CN203066319U - Antiquing aluminium tile construction structure of steel structural sloping roof - Google Patents
Antiquing aluminium tile construction structure of steel structural sloping roof Download PDFInfo
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- CN203066319U CN203066319U CN 201320155893 CN201320155893U CN203066319U CN 203066319 U CN203066319 U CN 203066319U CN 201320155893 CN201320155893 CN 201320155893 CN 201320155893 U CN201320155893 U CN 201320155893U CN 203066319 U CN203066319 U CN 203066319U
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Abstract
The utility model discloses an antiquing aluminium tile construction structure of a steel structural sloping roof. The construction structure comprises a roof support frame which is obliquely distributed, a plurality of purlines which are distributed on the roof support frame from top to bottom, a plurality of longitudinal steel support pieces and roof layers which are laid on the longitudinal steel support pieces, wherein the roof support frame is a steel truss roof frame, and the purlines are section steel structural members; each roof layer is formed by assembling a plurality of lines of lower tiles and a plurality of lines of upper tiles, each line of lower tiles are fixed between the two adjacent left and right longitudinal steel support pieces, and each line of upper tiles are arranged between two adjacent left and right lower tiles; and each line of lower tiles is formed by assembling a plurality of lower tiles from top to bottom, and each line of upper tiles is formed by assembling a plurality of upper tiles from top to bottom. The construction structure is simple in structure, reasonable in design, simple in construction process, material-saving, time-saving and easy in construction quality control; and various problems which are caused by adopting concrete structural basic layer and antiquing glazed tile roof layer construction for antique building sloping roofs can be solved through utilizing the construction structure.
Description
Technical field
The utility model belongs to the oblique roofing construction technical field of steel work, especially relates to the oblique roofing of a kind of steel work aluminium modelled after an antique watt constructing structure.
Background technology
Building in the style of the ancients refers to be specifically designed to imitation and alternative ancient architecture, traditional religion Buddhist and Taoist temples, traditional appearance, historical building, landmark and ancient village group, the building of reduction historical sites overview.Existing building in the style of the ancients sloped roof generally adopts concrete structure basic unit and antique glazed tile surface layer, but in the practice of construction process, when above-mentioned concrete structure basic unit and antique glazed tile surface layer are constructed, have to some extent all usually that stock utilization is lower, working procedure is complicated, the construction period is long, construction quality is difficult to defective and deficiencies such as assurance.Thereby, need the constructing structure of the existing oblique roofing of building in the style of the ancients is improved, and the oblique roofing of the steel work aluminium modelled after an antique watt constructing structure that a kind of simple in structure, reasonable in design, working procedure of corresponding proposition is simple and material-saving saves time, construction quality is easy to control, the stock utilization that exists in the time of effectively solving existing building in the style of the ancients oblique roofing employing concrete structure basic unit and antique glazed tile surface construction is lower, working procedure is complicated, the construction period is long, construction quality is difficult to defective and deficiencies such as assurance, and economic benefit and society are significantly.
The utility model content
Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, the oblique roofing of a kind of steel work aluminium modelled after an antique watt constructing structure is provided, it is simple in structure, reasonable in design, working procedure simple and material-saving saves time, construction quality is easy to control, and the stock utilization that exists in the time of effectively solving existing building in the style of the ancients oblique roofing employing concrete structure basic unit and antique glazed tile surface construction is lower, working procedure is complicated, the construction period is long, construction quality is difficult to problems such as assurance.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: the oblique roofing of a kind of steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: comprise that being the roofing bracing frame, the multiple tracks that are tilted to laying is laid in from top to bottom that purlin, multiple tracks on the roofing bracing frame is laid in the vertical steel support member on the described purlin of multiple tracks from left to right and the roofing surface layer on the described vertical steel support member of multiple tracks of mating formation, described roofing bracing frame is steel roof truss, the described purlin of multiple tracks is parallel laying, and the described vertical steel support member of multiple tracks is parallel laying; The described purlin of multiple tracks is laid at grade, and the described vertical steel support member of multiple tracks is laid at grade; Described roofing surface layer is watt assembled by multiple row lower floor watt and multiple row upper strata, and watt all lay from left to right on the described lower floor of multiple row watt and the described upper strata of multiple row, and the described lower floor of multiple row watt is parallel laying and the described upper strata of multiple row and watt is parallel laying; Each is listed as described lower floor and watt all is fixed between the described vertical steel support member of the adjacent twice in the left and right sides, and each is listed as described upper strata and watt all sets up between the described lower floor of adjacent two row in the left and right sides watt; It is watt assembled from top to bottom by multi-disc lower floor aluminium that each is listed as described lower floor watt, and each to be listed as described upper strata watt watt assembled from top to bottom by multi-disc upper strata aluminium; Described upper strata aluminium watt and described lower floor aluminium watt are in advance at the aluminium of factory process moulding watt.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: the top of described roofing bracing frame and the described vertical steel support member of multiple tracks all is fixed on the ridge, and described ridge is the steel work ridge.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: each left and right sides that is listed as described lower floor watt all is fixed on the described vertical steel support member of the adjacent twice in the left and right sides by securing member one, and each bottom, the left and right sides that is listed as described upper strata watt all is fixed in the left and right sides that is positioned at its below described lower floor of adjacent two row watt by securing member two is fastening.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: described securing member one and described securing member two are tapping screw.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: described roofing bracing frame, the described purlin of multiple tracks, the described vertical steel support member of multiple tracks and described roofing surface layer are assembled into a steel work inclined slope roof package assembly; The quantity of described steel work inclined slope roof package assembly is four, and four described steel work inclined slope roof package assemblies surround a square sloped roof structure; Described ridge comprises the square ridge that is laid in described square sloped roof superstructure and is laid in linear ridge between adjacent two described steel work inclined slope roof package assemblies that described linear ridge and described square ridge are fastenedly connected and are one.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: described steel roof truss is fixed on the concrete structure plate by the vertical support bar one of multiple tracks, and the concrete structure plate is supported on the concrete column that construction is finished in advance.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: the bottom of described roofing surface layer is provided with drip.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: described vertical steel support member is steel pipe, and the described purlin of multiple tracks is shaped steel.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: be provided with one deck fluorine carbon lacquer sprayed coating on the upper surface of described upper strata aluminium watt and described lower floor aluminium watt.
The oblique roofing of above-mentioned steel work aluminium modelled after an antique watt constructing structure is characterized in that: described upper strata aluminium watt is semicircular tile, and described lower floor aluminium watt is pan tile.
The utility model compared with prior art has the following advantages:
1, simple in structure, reasonable in design and processing and fabricating and installation convenience, construction quality is easy to control.
2, each member that adopts all be prefabricated in the factory in advance finish roofing bracing frame, purlin and vertically the steel support member be in advance steel construction piece in the factory process moulding, on-the-spot only need the assembling gets final product, thereby can increase substantially the site operation duration, and installation quality is easy to guarantee.
3, the upper strata aluminium that adopts in the roofing surface layer watt and lower floor's aluminium watt are in advance at the aluminium of factory process moulding watt, and upper strata aluminium watt and lower floor's aluminium watt all adopt aluminum veneer to process, because aluminum veneer is easy to carry out abnormity processing, thereby the factory process process of upper strata aluminium watt and lower floor's aluminium watt is simple and the crudy of the two is easy to guarantee, can be according to shape, color and the specification of antique glazed tile, easy and quick Fabrication goes out aluminium modelled after an antique watt.Aluminium watt have light weight,, intensity height, fireproof performance is good and load is little characteristics, and adopt batch production processing, working (machining) efficiency height and crudy are good, can satisfy the aluminium watt that different requirement of engineering are made into all size; In addition, the surface layer of aluminium watt adopts fluorine carbon lacquer sprayed coating, and the color washability is wide and decorative effect is strong; Simultaneously, aluminium watt be easy to reclaim, the pollution-free advantage such as environmental protection that is beneficial to.
4, adopt steel roof truss to replace traditional concrete base layer structure, thereby and steel roof truss carry out design and installation according to the specification of aluminium watt and load and get final product.
5, work progress is simple, during practice of construction, treat steel roof truss set up finish after, earlier the multiple tracks purlin is weldingly fixed on the steel roof truss, after being weldingly fixed on the vertical steel support member of multiple tracks on the multiple tracks purlin again, by tapping screw multiple row lower floor aluminium watt-minute is not installed on the vertical steel support member of adjacent twice again; After treating watt equal installation of multiple row lower floor aluminium, by tapping screw multiple row upper strata aluminium watt-minute is not installed on the adjacent two row lower floor aluminium in the left and right sides watt again, and the seam between the levels aluminium watt is carried out shutoff by bonded adhesives.
6, result of use is good, because each member adopts batch production processing, thereby the stock utilization height, loss is few; And working procedure is simple, can significantly shorten the construction period, is conducive to engineering and comes into operation as early as possible; Simultaneously, good decorating effect of the present utility model, construction quality are easy to guarantee that can save constructional materials and labour cost significantly, social benefit and economic benefit are obvious.To sum up, construction quality and the construction safety of the fine assurance engineering of the utility model energy, effectively improve efficiency of construction, reduce engineering cost, economizing on resources, is the primary selection of architectural decoration roofing modelled after an antique, especially the roofing modelled after an antique that the mould bases system is had high requirements, adopt the utility model construction can save investment largely, guarantee construction safety.
7, widely applicable, be applicable to the sloped roof work progress of all building in the style of the ancientss.
In sum, the utility model is simple in structure, reasonable in design, working procedure simple and material-saving saves time, construction quality is easy to control, and the stock utilization that exists in the time of effectively solving existing building in the style of the ancients oblique roofing employing concrete structure basic unit and antique glazed tile surface construction is lower, working procedure is complicated, the construction period is long, construction quality is difficult to problems such as assurance.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Description of drawings
Fig. 1 is external structure schematic diagram of the present utility model.
Fig. 2 is internal construction schematic diagram of the present utility model.
Fig. 3 is the connection status schematic diagram between the utility model roofing surface layer and the roofing bracing frame.
Fig. 4 is the local enlarged diagram at A place among Fig. 3.
Description of reference numerals:
The specific embodiment
As Fig. 1, Fig. 2, Fig. 3 and shown in Figure 4, the utility model comprises that being the roofing bracing frame 1, the multiple tracks that are tilted to laying is laid in from top to bottom that purlin 2, multiple tracks on the roofing bracing frame 1 is laid in the vertical steel support member on the described purlin 2 of multiple tracks from left to right and the roofing surface layer 3 on the described vertical steel support member of multiple tracks of mating formation, described roofing bracing frame 1 is steel roof truss, the described purlin 2 of multiple tracks is parallel laying, and the described vertical steel support member of multiple tracks is parallel laying.The described purlin 2 of multiple tracks is laid at grade, and the described vertical steel support member of multiple tracks is laid at grade.Described roofing surface layer 3 is assembled by watt 3-1 of multiple row lower floor and multiple row upper strata watt 3-2, watt 3-1 of the described lower floor of multiple row and the described upper strata of a multiple row watt 3-2 all lay from left to right, and watt 3-1 of the described lower floor of multiple row is parallel laying and the described upper strata of a multiple row watt 3-2 is parallel laying.Each is listed as watt 3-1 of described lower floor and all is fixed between the described vertical steel support member of the adjacent twice in the left and right sides, and each be listed as described upper strata watt 3-2 all set up the left and right sides adjacent two row watt 3-1 of described lower floor between.It is watt assembled from top to bottom by multi-disc lower floor aluminium that each is listed as watt 3-1 of described lower floor, and each to be listed as described upper strata watt 3-2 watt assembled from top to bottom by multi-disc upper strata aluminium.Described upper strata aluminium watt and described lower floor aluminium watt are in advance at the aluminium of factory process moulding watt.
In the present embodiment, the top of described roofing bracing frame 1 and the described vertical steel support member of multiple tracks all is fixed on the ridge, and described ridge is the steel work ridge.
During actual installation, each left and right sides that is listed as watt 3-1 of described lower floor all is fixed on the described vertical steel support member of the adjacent twice in the left and right sides by securing member one, and each is listed as the bottom, the left and right sides of described upper strata watt 3-2 all by securing member two fastening being fixed on the adjacent two row watt 3-1 of described lower floor in the left and right sides that is positioned at its below.
In the present embodiment, described securing member one and described securing member two are tapping screw 4.Thereby actual installation is very easy.
During practice of construction, each seam that is listed as between the adjacent two row watt 3-1 of described lower floor with the left and right sides below it of described upper strata watt 3-2 is all sealed by bonded adhesives articulamentum 5.
In the present embodiment, each is listed as between the adjacent two row watt 3-1 of described lower floor with the left and right sides below it of described upper strata watt 3-2, is also undertaken fastening fixing by tapping screw 4.
During practice of construction, the described purlin 2 of multiple tracks all is weldingly fixed on the described steel roof truss, and the described vertical steel support member in each road all is weldingly fixed on the described purlin 2 of multiple tracks.
In the present embodiment, described roofing bracing frame 1, the described purlin 2 of multiple tracks, the described vertical steel support member of multiple tracks and described roofing surface layer 3 are assembled into a steel work inclined slope roof package assembly.The quantity of described steel work inclined slope roof package assembly is four, and four described steel work inclined slope roof package assemblies surround a square sloped roof structure.Described ridge comprises the square ridge 9-1 that is laid in described square sloped roof superstructure and is laid in linear ridge 9-2 between adjacent two described steel work inclined slope roof package assemblies that described linear ridge 9-2 and described square ridge 9-1 are fastenedly connected and are one.
During practice of construction, described steel roof truss is fixed on the concrete structure plate 8 by the vertical support bar 1 of multiple tracks, and concrete structure plate 8 is supported on the concrete column 12 that construction is finished in advance.In the present embodiment, the bottom of described roofing surface layer 3 is provided with drip 10.Between described vertical steel support member and the concrete structure plate 8 color steel 11 is housed.
During practice of construction, described vertical steel support member is steel pipe.The described purlin 2 of multiple tracks is shaped steel.In the present embodiment, described steel pipe is zinc-plated square tube 6.
In the present embodiment, be provided with one deck fluorine carbon lacquer sprayed coating on the upper surface of described upper strata aluminium watt and described lower floor aluminium watt.Described upper strata aluminium watt is semicircular tile, and described lower floor aluminium watt is pan tile.
The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; every any simple modification, change and equivalent structure of above embodiment being done according to the utility model technical spirit changes, and all still belongs in the protection domain of technical solutions of the utility model.
Claims (10)
1. the oblique roofing of steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: comprise that being the roofing bracing frame (1), the multiple tracks that are tilted to laying is laid in from top to bottom that purlin (2), multiple tracks on the roofing bracing frame (1) is laid in the vertical steel support member on the described purlin of multiple tracks (2) from left to right and the roofing surface layer (3) on the described vertical steel support member of multiple tracks of mating formation, described roofing bracing frame (1) is steel roof truss, the described purlin of multiple tracks (2) is parallel laying, and the described vertical steel support member of multiple tracks is parallel laying; The described purlin of multiple tracks (2) is laid at grade, and the described vertical steel support member of multiple tracks is laid at grade; Described roofing surface layer (3) is assembled by multiple row lower floor watt (3-1) and multiple row upper strata watt (3-2), the described lower floor of multiple row watt (3-1) and the described upper strata of multiple row watt (3-2) all lay from left to right, and the described lower floor of multiple row watt (3-1) is parallel laying and the described upper strata of multiple row watt (3-2) is parallel laying; Each is listed as described lower floor watt (3-1) and all is fixed between the described vertical steel support member of the adjacent twice in the left and right sides, and each is listed as described upper strata watt (3-2) and all sets up between adjacent two row described lower floors watt (3-1) in the left and right sides; It is watt assembled from top to bottom by multi-disc lower floor aluminium that each is listed as described lower floor watt (3-1), and each to be listed as described upper strata watt (3-2) watt assembled from top to bottom by multi-disc upper strata aluminium; Described upper strata aluminium watt and described lower floor aluminium watt are in advance at the aluminium of factory process moulding watt.
2. according to the oblique roofing of the described steel work of claim 1 aluminium modelled after an antique watt constructing structure, it is characterized in that: the top of described roofing bracing frame (1) and the described vertical steel support member of multiple tracks all is fixed on the ridge, and described ridge is the steel work ridge.
3. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: each left and right sides that is listed as described lower floor watt (3-1) all is fixed on the described vertical steel support member of the adjacent twice in the left and right sides by securing member one, and each is listed as the bottom, the left and right sides on described upper strata watt (3-2) all by securing member two fastening being fixed in the adjacent two described lower floors of row watt (3-1) in the left and right sides that is positioned at its below.
4. according to the oblique roofing of the described steel work of claim 3 aluminium modelled after an antique watt constructing structure, it is characterized in that: described securing member one and described securing member two are tapping screw (4).
5. according to the oblique roofing of the described steel work of claim 2 aluminium modelled after an antique watt constructing structure, it is characterized in that: described roofing bracing frame (1), the described purlin of multiple tracks (2), the described vertical steel support member of multiple tracks and described roofing surface layer (3) are assembled into a steel work inclined slope roof package assembly; The quantity of described steel work inclined slope roof package assembly is four, and four described steel work inclined slope roof package assemblies surround a square sloped roof structure; Described ridge comprises the square ridge (9-1) that is laid in described square sloped roof superstructure and is laid in linear ridge (9-2) between adjacent two described steel work inclined slope roof package assemblies that described linear ridge (9-2) is fastenedly connected with described square ridge (9-1) and is one.
6. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: described steel roof truss is fixed on the concrete structure plate (8) by the vertical support bar one (7) of multiple tracks, and concrete structure plate (8) is supported on the concrete column (12) that construction in advance finishes.
7. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: the bottom of described roofing surface layer (3) is provided with drip (10).
8. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: described vertical steel support member is steel pipe, and the described purlin of multiple tracks (2) is shaped steel.
9. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: be provided with one deck fluorine carbon lacquer sprayed coating on the upper surface of described upper strata aluminium watt and described lower floor aluminium watt.
10. according to claim 1 or the oblique roofing of 2 described steel work aluminium modelled after an antique watt constructing structure, it is characterized in that: described upper strata aluminium watt is semicircular tile, and described lower floor aluminium watt is pan tile.
Priority Applications (1)
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CN 201320155893 CN203066319U (en) | 2013-03-30 | 2013-03-30 | Antiquing aluminium tile construction structure of steel structural sloping roof |
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CN 201320155893 CN203066319U (en) | 2013-03-30 | 2013-03-30 | Antiquing aluminium tile construction structure of steel structural sloping roof |
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CN 201320155893 Expired - Fee Related CN203066319U (en) | 2013-03-30 | 2013-03-30 | Antiquing aluminium tile construction structure of steel structural sloping roof |
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Cited By (8)
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CN105839864A (en) * | 2016-05-20 | 2016-08-10 | 合肥国瑞集成建筑科技有限公司 | Quickly-built sloping roof based on cold-bent thin wall type steel structure |
CN105888114A (en) * | 2016-05-30 | 2016-08-24 | 浙江省二建建设集团有限公司 | Light steel slope roof foundation layer dry tile hanging structure and construction method of changing plane roof into slope roof |
CN106382023A (en) * | 2016-11-23 | 2017-02-08 | 北京聚星复合材料技术发展有限公司 | Archaistic building and manufacturing method thereof |
CN104847046B (en) * | 2014-02-13 | 2017-04-05 | 吉林工程技术师范学院 | Backing assembly type roof system framed bent |
CN107386465A (en) * | 2017-09-15 | 2017-11-24 | 云南省建设投资控股集团有限公司 | The post beam crossed node structure of steel construction gable and hip roof building roof modelled after an antique |
CN108678257A (en) * | 2018-06-11 | 2018-10-19 | 中建局集团建设发展有限公司 | A kind of wide-angle Sloping roof steel construction and its construction method |
CN110965687A (en) * | 2019-12-20 | 2020-04-07 | 李三红 | Large-angle inclined roof steel structure device and construction method thereof |
CN113653272A (en) * | 2021-09-07 | 2021-11-16 | 中国建筑第二工程局有限公司 | Archaized eave of steel structure of high-rise building and construction method thereof |
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2013
- 2013-03-30 CN CN 201320155893 patent/CN203066319U/en not_active Expired - Fee Related
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104847046B (en) * | 2014-02-13 | 2017-04-05 | 吉林工程技术师范学院 | Backing assembly type roof system framed bent |
CN105839864A (en) * | 2016-05-20 | 2016-08-10 | 合肥国瑞集成建筑科技有限公司 | Quickly-built sloping roof based on cold-bent thin wall type steel structure |
CN105888114A (en) * | 2016-05-30 | 2016-08-24 | 浙江省二建建设集团有限公司 | Light steel slope roof foundation layer dry tile hanging structure and construction method of changing plane roof into slope roof |
CN105888114B (en) * | 2016-05-30 | 2018-06-05 | 浙江省二建建设集团有限公司 | The cladding tile structure of Qing Gang pitched roofs base and flat roof deck change the construction method of pitched roof |
CN106382023A (en) * | 2016-11-23 | 2017-02-08 | 北京聚星复合材料技术发展有限公司 | Archaistic building and manufacturing method thereof |
CN107386465A (en) * | 2017-09-15 | 2017-11-24 | 云南省建设投资控股集团有限公司 | The post beam crossed node structure of steel construction gable and hip roof building roof modelled after an antique |
CN107386465B (en) * | 2017-09-15 | 2023-03-31 | 云南省建设投资控股集团有限公司 | Column-beam intersection node structure of steel structure antique second mountain building roof |
CN108678257A (en) * | 2018-06-11 | 2018-10-19 | 中建局集团建设发展有限公司 | A kind of wide-angle Sloping roof steel construction and its construction method |
CN110965687A (en) * | 2019-12-20 | 2020-04-07 | 李三红 | Large-angle inclined roof steel structure device and construction method thereof |
CN113653272A (en) * | 2021-09-07 | 2021-11-16 | 中国建筑第二工程局有限公司 | Archaized eave of steel structure of high-rise building and construction method thereof |
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Address after: 710032 No. 242 middle Changle Road, Xincheng District, Shaanxi, Xi'an Patentee after: SCEGC NO.5 CONSTRUCTION ENGINEERING GROUP Co.,Ltd. Address before: 710032 No. 242 middle Changle Road, Xincheng District, Shaanxi, Xi'an Patentee before: No.5 Construction Engineering Company Limited of Shaanxi Construction Group |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20130717 |