CN103899078A - Mounting method of attached automatic lifting protection shield - Google Patents
Mounting method of attached automatic lifting protection shield Download PDFInfo
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- CN103899078A CN103899078A CN201410127224.9A CN201410127224A CN103899078A CN 103899078 A CN103899078 A CN 103899078A CN 201410127224 A CN201410127224 A CN 201410127224A CN 103899078 A CN103899078 A CN 103899078A
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Abstract
The invention discloses a mounting method of an attached automatic lifting protection shield. The mounting method includes that 1), all parts are directly individually assembled on the basis of exterior wall bearing of a building; 2), after a module unit A and a module unit B of the attached automatic lifting protection shield as well as another module unit B of a construction platform are respectively spliced on the ground and are sequentially lifted to the exterior wall of the building for integral mounting by taking the module units as a whole by the aid of a tower crane; 3), the module unit A and the module unit B of the attached automatic lifting protection shield as well the module unit B of the construction platform are spliced into a complete machine platform frame on the ground and are integrally lifted to a preset position on the exterior wall of the building for mounting. The mounting method is simple in step, good in standardability, capable of effectively reducing potential safety hazards artificially caused during mounting of a platform, high in efficiency and wide in application range.
Description
Technical field
The present invention relates to the Construction Formwork & Scaffold Technology field of building operations, be specifically related to a kind of mounting method that adheres to automatic lifting protecting screen system.
Background technology
Scaffold (scaffold) for workman operates and solve the various supports that high-rise working is set up, is the generic term of building field at the construction field (site), and along with the fast development of building field, super highrise building is more and more at present.Simultaneously also more and more higher to the requirement of scaffold, traditional steel tube fastener formula scaffold can not meet construction needs.Construction of super highrise building adopts attachment type raise scaffold more at present.But traditional attachment type raise scaffold be meet use needs, keep support body resistance to overturning and in architectural adhesive strength, generally need set up the height of 4~5 layers, and support body is all wider from top to bottom, but operating personnel more just uses and is building 1~2 layer of support body that floor is corresponding when practice of construction, support body hereunder only plays edge protection, and therefore 2~3 layers below traditional attachment type raise scaffold just seem too wide.The main defect existing is the waste of support body material, and the feature of environmental protection is poor; Support body weight is large, install, dismantlement work amount is large, support body lifting and while using load larger.Therefore based on aforesaid problem, be necessary to make further research and improve for the structure of existing lifting false work.
Traditional lifting false work cannot be combined with protecting screen, also lacks the standard that corresponding lifting false work and protecting screen are installed.
Summary of the invention
Invention has overcome the deficiencies in the prior art, provides one to adhere to automatic lifting protecting screen mounting method, for the installation combination of standard lifting false work and protecting screen, improves installation effectiveness, reduces installation cost.
Consider the problems referred to above of prior art, according to disclosure of the invention aspect, invent by the following technical solutions:
One is adhered to automatic lifting protecting screen mounting method, utilizes external wall common steel tube scaffold or ground or annex roofing around, the supporting basis when adhering to automatic lifting protecting screen and install, and concrete steps are as follows:
After described 1 protecting screen modular unit A and 1 protecting screen modular unit B and 1 multilayer operation platform modular unit B are assembled, form independently seat in the plane platform support body of a Pin.
In order to realize better invention, further technical scheme is:
According to one embodiment of the invention, after described step 5, on the platform floor of the screen platform base plate of the screen platform base plate of described protecting screen modular unit A, protecting screen modular unit B, multilayer operation platform modular unit B, turnover panel and cat ladder are installed respectively.
One is adhered to automatic lifting protecting screen mounting method, comprising:
After described 1 protecting screen modular unit A and 1 protecting screen modular unit B and 1 multilayer operation platform modular unit B are assembled, form independently seat in the plane platform support body of a Pin.
According to one embodiment of the invention, erection sequence is:
1) first protecting screen modular unit A integral hoisting to external wall is supported to the precalculated position on basis, the supporting base in protecting screen modular unit A and the preformed hole of Architectural fringes are installed;
2) the mobile suspender member in Hoisting System is connected with building;
3) will protect again the integral hoisting of panel module unit B to protecting screen modular unit A, and be attached thereto;
4) then multilayer operation platform modular unit B is installed on panel module unit B, is connected with combined system support bar with combined system connector; Supporting base on multilayer operation platform modular unit B is connected with architectural corresponding preformed hole simultaneously.
According to one embodiment of the invention, a described Pin independently after seat in the plane platform erection of frames, continues to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin, laterally connects between described adjacent two seat in the plane platform support bodys.
According to one embodiment of the invention, a described Pin is independently after seat in the plane platform erection of frames, several or whole protecting screen modular unit A of parts are aside installed, and laterally connect, protecting screen modular unit B is installed on protecting screen modular unit A again, then multilayer operation platform modular unit B is installed on protecting screen modular unit B.
According to one embodiment of the invention, described protecting screen modular unit B, multilayer operation platform modular unit B laterally connect.
According to one embodiment of the invention, described in adhere to installation and the wiring of carrying out electrical system after the installation of automatic lifting protecting screen.
According to one embodiment of the invention, described protecting screen modular unit A is as follows in the order of installation on ground:
Installation bearing seat on step 6, guide rail in spine structure;
Invention can also be:
One is adhered to automatic lifting protecting screen mounting method, protecting screen modular unit A, protecting screen modular unit B and multilayer operation platform modular unit B are assembled into independently seat in the plane platform support body of a Pin on ground, again this seat in the plane platform support body is winched to predetermined installation site with tower crane, again protecting screen modular unit A, protecting screen modular unit B are connected with architectural preformed hole with the supporting base of going up separately of multilayer operation platform modular unit B, and the mobile suspender member in the Hoisting System of protecting screen modular unit A is connected with building;
Continue to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin, laterally connects between described adjacent two seat in the plane platform support bodys;
After completing, the erection of frames that adheres to automatic lifting protecting screen carries out installation and the wiring of electrical system.
Compared with prior art, one of beneficial effect of the invention is:
By the mode that each component of lifting protecting screen are assembled, the installation risk of lifting protecting screen is significantly reduced, and between concatenation unit and concatenation unit, assembled efficiency is higher, be also convenient to later stage dismounting.The system being combined to form of multiple protecting screen modular unit A, protecting screen modular unit B and multilayer operation platform modular unit B, adopts different construction protection measures for different construction part, is suitable for more economically.For the floor position of hot work in progress, utilize the multilayer operation platform at top, to meet the stacking needs of construction operation personnel and template, instrument; For 2~3 layers of floor position that reinforced concrete structure has been constructed below it, adopt the protecting screen module that structure is simpler and more direct to carry out the security protection of protective construction periphery, weight is lighter, and peace is torn open more convenient, and economy is better; Mounting method step provided by the present invention is simple simultaneously, and the uniformity of dismounting operation is strong, normative good, can effectively reduce the potential safety hazard causing because of human factor in platform installation process, operating procedures different in mounting method can be suitable for respectively at dissimilar external wall, effectively raise the efficiency, range of application is wide.
Accompanying drawing explanation
For clearer explanation present specification embodiment or technical scheme of the prior art, to the accompanying drawing of required use in the description of embodiment or prior art be briefly described below, apparently, the accompanying drawing the following describes is only the reference to some embodiment in present specification, for those skilled in the art, in the situation that not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 shows according to the invention automatic lifting protecting screen of an embodiment and the structural representation of operation platform combined system.
Fig. 2 shows according to the structural representation of the protecting screen modular unit B of an embodiment of invention.
Fig. 3 shows according to the structural representation of the protecting screen modular unit A of an embodiment of invention.
Fig. 4 shows according to the structural representation of the multilayer operation platform modular unit B of an embodiment of invention.
Fig. 5 shows according to the side structure schematic diagram of the spine structure of an embodiment of invention.
Fig. 6 shows according to the plan structure schematic diagram of the spine structure of an embodiment of invention.
Fig. 7 shows according to the invention automatic lifting protecting screen of an embodiment and the side structure schematic diagram of operation platform combined system.
Fig. 8 shows according to the invention automatic lifting protecting screen of an embodiment and the side structure schematic diagram of operation platform combined system.
Fig. 9 shows according to the structural representation of the Hoisting System bag of an embodiment of invention.
Figure 10 shows according to the structural representation of the pair rope angle pulley assembly of an embodiment of invention.
Figure 11 shows according to the structural representation of the transfer of encorbelmenting of an embodiment of invention.
The specific embodiment
Below in conjunction with embodiment, invention is described in further detail, but working of an invention mode is not limited to this.
Fig. 1 shows according to the invention automatic lifting protecting screen of an embodiment and the structural representation of operation platform combined system.A kind of automatic lifting protecting screen and operation platform combined system as shown in Figure 1, comprise protecting screen modular unit A1, protecting screen modular unit B2 and multilayer operation platform modular unit B3; Wherein protecting screen modular unit A1, protecting screen modular unit B2 and multilayer operation platform modular unit B3 can carry out combining to meet corresponding construction requirement accordingly, the combination (protecting screen modular unit A1+ protecting screen modular unit B2+ multilayer operation platform modular unit B3) that protecting screen modular unit A1, protecting screen modular unit B2 as shown in Figure 1 and multilayer operation platform modular unit B3 set gradually from bottom to up, or the protecting screen modular unit A1 of multilayer operation platform modular unit B3 upper (protecting screen modular unit A1+ multilayer operation platform modular unit B3).
Fig. 2 shows according to the structural representation of the protecting screen modular unit B of an embodiment of invention.Protecting screen modular unit B2 as shown in Figure 2 comprises, described protecting screen modular unit B comprises interior row's column 212, outer row's column 211 and spine structure 22, and described outer row's column 211 and described interior row's column 212 are respectively in two and outer row's column 211 and one, to arrange column 212 to be relatively set into a columns assemblies 21; Described spine structure 22 is between described two columns assemblies 21, described two columns assemblies 21, a spine structure 22 form square rack, between described outer row's column 211 and described spine structure 22, be provided with protective screen plate 23, on this square rack, be also provided with screen platform base plate 24.
Fig. 3 shows according to the structural representation of the protecting screen modular unit A of an embodiment of invention.Protecting screen modular unit A as shown in Figure 3, forms described protecting screen modular unit A by increase Hoisting System 15 on described protecting screen modular unit B.On the spine structure 12 of protecting screen modular unit A, be provided with backbone connector 16, backbone connector 16 is bolted the two ends of the backbone 122 of two spine structures 12, be about to two spine structures 12 and connect, on described spine structure 12, be provided with fixing suspender member 17.On spine structure 12, be also provided with post rail and extend bridgeware 18, extending bridgeware 18 by post rail can extend guide rail 121.Between spine structure 12 and interior row's column 112, outer row's column, all can be provided with horizontal shore 113.Guide rail 121 on spine structure 12 is through supporting base 19.Screen platform base plate 14 can connect multiple turnover panels 144 by hinge 143.
Fig. 4 shows according to the structural representation of the multilayer operation platform modular unit B of an embodiment of invention.Multilayer operation platform modular unit B3 as shown in Figure 4 comprises interior row's column 31, outer row's column 32, guide rail 35, described outer row's column 32 be three and side by side interval vertically arrange; Described interior row's column 31 is that two, guide rail 35 are one, and this guide rail 35 is arranged between column 31 in described two, described interior row's column 31, guide rail 35 also side by side interval vertically arrange; In described two, arrange the outer row's column of column 31, three 32, a guide rail 35 forms square rack, is provided with platform floor 34 on this square rack.
Fig. 5 shows according to the side structure schematic diagram of the spine structure of an embodiment of invention.Fig. 6 shows according to the plan structure schematic diagram of the spine structure of an embodiment of invention.Spine structure 12 as shown in Figure 5, Figure 6 comprises guide rail 121, backbone 122, internal conversion part 123 and external conversion part 124, and described backbone 122 can be " H " shaped steel; The interior edge of a wing 1221 of described backbone 122 is by being connected with described guide rail 121 along spaced at least two the internal conversion parts 123 of described backbone 122 bearing of trends, on the outer edge of a wing 1222 of described backbone 122, be provided with at least two spaced for illustrating with protective screen plate 23(Fig. 2 along described backbone 122 bearing of trends) the external conversion part 124 that is connected.
Fig. 7 shows according to the invention automatic lifting protecting screen of an embodiment and the side structure schematic diagram of operation platform combined system.Between multilayer operation platform modular unit B3 as shown in Figure 7 and described protecting screen modular unit B2, be provided with combined system support bar 4, described combined system support bar 4 one end are connected with described multilayer operation platform modular unit B3, and the other end is connected with described protecting screen modular unit B2.Between described multilayer operation platform modular unit B3 and described protecting screen modular unit B2, be connected by combined system connector 5.
Between described protecting screen modular unit B2 and described protecting screen modular unit A1 by post rail be connected bridgeware 7, backbone connector 8 connects.
Fig. 8 shows according to the invention automatic lifting protecting screen of an embodiment and the side structure schematic diagram of operation platform combined system.Combined system connector 5 as shown in Figure 8 comprises the first channel-section steel parts 51, the second channel-section steel parts 52, junction plate 53, described the first channel-section steel parts 51 are oppositely arranged with the slot opening direction of described the second channel-section steel parts 52, in slot opening one side of described the second channel-section steel parts 52, be provided with installing plate 54, described junction plate 53 is arranged on described the first channel-section steel parts 51, between the second channel-section steel parts 52, the length of described the second channel-section steel parts 52 is greater than the length of described the first channel-section steel parts 51, on the back side of described the first channel-section steel parts 51, be provided with the installing hole 511 of installing with outer row's column 32 of described multilayer operation platform modular unit B3, on described junction plate 53, be provided with described combined system support bar 4(Fig. 7 and illustrate) installing hole 531 that is connected, and illustrate with described backbone 122(Fig. 6) installing hole 532 that is connected of web, on the installing plate 54 of described the second channel-section steel parts 52, be provided with the installing hole 541 being connected with the interior edge of a wing 1221 of described backbone 122, the side of described the second channel-section steel parts 52 is provided with and the installing hole 521 being connected for two guide rails.
Fig. 9 shows according to the structural representation of the Hoisting System of an embodiment of invention.Hoisting System 15 as shown in Figure 8 comprises electric block body 151, sensor 152, electric block main hoisting hook 153, fixing suspender member 154 and mobile suspender member 155, described fixing suspender member 154 is arranged on described backbone 122, described mobile suspender member 155 is for being arranged on the hard point of building, described electric block body 151 is connected on described sensor 152 by electric block main hoisting hook 153, and described sensor 152 is connected on described fixing suspender member 154; Described electric block body 151 is also connected with mobile suspender member 155 by main rope 156, described main rope 156 one end are fixed under electric block on suspension hook 157, the other end is fixed on mobile suspender member 155 through encorbelmenting after transfer 158 turns to main rope 156, for providing the power that drives lifting protecting screen rise or decline by main rope 156 for guide rail 121 by electric block body 151.
Continue as shown in Figure 9, also comprise secondary rope angle pulley assembly 159, described secondary rope angle pulley assembly 159 is installed on the interior edge of a wing 1221 of backbone 122, under described electric block, suspension hook 157 is also connected with lower suspension hook connector 1510, described lower suspension hook connector 1510 is connected with mobile suspender member 155 by pair rope 1511, described secondary rope 1511 one end are fixed on lower suspension hook connector 1510, the other end is fixed on mobile suspender member 155 after secondary rope 1511 being turned to through secondary rope angle pulley assembly 159, be used for by pair rope 1511, secondary rope angle pulley assembly 159 and main rope 156, the transfer 158 of encorbelmenting forms rope chain links.
Figure 10 shows according to the structural representation of the pair rope angle pulley assembly of an embodiment of invention.Pair rope angle pulley assembly 159 as shown in figure 10 comprises secondary rope angle pulley installing rack 1591 and secondary rope angle pulley 1592, described secondary rope angle pulley 1592 is two, and described two secondary rope angle pulleies 1592 are respectively connected with described secondary rope angle pulley installing rack 1591 by a secondary rope angle pulley axle.
Figure 11 shows according to the structural representation of the transfer of encorbelmenting of an embodiment of invention.The transfer 158 of encorbelmenting as shown in figure 11 comprise installing rack 1581 and and turn to the wheel of the law 1582, the described wheel of the law 1582 that turns to is rotationally connected by angle pulley axle and described installing rack 1581, comprises a connecting portion 1583 being connected with the outer edge of a wing 1222 of described backbone 122 and a connecting portion 1584 being connected with the interior edge of a wing 1221 of described backbone 122 on described installing rack 1581.
In conjunction with the structure of above embodiment, following discloses the one of an embodiment adhere to automatic lifting protecting screen mounting method, utilize external wall common steel tube scaffold or ground or annex roofing around, as adhere to automatic lifting protecting screen install time supporting basis, concrete steps are as follows:
After described 1 protecting screen modular unit A1 and 1 protecting screen modular unit B2 and 1 multilayer operation platform modular unit B3 are assembled, form independently seat in the plane platform support body of a Pin.
After described step 5, on the platform floor 34 of the screen platform base plate 24 of the screen platform base plate 14 of described protecting screen modular unit A1, protecting screen modular unit B2, multilayer operation platform modular unit B3, turnover panel 144 and cat ladder are installed respectively.
The one of another embodiment is adhered to automatic lifting protecting screen mounting method, comprising:
Described 1 protecting screen modular unit A1 and 1 protecting screen modular unit B2 and independently seat in the plane platform support body of 1 assembled rear formation one Pin of multilayer operation platform modular unit B3.
Further, erection sequence is:
1) first protecting screen modular unit A1 integral hoisting to external wall is supported to the precalculated position on basis, the supporting base in protecting screen modular unit A1 19 and the preformed hole of Architectural fringes are installed;
2) the mobile suspender member 155 in Hoisting System 15 is connected with building;
3) will protect again 2 integral hoistings of panel module unit B to protecting screen modular unit A1, and be attached thereto;
4) then multilayer operation platform modular unit B3 is installed on panel module unit B 2, is connected with combined system support bar 4 with combined system connector 5; Supporting base 19 on multilayer operation platform modular unit B3 is connected with architectural corresponding preformed hole simultaneously.
A described Pin independently after seat in the plane platform erection of frames, continues to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin (n is natural number), laterally connects between described adjacent two seat in the plane platform support bodys.
A described Pin is independently after seat in the plane platform erection of frames, several or whole protecting screen modular unit A1 of parts are aside installed, and laterally connect, protecting screen modular unit B2 is installed on protecting screen modular unit A1 again, then multilayer operation platform modular unit B3 is installed on protecting screen modular unit B2.
Described protecting screen modular unit B2, multilayer operation platform modular unit B3 laterally connect, described in adhere to installation and the wiring of carrying out electrical system after the installation of automatic lifting protecting screen.
Described protecting screen modular unit A1 is as follows in the order of installation on ground:
The one of another embodiment is adhered to automatic lifting protecting screen mounting method, by protecting screen modular unit A1, protecting screen modular unit B2 and multilayer operation platform modular unit B3 are assembled into independently seat in the plane platform support body of a Pin on ground, again this seat in the plane platform support body is winched to predetermined installation site with tower crane, again by protecting screen modular unit A1, protecting screen modular unit B2 is connected with architectural preformed hole with the supporting base of going up separately 19 of multilayer operation platform modular unit B3, and the mobile suspender member 155 in the Hoisting System 15 of protecting screen modular unit A1 is connected with building,
Continue to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin, laterally connects between described adjacent two seat in the plane platform support bodys; After completing, the erection of frames that adheres to automatic lifting protecting screen carries out installation and the wiring of electrical system.
In this manual, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, identical similar part cross-references between each embodiment.
" embodiment ", " another embodiment ", " embodiment " that spoken of in this manual, etc., refer to specific features, structure or the feature described in conjunction with this embodiment and be included at least one embodiment that the application's generality describes.In manual, multiple local appearance statement of the same race is not necessarily to refer to same embodiment.Furthermore, while describing a specific features, structure or feature in conjunction with arbitrary embodiment, what advocate is to realize this feature, structure or feature in conjunction with other embodiment also to drop in scope of invention.
Although invention is described with reference to the multiple explanatory embodiment of invention here, but, should be appreciated that, those skilled in the art can design a lot of other modification and embodiments, and these are revised and within embodiment will drop on the disclosed principle scope and spirit of the application.More particularly, in the scope of, accompanying drawing open in the application and claim, can carry out multiple modification and improvement to the building block of subject combination layout and/or layout.Except modification that building block and/or layout are carried out with improving, to those skilled in the art, other purposes will be also obvious.
Claims (10)
1. adhere to an automatic lifting protecting screen mounting method, it is characterized in that, utilize external wall common steel tube scaffold or ground or annex roofing around, the supporting basis when adhering to automatic lifting protecting screen and install, concrete steps are as follows:
Step 1, set up defences and protect panel module unit A(1 on the basic upper berth of supporting) screen platform base plate (14), row's column (112), outer row's column and spine structure (12) in installing;
Step 2, at protecting screen modular unit A(1) spine structure (12) and interior row's column (112), outer row's column between horizontal shore (113) is installed respectively;
Step 3, at protecting screen modular unit A(1) the upper transfer (158) of encorbelmenting of installing of spine structure (12);
Step 4, at protecting screen modular unit A(1) the upper protecting screen modular unit B(2 that installs), and at protecting screen modular unit A(1) and protecting screen modular unit B(2) on other parts except the transfer of encorbelmenting (158) in protective screen plate (23), supporting base (19), Hoisting System (15) are all installed;
Step 5, at protecting screen modular unit B(2) the upper multilayer operation platform modular unit B(3 that installs), install and be used for connecting protecting screen modular unit B(2 simultaneously) and multilayer operation platform modular unit B(3) combined system connector (5) and combined system support bar (4);
Described 1 protecting screen modular unit A(1) and 1 protecting screen modular unit B(2) and 1 multilayer operation platform modular unit B(3) independently seat in the plane platform support body of assembled rear formation one Pin.
2. the automatic lifting protecting screen mounting method that adheres to according to claim 1, it is characterized in that, after described step 5, respectively at described protecting screen modular unit A(1) screen platform base plate (14), protecting screen modular unit B(2) screen platform base plate (24), multilayer operation platform modular unit B(3) upper turnover panel (144) and the cat ladder installed of platform floor (34).
3. adhere to an automatic lifting protecting screen mounting method, it is characterized in that, comprising:
Step 1, supporting basis on by protecting screen modular unit A(1) and protect panel module unit B (2) and multilayer operation platform modular unit B(3) assemble respectively;
Step 2, utilize tower crane respectively by the protecting screen modular unit A(1 assembling) and protect panel module unit B (2) and multilayer operation platform modular unit B(3) be lifted on external wall and install successively;
Described 1 protecting screen modular unit A(1) and 1 protecting screen modular unit B(2) and 1 multilayer operation platform modular unit B(3) independently seat in the plane platform support body of a Pin formed after assembled.
4. the automatic lifting protecting screen mounting method that adheres to according to claim 3, is characterized in that, erection sequence is:
1) first by protecting screen modular unit A(1) integral hoisting is to the precalculated position on external wall supporting basis, then by protecting screen modular unit A(1) on supporting base (19) install with the preformed hole of Architectural fringes;
2) the mobile suspender member (155) in Hoisting System (15) is connected with building;
3) will protect again panel module unit B (2) integral hoisting to protecting screen modular unit A(1) on, and be attached thereto;
4) then by multilayer operation platform modular unit B(3) be installed on panel module unit B (2), be connected with combined system support bar (4) with combined system connector (5); Simultaneously by multilayer operation platform modular unit B(3) on supporting base (19) connect with architectural corresponding preformed hole.
5. according to adhering to automatic lifting protecting screen mounting method described in claim 3 or 4, it is characterized in that, a described Pin is independently after seat in the plane platform erection of frames, continue to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin, laterally connects between described adjacent two seat in the plane platform support bodys.
6. according to adhering to automatic lifting protecting screen mounting method described in claim 3 or 4, it is characterized in that, a described Pin is independently after seat in the plane platform erection of frames, several or whole protecting screen modular unit A(1 of parts are installed) aside, and laterally connect, again at protecting screen modular unit A(1) on protecting screen modular unit B(2 is installed), then at protecting screen modular unit B(2) the upper multilayer operation platform modular unit B(3 that installs).
7. the automatic lifting protecting screen mounting method that adheres to according to claim 6, is characterized in that, described protecting screen modular unit B(2), multilayer operation platform modular unit B(3) all laterally connect.
8. the automatic lifting protecting screen mounting method that adheres to according to claim 7, is characterized in that, described in adhere to installation and the wiring of carrying out electrical system after the installation of automatic lifting protecting screen.
9. the automatic lifting protecting screen mounting method that adheres to according to claim 3, is characterized in that, described protecting screen modular unit A(1) as follows in the order of installation on ground:
Step 1, by protecting screen modular unit A(1) outer row's column, spine structure (12) lie in ground take protective screen plate (23) width as spacing, and pave certain altitude with cushion block;
Step 2, arrange protective screen plate (23) is installed between column and spine structure (12) outside;
Step 3, screen platform base plate (14) is installed between on spine structure (12) and outer row's column, and at the opposite side of screen platform base plate (14), protecting screen modular unit A(1 is installed) interior row's column (112);
Step 4, at protecting screen modular unit A(1) interior row's column (112) and spine structure (12) between horizontal shore (113) is installed;
Step 5, in the upper Hoisting System (15) of installing of spine structure (12);
Step 6, the upper installation bearing seat (19) of guide rail (121) in spine structure (12);
Step 7, at the upper turnover panel (144) of installing of screen platform base plate (14).
10. one kind is adhered to automatic lifting protecting screen mounting method, it is characterized in that, by protecting screen modular unit A(1), protecting screen modular unit B(2) and multilayer operation platform modular unit B(3) be assembled into independently seat in the plane platform support body of a Pin on ground, again this seat in the plane platform support body is winched to predetermined installation site with tower crane, again by protecting screen modular unit A(1), protecting screen modular unit B(2) with multilayer operation platform modular unit B(3) the supporting base of going up separately (19) be connected with architectural preformed hole, and by protecting screen modular unit A(1) Hoisting System (15) in mobile suspender member (155) with building be connected,
Continue to install the 2nd Pin, the 3rd Pin aside ... the seat in the plane platform support body of n Pin, laterally connects between described adjacent two seat in the plane platform support bodys;
After completing, the erection of frames that adheres to automatic lifting protecting screen carries out installation and the wiring of electrical system.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105888229A (en) * | 2016-05-31 | 2016-08-24 | 中国冶集团有限公司 | All-steel attached scaffold mounting method |
CN113513149A (en) * | 2020-04-09 | 2021-10-19 | 广东博智林机器人有限公司 | Attached type protection platform |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0525933A (en) * | 1991-07-24 | 1993-02-02 | Shimizu Corp | Strut type scaffold form lifting device and concrete building frame construction method |
JPH06271245A (en) * | 1993-03-18 | 1994-09-27 | Yoshitada Etsuhara | Carrier of lift for construction |
CN1500171A (en) * | 2001-03-27 | 2004-05-26 | ��¬���ذ�ȫ�ɷݹ�˾ | Device for personal protection in scaffolding |
CN201339309Y (en) * | 2009-01-05 | 2009-11-04 | 重庆第三建设有限责任公司 | Attached self-lifting scaffold |
CN202099993U (en) * | 2011-05-26 | 2012-01-04 | 云南西润投资控股有限公司 | Lift type external scaffold made of square steel pipes |
CN202990393U (en) * | 2012-10-15 | 2013-06-12 | 门晓红 | Tool type steel mesh attached elevating scaffold |
CN103422663A (en) * | 2013-01-25 | 2013-12-04 | 成都嘉泽正达科技有限公司 | Adhesive lifting scaffold |
-
2014
- 2014-03-31 CN CN201410127224.9A patent/CN103899078B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0525933A (en) * | 1991-07-24 | 1993-02-02 | Shimizu Corp | Strut type scaffold form lifting device and concrete building frame construction method |
JPH06271245A (en) * | 1993-03-18 | 1994-09-27 | Yoshitada Etsuhara | Carrier of lift for construction |
CN1500171A (en) * | 2001-03-27 | 2004-05-26 | ��¬���ذ�ȫ�ɷݹ�˾ | Device for personal protection in scaffolding |
CN201339309Y (en) * | 2009-01-05 | 2009-11-04 | 重庆第三建设有限责任公司 | Attached self-lifting scaffold |
CN202099993U (en) * | 2011-05-26 | 2012-01-04 | 云南西润投资控股有限公司 | Lift type external scaffold made of square steel pipes |
CN202990393U (en) * | 2012-10-15 | 2013-06-12 | 门晓红 | Tool type steel mesh attached elevating scaffold |
CN103422663A (en) * | 2013-01-25 | 2013-12-04 | 成都嘉泽正达科技有限公司 | Adhesive lifting scaffold |
Cited By (2)
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CN105888229A (en) * | 2016-05-31 | 2016-08-24 | 中国冶集团有限公司 | All-steel attached scaffold mounting method |
CN113513149A (en) * | 2020-04-09 | 2021-10-19 | 广东博智林机器人有限公司 | Attached type protection platform |
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