CN205377210U - Composite cable bridge -rack - Google Patents
Composite cable bridge -rack Download PDFInfo
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- CN205377210U CN205377210U CN201620105387.1U CN201620105387U CN205377210U CN 205377210 U CN205377210 U CN 205377210U CN 201620105387 U CN201620105387 U CN 201620105387U CN 205377210 U CN205377210 U CN 205377210U
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Abstract
The utility model relates to a cable construction auxiliary member technical field specifically discloses a composite cable bridge -rack, a serial communication port, including at least one first net module, at least one second net module, at least one third net module, at least one fourth net module, at least one the 5th net module to and at least one side outlet, link to each other through a connecting device between side outlet and each the net module, connect by the 2nd connecting device between first net module and the second net module, connect by the 3rd connecting device between second net module and the third net module, connect by fourth connecting device between third net module and the fourth net module, connect by the 5th connecting device between second net module and the 5th net module, behind the technical scheme, can assemble into the composite cable bridge -rack of various elbow connection according to on -the -spot demand when the construction more than adopting.
Description
Technical field
This utility model relates to cable construction auxiliary member technical field, is specifically related to one and is specifically designed to the laying of information line, utilizes vertical and horizontal ball ferrum cross weld to become cancellate composite cable bridge-rack.
Background technology
Cable testing bridge is the full name of the rigid structure system with contiguity supporting cable that the straightway by pallet or ladder, curved logical, assembly and trailing arm, suspension bracket etc. are constituted.Cable testing bridge applies in general to the place such as cable laying and marine drilling of large enterprise, heavy construction power transformation, erecting cable, large bridge, subway, and cable testing bridge is generally arranged at bottom the ceiling of building with overhanging way.
But, due to the engineering method commonly used on the market at present, and make information line when distribution because connecting sheet or the stator height higher than ball ferrum, easily make when bracing wire information line encounter stator or connect sheet and impaired.
Additionally, current existing cable testing bridge is all formed according to single gauge under client is customized by manufacturer, it is impossible to customized, another manufacturer also cannot be prefabricated, therefore the length of cable testing bridge, width are all fixed, when user is constructed at the scene, in case of off-gauge demand or need turn time, then cable testing bridge must be cut and weld again, so not only technique is loaded down with trivial details, operation inconvenience, assembles very flexible, but also can form waste of material and the problem of landed cost increase.
In view of problem above, this utility model provides the composite cable bridge-rack of a kind of improvement.
Utility model content
This utility model provides a kind of composite cable bridge-rack that can be assembled into various bent sub when construction according to field demand, to solve the problems such as equipped dumb, the delivery inconvenience of existing cable crane span structure, thus simplifying the assembling arrangement step of cable testing bridge, saving manpower and expense, improving working performance.
nullFor reaching above-mentioned purpose,The technical solution adopted in the utility model is: a kind of composite cable bridge-rack,At least one first mesh module latticed is become with longitudinal ball ferrum cross weld including by horizontal ball ferrum,With the first L-shaped at least one being vertically connected the second mesh module of mesh module,With the second mesh module T-shaped at least one being vertically connected the 3rd mesh module,Drop-over at least one the 4th mesh module after the 3rd mesh module,At least one the 5th mesh module being connected vertically upward or downwards with the second mesh module,And at least one side line outlet being connected with each mesh module above-mentioned,It is connected by the first connecting device between described side line outlet and each mesh module,Connected by the second connecting device between described first mesh module and the second mesh module,Connected by the 3rd connecting device between described second mesh module and the 3rd mesh module,Connected by the 4th connecting device between described 3rd mesh module and the 4th mesh module,Connected by the 5th connecting device between described second mesh module and the 5th mesh module,Described horizontal ball ferrum linearly type,Described longitudinal ball ferrum is Qian font.
Further, described first connecting device, second connecting device, 3rd linked set, 4th connecting device and the 5th connecting device all comprise at least one the upper stator playing fixation or lower stator, fixed be respectively arranged at two ends with one section of curved arc section matched with the cylindrical of horizontal ball ferrum or longitudinal ball ferrum, described lower stator coordinates and is provided with several curved arc sections mated with the cylindrical of horizontal ball ferrum or longitudinal ball ferrum, fixed is overlapped on horizontal ball ferrum or longitudinal ball ferrum with the cooperation of described lower stator, fixed is provided with at least one pilot hole with lower stator.By screw and nut, upper stator and lower stator are fastened.
Further, the upper stator that described first connecting device includes an outlet conversion sheet and a plurality of and described outlet conversion sheet coordinates, described outlet conversion sheet is provided with at least one line outlet and several pilot holes corresponding with upper stator, one end of described outlet conversion sheet is provided with one section of curved arc section in order to accommodating horizontal ball ferrum, outlet conversion sheet and upper stator being fastened by screw and nut, described outlet-pipe is arranged in line outlet.
Further, described 3rd connecting device includes the T connector bottom connecting device being located in the middle of the 3rd mesh module section and two the circular sliding slopes devices being respectively arranged on the 3rd mesh module section both sides.
Further, described T connector bottom connecting device includes upper connection under bottom sheet and joint bottom the joint that cooperates connecting sheet, and for fastening the upper screw connecting lower connection sheet bottom sheet and joint and nut bottom joint, upper bottom described joint connecting the lower end connecting sheet bottom sheet and joint and coordinate and be provided with the curved arc section that the cylindrical of several and horizontal ball ferrum matches, described curved arc section is in order to be overlapped in the horizontal ball ferrum of the second mesh module and the 3rd mesh module junction respectively and to match with the trend of horizontal ball ferrum.
Further, described circular sliding slopes device includes R angle supporting spring, joint switching piece and several are in order to the lower stator of jointing switching piece, the middle part of described joint switching piece is arc-shaped, its two ends are consistent with the horizontal ball ferrum of the second mesh module and the 3rd mesh module trend respectively, the described middle part of joint switching piece is provided with an arc section matched with the cylindrical of longitudinal ball ferrum with the junction at two ends, and the two ends of described lower stator are overlapped on two horizontal ball ferrum respectively and lower stator and joint switching piece are fixed by screw and nut.Further, described R angle supporting spring includes orthogonal two faces.
Further, the horizontal bottom of described R angle supporting spring can be strip, and described horizontal bottom and vertical plane are equipped with pilot hole, by fixture by R angle supporting spring and horizontal ball ferropexy.
Further, the horizontal bottom of described R angle supporting spring can be square, and arranges hard point, described horizontal bottom and vertical plane are equipped with pilot hole between described horizontal bottom and vertical plane, by fixture by R angle supporting spring and horizontal ball ferropexy.
Further, described R angle supporting spring can be formed by an iron rod bending, and the both sides of its horizontal bottom offset with two sides of orthogonal described second mesh module and described 3rd mesh module respectively, and its support division is in the taper with circular arc chamfering.
Further, described second connecting device includes 90 degree of elbow and connects sheet, one lower clamping piece in strip, a plurality of upper clips being located on lower clamping piece, and a circular sliding slopes device, described 90 degree of elbows connect sheet and include orthogonal three faces between two, one of them face is located at bottom this cable testing bridge and is fixedly linked by screw and nut and lower clamping piece and upper clip, two other face is attached at the first mesh module and the longitudinal surface of the second mesh module respectively, and fix with the first mesh module and the second mesh module respectively, one end of described upper clip is provided with pilot hole, its other end is provided with to block the buckling parts of orthogonal two horizontal ball ferrum ends.The other end of described lower clamping piece is fixedly linked with the R angle supporting spring in circular sliding slopes device.
Further, described 4th connecting device includes the type joint bottom connecting device being located in the middle part of the 3rd mesh module and the 4th mesh module link position, and lays respectively at several side connecting devices of link position both sides.A described type joint bottom connecting device and side connecting device all include several upper stators cooperated and lower stator, in a described type joint bottom connecting device, the two ends of upper stator and lower stator are respectively cooperating with being overlapped on longitudinal ball ferrum of longitudinal ball ferrum of the 3rd mesh module and the 4th mesh module, in described side connecting device, the two ends of upper stator and lower stator are then respectively cooperating with being overlapped on the horizontal ball ferrum of the horizontal ball ferrum of the 3rd mesh module and the 4th mesh module, upper stator and lower stator are fixed by screw and nut.
Further, described 5th connecting device includes a rise and fall connecting device and several lower stators;Described rise and fall connecting device includes one and is become latticed mesh flake in arc-shaped by longitudinal ball ferrum and transverse direction ball ferrum cross weld, the rise and fall switching piece that two panels is consistent with the arc angle of mesh flake, and several connection sheet, the middle part of described connection sheet is provided with one section of curved arc section matched with the cylindrical of longitudinal ball ferrum, it is respectively arranged at two ends with a pilot hole, described rise and fall switching piece is provided with several connecting holes, a portion connecting hole is reserved screw, the height of described rise and fall switching piece is consistent with the profile height of longitudinal ball ferrum, described two panels rise and fall switching piece is respectively arranged on the both sides of mesh flake, by connecting sheet, screw and nut are by wherein a piece of rise and fall switching piece and mesh flake, second mesh module is connected, another sheet rise and fall switching piece and mesh flake, 5th mesh module is connected;The two ends of several lower stators described are overlapped on different horizontal ball ferrum respectively and two ends respectively with the second mesh module and the 5th mesh module of rise and fall switching piece are fixed by screw and nut.
After adopting above technology, this utility model compared with prior art has the advantage that
1, utilizing horizontal ball ferrum and longitudinal ball ferrum to intersect the height produced allows lower stator, upper clip and connection sheet be hidden in the diameter height of horizontal ball ferrum and longitudinal ball ferrum, thus avoiding information line to encounter connection sheet or stator when distribution and impaired.
2, composite cable bridge-rack of the present utility model can carry out according to the user's different demands when installation exercise splicing assemble, assemble simple and convenient, thus avoiding the waste of material, facilitate user storage and delivery, quite facility and extensively use.Meanwhile, standardized designs and the production of convenience and the cable testing bridge manufactured are conducive to.As: utilize the combination of upper clip and lower clamping piece in the second connecting device, and easy various joint switching piece is such that it is able to repack into and have cable testing bridge 90 degree curved.And for example: utilize a rise and fall connecting device of simple in construction and several lower stators can be assembled into and rise or fall bent sub, because crane span structure has various different width, thus the mesh flake in rise and fall connecting device can be prefabricated according to the width of custom, recycling connects sheet and rise and fall switching piece combines the rise and fall bent sub that just can produce various width.And for example: utilize the 3rd connecting device can be assembled into T-shaped bent sub, utilize two the 3rd connecting devices to be symmetrical arranged face-to-face, cross bent sub can be formed.For another example: utilize the 4th connecting device can be assembled into yi word pattern joint, consequently facilitating increase the length of original cable testing bridge according to field demand when construction.Therefore can produce in a large number and turn to one advantage of the present utility model with unified specification.
Accompanying drawing explanation
Accompanying drawing 1 is structural representation of the present utility model;
Accompanying drawing 2 is a kind of upper stator of the present utility model and the structural representation of lower stator cooperation;
Accompanying drawing 3 is the structural representation that on another kind of the present utility model, stator and lower stator coordinate;
Accompanying drawing 4 is the front view of the first connecting device of the present utility model;
Accompanying drawing 5 is the side view of the first connecting device of the present utility model;
Accompanying drawing 6 is the upper top view connecting sheet bottom joint of the present utility model;
Accompanying drawing 7 is the side view of T connector bottom connecting device of the present utility model;
Accompanying drawing 8 is the structural representation of strip R angle of the present utility model supporting spring;
Accompanying drawing 9 is the sectional view in A-A direction in Fig. 8;
Accompanying drawing 10 is the top view of square R angle of the present utility model supporting spring;
Accompanying drawing 11 is the side view of square R angle of the present utility model supporting spring;
Accompanying drawing 12 is the structural representation of taper R angle of the present utility model supporting spring;
Accompanying drawing 13 is the second connecting device partial top view of the present utility model;
Accompanying drawing 14 is the second connecting device partial side view of the present utility model;
Accompanying drawing 15 is the structural representation of a type joint bottom connecting device of the present utility model;
Accompanying drawing 16 is the structural representation of side connecting device of the present utility model;
Accompanying drawing 17 is the package assembly schematic diagram of rise and fall connecting device of the present utility model;
Accompanying drawing 18 is the side view of the 5th connecting device of the present utility model;
Accompanying drawing 19 is the top view of the 5th connecting device of the present utility model.
nullWherein,1. bottom 701.90 degree of elbows connection sheet 702. lower clamping piece 703. upper clip 8. the 3rd connecting device 801.T type joint bottom connecting device 802. circular sliding slopes device 803. joints of the first mesh module 2. second mesh module 3. the 3rd mesh module 4. the 4th mesh module 5. the 5th mesh module 6. first connecting device 601. outlet conversion sheet 602. outlet-pipe 7. second connecting device, bottom upper connection sheet 804. joint, lower sheet 805.R angle supporting spring 806. joint switching piece 807. fixture 9. the 4th connecting device 901. 1 type joint bottom connecting device 902. side connecting device 10. the 5th connecting device 1002. mesh flake 1003. rise and fall switching piece 1004. that connects connects 14. times stator 1001. rise and fall connecting devices of stator on the sheet 11. longitudinal ball ferrum 13. of transverse direction ball ferrum 12.
Detailed description of the invention
Below in conjunction with drawings and Examples, the utility model is described in further detail.
nullAs shown in Figure 1,A kind of composite cable bridge-rack,At least one first mesh module 1 latticed is become with longitudinal ball ferrum 12 cross weld including by horizontal ball ferrum 11,With the first L-shaped at least one being vertically connected the second mesh module 2 of mesh module 1,With the second mesh module 2 T-shaped at least one being vertically connected the 3rd mesh module 3,Drop-over at least one the 4th mesh module 4 after the 3rd mesh module 3,At least one the 5th mesh module 5 being connected vertically upward or downwards with the second mesh module 2,And at least one side line outlet being connected with each mesh module above-mentioned,It is connected by the first connecting device 6 between described side line outlet and each mesh module,Connected by the second connecting device 7 between described first mesh module 1 and the second mesh module 2,Connected by the 3rd connecting device 8 between described second mesh module 2 and the 3rd mesh module 3,Connected by the 4th connecting device 9 between described 3rd mesh module 3 and the 4th mesh module 4,Connected by the 5th connecting device 10 between described second mesh module 2 and the 5th mesh module 5,Described horizontal ball ferrum 11 linearly type,Described longitudinal ball ferrum 12 is in Qian font.
Described first connecting device 6, second connecting device 7, 3rd linked set, 4th connecting device 9 and the 5th connecting device 10 all comprise at least one the upper stator 13 playing fixation or lower stator 14, fixed 13 be respectively arranged at two ends with one section of curved arc section matched with the cylindrical of horizontal ball ferrum 11 or longitudinal ball ferrum 12, described lower stator 14 coordinates and is provided with several curved arc sections mated with the cylindrical of horizontal ball ferrum 11 or longitudinal ball ferrum 12, fixed 13 and described lower stator 14 coordinate and are overlapped on horizontal ball ferrum 11 or longitudinal ball ferrum 12, fixed 13 and lower stator 14 are provided with at least one pilot hole.By screw and nut, upper stator 13 and lower stator 14 are fastened.As Fig. 2 and Fig. 3 respectively illustrates two kinds of different structures of upper stator 13 and lower stator 14, in Fig. 2, described lower stator 14 is provided with two curved arc sections, and it coordinates with upper stator 13 and is overlapped on two horizontal ball ferrum 11, is provided with a pilot hole in the middle of two curved arc sections.In Fig. 3, described lower stator 14 is provided with three curved arc sections, and it can coordinate with upper stator 13 and is overlapped on three horizontal ball ferrum 11, is equipped with a pilot hole between adjacent another curved arc section.
The front view of Fig. 4 and Fig. 5 respectively the first connecting device 6 of the present utility model and side view, as shown in the figure, described first connecting device 6 includes an outlet conversion sheet 601, and the upper stator 13 that a plurality of and described outlet conversion sheet 601 coordinates, described outlet conversion sheet 601 is provided with at least one line outlet and several pilot holes corresponding with upper stator 13, one end of described outlet conversion sheet 601 is provided with one section of curved arc section in order to accommodating horizontal ball ferrum 11, by screw and nut, outlet conversion sheet 601 and upper stator 13 are fastened, described outlet-pipe 602 is arranged in line outlet.
Described 3rd connecting device 8 includes the T connector bottom connecting device 801 being located in the middle of the 3rd mesh module 3 section and two the circular sliding slopes devices 802 being respectively arranged on the 3rd mesh module 3 section both sides.
As shown in Figure 6 and Figure 7, described T connector bottom connecting device 801 includes upper connection bottom the joint that cooperates lower bottom sheet 803 and joint connecting sheet 804, and for fastening the upper screw connecting lower connection sheet 804 bottom sheet 803 and joint and nut bottom joint, bottom described joint, the upper end cooperation connecting connection sheet 804 under bottom sheet 803 and joint is provided with the curved arc section that the cylindrical of several and horizontal ball ferrum 11 matches, described curved arc section is in order to be overlapped in the horizontal ball ferrum 11 of the second mesh module 2 and the 3rd mesh module 3 junction respectively and to match with the trend of horizontal ball ferrum 11.
Described circular sliding slopes device 802 includes R angle supporting spring 805, joint switching piece 806, and several are in order to the lower stator 14 of jointing switching piece 806, the middle part of described joint switching piece 806 is arc-shaped, its two ends move towards consistent with the horizontal ball ferrum 11 of the second mesh module 2 and the 3rd mesh module 3 respectively, the described middle part of joint switching piece 806 is provided with an arc section matched with the cylindrical of longitudinal ball ferrum 12 with the junction at two ends, the two ends of described lower stator 14 are overlapped on two horizontal ball ferrum 11 respectively and lower stator 14 and joint switching piece 806 are fixed by screw and nut.Described R angle supporting spring 805 includes orthogonal two faces.
As shown in Figure 8 and Figure 9, the horizontal bottom of described R angle supporting spring 805 can be strip, and described horizontal bottom and vertical plane are equipped with pilot hole, R angle supporting spring 805 and horizontal ball ferrum 11 is fixed by fixture 807.
As shown in Figure 10 and Figure 11, the horizontal bottom of described R angle supporting spring 805 can be square, hard point is set between described horizontal bottom and vertical plane, described horizontal bottom and vertical plane are equipped with pilot hole, by fixture 807, R angle supporting spring 805 and horizontal ball ferrum 11 are fixed.
As shown in figure 12, described R angle supporting spring 805 can be formed by an iron rod bending, the both sides of its horizontal bottom offset with two sides of orthogonal described second mesh module 2 and described 3rd mesh module 3 respectively, and its support division is in the taper with circular arc chamfering.
As shown in Figure 13 and Figure 14, described second connecting device 7 includes 90 degree of elbow and connects sheet 701, one lower clamping piece 702 in strip, a plurality of upper clips 703 being located on lower clamping piece 702, and a circular sliding slopes device 802, described 90 degree of elbows connect sheet 701 and include orthogonal three faces between two, one of them face is located at bottom this cable testing bridge and is fixedly linked by screw and nut and lower clamping piece 702 and upper clip 703, two other face is attached at the longitudinal surface of the first mesh module 1 and the second mesh module 2 respectively, and fix with the first mesh module 1 and the second mesh module 2 respectively, one end of described upper clip 703 is provided with pilot hole, its other end is provided with to block the buckling parts of orthogonal two horizontal ball ferrum 11 ends.The other end of described lower clamping piece 702 is fixedly linked with the R angle supporting spring 805 in circular sliding slopes device 802.
Described 4th connecting device 9 includes being located at the type joint bottom connecting device 901 in the middle part of the 3rd mesh module 3 and the 4th mesh module 4 link position, and lays respectively at several side connecting devices 902 of link position both sides.As shown in Figure 15 and Figure 16, one type joint bottom connecting device 901 and side connecting device 902 all include several upper stators 13 cooperated and lower stator 14, in a described type joint bottom connecting device 901, the two ends of upper stator 13 and lower stator 14 are respectively cooperating with being overlapped on longitudinal ball ferrum 12 of longitudinal ball ferrum 12 of the 3rd mesh module 3 and the 4th mesh module 4, in described side connecting device 902, the two ends of upper stator 13 and lower stator 14 are then respectively cooperating with being overlapped on the horizontal ball ferrum 11 of the horizontal ball ferrum 11 of the 3rd mesh module 3 and the 4th mesh module 4, by screw and nut, upper stator 13 and lower stator 14 are fixed.
As shown in Figure 17, Figure 18 and Figure 19, described 5th connecting device 10 includes a rise and fall connecting device 1001 and several lower stators 14;nullDescribed rise and fall connecting device 1001 includes one and is become latticed mesh flake 1002 in arc-shaped by longitudinal ball ferrum 12 and transverse direction ball ferrum 11 cross weld,The rise and fall switching piece 1003 that two panels is consistent with the arc angle of mesh flake 1002,And several connection sheet 1004,The middle part of described connection sheet 1004 is provided with one section of curved arc section matched with the cylindrical of longitudinal ball ferrum 12,It is respectively arranged at two ends with a pilot hole,Described rise and fall switching piece 1003 is provided with several connecting holes,A portion connecting hole is reserved screw,The height of described rise and fall switching piece 1003 is consistent with the profile height of longitudinal ball ferrum 12,Described two panels rise and fall switching piece 1003 is respectively arranged on the both sides of mesh flake 1002,By connecting sheet 1004、Screw and nut are by wherein a piece of rise and fall switching piece 1003 and mesh flake 1002、Second mesh module 2 is connected,Another sheet rise and fall switching piece 1003 and mesh flake 1002、5th mesh module 5 is connected;The two ends of several lower stators 14 described are overlapped on different horizontal ball ferrum 11 respectively and two ends respectively with the second mesh module 2 and the 5th mesh module 5 of rise and fall switching piece 1003 are fixed by screw and nut.
Composite cable bridge-rack of the present utility model can carry out splicing and assemble according to the user's different demands when installation exercise, assemble simple and convenient, it is easy to user storage and delivery, it is to avoid the waste of material, is conducive to standardized designs and the production of convenience and the cable testing bridge manufactured simultaneously.
Above-described embodiment only for technology of the present utility model design and feature are described, its object is to allow person skilled in the art will appreciate that content of the present utility model and to implement according to this, can not limit protection domain of the present utility model with this.All equivalences made according to this utility model spirit change or modify, and all should be encompassed within protection domain of the present utility model.
Claims (10)
- null1. a composite cable bridge-rack,It is characterized in that: include being become at least one first mesh module latticed by horizontal ball ferrum with longitudinal ball ferrum cross weld,With the first L-shaped at least one being vertically connected the second mesh module of mesh module,With the second mesh module T-shaped at least one being vertically connected the 3rd mesh module,Drop-over at least one the 4th mesh module after the 3rd mesh module,At least one the 5th mesh module being connected vertically upward or downwards with the second mesh module,And at least one side line outlet being connected with each mesh module above-mentioned,It is connected by the first connecting device between described side line outlet and each mesh module,Connected by the second connecting device between described first mesh module and the second mesh module,Connected by the 3rd connecting device between described second mesh module and the 3rd mesh module,Connected by the 4th connecting device between described 3rd mesh module and the 4th mesh module,Connected by the 5th connecting device between described second mesh module and the 5th mesh module,Described horizontal ball ferrum linearly type,Described longitudinal ball ferrum is Qian font.
- 2. a kind of composite cable bridge-rack according to claim 1, it is characterized in that: described first connecting device, second connecting device, 3rd linked set, 4th connecting device and the 5th connecting device all comprise at least one the upper stator playing fixation or lower stator, fixed be respectively arranged at two ends with one section of curved arc section matched with the cylindrical of horizontal ball ferrum or longitudinal ball ferrum, described lower stator coordinates and is provided with several curved arc sections mated with the cylindrical of horizontal ball ferrum or longitudinal ball ferrum, fixed is overlapped on horizontal ball ferrum or longitudinal ball ferrum with the cooperation of described lower stator, fixed is provided with at least one pilot hole with lower stator.By screw and nut, upper stator and lower stator are fastened.
- 3. a kind of composite cable bridge-rack according to claim 2, it is characterized in that: the upper stator that described first connecting device includes an outlet conversion sheet and a plurality of and described outlet conversion sheet coordinates, described outlet conversion sheet is provided with at least one line outlet and several pilot holes corresponding with upper stator, one end of described outlet conversion sheet is provided with one section of curved arc section in order to accommodating horizontal ball ferrum, outlet conversion sheet and upper stator being fastened by screw and nut, described outlet-pipe is arranged in line outlet.
- 4. a kind of composite cable bridge-rack according to claim 2, it is characterised in that: described 3rd connecting device includes the T connector bottom connecting device being located in the middle of the 3rd mesh module section and two the circular sliding slopes devices being respectively arranged on the 3rd mesh module section both sides;Described T connector bottom connecting device includes upper connection under bottom sheet and joint bottom the joint that cooperates connecting sheet, and for fastening the upper screw connecting lower connection sheet bottom sheet and joint and nut bottom joint, upper bottom described joint connecting the lower end connecting sheet bottom sheet and joint and coordinate and be provided with the curved arc section that the cylindrical of several and horizontal ball ferrum matches, described curved arc section is in order to be overlapped in the horizontal ball ferrum of the second mesh module and the 3rd mesh module junction respectively and to match with the trend of horizontal ball ferrum;Described circular sliding slopes device includes R angle supporting spring, joint switching piece and several are in order to the lower stator of jointing switching piece, the middle part of described joint switching piece is arc-shaped, its two ends are consistent with the horizontal ball ferrum of the second mesh module and the 3rd mesh module trend respectively, the described middle part of joint switching piece is provided with an arc section matched with the cylindrical of longitudinal ball ferrum with the junction at two ends, and the two ends of described lower stator are overlapped on two horizontal ball ferrum respectively and lower stator and joint switching piece are fixed by screw and nut;Described R angle supporting spring includes orthogonal two faces.
- 5. a kind of composite cable bridge-rack according to claim 4, it is characterised in that: the horizontal bottom of described R angle supporting spring is strip, and described horizontal bottom and vertical plane are equipped with pilot hole, by fixture by R angle supporting spring and horizontal ball ferropexy.
- 6. a kind of composite cable bridge-rack according to claim 4, it is characterized in that: the horizontal bottom of described R angle supporting spring is square, between described horizontal bottom and vertical plane, hard point is set, described horizontal bottom and vertical plane are equipped with pilot hole, by fixture by R angle supporting spring and horizontal ball ferropexy.
- 7. a kind of composite cable bridge-rack according to claim 4, it is characterized in that: described R angle supporting spring is formed by an iron rod bending, the both sides of its horizontal bottom offset with two sides of orthogonal described second mesh module and described 3rd mesh module respectively, and its support division is in the taper with circular arc chamfering.
- null8. a kind of composite cable bridge-rack according to claim 4,It is characterized in that: described second connecting device includes 90 degree of elbow and connects sheet,One lower clamping piece in strip,A plurality of upper clips being located on lower clamping piece,And a circular sliding slopes device,Described 90 degree of elbows connect sheet and include orthogonal three faces between two,One of them face is located at bottom this cable testing bridge and is fixedly linked by screw and nut and lower clamping piece and upper clip,Two other face is attached at the first mesh module and the longitudinal surface of the second mesh module respectively,And fix with the first mesh module and the second mesh module respectively,One end of described upper clip is provided with pilot hole,Its other end is provided with to block the buckling parts of orthogonal two horizontal ball ferrum ends,The other end of described lower clamping piece is fixedly linked with the R angle supporting spring in circular sliding slopes device.
- 9. a kind of composite cable bridge-rack according to claim 2, it is characterized in that: described 4th connecting device includes the type joint bottom connecting device being located in the middle part of the 3rd mesh module and the 4th mesh module link position, and lays respectively at several side connecting devices of link position both sides;A described type joint bottom connecting device and side connecting device all include several upper stators cooperated and lower stator, and in a described type joint bottom connecting device, the two ends of upper stator and lower stator are respectively cooperating with being overlapped on longitudinal ball ferrum of longitudinal ball ferrum of the 3rd mesh module and the 4th mesh module;In described side connecting device, the two ends of upper stator and lower stator are respectively cooperating with being overlapped on the horizontal ball ferrum of the horizontal ball ferrum of the 3rd mesh module and the 4th mesh module, upper stator and lower stator are fixed by screw and nut.
- 10. a kind of composite cable bridge-rack according to claim 2, it is characterised in that: described 5th connecting device includes a rise and fall connecting device and several lower stators;Described rise and fall connecting device includes one and is become latticed mesh flake in arc-shaped by longitudinal ball ferrum and transverse direction ball ferrum cross weld, the rise and fall switching piece that two panels is consistent with the arc angle of mesh flake, and several connection sheet, the middle part of described connection sheet is provided with one section of curved arc section matched with the cylindrical of longitudinal ball ferrum, it is respectively arranged at two ends with a pilot hole, described rise and fall switching piece is provided with several connecting holes, a portion connecting hole is reserved screw, the height of described rise and fall switching piece is consistent with the profile height of longitudinal ball ferrum, described two panels rise and fall switching piece is respectively arranged on the both sides of mesh flake, by connecting sheet, screw and nut are by wherein a piece of rise and fall switching piece and mesh flake, second mesh module is connected, another sheet rise and fall switching piece and mesh flake, 5th mesh module is connected;The two ends of several lower stators described are overlapped on different horizontal ball ferrum respectively and two ends respectively with the second mesh module and the 5th mesh module of rise and fall switching piece are fixed by screw and nut.
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CN109149455A (en) * | 2017-06-15 | 2019-01-04 | 居言智能技术(上海)有限公司 | A kind of grid bridge assembly |
CN109473920A (en) * | 2018-12-18 | 2019-03-15 | 天长市福骏金属制品有限公司 | A kind of seamless overlap joint gantry of high strength easy dismounting |
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2016
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109149455A (en) * | 2017-06-15 | 2019-01-04 | 居言智能技术(上海)有限公司 | A kind of grid bridge assembly |
CN109473920A (en) * | 2018-12-18 | 2019-03-15 | 天长市福骏金属制品有限公司 | A kind of seamless overlap joint gantry of high strength easy dismounting |
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