CN219343722U - Utilize suspension cable structure to share gravity's lightweight steel construction big-arch shelter - Google Patents

Abstract

The utility model discloses a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity, which comprises a plurality of greenhouse groups and two towers, wherein each greenhouse group comprises two greenhouse bones, each greenhouse bone comprises a supporting framework, cable rod fixing screw holes are formed in the two sides of the upper side wall of each supporting framework, and each greenhouse bone is connected with a rigid cable rod through two cable rod fixing screw holes in a threaded manner. According to the utility model, the light steel structure greenhouse utilizing the suspension cable structure to share the gravity is used for respectively fixing two ends of a plurality of suspension weight steel cables at two ends far away from the archaeological exploring party through four anchor ingots, the two towers are used for erecting the suspension weight steel cables at the top of the greenhouse shed group and are matched with rigid cable rods connected at the ridge of the greenhouse shed group to bear the load of the upper part of the greenhouse shed group together, so that the greenhouse shed group erected around the archaeological exploring party is supported to a certain extent, the dead weight of the building borne around the archaeological exploring party is reduced, and the archaeological exploring party is protected from secondary injury.

Description

Utilize suspension cable structure to share gravity's lightweight steel construction big-arch shelter

Technical Field

The utility model relates to the technical field of greenhouse structures, in particular to a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity.

Background

At present, a grid structure and a steel frame structure are mainly used in a large-span space. The common characteristics of the steel structure and the roof are that the foundation and the bearing structure are required to be arranged around the building in the structure, and the weight of the whole steel structure and the roof is transferred to the steel upright posts or the concrete columns around.

However, if the existing steel structure technical scheme is used, foundation and bearing columns are needed to be made around the building to bear the weight of the upper part of the whole building, due to the characteristics of archaeological explorations, foundation excavation and civil construction are not allowed to be carried out at too close distance around the explorations, and the foundation and the bearing columns are easy to cause secondary damage, so that a lightweight steel structure greenhouse utilizing a suspension cable structure to share the weight is provided by the person skilled in the art to solve the problems.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides an utilize suspension cable structure to share light steel construction big-arch shelter of gravity, includes a plurality of big-arch shelter canopy groups and two pylon, every big-arch shelter group is including two canopy bones, every canopy bone is including supporting the skeleton, every supporting skeleton's front and back both sides all fixedly connected with connecting plate, every supporting skeleton's both sides wall bottom fixedly connected with stabilizer blade, every supporting skeleton's upper side wall both sides position has all been seted up cable bar fixed screw;

through the technical scheme, the rigid cable rod is thrown into the cable rod fixing screw hole, and the connecting rod of the rigid cable rod is easy to wear due to frequent contact friction between the suspended heavy steel cable and the rigid cable rod, so that the rigid cable rod is connected in a mode of being connected with the ridge of the greenhouse shed by threads, and the rigid cable rod is convenient to replace.

Further, each shed frame is connected with a rigid cable rod through two cable rod fixing screw holes in a threaded mode, each rigid cable rod comprises a plurality of cable rod supporting rods, and the tops of the cable rod supporting rods are fixedly connected with connecting rods;

through the technical scheme, the rigid cable rod and the suspended weight steel cable are matched with each other.

Further, a covering film is connected between every two adjacent greenhouse bones through connecting plate bolts;

through the technical scheme, the coating is utilized to prevent rainwater from entering the archaeological detection party.

Further, the side wall of each two adjacent greenhouse bones is connected with a balancing weight through bolts, and each two adjacent greenhouse bones are connected through the balancing weights;

through above-mentioned technical scheme, utilize the balancing weight on the one hand can connect each canopy bone for the connection between the canopy bone is more firm, and on the other hand utilizes the weight of balancing weight, presses the bottom of big-arch shelter canopy group around archaeological exploration side, thereby resists horizontal wind load.

Further, the two towers are distributed on two sides of the greenhouse shed group in a mirror symmetry mode;

through the technical scheme, the two towers are used for erecting the cantilever crane steel cable.

Further, two suspension cable steel cables are connected between the two towers in a penetrating way, and the two suspension cable steel cables are arranged at the bottoms of the connecting rods of the rigid cable rods and are attached to the bottoms of the connecting rods;

through the technical scheme, the hanging steel cable is used for bearing the load of the upper part of the greenhouse shed group, so that the greenhouse shed group erected around the archaeological exploring party is supported to a certain degree.

Further, two ends of the two suspension rope steel cables are connected with anchor ingots;

through the technical scheme, the anchor ingot is embedded into the ground, so that the two ends of the cantilever-weight steel cable are fixed.

Further, the four anchor ingots are respectively arranged at the outer side positions of the two towers;

through the technical scheme, the hanging weight steel cable is convenient to erect.

The utility model has the following beneficial effects:

1. according to the utility model, two ends of two cantilever steel cables are respectively fixed at two ends far away from the archaeological exploring party by utilizing four anchor ingots, the cantilever steel cables are erected at the top of the greenhouse shed group by the two towers, and the cantilever steel cables are matched with rigid cable rods connected with the ridge of the greenhouse shed group to bear the load of the upper part of the greenhouse shed group together, so that the greenhouse shed group erected around the archaeological exploring party is supported to a certain extent, the dead weight of a building borne around the archaeological exploring party is reduced, and the archaeological exploring party is protected from secondary injury.

2. According to the utility model, the balancing weights can be used for connecting all the greenhouse bones, so that the connection between the greenhouse bones is firmer, and the bottom of the greenhouse group is pressed around the archaeological exploration party by using the weight of the balancing weights, so that the transverse wind load is resisted.

3. In the utility model, the connection rod of the rigid cable rod is easy to wear due to the fact that the frequent contact friction between the cantilever steel cable and the rigid cable rod is considered, so that the rigid cable rod is connected in a mode of being connected to the ridge of the greenhouse group through threads, and the rigid cable rod is convenient to replace.

Drawings

Fig. 1 is a perspective view of a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity;

fig. 2 is a perspective view of a greenhouse group of a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity;

fig. 3 is a perspective view of a framework of a lightweight steel structure greenhouse utilizing a suspension cable structure to share gravity;

fig. 4 is a perspective view of a greenhouse group for removing a film of a lightweight steel structure greenhouse using a suspension cable structure to share gravity.

Legend description:

1. a greenhouse group; 2. a rigid cord; 3. a suspension cable; 4. a tower; 5. an anchor ingot; 6. a shed frame; 7. coating a film; 8. a connecting plate; 9. a support leg; 10. balancing weight; 11. a cable pole support rod; 12. a connecting rod; 13. a support skeleton; 14. the cable rod is fixed with the screw hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, one embodiment provided by the present utility model is: the utility model provides an utilize light steel construction big-arch shelter of suspension cable structure sharing gravity, including a plurality of big-arch shelter canopy group 1 and two towers 4, every big-arch shelter group 1 is including two canopy bones 6, every canopy bone 6 is including supporting the skeleton 13, the equal fixedly connected with connecting plate 8 of both sides around every supporting the skeleton 13, the both sides wall bottom fixedly connected with stabilizer blade 9 of every supporting the skeleton 13, cable bar fixed screw 14 has all been seted up to the last lateral wall both sides position of every supporting the skeleton 13, utilize cable bar fixed screw 14 to throw dress rigid cable bar 2, owing to frequent contact friction between suspension heavy steel cable 3 and the rigid cable bar 2, lead to rigid cable bar 2's connecting rod 12 very wearing and tearing very easily, consequently utilize threaded connection to connect rigid cable bar 2's change at the mode of big-arch shelter canopy group 1 roof ridge, thereby the change to the rigid cable bar 2 has been made things convenient for.

Each canopy frame 6 is connected with rigid cable rods 2 through two cable rod fixing screw holes 14 in a threaded mode, each rigid cable rod 2 comprises a plurality of cable rod supporting rods 11, the top of each cable rod supporting rod 11 is fixedly connected with a connecting rod 12, rigid cable rods 2 are utilized to be matched with the cantilever steel cables 3, a covering film 7 is connected between every two adjacent canopy frames 6 through connecting plates 8 in a bolt mode, rainwater is prevented from entering into the archaeological exploration party through the covering film 7, balancing weights 10 are connected to the upper side walls of supporting legs 9 of every two adjacent canopy frames 6 through the balancing weights 10, the two adjacent canopy frames 6 are connected through the balancing weights 10, on one hand, the canopy frames 6 can be connected through the balancing weights 10, connection between the canopy frames 6 is firmer, on the other hand, the bottom of the greenhouse canopy frame 1 is pressed around the archaeological exploration party through the weight of the balancing weights 10, and transverse wind loads are resisted.

The two towers 4 are distributed on two sides of the greenhouse shed group 1 in a mirror symmetry mode, the two towers 4 are used for erecting the cantilever steel cables 3, the two cantilever steel cables 3 are connected between the two towers 4 in a penetrating mode, the two cantilever steel cables 3 are arranged at the bottoms of the connecting rods 12 of the rigid steel cable rods 2 and are attached to the bottoms of the connecting rods 12, the cantilever steel cables 3 are used for bearing the load of the upper portion of the greenhouse shed group 1, the greenhouse shed group 1 erected around the archaeological exploration side is supported to a certain extent, the two ends of the two cantilever steel cables 3 are connected with anchor ingots 5, the anchor ingots 5 are embedded into the ground, accordingly the two ends of the cantilever steel cables 3 are fixed, and the four anchor ingots 5 are respectively arranged at the outer side positions of the two towers 4, so that the erection of the cantilever steel cables 3 is facilitated.

Working principle: the two ends of the two cantilever steel cables 3 are respectively fixed at the two ends far away from the archaeological exploring party by the four anchor rods 5, the cantilever steel cables 3 are erected at the top of the greenhouse shed group 1 by the two towers 4 and are matched with rigid cable rods 3 connected at the ridge of the greenhouse shed group 1, the upper parts of the greenhouse shed group 1 are jointly born with load, the greenhouse shed group 1 erected around the archaeological exploring party is supported to a certain extent, the self weight of a building born around the archaeological exploring party is reduced, the archaeological exploring party is protected from secondary injury, on one hand, all the greenhouse bones 6 can be connected by utilizing the balancing weights 10, the connection between the greenhouse bones 6 is firmer, on the other hand, the bottom of the greenhouse shed group 1 is pressed around the archaeological exploring party by utilizing the weight of the balancing weights 10, so as to resist transverse wind load, and the connecting rods 12 of the rigid cable rods 2 are very easy to wear due to frequent contact friction between the cantilever steel cables 3 and the rigid cable rods 2, so that the rigid cable rods are connected in a mode of being screwed on the ridge of the greenhouse shed group 1.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides an utilize suspension cable structure to share gravity's lightweight steel construction big-arch shelter, includes a plurality of big-arch shelter canopy group (1) and two pylon (4), its characterized in that: every big-arch shelter canopy group (1) is including two canopy bones (6), every canopy bone (6) is including braced skeleton (13), every equal fixedly connected with connecting plate (8) in both sides around braced skeleton (13), every braced skeleton (13) both sides wall bottom fixedly connected with stabilizer blade (9), every braced skeleton (13) go up lateral wall both sides position and all offered cable pole fixed screw (14).

2. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 1, wherein: each shed frame (6) is connected with a rigid cable rod (2) through two cable rod fixing screw holes (14) in a threaded mode, each rigid cable rod (2) comprises a plurality of cable rod supporting rods (11), and the tops of the cable rod supporting rods (11) are fixedly connected with connecting rods (12).

3. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 1, wherein: every two adjacent canopy bones (6) are connected with a covering film (7) through connecting plates (8) and bolts.

4. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 1, wherein: every two adjacent lateral wall bolted connection has balancing weight (10) on stabilizer blade (9) of canopy bone (6), every two adjacent canopy bone (6) are through balancing weight (10) connection.

5. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 1, wherein: the two towers (4) are distributed on two sides of the greenhouse group (1) in a mirror symmetry mode.

6. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 1, wherein: two suspension cable steel cables (3) are connected between the two towers (4) in a penetrating way, and the two suspension cable steel cables (3) are arranged at the bottoms of the connecting rods (12) of the rigid cable rods (2) and are attached to the bottoms of the connecting rods (12).

7. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 6, wherein: both ends of the two suspension cable (3) are connected with anchor ingots (5).

8. The lightweight steel construction greenhouse utilizing a catenary structure to share gravity according to claim 7, wherein: the four anchor ingots (5) are respectively arranged at the outer side positions of the two towers (4).

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