CN207063159U - A kind of parallel how cable-styled connecting structure of space lattice Cable Structure - Google Patents
A kind of parallel how cable-styled connecting structure of space lattice Cable Structure Download PDFInfo
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- CN207063159U CN207063159U CN201721001297.9U CN201721001297U CN207063159U CN 207063159 U CN207063159 U CN 207063159U CN 201721001297 U CN201721001297 U CN 201721001297U CN 207063159 U CN207063159 U CN 207063159U
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- cable
- parallel
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- space lattice
- suspension rod
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Abstract
The utility model provides a kind of parallel how cable-styled connecting structure of space lattice Cable Structure, and it includes:It hanger rod connecting piece, can be connected to below suspension rod, caulking groove is offered on hanger rod connecting piece;Tieback connection, it is inserted in caulking groove, multiple perforation being each passed through for more drag-lines is offered on tieback connection.More drag-lines can be connected to below suspension rod by opening up multiple perforation on tieback connection, without setting multiple fasteners to be connected more drag-lines with suspension rod respectively, greatly simplify attachment structure, be easy to assemble, reduce cost by the utility model simultaneously;By opening up caulking groove on hanger rod connecting piece, easily tieback connection and hanger rod connecting piece can be linked together, in-site installation is convenient, simple, fast, improves efficiency of construction.
Description
Technical field
The utility model is related to a kind of space lattice rope technical field, especially a kind of space lattice Cable Structure it is parallel more
Cable-styled connecting structure.
Background technology
Space lattice Cable Structure is to combine spatial mesh structure and a kind of new structure of prestressed cable structure, by right
Drag-line applies prestressing force, using the intensity in steel elastic range, improves structure total bearing capacity, reduces structural deflection deformation,
Saving steel simultaneously, cost is reduced, thus be widely used in the design-build of long span building.
At present, the drag-line in space lattice Cable Structure and suspension rod junction, the connected mode of steel part+bolt, a side are commonly used
Face, the connected mode is relatively complicated, and required metalwork quantity is more;On the other hand, when span is larger, in hanging for a Pin frameworks
Needing to replace single cable using parallel more drag-lines under bar, fastener (i.e. steel part+bolt) processing cost is higher in this case,
And assembling is relatively complicated.
Therefore, it is necessary to propose a kind of connecting structure for being suitable for parallel more ropes.
Utility model content
The purpose of this utility model is to provide a kind of parallel how cable-styled connecting structure of space lattice Cable Structure, and it can will be more
Root drag-line links together with suspension rod, simple in construction, easy to assembly.
To reach above-mentioned purpose, the utility model proposes a kind of parallel how cable-styled connecting structure of space lattice Cable Structure,
It includes:It hanger rod connecting piece, can be connected to below suspension rod, caulking groove is offered on the hanger rod connecting piece;Tieback connection, plug
In in the caulking groove, offering multiple perforation being each passed through for more drag-lines on the tieback connection.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, multiple perforation it is parallel and
It is arranged at intervals.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece includes:
Fixed plate, thereon surface energy be connected with the suspension rod;Support member, the lower surface of the fixed plate is connected to, and it is relative including two
Side wall and the bottom wall that is connected between two side walls, form the caulking groove, the bottom of the support member in the support member
The opening connected with the caulking groove is offered on wall.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece also wraps
Include:At least two first connecting plates, the upper surface for being connected to the fixed plate side by side and separately, adjacent two described first
Slot is formed between connecting plate;At least one second connecting plate, it can be connected to below the suspension rod, each second connecting plate pair
It should insert in each slot;Fitting is worn, passes through and connects each first connecting plate and each second connecting plate.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece includes
Three first connecting plates and two second connecting plates.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece also wraps
Ribbed stiffener is included, is connected between two first connecting plates of both sides and the upper surface of the fixed plate at least one
The ribbed stiffener.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece also wraps
Include:End plate, its lower surface connect second connecting plate;Plate, the upper surface of the end plate is connected to, and hang described in inserting
It is connected in bar with the suspension rod.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, multiple perforation are along described
The width of tieback connection is spaced, and runs through the tieback connection along the length direction of the tieback connection,
The length of the tieback connection is more than the length of the support member, and the width of the tieback connection is less than the width of the caulking groove
Degree, and more than the width of the opening.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the aperture of the perforation is equal to
The external diameter of the drag-line.
The parallel how cable-styled connecting structure of space lattice Cable Structure as described above, wherein, the hanger rod connecting piece be by
Hanger rod connecting piece made of metal material, the tieback connection are the tieback connections made of polyethylene material.
The characteristics of parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model and advantage are:
1st, the parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model, by being opened on tieback connection
If multiple perforation, more drag-lines can be connected to below suspension rod simultaneously, without set multiple fasteners by more drag-lines respectively with
Suspension rod connects, and greatly simplifies attachment structure, is easy to assemble, reduces cost;, can be convenient by opening up caulking groove on hanger rod connecting piece
Ground links together tieback connection and hanger rod connecting piece, and in-site installation is convenient, simple, fast, improves efficiency of construction;
2nd, the parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model, bonding strength is high, Stability Analysis of Structures
Property is good.
Brief description of the drawings
The following drawings is only intended to, in doing the utility model schematic illustration and explanation, not limit model of the present utility model
Enclose.Wherein:
Fig. 1 is the main view of one embodiment of the parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model
Figure;
Fig. 2 is the side view of the parallel how cable-styled connecting structure of space lattice Cable Structure in Fig. 1;
Fig. 3 is the structural representation of one embodiment of the utility model middle hanger connector;
Fig. 4 is the sectional view of one embodiment of the tieback connection in the utility model;
Fig. 5 is the structural representation that the tieback connection in the utility model coordinates with drag-line.
Main element label declaration:
1 hanger rod connecting piece
The support member of 11 caulking groove, 12 fixed plate 13
The bottom wall 133 of 131 side wall 132 is open
The connecting plate 16 of 14 first connecting plate 15 second wears fitting
The plate of 17 ribbed stiffener, 18 end plate 19
2 tieback connections
21 perforation
3 suspension rods
4 drag-lines
L1, L2 length
W1, W2, W3 width
Embodiment
In order to which the technical characteristics of the utility model, purpose and effect are more clearly understood, now control illustrates
Specific embodiment of the present utility model.
As shown in figure 1, the utility model proposes a kind of parallel how cable-styled connecting structure of space lattice Cable Structure, it includes
For connecting the hanger rod connecting piece 1 of suspension rod 3 and tieback connection 2 for connecting drag-line 4, hanger rod connecting piece 1 can be connected to and hang
Below bar 3, caulking groove 11 is offered on hanger rod connecting piece 1;
Tieback connection 2 is inserted in caulking groove 11, and more drag-lines 4 of multiple confessions are offered on tieback connection 2 and are each passed through
Perforation 21.
The parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model, by being opened on tieback connection 2
If multiple perforation 21, more drag-lines 4 can be connected to the lower section of suspension rod 3 simultaneously, without setting multiple fasteners to divide more drag-lines 4
It is not connected with suspension rod 3, greatly simplifies attachment structure, is easy to assemble, reduces cost;By opening up caulking groove on hanger rod connecting piece 1
11, easily tieback connection 2 and hanger rod connecting piece 1 can be linked together, in-site installation is convenient, simple, fast, and raising is applied
Work efficiency rate.
As Figure 1 and Figure 4, further, multiple perforation 21 are parallel and are arranged at intervals, so as to by more drag-lines 4 are parallel and phase
Compartment of terrain is connected to the lower section of suspension rod 3, ensures the parallel relation between more drag-lines 4, prestressing force is evenly distributed in more drawings
On rope 4, space lattice Cable Structure total bearing capacity is further improved, reduces structural deflection deformation.
As shown in Figure 1, Figure 2, Figure 3 shows, in a specific embodiment, hanger rod connecting piece 1 includes fixed plate 12 and support member
13, the upper surface of fixed plate 12 can be connected with suspension rod 3, and support member 13 is connected to the lower surface of fixed plate 12, and relative including two
Side wall 131 and the bottom wall 132 that is connected between two side 131, the upper end of two side 131 and the lower surface of fixed plate 12
Connection, bottom wall 132 are connected between the lower end of two side 131, and caulking groove 11 is formed in support member 13, is opened on the bottom wall of support member 13
Provided with the opening 133 connected with caulking groove 11, bottom wall is divided into the two parts being connected respectively with two side 131 by opening 133.
Specifically, tieback connection 2 is located between the two side 131 of support member 13, and is placed on the bottom wall of support member 13
On 132, connect very convenient quick.
Again as shown in Figure 1, Figure 2, Figure 3 shows shown in Fig. 3, further, hanger rod connecting piece 1 also includes at least two first connecting plates 14, at least
One the second connecting plate 15 and wear fitting 16;At least two first connecting plates 14 side by side and separately be connected to fixed plate 12
Upper surface, forms slot between two first adjacent connecting plates 14, and the second connecting plate 15 can be connected to the lower section of suspension rod 3, and each second
Connecting plate 15 is corresponding to be inserted in each slot;Fitting 16 is worn to pass through and connect each first connecting plate 14 and each second connecting plate 15.
Wherein, it is, for example, bearing pin, preferably steel pin axle to wear fitting 16.
In the present embodiment, hanger rod connecting piece 1 includes three the first connecting plates 14 and two the second connecting plates 15, three first
Connecting plate 14 is spaced to form two slots, in two the second connecting plate 15 two slots of corresponding insertion.
As shown in Figure 2 and Figure 3, further, hanger rod connecting piece 1 also includes ribbed stiffener 17, two first connecting plates positioned at both sides
At least one ribbed stiffener 17 is connected between 14 and the upper surface of fixed plate 12, it is, two positioned at outermost both sides
Individual first connecting plate 14 is not only directly connected to (such as welding) with fixed plate 12, also passes through at least one ribbed stiffener with fixed plate 12
17 connections, to further provide for bonding strength and structural stability.
As shown in Figure 1 and Figure 2, further, hanger rod connecting piece 1 also includes end plate 18 and plate 19, the lower surface of end plate 18
The second connecting plate 15 is connected, plate 19 is connected to the upper surface of end plate 18, and can insert in suspension rod 3 and be connected with suspension rod 3, so that will
Hanger rod connecting piece 1 is firm to be connected to below suspension rod 3.
As shown in Figure 1, Figure 2, Figure 5, in a preferred embodiment, width of multiple perforation 21 along tieback connection 2
Direction is spaced, and runs through tieback connection 2 along the length direction of tieback connection 2, and the length L1 of tieback connection 2 is more than
The length L2 of support member 13, the width W1 of tieback connection 2 are less than the width W2 of caulking groove 11, and more than the width W3 of opening 133.
In practical application, to avoid tieback connection 2 from producing excessive sliding in caulking groove 11, by the width of tieback connection 2
Degree W1 is arranged to the width W2 for being slightly less than caulking groove 11, and the width W2 with caulking groove 11 as far as possible is approached.
Further, perforate 21 aperture is equal to the external diameter of drag-line 4, and with effective stay guy 4,21 quantity of perforating is no less than
The quantity of drag-line 4, such as the quantity equal to drag-line 4.
Further, hanger rod connecting piece 1 is the hanger rod connecting piece made of metal material (such as steel material), tieback connection
The advantages of 2 be the tieback connection made of polyethylene material, and tieback connection 2 is alternatively referred to as PE parts, so set is steel part
Relative slip is not likely to produce between PE parts.
The application method of the parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model is:
First, or more drag-lines 4 are divided with the advance stay guy connector 2 in 3 corresponding position of suspension rod on drag-line 4
Perforation 21 that Chuan Guo be on tieback connection 2;
Then, the more drag-lines 4 (i.e. the part not extended into perforation 21 of drag-line 4) on the side of tieback connection 2 are collapsed,
Drag-line 4 after gathering is stretched into the caulking groove 11 of hanger rod connecting piece 1 by opening 133, then by the horizontal sliding of hanger rod connecting piece 1 until drawing
Rope connector 2 is inserted in caulking groove 11, or by the horizontal sliding of tieback connection 2 to insertion caulking groove 11.
The parallel how cable-styled connecting structure of space lattice Cable Structure of the present utility model be mainly used in span it is larger when, one
The situation of single cable is replaced under the suspension rod of Pin frameworks using parallel more drag-lines, the fixation of tieback connection and drag-line uses work
Factory is prefabricated, tieback connection and hanger rod connecting piece Assembling, between no external force effect downhaul connector and hanger rod connecting piece
Easily suit, after lifting, in the case where there is external force effect, it is not likely to produce between tieback connection and hanger rod connecting piece by frictional force
Slide, due to the presence of tieback connection, it is ensured that the parallel relation between more drag-lines, the utility model can reduce drag-line
Attaching means cost, improve efficiency of construction.
The schematical embodiment of the utility model is the foregoing is only, is not limited to model of the present utility model
Enclose.Any those skilled in the art, the equivalent variations made on the premise of design of the present utility model and principle is not departed from
With modification, the scope that the utility model is protected all should be belonged to.And it should be noted that each part of the present utility model simultaneously
It is not limited only to above-mentioned overall applicability, each technical characteristic described in specification of the present utility model can be according to being actually needed selection
One individually uses or selects the multinomial use that combines, and therefore, the utility model covers in the nature of things to be invented with this case
The relevant other combinations of point and concrete application.
Claims (10)
1. the parallel how cable-styled connecting structure of a kind of space lattice Cable Structure, it is characterised in that the space lattice Cable Structure
Parallel how cable-styled connecting structure includes:
It hanger rod connecting piece, can be connected to below suspension rod, caulking groove is offered on the hanger rod connecting piece;
Tieback connection, it is inserted in the caulking groove, more drag-lines of multiple confessions is offered on the tieback connection and are each passed through
Perforation.
2. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 1, it is characterised in that multiple described
Perforate parallel and be arranged at intervals.
3. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 1 or 2, it is characterised in that described
Hanger rod connecting piece includes:
Fixed plate, thereon surface energy be connected with the suspension rod;
Support member, is connected to the lower surface of the fixed plate, and including two relative side walls and be connected to two side walls it
Between bottom wall, the caulking groove is formed in the support member, offers on the bottom wall of the support member and is opened with what the caulking groove connected
Mouthful.
4. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 3, it is characterised in that the suspension rod
Connector also includes:
At least two first connecting plates, the upper surface for being connected to the fixed plate side by side and separately, adjacent two described
Slot is formed between one connecting plate;
At least one second connecting plate, it can be connected to below the suspension rod, each second connecting plate correspondingly inserts each described slotting
In groove;
Fitting is worn, passes through and connects each first connecting plate and each second connecting plate.
5. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 4, it is characterised in that the suspension rod
Connector includes three first connecting plates and two second connecting plates.
6. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 4, it is characterised in that the suspension rod
Connector also includes ribbed stiffener, is connected respectively between two first connecting plates of both sides and the upper surface of the fixed plate
There is at least one ribbed stiffener.
7. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 4, it is characterised in that the suspension rod
Connector also includes:
End plate, its lower surface connect second connecting plate;
Plate, the upper surface of the end plate is connected to, and can insert in the suspension rod and be connected with the suspension rod.
8. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 3, it is characterised in that multiple described
Perforation is spaced along the width of the tieback connection, and runs through the drawing along the length direction of the tieback connection
Rope connector, the length of the tieback connection are more than the length of the support member, and the width of the tieback connection is less than institute
The width of caulking groove is stated, and more than the width of the opening.
9. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 1 or 2, it is characterised in that described
The aperture of perforation is equal to the external diameter of the drag-line.
10. the parallel how cable-styled connecting structure of space lattice Cable Structure as claimed in claim 1 or 2, it is characterised in that described
Hanger rod connecting piece is the hanger rod connecting piece made of metal material, and the tieback connection is the drag-line made of polyethylene material
Connector.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721001297.9U CN207063159U (en) | 2017-08-11 | 2017-08-11 | A kind of parallel how cable-styled connecting structure of space lattice Cable Structure |
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CN201721001297.9U CN207063159U (en) | 2017-08-11 | 2017-08-11 | A kind of parallel how cable-styled connecting structure of space lattice Cable Structure |
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CN201721001297.9U Withdrawn - After Issue CN207063159U (en) | 2017-08-11 | 2017-08-11 | A kind of parallel how cable-styled connecting structure of space lattice Cable Structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107313513A (en) * | 2017-08-11 | 2017-11-03 | 中冶京诚工程技术有限公司 | A kind of parallel how cable-styled connecting structure of space lattice Cable Structure |
CN110777939A (en) * | 2019-11-28 | 2020-02-11 | 中冶京诚工程技术有限公司 | Hexagonal node structure for H-shaped steel space latticed shell structure |
-
2017
- 2017-08-11 CN CN201721001297.9U patent/CN207063159U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107313513A (en) * | 2017-08-11 | 2017-11-03 | 中冶京诚工程技术有限公司 | A kind of parallel how cable-styled connecting structure of space lattice Cable Structure |
CN107313513B (en) * | 2017-08-11 | 2023-09-12 | 中冶京诚工程技术有限公司 | Parallel multi-cable type connection structure of space grid cable structure |
CN110777939A (en) * | 2019-11-28 | 2020-02-11 | 中冶京诚工程技术有限公司 | Hexagonal node structure for H-shaped steel space latticed shell structure |
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Granted publication date: 20180302 Effective date of abandoning: 20230912 |