CN205172059U - Built -in steel structural framework's high -quality rotatable circular school of antidetonation building - Google Patents
Built -in steel structural framework's high -quality rotatable circular school of antidetonation building Download PDFInfo
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- CN205172059U CN205172059U CN201520656714.8U CN201520656714U CN205172059U CN 205172059 U CN205172059 U CN 205172059U CN 201520656714 U CN201520656714 U CN 201520656714U CN 205172059 U CN205172059 U CN 205172059U
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Abstract
The utility model discloses a built -in steel structural framework's high -quality rotatable circular school of antidetonation building, including ground defence device, large -scale low -spin motor, perpendicular bearing strutbeam, horizontal bearing strutbeam, the inside arrangement of ground defence device has large -scale low -spin motor, the top design of large -scale low -spin motor has the building ground, perpendicular to in the upper space of building ground building ground base surface be provided with perpendicular bearing strutbeam, the inside successive layer design of perpendicular bearing strutbeam does horizontal bearing strutbeam, the top of horizontal bearing strutbeam covers there is toper building top frame, open the bottom of perpendicular bearing strutbeam has a triangle door frame, perpendicular bearing strutbeam with set up the stair support in each frame that horizontal bearing strutbeam is constituteed. Beneficial effect lies in: anti -seismic performance greatly improves, and the wholeness of building is strengthened, and even illumination can be enjoyed in the rotation type design, has the interest more.
Description
Technical field
The utility model belongs to New Kind of School's building design field, is specifically related to a kind of high-quality antidetonation rotatable circular school building of built-in steel structure frame.
Background technology
Antidetonation is the problem that building construction and even all civil engineerings are the most difficult, the design of school's building is the emphasis in architectural design field always, and the design of school building focus on its anti-seismic performance, because school's personnel amount is more, so the house of the inside is all comparatively large, thus house is all larger, so load bearing wall is less, and if peripheral hardware corridor form, the load-bearing property of overhanging portion is just poorer, so factors causes the anti-seismic performance of school's building poor.The ground of general anti-vibration house anti-vibration house is generally beaten in solid rock depths, can move with vibrations.Support building with quadrangular prism between the some floors of low layer, bring up firm ground floor.And with associated materials, load bearing wall is reinforced, this design can bear the shake of left and right.The center of gravity of pyramid is lower, rocks so can bear.All devices is all locked and is fixed on the wall, and all can bear movement that is upper and lower and left and right.Whole adopts packing, and higher floor is flexible.This cost design is relatively low, is convenient to implement, but location condition requires higher, and anti-seismic performance is limited.
Utility model content
The purpose of this utility model is just the high-quality antidetonation rotatable circular school building providing a kind of built-in steel structure frame in order to solve the problem.
The utility model is achieved through the following technical solutions above-mentioned purpose:
A kind of high-quality antidetonation rotatable circular school building of built-in steel structure frame, comprise ground protective equipment, large-sized low-speed electric rotating machine, vertical load-bearing strutbeam, Horizontal load-bearing strutbeam, the positioned inside of described ground protective equipment has described large-sized low-speed electric rotating machine, the top of described large-sized low-speed electric rotating machine is designed with building foundation, in the upper sheaf space of described building foundation, described building foundation surface is provided with described vertical load-bearing strutbeam, the inside of described vertical load-bearing strutbeam is successively designed to described Horizontal load-bearing strutbeam, the top of described Horizontal load-bearing strutbeam is coated with taper roof framework, the bottom of described vertical load-bearing strutbeam has a triangle gate framework, in each framework of described vertical load-bearing strutbeam and described Horizontal load-bearing strutbeam composition, stair bracket is set.
In said structure, described large-sized low-speed electric rotating machine slowly moves with extremely slow speed, ensure that building accepts uniform illumination, described vertical load-bearing strutbeam and described Horizontal load-bearing strutbeam and described taper roof framework form the framework of building, build building door and elevator or stair respectively at described triangle gate framework and described stair bracket outside.
In order to improve anti-seismic performance further, described large-sized low-speed electric rotating machine is seated in described ground protective equipment interior grooves, and described large-sized low-speed electric rotating machine and described building foundation are fastenedly connected.
In order to improve anti-seismic performance further, described building foundation and described vertical load-bearing strutbeam are rigidly connected, and described vertical load-bearing strutbeam welds with described Horizontal load-bearing strutbeam.
In order to improve anti-seismic performance further, described vertical load-bearing strutbeam welds with described taper roof framework respectively mutually with described Horizontal load-bearing strutbeam.
In order to improve anti-seismic performance further, described triangle gate framework welds mutually with described vertical load-bearing strutbeam and described Horizontal load-bearing strutbeam, and described stair bracket is welded on the lower portion of described vertical load-bearing strutbeam and described Horizontal load-bearing strutbeam composition.
Beneficial effect is: anti-seismic performance greatly improves, and the globality of building is strengthened, and swiveling design can enjoy uniform illumination, more has interest.
Accompanying drawing explanation
Fig. 1 is the space view in the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame described in the utility model;
Fig. 2 is the stair bracket partial enlarged drawing in the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame described in the utility model.
1, ground protective equipment; 2, large-sized low-speed electric rotating machine; 3, building foundation; 4, vertical load-bearing strutbeam; 5, Horizontal load-bearing strutbeam; 6, taper roof framework; 7, triangle gate framework; 8, stair bracket.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail:
As Figure 1-Figure 2, a kind of high-quality antidetonation rotatable circular school building of built-in steel structure frame, comprise ground protective equipment 1, large-sized low-speed electric rotating machine 2, vertical load-bearing strutbeam 4, Horizontal load-bearing strutbeam 5, the positioned inside of ground protective equipment 1 has large-sized low-speed electric rotating machine 2, in order to ensure that building accepts uniform illumination, the top of large-sized low-speed electric rotating machine 2 is designed with building foundation 3, in order to support the weight of building, in the upper sheaf space of building foundation 3, building foundation 3 surface is provided with vertical load-bearing strutbeam 4, in order to bear the load of vertical direction, the inside of vertical load-bearing strutbeam 4 is successively designed to Horizontal load-bearing strutbeam 5, in order to bear the tension force of horizontal direction, the top of Horizontal load-bearing strutbeam 5 is coated with taper roof framework 6, in order to keep out wind and rain, the bottom of vertical load-bearing strutbeam 4 has a triangle gate framework 7, in order to offer large door frame, stair bracket 8 is designed in each framework that vertical load-bearing strutbeam 4 and Horizontal load-bearing strutbeam 5 form, in order to type of construction elevators and raising steadiness.
In said structure, large-sized low-speed electric rotating machine 2 slowly moves with extremely slow speed, ensure that building accepts uniform illumination, vertical load-bearing strutbeam 4 and Horizontal load-bearing strutbeam 5 and taper roof framework 6 form the framework of building, build building door and elevator or stair respectively at triangle gate framework 7 and stair bracket 8 outside.
In order to improve anti-seismic performance further, large-sized low-speed electric rotating machine 2 is seated in ground protective equipment 1 interior grooves, large-sized low-speed electric rotating machine 2 and building foundation 3 are fastenedly connected, building foundation 3 and vertical load-bearing strutbeam 4 are rigidly connected, vertical load-bearing strutbeam 4 welds with Horizontal load-bearing strutbeam 5, vertical load-bearing strutbeam 4 welds with taper roof framework 6 respectively mutually with Horizontal load-bearing strutbeam 5, triangle gate framework 7 welds mutually with vertical load-bearing strutbeam 4 and Horizontal load-bearing strutbeam 5, and stair bracket 8 is welded on the lower portion of vertical load-bearing strutbeam 4 and Horizontal load-bearing strutbeam 5 composition.
More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and manual just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.
Claims (5)
1. the high-quality antidetonation rotatable circular school building of a built-in steel structure frame, it is characterized in that: comprise ground protective equipment (1), large-sized low-speed electric rotating machine (2), vertical load-bearing strutbeam (4), Horizontal load-bearing strutbeam (5), the positioned inside of described ground protective equipment (1) has described large-sized low-speed electric rotating machine (2), the top of described large-sized low-speed electric rotating machine (2) is designed with building foundation (3), in the upper sheaf space of described building foundation (3), described building foundation (3) surface is provided with described vertical load-bearing strutbeam (4), the inside of described vertical load-bearing strutbeam (4) is successively designed to described Horizontal load-bearing strutbeam (5), the top of described Horizontal load-bearing strutbeam (5) is coated with taper roof framework (6), the bottom of described vertical load-bearing strutbeam (4) has a triangle gate framework (7), in each framework that described vertical load-bearing strutbeam (4) and described Horizontal load-bearing strutbeam (5) form, stair bracket (8) is set.
2. the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame according to claim 1, it is characterized in that: described large-sized low-speed electric rotating machine (2) is seated in described ground protective equipment (1) interior grooves, described large-sized low-speed electric rotating machine (2) and described building foundation (3) are fastenedly connected.
3. the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame according to claim 1, it is characterized in that: described building foundation (3) and described vertical load-bearing strutbeam (4) are rigidly connected, and described vertical load-bearing strutbeam (4) is welded with described Horizontal load-bearing strutbeam (5).
4. the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame according to claim 1, is characterized in that: described vertical load-bearing strutbeam (4) is welded with described taper roof framework (6) respectively mutually with described Horizontal load-bearing strutbeam (5).
5. the high-quality antidetonation rotatable circular school building of a kind of built-in steel structure frame according to claim 1, it is characterized in that: described triangle gate framework (7) is welded mutually with described vertical load-bearing strutbeam (4) and described Horizontal load-bearing strutbeam (5), described stair bracket (8) is welded on the lower portion that described vertical load-bearing strutbeam (4) and described Horizontal load-bearing strutbeam (5) form.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520656714.8U CN205172059U (en) | 2015-08-28 | 2015-08-28 | Built -in steel structural framework's high -quality rotatable circular school of antidetonation building |
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CN201520656714.8U CN205172059U (en) | 2015-08-28 | 2015-08-28 | Built -in steel structural framework's high -quality rotatable circular school of antidetonation building |
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CN205172059U true CN205172059U (en) | 2016-04-20 |
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CN201520656714.8U Expired - Fee Related CN205172059U (en) | 2015-08-28 | 2015-08-28 | Built -in steel structural framework's high -quality rotatable circular school of antidetonation building |
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CN (1) | CN205172059U (en) |
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2015
- 2015-08-28 CN CN201520656714.8U patent/CN205172059U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160420 Termination date: 20160828 |
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CF01 | Termination of patent right due to non-payment of annual fee |