House steel structure with anti-deformation function

By introducing a combination design of vertical shafts, drive gears, and telescopic supports into the steel structure of the building, the problem of insufficient support points is solved, the support range is expanded and the effect is enhanced, and the stability and safety of the structure are improved.

CN224451852UActive Publication Date: 2026-07-03LIAONING HAIBO CONSTR GRP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LIAONING HAIBO CONSTR GRP CO LTD
Filing Date
2025-02-20
Publication Date
2026-07-03

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  • Figure CN224451852U_ABST
    Figure CN224451852U_ABST
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Abstract

This utility model relates to a steel structure for housing with anti-deformation function, including a steel structure support, a bottom beam and a top beam located on top of the steel structure support, and a reinforcing component located between the bottom beam and the top beam. The key technical points are: the reinforcing component includes a vertical shaft supported by bearings in the middle of the bottom beam, a driving gear on the vertical shaft, a positioning ring plate fixed to the bottom beam and concentric with the vertical shaft, six retractable supports evenly distributed on the upper surface of the positioning ring plate, and a top plate located between the top of each retractable support and the top beam. Each retractable support consists of a threaded sleeve with built-in double-threaded sheaths, an upper forward-facing stud and a lower reverse-facing stud connected to both ends of the threaded sleeve, and a driven gear meshing with the driving gear fixed on the outer wall of the threaded sleeve. A positioning mechanism is provided between the lower end of the vertical shaft and the bottom beam. This structure further increases the number of support points, expands the support range, and enhances the support effect.
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Description

Technical Field

[0001] This utility model relates to the field of building structure technology, specifically to a steel structure for houses with anti-deformation function. Background Technology

[0002] Deformation-resistant steel structures can effectively resist deformation and damage caused by natural disasters and human factors, providing a reliable guarantee for the stability and safety of houses.

[0003] For example, CN 222253273 U discloses a steel structure for housing with anti-deformation function, which includes columns, multiple columns with bottom beams at their tops, a frame at the top of the columns, a top beam inside the frame, and a reinforcing component at the bottom of the top beam. The reinforcing component includes threaded rods, connecting sleeves, first rotating rods, a base plate, second rotating rods, a top plate, and auxiliary mechanisms. The bottom end of the base plate is located at the top of the bottom beams, and first rotating shafts are symmetrically arranged inside the base plate. Multiple second rotating rods are symmetrically fitted onto the two ends of the first rotating shafts. This structure designs the reinforcing component to adjust its support range through the cooperation of the internal structures to adapt to different spatial requirements. However, the following problem still exists: the reinforcing component has few support points, limiting the support range and effectiveness. Utility Model Content

[0004] The purpose of this utility model is to provide a structurally reasonable and reliable steel structure for houses with anti-deformation function that solves the above problems, further increases the number of support points, expands the support range, and enhances the support effect.

[0005] The technical solution of this utility model is:

[0006] A steel structure for housing with anti-deformation function includes a steel structure support, a bottom beam and a top beam located on top of the steel structure support, and a reinforcing component located between the bottom beam and the top beam. The key technical points are: the reinforcing component includes a vertical shaft supported by bearings in the middle of the bottom beam, a driving gear on the vertical shaft, a positioning ring plate fixed to the bottom beam and concentric with the vertical shaft, six telescopic supports evenly distributed on the upper surface of the positioning ring plate, and a top plate located between the top of each telescopic support and the top beam. The telescopic support consists of a threaded sleeve with built-in double-threaded threads, an upper forward stud and a lower reverse stud connected to both ends of the threaded sleeve. A driven gear that meshes with the driving gear is fixed on the outer wall of the threaded sleeve. A positioning mechanism is provided between the lower end of the vertical shaft and the bottom beam.

[0007] In the aforementioned steel structure for housing with anti-deformation function, the drive gear has multiple weight-reducing holes evenly distributed on its wheel body.

[0008] In the aforementioned steel structure for housing with anti-deformation function, the lower end of the vertical shaft passes through the bottom beam. The positioning mechanism includes a positioning plate fixed to the lower end of the vertical shaft, two right-angle plates symmetrically inserted into the outer circumference of the positioning plate, and a bolt pair connecting the right-angle plates and the bottom beam. The horizontal section of the right-angle plate is provided with a through hole for the screw of the corresponding bolt pair, and the bottom beam is provided with an arc-shaped hole for the screw of the corresponding bolt pair. The center of the arc hole coincides with the center line of the vertical shaft.

[0009] The aforementioned steel structure for houses with anti-deformation function includes a bolt pair comprising a threaded rod, an upper combined nut and a lower combined nut located at the upper and lower ends of the threaded rod, wherein the upper combined nut and the lower combined nut are respectively composed of a locking nut and a fixing nut.

[0010] The aforementioned steel structure for houses with anti-deformation function has a limiting bushing on the lower surface of the top plate that mates with the upper end of the vertical shaft.

[0011] In the aforementioned steel structure for houses with anti-deformation function, the thickness of the driving gear is greater than the thickness of the driven gear.

[0012] The beneficial effects of this utility model are:

[0013] In operation, the drive shaft rotates, which in turn drives the drive gear and the threaded sleeve to rotate. This causes the upper forward-moving stud and the lower reverse-moving stud to move in opposite directions, thus providing support between the bottom beam and the top beam. The drive gear drives six retractable supports simultaneously to provide support. These six retractable supports increase the number of support points, thereby expanding the support range and enhancing the support effect. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a schematic diagram showing the arrangement of the drive gear and various retractable supports of this utility model.

[0016] In the diagram: 1. Steel structure support, 2. Bottom beam, 3. Top beam, 4. Top plate, 5. Upper forward stud, 6. Screw sleeve, 7. Limiting bushing, 8. Driving gear, 9. Bearing, 10. Driven gear, 11. Lower reverse stud, 12. Positioning ring plate, 13. Right angle insert plate, 14. Lower combination nut, 15. Positioning plate, 16. Upper combination nut, 17. Screw, 18. Vertical shaft. Detailed Implementation

[0017] The present invention will be described in detail with reference to the accompanying drawings.

[0018] like Figure 1 , Figure 2As shown, the steel structure of the house with anti-deformation function includes a steel structure support 1, a bottom beam 2 and a top beam 3 located on the top of the steel structure support 1, and a reinforcing component located between the bottom beam 2 and the top beam 3.

[0019] The reinforcement assembly includes a vertical shaft 18 supported in the middle of the base beam 2 by bearings 9, a drive gear 8 mounted on the vertical shaft 18, a positioning ring plate 12 fixed to the base beam 2 and concentric with the vertical shaft 18, six retractable support columns evenly distributed on the upper surface of the positioning ring plate 12, and a top plate 4 located between the top of each retractable support column and the top beam 3. In this embodiment, the drive gear 8 has multiple weight-reducing holes evenly distributed on its wheel body. The lower surface of the top plate 3 is provided with a limiting bushing 7 that mates with the upper end of the vertical shaft 18.

[0020] The retractable support consists of a threaded sleeve 6 with a built-in double-threaded design, an upper forward stud 5 and a lower reverse stud 11 connected to both ends of the threaded sleeve 6, and a driven gear 10 that meshes with the driving gear 8 is fixed on the outer wall of the threaded sleeve 6. In this embodiment, the thickness of the driving gear 8 is greater than the thickness of the driven gear 10.

[0021] A positioning mechanism is provided between the lower end of the vertical shaft 18 and the bottom beam 2. In this embodiment, the lower end of the vertical shaft 18 passes through the bottom beam 2. The positioning mechanism includes a positioning plate 15 fixed to the lower end of the vertical shaft 18, two right-angled insert plates 13 symmetrically inserted into the outer circumference of the positioning plate 15, and a bolt pair connecting the right-angled insert plates 13 and the bottom beam 2. The horizontal section of the right-angled insert plate 13 is provided with a through hole for the screw 17 corresponding to the bolt pair, and the bottom beam 2 is provided with an arc-shaped hole for the screw 17 corresponding to the bolt pair. The center of the arc hole coincides with the center line of the vertical shaft 18. The bolt pair includes a screw 17, an upper combined nut 16 and a lower combined nut 14 provided at the upper and lower ends of the screw 17, respectively. The upper combined nut 16 and the lower combined nut 14 are composed of a locking nut and a fixing nut.

[0022] Working principle:

[0023] 1. The right-angle insert plate 13 drives the vertical shaft 18 to rotate, which in turn drives the drive gear 8 to rotate, thereby driving the driven gear 10 and the screw sleeve 6 to rotate. This causes the upper forward screw 5 and the lower reverse screw 11 to move in opposite directions, thus providing support between the bottom beam 2 and the top beam 3.

[0024] 2. After the support is in place, use bolts to connect it between the right-angle insert plate 13 and the bottom beam 2, and tighten the upper and lower combination nuts.

[0025] The embodiments of this utility model have been described in detail above, but the content described is only a preferred embodiment of this utility model and should not be considered as limiting the scope of implementation of this utility model. All equivalent changes and improvements made within the scope of this utility model should still fall within the scope of this patent.

Claims

1. A house steel structure with anti-deformation function, comprising a steel structure support, a bottom beam and a top beam arranged on the top of the steel structure support, and a reinforcing assembly arranged between the bottom beam and the top beam, characterized in that: The reinforcement assembly includes a vertical shaft supported by bearings in the middle of the bottom beam, a drive gear on the vertical shaft, a positioning ring plate fixed to the bottom beam and concentric with the vertical shaft, six telescopic support columns evenly distributed on the upper surface of the positioning ring plate, and a top plate located between the top of each telescopic support column and the top beam. The telescopic support column consists of a threaded sleeve with built-in double-threaded core, an upper forward stud and a lower reverse stud connected to both ends of the threaded sleeve. A driven gear that meshes with the drive gear is fixed on the outer wall of the threaded sleeve. A positioning mechanism is provided between the lower end of the vertical shaft and the bottom beam.

2. The house steel structure having an anti-deformation function according to claim 1, characterized in that: The drive gear has multiple weight-reducing holes evenly distributed on its wheel body.

3. The house steel structure having an anti-deformation function according to claim 1, characterized in that: The lower end of the vertical shaft passes through the bottom beam. The positioning mechanism includes a positioning plate fixed to the lower end of the vertical shaft, two right-angled plates symmetrically inserted into the outer circumference of the positioning plate, and a bolt pair connecting the right-angled plates and the bottom beam. The horizontal section of the right-angled plates is provided with through holes for the screws of the corresponding bolt pair. The bottom beam is provided with arc-shaped holes for the screws of the corresponding bolt pair. The center of the arc-shaped hole coincides with the center line of the vertical shaft.

4. The steel structure for houses with anti-deformation function according to claim 3, characterized in that: The bolt assembly includes a screw rod, an upper combined nut and a lower combined nut located at the upper and lower ends of the screw rod, and the upper combined nut and the lower combined nut are respectively composed of a locking nut and a fixing nut.

5. The house steel structure having an anti-deformation function according to claim 1, characterized in that: The lower surface of the top plate is provided with a limiting bushing that mates with the upper end of the vertical shaft.

6. The house steel structure having a deformation resistance function according to claim 1, wherein: The thickness of the driving gear is greater than the thickness of the driven gear.