is vertical The upper surface of pressure part 100 is arranged on, and set-up mode is：It is arranged along the longitudinal direction of pressure part 100, meanwhile, Separator 300 is arranged at the centre position of pressure part 100, and it just can be by cable testing bridge corresponding in its altitude range Portion space is divided into two.Separator 300 has certain thickness, it is therefore desirable to it is to be noted that：Because it is to be vertically installed in hold The centre position of casting die 100, the effect of being obviously improved is played on structure tension performance, in stress system, separator 300 Set-up mode is similar to the effect structure of ribbed stiffener.The stabilization of the integrally-built anti-bending strength of the present invention and system can be lifted Property.

Agent structure of the present invention also 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 forming with pressure part 100 Space M effect.Locating part 200 is arranged at the lateral location of reinforcement cable testing bridge of the present invention, further, locating part 200 are respectively arranged at two side edges of the pressure part 100, and are fixedly connected with the both sides of pressure part 100.Enter one Step, 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 locating part 201 and the second locating part 202 be on the whole Correspond to each other, both have identical height and width, are each perpendicular to pressure part 100 and are fixed.

Therefore, reference picture 1, and understood with reference to above-mentioned, in the present invention, pressure part 100 has collectively constituted one with locating part 200 The structure of individual flute profile, groove has been internally formed accommodation space M, and accommodation space M lower layer spaces are isolated part 300 and are divided into two.

Reference picture 1~3, for second embodiment of the present invention, the embodiment is different from one embodiment：First Locating part 201, which includes the first side plate 201a and the first revolving part 201b, the first side plate 201a, includes first foundation section 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, 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 arranged at the bottom position that the present invention strengthens cable testing bridge, and its cable being laid in crane span structure is directly placed 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 bar tabular, It is arranged perpendicular to pressure part 100, and along the longitudinal direction of pressure part 100, meanwhile, separator 300, which is arranged at, to be held The centre position of casting die 100.Locating part 200 is arranged at the lateral location of reinforcement cable testing bridge of the present invention, further, limit Position part 200 is respectively arranged at two side edges of the pressure part 100, and is fixedly connected with the both sides of pressure part 100. 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 limit Position 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 are whole Corresponded to each other on body, both have identical height and width, are each perpendicular to pressure part 100 and are fixed.

Therefore, pressure part 100 has collectively constituted the structure of a flute profile with locating part 200, and groove has been internally formed accommodating sky Between M, and accommodation 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 action effect similar with the first locating part 201 on the whole in the present invention, all Be to be placed on accommodation space M cable carry out it is spacing.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 bar tabular, is the first side plate 201a bottom Basic component, its 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 strata, the integrally-built second layer is correspond to, 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, its upper end Docked mutually with the first lower end for being engaged section 201a-2 and be fixed as an entirety.

Therefore, can be by the vertical section position corresponding to first foundation section 201a-1 from the foregoing, in the present embodiment Install and be set to the second layer for first layer, the vertical section position corresponding to the first occlusion section 201a-2 thereon.With first foundation The occlusion sections of section 201a-1 and first 201a-2 junction is line of demarcation, and accommodation space M is divided into first layer and the second layer.

First revolving part 201b is the component in the second layer, further, the first revolving part 201b the inner and first Section of foundation 201a-1 upper end is hinged by axle 400, and it can carry out the rotation in the range of certain angle around axle 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, Just take 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 set in correspondence with each other with the second locating part 202, therefore both body junctions 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 action effect similar with the second locating part 202 on the whole in the present invention, all Be the cable that is placed in accommodation space M is carried out it is spacing.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 bar tabular, is under the second side plate 202a Portion's basic component, its 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 202a-1 upper stratas, the integrally-built second layer is correspond to, 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, Docked mutually with the second lower end for being engaged section 202a-2 and be fixed as an entirety in its upper end.

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

Second revolving part 202b is the component in the second layer, further, the second revolving part 202b the inner and second Section of foundation 202a-1 upper end is hinged by axle 400, and it can carry out the rotation in the range of certain angle around axle 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 In the upper end of separator 300.

Reference picture 4 or 5, for the 3rd embodiment of the present invention, what the embodiment was different from second embodiment is：First Occlusion section 201a-2 and second, which is engaged on the inside of section 202a-2, is provided with the equidistantly concavo-convex Great Wall platy structure arranged, and the One revolving part 201b is also respectively provided with corresponding concaveconvex structure with the second revolving part 202b outside.

As shown in figure 4, uniformly arranged laterally on the first occlusion section 201a-2 and the second occlusion section 202a-2 medial surface Concaveconvex structure, the structure be similar to great wall-shaped board structure type.Meanwhile described in above-described embodiment, due to first When revolving part 201b rotates to vertical position, it is engaged section 201a-2 with first and contacts with each other, therefore, in the present invention, in the first rotation Turn part 201b and be also provided with corresponding concaveconvex structure, and the first revolving part 201b relative to the first occlusion section 201a-2 lateral surface The concaveconvex structure in outside is worked in coordination with the first concaveconvex structure being engaged on the inside of section 201a-2, the first revolving part 201b around axle 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.

With the first revolving part 201b identicals, the second revolving part 202b is relative to the second lateral surface for being engaged section 202a-2 There is provided 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 axle 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 first revolving part 201b outer end is provided with the first butt joint D-1, the second revolving part 202b Outer end be provided with the second butt joint D-2 for being matched with the first butt joint D-1.First butt joint D-1 has opening simultaneously Upward, the second butt joint D-2 has opening and down.First revolving part 201b and the second revolving part 202b are rotated to horizontal level Afterwards, the first butt joint D-1 with the second butt joint D-2 is engaged docks, form one, and the upper end with separator 300 just It is in contact, is mounted in the top of separator 300.

From the foregoing, reference picture 5, when simultaneously the first revolving part 201b and the second revolving part 202b is rotated to vertical direction When, the present invention strengthens directly placing cable in the accommodation space M of cable testing bridge, but do not have hierarchy, only one layer Overall space.And when the first revolving part 201b and the second revolving part 202b is rotated to horizontal level simultaneously, due to the first rotation Part 201b and the second revolving part 202b is connected and is mounted in the top of separator 300, accommodation space M is divided into two layers, upper and lower two Layer can set cable.In actual applications, can be first by a kind of cable laying on pressure part 100, i.e. first layer, due to First layer is additionally provided with separator 300, therefore first layer can be according to two wire casings come laying of classifying., can be by after completion One revolving part 201b and the second revolving part 202b are rotated to level, cover first layer, form the second sheaf space, continue to add cable Line.Therefore, this embodiment is not only advantageous to the sorting placement of different cables, moreover it is possible in being total to for separator 300 and both sides side plate The intensity of very big enhancing structure under same-action.

Reference picture 6~8, for the 4th embodiment of the present invention, the embodiment is different from one embodiment：This hair The bright agent structure for strengthening cable testing bridge also includes reinforcer 600, and it is attached with the locating part 200.Specifically, In the present invention, reinforcer 600 has the function that to improve integrally-built strength and stability.Further, mainly strengthen The effect of first revolving part 201b and the second revolving part 202b strength and stability, and rotated with first in locating part 200 Part 201b and the second revolving part 202b are attached.

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

The one side of reinforcer 600 is smooth flat, and relative another side is the one side with concaveconvex structure, and this concaveconvex structure Worked in coordination with the first revolving part 201b and the second revolving part 202b concaveconvex structure.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 the rotation of set-up mode insertion first of transverse direction Turn part 201b and the second revolving part 202b, be connected.

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

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

In the present invention, reinforcer 600 can be overturn to horizontal position in the first revolving part 201b and the second revolving part 202b Postpone and be embedded in being used cooperatively.And need not be installed when both are located at vertical position, its main purpose is：First revolving part After 201b and the second revolving part 202b upsets, the cable laid thereon will produce pressure effect to it, 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 deficiency, therefore Reinforcer 600 can improve the first revolving part 201b and the second revolving part 202b actual load performance.

Reference picture 9~13, for the 5th embodiment of the present invention, the embodiment is different from one embodiment：The One revolving part 201b and first foundation section 201a-1 top are hinged by damper assembly 700.Similarly, the second revolving part 202b and the second section of foundation 202a-1 top are hinged (due to the first revolving part 201b and also by damper assembly 700 Two revolving part 202b attachment structure 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 second section of foundation 202a-1 top have it is embedding Groove, the second revolving part 202b inner end edge are positioned in caulking groove, and realize that both is be hinged by damper assembly 700.

Damper assembly 700 has connection and the effect of buffering concurrently, and it mainly includes elastic damping block 701, wear-resistant block 702, turned Axle 703 and regulating part 704.Further, one end of rotating shaft 703 is fixed on the end position of the second revolving part 202b sides.Turn The main body of axle 703 is cylindric, and its outer surface has the screw thread of a segment length.Further, the outer surface of rotating shaft 703 also opens up It is groove to have the first groove 703a that twice are parallel to each other and the second groove 703b, the first groove 703a and the second groove 703b Shape, it is arranged along the longitudinal direction of rotating shaft 703, and both mutually face in the outer surface of rotating shaft 703.

In the present embodiment, wear-resistant block 702 is sheathed on the periphery of rotating shaft 703.The main body of wear-resistant block 702 is cannula-like, internal For hollow passageway, internal diameter corresponds to the body outer diameter of rotating shaft 703.Further, it is provided with the madial wall of wear-resistant block 702 correspondingly In the first groove 703a and the second groove 703b the first projection 702a and the second projection 702b.Wherein, the first projection 702a and Second projection 702b size, structure matches with the first groove 703a and the second groove 703b respectively, and is complementary type.When When needing wear-resistant block 702 being set in the outside of rotating shaft 703, the first projection 702a and the second projection 702b need to be only respectively aligned to First groove 703a and the second groove 703b, and promoted and nesting can be achieved.

In the present embodiment, wear-resistant block 702 is interspersed is erected on elastic damping block 701.Elastic damping block 701 is fixed on The top of two section of foundation 202a-1 sides, it has the opening along the second section of foundation 202a-1 longitudinal directions, and opening size corresponds to resistance to The body outer diameter of abrading block 702.Further, a plurality of damping projection 701a are provided with the madial wall of elastic damping block 701, Damping projection 701a is the strip thrust equidistantly arranged along the longitudinal direction of elastic damping block 701.Corresponding, The first amortisseur bar 702c and the second amortisseur bar 702d, the first amortisseur bar 702c and are provided with the outer surface of wear-resistant block 702 Two amortisseur bar 702d are that the high-strength abrasion-proof of strip is raised, and both are arranged at wear-resistant block 702 along longitudinal face of wear-resistant block 702 Outer surface.Wherein, the first amortisseur bar 702c and the second amortisseur bar 702d width are respectively less than two dampings of arbitrary neighborhood The distance between raised 701a, to ensure, when wear-resistant block 702 is interspersed in the opening of elastic damping block 701, the first damping Bar 702c and the second amortisseur bar 702d can be embedded between the space between damping projection 701a.When the second revolving part 202b is overall Around rotating shaft 703, and when drive the wear-resistant block 702 to be rotated, the resistances of the first amortisseur bar 702c and second on wear-resistant block 702 For Buddhist nun's bar 702d because of densely arranged damping projection 701a inhibition, the rotation for causing wear-resistant block 702 is in discontinuous interval Motion state, and drag effect all the time all be present during rotating.

Preferably, damping projection 701a end is arranged to dentation, optimize drag effect.

In actual use, because the end of rotating shaft 703 is fixed on the second revolving part 202b side, therefore when the rotation of upset second When turning part 202b, rotating shaft 703 can follow the second revolving part 202b to rotate together with, and Pivot axle is rotating shaft 703 Central shaft.Due to the first groove 703a and the second groove 703b and wear-resistant block 702 of rotating shaft 703 the first projection 702a and second Projection 702b is interspersed to be connected, and is formed and fixed, therefore rotating shaft 703 also will drive wear-resistant block 702 to be rotated.On the other hand , although elastic damping block 701 is sheathed on the periphery of wear-resistant block 702, it is also fixed on the second section of foundation 202a-1 side, Therefore wear-resistant block 702 will not be followed to be rotated, it is clear that, the damping projection 701a of the madial wall of elastic damping block 701 will Intermittent inhibition is produced to the first amortisseur bar 702c and the second amortisseur bar 702d of the lateral surface of wear-resistant block 702, i.e. realization pair Second revolving part 202b upset produces intermittent and hindered.

Damper assembly 700 is used to cause the second revolving part 202b when quick closedown or unlatching with certain Cushioning effect, meanwhile, the second revolving part 202b can be caused to open to position at any angle and remained stationary have one Fixed positioning action.

Preferably, the inner face of wear-resistant block 702 is held in the mouth by compression spring and the second section of foundation 202a-1 lateral surface Connect.In the present embodiment, the threaded sections of the outer end of rotating shaft 703 are also arranged with regulating part 704, and regulating part 704 uses nut, regulation Outer face of the part 704 in use all the time with wear-resistant block 702 is bonded.Therefore, can be squeezed by rotating regulating part 704 Wear-resistant block 702 is pressed, its longitudinal direction along rotating shaft 703 is stretched, and then adjusts damping projection 701a and the first amortisseur bar Handing-over length between 702c and the second amortisseur bar 702d, it is finally reached control and the effect of regulation damping power.

Reference picture 14~17, for the 6th embodiment of the present invention, what the embodiment was different from the 5th embodiment is： In the present invention, the crane span structure is combined installation in actual use by connection sheet P, 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 800 It is fixed.Connection sheet P is laminated structure, and it is arranged on the outer surface of crane span structure both sides locating part 200, and is placed with some 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 800.Even Fitting 800 has the function that connection sheet P and locating part 200 are tightened up and be compacted in the present invention.

Connector 800 includes fastener 801, sleeve member 802 and tensioning member 803.Wherein, the generally pin of fastener 801 Shape, it includes turret head 801a, transmission segment 801b and telescopic section 801c, three and is in turn connected to form entirety.Turret head 801a positions It is six flat-shaped prisms in the end of fastener 801, the site of action as external force.Transmission segment 801b is hollow tubulose knot Structure, inside have passage, and passage penetrates turret head 801a and connected with exterior space formation, and is provided with the madial wall of passage Screw thread.Telescopic section 801c, which has the function that to be pressurized, to be tightened up, and it is hollow-core construction that it is internal, and mutual with transmission segment 801b inner passage It is connected.Telescopic section 801c outer wall is the arc structure of smaller curvature, and in outwardly trend, it enters with transmission segment 801b Row is fixedly connected, and the size at maximum transversal section corresponds to connecting hole O width, and is slightly larger than transmission segment 801b section Size.It will be apparent that after fastener 801 is inserted in connecting hole O, turret head 801a is stuck in outside, telescopic section 801c energy It is enough to enter just, simultaneously as telescopic section 801c arcuation outer wall so that can have one between transmission segment 801b and connecting hole O Fixed gap.Further, in this gap in be arranged with closely knit part 804, closely knit part 804 is hollow tubular, its madial wall and outer Side wall is bonded with transmission segment 801b outside and connecting hole O madial wall respectively.

The generally bolt shape of sleeve member 802, the inside of its main body have Telescopic path R, and Telescopic path R sections are circle, It is overall through sleeve member 802.Sleeve member 802 is arranged in the inner passage of fastener 801, and body outer surface have be matched with The screw thread of transmission segment 801b madial walls.Therefore, the screw thread that sleeve member 802 is coordinated by this, can enter in the inside of fastener 801 Row stretching motion.The outer end of the main body of sleeve member 802 is provided with the second turret head 802a, and its overall structure is also flat-shaped six prism, Application point as external force, when external force applies moment of torsion effect to the second turret head 802a, you can the entirety of control sleeve member 802 exists Linear motion inside fastener 801.Further, the inner termination of sleeve member 802 extends to the telescopic section 801c of fastener 801 In cavity, and press part 802b is additionally provided with the inner termination of sleeve member 802, press part 802b is the tubulose of variable cross-section.Even During the original state of fitting 800, press part 802b smallest cross-sectional end and the main body of sleeve member 802 are attached, maximum cross-section end The madial wall being just against at telescopic section 801c maximum transversals section, meanwhile, between the second turret head 802a and turret head 801a In the presence of certain gap, overall for sleeve member 802 allows space.

Tensioning member 803 is pin spike-like structures, and it is arranged in the Telescopic path R of sleeve member 802.The main body of tensioning member 803 Outer end is provided with the 3rd turret head 803a, and its overall structure is also flat-shaped six prism, the application point as external force.Tensioning member 803 The other end be provided with stretching head 803b, stretching head 803b is through telescopic section 801c and extends to the outside of its cavity.Stretching head There is one section of screw thread on 803b outer surface.Further, telescopic section 801c end has inwardly protruded cooperation section 801d, coordinating to run through inside section 801d has the screw for being matched with stretching head 803b.In the present embodiment, the main body of tensioning member 803 is inserted After entering Telescopic path R, stretching head 803b screws with coordinating section 801d to coordinate, while the 3rd turret head 803a is stuck in the second turret head On the outside of 802a.Further, it is brought into close contact between the 3rd turret head 803a and the second turret head 802a, and the 3rd turret head 803a Outer surface also indent to have interior hex slot 803c, interior hex slot 803c be hollow hexa-prism, be equally used for the effect of external force Point.

In the present embodiment, the connector 800 during original state, its fastener 801, sleeve member 802 and tensioning member 803 it Between be only to contact with each other, and powerless effect.Now, connector 800 is overall is directly inserted into connecting hole O, and just coordinates Without extruding.When rotating forward sleeve member 802 (and keep tensioning member 803 motionless), the press part 802b of the end of sleeve member 802 will be right Telescopic section 801c madial wall produces outside squeezing action, forces telescopic section 801c to have outstanding deformation tendency.So After rotate forward tensioning member 803, due to being brought into close contact between the 3rd turret head 803a and the second turret head 802a, tensioning member 803 Itself can not produce linear movement, therefore the cooperation section 801d that its direct pull is attached thereto so that coordinate section 801d have to The trend inside tightened up.Continue circumgyration stretch part 803, while under press part 802b mating reaction so that telescopic section 801c It is deformed, cross section is gradually raised everywhere becomes big, and the size more than connecting hole O so that the both ends of fastener 801 are stuck in Connecting hole O both ends.Preferably, closely knit part 804 can use flexible material (such as rubber), the inner of closely knit part 804 has The chamfering J of telescopic section 801c outer walls is matched with, chamfering J presence is more beneficial for the contact between telescopic section 801c and connecting hole O With it is closely knit.

It is important that, it should be noted that the construction and arrangement of the application shown in multiple different exemplaries is only It is exemplary.Although several embodiments are only described in detail in this disclosure, the personnel of the displosure content are referred to It should be easily understood that on 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, yardstick, structure, shape and ratio and parameter value are (for example, temperature, pressure Deng), mounting arrangements, the use of material, the change etc. of color, orientation).Can be by more for example, being shown as integrally formed element Individual part or element are formed, and the position of element can be squeezed or otherwise change, 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 order of resequence any process or method and step.In the claims, any " dress Put plus function " clause be intended to be covered in it is described herein perform the structure of the function, and be not only structure and be equal But also it is equivalent structure.Without departing from the scope of the invention, design, operation that can be in exemplary Other are made in situation and arrangement to replace, retrofit, change and omit.Therefore, the present invention is not restricted to specific embodiment, 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, all spies of actual embodiment can not be described Sign (that is, with currently consider execution the present invention those incoherent features of optimal mode, or in realize the present invention it is incoherent Those features).

It should be understood that in the development process of any actual embodiment, can such as in any engineering or design object Substantial amounts of embodiment is made to determine.Such development effort is probably complicated and time-consuming, but for those benefits For the those of ordinary skill of the displosure content, it is not necessary to excessive experiment, the development effort will be a design, manufacture and The routine work of production.

It should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, although with reference to preferable The present invention is described in detail embodiment, it will be understood by those within the art that, can be to the technology of the present invention Scheme is modified or equivalent substitution, and without departing from the spirit and scope of technical solution of the present invention, it all should cover in this hair Among bright right.

Claims (10)

1. one kind strengthens cable testing bridge, it is characterised in that：Including,

Pressure part (100), the bottom of the reinforcement cable testing bridge is arranged at, and the upper surface of the pressure part (100) is provided with Separator (300)；

Locating part (200), two sides of the reinforcement cable testing bridge are arranged at, and are interconnected with the pressure part (100), institute Stating locating part (200) includes the first locating part (201) and the second locating part (202), the pressure part (100) and the locating part (200) structure of one flute profile of overall composition, is internally formed accommodation space (M)；And

Reinforcer (600), it is attached with the locating part (200).

2. strengthen cable testing bridge as claimed in claim 1, it is characterised in that：First locating part (201) and second spacing Part (202) is respectively arranged at two sides of the pressure part (100), and 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).

3. strengthen cable testing bridge as claimed in claim 2, it is characterised in that：First locating part (201) and described second Locating part (202) is set in correspondence with each other；

The first foundation section (201a-1) is arranged at the lower end of the first occlusion section (201a-2), and both ends are mutual Connection, while second section of foundation (202a-1) is arranged at the second occlusion section

The lower end of (202a-2), and both ends interconnect.

4. strengthen cable testing bridge as claimed in claim 3, it is characterised in that：The first occlusion section

The Great Wall tabular knot of equidistantly concavo-convex arrangement is provided with the inside of (201a-2) and the second occlusion section (202a-2) Structure.

5. strengthen cable testing bridge as claimed in claim 4, it is characterised in that：First revolving part (201b) and described second The outside of revolving part (202b) is also respectively provided with corresponding concaveconvex structure；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 Work 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.

6. strengthen cable testing bridge as claimed in claim 5, it is characterised in that：The inner of first revolving part (201b) and institute The upper end for stating first foundation section (201a-1) is hinged by axle (400), and first revolving part (201b) around axle to perpendicular Nogata is engaged section (201a-2) backward, with described first and is entrenched togather each other by the concaveconvex structure worked in coordination；

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

7. strengthen cable testing bridge as claimed in claim 6, it is characterised in that：The separator (300) is arranged at the pressure-bearing On the longitudinal direction of part (100), and it is vertically installed in the upper surface of the pressure part (100).

8. strengthen cable testing bridge as claimed in claim 7, it is characterised in that：The outer end of first revolving part (201b) is set The first butt joint (D-1) is equipped with, the outer end of second revolving part (202b), which is provided with, is matched with the first butt joint (D- 1) the second butt joint (D-2).

9. strengthen cable testing bridge as claimed in claim 8, it is characterised in that：First revolving part (201b) and described second Revolving part (202b) rotation to after horizontal level, the first butt joint (D-1) with the second butt joint (D-2) is engaged docks, shape Integrally, and the upper end with the separator (300) is in contact just.

10. strengthen cable testing bridge as claimed in claim 9, it is characterised in that：The wherein one side of the reinforcer (600) is light Sliding plane, another side carry concaveconvex structure, and it is tied with first revolving part (201b) and the concavo-convex of the second revolving part (202b) Structure is worked in coordination；

Both concaveconvex structures mutually face occlusion, and are fixedly connected using bolt.