CN208803756U - A kind of steel construction indirect air cooling tower structure connecting node - Google Patents

Abstract

A kind of steel construction indirect air cooling tower structure connecting node, including oblique lattice component, circumferential lattice component and connecting plate；Oblique lattice component is identical with circumferential lattice element structure；Connecting plate is vertically arranged, and is vertically fixedly connected with circumferential lattice component on two faces of connecting plate；Two circumferential lattice components on the same line, the upper and lower ends of connecting plate straight lines where more than two circumferential lattice components；Connecting plate and two circumferential lattice components form four rectangular areas, and each rectangular area is fixedly installed oblique lattice component, and the angle between oblique lattice component and circumferential lattice component is less than 90 degree；The utility model is provided with stiffener between two oblique lattice components and between inclined member and circumferential component, and local buckling stability coefficient improves, while reducing tower body internal force caused by wind pressure.

Description

A kind of steel construction indirect air cooling tower structure connecting node

Technical field

The utility model belongs to air-cooled tower structure connecting node technical field, in particular to a kind of steel construction indirect dry cooling tower Structure connecting node.

Background technique

Currently, indirect air cooling tower is mainly armored concrete indirect air cooling tower, design method is mature, anti-corrosion Ability is good, builds construction and maintenance is easy.But since the area of armored concrete indirect air cooling tower generally all compares Greatly, concrete usage amount is big, fee of material, and foundation excavation and cost are high, and construction period is longer, and construction climate influences bigger.

Utility model content

The purpose of this utility model is to provide a kind of steel construction indirect air cooling tower structure connecting nodes, to solve above-mentioned ask Topic.

To achieve the above object, the utility model uses following technical scheme:

A kind of steel construction indirect air cooling tower structure connecting node, including oblique lattice component, circumferential lattice component and connection Plate；Oblique lattice component is identical with circumferential lattice element structure；Connecting plate is vertically arranged, vertical solid on two faces of connecting plate Surely it is connected with circumferential lattice component；On the same line, the upper and lower ends of connecting plate are more than two for two circumferential lattice components Straight line where circumferential lattice component；Connecting plate and two circumferential lattice components form four rectangular areas, and each rectangular area is equal It is fixedly installed oblique lattice component, the angle between oblique lattice component and circumferential lattice component is less than 90 degree；

Circumferential lattice component includes branch's angle steel, the first purlin angle steel and the second purlin angle steel；Liang Gen branch angle steel is parallel Setting, and the concave surface of angle steel is oppositely arranged, and is fixedly installed several second purlin angle steel between the concave surface of Liang Gen branch angle steel, and two Root branch angle steel and several second purlin angle steel shape angulation steel plate structures；Two gusset structures are arranged in parallel, two angles It is fixedly installed several first purlin angle steel between steel plate structure between the concave surface of the Liang Ge branch angle steel of same level, two A gusset structure and the first purlin angle steel form four corner angle latticed members, and adjacent in four corner angle latticed members The concave surface of branch's angle steel is oppositely arranged.

Further, the fixed one end in oblique lattice component and rectangular area is set as rectangular-shaped, oblique lattice component with Two right-angle surfaces of rectangular area are bonded completely.

Further, joint strengthening plate is fixedly installed between the Liang Ge branch angle steel of gusset structure end.

Further, also fixed between the concave surface of the Liang Ge branch angle steel of same level between two gusset structures It is provided with several additional lacings；Additional lacing is fixedly installed between the concave surface of Liang Ge branch angle steel in gusset structure；Four Additional brace is fixedly installed between the Liang Ge branch angle steel in corner angle latticed members inner opposite angle line direction.

Further, between circumferential lattice component and oblique lattice component and oblique lattice component and oblique lattice structure Welding is provided with stiffener between part.

Further, welding is provided with annular and puts more energy into circumferential lattice component and oblique lattice component inside cross-sectional direction Plate.

Further, between branch's angle steel and the first purlin angle steel, between circumferential lattice component and connecting plate, circumferential lattice Between component and oblique lattice component, between branch's angle steel and the second purlin angle steel, between branch's angle steel and additional lacing, branch It is welding between angle steel and additional brace and between branch's angle steel and joint strengthening plate.

Compared with prior art, the utility model has following technical effect:

The oblique lattice component of the utility model is provided with joint strengthening area plate in end regions, is reinforced by node region Version is welded with connecting plate, is increased bonding area, is improved element bearing capacity.

The utility model is between two oblique lattice components and is provided with and puts more energy between inclined member and circumferential component Plate, local buckling stability coefficient improves, while reducing tower body internal force caused by wind pressure.

The utility model node is typical three-dimensional structure, and reasonable structure keeps structure force flow uniform, and saving steel has Greater stiffness, malformation is small, and stability is high.

The utility model structure can use tiny component composition very large space, these components can be pre- in factory System, realizes industrialized production, and comprehensive economic index is smaller.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model element structure schematic diagram；

Wherein: 1, oblique lattice component；2, circumferential lattice component；3, connecting plate；4, stiffener；5, annular stiffener；6, Branch's angle steel；7, the first purlin angle steel；8, the second purlin angle steel；9, joint strengthening plate；10, brace is added；11, lacing is added.

Specific embodiment

Below in conjunction with attached drawing, the present invention will be further described:

Please refer to Fig. 1 and Fig. 2, a kind of steel construction indirect air cooling tower structure connecting node, including oblique lattice component 1, ring To lattice component 2 and connecting plate 3；Oblique lattice component 1 is identical with circumferential lattice 2 structures of component；Connecting plate 3 is vertically arranged, even Circumferential lattice component 2 is vertically fixedly connected on two faces of fishplate bar 3；Two circumferential lattice components 2 on the same line, connect The upper and lower ends of fishplate bar 3 more than two circumferential 2 place straight lines of lattice component；Connecting plate 3 and two circumferential lattice components 2 are formed Four rectangular areas, each rectangular area are fixedly installed oblique lattice component 1, oblique lattice component 1 and circumferential lattice structure Angle between part 2 is less than 90 degree；

Circumferential lattice component 2 includes branch's angle steel 6, the first purlin angle steel 7 and the second purlin angle steel 8；Liang Gen branch angle steel 6 It is arranged in parallel, and the concave surface of angle steel is oppositely arranged, several second purlins angle is fixedly installed between the concave surface of Liang Gen branch angle steel 6 Steel 8, Liang Gen branch angle steel 6 and several second purlin angle steel 8 form gusset structure；Two gusset structures are parallel to each other and set It sets, is fixedly installed several first between the concave surface of the Liang Ge branch angle steel 6 of same level between two gusset structures Purlin angle steel 7, two gusset structures and the first purlin angle steel 7 form four corner angle latticed members, and four corner steel latticeworks The concave surface of adjacent branch's angle steel 6 is oppositely arranged in formula component.

Oblique lattice component 1 one end fixed with rectangular area is set as rectangular-shaped, oblique lattice component 1 and rectangular area Two right-angle surfaces be bonded completely.

Joint strengthening plate 9 is fixedly installed between the Liang Ge branch angle steel 6 of gusset structure end.

If being further fixedly arranged between the concave surface of the Liang Ge branch angle steel 6 of same level between two gusset structures Dry additional lacing 11；It is fixedly installed between the Liang Ge branch angle steel 6 in four corner angle latticed members inner opposite angle line directions additional Brace 10.

Between circumferential lattice component 2 and oblique lattice component 1 and between oblique lattice component 1 and oblique lattice component 1 Welding is provided with stiffener 4.

Welding is provided with annular stiffener 5 on 1 internal cross section direction of circumferential lattice component 2 and oblique lattice component.

Between circumferential lattice component 2 and oblique lattice component 1, between branch angle steel 6 and the second purlin angle steel 8, branch's angle steel 6 Between additional lacing 11, it is between branch's angle steel 6 and additional brace 10 and between branch's angle steel 6 and joint strengthening plate 9 Welding.

Claims (7)

1. a kind of steel construction indirect air cooling tower structure connecting node, which is characterized in that including oblique lattice component (1), circumferential lattice Structure component (2) and connecting plate (3)；Oblique lattice component (1) is identical with circumferential lattice component (2) structure；Connecting plate (3) is set vertically It sets, circumferential lattice component (2) is vertically fixedly connected on two faces of connecting plate (3)；Two circumferential lattice components (2) are same On one straight line, the upper and lower ends of connecting plate (3) straight line where more than two circumferential lattice components (2)；Connecting plate (3) with two Circumferential lattice component (2) forms four rectangular areas, and each rectangular area is fixedly installed oblique lattice component (1), oblique Angle between lattice component (1) and circumferential lattice component (2) is less than 90 degree；

Circumferential lattice component (2) includes branch's angle steel (6), the first purlin angle steel (7) and the second purlin angle steel (8)；Liang Gen branch Angle steel (6) is arranged in parallel, and the concave surface of angle steel is oppositely arranged, and is fixedly installed between the concave surface of Liang Gen branch angle steel (6) several Second purlin angle steel (8), Liang Gen branch angle steel (6) and several second purlin angle steel (8) form gusset structure；Two gussets Structure is arranged in parallel, solid between the concave surface of the Liang Ge branch angle steel (6) of same level between two gusset structures Surely several first purlin angle steel (7) are provided with, two gusset structures and the first purlin angle steel (7) form four corner angle lattices Component, and the concave surface of branch's angle steel (6) adjacent in four corner angle latticed members is oppositely arranged.

2. a kind of steel construction indirect air cooling tower structure connecting node according to claim 1, which is characterized in that oblique lattice Component (1) one end fixed with rectangular area is set as rectangular-shaped, two right-angle surfaces of oblique lattice component (1) and rectangular area Fitting completely.

3. a kind of steel construction indirect air cooling tower structure connecting node according to claim 1, which is characterized in that angle steel is hardened Joint strengthening plate (9) are fixedly installed between the Liang Ge branch angle steel (6) of structure end.

4. a kind of steel construction indirect air cooling tower structure connecting node according to claim 1, which is characterized in that two angle steel Several additional lacings are further fixedly arranged between the concave surface of the Liang Ge branch angle steel (6) of same level between hardened structure (11)；Additional lacing (11) are fixedly installed between the concave surface of Liang Ge branch angle steel (6) in gusset structure；Four corner angle lattice Additional brace (10) are fixedly installed between the Liang Ge branch angle steel (6) in structure formula component inner opposite angle line direction.

5. a kind of steel construction indirect air cooling tower structure connecting node according to claim 1, which is characterized in that circumferential lattice It is welded between component (2) and oblique lattice component (1) and between oblique lattice component (1) and oblique lattice component (1) It is provided with stiffener (4).

6. a kind of steel construction indirect air cooling tower structure connecting node according to claim 1, which is characterized in that circumferential lattice Welding is provided with annular stiffener (5) on component (2) and oblique lattice component (1) internal cross section direction.

7. a kind of steel construction indirect air cooling tower structure connecting node, feature described in any one of -4 according to claim 1 It is, between branch's angle steel (6) and the first purlin angle steel (7), between circumferential lattice component (2) and connecting plate, circumferential lattice structure Between part (2) and oblique lattice component (1), between branch's angle steel (6) and the second purlin angle steel (8), branch's angle steel (6) and additional Between lacing (11), between branch's angle steel (6) and additional brace (10) and between branch's angle steel (6) and joint strengthening plate (9) It is welding.