CN204059943U - A kind of formwork for placing structure of non-standard layers structure - Google Patents

A kind of formwork for placing structure of non-standard layers structure Download PDF

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Publication number
CN204059943U
CN204059943U CN201420485570.XU CN201420485570U CN204059943U CN 204059943 U CN204059943 U CN 204059943U CN 201420485570 U CN201420485570 U CN 201420485570U CN 204059943 U CN204059943 U CN 204059943U
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wooden
template
standard layers
aluminium alloy
formwork
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杨鼎
杨涛
陆仕颖
赵小东
程彦哲
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China Construction Eighth Engineering Division Co Ltd
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China Construction Eighth Engineering Division Co Ltd
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Abstract

The utility model discloses a kind of formwork for placing structure of non-standard layers structure, comprise at least one first non-standard layers, the difference in height that floor height exceeds typical floor floor height is △ 1, formwork structure comprises the first aluminium alloy fixed shape template and the first wooden lengthening template of typical floor, first aluminium alloy fixed shape template comprises the first wall column formwork and the first beam-slab template, first wooden lengthening template comprises the first wooden form be layed in outside exterior sheathing that wooden bed die on the first beam-slab template and correspondence be arranged at the first wall column formwork, the height of wooden bed die equals △ 1, first wooden form passes through the first split bolt drawknot in the outside of wooden bed die, thus form the first wooden lengthening template of the first non-standard layers.Adopting aluminum alloy mould plate and wooden form gang form system to construct, when not changing aluminum alloy mould plate, making floor height meet the floor height of non-standard layers, save material, manpower, time cost etc., meet green construction requirement.

Description

A kind of formwork for placing structure of non-standard layers structure
Technical field
The utility model relates to the non-standard layers construction of super highrise building, particularly relates to a kind of formwork for placing structure of non-standard layers structure.
Background technology
Along with the continuous quickening of process of modernization, various highrise building, big-and-middle-sized commercial building, factory building continue to bring out, and propose higher, tighter requirement to the application of template system.Present stage, aluminum alloy mould plate is widely used in highrise building, has both decreased the loss to timber, and improving construction speed widely again and bring considerable benefit to enterprise, is the trend of the times of low-carbon (LC) society.
But, aluminum alloy mould plate is the typified form system according to engineering specification Rotating fields, component assigned position, physical dimension customization, be applicable to typical floor structure construction, comparison with standard layer, non-standard layers floor height has some to change, therefore, aluminum alloy mould plate cannot continue to use for the non-standard layers (being generally the floor of the specific uses such as refuge story) in highrise building.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of formwork for placing structure being applicable to super highrise building non-standard layers structure, ensuring the quality of products and saving material, manpower, time cost etc. under safe prerequisite, meets green construction requirement.
For realizing above-mentioned technique effect, the utility model discloses a kind of formwork for placing structure of non-standard layers structure, described non-standard layers structure comprises at least one first non-standard layers, the difference in height that the floor height of described first non-standard layers exceeds typical floor floor height is △ 1, the formwork for placing structure of described first non-standard layers comprises the first aluminium alloy fixed shape template of described typical floor and is located at the first wooden lengthening template of described first aluminium alloy fixed shape die head, described first aluminium alloy fixed shape template comprises the first wall column formwork and is located at the first beam-slab template between described first wall column formwork, described first wooden lengthening template comprises the first wooden form be layed in outside exterior sheathing that wooden bed die on described first beam-slab template and correspondence be arranged at described first wall column formwork, the height of described wooden bed die equals △ 1, described first wooden form passes through the first split bolt drawknot in the outside of described wooden bed die, thus form the first wooden lengthening template of described first non-standard layers, by wall column and the beam slab of shaping described first non-standard layers of concreting in described first aluminium alloy fixed shape template and described first wooden lengthening template.
The utility model further improves and is, the lower end of described first wooden form is fixed on by angle steel and bolt on the exterior sheathing of the wall column formwork of described first aluminium alloy fixed shape template.
The utility model further improves and is, described first non-standard layers is provided with one second non-standard layers, the difference in height that the floor height of described second non-standard layers exceeds described typical floor floor height is △ 2, the formwork for placing structure of described second non-standard layers comprises the second aluminium alloy fixed shape template of described typical floor and the second wooden lengthening template be located at bottom described second aluminium alloy fixed shape template, the upper end of described first wooden form upwards extends to form the extension of the beam slab exceeding described first non-standard layers, described second wooden lengthening template comprises extension and second wooden form of described first wooden form, the height of described extension is greater than △ 2, described second wooden form passes through the second split bolt drawknot in the inner side of described extension, thus form the second wooden lengthening template of described second non-standard layers, described second split bolt is △ 2 apart from the height of the beam slab of described first non-standard layers, described second aluminium alloy fixed shape model sheetinstallat is on described second split bolt, by wall column and the beam slab of shaping described second non-standard layers of concreting in described second aluminium alloy fixed shape template and described second wooden lengthening template.
The utility model further improves and is, described second split bolt is provided with wooden a tree, used in making timber for boats presser feet, and the lower end of described second aluminium alloy fixed shape template is installed on described wooden a tree, used in making timber for boats presser feet.
The utility model further improves and is, multiple described first split bolt is that 450mm drawknot is between described wooden bed die and described first wooden form with spacing.
The utility model further improves and is, multiple described second split bolt is that 450mm drawknot is between described first wooden form and described second wooden form with spacing.
The utility model is owing to have employed above technical scheme, make it have following beneficial effect: by installing wooden bed die on the first beam-slab template of the first aluminium alloy fixed shape template, and the first wooden form is correspondingly set, form the first wooden lengthening template, lengthen the first aluminium alloy fixed shape template, thus the floor height of padded first non-standard layers, when not changing aluminium alloy fixed shape template, make floor height meet the floor height requirement of non-standard layers.By arranging the second wooden form in the lower end of the second aluminium alloy fixed shape template, forming the second aluminium alloy fixed shape template with the first wooden form extended, lengthening the second aluminium alloy fixed shape template, thus the floor height of padded second non-standard layers.Easy construction, simple to operate, ensuring the quality of products and saving material, manpower, time cost etc. under safe prerequisite, meet green construction requirement.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the formwork for placing structure of the first non-standard layers of the present utility model.
Fig. 2 is the close-up schematic view of the mounting structure of the utility model first wooden form and the first aluminium alloy fixed shape template.
Fig. 3 is the mounting structure schematic diagram of the second wooden form of the second non-standard layers of the present utility model.
Fig. 4 is the schematic diagram of the formwork for placing structure of the second non-standard layers of the present utility model.
Fig. 5 is the close-up schematic view of the mounting structure of the utility model second aluminium alloy fixed shape template and the second split bolt.
Fig. 6 ~ Figure 11 is the construction schematic diagram of the non-standard layers structure of the utility model one preferred embodiment.
Detailed description of the invention
Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail.
First consult shown in Fig. 1 and Fig. 2, the formwork for placing structure of a kind of non-standard layers structure of the present utility model is mainly used in constructing non-standard layers in typical floor, non-standard layers structure comprises at least one first non-standard layers 11, the difference in height that the floor height of the first non-standard layers 11 exceeds typical floor floor height is △ 1, the formwork for placing structure of the first non-standard layers 11 comprises the first aluminium alloy fixed shape template 111 of typical floor and is located at the first wooden lengthening template 112 at the first aluminium alloy fixed shape template 111 top, first aluminium alloy fixed shape template 111 is installed on typical floor floor, comprise the first wall column formwork 131 and be located at the first beam-slab template 132 between the first wall column formwork 131, first wooden lengthening template 112 comprises the first wooden form 114 be layed in outside exterior sheathing that wooden bed die 113 on the first beam-slab template 132 and correspondence be arranged at the first wall column formwork 131, the height of wooden bed die 113 equals △ 1, be layed on the first beam-slab template 132, and two ends flush with the inner formword of the first wall column formwork 131.First wooden form 114 passes through the first split bolt 141 drawknot in the outside of wooden bed die 113, thus form the first wooden lengthening template 112 of the first non-standard layers 11, wherein, multiple first split bolt 141 with spacing be 450mm drawknot between wooden bed die 113 and the first wooden form 114, to ensure drawknot intensity.Coordinate shown in Fig. 3, by wall column 1310 and the beam slab 1320 of shaping first non-standard layers 11 of concreting in the first aluminium alloy fixed shape template 111 and the first wooden lengthening template 112.Shown in composition graphs 2, the lower end of the first wooden form 113 adopts angle steel 17, bolt is fixed on the exterior sheathing of the first wall column formwork 131.
Again shown in composition graphs 3 and Fig. 4, first non-standard layers 11 is provided with one second non-standard layers 12, the difference in height that the floor height of the second non-standard layers 12 exceeds typical floor floor height is △ 2, the formwork for placing structure of the second non-standard layers 12 comprises the second aluminium alloy fixed shape template 121 of typical floor and the second wooden lengthening template 122 be located at bottom the second aluminium alloy fixed shape template 121, the upper end of the first wooden form 114 upwards extends to form the extension of the beam slab 1320 exceeding the first non-standard layers 11, second wooden lengthening template 122 comprises extension and second wooden form 123 of the first wooden form 114, the height of extension is greater than △ 2, second wooden form 123 passes through the second split bolt 142 drawknot in the inner side of extension, thus form the second wooden lengthening template 122 of the second non-standard layers 12, wherein, multiple second split bolt 142 is that 450mm drawknot is between the first wooden form 114 and the second wooden form 123 with spacing, to ensure drawknot intensity.Second split bolt 142 is △ 2 apart from the height of the beam slab 1320 of the first non-standard layers 11, as shown in Figure 4 and Figure 5, second split bolt 142 is provided with wooden a tree, used in making timber for boats presser feet 16, the lower end of the second aluminium alloy fixed shape template 121 is installed on wooden a tree, used in making timber for boats presser feet 16, thus the second aluminium alloy fixed shape template 121 is fixed on the second split bolt 142.By wall column and the beam slab of shaping second non-standard layers 12 of concreting in the second aluminium alloy fixed shape template 121 and the second wooden lengthening template 122.
A now construction super highrise building, total building height is 202.4m, and 44 layers on the ground, 3 layers, underground, wherein 15 layers, 30 layers is non-standard layers (refuge story).This engineering is the similar tube-in-tube structural system that rectangle Concrete-Filled Square Steel Tube intersection batter post housing cylinder combines with Reinforced Concrete Core Walls Structure.
Core Walls Structure typical floor aluminium alloy set section mould plate system, comparison with standard layer, non-standard layers floor height has some to change, after considering the factors such as construction safety, workmanship and economic benefit, discharge the selection reconfiguring a set of wooden form or aluminium alloy fixed shape template, to the gang form structure that non-standard layers aluminium alloy set section mould plate and wooden form splice.
Consulting shown in Figure 11, is core inner core within body of wall, is core urceolus (beam slab of encorbelmenting outward) beyond body of wall.
Typical floor core inner core floor height is 4.1m, core urceolus floor height is 4.1m, core inner core floor height is 4.4m to first non-standard layers 11 (14 layers, 29 layers), core urceolus floor height is 4.1m, core inner core floor height is 4.5m to second non-standard layers 12 (15 layers, 30 layers), core urceolus floor height is 4.8m, and Core Walls Structure beam slab thickness is 150mm.
The construction technology of (one) first non-standard layers 11
First non-standard layers 11 core inner core floor height (4.4m) 0.3m higher than typical floor core inner core floor height (4.1m), and core urceolus floor height identical (being 4.1m).
Shown in composition graphs 6, first aluminium alloy fixed shape template 111 is installed, the high wooden bed die 113 of 300mm is made by 16mm laminated wood template, on the first beam-slab template 132 adding the core inner core being fixed in the first aluminium alloy fixed shape template 111 being originally applicable to typical floor, between inside the interior wall 21 making wooden bed die 113 be placed in core inner core and inside exterior wall 22, then install according to the support system of original typical floor, reinforcement means and reinforce the first aluminium alloy fixed shape template 111.
Meanwhile, the first wooden form 114, first wooden form 114 exterior sheathing of first aluminum alloy mould plate 111 first wall column formwork 131 in the outside of the interior wall 21 of the core inner core corresponded to and the outside of exterior wall 22 reinforcing 800mm high adopts 16mm laminated wood template to make; The exterior sheathing corresponding to the first wall column formwork 131 outside interior wall 21 reinforces the high 16mm laminated wood template of 950mm, passes through first split bolt 141 is connected with wooden bed die 113, and the first split bolt 141 spacing is 450mm.First wooden form 113 and the first aluminium alloy fixed shape form joint place utilizes angle steel, bolt is fixed.
Wall column and the beam slab of the first non-standard layers 11 is built, as shown in Figure 7 between the first aluminium alloy fixed shape template 111, wooden bed die 113 and the first wooden form 114.
(2) second non-standard layers 12 construction technologies
Second non-standard layers 12 core inner core floor height (4.5m) 0.4m higher than typical floor core inner core floor height (4.1m), the second non-standard layers 12 core urceolus floor height (4.8m) 0.7m higher than typical floor core urceolus floor height (4.1m).
Step one: as shown in Figure 8, the beam slab of the first non-standard layers 11 is reinforced the second wooden form 123 that 500mm is high, second wooden form 123 adopts 16mm laminated wood template to make, inside the Core Walls Structure interior wall 21 that second wooden form 123 correspondence is arranged at the second non-standard layers 12 with exterior wall 22 inside, and in the beam slab 350mm eminence of distance the first non-standard layers 11, φ 16-20 second split bolt 142 is set, be connected with wall column opposite side first wooden form 114 (the 16mm laminated wood template of 800mm and 950mm), and the second split bolt 142 spacing is 450mm.Second wooden form 123 can carry out the concreting of the second typical floor 12 part wall column after reinforcing, and building is highly 0.5m, as shown in Figure 9.
Step 2: shown in Figure 10, after removing the first aluminium alloy fixed shape template 111, wooden bed die 113 and the first wooden form 114 and the second wooden form 123, only leave the second split bolt 142 of 350mm eminence in the second non-standard layers 12, second split bolt 142 is placed the wooden a tree, used in making timber for boats presser feet 16 of 50mm × 100mm, then, wooden a tree, used in making timber for boats presser feet 16 is installed the second aluminium alloy fixed shape template 121 of the second non-standard layers 12, and in the second aluminium alloy fixed shape template 121, build the second non-standard layers 12 remainder wall column and beam slab, as shown in figure 11.0.5m height wall column in second non-standard layers 12 of building in step one, stretches into the bottom 100mm in the second aluminium alloy fixed shape template 121, spillage when building to prevent secondary.After second non-standard layers 12 has been constructed, remove the second aluminium alloy fixed shape template 121, site clearing.
Wooden bed die 113, first wooden form 114 and the second wooden form 123 can have enough to meet the need use, according to the requirement of story height, wooden bed die 113, first wooden form 114 and the second wooden form 123 is connected between the aluminium alloy fixed shape template of typical floor, to lengthen aluminium alloy fixed shape template, raise story height, when not changing aluminium alloy fixed shape template, floor height is made to meet the floor height requirement of non-standard layers.Adopt aluminium alloy fixed shape template and wooden form gang form system to construct, ensuring the quality of products and saving material, manpower, time cost etc. under safe prerequisite, meet green construction requirement.
Below embodiment has been described in detail the utility model by reference to the accompanying drawings, and those skilled in the art can make many variations example to the utility model according to the above description.Thus, some details in embodiment should not formed restriction of the present utility model, the utility model by the scope that defines using appended claims as protection domain of the present utility model.

Claims (6)

1. the formwork for placing structure of a non-standard layers structure, it is characterized in that: described non-standard layers structure comprises at least one first non-standard layers, the difference in height that the floor height of described first non-standard layers exceeds typical floor floor height is △ 1, the formwork for placing structure of described first non-standard layers comprises the first aluminium alloy fixed shape template of described typical floor and is located at the first wooden lengthening template of described first aluminium alloy fixed shape die head, described first aluminium alloy fixed shape template comprises the first wall column formwork and is located at the first beam-slab template between described first wall column formwork, described first wooden lengthening template comprises the first wooden form be layed in outside exterior sheathing that wooden bed die on described first beam-slab template and correspondence be arranged at described first wall column formwork, the height of described wooden bed die equals △ 1, described first wooden form passes through the first split bolt drawknot in the outside of described wooden bed die, thus form the first wooden lengthening template of described first non-standard layers, by wall column and the beam slab of shaping described first non-standard layers of concreting in described first aluminium alloy fixed shape template and described first wooden lengthening template.
2. formwork for placing structure as claimed in claim 1, is characterized in that: the lower end of described first wooden form is fixed on by angle steel and bolt on the exterior sheathing of the first wall column formwork of described first aluminium alloy fixed shape template.
3. formwork for placing structure as claimed in claim 1, it is characterized in that: described first non-standard layers is provided with one second non-standard layers, the difference in height that the floor height of described second non-standard layers exceeds described typical floor floor height is △ 2, the formwork for placing structure of described second non-standard layers comprises the second aluminium alloy fixed shape template of described typical floor and the second wooden lengthening template be located at bottom described second aluminium alloy fixed shape template, the upper end of described first wooden form upwards extends to form the extension of the beam slab exceeding described first non-standard layers, described second wooden lengthening template comprises extension and second wooden form of described first wooden form, the height of described extension is greater than △ 2, described second wooden form passes through the second split bolt drawknot in the inner side of described extension, thus form the second wooden lengthening template of described second non-standard layers, described second split bolt is △ 2 apart from the height of the beam slab of described first non-standard layers, described second aluminium alloy fixed shape model sheetinstallat is on described second split bolt, by wall column and the beam slab of shaping described second non-standard layers of concreting in described second aluminium alloy fixed shape template and described second wooden lengthening template.
4. formwork for placing structure as claimed in claim 3, it is characterized in that: described second split bolt is provided with wooden a tree, used in making timber for boats presser feet, the lower end of described second aluminium alloy fixed shape template is installed on described wooden a tree, used in making timber for boats presser feet.
5. formwork for placing structure as claimed in claim 1, is characterized in that: multiple described first split bolt is that 450mm drawknot is between described wooden bed die and described first wooden form with spacing.
6. structure as claimed in claim 3, is characterized in that: multiple described second split bolt is that 450mm drawknot is between described first wooden form and described second wooden form with spacing.
CN201420485570.XU 2014-08-26 2014-08-26 A kind of formwork for placing structure of non-standard layers structure Active CN204059943U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104153579A (en) * 2014-08-26 2014-11-19 中国建筑第八工程局有限公司 Pouring formwork structure for non-standard layer structure and construction method
GB2540126B (en) * 2015-06-29 2020-12-16 Solidspace System Build Ltd Casting method and apparatus

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104153579A (en) * 2014-08-26 2014-11-19 中国建筑第八工程局有限公司 Pouring formwork structure for non-standard layer structure and construction method
CN104153579B (en) * 2014-08-26 2016-03-09 中国建筑第八工程局有限公司 A kind of formwork for placing structure of non-standard layers structure and construction method
GB2540126B (en) * 2015-06-29 2020-12-16 Solidspace System Build Ltd Casting method and apparatus

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